diff --git a/.github/copilot-instructions.md b/.github/copilot-instructions.md
index 2c310a17d..d9ef8b92c 100644
--- a/.github/copilot-instructions.md
+++ b/.github/copilot-instructions.md
@@ -167,4 +167,4 @@
 - 要求自检清单：在回复末尾添加“自检清单”并列出上面『质量检查』项的逐项确认。
 
 > 例子 (英文提示词)
-> "Using `docs/cubie/a7z/README.md` as a reference, produce an English `README.md` for a new board `XYZ`: include product overview, specs (table), quick start, install system (MicroSD/eMMC/UFS/NVMe), tips/ warnings. Add frontmatter: `sidebar_position: 1`, `slug: /xyz`, `description`. Ensure English files contain no Chinese. Return the full markdown file and a self-check list confirming frontmatter + local image paths + internal links are valid."
+> "Using `docs/cubie/a7z/README.md` as a reference, produce an English `README.md` for a new board `XYZ`: include product overview, specs (table), quick start, install system (microSD/eMMC/UFS/NVMe), tips/ warnings. Add frontmatter: `sidebar_position: 1`, `slug: /xyz`, `description`. Ensure English files contain no Chinese. Return the full markdown file and a self-check list confirming frontmatter + local image paths + internal links are valid."
diff --git a/.github/terminology.md b/.github/terminology.md
index 16b098688..393838b75 100644
--- a/.github/terminology.md
+++ b/.github/terminology.md
@@ -14,7 +14,7 @@
 | system image      |                    系统镜像（或 system image） | system image                                   | 镜像文件的正式称呼，中文可并列原文。                                   |
 | flash / 刷机      |                                刷机 / 写入镜像 | flash / write image                            | 建议首选译法为“写入镜像”；用词受上下文影响时可在术语表中注明替代用法。 |
 | bootloader        |                                   引导加载程序 | bootloader                                     | 统一译法为“引导加载程序”。                                             |
-| MicroSD / SD card |                                     MicroSD 卡 | MicroSD / SD card                              | 存储卡命名；写作 `MicroSD 卡` 时保留大小写。                           |
+| microSD / SD card |                                     microSD 卡 | microSD / SD card                              | 存储卡命名；写作 `microSD 卡` 时保留大小写。                           |
 | GPIO              |                                           GPIO | GPIO                                           | 通用 I/O，首现可扩展为“通用输入输出（GPIO）”。                         |
 | PCIe              |                                           PCIe | PCIe                                           | e 必须是小写 ｜                                                        |
 
diff --git a/contents b/contents
new file mode 160000
index 000000000..5d5878232
--- /dev/null
+++ b/contents
@@ -0,0 +1 @@
+Subproject commit 5d5878232a22660150f2ccc67bcdcec6e87a1c4d
diff --git a/docs/accessories/storage/taco/getting-started/quickly-start.md b/docs/accessories/storage/taco/getting-started/quickly-start.md
index 44a793037..d8c715aed 100644
--- a/docs/accessories/storage/taco/getting-started/quickly-start.md
+++ b/docs/accessories/storage/taco/getting-started/quickly-start.md
@@ -26,7 +26,7 @@ sidebar_position: 1
 - 显示设备：HDMI 数据线和显示器
 - 输入设备：USB 键盘和鼠标
 
-说明：若树莓派 CM5 无板载 eMMC，需要额外准备 MicroSD 卡用于系统安装。
+说明：若树莓派 CM5 无板载 eMMC，需要额外准备 microSD 卡用于系统安装。
 
 :::tip 推荐配件
 
@@ -40,7 +40,7 @@ sidebar_position: 1
 请根据树莓派 CM5 是否有板载 eMMC，选择不同的安装方式：
 
 - 若树莓派 CM5 有板载 eMMC，参考 [安装系统到 eMMC](./install-system/emmc-system) 教程
-- 若树莓派 CM5 无板载 eMMC，需要安装系统到 MicroSD 卡，参考 [安装系统到 MicroSD 卡](./install-system/sd-system) 教程
+- 若树莓派 CM5 无板载 eMMC，需要安装系统到 microSD 卡，参考 [安装系统到 microSD 卡](./install-system/sd-system) 教程
 
 ## 启动系统
 
@@ -54,7 +54,7 @@ sidebar_position: 1
 
 <TabItem value="树莓派 CM5 无板载 eMMC">
 
-完成系统安装后，将 MicroSD 卡安装到瑞莎 Taco 的 microSD 卡槽中，然后使用 12V DC 电源适配器给瑞莎 Taco 供电，系统将从 MicroSD 卡启动。
+完成系统安装后，将 microSD 卡安装到瑞莎 Taco 的 microSD 卡槽中，然后使用 12V DC 电源适配器给瑞莎 Taco 供电，系统将从 microSD 卡启动。
 
 </TabItem>
 
diff --git a/docs/cubie/README.md b/docs/cubie/README.md
index d17eed42f..3be8d2e81 100644
--- a/docs/cubie/README.md
+++ b/docs/cubie/README.md
@@ -11,9 +11,9 @@ Cubie 系列是瑞莎基于 Allwinner 芯片推出的一系列单板计算机。
 
 | 型号      | SoC / CPU                                         | NPU 性能          | 内存配置                                   | 系统/板载存储                        | 存储扩展与总线                  | 网络与无线                                              | 显示与摄像头                                 | 典型接口                              |
 | --------- | ------------------------------------------------- | ----------------- | ------------------------------------------ | ------------------------------------ | ------------------------------- | ------------------------------------------------------- | -------------------------------------------- | ------------------------------------- |
-| Cubie A5E | 全志 A527 / T527，8× Cortex-A55，最高 2.0GHz      | T527 版本：2 TOPS | LPDDR4/4x：1GB / 2GB / 4GB                 | SPI Flash，板载 eMMC（可选 0～32GB） | MicroSD，M.2 M Key NVMe（2230） | 双千兆以太网（1 路 PoE，需 PoE HAT），Wi‑Fi 6，蓝牙 5.4 | HDMI 4K@60，1× MIPI DSI，1× MIPI CSI         | 40Pin GPIO，USB 3.0 Type‑A，USB‑C OTG |
-| Cubie A7A | 全志 A733，2× A76 + 6× A55，最高 2.0GHz           | 3 TOPS            | LPDDR5：2GB / 4GB / 6GB / 8GB / 12GB / 16GB | 8MB SPI NOR Flash                    | MicroSD，eMMC 模块，UFS 模块    | 千兆以太网（PoE，需 PoE HAT），Wi‑Fi 6，蓝牙 5.4        | HDMI 4K@60，1× MIPI DSI，1×/2× MIPI CSI      | 40Pin GPIO，PCIe 3.0 FPC，丰富 USB    |
-| Cubie A7Z | 全志 A733，2× A76 + 6× A55，板卡 65×30mm 超小尺寸 | 3 TOPS@INT8       | LPDDR4/4x：1GB / 2GB / 4GB / 8GB / 16GB    | 可选板载 UFS（最高 1TB）             | MicroSD，PCIe 3.0 FPC（1‑lane） | 板载 Wi‑Fi 6，蓝牙 5.4                                  | Micro HDMI 4K@60，USB‑C 3.0 DP Alt，MIPI CSI | 40Pin GPIO，双 USB‑C                  |
+| Cubie A5E | 全志 A527 / T527，8× Cortex-A55，最高 2.0GHz      | T527 版本：2 TOPS | LPDDR4/4x：1GB / 2GB / 4GB                 | SPI Flash，板载 eMMC（可选 0～32GB） | microSD，M.2 M Key NVMe（2230） | 双千兆以太网（1 路 PoE，需 PoE HAT），Wi‑Fi 6，蓝牙 5.4 | HDMI 4K@60，1× MIPI DSI，1× MIPI CSI         | 40Pin GPIO，USB 3.0 Type‑A，USB‑C OTG |
+| Cubie A7A | 全志 A733，2× A76 + 6× A55，最高 2.0GHz           | 3 TOPS            | LPDDR5：2GB / 4GB / 6GB / 8GB / 12GB / 16GB | 8MB SPI NOR Flash                    | microSD，eMMC 模块，UFS 模块    | 千兆以太网（PoE，需 PoE HAT），Wi‑Fi 6，蓝牙 5.4        | HDMI 4K@60，1× MIPI DSI，1×/2× MIPI CSI      | 40Pin GPIO，PCIe 3.0 FPC，丰富 USB    |
+| Cubie A7Z | 全志 A733，2× A76 + 6× A55，板卡 65×30mm 超小尺寸 | 3 TOPS@INT8       | LPDDR4/4x：1GB / 2GB / 4GB / 8GB / 16GB    | 可选板载 UFS（最高 1TB）             | microSD，PCIe 3.0 FPC（1‑lane） | 板载 Wi‑Fi 6，蓝牙 5.4                                  | Micro HDMI 4K@60，USB‑C 3.0 DP Alt，MIPI CSI | 40Pin GPIO，双 USB‑C                  |
 
 ## 型号特点与选型建议
 
diff --git a/docs/cubie/a5e/README.md b/docs/cubie/a5e/README.md
index 7ba76dd9d..2c79daac3 100644
--- a/docs/cubie/a5e/README.md
+++ b/docs/cubie/a5e/README.md
@@ -39,7 +39,7 @@ Cubie A5E 在紧凑形态中实现了性能与能效的平衡，适合嵌入式
 | -------- | --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | 处理器   | 系统级芯片 (SoC)： 全志 A527 <br/> 中央处理器 (CPU)： 8 核 Cortex-A55 <br/> 图形处理器 (GPU)： Arm Mali-G57; 支持 OpenGL® ES 1.1 / 2.0 / 3.1 / 3.2、Vulkan® 1.1、OpenCL™ 1.1 / 1.2 / 2.0 <br/> 神经网络加速器 (NPU)： 无 |
 | 内存     | LPDDR4 / LPDDR4x，可选：1GB / 2GB / 4GB                                                                                                                                                                                     |
-| 存储     | 启动存储： 板载 SPI Flash <br/> 系统存储： 支持 MicroSD 卡 / 板载 eMMC（可选 0GB / 8GB / 16GB / 32GB） / 支持 M.2 M Key NVMe SSD <br/> **启动优先级**：MicroSD 卡 > NVMe SSD > 板载 eMMC                                    |
+| 存储     | 启动存储： 板载 SPI Flash <br/> 系统存储： 支持 microSD 卡 / 板载 eMMC（可选 0GB / 8GB / 16GB / 32GB） / 支持 M.2 M Key NVMe SSD <br/> **启动优先级**：microSD 卡 > NVMe SSD > 板载 eMMC                                    |
 | 网络     | 有线连接： 2 个千兆以太网口（支持 PoE，需外接 PoE HAT） <br/> 无线连接： Wi-Fi 6、蓝牙 5.4，预留天线座                                                                                                                      |
 | 视频输出 | HDMI： 1 个 HDMI 接口，最高支持 4K@60fps <br/> MIPI DSI： 1 个 4 通道 MIPI DSI                                                                                                                                              |
 | 摄像头   | 1 个 4 通道 MIPI CSI 或 2 个 2 通道 MIPI CSI                                                                                                                                                                                |
@@ -56,7 +56,7 @@ Cubie A5E 在紧凑形态中实现了性能与能效的平衡，适合嵌入式
 | -------- | ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | 处理器   | 系统级芯片 (SoC)： 全志 T527 <br/> 中央处理器 (CPU)： 8 核 Cortex-A55 <br/> 图形处理器 (GPU)： Arm Mali-G57; 支持 OpenGL® ES 1.1 / 2.0 / 3.1 / 3.2、Vulkan® 1.1、OpenCL™ 1.1 / 1.2 / 2.0 <br/> 神经网络加速器 (NPU)： 2TOPS@INT8 |
 | 内存     | LPDDR4 / LPDDR4x，可选：1GB / 2GB / 4GB                                                                                                                                                                                             |
-| 存储     | 启动存储： 板载 SPI Flash <br/> 系统存储： 支持 MicroSD 卡 / 板载 eMMC（可选 0GB / 8GB / 16GB / 32GB） / 支持 M.2 M Key NVMe SSD <br/> **启动优先级**：MicroSD 卡 > NVMe SSD > 板载 eMMC                                            |
+| 存储     | 启动存储： 板载 SPI Flash <br/> 系统存储： 支持 microSD 卡 / 板载 eMMC（可选 0GB / 8GB / 16GB / 32GB） / 支持 M.2 M Key NVMe SSD <br/> **启动优先级**：microSD 卡 > NVMe SSD > 板载 eMMC                                            |
 | 网络     | 有线连接： 2 个千兆以太网口（支持 PoE，需外接 PoE HAT） <br/> 无线连接： Wi-Fi 6、蓝牙 5.4，预留天线座                                                                                                                              |
 | 视频输出 | HDMI： 1 个 HDMI 接口，最高支持 4K@60fps <br/> MIPI DSI： 1 个 4 通道 MIPI DSI                                                                                                                                                      |
 | 摄像头   | 1 个 4 通道 MIPI CSI 或 2 个 2 通道 MIPI CSI                                                                                                                                                                                        |
@@ -80,7 +80,7 @@ Cubie A5E 在紧凑形态中实现了性能与能效的平衡，适合嵌入式
 | ①    | Wi-Fi / 蓝牙模块    | ⑧    | PoE 排针               | ⑭    | LPDDR4 / LPDDR4x 内存      |
 | ②    | 天线座              | ⑨    | 千兆以太网（支持 PoE） | ⑮    | 全志 A527 / T527           |
 | ③    | USB 3.0 Type-A HOST | ⑩    | MIPI DSI               | ⑯    | 板载 eMMC（预留）          |
-| ④    | HDMI                | ⑪    | MicroSD 卡槽           | ⑰    | 40 Pin GPIO 排针           |
+| ④    | HDMI                | ⑪    | microSD 卡槽           | ⑰    | 40 Pin GPIO 排针           |
 | ⑤    | SPI Flash           | ⑫    | MIPI CSI               | ⑱    | USB Type-C (5V 供电 & OTG) |
 | ⑥    | UBOOT 按键          | ⑬    | M.2 M Key 2230 插槽    | ⑲    | 千兆以太网（不支持 PoE）   |
 | ⑦    | 状态指示灯          |      |                        |      |                            |
diff --git a/docs/cubie/a5e/download.md b/docs/cubie/a5e/download.md
index de64f992d..8a198bfed 100644
--- a/docs/cubie/a5e/download.md
+++ b/docs/cubie/a5e/download.md
@@ -18,13 +18,13 @@ sidebar_position: 150
 ## 系统镜像
 
 :::tip 新手入门推荐
-我们强烈建议新手用户下载 GPT 格式的 Radxa OS 官方切换分支，并使用 [Balena Etcher](./getting-started/quickly-start#安装系统镜像) 工具将其安装到 MicroSD 卡中。这是最简单、最快捷的上手方式。
+我们强烈建议新手用户下载 GPT 格式的 Radxa OS 官方切换分支，并使用 [Balena Etcher](./getting-started/quickly-start#安装系统镜像) 工具将其安装到 microSD 卡中。这是最简单、最快捷的上手方式。
 
 **镜像类型说明**
 
 - GPT 系统镜像（推荐新手）：
 
-  - 适用于 MicroSD 卡或 NVMe SSD
+  - 适用于 microSD 卡或 NVMe SSD
   - 使用 Balena Etcher 图形化工具，操作简单
   - 支持 `dd` 命令行烧录
   - 瑞莎推荐的镜像类型，兼容性最佳
@@ -63,7 +63,7 @@ sidebar_position: 150
   - 适用于 GPT 系统镜像
   - 界面友好，操作简单
   - 自动校验镜像完整性
-  - 最适合将系统安装到 MicroSD 卡或 NVMe SSD
+  - 最适合将系统安装到 microSD 卡或 NVMe SSD
 
 - **[PhoenixSuit (Windows)](https://dl.radxa.com/tools/windows/PhoenixSuit_V2.0.4.zip)** / **[LiveSuit (Linux)](https://dl.radxa.com/tools/linux/LiveSuit_Linux_V3.0.8.zip)**
 
@@ -73,7 +73,7 @@ sidebar_position: 150
   - 需要一定技术基础
 
 - **[PhoenixCard](https://dl.radxa.com/tools/windows/PhoenixCard_V4.3.1.zip)** (Windows)
-  - 支持 FEL 固件制作可启动 MicroSD 卡
+  - 支持 FEL 固件制作可启动 microSD 卡
   - 可用于批量生产场景
 
 ## 硬件设计
diff --git a/docs/cubie/a5e/getting-started/install-system/emmc-system.md b/docs/cubie/a5e/getting-started/install-system/emmc-system.md
index 31dacaba9..7e3d27576 100644
--- a/docs/cubie/a5e/getting-started/install-system/emmc-system.md
+++ b/docs/cubie/a5e/getting-started/install-system/emmc-system.md
@@ -16,7 +16,7 @@ import DDUse from '../../../../common/radxa-os/install-system/\_use_dd_emmc.mdx'
 
 完成系统的安装后，将主板关机，断开主板电源，按照以下操作完成系统启动：
 
-① : 将 MicroSD 卡从主板上取下
+① : 将 microSD 卡从主板上取下
 
 ② : 使用 HDMI 数据线连接显示器和主板
 
diff --git a/docs/cubie/a5e/getting-started/install-system/microsd-system.md b/docs/cubie/a5e/getting-started/install-system/microsd-system.md
index 88e885fe3..c2f07aa60 100644
--- a/docs/cubie/a5e/getting-started/install-system/microsd-system.md
+++ b/docs/cubie/a5e/getting-started/install-system/microsd-system.md
@@ -4,13 +4,13 @@ sidebar_position: 1
 
 import BalenaEtcherUse from '../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 <BalenaEtcherUse />
 
 ## 启动系统
 
-① : 将 MicroSD 卡插入 MicroSD 卡槽
+① : 将 microSD 卡插入 microSD 卡槽
 
 ② : 使用 HDMI 数据线连接显示器和主板
 
diff --git a/docs/cubie/a5e/getting-started/install-system/nvme-system/README.md b/docs/cubie/a5e/getting-started/install-system/nvme-system/README.md
index cfc8674d1..2b6ec1ada 100644
--- a/docs/cubie/a5e/getting-started/install-system/nvme-system/README.md
+++ b/docs/cubie/a5e/getting-started/install-system/nvme-system/README.md
@@ -17,4 +17,4 @@ NVMe SSD 是一种高速、高容量、低成本的存储设备，可用于存
 你可以根据自己的硬件设备选择不同的写入方式：
 
 - [使用硬盘盒写入系统镜像](./install-system/reader.md)：需要使用到 NVMe 固态硬盘盒，操作相对简单！
-- [从 SD 卡写入系统镜像到 NVMe](./install-system/no-reader.md)：需要基于 MicroSD 卡正常启动 Cubie A5E 系统，然后使用 `dd` 命令将系统安装到 NVMe SSD 上。
+- [从 SD 卡写入系统镜像到 NVMe](./install-system/no-reader.md)：需要基于 microSD 卡正常启动 Cubie A5E 系统，然后使用 `dd` 命令将系统安装到 NVMe SSD 上。
diff --git a/docs/cubie/a5e/getting-started/install-system/nvme-system/install-system/no-reader.md b/docs/cubie/a5e/getting-started/install-system/nvme-system/install-system/no-reader.md
index 851a2a23a..81826956a 100644
--- a/docs/cubie/a5e/getting-started/install-system/nvme-system/install-system/no-reader.md
+++ b/docs/cubie/a5e/getting-started/install-system/nvme-system/install-system/no-reader.md
@@ -12,7 +12,7 @@ import InstallSystem from '../../../../../../common/radxa-os/install-system/\_us
 
 完成系统的安装后，将主板关机，断开主板电源，按照以下操作完成系统启动：
 
-① : 将 MicroSD 卡从主板上取下
+① : 将 microSD 卡从主板上取下
 
 ② : 将 NVMe SSD 安装到主板上
 
diff --git a/docs/cubie/a5e/getting-started/install-system/nvme-system/install-system/reader.md b/docs/cubie/a5e/getting-started/install-system/nvme-system/install-system/reader.md
index 640708304..6eddfe399 100644
--- a/docs/cubie/a5e/getting-started/install-system/nvme-system/install-system/reader.md
+++ b/docs/cubie/a5e/getting-started/install-system/nvme-system/install-system/reader.md
@@ -12,7 +12,7 @@ import InstallSystem from '../../../../../../common/radxa-os/install-system/\_us
 
 完成系统的安装后，将主板关机，断开主板电源，按照以下操作完成系统启动：
 
-① : 将 MicroSD 卡从主板上取下
+① : 将 microSD 卡从主板上取下
 
 ② : 将 NVMe SSD 安装到主板上
 
diff --git a/docs/cubie/a5e/getting-started/quickly-start.md b/docs/cubie/a5e/getting-started/quickly-start.md
index 42e799999..028475e6e 100644
--- a/docs/cubie/a5e/getting-started/quickly-start.md
+++ b/docs/cubie/a5e/getting-started/quickly-start.md
@@ -24,7 +24,7 @@ sidebar_position: 1
 
 - 主板：瑞莎 Cubie A5E
 - 供电：5V Type-C 电源适配器
-- 系统启动介质：MicroSD 卡（用于安装系统与启动）
+- 系统启动介质：microSD 卡（用于安装系统与启动）
 - 显示设备：HDMI 数据线与显示器（用于显示图形界面）
 - 输入设备：键盘和鼠标（用于图形界面操作）
 - 调试工具（可选）：USB 串口数据线（用于串口登录，参考[串口登录](../system-config/uart-login)教程）和 USB-A 拓展坞（用于拓展 USB 外设）
@@ -39,20 +39,20 @@ Cubie A5E 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 ## 安装系统
 
-主要介绍安装系统到 MicroSD 卡。
+主要介绍安装系统到 microSD 卡。
 
 :::warning 重要提醒
-**安装系统会完全格式化 MicroSD 卡，所有数据将被永久删除！**
+**安装系统会完全格式化 microSD 卡，所有数据将被永久删除！**
 
 请在操作前确认：
 
-- MicroSD 卡中没有重要数据，或已完成备份
+- microSD 卡中没有重要数据，或已完成备份
 - 选择了正确的存储设备（避免误格式化其他磁盘）
   :::
 
 ### 硬件连接
 
-将 MicroSD 卡插入 MicroSD 卡读卡器，再将 MicroSD 卡读卡器插入电脑。
+将 microSD 卡插入 microSD 卡读卡器，再将 microSD 卡读卡器插入电脑。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -71,7 +71,7 @@ Cubie A5E 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 ### 安装系统镜像
 
-使用 Balena Etcher 软件可以将系统镜像安装到 MicroSD 卡中。
+使用 Balena Etcher 软件可以将系统镜像安装到 microSD 卡中。
 
 :::tip Balena Etcher
 对于 Balena Etcher 的安装和使用，可以参考 [Etcher 使用](/common/radxa-os/install-system/balena-etcher) 教程。
@@ -90,7 +90,7 @@ Cubie A5E 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 #### 选择存储设备
 
-点击 `Select target` 选项，选择 MicroSD 卡设备。
+点击 `Select target` 选项，选择 microSD 卡设备。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -108,7 +108,7 @@ Cubie A5E 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 #### 开始烧录
 
-点击 `Flash!` 选项，开始烧录系统镜像到 MicroSD 卡中。
+点击 `Flash!` 选项，开始烧录系统镜像到 microSD 卡中。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -143,7 +143,7 @@ Cubie A5E 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 ## 启动系统
 
-① : 将 MicroSD 卡插入 MicroSD 卡槽
+① : 将 microSD 卡插入 microSD 卡槽
 
 ② : 使用 HDMI 数据线连接显示器和主板
 
diff --git a/docs/cubie/a5e/getting-started/use-system.md b/docs/cubie/a5e/getting-started/use-system.md
index b7ee5a8fc..c1e90809b 100644
--- a/docs/cubie/a5e/getting-started/use-system.md
+++ b/docs/cubie/a5e/getting-started/use-system.md
@@ -11,4 +11,4 @@ import UseSystem from '../../../common/radxa-os/install-system/\_use_system.mdx'
 
 # 使用系统
 
-<UseSystem system_start_priority="系统启动优先级：MicroSD 卡 > NVMe SSD > 板载 eMMC" />
+<UseSystem system_start_priority="系统启动优先级：microSD 卡 > NVMe SSD > 板载 eMMC" />
diff --git a/docs/cubie/a5e/hardware-use/hardware-info.md b/docs/cubie/a5e/hardware-use/hardware-info.md
index 45014525e..d1f3ab28d 100644
--- a/docs/cubie/a5e/hardware-use/hardware-info.md
+++ b/docs/cubie/a5e/hardware-use/hardware-info.md
@@ -23,7 +23,7 @@ sidebar_position: 1
 | ①    | Wi-Fi / 蓝牙模块    | ⑧    | PoE 排针               | ⑭    | LPDDR4 / LPDDR4x 内存      |
 | ②    | 天线座              | ⑨    | 千兆以太网（支持 PoE） | ⑮    | 全志 A527 / T527           |
 | ③    | USB 3.0 Type-A HOST | ⑩    | MIPI DSI               | ⑯    | 板载 eMMC（预留）          |
-| ④    | HDMI                | ⑪    | MicroSD 卡槽           | ⑰    | 40 Pin GPIO 排针           |
+| ④    | HDMI                | ⑪    | microSD 卡槽           | ⑰    | 40 Pin GPIO 排针           |
 | ⑤    | SPI Flash           | ⑫    | MIPI CSI               | ⑱    | USB Type-C (5V 供电 & OTG) |
 | ⑥    | UBOOT 按键          | ⑬    | M.2 M Key 2230 插槽    | ⑲    | 千兆以太网（不支持 PoE）   |
 | ⑦    | 状态指示灯          |      |                        |      |                            |
diff --git a/docs/cubie/a5e/hardware-use/microsd.md b/docs/cubie/a5e/hardware-use/microsd.md
index 00da105c9..bf6cbf536 100644
--- a/docs/cubie/a5e/hardware-use/microsd.md
+++ b/docs/cubie/a5e/hardware-use/microsd.md
@@ -2,19 +2,19 @@
 sidebar_position: 2
 ---
 
-# MicroSD 卡槽
+# microSD 卡槽
 
-瑞莎 Cubie A5E 板载标准的 MicroSD 卡槽，兼容 MicroSD / MicroSDHC / MicroSDXC 卡，主要用作系统启动盘或扩展存储空间。
+瑞莎 Cubie A5E 板载标准的 microSD 卡槽，兼容 microSD / microSDHC / microSDXC 卡，主要用作系统启动盘或扩展存储空间。
 
-推荐使用容量 32GB 及以上的 MicroSD 卡，以获得更好的存储空间。
+推荐使用容量 32GB 及以上的 microSD 卡，以获得更好的存储空间。
 
 :::tip
-MicroSD 卡槽具体位置可以查看 [硬件接口](./hardware-info) 教程的接口说明部分！
+microSD 卡槽具体位置可以查看 [硬件接口](./hardware-info) 教程的接口说明部分！
 :::
 
 ## 使用指南
 
-您可以参考 [快速上手](../getting-started/quickly-start) 或 [安装系统到 MicroSD 卡](../getting-started/install-system/microsd-system) 教程，将系统镜像安装到 MicroSD 卡中，然后将 MicroSD 卡插入 MicroSD 卡槽中，测试启动系统是否正常。
+您可以参考 [快速上手](../getting-started/quickly-start) 或 [安装系统到 microSD 卡](../getting-started/install-system/microsd-system) 教程，将系统镜像安装到 microSD 卡中，然后将 microSD 卡插入 microSD 卡槽中，测试启动系统是否正常。
 
 ## 接口规格
 
diff --git a/docs/cubie/a5e/other-system/android/install-system/microsd.md b/docs/cubie/a5e/other-system/android/install-system/microsd.md
index 063121e47..ba384afe8 100644
--- a/docs/cubie/a5e/other-system/android/install-system/microsd.md
+++ b/docs/cubie/a5e/other-system/android/install-system/microsd.md
@@ -7,9 +7,9 @@ imports_resolve_to:
   - docs/common/other-system/fel-image/_microsd_system.mdx
 ---
 
-import MicroSD from '../../../../../common/other-system/fel-image/\_microsd_system.mdx';
+import microSD from '../../../../../common/other-system/fel-image/\_microsd_system.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 :::info 下载地址
 
@@ -17,4 +17,4 @@ import MicroSD from '../../../../../common/other-system/fel-image/\_microsd_syst
 
   :::
 
-<MicroSD />
+<microSD />
diff --git a/docs/cubie/a5e/other-system/android/quickly-started.md b/docs/cubie/a5e/other-system/android/quickly-started.md
index e3e37d003..d562ade69 100644
--- a/docs/cubie/a5e/other-system/android/quickly-started.md
+++ b/docs/cubie/a5e/other-system/android/quickly-started.md
@@ -20,13 +20,13 @@ sidebar_position: 1
 
 您可以根据自己的系统启动介质和拥有的硬件设备，参考下面教程进行系统安装：
 
-- [安装系统到 MicroSD 卡](./install-system/microsd)（新用户推荐）
+- [安装系统到 microSD 卡](./install-system/microsd)（新用户推荐）
 - [安装系统到板载 eMMC](./install-system/emmc)
 
 ## 启动系统
 
 :::tip
-若 Cubie A5E 安装了多个系统启动介质，Cubie A5E 的系统启动优先级为：MicroSD 卡 > NVMe SSD(暂不支持) > 板载 eMMC
+若 Cubie A5E 安装了多个系统启动介质，Cubie A5E 的系统启动优先级为：microSD 卡 > NVMe SSD(暂不支持) > 板载 eMMC
 :::
 
 ① : 将对应系统启动介质安装到 Cubie A5E 的对应接口
diff --git a/docs/cubie/a5e/other-system/tina-os/quickly-start.md b/docs/cubie/a5e/other-system/tina-os/quickly-start.md
index 0f9f5af89..6bae90a73 100644
--- a/docs/cubie/a5e/other-system/tina-os/quickly-start.md
+++ b/docs/cubie/a5e/other-system/tina-os/quickly-start.md
@@ -24,7 +24,7 @@ sidebar_position: 2
 
 - 主板：瑞莎 Cubie A5E
 - 供电：5V Type-C 电源适配器
-- 系统启动介质：MicroSD 卡（用于安装系统与启动）
+- 系统启动介质：microSD 卡（用于安装系统与启动）
 - 显示设备：HDMI 数据线与显示器（用于显示图形界面）
 - 输入设备：键盘和鼠标（用于图形界面操作）
 - 调试工具（可选）：USB 串口数据线（用于串口登录）和 USB-A 拓展坞（用于拓展 USB 外设）
@@ -43,7 +43,7 @@ Cubie A5E 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 **镜像类型选择**
 
-- **GPT 镜像（推荐新手）**：适用于 MicroSD 卡和 NVMe SSD，使用 Balena Etcher 工具安装
+- **GPT 镜像（推荐新手）**：适用于 microSD 卡和 NVMe SSD，使用 Balena Etcher 工具安装
 - **FEL 镜像（高级）**：适用于 eMMC 安装，使用 Phoenix 工具烧录
 
 ## 安装系统
@@ -52,7 +52,7 @@ Cubie A5E 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 **GPT 镜像安装**
 
-- [安装系统到 MicroSD 卡](../../getting-started/quickly-start#安装系统)（新用户推荐）
+- [安装系统到 microSD 卡](../../getting-started/quickly-start#安装系统)（新用户推荐）
 - [安装系统到 NVMe SSD](../../getting-started/install-system/nvme-system)
 
 **FEL 镜像安装**
@@ -61,7 +61,7 @@ Cubie A5E 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 ## 启动系统
 
-① : 将 MicroSD 卡插入 MicroSD 卡槽
+① : 将 microSD 卡插入 microSD 卡槽
 
 ② : 使用 HDMI 数据线连接显示器和主板
 
diff --git a/docs/cubie/a7a/README.md b/docs/cubie/a7a/README.md
index 184e21257..a0e1d4fbe 100644
--- a/docs/cubie/a7a/README.md
+++ b/docs/cubie/a7a/README.md
@@ -32,7 +32,7 @@ Cubie A7A 搭载全志 A733 SoC，采用混合八核高性能 CPU（双核 Arm C
 | -------- | ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | 处理器   | 系统级芯片 (SoC)： 全志 A733 <br/> 中央处理器 (CPU)： 2 核 Cortex-A76 + 6 核 Cortex-A55 <br/> 图形处理器 (GPU)： Imagination BXM-4-64 MC1; 支持 OpenGL ES 3.2、Vulkan 1.3、OpenCL 3.0 <br/> 神经网络加速器 (NPU)： 3 TOPS AI 加速引擎 |
 | 内存     | LPDDR5，可选：2GB / 4GB / 6GB / 8GB / 12GB / 16GB                                                                                                                                                                                     |
-| 存储     | 启动存储： 板载 8MB SPI NOR Flash <br/> 系统存储： 支持 MicroSD 卡 / eMMC 模块 / UFS 模块                                                                                                                                             |
+| 存储     | 启动存储： 板载 8MB SPI NOR Flash <br/> 系统存储： 支持 microSD 卡 / eMMC 模块 / UFS 模块                                                                                                                                             |
 | 网络     | 有线连接： 1 个千兆以太网口（支持 PoE，需外接 PoE HAT） <br/> 无线连接： Wi-Fi 6、蓝牙 5.4，外接天线接口                                                                                                                              |
 | 视频输出 | HDMI： 1 个 HDMI 接口，最高支持 4K@60fps <br/> MIPI DSI： 1 个 4 通道 MIPI DSI                                                                                                                                                        |
 | 摄像头   | 1 个 4 通道 MIPI CSI 或 2 个 2 通道 MIPI CSI                                                                                                                                                                                          |
@@ -56,7 +56,7 @@ Cubie A7A 搭载全志 A733 SoC，采用混合八核高性能 CPU（双核 Arm C
 | ④    | [耳机插孔](/cubie/a7a/hardware-use/headphone)             | ⑪    | [PoE 接口](/cubie/a7a/hardware-use/ethernet)                   | ⑱    | [电源按键](/cubie/a7a/hardware-use/power-key)                     |
 | ⑤    | [UBOOT 按键](/cubie/a7a/hardware-use/uboot-key)           | ⑫    | WiFi6 和 蓝牙5.4                                               | ⑲    | [eMMC / UFS 模块二合一接口](/cubie/a7a/hardware-use/emmc-ufs-com) |
 | ⑥    | [USB 2.0 Type-A 接口](/cubie/a7a/hardware-use/usb-type-a) | ⑬    | [40 Pin GPIO 排针](/cubie/a7a/hardware-use/pin-gpio)           | ⑳    | [MIPI CSI 接口](/cubie/a7a/hardware-use/mipi-csi)                 |
-| ⑦    | [RTC 接口](/cubie/a7a/hardware-use/rtc)                   | ⑭    | [MIPI DSI 接口](/cubie/a7a/hardware-use/mipi-dsi)              | ㉑   | [MicroSD 卡槽](/cubie/a7a/hardware-use/microsd)                   |
+| ⑦    | [RTC 接口](/cubie/a7a/hardware-use/rtc)                   | ⑭    | [MIPI DSI 接口](/cubie/a7a/hardware-use/mipi-dsi)              | ㉑   | [microSD 卡槽](/cubie/a7a/hardware-use/microsd)                   |
 
 - 电源指示灯
 
diff --git a/docs/cubie/a7a/download.md b/docs/cubie/a7a/download.md
index 315516209..e613daabf 100644
--- a/docs/cubie/a7a/download.md
+++ b/docs/cubie/a7a/download.md
@@ -7,13 +7,13 @@ sidebar_position: 150
 ## 系统镜像
 
 :::tip 新手入门推荐
-我们强烈建议新手用户下载 GPT 格式的 Radxa OS 官方切换分支，并使用 [Balena Etcher](./getting-started/install-system/sd-system.md) 工具将其安装到 MicroSD 卡中。这是最简单、最快捷的上手方式。
+我们强烈建议新手用户下载 GPT 格式的 Radxa OS 官方切换分支，并使用 [Balena Etcher](./getting-started/install-system/sd-system.md) 工具将其安装到 microSD 卡中。这是最简单、最快捷的上手方式。
 
 **镜像类型说明**
 
 - GPT 系统镜像（推荐新手）：
 
-  - 适用于 MicroSD 卡或 NVMe SSD
+  - 适用于 microSD 卡或 NVMe SSD
   - 使用 Balena Etcher 图形化工具，操作简单
   - 支持 `dd` 命令行烧录
   - 瑞莎推荐的镜像类型，兼容性最佳
@@ -38,7 +38,7 @@ sidebar_position: 150
 
 :::
 
-目前支持 MicroSD 卡/ eMMC 模块 / UFS 模块启动系统，NVMe/SSD 启动需要刷写 SPI Nor Flash 固件
+目前支持 microSD 卡/ eMMC 模块 / UFS 模块启动系统，NVMe/SSD 启动需要刷写 SPI Nor Flash 固件
 
 - [Radxa Cubie A7A Debian 11 KDE R6（最新）](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r6/radxa-a733_bullseye_kde_r6.output_512.img.xz) （SD / eMMC）
 
@@ -68,7 +68,7 @@ sidebar_position: 150
 
 ### Android
 
-适用于 MicroSD 卡/ eMMC 模块 / UFS 模块。
+适用于 microSD 卡/ eMMC 模块 / UFS 模块。
 
 #### FEL 系统镜像
 
diff --git a/docs/cubie/a7a/faq.md b/docs/cubie/a7a/faq.md
index 9b69d24e7..a1e5f1393 100644
--- a/docs/cubie/a7a/faq.md
+++ b/docs/cubie/a7a/faq.md
@@ -16,7 +16,7 @@ sidebar_position: 105
 
 - Phoenix 系统镜像：不包含分区表，需要借助 Phoenix 工具烧录系统镜像。
 
-若使用 Phoenix 系统镜像，根据自己的系统启动介质参考 [安装系统到 MicroSD 卡](./low-level-dev/install-system/sd-system) 和 [底层开发 → FEL 模式安装系统](./low-level-dev/install-system/fel-install-system/) 教程进行系统安装。
+若使用 Phoenix 系统镜像，根据自己的系统启动介质参考 [安装系统到 microSD 卡](./low-level-dev/install-system/sd-system) 和 [底层开发 → FEL 模式安装系统](./low-level-dev/install-system/fel-install-system/) 教程进行系统安装。
 
 先确认安装的系统镜像是否正确，若系统镜像正确，可以通过串口调试获取系统启动日志，根据日志信息进行排查。
 
diff --git a/docs/cubie/a7a/getting-started/README.md b/docs/cubie/a7a/getting-started/README.md
index cc827f895..6aaea881b 100644
--- a/docs/cubie/a7a/getting-started/README.md
+++ b/docs/cubie/a7a/getting-started/README.md
@@ -12,4 +12,4 @@ sidebar_position: 1
 
 #### [安装系统](/cubie/a7a/getting-started/install-system)
 
-主要介绍 Cubie A7A 如何通过不同启动介质（如 MicroSD 卡、UFS 模块、eMMC 模块等）来安装系统。
+主要介绍 Cubie A7A 如何通过不同启动介质（如 microSD 卡、UFS 模块、eMMC 模块等）来安装系统。
diff --git a/docs/cubie/a7a/getting-started/install-system/README.md b/docs/cubie/a7a/getting-started/install-system/README.md
index bcc422be1..5b2e9746e 100644
--- a/docs/cubie/a7a/getting-started/install-system/README.md
+++ b/docs/cubie/a7a/getting-started/install-system/README.md
@@ -4,25 +4,25 @@ sidebar_position: 2
 
 # 安装系统
 
-瑞莎 Cubie A7A 支持 MicroSD 卡、UFS 模块和 eMMC 模块三种方式启动系统，用户可以根据自己的需求选择对应的系统启动介质。
+瑞莎 Cubie A7A 支持 microSD 卡、UFS 模块和 eMMC 模块三种方式启动系统，用户可以根据自己的需求选择对应的系统启动介质。
 
-MicroSD 卡、UFS 模块和 eMMC 模块特性：
+microSD 卡、UFS 模块和 eMMC 模块特性：
 
-- MicroSD 卡
+- microSD 卡
 
 安装系统较为简单，只需要自购读卡器就可以简单完成系统的安装；但是读写速度相比于 UFS 模块和 eMMC 模块要慢。
 
 - UFS 模块
 
-读写速度相比于 MicroSD 卡和 eMMC 模块要快，适合大容量存储（64GB ~ 1TB），具体参数可以参考 [瑞莎 UFS 模块](https://radxa.com/products/accessories/ufs-module) 产品。
+读写速度相比于 microSD 卡和 eMMC 模块要快，适合大容量存储（64GB ~ 1TB），具体参数可以参考 [瑞莎 UFS 模块](https://radxa.com/products/accessories/ufs-module) 产品。
 
 - eMMC 模块
 
-读写速度相比于 MicroSD 卡要快，适合小容量存储（8GB ~ 128GB），具体参数可以参考 [瑞莎 eMMC 模块](https://radxa.com/products/accessories/emmc-module) 产品。
+读写速度相比于 microSD 卡要快，适合小容量存储（8GB ~ 128GB），具体参数可以参考 [瑞莎 eMMC 模块](https://radxa.com/products/accessories/emmc-module) 产品。
 
-#### [安装系统到 MicroSD 卡](/cubie/a7a/getting-started/install-system/sd-system)
+#### [安装系统到 microSD 卡](/cubie/a7a/getting-started/install-system/sd-system)
 
-主要介绍 Cubie A7A 使用 MicroSD 卡安装系统的方法。
+主要介绍 Cubie A7A 使用 microSD 卡安装系统的方法。
 
 #### [安装系统到 UFS 模块](/cubie/a7a/getting-started/install-system/ufs-system)
 
diff --git a/docs/cubie/a7a/getting-started/install-system/emmc-system/README.md b/docs/cubie/a7a/getting-started/install-system/emmc-system/README.md
index 316c436e4..1e9a90826 100644
--- a/docs/cubie/a7a/getting-started/install-system/emmc-system/README.md
+++ b/docs/cubie/a7a/getting-started/install-system/emmc-system/README.md
@@ -4,13 +4,13 @@ sidebar_position: 3
 
 # 安装系统到 eMMC 模块
 
-eMMC 模块相比于 MicroSD 卡读写速度更快，对于想提高系统读写和启动速度的用户来说，是个不错的选择。
+eMMC 模块相比于 microSD 卡读写速度更快，对于想提高系统读写和启动速度的用户来说，是个不错的选择。
 
 我们介绍两种方式安装系统到 eMMC 模块：
 
 - 对于有瑞莎 eMMC/UFS 二合一模块读卡器的用户，直接在 PC 上通过瑞莎 eMMC/UFS 二合一模块读卡器写入系统镜像。
 
-- 对于没有瑞莎 eMMC/UFS 二合一模块读卡器的用户，需要额外使用 MicroSD 卡启动系统，使用 `dd` 命令将系统镜像安装到 eMMC 模块。
+- 对于没有瑞莎 eMMC/UFS 二合一模块读卡器的用户，需要额外使用 microSD 卡启动系统，使用 `dd` 命令将系统镜像安装到 eMMC 模块。
 
 更多关于瑞莎 eMMC/UFS 二合一模块读卡器的信息可以参考[瑞莎 eMMC/UFS 二合一模块读卡器页面](https://radxa.com/products/accessories/emmc-ufs-module-reader)。
 
diff --git a/docs/cubie/a7a/getting-started/install-system/emmc-system/no-reader.md b/docs/cubie/a7a/getting-started/install-system/emmc-system/no-reader.md
index 114eda856..2f3b6d9ed 100644
--- a/docs/cubie/a7a/getting-started/install-system/emmc-system/no-reader.md
+++ b/docs/cubie/a7a/getting-started/install-system/emmc-system/no-reader.md
@@ -6,7 +6,7 @@ sidebar_position: 3
 
 主要介绍如何在不使用 eMMC/UFS 二合一模块读卡器的情况下，安装系统到 eMMC 模块中。
 
-我们需要在 MicroSD 卡正常启动 Cubie A7A 的情况下，使用 `dd` 命令将系统镜像安装到 eMMC 模块中。
+我们需要在 microSD 卡正常启动 Cubie A7A 的情况下，使用 `dd` 命令将系统镜像安装到 eMMC 模块中。
 
 :::warning
 安装系统会格式化 eMMC 模块，如果有重要数据请提前备份！
@@ -17,7 +17,7 @@ sidebar_position: 3
 您需要提前准备以下硬件：
 
 - 主板：瑞莎 Cubie A7A
-- 系统启动介质：MicroSD 卡
+- 系统启动介质：microSD 卡
 - 系统待安装介质：eMMC 模块
 - 电源适配器：5V Type-C 电源适配器
 
@@ -31,7 +31,7 @@ Cubie A7A 主板兼容标准 PD 协议的 5V 电源输入，建议电流 3A 以
 
 ## 硬件连接
 
-确认 Cubie A7A 的 MicroSD 卡正常启动系统后，将 eMMC 模块安装到 Cubie A7A 的 eMMC/UFS 模块二合一接口中。
+确认 Cubie A7A 的 microSD 卡正常启动系统后，将 eMMC 模块安装到 Cubie A7A 的 eMMC/UFS 模块二合一接口中。
 
 :::caution
 
diff --git a/docs/cubie/a7a/getting-started/install-system/nvme-system/README.md b/docs/cubie/a7a/getting-started/install-system/nvme-system/README.md
index 6b09dacae..83d7a54f6 100644
--- a/docs/cubie/a7a/getting-started/install-system/nvme-system/README.md
+++ b/docs/cubie/a7a/getting-started/install-system/nvme-system/README.md
@@ -15,4 +15,4 @@ sidebar_position: 3
 你可以根据自己的硬件设备选择不同的写入方式：
 
 - [使用硬盘盒写入系统镜像](./install-system/reader.md)：需要使用到 NVMe 固态硬盘盒，操作相对简单！
-- [从 SD 卡写入系统镜像到 NVMe](./install-system/no-reader.md)：需要基于 MicroSD 卡正常启动系统，然后使用 `dd` 命令将系统安装到 NVMe SSD 上。
+- [从 SD 卡写入系统镜像到 NVMe](./install-system/no-reader.md)：需要基于 microSD 卡正常启动系统，然后使用 `dd` 命令将系统安装到 NVMe SSD 上。
diff --git a/docs/cubie/a7a/getting-started/install-system/nvme-system/install-system/no-reader.md b/docs/cubie/a7a/getting-started/install-system/nvme-system/install-system/no-reader.md
index eb3b59337..97e477d60 100644
--- a/docs/cubie/a7a/getting-started/install-system/nvme-system/install-system/no-reader.md
+++ b/docs/cubie/a7a/getting-started/install-system/nvme-system/install-system/no-reader.md
@@ -12,7 +12,7 @@ import InstallSystem from '../../../../../../common/radxa-os/install-system/\_us
 
 完成系统的安装后，将主板关机，断开主板电源，按照以下操作完成系统启动：
 
-① : 将 MicroSD 卡从主板上取下
+① : 将 microSD 卡从主板上取下
 
 ② : 将 NVMe SSD 通过 PCIe FPC 接口搭配 M.2 M Key HAT 安装到主板上
 
diff --git a/docs/cubie/a7a/getting-started/install-system/nvme-system/install-system/reader.md b/docs/cubie/a7a/getting-started/install-system/nvme-system/install-system/reader.md
index 6bd6ad6cd..768a7b44a 100644
--- a/docs/cubie/a7a/getting-started/install-system/nvme-system/install-system/reader.md
+++ b/docs/cubie/a7a/getting-started/install-system/nvme-system/install-system/reader.md
@@ -12,7 +12,7 @@ import InstallSystem from '../../../../../../common/radxa-os/install-system/\_us
 
 完成系统的安装后，将主板关机，断开主板电源，按照以下操作完成系统启动：
 
-① : 将 MicroSD 卡从主板上取下
+① : 将 microSD 卡从主板上取下
 
 ② : 将 NVMe SSD 通过 PCIe FPC 接口搭配 M.2 M Key HAT 安装到主板上
 
diff --git a/docs/cubie/a7a/getting-started/install-system/sd-system.md b/docs/cubie/a7a/getting-started/install-system/sd-system.md
index 3b97e6a52..adc536572 100644
--- a/docs/cubie/a7a/getting-started/install-system/sd-system.md
+++ b/docs/cubie/a7a/getting-started/install-system/sd-system.md
@@ -2,24 +2,24 @@
 sidebar_position: 1
 ---
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
-主要介绍如何将系统安装到 MicroSD 卡中。
+主要介绍如何将系统安装到 microSD 卡中。
 
 :::warning
-安装系统会格式化 MicroSD 卡，如果有重要数据请提前备份！
+安装系统会格式化 microSD 卡，如果有重要数据请提前备份！
 :::
 
 ## 硬件准备
 
 您需要提前准备以下硬件：
 
-- 系统启动介质：MicroSD 卡
-- 读卡器：MicroSD 卡读卡器
+- 系统启动介质：microSD 卡
+- 读卡器：microSD 卡读卡器
 
 ## 硬件连接
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -27,7 +27,7 @@ sidebar_position: 1
 
 ## 软件准备
 
-使用开源镜像烧录工具 Etcher 烧写系统镜像文件到 MicroSD 卡。
+使用开源镜像烧录工具 Etcher 烧写系统镜像文件到 microSD 卡。
 
 ### 下载系统镜像
 
@@ -79,7 +79,7 @@ sidebar_position: 1
   <img src="/img/rock4/4d/etcher-01.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-2. 选择 MicroSD 卡对应的磁盘：点击 `Select target` 选项，选择自己接入 PC 的读卡器对应磁盘设备。
+2. 选择 microSD 卡对应的磁盘：点击 `Select target` 选项，选择自己接入 PC 的读卡器对应磁盘设备。
 
 :::danger
 请勿选错磁盘，否则 Etcher 将格式化被选中的磁盘，造成重要数据丢失！
diff --git a/docs/cubie/a7a/getting-started/install-system/ufs-system/README.md b/docs/cubie/a7a/getting-started/install-system/ufs-system/README.md
index 4305f8f82..9dbeab19f 100644
--- a/docs/cubie/a7a/getting-started/install-system/ufs-system/README.md
+++ b/docs/cubie/a7a/getting-started/install-system/ufs-system/README.md
@@ -4,13 +4,13 @@ sidebar_position: 2
 
 # 安装系统到 UFS 模块
 
-UFS 模块相比于 MicroSD 卡和 eMMC 模块读写速度更快，对于想提高系统读写和启动速度的用户来说，是个不错的选择。
+UFS 模块相比于 microSD 卡和 eMMC 模块读写速度更快，对于想提高系统读写和启动速度的用户来说，是个不错的选择。
 
 我们介绍两种方式安装系统到 UFS 模块：
 
 - 对于有瑞莎 eMMC/UFS 二合一模块读卡器的用户，直接在 PC 上通过瑞莎 eMMC/UFS 二合一模块读卡器写入系统镜像。
 
-- 对于没有瑞莎 eMMC/UFS 二合一模块读卡器的用户，需要额外使用 MicroSD 卡启动系统，使用 `dd` 命令将系统镜像安装到 UFS 模块。
+- 对于没有瑞莎 eMMC/UFS 二合一模块读卡器的用户，需要额外使用 microSD 卡启动系统，使用 `dd` 命令将系统镜像安装到 UFS 模块。
 
 更多关于瑞莎 eMMC/UFS 二合一模块读卡器的信息可以参考[瑞莎 eMMC/UFS 二合一模块读卡器页面](https://radxa.com/products/accessories/emmc-ufs-module-reader)。
 
diff --git a/docs/cubie/a7a/getting-started/install-system/ufs-system/no-reader.md b/docs/cubie/a7a/getting-started/install-system/ufs-system/no-reader.md
index 83fc2f2e0..0ff150bf5 100644
--- a/docs/cubie/a7a/getting-started/install-system/ufs-system/no-reader.md
+++ b/docs/cubie/a7a/getting-started/install-system/ufs-system/no-reader.md
@@ -6,7 +6,7 @@ sidebar_position: 3
 
 主要介绍如何在不使用 eMMC/UFS 二合一模块读卡器的情况下，安装系统到 UFS 模块中。
 
-我们需要在 MicroSD 卡正常启动 Cubie A7A 的情况下，使用 `dd` 命令将系统镜像安装到 UFS 模块中。
+我们需要在 microSD 卡正常启动 Cubie A7A 的情况下，使用 `dd` 命令将系统镜像安装到 UFS 模块中。
 
 :::warning
 安装系统会格式化 UFS 模块，如果有重要数据请提前备份！
@@ -17,7 +17,7 @@ sidebar_position: 3
 您需要提前准备以下硬件：
 
 - 主板：瑞莎 Cubie A7A
-- 系统启动介质：MicroSD 卡
+- 系统启动介质：microSD 卡
 - 系统待安装介质：UFS 模块
 - 电源适配器：5V Type-C 电源适配器
 
@@ -31,7 +31,7 @@ Cubie A7A 主板兼容 PD 协议的 5V 电源输入，建议电流 3A 以上，
 
 ## 硬件连接
 
-确认 Cubie A7A 的 MicroSD 卡正常启动系统后，将 UFS 模块安装到 Cubie A7A 的 eMMC/UFS 模块二合一接口中。
+确认 Cubie A7A 的 microSD 卡正常启动系统后，将 UFS 模块安装到 Cubie A7A 的 eMMC/UFS 模块二合一接口中。
 
 :::caution
 
diff --git a/docs/cubie/a7a/getting-started/quickly-start.md b/docs/cubie/a7a/getting-started/quickly-start.md
index aaba0ef9d..a4fb683f5 100644
--- a/docs/cubie/a7a/getting-started/quickly-start.md
+++ b/docs/cubie/a7a/getting-started/quickly-start.md
@@ -22,7 +22,7 @@ sidebar_position: 1
 您需要提前准备以下硬件设备：**可选的硬件设备建议准备其中一种**
 
 - 主板：瑞莎 Cubie A7A
-- 系统启动介质：MicroSD 卡
+- 系统启动介质：microSD 卡
 - 电源适配器：5V Type-C 电源适配器
 - USB 串口数据线（可选）：用于串口调试和登录系统
 - HDMI 数据线和显示器（可选）：用于显示系统界面和图形化界面操作
@@ -50,10 +50,10 @@ Cubie A7A 主板兼容 PD 协议的 5V 电源输入，建议电流 3A 以上，
 
 您可以根据自己的系统启动介质和拥有的硬件设备，参考下面教程进行系统安装：
 
-- [安装系统到 MicroSD 卡](./install-system/sd-system)
+- [安装系统到 microSD 卡](./install-system/sd-system)
 
 :::tip 安装系统到其它启动介质
-目前支持 MicroSD 卡、eMMC 模块、UFS 模块启动系统。
+目前支持 microSD 卡、eMMC 模块、UFS 模块启动系统。
 
 NVMe SSD：目前正常识别，可作为拓展存储空间，无法作为启动介质。
 
@@ -65,16 +65,16 @@ NVMe SSD：目前正常识别，可作为拓展存储空间，无法作为启动
 ## 启动系统
 
 :::tip
-若 Cubie A7A 安装了多个系统启动介质，Cubie A7A 的系统启动优先级为：MicroSD 卡 > NVMe SSD > UFS 模块 > eMMC 模块。
+若 Cubie A7A 安装了多个系统启动介质，Cubie A7A 的系统启动优先级为：microSD 卡 > NVMe SSD > UFS 模块 > eMMC 模块。
 :::
 
-完成系统的安装后，将对应系统启动介质（如 MicroSD 卡 / eMMC 模块 / UFS 模块 / NVMe SSD）安装到 Cubie A7A 的对应接口。
+完成系统的安装后，将对应系统启动介质（如 microSD 卡 / eMMC 模块 / UFS 模块 / NVMe SSD）安装到 Cubie A7A 的对应接口。
 
 <Tabs queryString="boot_system">
 
-<TabItem value="MicroSD 卡">
+<TabItem value="microSD 卡">
 
-将 MicroSD 卡安装到 Cubie A7A 的 MicroSD 卡槽中。
+将 microSD 卡安装到 Cubie A7A 的 microSD 卡槽中。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/cubie/a7a/a7a-microsd.webp" style={{width: '45%', maxWidth: '1200px'}} />
diff --git a/docs/cubie/a7a/hardware-use/README.md b/docs/cubie/a7a/hardware-use/README.md
index 535ef2819..6fbca9697 100644
--- a/docs/cubie/a7a/hardware-use/README.md
+++ b/docs/cubie/a7a/hardware-use/README.md
@@ -10,9 +10,9 @@ sidebar_position: 3
 
 主要介绍 Cubie A7A 的硬件接口信息。
 
-#### [MicroSD 卡槽](/cubie/a7a/hardware-use/microsd)
+#### [microSD 卡槽](/cubie/a7a/hardware-use/microsd)
 
-主要介绍 Cubie A7A 的 MicroSD 卡槽使用方法。
+主要介绍 Cubie A7A 的 microSD 卡槽使用方法。
 
 #### [eMMC / UFS 模块接口](/cubie/a7a/hardware-use/emmc-ufs-com)
 
diff --git a/docs/cubie/a7a/hardware-use/hardware-info.md b/docs/cubie/a7a/hardware-use/hardware-info.md
index c2f38fef0..ffbb64764 100644
--- a/docs/cubie/a7a/hardware-use/hardware-info.md
+++ b/docs/cubie/a7a/hardware-use/hardware-info.md
@@ -24,7 +24,7 @@ sidebar_position: 1
 | ④    | [耳机插孔](/cubie/a7a/hardware-use/headphone)             | ⑪    | [PoE 接口](/cubie/a7a/hardware-use/ethernet)                   | ⑱    | [电源按键](/cubie/a7a/hardware-use/power-key)                     |
 | ⑤    | [UBOOT 按键](/cubie/a7a/hardware-use/uboot-key)           | ⑫    | WiFi6 和 蓝牙5.4                                               | ⑲    | [eMMC / UFS 模块二合一接口](/cubie/a7a/hardware-use/emmc-ufs-com) |
 | ⑥    | [USB 2.0 Type-A 接口](/cubie/a7a/hardware-use/usb-type-a) | ⑬    | [40 Pin GPIO 排针](/cubie/a7a/hardware-use/pin-gpio)           | ⑳    | [MIPI CSI 接口](/cubie/a7a/hardware-use/mipi-csi)                 |
-| ⑦    | [RTC 接口](/cubie/a7a/hardware-use/rtc)                   | ⑭    | [MIPI DSI 接口](/cubie/a7a/hardware-use/mipi-dsi)              | ㉑   | [MicroSD 卡槽](/cubie/a7a/hardware-use/microsd)                   |
+| ⑦    | [RTC 接口](/cubie/a7a/hardware-use/rtc)                   | ⑭    | [MIPI DSI 接口](/cubie/a7a/hardware-use/mipi-dsi)              | ㉑   | [microSD 卡槽](/cubie/a7a/hardware-use/microsd)                   |
 
 - 电源指示灯
 
diff --git a/docs/cubie/a7a/hardware-use/microsd.md b/docs/cubie/a7a/hardware-use/microsd.md
index d8e749165..4d7a01db2 100644
--- a/docs/cubie/a7a/hardware-use/microsd.md
+++ b/docs/cubie/a7a/hardware-use/microsd.md
@@ -2,25 +2,25 @@
 sidebar_position: 1
 ---
 
-# MicroSD 卡槽
+# microSD 卡槽
 
-瑞莎 Cubie A7A 板载标准的 MicroSD 卡槽，兼容 MicroSD / MicroSDHC / MicroSDXC 卡，主要用作系统启动盘或扩展存储空间。
+瑞莎 Cubie A7A 板载标准的 microSD 卡槽，兼容 microSD / microSDHC / microSDXC 卡，主要用作系统启动盘或扩展存储空间。
 
-推荐使用容量 32GB 及以上的 MicroSD 卡，以获得更好的存储空间。
+推荐使用容量 32GB 及以上的 microSD 卡，以获得更好的存储空间。
 
 :::tip
-MicroSD 卡槽具体位置可以查看 [硬件接口](./hardware-info) 教程的接口说明部分！
+microSD 卡槽具体位置可以查看 [硬件接口](./hardware-info) 教程的接口说明部分！
 :::
 
 ## 使用指南
 
-您可以参考 [快速上手](../getting-started/quickly-start) 或 [安装系统到 MicroSD 卡](../getting-started/install-system/sd-system) 教程，将系统镜像安装到 MicroSD 卡中，然后将 MicroSD 卡插入 MicroSD 卡槽中，测试启动系统是否正常。
+您可以参考 [快速上手](../getting-started/quickly-start) 或 [安装系统到 microSD 卡](../getting-started/install-system/sd-system) 教程，将系统镜像安装到 microSD 卡中，然后将 microSD 卡插入 microSD 卡槽中，测试启动系统是否正常。
 
 <Tabs queryString="boot_system">
 
-<TabItem value="MicroSD 卡">
+<TabItem value="microSD 卡">
 
-将 MicroSD 卡插入 Cubie A7A 的 MicroSD 卡槽中。
+将 microSD 卡插入 Cubie A7A 的 microSD 卡槽中。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/cubie/a7a/a7a-microsd.webp" style={{width: '45%', maxWidth: '1200px'}} />
diff --git a/docs/cubie/a7a/low-level-dev/install-system/README.md b/docs/cubie/a7a/low-level-dev/install-system/README.md
index 89e5c8827..29c26c491 100644
--- a/docs/cubie/a7a/low-level-dev/install-system/README.md
+++ b/docs/cubie/a7a/low-level-dev/install-system/README.md
@@ -6,9 +6,9 @@ sidebar_position: 1
 
 介绍如何使用 Phoenix 工具给 Cubie A7A 安装系统。
 
-#### [安装系统到 MicroSD 卡](/cubie/a7a/low-level-dev/install-system/sd-system)
+#### [安装系统到 microSD 卡](/cubie/a7a/low-level-dev/install-system/sd-system)
 
-使用 PhoenixCard 工具安装系统到 MicroSD 卡。
+使用 PhoenixCard 工具安装系统到 microSD 卡。
 
 #### [FEL 模式安装系统](/cubie/a7a/low-level-dev/install-system/fel-install-system)
 
diff --git a/docs/cubie/a7a/low-level-dev/install-system/sd-system.md b/docs/cubie/a7a/low-level-dev/install-system/sd-system.md
index 5db99b13f..09044e758 100644
--- a/docs/cubie/a7a/low-level-dev/install-system/sd-system.md
+++ b/docs/cubie/a7a/low-level-dev/install-system/sd-system.md
@@ -2,12 +2,12 @@
 sidebar_position: 1
 ---
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
-主要介绍如何将系统安装到 MicroSD 卡中。
+主要介绍如何将系统安装到 microSD 卡中。
 
 :::warning
-安装系统会格式化 MicroSD 卡，如果有重要数据请提前备份！
+安装系统会格式化 microSD 卡，如果有重要数据请提前备份！
 :::
 
 ## 硬件准备
@@ -15,8 +15,8 @@ sidebar_position: 1
 您需要提前准备以下硬件：
 
 - 主板：瑞莎 Cubie A7A
-- 系统启动介质：MicroSD 卡
-- 读卡器：MicroSD 卡读卡器
+- 系统启动介质：microSD 卡
+- 读卡器：microSD 卡读卡器
 - 电源适配器：5V Type-C 电源适配器
 
 :::tip
@@ -31,11 +31,11 @@ Cubie A7A 主板支持标准 PD 协议的 5V 电源输入，建议电流 3A 以
 
 - 电源适配器
 
-当系统镜像烧录到 MicroSD 卡后，可以使用 Type-C 电源适配器给 Cubie A7A 供电，避免后期开发功率不足的问题。
+当系统镜像烧录到 microSD 卡后，可以使用 Type-C 电源适配器给 Cubie A7A 供电，避免后期开发功率不足的问题。
 
 ## 硬件连接
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -43,9 +43,9 @@ Cubie A7A 主板支持标准 PD 协议的 5V 电源输入，建议电流 3A 以
 
 ## 软件准备
 
-给 MicroSD 卡烧录 Phoenix 系统镜像需要用到全志平台提供的工具，该工具可以去[ 资源汇总下载 ](../../download)页面下载软件。
+给 microSD 卡烧录 Phoenix 系统镜像需要用到全志平台提供的工具，该工具可以去[ 资源汇总下载 ](../../download)页面下载软件。
 
-**PhoenixCard**：基于 Windows 平台的工具，可以用来制作 MicroSD 卡启动盘。
+**PhoenixCard**：基于 Windows 平台的工具，可以用来制作 microSD 卡启动盘。
 
 ## 安装系统
 
@@ -55,7 +55,7 @@ Cubie A7A 主板支持标准 PD 协议的 5V 电源输入，建议电流 3A 以
 
 ② : 选择 `Start up` 选项，表示制作的卡种类选择为启动卡
 
-③ : 勾选 MicroSD 卡对应的磁盘选项
+③ : 勾选 microSD 卡对应的磁盘选项
 
 ④ : 点击 `Burn` 按钮开始制作启动盘
 
diff --git a/docs/cubie/a7a/other-system/android/adb-debug.md b/docs/cubie/a7a/other-system/android/adb-debug.md
index b14fbb3a6..f9ebfdcf9 100644
--- a/docs/cubie/a7a/other-system/android/adb-debug.md
+++ b/docs/cubie/a7a/other-system/android/adb-debug.md
@@ -17,7 +17,7 @@ Android SDK Platform-Tools 包含 ADB（Android Debug Bridge）、Fastboot 等
 ## 硬件准备
 
 - 主板：瑞莎 Cubie A7A
-- 系统启动介质：支持 MicroSD 卡、eMMC 模块、UFS 模块启动系统（选中其中一种系统启动介质即可）
+- 系统启动介质：支持 microSD 卡、eMMC 模块、UFS 模块启动系统（选中其中一种系统启动介质即可）
 - 电源适配器：5V Type-C 电源适配器
 - Type-C 数据线：用于连接主板和电脑
 
diff --git a/docs/cubie/a7a/other-system/android/install-system.md b/docs/cubie/a7a/other-system/android/install-system.md
index 0156cbbb4..c1c75585a 100644
--- a/docs/cubie/a7a/other-system/android/install-system.md
+++ b/docs/cubie/a7a/other-system/android/install-system.md
@@ -10,6 +10,6 @@ sidebar_position: 2
 
 安装系统参考以下教程：
 
-- [安装系统到 MicroSD 卡](../../low-level-dev/install-system/sd-system)
+- [安装系统到 microSD 卡](../../low-level-dev/install-system/sd-system)
 - [安装系统到 eMMC 模块](../../low-level-dev/install-system/fel-install-system/emmc-system)
 - [安装系统到 UFS 模块](../../low-level-dev/install-system/fel-install-system/ufs-system)
diff --git a/docs/cubie/a7a/other-system/android/quickly-start.md b/docs/cubie/a7a/other-system/android/quickly-start.md
index ca2da1161..95f1fc7ca 100644
--- a/docs/cubie/a7a/other-system/android/quickly-start.md
+++ b/docs/cubie/a7a/other-system/android/quickly-start.md
@@ -22,7 +22,7 @@ sidebar_position: 1
 您需要提前准备以下硬件设备：**可选的硬件设备可以不准备！**
 
 - 主板：瑞莎 Cubie A7A
-- 系统启动介质：支持 MicroSD 卡、eMMC / UFS 模块（选中其中一种系统启动介质即可）
+- 系统启动介质：支持 microSD 卡、eMMC / UFS 模块（选中其中一种系统启动介质即可）
 - 供电/数据线：USB Type A to Type C 数据线
 - 电源适配器：5V Type-C 电源适配器
 - USB 串口数据线（可选）：用于串口调试和登录系统
@@ -43,7 +43,7 @@ Cubie A7A 主板支持标准 PD 协议的 5V 电源输入，建议电流 3A 以
 
 - 系统启动介质
 
-主要作用是用于启动 Cubie A7A 系统，支持 MicroSD 卡、eMMC / UFS 模块（选中其中一种系统启动介质即可）。
+主要作用是用于启动 Cubie A7A 系统，支持 microSD 卡、eMMC / UFS 模块（选中其中一种系统启动介质即可）。
 
 - 供电/数据线
 
@@ -70,16 +70,16 @@ Cubie A7A 主板支持标准 PD 协议的 5V 电源输入，建议电流 3A 以
 ## 启动系统
 
 :::tip
-若 Cubie A7A 安装了多个系统启动介质，Cubie A7A 的系统启动优先级为：MicroSD 卡 > eMMC 或 UFS 模块。
+若 Cubie A7A 安装了多个系统启动介质，Cubie A7A 的系统启动优先级为：microSD 卡 > eMMC 或 UFS 模块。
 :::
 
-完成系统的安装后，将对应系统启动介质（如 MicroSD 卡、eMMC 模块、UFS 模块）安装到 Cubie A7A 的对应接口。
+完成系统的安装后，将对应系统启动介质（如 microSD 卡、eMMC 模块、UFS 模块）安装到 Cubie A7A 的对应接口。
 
 <Tabs queryString="boot_system">
 
-<TabItem value="MicroSD 卡">
+<TabItem value="microSD 卡">
 
-将 MicroSD 卡插入 Cubie A7A 的 MicroSD 卡槽中。
+将 microSD 卡插入 Cubie A7A 的 microSD 卡槽中。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/cubie/a7a/a7a-microsd.webp" style={{width: '45%', maxWidth: '1200px'}} />
diff --git a/docs/cubie/a7s/README.md b/docs/cubie/a7s/README.md
index 9e45050b2..38204f380 100644
--- a/docs/cubie/a7s/README.md
+++ b/docs/cubie/a7s/README.md
@@ -42,7 +42,7 @@ sidebar_position: 4
 | 微控制器       | RISC-V 玄铁 E902，最高 200 MHz                                                                                                                                   |
 | 内存           | LPDDR5<br />- 最高可选 16 GB                                                                                                                                     |
 | 视频编解码     | 视频编码<br />- H.264 / H.265 编码，最高支持 4K@30fps<br />视频解码<br />- H.265 / VP9 / AVS2 解码，最高支持 4K@60fps<br />- H.264 解码，最高支持 4K@30fps       |
-| 存储           | 可选 eMMC<br />- 最大可选 256GB<br />1X MicroSD 卡槽                                                                                                             |
+| 存储           | 可选 eMMC<br />- 最大可选 256GB<br />1X microSD 卡槽                                                                                                             |
 | 网络           | 1X 千兆以太网<br />板载 Wi‑Fi 6 & BT5.4 模组<br />- 1X 天线接口                                                                                                  |
 | 显示           | 1X USB‑C 接口，支持 DisplayPort Alt 模式，最高 4Kp60                                                                                                             |
 | 摄像头         | 1X MIPI 摄像头（4 通道）                                                                                                                                         |
diff --git a/docs/cubie/a7s/download.md b/docs/cubie/a7s/download.md
index ec48ac05c..b62507da5 100644
--- a/docs/cubie/a7s/download.md
+++ b/docs/cubie/a7s/download.md
@@ -7,13 +7,13 @@ sidebar_position: 8
 ## 系统镜像
 
 :::tip 新手入门推荐
-我们强烈建议新手用户下载 GPT 格式的 Radxa OS 官方切换分支，并使用 [Balena Etcher](./getting-started/install-system/microsd) 工具将其安装到 MicroSD 卡中。这是最简单、最快捷的上手方式。
+我们强烈建议新手用户下载 GPT 格式的 Radxa OS 官方切换分支，并使用 [Balena Etcher](./getting-started/install-system/microsd) 工具将其安装到 microSD 卡中。这是最简单、最快捷的上手方式。
 
 **镜像类型说明**
 
 - GPT 系统镜像（推荐新手）：
 
-  - 适用于 MicroSD 卡或 NVMe SSD
+  - 适用于 microSD 卡或 NVMe SSD
   - 使用 Balena Etcher 图形化工具，操作简单
   - 支持 `dd` 命令行烧录
   - 瑞莎推荐的镜像类型，兼容性最佳
@@ -40,9 +40,9 @@ sidebar_position: 8
 
 - Radxa OS
 
-[radxa-a733-bullseye-kde-r6（最新）](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r6/radxa-a733_bullseye_kde_r6.output_512.img.xz)：支持 MicroSD 卡和板载 eMMC 启动系统。
+[radxa-a733-bullseye-kde-r6（最新）](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r6/radxa-a733_bullseye_kde_r6.output_512.img.xz)：支持 microSD 卡和板载 eMMC 启动系统。
 
-[radxa-a733-bullseye-kde-r2](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r2/radxa-a733_bullseye_kde_r2.output_512.img.xz)：支持 MicroSD 卡和板载 eMMC 启动系统。
+[radxa-a733-bullseye-kde-r2](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r2/radxa-a733_bullseye_kde_r2.output_512.img.xz)：支持 microSD 卡和板载 eMMC 启动系统。
 
 - Radxa OS Lite
 
@@ -54,13 +54,13 @@ Radxa OS Lite 系统镜像不包含图形桌面环境。
 
 :::
 
-[radxa-a733-bullseye-cli-r6（最新）](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r6/radxa-a733_bullseye_cli_r6.output_512.img.xz)：支持 MicroSD 卡和板载 eMMC 启动系统。
+[radxa-a733-bullseye-cli-r6（最新）](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r6/radxa-a733_bullseye_cli_r6.output_512.img.xz)：支持 microSD 卡和板载 eMMC 启动系统。
 
-[radxa-a733-bullseye-cli-r2](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r2/radxa-a733_bullseye_cli_r2.output_512.img.xz)：支持 MicroSD 卡和板载 eMMC 启动系统。
+[radxa-a733-bullseye-cli-r2](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r2/radxa-a733_bullseye_cli_r2.output_512.img.xz)：支持 microSD 卡和板载 eMMC 启动系统。
 
 :::tip 内置 OpenClaw 环境镜像
 
-`radxa_cubie_a733_trixie_cli_beta_v2` 镜像支持 MicroSD 卡和板载 eMMC 启动系统，内置 OpenClaw 环境，用户只需 [配置 OpenClaw](./app-dev/openclaw.md#配置-openclaw) 即可开始使用。
+`radxa_cubie_a733_trixie_cli_beta_v2` 镜像支持 microSD 卡和板载 eMMC 启动系统，内置 OpenClaw 环境，用户只需 [配置 OpenClaw](./app-dev/openclaw.md#配置-openclaw) 即可开始使用。
 
 - [瑞莎官网下载](https://dl.radxa.com/cubie/a7s/images/radxa_cubie_a733_trixie_cli_beta_v2.gpt.zip)
 - [百度网盘](https://pan.baidu.com/s/1m3ucJAHB9fCuoTzwpNMKLw?pwd=1234)（提取码：1234）
diff --git a/docs/cubie/a7s/getting-started/install-system/emmc-system.md b/docs/cubie/a7s/getting-started/install-system/emmc-system.md
index 42fdb1047..57229f1ed 100644
--- a/docs/cubie/a7s/getting-started/install-system/emmc-system.md
+++ b/docs/cubie/a7s/getting-started/install-system/emmc-system.md
@@ -16,7 +16,7 @@ import DDUse from '../../../../common/radxa-os/install-system/\_use_dd_emmc.mdx'
 
 完成系统的安装后，将主板关机，断开主板电源，按照以下操作完成系统启动：
 
-① : 将 MicroSD 卡从主板上取下
+① : 将 microSD 卡从主板上取下
 
 ② : 使用 USB-C 转 HDMI 或 DP 数据线连接显示器和主板
 
diff --git a/docs/cubie/a7s/getting-started/install-system/microsd-system.md b/docs/cubie/a7s/getting-started/install-system/microsd-system.md
index e2816253f..54934c228 100644
--- a/docs/cubie/a7s/getting-started/install-system/microsd-system.md
+++ b/docs/cubie/a7s/getting-started/install-system/microsd-system.md
@@ -4,13 +4,13 @@ sidebar_position: 1
 
 import BalenaEtcherUse from '../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 <BalenaEtcherUse />
 
 ## 启动系统
 
-① : 将 MicroSD 卡插入 MicroSD 卡槽
+① : 将 microSD 卡插入 microSD 卡槽
 
 ② : 使用 USB-C 转 HDMI 或 DP 数据线连接显示器和主板
 
diff --git a/docs/cubie/a7s/getting-started/quickly-started.md b/docs/cubie/a7s/getting-started/quickly-started.md
index 9f82d19ba..c6bfd2aad 100644
--- a/docs/cubie/a7s/getting-started/quickly-started.md
+++ b/docs/cubie/a7s/getting-started/quickly-started.md
@@ -24,7 +24,7 @@ sidebar_position: 1
 
 - 主板：瑞莎 Cubie A7S
 - 供电：5V Type-C 电源适配器
-- 系统启动介质：MicroSD 卡（用于安装系统与启动）
+- 系统启动介质：microSD 卡（用于安装系统与启动）
 - 显示设备：USB-C 转 HDMI 或 DP 数据线与显示器（用于显示图形界面）
 - 输入设备：键盘和鼠标（用于图形界面操作）
 - 调试工具（可选）：USB 串口数据线（用于串口登录）和 USB-A 拓展坞（用于拓展 USB 外设）
@@ -39,20 +39,20 @@ Cubie A7S 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 ## 安装系统
 
-主要介绍安装系统到 MicroSD 卡。
+主要介绍安装系统到 microSD 卡。
 
 :::warning 重要提醒
-**安装系统会完全格式化 MicroSD 卡，所有数据将被永久删除！**
+**安装系统会完全格式化 microSD 卡，所有数据将被永久删除！**
 
 请在操作前确认：
 
-- MicroSD 卡中没有重要数据，或已完成备份
+- microSD 卡中没有重要数据，或已完成备份
 - 选择了正确的存储设备（避免误格式化其他磁盘）
   :::
 
 ### 硬件连接
 
-将 MicroSD 卡插入 MicroSD 卡读卡器，再将 MicroSD 卡读卡器插入电脑。
+将 microSD 卡插入 microSD 卡读卡器，再将 microSD 卡读卡器插入电脑。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -71,7 +71,7 @@ Cubie A7S 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 ### 安装系统镜像
 
-使用 Balena Etcher 软件可以将系统镜像安装到 MicroSD 卡中。
+使用 Balena Etcher 软件可以将系统镜像安装到 microSD 卡中。
 
 :::tip Balena Etcher
 对于 Balena Etcher 的安装和使用，可以参考 [Etcher 使用](/common/radxa-os/install-system/balena-etcher) 教程。
@@ -90,7 +90,7 @@ Cubie A7S 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 #### 选择存储设备
 
-点击 `Select target` 选项，选择 MicroSD 卡设备。
+点击 `Select target` 选项，选择 microSD 卡设备。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -108,7 +108,7 @@ Cubie A7S 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 #### 开始烧录
 
-点击 `Flash!` 选项，开始烧录系统镜像到 MicroSD 卡中。
+点击 `Flash!` 选项，开始烧录系统镜像到 microSD 卡中。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -143,7 +143,7 @@ Cubie A7S 主板兼容 PD 协议的 5V Type-C 电源输入，建议电流 3A 以
 
 ## 启动系统
 
-① : 将 MicroSD 卡插入 MicroSD 卡槽
+① : 将 microSD 卡插入 microSD 卡槽
 
 ② : 使用 USB-C 转 HDMI 或 DP 数据线连接显示器和主板
 
diff --git a/docs/cubie/a7s/getting-started/use-system.md b/docs/cubie/a7s/getting-started/use-system.md
index 035561471..375a272fd 100644
--- a/docs/cubie/a7s/getting-started/use-system.md
+++ b/docs/cubie/a7s/getting-started/use-system.md
@@ -11,4 +11,4 @@ import UseSystem from '../../../common/radxa-os/install-system/\_use_system.mdx'
 
 # 使用系统
 
-<UseSystem system_start_priority="系统启动优先级：MicroSD 卡 > 板载 eMMC" />
+<UseSystem system_start_priority="系统启动优先级：microSD 卡 > 板载 eMMC" />
diff --git a/docs/cubie/a7s/hardware-use/hardware-info.md b/docs/cubie/a7s/hardware-use/hardware-info.md
index c17c12c00..8c32392c7 100644
--- a/docs/cubie/a7s/hardware-use/hardware-info.md
+++ b/docs/cubie/a7s/hardware-use/hardware-info.md
@@ -162,12 +162,12 @@ Cubie A7S 板载 1 个 4 通道 MIPI 摄像头接口，可以通过该接口连
 
 ### microSD 卡槽
 
-Cubie A7S 板载 1 个 microSD 卡槽，兼容 MicroSD / MicroSDHC / MicroSDXC 卡，主要用作系统启动盘或扩展存储空间。
+Cubie A7S 板载 1 个 microSD 卡槽，兼容 microSD / microSDHC / microSDXC 卡，主要用作系统启动盘或扩展存储空间。
 
-推荐使用容量 32GB 及以上的 MicroSD 卡，以获得更好的存储空间。
+推荐使用容量 32GB 及以上的 microSD 卡，以获得更好的存储空间。
 
 ### 板载 eMMC（可选）
 
 若购买的是板载 eMMC 版本，可以用作系统启动盘或拓展存储空间。
 
-eMMC 模块相比于 MicroSD 卡读写速度更快，对于想提高系统读写和启动速度的用户来说，是个不错的选择。
+eMMC 模块相比于 microSD 卡读写速度更快，对于想提高系统读写和启动速度的用户来说，是个不错的选择。
diff --git a/docs/cubie/a7z/README.md b/docs/cubie/a7z/README.md
index 1e4bfe958..b8e58ccaf 100644
--- a/docs/cubie/a7z/README.md
+++ b/docs/cubie/a7z/README.md
@@ -34,7 +34,7 @@ Cubie A7Z 搭载全志 A733 SoC，内置混合架构高性能八核 CPU（双核
 | -------- | ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ |
 | 处理器   | 系统级芯片 (SoC)： 全志 A733 <br/> 中央处理器 (CPU)： 2 核 Cortex-A76 + 6 核 Cortex-A55 <br/> 图形处理器 (GPU)： Imagination BXM-4-64 MC1, 支持 OpenGL ES 3.2、Vulkan 1.3、OpenCL 3.0 <br/> 神经网络加速器 (NPU)： 3 TOPS@INT8 AI 加速引擎 |
 | 内存     | LPDDR4/4x，可选：1GB / 2GB / 4GB / 8GB / 16GB                                                                                                                                                                                              |
-| 存储     | 板载存储：可选板载 UFS 模块（最高可选 1TB） <br/> 拓展存储：MicroSD 卡槽                                                                                                                                                                   |
+| 存储     | 板载存储：可选板载 UFS 模块（最高可选 1TB） <br/> 拓展存储：microSD 卡槽                                                                                                                                                                   |
 | 网络     | 板载 Wi-Fi 6、蓝牙 5.4 芯片，可外接天线增强信号                                                                                                                                                                                            |
 | 视频输出 | 1 个 Micro HDMI 接口，最高支持 4K@60fps <br/> 1 个 USB-C 3.0 接口，兼容 DisplayPort Alt 模式.可外接高清显示屏                                                                                                                              |
 | 摄像头   | 1 个 4-lane MIPI CSI（可拆分成 2 个 2-lane MIPI CSI）                                                                                                                                                                                      |
@@ -56,7 +56,7 @@ Cubie A7Z 搭载全志 A733 SoC，内置混合架构高性能八核 CPU（双核
 | ①    | USB-C 2.0 OTG & Power 接口      | ⑥    | 天线接口             | ⑪    | PCIe 3.0 FPC 接口 |
 | ②    | USB-C 3.1 OTG & DP Alt 模式接口 | ⑦    | WiFi 6 / BT5 模组    | ⑫    | 40-Pin GPIO 接口  |
 | ③    | Allwinner A733                  | ⑧    | 4-lane MIPI CSI 接口 | ⑬    | LPDDR4/4x RAM     |
-| ④    | Micro HDMI 接口                 | ⑨    | 板载 UFS             | ⑭    | MicroSD 卡槽      |
+| ④    | Micro HDMI 接口                 | ⑨    | 板载 UFS             | ⑭    | microSD 卡槽      |
 | ⑤    | FAN 接口                        | ⑩    | UBOOT 按键           |      |                   |
 
 - 电源指示灯
diff --git a/docs/cubie/a7z/download.md b/docs/cubie/a7z/download.md
index 941049298..5b37a9890 100644
--- a/docs/cubie/a7z/download.md
+++ b/docs/cubie/a7z/download.md
@@ -7,13 +7,13 @@ sidebar_position: 150
 ## 系统镜像
 
 :::tip 新手入门推荐
-我们强烈建议新手用户下载 GPT 格式的 Radxa OS 官方切换分支，并使用 [Balena Etcher](./getting-started/install-system/microsd) 工具将其安装到 MicroSD 卡中。这是最简单、最快捷的上手方式。
+我们强烈建议新手用户下载 GPT 格式的 Radxa OS 官方切换分支，并使用 [Balena Etcher](./getting-started/install-system/microsd) 工具将其安装到 microSD 卡中。这是最简单、最快捷的上手方式。
 
 **镜像类型说明**
 
 - GPT 系统镜像（推荐新手）：
 
-  - 适用于 MicroSD 卡或 NVMe SSD
+  - 适用于 microSD 卡或 NVMe SSD
   - 使用 Balena Etcher 图形化工具，操作简单
   - 支持 `dd` 命令行烧录
   - 瑞莎推荐的镜像类型，兼容性最佳
@@ -38,7 +38,7 @@ sidebar_position: 150
 
 :::
 
-目前支持 MicroSD 卡/ eMMC 模块 / UFS 模块启动系统，NVMe/SSD 启动需要刷写 SPI Nor Flash 固件
+目前支持 microSD 卡/ eMMC 模块 / UFS 模块启动系统，NVMe/SSD 启动需要刷写 SPI Nor Flash 固件
 
 - [Radxa Cubie A7Z Debian 11 KDE R6（最新）](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r6/radxa-a733_bullseye_kde_r6.output_512.img.xz) （SD / eMMC）
 
@@ -62,7 +62,7 @@ sidebar_position: 150
 
 ### Android
 
-适用于 MicroSD 卡 / UFS 模块。
+适用于 microSD 卡 / UFS 模块。
 
 #### FEL 系统镜像
 
diff --git a/docs/cubie/a7z/getting-started/install-system/README.md b/docs/cubie/a7z/getting-started/install-system/README.md
index 3198e7480..6cc8f2ccc 100644
--- a/docs/cubie/a7z/getting-started/install-system/README.md
+++ b/docs/cubie/a7z/getting-started/install-system/README.md
@@ -4,6 +4,6 @@ sidebar_position: 2
 
 # 安装系统
 
-瑞莎 Cubie A7Z 支持 MicroSD 卡和板载 UFS 两种方式安装和启动系统。
+瑞莎 Cubie A7Z 支持 microSD 卡和板载 UFS 两种方式安装和启动系统。
 
 <DocCardList />
diff --git a/docs/cubie/a7z/getting-started/install-system/microsd.md b/docs/cubie/a7z/getting-started/install-system/microsd.md
index a9f74f3c9..8642dedf0 100644
--- a/docs/cubie/a7z/getting-started/install-system/microsd.md
+++ b/docs/cubie/a7z/getting-started/install-system/microsd.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import BalenaEtcherUse from '../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 <BalenaEtcherUse />
diff --git a/docs/cubie/a7z/getting-started/quickly-start.md b/docs/cubie/a7z/getting-started/quickly-start.md
index c194b04a1..2c4aa989e 100644
--- a/docs/cubie/a7z/getting-started/quickly-start.md
+++ b/docs/cubie/a7z/getting-started/quickly-start.md
@@ -20,7 +20,7 @@ sidebar_position: 1
 您需要提前准备以下硬件设备：
 
 - 主板：瑞莎 Cubie A7Z
-- 系统启动介质：MicroSD 卡（推荐使用）
+- 系统启动介质：microSD 卡（推荐使用）
 - 电源适配器：5V USB-C 电源适配器
 
 :::tip 推荐配件
@@ -39,7 +39,7 @@ sidebar_position: 1
 
 您可以根据自己的系统启动介质和拥有的硬件设备，参考下面教程进行系统安装：
 
-- [安装系统到 MicroSD 卡](./install-system/microsd)
+- [安装系统到 microSD 卡](./install-system/microsd)
 - [安装系统到板载 UFS](./install-system/ufs)
 
 ## 启动系统
@@ -47,9 +47,9 @@ sidebar_position: 1
 完成系统的安装后，需要将对应的系统启动介质安装到 Cubie A7Z 上
 
 <Tabs queryString="system boot">
-<TabItem value="MicroSD 卡">
+<TabItem value="microSD 卡">
 
-将 MicroSD 卡插入 Cubie A7Z 的 MicroSD 卡槽，然后将 Cubie A7Z 插入 5V USB-C 电源适配器，即可启动系统。
+将 microSD 卡插入 Cubie A7Z 的 microSD 卡槽，然后将 Cubie A7Z 插入 5V USB-C 电源适配器，即可启动系统。
 
 <div style={{textAlign: 'center'}}>
    <img src="/img/cubie/a7z/a7z-microsd-boot.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/docs/cubie/a7z/hardware-use/hardware-info.md b/docs/cubie/a7z/hardware-use/hardware-info.md
index 5454983ff..6e02e2c54 100644
--- a/docs/cubie/a7z/hardware-use/hardware-info.md
+++ b/docs/cubie/a7z/hardware-use/hardware-info.md
@@ -23,7 +23,7 @@ sidebar_position: 1
 | ①    | USB-C 2.0 OTG & Power 接口      | ⑥    | 天线接口             | ⑪    | PCIe 3.0 FPC 接口 |
 | ②    | USB-C 3.1 OTG & DP Alt 模式接口 | ⑦    | WiFi 6 / BT5 模组    | ⑫    | 40-Pin GPIO 接口  |
 | ③    | Allwinner A733                  | ⑧    | 4-lane MIPI CSI 接口 | ⑬    | LPDDR4/4x RAM     |
-| ④    | Micro HDMI 接口                 | ⑨    | 板载 UFS             | ⑭    | MicroSD 卡槽      |
+| ④    | Micro HDMI 接口                 | ⑨    | 板载 UFS             | ⑭    | microSD 卡槽      |
 | ⑤    | FAN 接口                        | ⑩    | UBOOT 按键           |      |                   |
 
 - 电源指示灯
diff --git a/docs/cubie/a7z/hardware-use/microsd.md b/docs/cubie/a7z/hardware-use/microsd.md
index 3439aba6d..430f32ad0 100644
--- a/docs/cubie/a7z/hardware-use/microsd.md
+++ b/docs/cubie/a7z/hardware-use/microsd.md
@@ -2,25 +2,25 @@
 sidebar_position: 3
 ---
 
-# MicroSD 卡槽
+# microSD 卡槽
 
-瑞莎 Cubie A7Z 板载标准的 MicroSD 卡槽，兼容 MicroSD / MicroSDHC / MicroSDXC 卡，主要用作系统启动盘或扩展存储空间。
+瑞莎 Cubie A7Z 板载标准的 microSD 卡槽，兼容 microSD / microSDHC / microSDXC 卡，主要用作系统启动盘或扩展存储空间。
 
-推荐使用容量 32GB 及以上的 MicroSD 卡，以获得更好的存储空间。
+推荐使用容量 32GB 及以上的 microSD 卡，以获得更好的存储空间。
 
 :::info 接口位置
-MicroSD 卡槽具体位置可以查看 [硬件接口](./hardware-info) 教程的接口说明部分！
+microSD 卡槽具体位置可以查看 [硬件接口](./hardware-info) 教程的接口说明部分！
 :::
 
 ## 使用指南
 
-您可以参考 [快速上手](../getting-started/quickly-start) 或 [安装系统到 MicroSD 卡](../getting-started/install-system/microsd) 教程，将系统镜像安装到 MicroSD 卡中，然后将 MicroSD 卡插入 MicroSD 卡槽中，测试启动系统是否正常。
+您可以参考 [快速上手](../getting-started/quickly-start) 或 [安装系统到 microSD 卡](../getting-started/install-system/microsd) 教程，将系统镜像安装到 microSD 卡中，然后将 microSD 卡插入 microSD 卡槽中，测试启动系统是否正常。
 
 <Tabs queryString="boot_system">
 
-<TabItem value="MicroSD 卡">
+<TabItem value="microSD 卡">
 
-将 MicroSD 卡插入 Cubie A7Z 的 MicroSD 卡槽中。
+将 microSD 卡插入 Cubie A7Z 的 microSD 卡槽中。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/cubie/a7z/a7z-microsd-boot.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/docs/cubie/a7z/hardware-use/type-c.md b/docs/cubie/a7z/hardware-use/type-c.md
index 337b75632..f5b9c22f7 100644
--- a/docs/cubie/a7z/hardware-use/type-c.md
+++ b/docs/cubie/a7z/hardware-use/type-c.md
@@ -14,7 +14,7 @@ sidebar_position: 2
   - 数据传输：支持 USB OTG
 
 :::info 接口位置
-MicroSD 卡槽具体位置可以查看 [硬件接口](./hardware-info) 教程的接口说明部分！
+microSD 卡槽具体位置可以查看 [硬件接口](./hardware-info) 教程的接口说明部分！
 :::
 
 ## 使用指南
diff --git a/docs/cubie/a7z/other-system/android/adb-debug.md b/docs/cubie/a7z/other-system/android/adb-debug.md
index 8b68945ce..35a96709d 100644
--- a/docs/cubie/a7z/other-system/android/adb-debug.md
+++ b/docs/cubie/a7z/other-system/android/adb-debug.md
@@ -17,7 +17,7 @@ Android SDK Platform-Tools 包含 ADB（Android Debug Bridge）、Fastboot 等
 ## 硬件准备
 
 - 主板：瑞莎 Cubie A7Z
-- 系统启动介质：支持 MicroSD 卡或板载 UF
+- 系统启动介质：支持 microSD 卡或板载 UF
 - Type-C 数据线：用于连接主板和电脑
 
 您需要确认 Cubie A7Z 的安卓系统已经成功启动，否则无法进行后面的 ADB 调试。
diff --git a/docs/cubie/a7z/other-system/android/install-system/sd-system.md b/docs/cubie/a7z/other-system/android/install-system/sd-system.md
index d8eee58e3..bb431fab1 100644
--- a/docs/cubie/a7z/other-system/android/install-system/sd-system.md
+++ b/docs/cubie/a7z/other-system/android/install-system/sd-system.md
@@ -2,12 +2,12 @@
 sidebar_position: 1
 ---
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
-主要介绍如何将系统安装到 MicroSD 卡中。
+主要介绍如何将系统安装到 microSD 卡中。
 
 :::warning
-安装系统会格式化 MicroSD 卡，如果有重要数据请提前备份！
+安装系统会格式化 microSD 卡，如果有重要数据请提前备份！
 :::
 
 ## 硬件准备
@@ -15,8 +15,8 @@ sidebar_position: 1
 您需要提前准备以下硬件：
 
 - 主板：瑞莎 Cubie A7Z
-- 系统启动介质：MicroSD 卡
-- 读卡器：MicroSD 卡读卡器
+- 系统启动介质：microSD 卡
+- 读卡器：microSD 卡读卡器
 - 电源适配器：5V Type-C 电源适配器
 
 :::tip
@@ -31,11 +31,11 @@ Cubie A7Z 主板支持标准 PD 协议的 5V 电源输入，建议电流 3A 以
 
 - 电源适配器
 
-当系统镜像烧录到 MicroSD 卡后，可以使用 Type-C 电源适配器给 Cubie A7Z 供电，避免后期开发功率不足的问题。
+当系统镜像烧录到 microSD 卡后，可以使用 Type-C 电源适配器给 Cubie A7Z 供电，避免后期开发功率不足的问题。
 
 ## 硬件连接
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -43,9 +43,9 @@ Cubie A7Z 主板支持标准 PD 协议的 5V 电源输入，建议电流 3A 以
 
 ## 软件准备
 
-给 MicroSD 卡烧录 Phoenix 系统镜像需要用到全志平台提供的工具，该工具可以去[ 资源汇总下载 ](../../../download)页面下载软件。
+给 microSD 卡烧录 Phoenix 系统镜像需要用到全志平台提供的工具，该工具可以去[ 资源汇总下载 ](../../../download)页面下载软件。
 
-**PhoenixCard**：基于 Windows 平台的工具，可以用来制作 MicroSD 卡启动盘。
+**PhoenixCard**：基于 Windows 平台的工具，可以用来制作 microSD 卡启动盘。
 
 ## 安装系统
 
@@ -55,7 +55,7 @@ Cubie A7Z 主板支持标准 PD 协议的 5V 电源输入，建议电流 3A 以
 
 ② : 选择 `Start up` 选项，表示制作的卡种类选择为启动卡
 
-③ : 勾选 MicroSD 卡对应的磁盘选项
+③ : 勾选 microSD 卡对应的磁盘选项
 
 ④ : 点击 `Burn` 按钮开始制作启动盘
 
diff --git a/docs/cubie/a7z/other-system/android/quickly-start.md b/docs/cubie/a7z/other-system/android/quickly-start.md
index 58c6d8b26..a8ae5df60 100644
--- a/docs/cubie/a7z/other-system/android/quickly-start.md
+++ b/docs/cubie/a7z/other-system/android/quickly-start.md
@@ -20,8 +20,8 @@ sidebar_position: 1
 您需要提前准备以下硬件设备：
 
 - 主板：瑞莎 Cubie A7Z
-- 系统启动介质：MicroSD 卡
-- 读卡器：MicroSD 卡读卡器
+- 系统启动介质：microSD 卡
+- 读卡器：microSD 卡读卡器
 - 电源适配器：5V Type-C 电源适配器
 
 :::tip 推荐配件
@@ -31,7 +31,7 @@ sidebar_position: 1
 
 ## 硬件连接
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -39,9 +39,9 @@ sidebar_position: 1
 
 ## 软件准备
 
-给 MicroSD 卡烧录 Phoenix 系统镜像需要用到全志平台提供的工具，该工具可以去[ 资源汇总下载 ](../../download)页面下载软件。
+给 microSD 卡烧录 Phoenix 系统镜像需要用到全志平台提供的工具，该工具可以去[ 资源汇总下载 ](../../download)页面下载软件。
 
-**PhoenixCard**：基于 Windows 平台的工具，可以用来制作 MicroSD 卡启动盘。
+**PhoenixCard**：基于 Windows 平台的工具，可以用来制作 microSD 卡启动盘。
 
 ## 安装系统
 
@@ -51,7 +51,7 @@ sidebar_position: 1
 
 ② : 选择 `Start up` 选项，表示制作的卡种类选择为启动卡
 
-③ : 勾选 MicroSD 卡对应的磁盘选项
+③ : 勾选 microSD 卡对应的磁盘选项
 
 ④ : 点击 `Burn` 按钮开始制作启动盘
 
@@ -63,7 +63,7 @@ sidebar_position: 1
 
 ## 启动系统
 
-完成系统的安装后，将 MicroSD 卡插入 Cubie A7Z 的 MicroSD 卡槽，然后将 Cubie A7Z 插入 5V USB-C 电源适配器，即可启动系统。
+完成系统的安装后，将 microSD 卡插入 Cubie A7Z 的 microSD 卡槽，然后将 Cubie A7Z 插入 5V USB-C 电源适配器，即可启动系统。
 
 <div style={{textAlign: 'center'}}>
    <img src="/img/cubie/a7z/a7z-microsd-boot.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/docs/dragon/q6a/README.md b/docs/dragon/q6a/README.md
index 7d066f460..b3cee395c 100644
--- a/docs/dragon/q6a/README.md
+++ b/docs/dragon/q6a/README.md
@@ -26,7 +26,7 @@ Dragon Q6A 搭载高通 QCS6490 SoC，采用 “1+3+4” 三丛集设计（1× K
 | :------- | :----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | 核心平台 | 系统级芯片（SoC）：Qualcomm QCS6490 <br/> 中央处理器（CPU）：1x Kryo Gold Plus @2.7GHz + 3x Kryo Gold @2.4GHz + 4x Kryo Silver @1.9GHz <br/> 图形处理器（GPU）：Qualcomm® Adreno 643，支持OpenGL ES 3.2、Vulkan 1.3、OpenCL 2.2、DirectX 12 <br/> AI 加速器（AI Accelerator）：Hexagon DSP + Hexagon Tensor Accelerator，联合AI算力最高可达 12 TOPS <br/> 视频处理单元（VPU）：支持最高4K60帧解码（H.264/H.265/VP9格式）和4K30帧编码（H.264/H.265格式），并具备HDR10/HDR10+播放功能 |
 | 内存     | LPDDR5，可选：4GB / 6GB / 8GB / 12 GB / 16GB                                                                                                                                                                                                                                                                                                                                                                                                                                         |
-| 存储     | 启动存储：板载 32MB QSPI Nor Flash <br/> 拓展存储：支持 MicroSD 卡 / eMMC 模块 / UFS 模块 / M.2 M Key 2230 NVMe SSD                                                                                                                                                                                                                                                                                                                                                                  |
+| 存储     | 启动存储：板载 32MB QSPI Nor Flash <br/> 拓展存储：支持 microSD 卡 / eMMC 模块 / UFS 模块 / M.2 M Key 2230 NVMe SSD                                                                                                                                                                                                                                                                                                                                                                  |
 | 网络     | 有线连接：1 个千兆以太网口（支持 PoE，需外接 PoE HAT）<br/> 无线连接：Wi-Fi 6、蓝牙 5.4，需外接天线                                                                                                                                                                                                                                                                                                                                                                                  |
 | 视频输出 | HDMI：1 个 HDMI 接口，最高支持 4K@30Hz <br/> MIPI DSI：1 个 4 通道 MIPI DSI                                                                                                                                                                                                                                                                                                                                                                                                          |
 | 摄像头   | 1 个 4 通道 MIPI CSI <br/> 2 个 2 通道 MIPI CSI                                                                                                                                                                                                                                                                                                                                                                                                                                      |
diff --git a/docs/dragon/q6a/download.md b/docs/dragon/q6a/download.md
index 8507a5b36..99e1949d1 100644
--- a/docs/dragon/q6a/download.md
+++ b/docs/dragon/q6a/download.md
@@ -18,7 +18,7 @@ sidebar_position: 150
 
 **说明**：R1 或更高版本的系统镜像时，请使用 20251230 或更新版本的 [SPI 启动固件](#启动固件)。
 
-- [radxa-dragon-q6a_noble_gnome_r2.output_512.img.xz](https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-r2/radxa-dragon-q6a_noble_gnome_r2.output_512.img.xz)：适用于 MicroSD 卡 / U 盘 / eMMC / NVMe 启动系统
+- [radxa-dragon-q6a_noble_gnome_r2.output_512.img.xz](https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-r2/radxa-dragon-q6a_noble_gnome_r2.output_512.img.xz)：适用于 microSD 卡 / U 盘 / eMMC / NVMe 启动系统
 - [radxa-dragon-q6a_noble_gnome_r2.output_4096.img.xz](https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-r2/radxa-dragon-q6a_noble_gnome_r2.output_4096.img.xz)：适用于 UFS 启动系统
 
 :::note 使用提示
diff --git a/docs/dragon/q6a/getting-started/install-system/emmc-system/no-emmc-reader.md b/docs/dragon/q6a/getting-started/install-system/emmc-system/no-emmc-reader.md
index 5be98003e..46203c4b9 100644
--- a/docs/dragon/q6a/getting-started/install-system/emmc-system/no-emmc-reader.md
+++ b/docs/dragon/q6a/getting-started/install-system/emmc-system/no-emmc-reader.md
@@ -4,13 +4,13 @@ sidebar_position: 4
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_emmc.mdx';
 
-# 从 MicroSD 卡启动并将系统安装到 eMMC
+# 从 microSD 卡启动并将系统安装到 eMMC
 
 <InstallSystem tag="emmc_module" board="dragon-q6a" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-t4/radxa-dragon-q6a_noble_kde_t4.output_512.img.xz" path_to_image_unxz="radxa-dragon-q6a_noble_kde_t4.output_512.img.xz" path_to_image="radxa-dragon-q6a_noble_kde_t4.output_512.img" />
 
 ## 启动系统
 
-完成系统的安装后，将 MicroSD 卡取下，确认 eMMC 模块已安装到 Dragon Q6A 的 eMMC 模块接口中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电。
+完成系统的安装后，将 microSD 卡取下，确认 eMMC 模块已安装到 Dragon Q6A 的 eMMC 模块接口中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电。
 
 <div style={{textAlign: 'center'}}>
    <img src="/img/dragon/q6a/dragon-q6a-boot-system-emmc.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/docs/dragon/q6a/getting-started/install-system/nvme-system/no-nvme-reader.md b/docs/dragon/q6a/getting-started/install-system/nvme-system/no-nvme-reader.md
index e02feaf3d..e4f74d1c8 100644
--- a/docs/dragon/q6a/getting-started/install-system/nvme-system/no-nvme-reader.md
+++ b/docs/dragon/q6a/getting-started/install-system/nvme-system/no-nvme-reader.md
@@ -4,13 +4,13 @@ sidebar_position: 2
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_nvme.mdx';
 
-# 从 MicroSD 卡启动并将系统安装到 NVMe SSD
+# 从 microSD 卡启动并将系统安装到 NVMe SSD
 
 <InstallSystem tag="m2_2230" board="dragon-q6a" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-t4/radxa-dragon-q6a_noble_kde_t4.output_512.img.xz" path_to_image_unxz="radxa-dragon-q6a_noble_kde_t4.output_512.img.xz" path_to_image="radxa-dragon-q6a_noble_kde_t4.output_512.img" />
 
 ## 启动系统
 
-完成系统的安装后，将 MicroSD 卡取下，确认 NVMe SSD 已安装到 Dragon Q6A 的 NVMe SSD 插槽中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电。
+完成系统的安装后，将 microSD 卡取下，确认 NVMe SSD 已安装到 Dragon Q6A 的 NVMe SSD 插槽中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电。
 
 <div style={{textAlign: 'center'}}>
    <img src="/img/dragon/q6a/dragon-q6a-boot-system-nvme.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/docs/dragon/q6a/getting-started/install-system/sd-system.md b/docs/dragon/q6a/getting-started/install-system/sd-system.md
index 826284b73..fa58ce752 100644
--- a/docs/dragon/q6a/getting-started/install-system/sd-system.md
+++ b/docs/dragon/q6a/getting-started/install-system/sd-system.md
@@ -4,19 +4,19 @@ sidebar_position: 1
 
 import BalenaEtcherUse from '../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 <BalenaEtcherUse />
 
 ## 启动系统
 
-完成系统的安装后，将 MicroSD 卡安装到 Dragon Q6A 的 MicroSD 卡槽中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电，即可启动系统。
+完成系统的安装后，将 microSD 卡安装到 Dragon Q6A 的 microSD 卡槽中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电，即可启动系统。
 
 <div style={{textAlign: 'center'}}>
    <img src="/img/dragon/q6a/dragon-q6a-boot-system.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-① ：安装 MicroSD 卡
+① ：安装 microSD 卡
 
 ② ：使用 HDMI 数据线连接显示器和主板
 
diff --git a/docs/dragon/q6a/getting-started/install-system/ufs-system/no-ufs-reader.md b/docs/dragon/q6a/getting-started/install-system/ufs-system/no-ufs-reader.md
index a981c05da..514c26b53 100644
--- a/docs/dragon/q6a/getting-started/install-system/ufs-system/no-ufs-reader.md
+++ b/docs/dragon/q6a/getting-started/install-system/ufs-system/no-ufs-reader.md
@@ -4,13 +4,13 @@ sidebar_position: 4
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_ufs.mdx';
 
-# 从 MicroSD 卡启动并将系统安装到 UFS
+# 从 microSD 卡启动并将系统安装到 UFS
 
 <InstallSystem tag="ufs_module" board="dragon-q6a" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-t4/radxa-dragon-q6a_noble_kde_t4.output_4096.img.xz" path_to_image_unxz="radxa-dragon-q6a_noble_kde_t4.output_4096.img.xz" path_to_image="radxa-dragon-q6a_noble_kde_t4.output_4096.img" />
 
 ## 启动系统
 
-完成系统的安装后，将 MicroSD 卡取下，确认 UFS 模块已安装到 Dragon Q6A 的 UFS 模块接口中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电。
+完成系统的安装后，将 microSD 卡取下，确认 UFS 模块已安装到 Dragon Q6A 的 UFS 模块接口中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电。
 
 <div style={{textAlign: 'center'}}>
    <img src="/img/dragon/q6a/dragon-q6a-boot-system-ufs.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/docs/dragon/q6a/getting-started/install-system/usb-system/usb-microsd.md b/docs/dragon/q6a/getting-started/install-system/usb-system/usb-microsd.md
index 0bcd55daf..115707ae8 100644
--- a/docs/dragon/q6a/getting-started/install-system/usb-system/usb-microsd.md
+++ b/docs/dragon/q6a/getting-started/install-system/usb-system/usb-microsd.md
@@ -9,13 +9,13 @@ imports_resolve_to:
 
 import USBSystem from '../../../../../common/radxa-os/install-system/qualcomm/\_usb_flash_system.mdx';
 
-# 线刷系统镜像到 MicroSD 卡
+# 线刷系统镜像到 microSD 卡
 
-介绍使用双头 USB Type-A 数据线给主板刷入 MicroSD 卡系统镜像。
+介绍使用双头 USB Type-A 数据线给主板刷入 microSD 卡系统镜像。
 
 ## 使用前提
 
-1. 将 MicroSD 卡插入主板的 MicroSD 卡槽
+1. 将 microSD 卡插入主板的 microSD 卡槽
 
 2. 使主板进入 EDL 模式并使用双头 USB Type-A 数据线连接主板和电脑 --> 可参考 [进入 EDL 模式](./edl-mode.md) 教程
 
diff --git a/docs/dragon/q6a/getting-started/quickly-start.md b/docs/dragon/q6a/getting-started/quickly-start.md
index 6e2e5fb60..ef7aacd8a 100644
--- a/docs/dragon/q6a/getting-started/quickly-start.md
+++ b/docs/dragon/q6a/getting-started/quickly-start.md
@@ -22,7 +22,7 @@ sidebar_position: 1
 
 - 主板：瑞莎 Dragon Q6A
 - 供电：12V Type-C 电源适配器（兼容 PD 协议）
-- 系统启动介质：MicroSD 卡（用于安装系统与启动）
+- 系统启动介质：microSD 卡（用于安装系统与启动）
 - 显示设备：HDMI 数据线和显示器
 - 输入设备：键盘和鼠标（用于图形界面操作）
 - 调试工具（可选）：USB 串口数据线（用于串口登录）
@@ -36,22 +36,22 @@ sidebar_position: 1
 
 ## 安装系统
 
-主要介绍安装系统到 MicroSD 卡。
+主要介绍安装系统到 microSD 卡。
 
 :::warning 重要提醒
 
-**安装系统会完全格式化 MicroSD 卡，所有数据将被永久删除！**
+**安装系统会完全格式化 microSD 卡，所有数据将被永久删除！**
 
 请在操作前确认：
 
-- MicroSD 卡中无重要数据或已完成资料备份
+- microSD 卡中无重要数据或已完成资料备份
 - 选择正确的存储设备，避免格式化其他磁盘
 
 :::
 
 ## 硬件连接
 
-将 MicroSD 卡插入 MicroSD 卡读卡器，再将 MicroSD 卡读卡器插入电脑。
+将 microSD 卡插入 microSD 卡读卡器，再将 microSD 卡读卡器插入电脑。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -72,7 +72,7 @@ sidebar_position: 1
 
 ### 安装系统镜像
 
-使用 Balena Etcher 软件可以将系统镜像安装到 MicroSD 卡中。
+使用 Balena Etcher 软件可以将系统镜像安装到 microSD 卡中。
 
 :::tip Balena Etcher
 
@@ -93,7 +93,7 @@ sidebar_position: 1
 
 #### 选择存储设备
 
-点击 `Select target` 选项，选择 MicroSD 卡设备。
+点击 `Select target` 选项，选择 microSD 卡设备。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -111,7 +111,7 @@ sidebar_position: 1
 
 #### 开始烧录
 
-点击 `Flash!` 选项，开始烧录系统镜像到 MicroSD 卡中。
+点击 `Flash!` 选项，开始烧录系统镜像到 microSD 卡中。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -146,13 +146,13 @@ sidebar_position: 1
 
 ## 启动系统
 
-完成系统的安装后，将 MicroSD 卡安装到 Dragon Q6A 的 MicroSD 卡槽中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电，即可启动系统。
+完成系统的安装后，将 microSD 卡安装到 Dragon Q6A 的 microSD 卡槽中，然后使用 12V Type-C 电源适配器给 Dragon Q6A 供电，即可启动系统。
 
 <div style={{textAlign: 'center'}}>
    <img src="/img/dragon/q6a/dragon-q6a-boot-system.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-① ：安装 MicroSD 卡
+① ：安装 microSD 卡
 
 ② ：使用 HDMI 数据线连接显示器和主板
 
@@ -182,13 +182,13 @@ Radxa OS 的默认凭据如下：
 :::tip 其它启动系统方式
 对于想通过其它方式启动系统的用户（如 eMMC、UFS、以及 NVMe SSD 启动系统），可以参考下面教程完成对应系统启动介质安装系统：
 
-- [安装系统到 MicroSD 卡](./install-system/sd-system.md)
+- [安装系统到 microSD 卡](./install-system/sd-system.md)
 - [安装系统到 U 盘](./install-system/udisk-system.md)
 - [安装系统到 UFS](./install-system/ufs-system/)
 - [安装系统到 eMMC](./install-system/emmc-system/)
 - [安装系统到 NVMe 固态硬盘](./install-system/nvme-system/)
 
-系统启动优先级：USB > MicroSD > NVMe 固态硬盘 > eMMC 模块 > UFS 模块
+系统启动优先级：USB > microSD > NVMe 固态硬盘 > eMMC 模块 > UFS 模块
 
 :::
 
diff --git a/docs/dragon/q6a/hardware-use/microsd.md b/docs/dragon/q6a/hardware-use/microsd.md
index 8206dec1f..c7d61bdc6 100644
--- a/docs/dragon/q6a/hardware-use/microsd.md
+++ b/docs/dragon/q6a/hardware-use/microsd.md
@@ -2,13 +2,13 @@
 sidebar_position: 3
 ---
 
-# MicroSD 卡槽
+# microSD 卡槽
 
-瑞莎 Dragon Q6A 板载 MicroSD 卡槽，兼容 MicroSD / MicroSDHC / MicroSDXC 卡，可用作系统启动盘或扩展存储空间。
+瑞莎 Dragon Q6A 板载 microSD 卡槽，兼容 microSD / microSDHC / microSDXC 卡，可用作系统启动盘或扩展存储空间。
 
 ## 硬件连接
 
-将 MicroSD 卡安装到瑞莎 Dragon Q6A 的 MicroSD 卡槽上。
+将 microSD 卡安装到瑞莎 Dragon Q6A 的 microSD 卡槽上。
 
 :::tip 接口位置
 可以参考 [硬件信息](./hardware-info) 教程找到对应硬件接口位置
@@ -16,15 +16,15 @@ sidebar_position: 3
 
 ## 使用指南
 
-MicroSD 卡可以作为系统启动介质，也可以作为扩展存储空间。
+microSD 卡可以作为系统启动介质，也可以作为扩展存储空间。
 
 ### 系统启动介质
 
-MicroSD 卡存在正常启动的系统时，瑞莎 Dragon Q6A 会默认从 MicroSD 卡启动系统。
+microSD 卡存在正常启动的系统时，瑞莎 Dragon Q6A 会默认从 microSD 卡启动系统。
 
 ### 拓展存储空间
 
-MicroSD 卡不存在系统或者通过其他系统启动介质启动系统，MicroSD 卡将作为拓展存储空间。
+microSD 卡不存在系统或者通过其他系统启动介质启动系统，microSD 卡将作为拓展存储空间。
 
 ## 接口引脚定义
 
diff --git a/docs/e/e20c/getting-started/install-os/boot_from_sd_card.md b/docs/e/e20c/getting-started/install-os/boot_from_sd_card.md
index ad27663d5..9efee8942 100644
--- a/docs/e/e20c/getting-started/install-os/boot_from_sd_card.md
+++ b/docs/e/e20c/getting-started/install-os/boot_from_sd_card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 请到[镜像下载页面](../../download)下载对应的操作系统镜像。
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -27,7 +27,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（如下图所示)，然后上电，系统开始启动，电源指示灯开始闪烁。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（如下图所示)，然后上电，系统开始启动，电源指示灯开始闪烁。
 
 <img src="/img/e/e20c/radxa-e20c-insert-sd.webp" width="500" alt="radxa-e20c pack" />
 
diff --git a/docs/e/e20c/getting-started/quick-start.md b/docs/e/e20c/getting-started/quick-start.md
index 2ae071122..8489d90c7 100644
--- a/docs/e/e20c/getting-started/quick-start.md
+++ b/docs/e/e20c/getting-started/quick-start.md
@@ -30,7 +30,7 @@ import { Section, Image } from "@site/src/utils/docs";
 
 <TabItem value="withoutemmc" label="不带板载EMMC">
 
-准备MicroSD卡, 参考[安装系统](./install-os/) 安装操作系统。
+准备microSD卡, 参考[安装系统](./install-os/) 安装操作系统。
 
 </TabItem>
 </Tabs>
diff --git a/docs/e/e24c/README.md b/docs/e/e24c/README.md
index fed5fd651..63fafa981 100644
--- a/docs/e/e24c/README.md
+++ b/docs/e/e24c/README.md
@@ -61,7 +61,7 @@ Radxa E24C 裸板相比铝合金外壳版本可以使用更多外设接口；但
 | 内存 (容量可选)        | 1GB/2GB/4GB，LPDDR4                                                 |
 | 板载 eMMC（可选）      | 8GB/16GB/32GB，eMMC 5.1；无 eMMC 版本搭载 SPI Nor Flash，二者互斥。 |
 | SPI Nor Flash （可选） | 16MB SPI Nor Flash；仅在无 eMMC 版本搭载。                          |
-| 拓展存储               | MicroSD 存储卡槽（支持 UHS-I）                                      |
+| 拓展存储               | microSD 存储卡槽（支持 UHS-I）                                      |
 | 高速存储               | M.2 PCIe 2.1 NVMe SSD 接口（支持 2280 规格）                        |
 | **网络连接**           |                                                                     |
 | 以太网                 | 4 个千兆以太网端口 (WAN/LAN 可配置)                                 |
@@ -79,7 +79,7 @@ Radxa E24C 裸板相比铝合金外壳版本可以使用更多外设接口；但
 | 工作温度               | 0°C ~ 70°C                                                          |
 | **软件支持**           |                                                                     |
 | 操作系统               | 支持 Debian Linux、OpenWrt 等操作系统                               |
-| 启动方式               | 支持从 MicroSD 卡、eMMC 或 NVMe SSD 启动                            |
+| 启动方式               | 支持从 microSD 卡、eMMC 或 NVMe SSD 启动                            |
 
 ## 接口布局
 
@@ -99,7 +99,7 @@ Radxa E24C 裸板相比铝合金外壳版本可以使用更多外设接口；但
 |  ③   | 千兆以太网接口 (WAN/LAN 可配置)                 |  4   |
 |  ④   | 电源按键                                        |  1   |
 |  ⑤   | LED 状态指示灯 (1 个电源指示灯，4 个网口指示灯) |  5   |
-|  ⑥   | MicroSD 卡槽                                    |  1   |
+|  ⑥   | microSD 卡槽                                    |  1   |
 |  ⑦   | USB 2.0 Type‑A 型接口                           |  3   |
 |  ⑧   | Maskrom 按键                                    |  1   |
 |  ⑨   | 用户按键                                        |  1   |
@@ -122,7 +122,7 @@ Radxa E24C 裸板相比铝合金外壳版本可以使用更多外设接口；但
 |  4   | 用户按键                                        |  1   |
 |  5   | USB 2.0 Type‑A 型接口                           |  3   |
 |  6   | RTC 电池接口                                    |  1   |
-|  7   | MicroSD 卡槽                                    |  1   |
+|  7   | microSD 卡槽                                    |  1   |
 |  8   | GPIO：14Pin 拓展排针                            |  1   |
 |  9   | LED 状态指示灯 (1 个电源指示灯，4 个网口指示灯) |  5   |
 |  10  | 电源按键                                        |  1   |
@@ -177,7 +177,7 @@ Radxa E24C 支持 Debian Linux 和 OpenWrt 两大操作系统，用户可根据
 根据具体配置，以下配件可能包含或需要单独购买：
 
 - 12V/2A 电源适配器，DC5525 接口
-- MicroSD 卡（对于无 eMMC 版本必需）
+- microSD 卡（对于无 eMMC 版本必需）
 - M.2 NVMe SSD（对于需要扩展存储的用户）
 - USB Type-A 转 Type-C 数据线（用于调试）
 - HDMI 数据线（连接显示器）
diff --git a/docs/e/e24c/getting-started/install-os/install-system-sd.md b/docs/e/e24c/getting-started/install-os/install-system-sd.md
index d964e0b31..07b89495c 100644
--- a/docs/e/e24c/getting-started/install-os/install-system-sd.md
+++ b/docs/e/e24c/getting-started/install-os/install-system-sd.md
@@ -2,7 +2,7 @@
 sidebar_position: 1
 ---
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 系统下载
 
@@ -14,7 +14,7 @@ sidebar_position: 1
 
 ## 硬件连接
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/e/e24c/e24c-sd-insert.webp" style={{width: '100%', maxWidth: '600px'}} />
@@ -56,7 +56,7 @@ Windows 和 Linux 只需要打开对应程序就可以使用，无需安装！
   <img src="/img/e/e24c/etcher-01.webp" style={{width: '100%', maxWidth: '600px'}} />
 </div>
 
-- 选择MicroSD卡对应的磁盘
+- 选择microSD卡对应的磁盘
 
 点击 `Select target` 选项，选择自己接入 PC 的读卡器对应磁盘设备。
 
@@ -102,7 +102,7 @@ Windows 和 Linux 只需要打开对应程序就可以使用，无需安装！
 
 ## 启动系统
 
-在 MicroSD 卡上完成系统镜像的写入后，我们可以将读卡器上的 MicroSD 卡装入 Radxa E24C 的 MicroSD 卡槽中，然后使用 12V DC 电源适配器启动系统。
+在 microSD 卡上完成系统镜像的写入后，我们可以将读卡器上的 microSD 卡装入 Radxa E24C 的 microSD 卡槽中，然后使用 12V DC 电源适配器启动系统。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/e/e24c/e24c-insert-sd.webp" style={{width: '100%', maxWidth: '600px'}} />
diff --git a/docs/e/e24c/getting-started/install-os/nvme-system/no-nvme-reader.md b/docs/e/e24c/getting-started/install-os/nvme-system/no-nvme-reader.md
index 5824a9c0d..7cd8502c5 100644
--- a/docs/e/e24c/getting-started/install-os/nvme-system/no-nvme-reader.md
+++ b/docs/e/e24c/getting-started/install-os/nvme-system/no-nvme-reader.md
@@ -4,9 +4,9 @@ sidebar_position: 10
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_nvme.mdx';
 
-# 从 MicroSD 卡启动并将系统安装到 NVMe SSD
+# 从 microSD 卡启动并将系统安装到 NVMe SSD
 
-<InstallSystem boot_device="MicroSD 卡" board="e24c" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-rk3528/releases/download/rsdk-t2/radxa-rk3528_bookworm_kde_t2.output.img.xz" path_to_image_unxz="radxa-rk3528_bookworm_kde_t2.output.img.xz" path_to_image="radxa-rk3528_bookworm_kde_t2.output.img" />
+<InstallSystem boot_device="microSD 卡" board="e24c" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-rk3528/releases/download/rsdk-t2/radxa-rk3528_bookworm_kde_t2.output.img.xz" path_to_image_unxz="radxa-rk3528_bookworm_kde_t2.output.img.xz" path_to_image="radxa-rk3528_bookworm_kde_t2.output.img" />
 
 ## 启动系统
 
@@ -16,7 +16,7 @@ NVMe 固态硬盘启动系统需要烧录 SPI 启动固件才能启动，若没
 
 :::
 
-完成系统的安装后，将 MicroSD 卡取下，确认 NVMe SSD 已安装到瑞莎 E24C 的 NVMe SSD 插槽中，然后使用 12V DC 电源适配器给瑞莎 E24C 供电。
+完成系统的安装后，将 microSD 卡取下，确认 NVMe SSD 已安装到瑞莎 E24C 的 NVMe SSD 插槽中，然后使用 12V DC 电源适配器给瑞莎 E24C 供电。
 
 详细步骤：
 
diff --git a/docs/e/e24c/getting-started/interface-usage.md b/docs/e/e24c/getting-started/interface-usage.md
index ccf9221f3..4ba1346d8 100644
--- a/docs/e/e24c/getting-started/interface-usage.md
+++ b/docs/e/e24c/getting-started/interface-usage.md
@@ -23,7 +23,7 @@ sidebar_position: 2
 |  ④   | 用户按键                                                     |  1   |
 |  ⑤   | USB 2.0 Type‑A 型接口                                        |  3   |
 |  ⑥   | RTC 电池接口                                                 |  1   |
-|  ⑦   | MicroSD 卡槽                                                 |  1   |
+|  ⑦   | microSD 卡槽                                                 |  1   |
 |  ⑧   | GPIO：14Pin 拓展排针                                         |  1   |
 |  ⑨   | LED 状态指示灯 (1 个电源指示灯，4 个网口指示灯)              |  5   |
 |  ⑩   | 电源按键                                                     |  1   |
@@ -50,7 +50,7 @@ sidebar_position: 2
 |  ③   | 千兆以太网接口 ( WAN/LAN 可配置)                |  4   |
 |  ④   | 电源按键                                        |  1   |
 |  ⑤   | LED 状态指示灯 (1 个电源指示灯，4 个网口指示灯) |  5   |
-|  ⑥   | MicroSD 卡槽                                    |  1   |
+|  ⑥   | microSD 卡槽                                    |  1   |
 |  ⑦   | USB 2.0 Type‑A 型接口                           |  3   |
 |  ⑧   | Maskrom 按键                                    |  1   |
 |  ⑨   | 用户按键                                        |  1   |
@@ -135,9 +135,9 @@ echo fc000000.usb > UDC
 
 2-Pin 1.25mm RTC 电池接口，用于连接实时时钟电池，保持系统时间在断电后仍然准确。
 
-### MicroSD 卡槽
+### microSD 卡槽
 
-用于插入 MicroSD 卡，可作为系统启动盘或拓展存储空间。
+用于插入 microSD 卡，可作为系统启动盘或拓展存储空间。
 
 ### GPIO：14Pin 拓展排针
 
diff --git a/docs/e/e24c/getting-started/quick-start.md b/docs/e/e24c/getting-started/quick-start.md
index 63fd63bd4..11301f229 100644
--- a/docs/e/e24c/getting-started/quick-start.md
+++ b/docs/e/e24c/getting-started/quick-start.md
@@ -58,7 +58,7 @@ Radxa E24C 仅支持 12V 电源输入，建议电流 2A 及以上，以确保所
 
 Radxa E24C 支持多种配置选购，主要关注主板有无板载 eMMC。
 
-**对于无 eMMC 的主板**：需要准备 MicroSD 卡和读卡器。
+**对于无 eMMC 的主板**：需要准备 microSD 卡和读卡器。
 
 **对于有 eMMC 的主板**：出厂会提前安装好系统，直接使用即可！
 
@@ -72,7 +72,7 @@ Radxa E24C 上有一个 USB Type‑C 型接口，主要用于调试和访问系
 
 <TabItem value="无板载eMMC系统">
 
-对于无板载 eMMC 系统的用户，需要使用读卡器给 MicroSD 卡写入系统。
+对于无板载 eMMC 系统的用户，需要使用读卡器给 microSD 卡写入系统。
 
 - 系统下载
 
@@ -84,7 +84,7 @@ Radxa E24C 上有一个 USB Type‑C 型接口，主要用于调试和访问系
 
 - 硬件连接
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/e/e24c/e24c-sd-insert.webp" style={{width: '100%', maxWidth: '600px'}} />
@@ -122,7 +122,7 @@ Windows 和 Linux 只需要打开对应程序就可以使用，无需安装！
   <img src="/img/e/e24c/etcher-01.webp" style={{width: '100%', maxWidth: '600px'}} />
 </div>
 
-2. 选择 MicroSD 卡对应的磁盘：点击 `Select target` 选项，选择自己接入 PC 的读卡器对应磁盘设备。
+2. 选择 microSD 卡对应的磁盘：点击 `Select target` 选项，选择自己接入 PC 的读卡器对应磁盘设备。
 
 :::danger
 请勿选错磁盘，否则 Etcher 将格式化被选中的磁盘，造成重要数据丢失！
@@ -178,7 +178,7 @@ Windows 和 Linux 只需要打开对应程序就可以使用，无需安装！
 
 <TabItem value="无板载 eMMC 系统">
 
-在 MicroSD 卡上完成系统镜像的写入后，我们可以将读卡器上的 MicroSD 卡装入 Radxa E24C 的 MicroSD 卡槽中，然后使用 12V DC 电源适配器启动系统。
+在 microSD 卡上完成系统镜像的写入后，我们可以将读卡器上的 microSD 卡装入 Radxa E24C 的 microSD 卡槽中，然后使用 12V DC 电源适配器启动系统。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/e/e24c/e24c-insert-sd.webp" style={{width: '100%', maxWidth: '600px'}} />
diff --git a/docs/e/e24c/hardware-usage/hardware-interface.md b/docs/e/e24c/hardware-usage/hardware-interface.md
index 3a64d239b..67febc5b1 100644
--- a/docs/e/e24c/hardware-usage/hardware-interface.md
+++ b/docs/e/e24c/hardware-usage/hardware-interface.md
@@ -51,7 +51,7 @@ Radxa E24C 详细的硬件接口线序，参考[硬件原理图](../download)
 |  4   | 用户按键                                                    |  1   |
 |  5   | USB 2.0 Type‑A 型接口                                       |  3   |
 |  6   | RTC 电池接口                                                |  1   |
-|  7   | MicroSD 卡槽                                                |  1   |
+|  7   | microSD 卡槽                                                |  1   |
 |  8   | GPIO：14Pin 拓展排针                                        |  1   |
 |  9   | LED 状态指示灯(1个电源指示灯，4个网口指示灯)                |  5   |
 |  10  | 电源按键                                                    |  1   |
@@ -62,9 +62,9 @@ Radxa E24C 详细的硬件接口线序，参考[硬件原理图](../download)
 |  15  | M.2 NVME SSD 接口                                           |  1   |
 |  16  | SPI Nor Flash                                               |  1   |
 
-### MicroSD 卡槽
+### microSD 卡槽
 
-E24C 板载 MicroSD 卡槽，可用于存储系统数据、系统镜像、系统配置等。
+E24C 板载 microSD 卡槽，可用于存储系统数据、系统镜像、系统配置等。
 
 | PIN | Name       | 功能描述      |
 | --- | ---------- | ------------- |
@@ -84,18 +84,18 @@ E24C 板载 MicroSD 卡槽，可用于存储系统数据、系统镜像、系统
 
 #### 使用指南
 
-- **支持卡型**：兼容 MicroSD/MicroSDHC/MicroSDXC 存储卡
+- **支持卡型**：兼容 microSD/microSDHC/microSDXC 存储卡
 - **推荐规格**：建议使用 Class 10/UHS-I 或更高规格的卡，以获得更好的性能
-- **最大容量**：理论上支持高达 2TB 的 MicroSDXC 卡，实际测试支持 512GB
+- **最大容量**：理论上支持高达 2TB 的 microSDXC 卡，实际测试支持 512GB
 
 #### 主要应用场景
 
-- **系统启动**：E24C 可以从 MicroSD 卡启动操作系统，这是最常见的使用方式
+- **系统启动**：E24C 可以从 microSD 卡启动操作系统，这是最常见的使用方式
 - **数据存储**：可在已有系统（如使用 eMMC 启动）的情况下用于扩展存储空间
 - **系统备份**：可用于备份当前系统和数据
 
 :::tip
-对于生产环境或需要 24/7 运行的系统，推荐使用 eMMC 或 M.2 SSD 作为主要存储和启动设备，因为它们提供更好的稳定性和读写耐久性。MicroSD 卡适合临时存储和开发测试场景。
+对于生产环境或需要 24/7 运行的系统，推荐使用 eMMC 或 M.2 SSD 作为主要存储和启动设备，因为它们提供更好的稳定性和读写耐久性。microSD 卡适合临时存储和开发测试场景。
 :::
 
 ### USB 接口
diff --git a/docs/e/e52c/getting-started/install-os/boot_from_sd_card.md b/docs/e/e52c/getting-started/install-os/boot_from_sd_card.md
index 081199944..7f45459e6 100644
--- a/docs/e/e52c/getting-started/install-os/boot_from_sd_card.md
+++ b/docs/e/e52c/getting-started/install-os/boot_from_sd_card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 请到[镜像下载页面](../../download)下载对应的操作系统镜像。
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -27,7 +27,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（下图右边为 SD 卡插槽），然后上电，系统开始启动，电源指示灯开始闪烁。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（下图右边为 SD 卡插槽），然后上电，系统开始启动，电源指示灯开始闪烁。
 
 <img src="/img/e/e52c/radxa-e52c-insert-sd.webp" width="500" alt="radxa-e52c pack" />
 
diff --git a/docs/e/e52c/getting-started/quick-start.md b/docs/e/e52c/getting-started/quick-start.md
index fcf41179c..24341adc1 100644
--- a/docs/e/e52c/getting-started/quick-start.md
+++ b/docs/e/e52c/getting-started/quick-start.md
@@ -32,7 +32,7 @@ import { Section, Image } from "@site/src/utils/docs";
 
 <TabItem value="withoutemmc" label="不带板载EMMC">
 
-准备 MicroSD 卡, 参考[安装系统](./install-os/) 安装操作系统。
+准备 microSD 卡, 参考[安装系统](./install-os/) 安装操作系统。
 
 </TabItem>
 </Tabs>
diff --git a/docs/e/e54c/README.md b/docs/e/e54c/README.md
index ecae98b4e..d37bc6b61 100644
--- a/docs/e/e54c/README.md
+++ b/docs/e/e54c/README.md
@@ -64,7 +64,7 @@ E54C 专为以下用户设计：
 
 - **强大处理性能**：采用瑞芯微 RK3582 处理器，双核 Cortex-A76 (最高 2.2GHz) 和四核 Cortex-A55 (最高 1.8GHz) 的 64 位处理器
 - **丰富网络连接**：配备 4 个千兆以太网端口，支持多WAN接入、负载均衡和复杂网络拓扑
-- **灵活存储方案**：支持 MicroSD 卡启动、可选板载 eMMC 和 M.2 NVMe SSD 高速存储扩展
+- **灵活存储方案**：支持 microSD 卡启动、可选板载 eMMC 和 M.2 NVMe SSD 高速存储扩展
 - **AI 加速能力**：内置 NPU，算力高达 5TOPs@INT8，支持主流AI框架和推理任务
 - **多功能接口**：提供 USB 3.0/2.0 接口、HDMI 2.1 输出（支持高达8K）和 GPIO 扩展接口
 - **高效散热设计**：铝合金外壳提供出色的被动散热性能，支持可选风扇主动散热
@@ -79,7 +79,7 @@ E54C 专为以下用户设计：
 | **NPU**      | 算力高达 5TOPs@INT8，支持主流AI推理框架                                      |
 | **内存**     | 2GB/4GB/8GB/16GB/32GB LPDDR4                                                 |
 | **板载存储** | 可选 eMMC：8GB/16GB/32GB/64GB/128GB                                          |
-| **存储扩展** | MicroSD 卡插槽 + M.2 M-Key 接口 (PCIe 2.1)，支持 NVMe SSD                    |
+| **存储扩展** | microSD 卡插槽 + M.2 M-Key 接口 (PCIe 2.1)，支持 NVMe SSD                    |
 | **以太网**   | 4 个千兆以太网端口 (WAN/LAN可配置)                                           |
 | **USB 接口** | 1 个 USB 3.0 Type-A + 2 个 USB 2.0 Type-A + 1个 USB 3.0 Type-C (OTG)         |
 | **视频输出** | HDMI 2.1 接口，支持高达 8K 分辨率                                            |
@@ -100,7 +100,7 @@ E54C 专为以下用户设计：
 2. USB 3.0/2.0 接口
 3. HDMI 2.1输出接口
 4. M.2 NVMe SSD插槽
-5. MicroSD卡插槽
+5. microSD卡插槽
 6. GPIO扩展接口
 7. 12V DC电源接口
 
diff --git a/docs/e/e54c/getting-started/install-os/boot_from_nvme.md b/docs/e/e54c/getting-started/install-os/boot_from_nvme.md
index 8b207f6b3..0aa7438ea 100644
--- a/docs/e/e54c/getting-started/install-os/boot_from_nvme.md
+++ b/docs/e/e54c/getting-started/install-os/boot_from_nvme.md
@@ -6,18 +6,18 @@ sidebar_position: 2
 
 ## 概览
 
-Radxa E54C 通过 NVME 启动系统需要先通过MicroSD 卡或 eMMC 启动系统，然后通过 `rsetup` 工具或 `RKDevTool` 工具刷入 SPI Flash，最后通过 `dd` 命令写入系统镜像到 NVME 设备
+Radxa E54C 通过 NVME 启动系统需要先通过microSD 卡或 eMMC 启动系统，然后通过 `rsetup` 工具或 `RKDevTool` 工具刷入 SPI Flash，最后通过 `dd` 命令写入系统镜像到 NVME 设备
 
-教程以 MicroSD 卡启动系统作为演示。eMMC 系统安装方式没有区别。
+教程以 microSD 卡启动系统作为演示。eMMC 系统安装方式没有区别。
 
 ## 启动系统
 
-可以参考[快速上手](../quick-start)教程，使系统通过 MicroSD 卡启动。
+可以参考[快速上手](../quick-start)教程，使系统通过 microSD 卡启动。
 
 确认 Radxa E54C 系统成功启动，关机并断开 Radxa E54C 电源，然后将 NVME 插入 Radxa E54C 主板的 M.2 接口。
 
 :::tip
-MicroSD 卡的作用是相当于 x86 系统的启动盘，目的是进入一个可以安装系统的 Linux 环境，并拿到 SPI Flash 的 Image 文件 - `spi.img`，然后将 `spi.img` 通过 `rsetup` 工具刷到 SPI Flash 中
+microSD 卡的作用是相当于 x86 系统的启动盘，目的是进入一个可以安装系统的 Linux 环境，并拿到 SPI Flash 的 Image 文件 - `spi.img`，然后将 `spi.img` 通过 `rsetup` 工具刷到 SPI Flash 中
 :::
 
 ## 刷入 SPI Flash
@@ -395,7 +395,7 @@ sudo fdisk -l /dev/nvme0n1
 
 1. 关闭系统：`sudo shutdown -h now`
 2. 断开 Radxa E54C 与电源
-3. 移除 MicroSD 卡
+3. 移除 microSD 卡
 4. 重新连接电源
 5. 等待系统从NVMe启动
 
@@ -423,13 +423,13 @@ df -h
 
 - **系统无法启动**：
 
-  - 重新插入MicroSD卡，启动系统
+  - 重新插入microSD卡，启动系统
   - 尝试更换刷入 SPI Flash 的 Bootloader 文件选项（优先选择最新版本）
   - 检查 M.2 接口是否连接良好，可尝试重新插拔NVMe
 
 - **系统可以启动但无法登录**：
   - 默认用户名：`radxa`，密码：`radxa`
-  - 如密码错误，可重新使用MicroSD卡启动，然后重新下载并写入系统镜像
+  - 如密码错误，可重新使用microSD卡启动，然后重新下载并写入系统镜像
     :::
 
 ## 后续步骤
diff --git a/docs/e/e54c/getting-started/install-os/boot_from_sd_card.md b/docs/e/e54c/getting-started/install-os/boot_from_sd_card.md
index 3d760fde4..4eda426b2 100644
--- a/docs/e/e54c/getting-started/install-os/boot_from_sd_card.md
+++ b/docs/e/e54c/getting-started/install-os/boot_from_sd_card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 请到[镜像下载页面](../../download)下载对应的操作系统镜像。
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -27,7 +27,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（下图右边为 SD 卡插槽），然后上电，系统开始启动，电源指示灯开始闪烁。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（下图右边为 SD 卡插槽），然后上电，系统开始启动，电源指示灯开始闪烁。
 
 <img src="/img/e/e54c/radxa-e54c-insert-sd.webp" width="500" alt="radxa-e54c pack" />
 
diff --git a/docs/e/e54c/getting-started/quick-start.md b/docs/e/e54c/getting-started/quick-start.md
index 83a6fe8fb..2a4ca6860 100644
--- a/docs/e/e54c/getting-started/quick-start.md
+++ b/docs/e/e54c/getting-started/quick-start.md
@@ -30,15 +30,15 @@ import Etcher from '../../../common/general/\_etcherV2.mdx';
 
 <TabItem value="withoutemmc" label="不带板载EMMC" default>
 
-对于不带 eMMC 的 E54C，需要使用 MicroSD 卡安装系统。
+对于不带 eMMC 的 E54C，需要使用 microSD 卡安装系统。
 
 ### 文件下载
 
 请到[镜像下载页面](../download)下载对应的操作系统镜像。
 
-### MicroSD 卡准备
+### microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ### 镜像烧录
 
@@ -46,7 +46,7 @@ import Etcher from '../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内，然后插上 12V DC 适配器，系统开始自动启动，LED 指示灯 SYS 灯开始闪烁。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内，然后插上 12V DC 适配器，系统开始自动启动，LED 指示灯 SYS 灯开始闪烁。
 
 <img src="/img/e/e54c/radxa-e54c-insert-sd.webp" width="500" alt="radxa-e54c pack" />
 
diff --git a/docs/e/e54c/hardware-design/hardware-interface.md b/docs/e/e54c/hardware-design/hardware-interface.md
index 17e69cc55..275faa2e6 100644
--- a/docs/e/e54c/hardware-design/hardware-interface.md
+++ b/docs/e/e54c/hardware-design/hardware-interface.md
@@ -45,7 +45,7 @@ E54C 采用紧凑高效的硬件设计，将多种接口和功能集成在单一
 - **USB 接口**：USB 3.0 和 USB 2.0 接口通过独立总线连接到主处理器
 - **显示输出**：HDMI 2.1 接口通过专用控制器提供高分辨率输出
 - **存储接口**：
-  - MicroSD 卡使用专用 SDMMC 控制器
+  - microSD 卡使用专用 SDMMC 控制器
   - 可选板载 eMMC 存储通过高速总线连接
   - M.2 PCIe 接口通过 PCIe 2.1 通道提供高速存储扩展
 - **扩展接口**：GPIO 排针和其他接口提供了高度可定制化的扩展能力
@@ -76,7 +76,7 @@ E54C 的硬件设计有以下区别于其他同类产品的优势：
 
 **侧面与内部接口**：
 
-- MicroSD 卡插槽
+- microSD 卡插槽
 - M.2 M-Key 插槽 (PCIe 2.1)
 - 14针 GPIO 扩展接口
 - 风扇和 RTC 电池接口
diff --git a/docs/fogwise/airbox/hardware-design/hardware-interface.md b/docs/fogwise/airbox/hardware-design/hardware-interface.md
index 8d098b6c2..63e5b2f58 100644
--- a/docs/fogwise/airbox/hardware-design/hardware-interface.md
+++ b/docs/fogwise/airbox/hardware-design/hardware-interface.md
@@ -18,7 +18,7 @@ sidebar_position: 4
 
 使用 USB Type-A 转 Type-C 数据线连接整机 Debug 口和 PC 端，波特率 115200。
 
-## MicroSD
+## microSD
 
 支持热插拔。目前推荐三星和闪迪的SD卡。
 
diff --git a/docs/nio/nio12l/yocto/yocto-user-guide.md b/docs/nio/nio12l/yocto/yocto-user-guide.md
index c85a10c6b..a0667675e 100644
--- a/docs/nio/nio12l/yocto/yocto-user-guide.md
+++ b/docs/nio/nio12l/yocto/yocto-user-guide.md
@@ -69,9 +69,9 @@ sdc       8:32   0 119.2G  0 disk
 `-sdc10   8:42   0 118.9G  0 part /
 ```
 
-### MicroSD 卡
+### microSD 卡
 
-使用 `lsblk | grep mmc` 查看 MicroSD 卡。如这里的 `/dev/mmcblk1`。
+使用 `lsblk | grep mmc` 查看 microSD 卡。如这里的 `/dev/mmcblk1`。
 
 ```text
 mmcblk1     179:0    0  58.9G  0 disk
diff --git a/docs/rock2/rock2a/getting-started/install-os/boot-from-sd-card.md b/docs/rock2/rock2a/getting-started/install-os/boot-from-sd-card.md
index 585871f02..361f03887 100644
--- a/docs/rock2/rock2a/getting-started/install-os/boot-from-sd-card.md
+++ b/docs/rock2/rock2a/getting-started/install-os/boot-from-sd-card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 请到[镜像下载页面](../../download)下载对应的操作系统镜像。
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
diff --git a/docs/rock2/rock2a/getting-started/quick-start.md b/docs/rock2/rock2a/getting-started/quick-start.md
index 69908e61f..9d11135bb 100644
--- a/docs/rock2/rock2a/getting-started/quick-start.md
+++ b/docs/rock2/rock2a/getting-started/quick-start.md
@@ -20,7 +20,7 @@ sidebar_position: 2
 
 ## 接线和上电
 
-1. 按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（如下图所示)
+1. 按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（如下图所示)
 
 <img src="/img/rock2a/rock-2a-insert-sd.webp" width="500" alt="rock-2a pack" />
 
diff --git a/docs/rock2/rock2a/other-os/android/install-os.md b/docs/rock2/rock2a/other-os/android/install-os.md
index 6a3d1e301..cbe44d15d 100644
--- a/docs/rock2/rock2a/other-os/android/install-os.md
+++ b/docs/rock2/rock2a/other-os/android/install-os.md
@@ -33,7 +33,7 @@ ROCK 2A 可以从 microSD 卡启动，也可以从 EMMC 启动，基于不同的
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 ROCK 2A 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 ROCK 2A 的 microSD 插槽内。
 - ROCK 2A 的供电接口为 [Type C port](../../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 </TabItem>
diff --git a/docs/rock2/rock2f/download.md b/docs/rock2/rock2f/download.md
index 7ae7e4b31..b72618d7b 100644
--- a/docs/rock2/rock2f/download.md
+++ b/docs/rock2/rock2f/download.md
@@ -24,7 +24,7 @@ sidebar_position: 2
 
 - Android
 
-[Radxa ROCK 2F Android 13 MicroSD and eMMC Image](https://github.com/radxa/manifests/releases/download/radxa-rock2a-20241230/ROCK2A_Android13_box_20241230_gpt.zip)：适用于 MicroSD 卡、板载 eMMC 启动系统。
+[Radxa ROCK 2F Android 13 microSD and eMMC Image](https://github.com/radxa/manifests/releases/download/radxa-rock2a-20241230/ROCK2A_Android13_box_20241230_gpt.zip)：适用于 microSD 卡、板载 eMMC 启动系统。
 
 :::tip
 ROCK 2A 和 ROCK 2F 使用同一个安卓系统镜像。
diff --git a/docs/rock2/rock2f/getting-started/install-os/boot-from-sd-card.md b/docs/rock2/rock2f/getting-started/install-os/boot-from-sd-card.md
index 87a8d26da..94ebc1f75 100644
--- a/docs/rock2/rock2f/getting-started/install-os/boot-from-sd-card.md
+++ b/docs/rock2/rock2f/getting-started/install-os/boot-from-sd-card.md
@@ -1,6 +1,6 @@
 ---
 sidebar_position: 1
-description: "安装系统到 MicroSD 卡"
+description: "安装系统到 microSD 卡"
 
 doc_kind: wrapper
 source_of_truth: common
@@ -10,15 +10,15 @@ imports_resolve_to:
 
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 请到[下载页面](../../download)下载对应的操作系统镜像。
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -26,7 +26,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
 
 <img src="/img/rock2f/rock-2f-insert-sd.webp" width="500" alt="rock-2a pack" />
 
diff --git a/docs/rock3/e25/getting-started/install-os.md b/docs/rock3/e25/getting-started/install-os.md
index 2ae2baf9e..2d52dbe99 100644
--- a/docs/rock3/e25/getting-started/install-os.md
+++ b/docs/rock3/e25/getting-started/install-os.md
@@ -27,7 +27,7 @@ import Etcher from '../../../common/general/\_etcher.mdx'
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa E25 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa E25 的 microSD 插槽内。
 - Radxa E25 的供电接口为 [USB Type C port](../README)，请使用 Type-C 线缆连接供电口和适配器。
 
 :::tip
diff --git a/docs/rock3/rock3a/getting-started/install-os.md b/docs/rock3/rock3a/getting-started/install-os.md
index e16913a5a..237a98ca2 100644
--- a/docs/rock3/rock3a/getting-started/install-os.md
+++ b/docs/rock3/rock3a/getting-started/install-os.md
@@ -27,7 +27,7 @@ import Etcher from '../../../common/general/\_etcher.mdx'
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa ROCK 3A 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa ROCK 3A 的 microSD 插槽内。
 - Radxa ROCK 3A 的供电接口为 [USB 2.0 OTG Type C port](../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 :::tip
diff --git a/docs/rock3/rock3a/hardware-design/hardware-interface.md b/docs/rock3/rock3a/hardware-design/hardware-interface.md
index 281cac871..2ee0b35d2 100644
--- a/docs/rock3/rock3a/hardware-design/hardware-interface.md
+++ b/docs/rock3/rock3a/hardware-design/hardware-interface.md
@@ -159,4 +159,4 @@ ROCK 3A 提供一个 40 pin GPIO 扩展座，兼容市场上大多数传感器
 
 ## WIFI
 
-## MicroSD
+## microSD
diff --git a/docs/rock3/rock3a/other-os/android/install-os.md b/docs/rock3/rock3a/other-os/android/install-os.md
index b3f95b5fa..87d29b62a 100644
--- a/docs/rock3/rock3a/other-os/android/install-os.md
+++ b/docs/rock3/rock3a/other-os/android/install-os.md
@@ -31,7 +31,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx'
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa ROCK 3A 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa ROCK 3A 的 microSD 插槽内。
 - Radxa ROCK 3A 的供电接口为 [USB 2.0 OTG Type C port](../../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 :::tip
diff --git a/docs/rock3/rock3b/getting-started/install-system/boot-from-sd-card.md b/docs/rock3/rock3b/getting-started/install-system/boot-from-sd-card.md
index 7e74560e4..a88c02fa8 100644
--- a/docs/rock3/rock3b/getting-started/install-system/boot-from-sd-card.md
+++ b/docs/rock3/rock3b/getting-started/install-system/boot-from-sd-card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 <Images loader={false} system_img={true} spi_img={false} />
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -27,7 +27,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
 
 <img
 src="/img/rock3/3b/rock3b-sd-slot.webp"
diff --git a/docs/rock3/rock3b/hardware-design/hardware-interface.md b/docs/rock3/rock3b/hardware-design/hardware-interface.md
index 96c3848ab..fb9a937f3 100644
--- a/docs/rock3/rock3b/hardware-design/hardware-interface.md
+++ b/docs/rock3/rock3b/hardware-design/hardware-interface.md
@@ -158,7 +158,7 @@ ROCK 3B 提供一个 40 pin GPIO 扩展座，兼容市场上大多数传感器
 | 21  |         GND         | 22  |                     |
 | 23  |         GND         |     |                     |
 
-### MicroSD Card
+### microSD Card
 
 | Pin |         Name          | Pin |         Name          |
 | :-: | :-------------------: | :-: | :-------------------: |
diff --git a/docs/rock3/rock3b/low-level-dev/maskrom/erase.md b/docs/rock3/rock3b/low-level-dev/maskrom/erase.md
index 4b86fb394..5db22c8a3 100644
--- a/docs/rock3/rock3b/low-level-dev/maskrom/erase.md
+++ b/docs/rock3/rock3b/low-level-dev/maskrom/erase.md
@@ -15,7 +15,7 @@ import ERASE from "../../../../common/dev/\_erase-spi-emmc.mdx";
 <ERASE loader="https://dl.radxa.com/rock3/images/loader/rock-3b/rk356x_spl_loader_ddr1056_v1.10.111.bin"  loader_name="rk356x_spl_loader_ddr1056_v1.10.111.bin" rkdevtool_erase_emmc_img="/img/common/rkdevtool/rk3588-rkdevtool-erase-eMMC.webp" rkdevtool_erase_spi_flash_img="/img/common/rkdevtool/rk3588-rkdevtool-erase-spi-flash.webp">
 
 <ol>
-    <li>移除 MicroSD 卡，插入 eMMC</li>
+    <li>移除 microSD 卡，插入 eMMC</li>
     <li>将 USB 3.0 座子下方的拨码开关调至 device 侧</li>
     <li>短接 Maskrom 引脚，其位于 USB 3.0 座子和以太网中间</li>
     <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
diff --git a/docs/rock3/rock3b/low-level-dev/maskrom/linux.md b/docs/rock3/rock3b/low-level-dev/maskrom/linux.md
index afd6cb670..a43c7dbb0 100644
--- a/docs/rock3/rock3b/low-level-dev/maskrom/linux.md
+++ b/docs/rock3/rock3b/low-level-dev/maskrom/linux.md
@@ -21,7 +21,7 @@ import Images from "../../\_image.mdx"
 <Rkdeveloptool model="rock-3b" release_num="18" desktop="xfce" platform="linux" loader="rk356x_spl_loader__v1.15.113.bin">
 
 <ol>
-    <li>移除 MicroSD 卡，插入 eMMC</li>
+    <li>移除 microSD 卡，插入 eMMC</li>
     <li>将 USB 3.0 座子下方的拨码开关调至 device 侧</li>
     <li>短接 Maskrom 引脚，其位于 USB 3.0 座子和以太网中间</li>
     <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
diff --git a/docs/rock3/rock3b/low-level-dev/maskrom/mac-os.md b/docs/rock3/rock3b/low-level-dev/maskrom/mac-os.md
index 60d5b7408..995342347 100644
--- a/docs/rock3/rock3b/low-level-dev/maskrom/mac-os.md
+++ b/docs/rock3/rock3b/low-level-dev/maskrom/mac-os.md
@@ -21,7 +21,7 @@ import Images from "../../\_image.mdx"
 <Rkdeveloptool model="rock-3b" release_num="18" desktop="xfce" platform="macos" loader="rk356x_spl_loader__v1.15.113.bin">
 
 <ol>
-    <li>移除 MicroSD 卡，插入 eMMC</li>
+    <li>移除 microSD 卡，插入 eMMC</li>
     <li>将 USB 3.0 座子下方的拨码开关调至 device 侧</li>
     <li>短接 Maskrom 引脚，其位于 USB 3.0 座子和以太网中间</li>
     <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
diff --git a/docs/rock3/rock3b/low-level-dev/maskrom/windows.md b/docs/rock3/rock3b/low-level-dev/maskrom/windows.md
index dc54e60fe..88a6a7cfb 100644
--- a/docs/rock3/rock3b/low-level-dev/maskrom/windows.md
+++ b/docs/rock3/rock3b/low-level-dev/maskrom/windows.md
@@ -21,7 +21,7 @@ import Images from "../../\_image.mdx"
 <Rkdevtool rkdevtool_emmc_img="/img/rock3/3b/rock-3b-rkdevtool-maskrom-flash-system.webp" loader_name="rk356x_spl_loader__v1.15.113.bin" emmc={false} pcie={false} sata={false} >
 
 <ol>
-    <li>移除 MicroSD 卡，插入 eMMC</li>
+    <li>移除 microSD 卡，插入 eMMC</li>
     <li>将 USB 3.0 座子下方的拨码开关调至 device 侧</li>
     <li>短接 Maskrom 引脚，其位于 USB 3.0 座子和以太网中间</li>
     <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
diff --git a/docs/rock3/rock3c/getting-started/download.md b/docs/rock3/rock3c/getting-started/download.md
index 8204c8b69..154f76c88 100644
--- a/docs/rock3/rock3c/getting-started/download.md
+++ b/docs/rock3/rock3c/getting-started/download.md
@@ -35,9 +35,9 @@ sidebar_position: 20
 
 - Android
 
-[Radxa ROCK 3C Android 11 MicroSD and eMMC Image](https://github.com/radxa/manifests/releases/download/android11-radxa-20240806/Rock3C-Android11_r12-20240806-gpt.zip)：适用于 MicroSD 卡、eMMC 模块启动系统。
+[Radxa ROCK 3C Android 11 microSD and eMMC Image](https://github.com/radxa/manifests/releases/download/android11-radxa-20240806/Rock3C-Android11_r12-20240806-gpt.zip)：适用于 microSD 卡、eMMC 模块启动系统。
 
-[Radxa ROCK 3C Android 14 MicroSD and eMMC Image](https://github.com/radxa/manifests/releases/download/Android14-rkr6-ROCK3c/ROCK3C-Android14-20250718-HDMI-gpt.zip)：适用于 MicroSD 卡、eMMC 模块启动系统。
+[Radxa ROCK 3C Android 14 microSD and eMMC Image](https://github.com/radxa/manifests/releases/download/Android14-rkr6-ROCK3c/ROCK3C-Android14-20250718-HDMI-gpt.zip)：适用于 microSD 卡、eMMC 模块启动系统。
 
 :::caution
 除了上面的镜像经过官方充分测试外，其他镜像未经过严格测试，可能会存在未知问题，仅用于评估使用。
diff --git a/docs/rock4/rock4ab-se/getting-started/install-os/boot-from-sd-card.md b/docs/rock4/rock4ab-se/getting-started/install-os/boot-from-sd-card.md
index 32c0d9317..b146e8f78 100644
--- a/docs/rock4/rock4ab-se/getting-started/install-os/boot-from-sd-card.md
+++ b/docs/rock4/rock4ab-se/getting-started/install-os/boot-from-sd-card.md
@@ -9,17 +9,17 @@ imports_resolve_to:
 
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
-本文介绍如何在 ROCK 4A/4B/4A+/4B+/4SE 上将系统安装到 MicroSD 卡 中，并通过 MicroSD 卡 启动系统。
+本文介绍如何在 ROCK 4A/4B/4A+/4B+/4SE 上将系统安装到 microSD 卡 中，并通过 microSD 卡 启动系统。
 
 ## 文件下载
 
 到资源下载汇总页面下载 [ROCK 4A/4B/4A+/4B+/4SE 系统镜像](../../download)
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -27,7 +27,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
 
 <img
 src="/img/rock4/rock4-sd-slot.webp"
diff --git a/docs/rock4/rock4ab-se/hardware-design/hardware-interface.md b/docs/rock4/rock4ab-se/hardware-design/hardware-interface.md
index a277943f8..b68b95aad 100644
--- a/docs/rock4/rock4ab-se/hardware-design/hardware-interface.md
+++ b/docs/rock4/rock4ab-se/hardware-design/hardware-interface.md
@@ -95,7 +95,7 @@ import GPIO from '../../\_rock4-gpio.mdx';
 | 21  |    GND    | 22  |     GND     |
 | 23  |    GND    | 24  |             |
 
-### MicroSD
+### microSD
 
 | Pin |     Name     |
 | :-: | :----------: |
diff --git a/docs/rock4/rock4ab-se/low-level-dev/maskrom/erase.md b/docs/rock4/rock4ab-se/low-level-dev/maskrom/erase.md
index b6cc50133..3ecaa45d4 100644
--- a/docs/rock4/rock4ab-se/low-level-dev/maskrom/erase.md
+++ b/docs/rock4/rock4ab-se/low-level-dev/maskrom/erase.md
@@ -13,7 +13,7 @@ import ERASE from "../../../../common/dev/\_erase-spi-emmc.mdx";
 
     <TabItem value="板载 eMMC">
 
-断开主板电源，取下 MicroSD 卡。
+断开主板电源，取下 microSD 卡。
 
 详细步骤：
 
@@ -33,7 +33,7 @@ import ERASE from "../../../../common/dev/\_erase-spi-emmc.mdx";
 
     <TabItem value="无板载 eMMC">
 
-断开主板电源，移除可启动系统介质（如 MicroSD 卡和 eMMC 模块等）。
+断开主板电源，移除可启动系统介质（如 microSD 卡和 eMMC 模块等）。
 
 详细步骤：
 
diff --git a/docs/rock4/rock4ab-se/low-level-dev/maskrom/linux.md b/docs/rock4/rock4ab-se/low-level-dev/maskrom/linux.md
index 0307b0035..31b795628 100644
--- a/docs/rock4/rock4ab-se/low-level-dev/maskrom/linux.md
+++ b/docs/rock4/rock4ab-se/low-level-dev/maskrom/linux.md
@@ -17,7 +17,7 @@ import Rkdeveloptool from "../../../../common/dev/\_rkdeveloptoolV2.mdx";
 
     <TabItem value="板载 eMMC">
 
-断开主板电源，取下 MicroSD 卡。
+断开主板电源，取下 microSD 卡。
 
 详细步骤：
 
@@ -37,7 +37,7 @@ import Rkdeveloptool from "../../../../common/dev/\_rkdeveloptoolV2.mdx";
 
     <TabItem value="无板载 eMMC">
 
-断开主板电源，移除可启动系统介质（如 MicroSD 卡和 eMMC 模块等）。
+断开主板电源，移除可启动系统介质（如 microSD 卡和 eMMC 模块等）。
 
 详细步骤：
 
diff --git a/docs/rock4/rock4ab-se/low-level-dev/maskrom/macos.md b/docs/rock4/rock4ab-se/low-level-dev/maskrom/macos.md
index 3268d0cfd..05c1bd4d0 100644
--- a/docs/rock4/rock4ab-se/low-level-dev/maskrom/macos.md
+++ b/docs/rock4/rock4ab-se/low-level-dev/maskrom/macos.md
@@ -17,7 +17,7 @@ import Rkdeveloptool from "../../../../common/dev/\_rkdeveloptoolV2.mdx";
 
     <TabItem value="板载 eMMC">
 
-断开主板电源，取下 MicroSD 卡。
+断开主板电源，取下 microSD 卡。
 
 详细步骤：
 
@@ -37,7 +37,7 @@ import Rkdeveloptool from "../../../../common/dev/\_rkdeveloptoolV2.mdx";
 
     <TabItem value="无板载 eMMC">
 
-断开主板电源，移除可启动系统介质（如 MicroSD 卡和 eMMC 模块等）。
+断开主板电源，移除可启动系统介质（如 microSD 卡和 eMMC 模块等）。
 
 详细步骤：
 
diff --git a/docs/rock4/rock4ab-se/low-level-dev/maskrom/windows.md b/docs/rock4/rock4ab-se/low-level-dev/maskrom/windows.md
index 242c7e86b..7701c91e6 100644
--- a/docs/rock4/rock4ab-se/low-level-dev/maskrom/windows.md
+++ b/docs/rock4/rock4ab-se/low-level-dev/maskrom/windows.md
@@ -19,7 +19,7 @@ import Rkdevtool from "../../../../common/dev/\_rkdevtoolV2.mdx";
 
     <TabItem value="板载 eMMC">
 
-断开主板电源，取下 MicroSD 卡。
+断开主板电源，取下 microSD 卡。
 
 详细步骤：
 
@@ -39,7 +39,7 @@ import Rkdevtool from "../../../../common/dev/\_rkdevtoolV2.mdx";
 
     <TabItem value="无板载 eMMC">
 
-断开主板电源，移除可启动系统介质（如 MicroSD 卡和 eMMC 模块等）。
+断开主板电源，移除可启动系统介质（如 microSD 卡和 eMMC 模块等）。
 
 详细步骤：
 
diff --git a/docs/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-emmc.md b/docs/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-emmc.md
index d188ec65e..7aebe989e 100644
--- a/docs/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-emmc.md
+++ b/docs/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-emmc.md
@@ -6,7 +6,7 @@ import UPGRADE_TOOL from "../../../../../../common/dev/\_upgrade-tool.mdx";
 
 # 安装系统到 eMMC
 
-我们可以直接将 Android 系统安装到 eMMC 模块中，请参考 [安装系统到 MicroSD 卡](./boot-from-sd) 章节 。
+我们可以直接将 Android 系统安装到 eMMC 模块中，请参考 [安装系统到 microSD 卡](./boot-from-sd) 章节 。
 本篇主要讲述如何通过 Maskrom 模式将 <strong> update 格式</strong>的 Android 系统安装到 ROCK 4A/4B/4A+/4B+/4SE eMMC 上。
 
 ## 文件下载
@@ -20,7 +20,7 @@ import UPGRADE_TOOL from "../../../../../../common/dev/\_upgrade-tool.mdx";
     <TabItem value="板载 eMMC 的">
 
         <ol>
-            <li>移除 MicroSD 卡，断开电源</li>
+            <li>移除 microSD 卡，断开电源</li>
             <li>如果板上有一个 SPI Nor Flash，则将 SPI Nor Flash 短路</li>
             <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
             <li>按住 Maskrom 按键</li>
@@ -38,7 +38,7 @@ import UPGRADE_TOOL from "../../../../../../common/dev/\_upgrade-tool.mdx";
     <TabItem value="不板载 eMMC 的">
 
         <ol>
-            <li>移除 MicroSD 卡，断开电源</li>
+            <li>移除 microSD 卡，断开电源</li>
             <li>如果板上有一个 SPI Nor Flash，则将 SPI Nor Flash 短路</li>
             <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
             <li>插入电源线上电，如果电源绿灯常亮则成功进入 Maskrom 模式</li>
diff --git a/docs/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-sd.md b/docs/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-sd.md
index 4febd365a..b3e6310b7 100644
--- a/docs/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-sd.md
+++ b/docs/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-sd.md
@@ -9,17 +9,17 @@ imports_resolve_to:
 
 import Etcher from '../../../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
-本文介绍如何在 ROCK 4A/4B/4A+/4B+/4SE 上将系统安装到 MicroSD 卡 中，并通过 MicroSD 卡 启动系统。
+本文介绍如何在 ROCK 4A/4B/4A+/4B+/4SE 上将系统安装到 microSD 卡 中，并通过 microSD 卡 启动系统。
 
 ## 文件下载
 
 到资源下载汇总页面下载 [ROCK 4A/4B/4A+/4B+/4SE 系统镜像](../../../../download)
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -27,7 +27,7 @@ import Etcher from '../../../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
 
 <img
 src="/img/rock4/rock4-sd-slot.webp"
diff --git a/docs/rock4/rock4c+/getting-started/before-start.md b/docs/rock4/rock4c+/getting-started/before-start.md
index 10ee45f67..e6aeb4342 100644
--- a/docs/rock4/rock4c+/getting-started/before-start.md
+++ b/docs/rock4/rock4c+/getting-started/before-start.md
@@ -31,7 +31,7 @@ ROCK 4C Plus 配备了两个 micro HDMI 接口，一个最高支持 1440P@60，
 HDMI 2k、HDMI 4K 和 MIPI DSI 中只有两种可以同时工作。
 :::
 
-- MicroSD 卡读卡器
+- microSD 卡读卡器
 
 用于将镜像刷写到 microSD 卡。
 
diff --git a/docs/rock4/rock4d/README.md b/docs/rock4/rock4d/README.md
index 2e1abd757..3160fda02 100644
--- a/docs/rock4/rock4d/README.md
+++ b/docs/rock4/rock4d/README.md
@@ -38,7 +38,7 @@ ROCK 4D 提供两个版本：基于 RK3576 的商业级 ROCK 4D 和 基于 RK357
 | ---------- | ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ |
 | 处理器     | 系统级芯片 (SoC)： 瑞芯微 RK3576 / RK3576J <br/> 中央处理器 (CPU)： 4 核 Cortex-A72 + 4 核 Cortex-A53 <br/> 图形处理器 (GPU)： Arm Mali-G52 MC3 <br/> 神经网络加速器 (NPU)： 6 TOPS（支持 INT4 / INT8 / INT16 / FP16 / BF16 / TF32） |
 | 内存 (RAM) | LPDDR5，可选：2GB / 4GB / 8GB / 16GB                                                                                                                                                                                                 |
-| 存储       | 启动存储： 16MB SPI NOR Flash <br/> 拓展存储： eMMC / UFS 模块接口，MicroSD 卡槽                                                                                                                                                     |
+| 存储       | 启动存储： 16MB SPI NOR Flash <br/> 拓展存储： eMMC / UFS 模块接口，microSD 卡槽                                                                                                                                                     |
 | 网络       | 有线连接： 1 个千兆以太网口（支持 PoE，需外接 HAT） <br/> 无线连接： Wi-Fi 6、蓝牙 5.4，外接天线接口                                                                                                                                 |
 | 视频输出   | HDMI 接口： 1× HDMI 2.1，最高支持 4K@120fps <br/> MIPI DSI 接口： 1× 4-lane MIPI DSI                                                                                                                                                 |
 | 摄像头接口 | MIPI CSI 接口 : 1 路 4-lane（可分为 2 路 2-lane）+ 1 路 2-lane CSI                                                                                                                                                                   |
@@ -65,7 +65,7 @@ ROCK 4D 提供两个版本：基于 RK3576 的商业级 ROCK 4D 和 基于 RK357
 |  ⑤   | [FPC 接口](./hardware-use/fpc-connector.md)|  1   |  ⑭  | [USB 3.0 Type-A 接口](./hardware-use/usb-type-a.md)<br />上层：USB 3.0 Type-A OTG<br />下层：USB 3.0 Type-A HOST |  2   |  ㉓  | [RTC 接口](./hardware-use/rtc.md)           |  1   |
 |  ⑥   | [WiFi6 和 蓝牙 5.4](./hardware-use/ante.md) |  1   |  ⑮  | SPI NOR Flash               |  1   |  ㉔  | [eMMC 模块接口](./hardware-use/emmc-ufs-connector.md) |  1   |
 |  ⑦   | [天线接口](./hardware-use/ante.md)          |  1   |  ⑯  | [千兆以太网口（支持 PoE）](./hardware-use/gigabit-ethernet.md) |  1   |  ㉕  | [MIPI CSI 接口](./hardware-use/mipi-csi.md) |  1   |
-|  ⑧   | [40 Pin GPIO 接口](./hardware-use/40-pin-gpio.md)|  1   |  ⑰  | [风扇接口](./hardware-use/fan.md)            |  1   |  ㉖  | [MicroSD 卡槽](./hardware-use/microsd.md)   |  1   |
+|  ⑧   | [40 Pin GPIO 接口](./hardware-use/40-pin-gpio.md)|  1   |  ⑰  | [风扇接口](./hardware-use/fan.md)            |  1   |  ㉖  | [microSD 卡槽](./hardware-use/microsd.md)   |  1   |
 |  ⑨   | LPDDR5 内存                |  1   |  ⑱  | [耳机插孔](./hardware-use/headphone.md)      |  1   |  ㉗  | [MIPI DSI 接口](./hardware-use/mipi-dsi.md) |  1   |
     </TabItem>
     <TabItem value="ROCK 4D v1.12">
@@ -79,7 +79,7 @@ ROCK 4D 提供两个版本：基于 RK3576 的商业级 ROCK 4D 和 基于 RK357
 | ⑤  | [FPC 接口](./hardware-use/fpc-connector.md)     | 1  | ⑮  | SPI NOR Flash                                                                            | 1  | ㉕  | [RTC 接口](./hardware-use/rtc.md)                   | 1  |
 | ⑥  | [WiFi6 和 蓝牙 5.4](./hardware-use/ante.md)   | 1  | ⑯  | [千兆以太网口（支持 PoE）](./hardware-use/gigabit-ethernet.md)                                                      | 1  | ㉖  | [eMMC 模块接口](./hardware-use/emmc-ufs-connector.md) | 1  |
 | ⑦  | [天线接口](./hardware-use/ante.md)                | 1  | ⑰  | [风扇接口](./hardware-use/fan.md)                                                                            | 1  | ㉗  | [MIPI CSI 接口](./hardware-use/mipi-csi.md)         | 1  |
-| ⑧  | [40 Pin GPIO 接口](./hardware-use/40-pin-gpio.md)  | 1  | ⑱  | [耳机插孔](./hardware-use/headphone.md)                                                                      | 1  | ㉘  | [MicroSD 卡槽](./hardware-use/microsd.md)           | 1  |
+| ⑧  | [40 Pin GPIO 接口](./hardware-use/40-pin-gpio.md)  | 1  | ⑱  | [耳机插孔](./hardware-use/headphone.md)                                                                      | 1  | ㉘  | [microSD 卡槽](./hardware-use/microsd.md)           | 1  |
 | ⑨  | LPDDR5 内存                     | 1  | ⑲  | [MIPI CSI 接口](./hardware-use/mipi-csi.md)                                                                | 1  | ㉙  | [MIPI DSI 接口](./hardware-use/mipi-dsi.md)         | 1  |
 | ⑩  | [PoE 接口](./hardware-use/gigabit-ethernet.md)  | 1  | ⑳  | 扬声器预留焊盘                                                                                  | 1  |    |                                   |    |
     </TabItem>
diff --git a/docs/rock4/rock4d/download.md b/docs/rock4/rock4d/download.md
index 8cee36b7a..f852de015 100644
--- a/docs/rock4/rock4d/download.md
+++ b/docs/rock4/rock4d/download.md
@@ -40,16 +40,16 @@ USB 刷机使用，Loader 文件用于 USB 下载初始化。
 
 :::
 
-若没有清除过 SPI Flash，可以直接写入系统镜像到 MicroSD 卡 / UFS 模块 / NVME / eMMC 启动系统。
+若没有清除过 SPI Flash，可以直接写入系统镜像到 microSD 卡 / UFS 模块 / NVME / eMMC 启动系统。
 
-- 适用于 MicroSD 卡 / NVME SSD / U 盘 / eMMC 等介质启动的系统镜像： [Linux-SD-NVME-UDisk.img.xz](https://github.com/radxa-build/radxa-rk3576/releases/download/rsdk-r6/radxa-rk3576_bookworm_kde_r6.output_512.img.xz)
+- 适用于 microSD 卡 / NVME SSD / U 盘 / eMMC 等介质启动的系统镜像： [Linux-SD-NVME-UDisk.img.xz](https://github.com/radxa-build/radxa-rk3576/releases/download/rsdk-r6/radxa-rk3576_bookworm_kde_r6.output_512.img.xz)
 
 - 适用于 UFS 启动的系统镜像： [Linux-UFS.img.xz](https://github.com/radxa-build/radxa-rk3576/releases/download/rsdk-r6/radxa-rk3576_bookworm_kde_r6.output_4096.img.xz)
 
 :::caution
 
 1. 请根据自己的系统启动介质下载对应系统镜像文件，下载错误的镜像会导致无法启动系统， UFS 镜像和普通镜像主要区别是 UFS 镜像的块大小是 4K 字节，普通镜像块大小是 512 字节。
-2. 下载的系统镜像是经过压缩的，请务必解压后再写入到 MicroSD 卡/UFS 模块/NVME 启动系统。
+2. 下载的系统镜像是经过压缩的，请务必解压后再写入到 microSD 卡/UFS 模块/NVME 启动系统。
    :::
 
 #### Android 系统镜像
@@ -60,7 +60,7 @@ USB 刷机使用，Loader 文件用于 USB 下载初始化。
 
 :::
 
-- 适用于 MicroSD 卡启动的系统镜像：[Android-SD.zip](https://github.com/radxa/manifests/releases/download/radxa-rock4d-20250528/Rock4d-Android14-rkr6-sd-20250527-gpt.zip)
+- 适用于 microSD 卡启动的系统镜像：[Android-SD.zip](https://github.com/radxa/manifests/releases/download/radxa-rock4d-20250528/Rock4d-Android14-rkr6-sd-20250527-gpt.zip)
 
 - 适用于 UFS 模块启动的 update 系统镜像：[Android-UFS-update.zip](https://github.com/radxa/manifests/releases/download/radxa-rock4d-20251014/Rock4d-Android14-rk6-gms-ufs-20251014-update.zip)
 
diff --git a/docs/rock4/rock4d/getting-started/install-system/README.md b/docs/rock4/rock4d/getting-started/install-system/README.md
index 856b7900a..7ad120531 100644
--- a/docs/rock4/rock4d/getting-started/install-system/README.md
+++ b/docs/rock4/rock4d/getting-started/install-system/README.md
@@ -4,14 +4,14 @@ sidebar_position: 2
 
 # 安装系统
 
-瑞莎 ROCK 4D 支持 MicroSD 卡、UFS 模块和 M.2 NVMe SSD 三种方式安装系统，用户可以根据自己的需求选择对应的系统启动介质。
+瑞莎 ROCK 4D 支持 microSD 卡、UFS 模块和 M.2 NVMe SSD 三种方式安装系统，用户可以根据自己的需求选择对应的系统启动介质。
 
-- 使用 MicroSD 卡安装系统 - 操作简单，只需要读卡器就可以完成系统安装；但是读写速度相比于 UFS 模块和 M.2 NVMe SSD 卡较慢。
+- 使用 microSD 卡安装系统 - 操作简单，只需要读卡器就可以完成系统安装；但是读写速度相比于 UFS 模块和 M.2 NVMe SSD 卡较慢。
 
-- 使用 UFS 模块安装系统 - 相比于 MicroSD 卡读写速度更快，ROCK 4D 支持可插拔 UFS 模块，关于 UFS 模块信息可以参考[瑞莎 UFS 模块页面](https://radxa.com/products/accessories/ufs-module)
+- 使用 UFS 模块安装系统 - 相比于 microSD 卡读写速度更快，ROCK 4D 支持可插拔 UFS 模块，关于 UFS 模块信息可以参考[瑞莎 UFS 模块页面](https://radxa.com/products/accessories/ufs-module)
 
 - 使用 M.2 NVMe SSD 安装系统 - 相比于 UFS 模块读写速度更快，但是需要搭配专门的转接板使用。
 
-总的来说，如果对读写性能没有过高要求，可以使用 MicroSD 卡作为系统启动介质；如果对读写速度有要求而且不需要借助额外的转接板连接 ROCK 4D，可以使用 UFS 模块安装系统；如果对读写速度有更高的要求，可以使用 M.2 NVMe SSD 安装系统。
+总的来说，如果对读写性能没有过高要求，可以使用 microSD 卡作为系统启动介质；如果对读写速度有要求而且不需要借助额外的转接板连接 ROCK 4D，可以使用 UFS 模块安装系统；如果对读写速度有更高的要求，可以使用 M.2 NVMe SSD 安装系统。
 
 <DocCardList />
diff --git a/docs/rock4/rock4d/getting-started/install-system/boot_sd.md b/docs/rock4/rock4d/getting-started/install-system/boot_sd.md
index 5e2d995a9..e7e0af9e0 100644
--- a/docs/rock4/rock4d/getting-started/install-system/boot_sd.md
+++ b/docs/rock4/rock4d/getting-started/install-system/boot_sd.md
@@ -2,9 +2,9 @@
 sidebar_position: 1
 ---
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
-本节教程主要介绍如何给 MicroSD 卡安装系统。
+本节教程主要介绍如何给 microSD 卡安装系统。
 
 ## 硬件准备
 
@@ -12,8 +12,8 @@ sidebar_position: 1
 
 #### 安装系统
 
-- 读卡器：MicroSD 卡读卡器
-- 系统启动介质：MicroSD 卡（推荐容量 32GB 或以上）
+- 读卡器：microSD 卡读卡器
+- 系统启动介质：microSD 卡（推荐容量 32GB 或以上）
 
 #### 启动系统
 
@@ -32,13 +32,13 @@ ROCK 4D 主板仅支持 5V 电源输入，建议电流 3A 以上，确保所有
 
 ## 安装系统
 
-安装系统会格式化 MicroSD 卡，如果有重要数据请提前备份。
+安装系统会格式化 microSD 卡，如果有重要数据请提前备份。
 
 ### 下载系统镜像
 
-在 PC 上访问 [资源下载汇总](../../download) 页面，在下载页面找到 MicroSD 卡对应的系统镜像。
+在 PC 上访问 [资源下载汇总](../../download) 页面，在下载页面找到 microSD 卡对应的系统镜像。
 
-下载完成后，解压系统镜像文件，得到的 `*.img` 文件就是待烧写到 MicroSD 卡中的系统镜像文件。
+下载完成后，解压系统镜像文件，得到的 `*.img` 文件就是待烧写到 microSD 卡中的系统镜像文件。
 
 :::tip
 下载的系统镜像是一个压缩文件，需要解压后才能通过镜像烧录软件安装到SD卡, 未解压就直接烧录到SD卡，可能会出现安装系统失败或者启动系统失败的情况。
@@ -46,7 +46,7 @@ ROCK 4D 主板仅支持 5V 电源输入，建议电流 3A 以上，确保所有
 
 ### 硬件连接
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -54,7 +54,7 @@ ROCK 4D 主板仅支持 5V 电源输入，建议电流 3A 以上，确保所有
 
 ### 安装系统镜像
 
-使用开源镜像烧录工具 Etcher 烧写系统镜像文件到 MicroSD 卡。
+使用开源镜像烧录工具 Etcher 烧写系统镜像文件到 microSD 卡。
 
 #### 下载 Etcher
 
@@ -156,7 +156,7 @@ Debian Linux
 
 ## 启动系统
 
-完成系统镜像的安装后，将 MicroSD 卡从读卡器上取下来，然后将卡插入主板的 MicroSD 卡槽中，使用 5V Type-C 电源适配器启动系统。
+完成系统镜像的安装后，将 microSD 卡从读卡器上取下来，然后将卡插入主板的 microSD 卡槽中，使用 5V Type-C 电源适配器启动系统。
 
 启动系统后，蓝色和绿色 LED 灯会同时亮起，大概过几秒左右，绿灯常亮、蓝色指示灯会闪烁，一般表示系统启动成功。
 
diff --git a/docs/rock4/rock4d/getting-started/install-system/boot_start.md b/docs/rock4/rock4d/getting-started/install-system/boot_start.md
index e80fe88d5..6dd6304c9 100644
--- a/docs/rock4/rock4d/getting-started/install-system/boot_start.md
+++ b/docs/rock4/rock4d/getting-started/install-system/boot_start.md
@@ -30,7 +30,7 @@ SPI 启动固件的核心任务是**初始化关键硬件**，例如：
 
 ## 获取最新的 SPI 启动固件
 
-你需要让 ROCK 4D 通过 MicroSD 卡启动系统，可以参考 [快速上手](../quickly_start) 教程完成。
+你需要让 ROCK 4D 通过 microSD 卡启动系统，可以参考 [快速上手](../quickly_start) 教程完成。
 
 成功启动系统并且确保系统连接网络正常，我们可以打开 ROCK 4D 终端命令行，使用 Rsetup 工具来更新系统。
 
diff --git a/docs/rock4/rock4d/getting-started/install-system/emmc_system/no_emmc_reader.md b/docs/rock4/rock4d/getting-started/install-system/emmc_system/no_emmc_reader.md
index 1ce9103da..18341e4a7 100644
--- a/docs/rock4/rock4d/getting-started/install-system/emmc_system/no_emmc_reader.md
+++ b/docs/rock4/rock4d/getting-started/install-system/emmc_system/no_emmc_reader.md
@@ -9,7 +9,7 @@ imports_resolve_to:
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_emmc.mdx';
 
-# 从 MicroSD 卡启动并将系统安装到 eMMC
+# 从 microSD 卡启动并将系统安装到 eMMC
 
 :::tip eMMC 系统启动提示
 仅 ROCK 4D 无 SPI Flash 版本支持 eMMC 启动，板载 SPI Flash 的版本不支持 eMMC 启动。
@@ -19,7 +19,7 @@ import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_d
 
 ## 启动系统
 
-完成系统的安装后，将 MicroSD 卡取下，确认 eMMC 模块已安装到 ROCK 4D 的 eMMC 模块接口中，然后使用电源适配器给 ROCK 4D 供电，即可启动系统。
+完成系统的安装后，将 microSD 卡取下，确认 eMMC 模块已安装到 ROCK 4D 的 eMMC 模块接口中，然后使用电源适配器给 ROCK 4D 供电，即可启动系统。
 
 <div style={{textAlign: 'center'}}>
    <img src="/img/rock4/4d/rock-4d-boot-system-emmc.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/docs/rock4/rock4d/getting-started/install-system/nvme-system/README.md b/docs/rock4/rock4d/getting-started/install-system/nvme-system/README.md
index bad2cb331..8f6baa797 100644
--- a/docs/rock4/rock4d/getting-started/install-system/nvme-system/README.md
+++ b/docs/rock4/rock4d/getting-started/install-system/nvme-system/README.md
@@ -4,11 +4,11 @@ sidebar_position: 3
 
 # 安装系统到 NVMe SSD
 
-M.2 NVMe SSD 是一种高速、高容量、低成本的存储设备，其读写速度快于 MicroSD 卡和 UFS 模块，对于想进一步提高系统读写和启动速度的用户来说，是个不错的选择。
+M.2 NVMe SSD 是一种高速、高容量、低成本的存储设备，其读写速度快于 microSD 卡和 UFS 模块，对于想进一步提高系统读写和启动速度的用户来说，是个不错的选择。
 
 我们介绍两种方式安装系统到 M.2 NVMe SSD：
 
-- 对于有 M.2 NVMe 固态硬盘盒的用户，安装系统步骤和 MicroSD 卡安装系统的步骤类似，比较简单。
+- 对于有 M.2 NVMe 固态硬盘盒的用户，安装系统步骤和 microSD 卡安装系统的步骤类似，比较简单。
 
 - 对于没有 M.2 NVMe 固态硬盘盒的用户，使用 `dd` 命令将系统镜像安装到 M.2 NVMe SSD。
 
diff --git a/docs/rock4/rock4d/getting-started/install-system/nvme-system/no_nvme_reader.md b/docs/rock4/rock4d/getting-started/install-system/nvme-system/no_nvme_reader.md
index fc7d52bf9..0131c86a9 100644
--- a/docs/rock4/rock4d/getting-started/install-system/nvme-system/no_nvme_reader.md
+++ b/docs/rock4/rock4d/getting-started/install-system/nvme-system/no_nvme_reader.md
@@ -4,7 +4,7 @@ sidebar_position: 2
 
 # 不使用 M.2 NVMe 固态硬盘盒
 
-本节教程适用于没有 M.2 NVMe 固态硬盘盒的用户，主要介绍如何在 MicroSD 卡启动系统的基础上将系统安装到 M.2 NVMe SSD 中。
+本节教程适用于没有 M.2 NVMe 固态硬盘盒的用户，主要介绍如何在 microSD 卡启动系统的基础上将系统安装到 M.2 NVMe SSD 中。
 
 :::tip
 M.2 NVMe SSD 是指支持 M.2 接口和 NVMe 协议的固态硬盘。
@@ -12,18 +12,18 @@ M.2 NVMe SSD 是指支持 M.2 接口和 NVMe 协议的固态硬盘。
 
 ## 硬件准备
 
-在没有 M.2 NVMe 固态硬盘盒的情况下安装系统，需要瑞莎 ROCK 4D 通过 MicroSD 卡能正常启动系统。
+在没有 M.2 NVMe 固态硬盘盒的情况下安装系统，需要瑞莎 ROCK 4D 通过 microSD 卡能正常启动系统。
 
-**注意： 若 MicroSD 卡启动异常，可以参考 [安装系统到 MicroSD 卡](../boot_sd)教程，先安装系统到 MicroSD 卡上。**
+**注意： 若 microSD 卡启动异常，可以参考 [安装系统到 microSD 卡](../boot_sd)教程，先安装系统到 microSD 卡上。**
 
-我们会在 MicroSD 卡上的系统进行操作，使用 `dd` 命令将系统安装到 M.2 NVMe SSD 中。
+我们会在 microSD 卡上的系统进行操作，使用 `dd` 命令将系统安装到 M.2 NVMe SSD 中。
 
 **注意：使用 M.2 NVMe SSD 启动系统都需要搭配 PCIe 转 M.2 M Key HAT 使用。**
 
 您需要准备以下硬件：
 
 - 主板：瑞莎 ROCK 4D
-- 正常启动系统的 MicroSD 卡
+- 正常启动系统的 microSD 卡
 - M.2 NVMe SSD: 自行购买
 - PCIe 转 M.2 M Key HAT : 自行购买
 - 电源适配器：Type-C 电源适配器( 支持 PD 协议，5V 电源输入，建议电流 3A 以上)
@@ -131,7 +131,7 @@ Device Start End Sectors Size Type
 
 1. 关闭系统：`sudo shutdown -h now`
 2. 断开 ROCK 4D 的电源
-3. 移除 MicroSD 卡
+3. 移除 microSD 卡
 4. 重新连接 ROCK 4D 的电源
 5. 等待系统从 M.2 NVMe SSD 启动
 
diff --git a/docs/rock4/rock4d/getting-started/install-system/nvme-system/nvme_reader.md b/docs/rock4/rock4d/getting-started/install-system/nvme-system/nvme_reader.md
index 8e06ea3a0..7aaf2edbe 100644
--- a/docs/rock4/rock4d/getting-started/install-system/nvme-system/nvme_reader.md
+++ b/docs/rock4/rock4d/getting-started/install-system/nvme-system/nvme_reader.md
@@ -12,7 +12,7 @@ M.2 NVMe SSD 是指支持 M.2 接口和 NVMe 协议的固态硬盘。
 
 ## 硬件准备
 
-使用固态硬盘盒 给 M.2 NVMe SSD 安装系统，不需要依赖 MicroSD 卡，直接将 M.2 NVMe SSD 插入固态硬盘盒中，使用 Etcher 软件安装系统到 M.2 NVMe SSD 中。
+使用固态硬盘盒 给 M.2 NVMe SSD 安装系统，不需要依赖 microSD 卡，直接将 M.2 NVMe SSD 插入固态硬盘盒中，使用 Etcher 软件安装系统到 M.2 NVMe SSD 中。
 
 **注意：使用 M.2 NVMe SSD 启动系统都需要搭配 PCIe 转 M.2 M Key HAT 使用。**
 
@@ -164,7 +164,7 @@ ROCK 4D 主板仅支持 5V 电源输入，建议电流 3A 以上，确保所有
 完成系统镜像的安装后：
 
 1. 将 M.2 NVMe SSD 从 M.2 固态硬盘盒中取出
-2. 取下 ROCK 4D 上的 MicroSD 卡
+2. 取下 ROCK 4D 上的 microSD 卡
 3. 将 M.2 NVMe SSD 安装到 PCIe 转 M.2 M Key HAT
 4. 将 PCIe 转 M.2 M Key HAT 安装到 ROCK 4D 上
 5. 连接 ROCK 4D 的电源
diff --git a/docs/rock4/rock4d/getting-started/install-system/ufs-system/README.md b/docs/rock4/rock4d/getting-started/install-system/ufs-system/README.md
index 00a73684c..35bc729aa 100644
--- a/docs/rock4/rock4d/getting-started/install-system/ufs-system/README.md
+++ b/docs/rock4/rock4d/getting-started/install-system/ufs-system/README.md
@@ -4,13 +4,13 @@ sidebar_position: 2
 
 # 安装系统到 UFS 模块
 
-UFS 模块相比于 MicroSD 卡读写速度快，对于想提高系统读写和启动速度的用户来说，是个不错的选择。
+UFS 模块相比于 microSD 卡读写速度快，对于想提高系统读写和启动速度的用户来说，是个不错的选择。
 
 我们介绍两种方式安装系统到 UFS 模块：
 
 - 对于有瑞莎 eMMC / UFS 二合一模块读卡器的用户，直接在 PC 上通过瑞莎 eMMC / UFS 二合一模块读卡器写入系统镜像。
 
-- 对于没有瑞莎 eMMC / UFS 二合一模块读卡器的用户，需要额外使用 MicroSD 卡启动系统，使用 `dd` 命令将系统镜像安装到 UFS 模块。
+- 对于没有瑞莎 eMMC / UFS 二合一模块读卡器的用户，需要额外使用 microSD 卡启动系统，使用 `dd` 命令将系统镜像安装到 UFS 模块。
 
 更多关于瑞莎 eMMC / UFS 二合一模块读卡器的信息可以参考[瑞莎 eMMC/UFS 二合一模块读卡器页面](https://radxa.com/products/accessories/emmc-ufs-module-reader)。
 
diff --git a/docs/rock4/rock4d/getting-started/install-system/ufs-system/no_ufs_reader.md b/docs/rock4/rock4d/getting-started/install-system/ufs-system/no_ufs_reader.md
index 2ec5f36c7..abce2e6e9 100644
--- a/docs/rock4/rock4d/getting-started/install-system/ufs-system/no_ufs_reader.md
+++ b/docs/rock4/rock4d/getting-started/install-system/ufs-system/no_ufs_reader.md
@@ -4,21 +4,21 @@ sidebar_position: 2
 
 # 不使用瑞莎 eMMC / UFS 二合一模块读卡器
 
-本节教程适用于没有瑞莎 eMMC / UFS 二合一模块读卡器的用户，主要介绍如何在 MicroSD 卡启动系统的基础上将系统安装到 UFS 模块中。
+本节教程适用于没有瑞莎 eMMC / UFS 二合一模块读卡器的用户，主要介绍如何在 microSD 卡启动系统的基础上将系统安装到 UFS 模块中。
 
 ## 硬件准备
 
-在没有瑞莎 eMMC / UFS 二合一模块读卡器的情况下安装系统到 UFS 模块，需要瑞莎 ROCK 4D 通过 MicroSD 卡能正常启动系统。
+在没有瑞莎 eMMC / UFS 二合一模块读卡器的情况下安装系统到 UFS 模块，需要瑞莎 ROCK 4D 通过 microSD 卡能正常启动系统。
 
-我们会在 MicroSD 卡上的系统进行操作，使用 `dd` 命令将系统安装到 UFS 模块中。
+我们会在 microSD 卡上的系统进行操作，使用 `dd` 命令将系统安装到 UFS 模块中。
 
-注意： 若 MicroSD 卡启动异常，可以参考 [安装系统到 MicroSD 卡](../boot_sd)教程，先安装系统到 MicroSD 卡上。
+注意： 若 microSD 卡启动异常，可以参考 [安装系统到 microSD 卡](../boot_sd)教程，先安装系统到 microSD 卡上。
 
 **您需要准备以下硬件：**
 
 - 主板：瑞莎 ROCK 4D
 - [UFS 模块](https://radxa.com/products/accessories/ufs-module)
-- 正常启动系统的 MicroSD 卡
+- 正常启动系统的 microSD 卡
 - 电源适配器：Type-C 电源适配器( 支持 PD 协议，5V 电源输入，建议电流 3A 以上)
 
 :::tip
@@ -131,7 +131,7 @@ Device Start End Sectors Size Type
 
 1. 关闭系统：`sudo shutdown -h now`
 2. 断开 ROCK 4D 的电源
-3. 移除 MicroSD 卡
+3. 移除 microSD 卡
 4. 重新连接电源
 5. 等待系统从 UFS 模块启动
 
diff --git a/docs/rock4/rock4d/getting-started/install-system/ufs-system/ufs_reader.md b/docs/rock4/rock4d/getting-started/install-system/ufs-system/ufs_reader.md
index 4631a087d..392e1c85e 100644
--- a/docs/rock4/rock4d/getting-started/install-system/ufs-system/ufs_reader.md
+++ b/docs/rock4/rock4d/getting-started/install-system/ufs-system/ufs_reader.md
@@ -8,7 +8,7 @@ sidebar_position: 1
 
 ## 硬件准备
 
-使用瑞莎 eMMC / UFS 二合一模块读卡器安装系统，不需要依赖MicroSD 卡，直接将 UFS 模块插入 eMMC / UFS 模块读卡器中，使用 Etcher 软件安装系统到 UFS 模块中。
+使用瑞莎 eMMC / UFS 二合一模块读卡器安装系统，不需要依赖microSD 卡，直接将 UFS 模块插入 eMMC / UFS 模块读卡器中，使用 Etcher 软件安装系统到 UFS 模块中。
 
 **您需要准备以下硬件：**
 
@@ -166,7 +166,7 @@ UFS 模块安装步骤：
 完成系统镜像的安装后：
 
 1. 将 UFS 模块从瑞莎 eMMC / UFS 二合一模块读卡器上取下来
-2. 取下 ROCK 4D 上的 MicroSD 卡
+2. 取下 ROCK 4D 上的 microSD 卡
 3. 将 UFS 模块安装到 ROCK 4D的 eMMC / UFS 模块接口上
 4. 连接 ROCK 4D 的电源
 5. 等待系统从 UFS 模块启动
diff --git a/docs/rock4/rock4d/getting-started/quickly_start.md b/docs/rock4/rock4d/getting-started/quickly_start.md
index 4d5675387..928cefeef 100644
--- a/docs/rock4/rock4d/getting-started/quickly_start.md
+++ b/docs/rock4/rock4d/getting-started/quickly_start.md
@@ -22,7 +22,7 @@ sidebar_position: 1
 您需要提前准备以下硬件设备，以便完成快速上手教程的所有操作。
 
 - 主板：瑞莎 ROCK 4D
-- 系统启动介质：MicroSD 卡
+- 系统启动介质：microSD 卡
 - USB串口数据线（可选）：用于串口调试和登录
 - 显示器（可选）：HDMI 显示器和 HDMI 数据线
 - 电源适配器：Type-C 电源适配器( 支持 PD 协议，5V 电源输入，建议电流 3A 以上)
@@ -59,7 +59,7 @@ ROCK 4D 主板仅支持 5V 电源输入，建议电流 3A 以上，确保所有
 
 ### 系统启动介质
 
-ROCK 4D 支持 MicroSD 卡、NVME、UFS启动，但是快速上手教程只介绍 MicroSD卡启动。
+ROCK 4D 支持 microSD 卡、NVME、UFS启动，但是快速上手教程只介绍 microSD卡启动。
 
 ### 串口调试
 
@@ -67,11 +67,11 @@ ROCK 4D 主板支持通过 USB 串口数据线进行串口调试，您需要将
 
 ## 写入系统镜像
 
-您需要在 PC 上下载待写入的系统镜像文件，并将其烧写到 MicroSD 卡中。
+您需要在 PC 上下载待写入的系统镜像文件，并将其烧写到 microSD 卡中。
 
 ### 下载系统镜像
 
-在 PC 上访问[资源下载汇总](../download)页面，下载 ROCK 4D 对应的系统镜像压缩包，下载完成后解压系统镜像压缩包，得到的 `*.img` 文件就是待烧写到 MicroSD 卡中的系统镜像文件。
+在 PC 上访问[资源下载汇总](../download)页面，下载 ROCK 4D 对应的系统镜像压缩包，下载完成后解压系统镜像压缩包，得到的 `*.img` 文件就是待烧写到 microSD 卡中的系统镜像文件。
 
 :::tip
 下载的系统镜像是一个压缩文件，需要解压后才能通过镜像烧录软件写入到SD卡, 未解压就直接烧录到SD卡，可能会出现写入系统失败或者启动系统失败的情况。
@@ -79,7 +79,7 @@ ROCK 4D 主板支持通过 USB 串口数据线进行串口调试，您需要将
 
 ### 写入系统镜像
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -117,7 +117,7 @@ Windows 和 Linux 只需要打开对应程序就可以使用，无需安装！
   <img src="/img/rock4/4d/etcher-01.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-2. 选择 MicroSD 卡对应的磁盘：点击 `Select target` 选项，选择自己接入 PC 的读卡器对应磁盘设备。
+2. 选择 microSD 卡对应的磁盘：点击 `Select target` 选项，选择自己接入 PC 的读卡器对应磁盘设备。
 
 :::danger
 请勿选错磁盘，否则 Etcher 将格式化被选中的磁盘，造成重要数据丢失！
@@ -165,7 +165,7 @@ Windows 和 Linux 只需要打开对应程序就可以使用，无需安装！
 
 ## 启动系统
 
-在 MicroSD 卡上完成系统镜像的写入后，我们可以将读卡器上的 MicroSD 卡装入 ROCK 4D 的 MicroSD 卡槽中，然后使用 5V Type-C 电源适配器启动系统。
+在 microSD 卡上完成系统镜像的写入后，我们可以将读卡器上的 microSD 卡装入 ROCK 4D 的 microSD 卡槽中，然后使用 5V Type-C 电源适配器启动系统。
 
 启动系统后，蓝色和绿色 LED 灯会同时亮起，大概过几秒左右，绿灯常亮、蓝色指示灯会闪烁，一般表示系统启动成功。
 
diff --git a/docs/rock4/rock4d/hardware-use/hardware-info.md b/docs/rock4/rock4d/hardware-use/hardware-info.md
index cd65fae45..7cac2297e 100644
--- a/docs/rock4/rock4d/hardware-use/hardware-info.md
+++ b/docs/rock4/rock4d/hardware-use/hardware-info.md
@@ -32,7 +32,7 @@ sidebar_position: 0
 |  ⑤   | [FPC 接口](./fpc-connector)|  1   |  ⑭  | [USB 3.0 Type-A 接口](./usb-type-a)<br />上层：USB 3.0 Type-A OTG<br />下层：USB 3.0 Type-A HOST |  2   |  ㉓  | [RTC 接口](./rtc)           |  1   |
 |  ⑥   | [WiFi6 和 蓝牙 5.4](./ante.md) |  1   |  ⑮  | SPI NOR Flash               |  1   |  ㉔  | [eMMC 模块接口](./emmc-ufs-connector) |  1   |
 |  ⑦   | [天线接口](./ante.md)          |  1   |  ⑯  | [千兆以太网口（支持 PoE）](./gigabit-ethernet) |  1   |  ㉕  | [MIPI CSI 接口](./mipi-csi) |  1   |
-|  ⑧   | [40 Pin GPIO 接口](./pin-gpio)|  1   |  ⑰  | [风扇接口](./fan)            |  1   |  ㉖  | [MicroSD 卡槽](./microsd)   |  1   |
+|  ⑧   | [40 Pin GPIO 接口](./pin-gpio)|  1   |  ⑰  | [风扇接口](./fan)            |  1   |  ㉖  | [microSD 卡槽](./microsd)   |  1   |
 |  ⑨   | LPDDR5 内存                |  1   |  ⑱  | [耳机插孔](./headphone)      |  1   |  ㉗  | [MIPI DSI 接口](./mipi-dsi) |  1   |
     </TabItem>
     <TabItem value="ROCK 4D v1.12">
@@ -46,7 +46,7 @@ sidebar_position: 0
 | ⑤  | [FPC 接口](./fpc-connector)     | 1  | ⑮  | SPI NOR Flash                                                                            | 1  | ㉕  | [RTC 接口](./rtc)                   | 1  |
 | ⑥  | [WiFi6 和 蓝牙 5.4](./ante.md)   | 1  | ⑯  | [千兆以太网口（支持 PoE）](./gigabit-ethernet)                                                      | 1  | ㉖  | [eMMC 模块接口](./emmc-ufs-connector) | 1  |
 | ⑦  | [天线接口](./ante.md)                | 1  | ⑰  | [风扇接口](./fan)                                                                            | 1  | ㉗  | [MIPI CSI 接口](./mipi-csi)         | 1  |
-| ⑧  | [40 Pin GPIO 接口](./pin-gpio)  | 1  | ⑱  | [耳机插孔](./headphone)                                                                      | 1  | ㉘  | [MicroSD 卡槽](./microsd)           | 1  |
+| ⑧  | [40 Pin GPIO 接口](./pin-gpio)  | 1  | ⑱  | [耳机插孔](./headphone)                                                                      | 1  | ㉘  | [microSD 卡槽](./microsd)           | 1  |
 | ⑨  | LPDDR5 内存                     | 1  | ⑲  | [MIPI CSI 接口](./mipi-csi)                                                                | 1  | ㉙  | [MIPI DSI 接口](./mipi-dsi)         | 1  |
 | ⑩  | [PoE 接口](./gigabit-ethernet)  | 1  | ⑳  | 扬声器预留焊盘                                                                                  | 1  |    |                                   |    |
     </TabItem>
diff --git a/docs/rock4/rock4d/hardware-use/microsd.md b/docs/rock4/rock4d/hardware-use/microsd.md
index 15ab9b77a..eb1d7b5a6 100644
--- a/docs/rock4/rock4d/hardware-use/microsd.md
+++ b/docs/rock4/rock4d/hardware-use/microsd.md
@@ -2,11 +2,11 @@
 sidebar_position: 1
 ---
 
-# MicroSD 卡槽
+# microSD 卡槽
 
-瑞莎 ROCK 4D 板载标准的 MicroSD 卡槽，兼容 MicroSD / MicroSDHC / MicroSDXC 卡，主要用作系统启动盘或扩展存储空间。
+瑞莎 ROCK 4D 板载标准的 microSD 卡槽，兼容 microSD / microSDHC / microSDXC 卡，主要用作系统启动盘或扩展存储空间。
 
-推荐使用容量 32GB 及以上的 MicroSD 卡，以获得更好的存储空间。
+推荐使用容量 32GB 及以上的 microSD 卡，以获得更好的存储空间。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/rock4d-microsd-slot.webp" style={{width: '80%', maxWidth: '1200px'}} />
@@ -14,7 +14,7 @@ sidebar_position: 1
 
 ## 使用指南
 
-您可以参考 [快速上手](../getting-started/quickly_start) 或 [安装系统到 MicroSD 卡](../getting-started/install-system/boot_sd) 教程，将系统镜像安装到 MicroSD 卡中，然后将 MicroSD 卡插入 MicroSD 卡槽中，测试启动系统是否正常。
+您可以参考 [快速上手](../getting-started/quickly_start) 或 [安装系统到 microSD 卡](../getting-started/install-system/boot_sd) 教程，将系统镜像安装到 microSD 卡中，然后将 microSD 卡插入 microSD 卡槽中，测试启动系统是否正常。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/boot-sd.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/docs/rock4/rock4d/other-os/android/getting-started.md b/docs/rock4/rock4d/other-os/android/getting-started.md
index fa2930872..ccf920e47 100644
--- a/docs/rock4/rock4d/other-os/android/getting-started.md
+++ b/docs/rock4/rock4d/other-os/android/getting-started.md
@@ -20,7 +20,7 @@ sidebar_position: 2
 您需要提前准备以下硬件设备：
 
 - 主板：瑞莎 ROCK 4D
-- 系统启动介质：MicroSD 卡
+- 系统启动介质：microSD 卡
 - 供电设备：5V Type-C 电源适配器
 - 显示设备：显示器和 HDMI 数据线
 - 输入设备：键盘和鼠标（用于图形界面操作）
@@ -35,22 +35,22 @@ sidebar_position: 2
 
 ## 安装系统
 
-主要介绍安装系统到 MicroSD 卡。
+主要介绍安装系统到 microSD 卡。
 
 :::warning 重要提醒
 
-**安装系统会完全格式化 MicroSD 卡，所有数据将被永久删除！**
+**安装系统会完全格式化 microSD 卡，所有数据将被永久删除！**
 
 请在操作前确认：
 
-- MicroSD 卡中无重要数据或已完成资料备份
+- microSD 卡中无重要数据或已完成资料备份
 - 选择正确的存储设备，避免格式化其他磁盘
 
 :::
 
 ### 硬件连接
 
-将 MicroSD 卡插入 MicroSD 卡读卡器，再将 MicroSD 卡读卡器插入电脑。
+将 microSD 卡插入 microSD 卡读卡器，再将 microSD 卡读卡器插入电脑。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -71,7 +71,7 @@ sidebar_position: 2
 
 ### 写入系统镜像
 
-使用 Balena Etcher 软件可以将系统镜像安装到 MicroSD 卡中。
+使用 Balena Etcher 软件可以将系统镜像安装到 microSD 卡中。
 
 :::tip Balena Etcher
 
@@ -92,7 +92,7 @@ sidebar_position: 2
 
 #### 选择存储设备
 
-点击 `Select target` 选项，选择 MicroSD 卡设备。
+点击 `Select target` 选项，选择 microSD 卡设备。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -110,7 +110,7 @@ sidebar_position: 2
 
 #### 开始烧录
 
-点击 `Flash!` 选项，开始烧录系统镜像到 MicroSD 卡中。
+点击 `Flash!` 选项，开始烧录系统镜像到 microSD 卡中。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -145,4 +145,4 @@ sidebar_position: 2
 
 ## 启动系统
 
-完成系统的写入后，将 MicroSD 卡安装到 ROCK 4D 的 MicroSD 卡槽中，然后使用 5V Type-C 电源适配器给 ROCK 4D 供电，即可启动系统。
+完成系统的写入后，将 microSD 卡安装到 ROCK 4D 的 microSD 卡槽中，然后使用 5V Type-C 电源适配器给 ROCK 4D 供电，即可启动系统。
diff --git a/docs/rock4/rock4d/other-os/buildroot.md b/docs/rock4/rock4d/other-os/buildroot.md
index 6a96b3e7c..e0c49b184 100644
--- a/docs/rock4/rock4d/other-os/buildroot.md
+++ b/docs/rock4/rock4d/other-os/buildroot.md
@@ -128,8 +128,8 @@ upgrade_tool uf update.img
     <img src="/img/rock4/4d/other-os-burn-img.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-### 烧录镜像到 MicroSD Card 中
+### 烧录镜像到 microSD Card 中
 
-使用 SDDiskTool 将生成的镜像烧录到 MicroSD Card 中。
+使用 SDDiskTool 将生成的镜像烧录到 microSD Card 中。
 
 <SSDISKTOOL />
diff --git a/docs/rock4/rock4d/other-os/yocto/install-system/system-to-sd.md b/docs/rock4/rock4d/other-os/yocto/install-system/system-to-sd.md
index 43cb22186..21dc38c38 100644
--- a/docs/rock4/rock4d/other-os/yocto/install-system/system-to-sd.md
+++ b/docs/rock4/rock4d/other-os/yocto/install-system/system-to-sd.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import SystemToSD from '../../../../../common/yocto/\_system-to-sd.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 <SystemToSD board="ROCK 4D" board_conf="rockchip-rk3576-rock4d.conf" soc="rk3576" board_name="rock-4d" />
diff --git a/docs/rock4/rock4d/system-config/backup-system.md b/docs/rock4/rock4d/system-config/backup-system.md
index 6c3521113..3fb55d27f 100644
--- a/docs/rock4/rock4d/system-config/backup-system.md
+++ b/docs/rock4/rock4d/system-config/backup-system.md
@@ -104,9 +104,9 @@ Backup done, the file is /home/radxa/rock-4d-s16-backup-250612-0930.img
 
 不同启动介质转可移动介质：
 
-- MicroSD 卡
+- microSD 卡
 
-将 MicroSD 卡通过读卡器转为可移动介质。
+将 microSD 卡通过读卡器转为可移动介质。
 
 - 非板载 eMMC 模块
 
diff --git a/docs/rock5/rock5a/getting-started/install-os/boot_from_sd_card.md b/docs/rock5/rock5a/getting-started/install-os/boot_from_sd_card.md
index 69c0e6807..ee81c76ed 100644
--- a/docs/rock5/rock5a/getting-started/install-os/boot_from_sd_card.md
+++ b/docs/rock5/rock5a/getting-started/install-os/boot_from_sd_card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 <Images loader={false} system_img={true} spi_img={false} />
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -27,7 +27,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
 
 <img
 src="/img/rock5a/rock5a-sd-slot.webp"
diff --git a/docs/rock5/rock5a/other-os/android/install-os.md b/docs/rock5/rock5a/other-os/android/install-os.md
index 8eb8d8ad7..b6052d2a1 100644
--- a/docs/rock5/rock5a/other-os/android/install-os.md
+++ b/docs/rock5/rock5a/other-os/android/install-os.md
@@ -31,7 +31,7 @@ ROCK 5A 可以从 microSD 卡启动，也可以从 EMMC 启动，基于不同的
 
 #### 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 ROCK 5A 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 ROCK 5A 的 microSD 插槽内。
 - ROCK 5A 的供电接口为 [Type C port](../../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 </TabItem>
diff --git a/docs/rock5/rock5b/faq.md b/docs/rock5/rock5b/faq.md
index c169037ef..1ba383d5e 100644
--- a/docs/rock5/rock5b/faq.md
+++ b/docs/rock5/rock5b/faq.md
@@ -52,7 +52,7 @@ ROCK 5B 支持将 USB PD 电源协商至更高的电压，如 9V、12V、15V、2
 
 原因确认:
 
-去掉 eMMC Module, MicroSD 及 NVME 设备，然后通过 USB 线连接板子和PC，此时看设备是否进入 [Maskrom 状态](./low-level-dev/install-os/rkdevtool_maskrom)，
+去掉 eMMC Module, microSD 及 NVME 设备，然后通过 USB 线连接板子和PC，此时看设备是否进入 [Maskrom 状态](./low-level-dev/install-os/rkdevtool_maskrom)，
 如果不是MaskRom状态，则大概率是下面的原因:
 
 在 [通过 USB 烧录系统到eMMC](./low-level-dev/install-os/rkdevtool_maskrom) 的时候没有按照说明 按 Maskrom 按键，导致烧录系统到了 [SPI Flash](./low-level-dev/install-os/rkdevtool_spi)中, 而系统启动的时候，先读取SPI的信息，此时出现错误，无法正常启动。
diff --git a/docs/rock5/rock5b/getting-started/install-os/boot_from_sd_card.md b/docs/rock5/rock5b/getting-started/install-os/boot_from_sd_card.md
index c38ee4d42..bdd57d844 100644
--- a/docs/rock5/rock5b/getting-started/install-os/boot_from_sd_card.md
+++ b/docs/rock5/rock5b/getting-started/install-os/boot_from_sd_card.md
@@ -9,15 +9,15 @@ imports_resolve_to:
 
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 请到 [资源下载汇总](../../download) 下载对应的镜像文件
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 烧录镜像
 
@@ -25,7 +25,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内(如下图所示)，然后上电，电源指示灯显示绿色，系统开始启动，启动正常后，指示灯开始闪烁，一段时间后 HDMI 显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内(如下图所示)，然后上电，电源指示灯显示绿色，系统开始启动，启动正常后，指示灯开始闪烁，一段时间后 HDMI 显示桌面。
 
 <img
 src="/img/rock5b/rock5b-interface-2.webp"
diff --git a/docs/rock5/rock5b/other-os/android/install-os.md b/docs/rock5/rock5b/other-os/android/install-os.md
index d79617c04..872507148 100644
--- a/docs/rock5/rock5b/other-os/android/install-os.md
+++ b/docs/rock5/rock5b/other-os/android/install-os.md
@@ -45,7 +45,7 @@ ROCK 5B/5B+ 可以从 microSD 卡启动，也可以从 EMMC 启动，还可以
 
 #### 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa ROCK 5B/5B+ 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa ROCK 5B/5B+ 的 microSD 插槽内。
 - Radxa ROCK 5B/5B+ 的供电接口为 [USB 2.0 OTG Type C port](../../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 :::tip
diff --git a/docs/rock5/rock5c/getting-started/install-os/boot-from-sd-card.md b/docs/rock5/rock5c/getting-started/install-os/boot-from-sd-card.md
index fd5051842..331f53735 100644
--- a/docs/rock5/rock5c/getting-started/install-os/boot-from-sd-card.md
+++ b/docs/rock5/rock5c/getting-started/install-os/boot-from-sd-card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 <Images loader={false} system_img={true} spi_img={false} />
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 烧录镜像
 
diff --git a/docs/rock5/rock5c/hardware-design/hardware-interface.md b/docs/rock5/rock5c/hardware-design/hardware-interface.md
index 1465ee0d3..0ffad0575 100644
--- a/docs/rock5/rock5c/hardware-design/hardware-interface.md
+++ b/docs/rock5/rock5c/hardware-design/hardware-interface.md
@@ -257,7 +257,7 @@ ROCK 5C 提供了一个40pin针脚的GPIO座子，兼容于市面上大部分传
 
 参考 [屏幕配件](../accessories/display)
 
-### MicroSD
+### microSD
 
 可用于系统启动盘，也可以充当存储介质使用
 
diff --git a/docs/rock5/rock5c/other-os/android/install-os.md b/docs/rock5/rock5c/other-os/android/install-os.md
index 33e683af1..b39f729bb 100644
--- a/docs/rock5/rock5c/other-os/android/install-os.md
+++ b/docs/rock5/rock5c/other-os/android/install-os.md
@@ -37,7 +37,7 @@ ROCK 5C 可以从 microSD 卡启动，也可以从 EMMC 启动，基于不同的
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 ROCK 5C 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 ROCK 5C 的 microSD 插槽内。
 - ROCK 5C 的供电接口为 [Type C port](../../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 </TabItem>
diff --git a/docs/rock5/rock5c/other-os/buildroot.md b/docs/rock5/rock5c/other-os/buildroot.md
index 9caa9dd37..55c809378 100644
--- a/docs/rock5/rock5c/other-os/buildroot.md
+++ b/docs/rock5/rock5c/other-os/buildroot.md
@@ -134,8 +134,8 @@ upgrade_tool uf update.img
 
 在 Windows 主机上，使用 `RKDevTool` 工具，通过 Type-A 烧录口，将系统镜像 `update.img` 烧写到 eMMC 中。
 
-### 烧录镜像到 MicroSD Card 中
+### 烧录镜像到 microSD Card 中
 
-使用 SDDiskTool 将生成的镜像烧录到 MicroSD Card 中。
+使用 SDDiskTool 将生成的镜像烧录到 microSD Card 中。
 
 <SSDISKTOOL />
diff --git a/docs/rock5/rock5c/other-os/yocto/install-system/system-to-sd.md b/docs/rock5/rock5c/other-os/yocto/install-system/system-to-sd.md
index 6ef66a2f4..3ffbf57eb 100644
--- a/docs/rock5/rock5c/other-os/yocto/install-system/system-to-sd.md
+++ b/docs/rock5/rock5c/other-os/yocto/install-system/system-to-sd.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import SystemToSD from '../../../../../common/yocto/\_system-to-sd.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 <SystemToSD board="ROCK 5C" board_conf="rockchip-rk3588s-rock-5c.conf" soc="rk3588s" board_name="rock-5c" />
diff --git a/docs/rock5/rock5itx/getting-started/install-os/boot_form_sd_card.md b/docs/rock5/rock5itx/getting-started/install-os/boot_form_sd_card.md
index 635cb29f8..3ba6ad8e9 100644
--- a/docs/rock5/rock5itx/getting-started/install-os/boot_form_sd_card.md
+++ b/docs/rock5/rock5itx/getting-started/install-os/boot_form_sd_card.md
@@ -9,7 +9,7 @@ imports_resolve_to:
 
 import Etcher from '../../../../common/general/\_etcher.mdx';
 
-# 制作 MicroSD 启动盘
+# 制作 microSD 启动盘
 
 <Etcher model="rock5itx" product="Radxa ROCK 5 ITX" power_supply="12V DC" sd_slot="/img/rock5itx/rock5itx-sd-slot.webp" />
 
diff --git a/docs/rock5/rock5itx/getting-started/install-os/microsd-boot-disk.md b/docs/rock5/rock5itx/getting-started/install-os/microsd-boot-disk.md
index 66490c51c..0a3962838 100644
--- a/docs/rock5/rock5itx/getting-started/install-os/microsd-boot-disk.md
+++ b/docs/rock5/rock5itx/getting-started/install-os/microsd-boot-disk.md
@@ -14,7 +14,7 @@ import Images from "../../\_image.mdx"
 
 ### 制作启动盘
 
-参考上文 [制作 MicroSD 启动盘](./etcher)，接下来我们以此为基础，将系统安装到 eMMC 中。
+参考上文 [制作 microSD 启动盘](./etcher)，接下来我们以此为基础，将系统安装到 eMMC 中。
 
 ### 登录到系统
 
diff --git a/docs/rock5/rock5itx/getting-started/introduction.md b/docs/rock5/rock5itx/getting-started/introduction.md
index 101df5d33..72cc89a82 100644
--- a/docs/rock5/rock5itx/getting-started/introduction.md
+++ b/docs/rock5/rock5itx/getting-started/introduction.md
@@ -174,7 +174,7 @@ ROCK 5 ITX 不仅是一款高性能的ARM基础PC板，更是一个多功能、
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
@@ -272,7 +272,7 @@ ROCK 5 ITX 不仅是一款高性能的ARM基础PC板，更是一个多功能、
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
@@ -366,7 +366,7 @@ ROCK 5 ITX 不仅是一款高性能的ARM基础PC板，更是一个多功能、
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
diff --git a/docs/rock5/rock5itx/hardware-design/hardware-interface.md b/docs/rock5/rock5itx/hardware-design/hardware-interface.md
index 0f9a8a65d..2be66d504 100644
--- a/docs/rock5/rock5itx/hardware-design/hardware-interface.md
+++ b/docs/rock5/rock5itx/hardware-design/hardware-interface.md
@@ -81,7 +81,7 @@ sidebar_position: 4
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
@@ -179,7 +179,7 @@ sidebar_position: 4
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
@@ -273,7 +273,7 @@ sidebar_position: 4
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
diff --git a/docs/rock5/rock5itx/other-os/android/install-os.md b/docs/rock5/rock5itx/other-os/android/install-os.md
index 6b39380d9..70d3cde86 100644
--- a/docs/rock5/rock5itx/other-os/android/install-os.md
+++ b/docs/rock5/rock5itx/other-os/android/install-os.md
@@ -87,7 +87,7 @@ rkdeveloptool rd
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 ROCK 5 ITX 的 MicroSD 插槽内
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 ROCK 5 ITX 的 microSD 插槽内
 - 使用 12V DC 电源为 ROCK 5 ITX 供电
 
 </TabItem>
diff --git a/docs/rock5/rock5t/download.md b/docs/rock5/rock5t/download.md
index ca3ccec24..e9e6c8c14 100644
--- a/docs/rock5/rock5t/download.md
+++ b/docs/rock5/rock5t/download.md
@@ -16,7 +16,7 @@ import Images from "./\_image.mdx"
 
 - Android
 
-[Radxa ROCK 5T Android 12 MicroSD and eMMC System Image](https://github.com/radxa/manifests/releases/download/radxa-rock5t-20250226/Rock5T-Android12-rk14-20250226-gpt.zip)：适用于 MicroSD 卡、板载 eMMC 启动系统。
+[Radxa ROCK 5T Android 12 microSD and eMMC System Image](https://github.com/radxa/manifests/releases/download/radxa-rock5t-20250226/Rock5T-Android12-rk14-20250226-gpt.zip)：适用于 microSD 卡、板载 eMMC 启动系统。
 
 :::caution
 除了上面的镜像经过官方充分测试外，其他镜像未经过严格测试，可能会存在未知问题，仅用于评估使用。
diff --git a/docs/rock5/rock5t/faq.md b/docs/rock5/rock5t/faq.md
index cc946fa3a..cc09bf665 100644
--- a/docs/rock5/rock5t/faq.md
+++ b/docs/rock5/rock5t/faq.md
@@ -46,7 +46,7 @@ ROCK 5T 支持将 USB PD 电源协商至更高的电压，如 9V、12V、15V、2
 
 原因确认:
 
-去掉 MicroSD 及 NVME 设备，短接 DISABLE SPI 并按住 Maskrom 按键上电，然后通过 USB 线连接板子和PC，此时看设备是否进入 [Maskrom 状态](./low-level-dev/maskrom/)，
+去掉 microSD 及 NVME 设备，短接 DISABLE SPI 并按住 Maskrom 按键上电，然后通过 USB 线连接板子和PC，此时看设备是否进入 [Maskrom 状态](./low-level-dev/maskrom/)，
 如果不是MaskRom状态，则大概率是下面的原因:
 
 在 [通过 USB 烧录系统到eMMC](./low-level-dev/maskrom/) 的时候没有按照说明 按 Maskrom 按键，导致烧录系统到了 [SPI Flash](./low-level-dev/maskrom/erase)中, 而系统启动的时候，先读取SPI的信息，此时出现错误，无法正常启动。
diff --git a/docs/rock5/rock5t/getting-started/install-os/boot_from_sd_card.md b/docs/rock5/rock5t/getting-started/install-os/boot_from_sd_card.md
index ac6229902..84a00c787 100644
--- a/docs/rock5/rock5t/getting-started/install-os/boot_from_sd_card.md
+++ b/docs/rock5/rock5t/getting-started/install-os/boot_from_sd_card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 <Images loader={false} rock5t_system_img_61={true} spi_img={false} />
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 烧录镜像
 
@@ -27,7 +27,7 @@ import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内(如下图所示)，然后上电，电源指示灯显示绿色，系统开始启动，启动正常后，指示灯开始闪烁，一段时间后 HDMI 显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内(如下图所示)，然后上电，电源指示灯显示绿色，系统开始启动，启动正常后，指示灯开始闪烁，一段时间后 HDMI 显示桌面。
 
 <img
 src="/img/rock5b/rock5b-interface-2.webp"
diff --git a/docs/rock5/rock5t/getting-started/install-os/emmc_boot.md b/docs/rock5/rock5t/getting-started/install-os/emmc_boot.md
index a5a875751..1250f5872 100644
--- a/docs/rock5/rock5t/getting-started/install-os/emmc_boot.md
+++ b/docs/rock5/rock5t/getting-started/install-os/emmc_boot.md
@@ -4,12 +4,12 @@ sidebar_position: 3
 
 # 安装系统到 eMMC
 
-若您的瑞莎 ROCK 5T 板载 eMMC，您可以在 MicroSD 卡启动主板的情况下，使用 `dd` 命令将系统镜像写入 eMMC。
+若您的瑞莎 ROCK 5T 板载 eMMC，您可以在 microSD 卡启动主板的情况下，使用 `dd` 命令将系统镜像写入 eMMC。
 
 :::tip 注意事项
 安装系统会格式化 eMMC，如果有重要数据请提前备份！
 
-若您的系统目前还无法通过 MicroSD 卡启动，可以参考 [安装系统到 MicroSD 卡](./boot_from_sd_card.md) 教程。
+若您的系统目前还无法通过 microSD 卡启动，可以参考 [安装系统到 microSD 卡](./boot_from_sd_card.md) 教程。
 :::
 
 ## 使用前提
@@ -17,10 +17,10 @@ sidebar_position: 3
 您需要准备以下硬件设备：
 
 - 主板：瑞莎 ROCK 5T
-- 系统启动介质：MicroSD 卡
+- 系统启动介质：microSD 卡
 - 电源适配器：标准 DC 12V/2A 电源适配器（DC-5525 接口）
 
-我们需要基于 MicroSD 卡启动主板系统，进入主板系统后下载系统镜像文件，然后使用 `dd` 命令将系统镜像写入 eMMC。
+我们需要基于 microSD 卡启动主板系统，进入主板系统后下载系统镜像文件，然后使用 `dd` 命令将系统镜像写入 eMMC。
 
 :::tip 推荐配件
 瑞莎 ROCK 5T 仅支持 12V 电源输入，建议电流 2A 及以上，以确保所有外设稳定运行。
@@ -141,7 +141,7 @@ Device Start End Sectors Size Type
 
 ## 启动系统
 
-完成系统的安装后，将主板关机并断电，然后拔下 MicroSD 卡，重新插上电源适配器，系统会自动从 eMMC 启动。
+完成系统的安装后，将主板关机并断电，然后拔下 microSD 卡，重新插上电源适配器，系统会自动从 eMMC 启动。
 
 ## 系统信息
 
diff --git a/docs/rockpi/rockpis/getting-started/install-os/README.md b/docs/rockpi/rockpis/getting-started/install-os/README.md
index 32c8799af..b04545d2d 100644
--- a/docs/rockpi/rockpis/getting-started/install-os/README.md
+++ b/docs/rockpi/rockpis/getting-started/install-os/README.md
@@ -4,15 +4,15 @@ sidebar_position: 1
 
 # 安装系统
 
-ROCK Pi S V1.3 支持 MicroSD 卡安装和启动系统。
+ROCK Pi S V1.3 支持 microSD 卡安装和启动系统。
 
-ROCK Pi S V1.5 支持 MicroSD 卡和板载 eMMC 安装和启动系统，你可以选择一种方式安装系统，其中安装系统到 MicroSD 卡比较简单。
+ROCK Pi S V1.5 支持 microSD 卡和板载 eMMC 安装和启动系统，你可以选择一种方式安装系统，其中安装系统到 microSD 卡比较简单。
 
 用户可以根据自己的版本和需求选择对应的系统启动介质。
 
-#### [安装系统到 MicroSD 卡](/rockpi/rockpis/getting-started/install-os/install-os-to-sd)
+#### [安装系统到 microSD 卡](/rockpi/rockpis/getting-started/install-os/install-os-to-sd)
 
-主要介绍 ROCK Pi S 使用 MicroSD 卡安装系统和启动系统的方法。
+主要介绍 ROCK Pi S 使用 microSD 卡安装系统和启动系统的方法。
 
 #### [安装系统到 eMMC (适用 V1.5 )](/rockpi/rockpis/getting-started/install-os/install-os-to-emmc)
 
diff --git a/docs/rockpi/rockpis/getting-started/install-os/install-os-to-emmc.md b/docs/rockpi/rockpis/getting-started/install-os/install-os-to-emmc.md
index f0f9a83f9..5fb11658b 100644
--- a/docs/rockpi/rockpis/getting-started/install-os/install-os-to-emmc.md
+++ b/docs/rockpi/rockpis/getting-started/install-os/install-os-to-emmc.md
@@ -7,7 +7,7 @@ sidebar_position: 2
 本节教程主要介绍如何给瑞莎 ROCK Pi S V1.5 的板载 eMMC 安装系统。
 
 :::tip
-ROCK Pi S V1.5 在 V1.3 的基础上增加了板载 eMMC,您可以直接通过 eMMC 启动系统，无需 MicroSD 卡。
+ROCK Pi S V1.5 在 V1.3 的基础上增加了板载 eMMC,您可以直接通过 eMMC 启动系统，无需 microSD 卡。
 :::
 
 ## 硬件准备
@@ -147,14 +147,14 @@ rkdeveloptool -V
 我们需要让 ROCK Pi S 进入 Maskrom 模式，然后基于这个模式给 eMMC 安装系统。
 
 :::tip
-ROCK Pi S 需要拔掉 MicroSD 卡才可以进入 Maskrom 模式，否则会直接启动系统，无法进入 Maskrom 模式。
+ROCK Pi S 需要拔掉 microSD 卡才可以进入 Maskrom 模式，否则会直接启动系统，无法进入 Maskrom 模式。
 :::
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rockpi/pis/rock-pi-s-v15-maskrom.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-① ： MicroSD 卡槽 --> 确保 MicroSD 卡拔掉
+① ： microSD 卡槽 --> 确保 microSD 卡拔掉
 
 ② ： Maskrom 按键
 
diff --git a/docs/rockpi/rockpis/getting-started/install-os/install-os-to-sd.md b/docs/rockpi/rockpis/getting-started/install-os/install-os-to-sd.md
index 0644996ba..9a71f5e81 100644
--- a/docs/rockpi/rockpis/getting-started/install-os/install-os-to-sd.md
+++ b/docs/rockpi/rockpis/getting-started/install-os/install-os-to-sd.md
@@ -2,9 +2,9 @@
 sidebar_position: 1
 ---
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
-本节教程主要介绍如何给 MicroSD 卡安装系统。
+本节教程主要介绍如何给 microSD 卡安装系统。
 
 ## 硬件准备
 
@@ -12,8 +12,8 @@ sidebar_position: 1
 
 #### 安装系统
 
-- 读卡器：MicroSD 卡读卡器
-- 系统启动介质：MicroSD 卡（推荐容量 32GB 或以上）
+- 读卡器：microSD 卡读卡器
+- 系统启动介质：microSD 卡（推荐容量 32GB 或以上）
 
 #### 启动系统
 
@@ -26,13 +26,13 @@ Pi S 主板仅支持 5V 电源输入，建议电流 1A 以上，确保所有外
 
 ## 安装系统
 
-安装系统会格式化 MicroSD 卡，如果有重要数据请提前备份。
+安装系统会格式化 microSD 卡，如果有重要数据请提前备份。
 
 ### 下载系统镜像
 
 在 PC 上访问 [资源下载汇总](../../download) 页面，在下载页面找到官方操作系统镜像。
 
-下载完成后，解压系统镜像文件，得到的 `*.img` 文件就是待烧写到 MicroSD 卡中的系统镜像文件。
+下载完成后，解压系统镜像文件，得到的 `*.img` 文件就是待烧写到 microSD 卡中的系统镜像文件。
 
 :::tip
 下载的系统镜像是一个压缩文件，需要解压后才能通过镜像烧录软件安装到SD卡, 未解压就直接烧录到SD卡，可能会出现安装系统失败或者启动系统失败的情况。
@@ -40,7 +40,7 @@ Pi S 主板仅支持 5V 电源输入，建议电流 1A 以上，确保所有外
 
 ### 硬件连接
 
-将 MicroSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
+将 microSD 卡插入读卡器中，然后将读卡器插入 PC 的 USB 端口上。
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -48,7 +48,7 @@ Pi S 主板仅支持 5V 电源输入，建议电流 1A 以上，确保所有外
 
 ### 安装系统镜像
 
-使用开源镜像烧录工具 Etcher 烧写系统镜像文件到 MicroSD 卡。
+使用开源镜像烧录工具 Etcher 烧写系统镜像文件到 microSD 卡。
 
 #### 下载 Etcher
 
@@ -151,7 +151,7 @@ Debian Linux
 
 ## 启动系统
 
-完成系统镜像的安装后，将 MicroSD 卡从读卡器上取下来，然后将卡插入主板的 MicroSD 卡槽中，使用 5V Type-C 电源适配器或 Type-C 转 Type-A 数据线连接 PC 供电启动系统。
+完成系统镜像的安装后，将 microSD 卡从读卡器上取下来，然后将卡插入主板的 microSD 卡槽中，使用 5V Type-C 电源适配器或 Type-C 转 Type-A 数据线连接 PC 供电启动系统。
 
 <Tabs queryString="version">
 
diff --git a/docs/rockpi/rockpis/getting-started/quickly-start.md b/docs/rockpi/rockpis/getting-started/quickly-start.md
index 24b3d1f17..8e80050f5 100644
--- a/docs/rockpi/rockpis/getting-started/quickly-start.md
+++ b/docs/rockpi/rockpis/getting-started/quickly-start.md
@@ -33,8 +33,8 @@ sidebar_position: 0
 您需要提前准备以下硬件设备，以便完成快速上手教程的所有操作。
 
 - 主板：瑞莎 ROCK Pi S
-- 系统启动介质： MicroSD 卡
-- MicroSD 卡读卡器：用于读写 MicroSD 卡
+- 系统启动介质： microSD 卡
+- microSD 卡读卡器：用于读写 microSD 卡
 - USB 串口数据线：用于串口调试和登录
 - 供电方式: 5V Type-C 电源适配器或使用 Type-C 转 Type-A 数据线连接 PC 供电
 
@@ -48,9 +48,9 @@ sidebar_position: 0
 
 Pi S 主板仅支持 5V 电源输入，建议电流 1A 以上，确保所有外设稳定运行。
 
-- MicroSD 卡读卡器
+- microSD 卡读卡器
 
-ROCK Pi S V1.5 支持 eMMC 安装和启动系统，若安装系统到 eMMC，则不需要准备 MicroSD 卡读卡器。
+ROCK Pi S V1.5 支持 eMMC 安装和启动系统，若安装系统到 eMMC，则不需要准备 microSD 卡读卡器。
 
 :::
 
@@ -62,17 +62,17 @@ ROCK Pi S V1.5 支持 eMMC 安装和启动系统，若安装系统到 eMMC，则
 
 <TabItem value=" ROCK Pi S V1.3 ">
 
-ROCK Pi S V1.3 支持 MicroSD 卡安装和启动系统。
+ROCK Pi S V1.3 支持 microSD 卡安装和启动系统。
 
-- 参考 [安装系统到 MicroSD 卡](./install-os/install-os-to-sd.md) 教程。
+- 参考 [安装系统到 microSD 卡](./install-os/install-os-to-sd.md) 教程。
 
 </TabItem>
 
 <TabItem value=" ROCK Pi S V1.5 ">
 
-ROCK Pi S V1.5 支持 MicroSD 卡和板载 eMMC 安装和启动系统，你可以选择一种方式安装系统，其中安装系统到 MicroSD 卡比较简单。
+ROCK Pi S V1.5 支持 microSD 卡和板载 eMMC 安装和启动系统，你可以选择一种方式安装系统，其中安装系统到 microSD 卡比较简单。
 
-- 参考 [安装系统到 MicroSD 卡](./install-os/install-os-to-sd.md) 教程
+- 参考 [安装系统到 microSD 卡](./install-os/install-os-to-sd.md) 教程
 - 参考 [安装系统到 eMMC (适用 V1.5 )](./install-os/install-os-to-emmc.md) 教程
 
 </TabItem>
diff --git a/docs/rockpi/rockpis0/other-os/buildroot.md b/docs/rockpi/rockpis0/other-os/buildroot.md
index f8db2b63d..5f97b01a6 100644
--- a/docs/rockpi/rockpis0/other-os/buildroot.md
+++ b/docs/rockpi/rockpis0/other-os/buildroot.md
@@ -116,8 +116,8 @@ upgrade_tool uf update.img
     <img src="/img/rock4/4d/other-os-burn-img.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-### 烧录镜像到 MicroSD Card 中
+### 烧录镜像到 microSD Card 中
 
-使用 SDDiskTool 将生成的镜像烧录到 MicroSD Card 中。
+使用 SDDiskTool 将生成的镜像烧录到 microSD Card 中。
 
 <SSDISKTOOL />
diff --git a/docs/roobi/install-roobi.md b/docs/roobi/install-roobi.md
index c270aabe3..0e1abdb49 100644
--- a/docs/roobi/install-roobi.md
+++ b/docs/roobi/install-roobi.md
@@ -84,7 +84,7 @@ ROOBI Flasher 是用于恢复 ROOBI OS 的一个刷入工具，如果您因为
 
 ![Balena_Etcher](/img/roobi/balena_etcher.webp)
 
-4. 写入完成后从主机中移除 SD卡 并将 SD 卡插入到 设备 [MicroSD](../rock5/rock5itx/getting-started/introduction#主板概览) 槽位中 位于编号 **4** 。
+4. 写入完成后从主机中移除 SD卡 并将 SD 卡插入到 设备 [microSD](../rock5/rock5itx/getting-started/introduction#主板概览) 槽位中 位于编号 **4** 。
 
 5. 移除您设备上其余存储介质，并上电启动
 
diff --git a/docs/som/cm/cm3/getting-started/install-os/boot-from-sd-card.md b/docs/som/cm/cm3/getting-started/install-os/boot-from-sd-card.md
index 00e4579b7..32cdde267 100644
--- a/docs/som/cm/cm3/getting-started/install-os/boot-from-sd-card.md
+++ b/docs/som/cm/cm3/getting-started/install-os/boot-from-sd-card.md
@@ -10,15 +10,15 @@ imports_resolve_to:
 
 import Etcher from '../../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 请到[资源汇总](../../download)部分下载对应的 Image
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -26,7 +26,7 @@ import Etcher from '../../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内（如下图所示)，然后上电，系统开始启动，HDMI显示桌面。
 
 <img
 src="/img/cm3/cm3-io-sd-slot.webp"
diff --git a/docs/som/cm/cm3/low-level-dev/maskrom/erase.md b/docs/som/cm/cm3/low-level-dev/maskrom/erase.md
index 5017a8b46..867aad3d8 100644
--- a/docs/som/cm/cm3/low-level-dev/maskrom/erase.md
+++ b/docs/som/cm/cm3/low-level-dev/maskrom/erase.md
@@ -16,7 +16,7 @@ import ERASE from "../../../../../common/dev/\_erase-spi-emmc.mdx";
 
 <ol>
     <li>将 CM3 安装到 CM3 IO 板上</li>
-    <li>移除（拔出）CM3 IO 板上的 MicroSD 卡</li>
+    <li>移除（拔出）CM3 IO 板上的 microSD 卡</li>
     <li>在上电前按住 CM3 上的 SPI Disable 按键或按住 CM3 上的 eMMC Disable 按键，并保持按住</li>
     <li>将 USB-A 转 Micro-USB 连接线插入 CM3 IO 板的 OTG 端口（Micro-USB 端口），另一端插入电脑</li>
     <li>插入 DC 12V 电源为 CM3 IO 板供电；如果电源绿灯常亮，则已成功进入 Maskrom 模式（此时可松开按键）</li>
diff --git a/docs/som/cm/cm3/low-level-dev/maskrom/linux.md b/docs/som/cm/cm3/low-level-dev/maskrom/linux.md
index 4af1e84bf..c94ee66bb 100644
--- a/docs/som/cm/cm3/low-level-dev/maskrom/linux.md
+++ b/docs/som/cm/cm3/low-level-dev/maskrom/linux.md
@@ -20,7 +20,7 @@ import Rkdeveloptool from "../../../../../common/dev/\_rkdeveloptoolV2.mdx";
 
 <ol>
     <li>将 CM3 安装到 CM3 IO 板上</li>
-    <li>移除（拔出）CM3 IO 板上的 MicroSD 卡</li>
+    <li>移除（拔出）CM3 IO 板上的 microSD 卡</li>
     <li>在上电前按住 CM3 上的 SPI Disable 按键，并保持按住</li>
     <li>将 USB-A 转 Micro-USB 连接线插入 CM3 IO 板的 OTG 端口（Micro-USB 端口），另一端插入电脑</li>
     <li>插入 DC 12V 电源为 CM3 IO 板供电；如果电源绿灯常亮，则已成功进入 Maskrom 模式（此时可松开按键）</li>
diff --git a/docs/som/cm/cm3/low-level-dev/maskrom/mac-os.md b/docs/som/cm/cm3/low-level-dev/maskrom/mac-os.md
index 702c34804..d2baa5b43 100644
--- a/docs/som/cm/cm3/low-level-dev/maskrom/mac-os.md
+++ b/docs/som/cm/cm3/low-level-dev/maskrom/mac-os.md
@@ -20,7 +20,7 @@ import Rkdeveloptool from "../../../../../common/dev/\_rkdeveloptoolV2.mdx";
 
 <ol>
     <li>将 CM3 安装到 CM3 IO 板上</li>
-    <li>移除（拔出）CM3 IO 板上的 MicroSD 卡</li>
+    <li>移除（拔出）CM3 IO 板上的 microSD 卡</li>
     <li>在上电前按住 CM3 上的 SPI Disable 按键，并保持按住</li>
     <li>将 USB-A 转 Micro-USB 连接线插入 CM3 IO 板的 OTG 端口（Micro-USB 端口），另一端插入电脑</li>
     <li>插入 DC 12V 电源为 CM3 IO 板供电；如果电源绿灯常亮，则已成功进入 Maskrom 模式（此时可松开按键）</li>
diff --git a/docs/som/cm/cm3/low-level-dev/maskrom/windows.md b/docs/som/cm/cm3/low-level-dev/maskrom/windows.md
index e81410661..7e19c6766 100644
--- a/docs/som/cm/cm3/low-level-dev/maskrom/windows.md
+++ b/docs/som/cm/cm3/low-level-dev/maskrom/windows.md
@@ -20,7 +20,7 @@ import Rkdevtool from "../../../../../common/dev/\_rkdevtoolV2.mdx";
 
 <ol>
     <li>将 CM3 安装到 CM3 IO 板上</li>
-    <li>移除（拔出）CM3 IO 板上的 MicroSD 卡</li>
+    <li>移除（拔出）CM3 IO 板上的 microSD 卡</li>
     <li>在上电前按住 CM3 上的 SPI Disable 按键，并保持按住</li>
     <li>将 USB-A 转 Micro-USB 连接线插入 CM3 IO 板的 OTG 端口（Micro-USB 端口），另一端插入电脑</li>
     <li>插入 DC 12V 电源为 CM3 IO 板供电；如果电源绿灯常亮，则已成功进入 Maskrom 模式（此时可松开按键）</li>
diff --git a/docs/som/cm/cm3i/getting-started/install-os/boot-from-sd-card.md b/docs/som/cm/cm3i/getting-started/install-os/boot-from-sd-card.md
index f2f190247..8b6e45712 100644
--- a/docs/som/cm/cm3i/getting-started/install-os/boot-from-sd-card.md
+++ b/docs/som/cm/cm3i/getting-started/install-os/boot-from-sd-card.md
@@ -10,15 +10,15 @@ imports_resolve_to:
 
 import Etcher from '../../../../../common/general/\_etcherV2.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 ## 文件下载
 
 请到 [资源下载汇总](../../download) 下载操作系统镜像。
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
@@ -26,7 +26,7 @@ import Etcher from '../../../../../common/general/\_etcherV2.mdx';
 
 ## 启动系统
 
-按照上述步骤成功烧录 MicroSD Card 后， 将 MicroSD Card 插入到 MicroSD Card 插槽内 （如下图所示），然后上电，系统开始启动，HDMI显示桌面。
+按照上述步骤成功烧录 microSD Card 后， 将 microSD Card 插入到 microSD Card 插槽内 （如下图所示），然后上电，系统开始启动，HDMI显示桌面。
 
 <img
 src="/img/cm3i/radxa-cm3i-io-board-sd-slot.webp"
diff --git a/docs/som/cm/cm3i/low-level-dev/maskrom/erase.md b/docs/som/cm/cm3i/low-level-dev/maskrom/erase.md
index 47ff50094..63c6d9d79 100644
--- a/docs/som/cm/cm3i/low-level-dev/maskrom/erase.md
+++ b/docs/som/cm/cm3i/low-level-dev/maskrom/erase.md
@@ -15,7 +15,7 @@ import ERASE from "../../../../../common/dev/\_erase-spi-emmc.mdx";
 <ERASE loader="https://dl.radxa.com/rock3/images/loader/rock-3b/rk356x_spl_loader_ddr1056_v1.10.111.bin" rkdevtool_erase_emmc_img="/img/common/rkdevtool/rkdevtool_erase_all.webp" rkdevtool_erase_spi_flash_img="/img/common/rkdevtool/rkdevtool_erase_all.webp">
 
 <ol>
-    <li>移除底板上的 MicroSD 卡</li>
+    <li>移除底板上的 microSD 卡</li>
     <li>同时按住 CM3I 上的 Maskrom Button （SPI Flash） 和 Maskrom Button （eMMC）并保持</li>
     <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
     <li>接入电源,即可进入 MASKROM 模式</li>
diff --git a/docs/som/cm/cm3i/low-level-dev/maskrom/linux.md b/docs/som/cm/cm3i/low-level-dev/maskrom/linux.md
index 9203c2a3b..cf494731c 100644
--- a/docs/som/cm/cm3i/low-level-dev/maskrom/linux.md
+++ b/docs/som/cm/cm3i/low-level-dev/maskrom/linux.md
@@ -19,7 +19,7 @@ import Rkdeveloptool from "../../../../../common/dev/\_rkdeveloptoolV3.mdx";
 <Rkdeveloptool >
 
 <ol>
-    <li>移除底板上的 MicroSD 卡</li>
+    <li>移除底板上的 microSD 卡</li>
     <li>同时按住 CM3I 上的 Maskrom Button （SPI Flash） 和 Maskrom Button （eMMC）并保持</li>
     <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
     <li>接入电源,即可进入 MASKROM 模式</li>
diff --git a/docs/som/cm/cm3i/low-level-dev/maskrom/mac-os.md b/docs/som/cm/cm3i/low-level-dev/maskrom/mac-os.md
index 2fdf214cf..791d67a12 100644
--- a/docs/som/cm/cm3i/low-level-dev/maskrom/mac-os.md
+++ b/docs/som/cm/cm3i/low-level-dev/maskrom/mac-os.md
@@ -19,7 +19,7 @@ import Rkdeveloptool from "../../../../../common/dev/\_rkdeveloptoolV3.mdx";
 <Rkdeveloptool>
 
 <ol>
-    <li>移除底板上的 MicroSD 卡</li>
+    <li>移除底板上的 microSD 卡</li>
     <li>同时按住 CM3I 上的 Maskrom Button （SPI Flash） 和 Maskrom Button （eMMC）并保持</li>
     <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
     <li>接入电源,即可进入 MASKROM 模式</li>
diff --git a/docs/som/cm/cm3i/low-level-dev/maskrom/windows.md b/docs/som/cm/cm3i/low-level-dev/maskrom/windows.md
index 54af44b4e..56fb7ac1c 100644
--- a/docs/som/cm/cm3i/low-level-dev/maskrom/windows.md
+++ b/docs/som/cm/cm3i/low-level-dev/maskrom/windows.md
@@ -19,7 +19,7 @@ import Rkdevtool from "../../../../../common/dev/\_rkdevtoolV2.mdx";
 <Rkdevtool rkdevtool_emmc_img="/img/common/rkdevtool/rkdevtool_genenal_maskrom_flash.webp" loader_name="rk356x_spl_loader__v1.15.113.bin" emmc={false} pcie={false} sata={false} >
 
 <ol>
-    <li>移除底板上的 MicroSD 卡</li>
+    <li>移除底板上的 microSD 卡</li>
     <li>同时按住 CM3I 上的 Maskrom Button （SPI Flash） 和 Maskrom Button （eMMC）并保持</li>
     <li>使用 USB-A 转 USB-A 线从 OTG 端口连接 PC 主机</li>
     <li>接入电源,即可进入 MASKROM 模式</li>
diff --git a/docs/som/cm/cm3j/getting-started/install-os/boot-from-sd-card.md b/docs/som/cm/cm3j/getting-started/install-os/boot-from-sd-card.md
index 6cc50da30..abf000545 100644
--- a/docs/som/cm/cm3j/getting-started/install-os/boot-from-sd-card.md
+++ b/docs/som/cm/cm3j/getting-started/install-os/boot-from-sd-card.md
@@ -16,9 +16,9 @@ import Etcher from '../../../../../common/general/\_etcherV2.mdx';
 
 请到[资源下载汇总](../../download.md)部分下载对应的 Image
 
-## MicroSD 卡准备
+## microSD 卡准备
 
-将 MicroSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
+将 microSD 卡插入到 SD 卡读卡器中，然后将读卡器插入到 PC 的 USB 端口上
 
 ## 镜像烧录
 
diff --git a/docs/som/cm/cm4/README.md b/docs/som/cm/cm4/README.md
index 0e7e60da6..dbeff4689 100644
--- a/docs/som/cm/cm4/README.md
+++ b/docs/som/cm/cm4/README.md
@@ -76,7 +76,7 @@ CM4 IO 板参数是 CM4 + CM4 IO 板参数的组合，CM4 IO 板为 CM4 提供
 | 中央处理器(CPU)     | 四核 Cortex-A72 + 四核 Cortex-A53，最高频率可达 2.2GHz                                                                        |
 | 图形处理器(GPU)     | ARM Mali G52 MC3 <br /> - 支持 OpenGL ES 1.1, 2.0 and 3.2, OpenCL 2.1, Vulkan 1.2                                             |
 | 神经网络处理器(NPU) | 高达 6 TOPS@INT8 算力 <br /> - 支持 INT4/INT8/INT16/FP16/TF32 <br /> - 支持 TensorFlow, ONNX, PyTorch, Caffe 等主流 AI 框架   |
-| 存储                | 内存：LPDDR4X，最大可选容量 16 GB <br /> 存储：支持板载 eMMC、MicroSD 卡、UFS 模块、M.2 M Key NVMe SSD 进行数据存储或启动系统 |
+| 存储                | 内存：LPDDR4X，最大可选容量 16 GB <br /> 存储：支持板载 eMMC、microSD 卡、UFS 模块、M.2 M Key NVMe SSD 进行数据存储或启动系统 |
 | 网络                | 有线连接： 1 个千兆以太网口(支持 PoE，需外接 HAT)<br /> 无线连接(可选)： Wi-Fi 6、蓝牙 5.4，外置天线接口                      |
 | USB                 | - 2x USB 2.0 Type A HOST<br /> - 1x USB 3.0 Type A HOST<br /> - 1x USB 3.0 Type C OTG/HOST                                    |
 | 音频接口            | 音频接口 ： 3.5mm 四段耳机插孔，支持麦克风输入 <br /> 音频输出 ： 支持立体声输出，可直接驱动 32Ω 耳机                         |
@@ -119,7 +119,7 @@ CM4 IO 板参数是 CM4 + CM4 IO 板参数的组合，CM4 IO 板为 CM4 提供
 | ②    | 功能引脚（可触发关机、重启） | ⑨    | 千兆以太网口（支持PoE） | ⑯    | RTC 接口             |
 | ③    | 电源输出                     | ⑩    | USB 3.0 Type-A 接口     | ⑰    | UFS 模块接口         |
 | ④    | 风扇接口                     | ⑪    | HDMI 接口               | ⑱    | 4 通道 MIPI CSI 接口 |
-| ⑤    | MicroSD 卡槽                 | ⑫    | 2x 2 通道 MIPI CSI 接口 | ⑲    | 4 通道 MIPI DSI 接口 |
+| ⑤    | microSD 卡槽                 | ⑫    | 2x 2 通道 MIPI CSI 接口 | ⑲    | 4 通道 MIPI DSI 接口 |
 | ⑥    | 耳机插孔                     | ⑬    | PoE 接口                | ⑳    | M.2 M Key 2280 接口  |
 | ⑦    | USB 3.0 Type-C 接口          | ⑭    | 40 Pin GPIO 接口        | ㉑   | 3x 100 Pin B2B 接口  |
 
diff --git a/docs/som/cm/cm4/download.md b/docs/som/cm/cm4/download.md
index 9c24bff2d..58e004a74 100644
--- a/docs/som/cm/cm4/download.md
+++ b/docs/som/cm/cm4/download.md
@@ -14,7 +14,7 @@ USB 刷机使用，Loader 文件用于 USB 下载初始化。
 
 - Debian Linux
 
-适用于 MicroSD 卡、板载 eMMC、NVMe SSD 启动系统。
+适用于 microSD 卡、板载 eMMC、NVMe SSD 启动系统。
 
 [Radxa Debian12 Linux Debian KDE](https://github.com/radxa-build/radxa-rk3576/releases/download/rsdk-r6/radxa-rk3576_bookworm_kde_r6.output_512.img.xz)
 
@@ -26,7 +26,7 @@ USB 刷机使用，Loader 文件用于 USB 下载初始化。
 
 - Android
 
-[Radxa CM4 Android 14 MicroSD and eMMC System Image](https://github.com/radxa/manifests/releases/download/radxa-cm4-android14-20250829/Radxa-cm4-android14-rkr6-sd_emmc-20250903-gpt.zip)：适用于 MicroSD 卡、板载 eMMC 启动系统。
+[Radxa CM4 Android 14 microSD and eMMC System Image](https://github.com/radxa/manifests/releases/download/radxa-cm4-android14-20250829/Radxa-cm4-android14-rkr6-sd_emmc-20250903-gpt.zip)：适用于 microSD 卡、板载 eMMC 启动系统。
 
 [Radxa CM4 Android 14 UFS Module System Image](https://github.com/radxa/manifests/releases/download/radxa-cm4-android14-20250829/Radxa_cm4_android14_rkr6_ufs_20250829-update.zip)：适用于 UFS 模块启动系统。
 
diff --git a/docs/som/cm/cm4/getting-started/install-system/microsd_boot.md b/docs/som/cm/cm4/getting-started/install-system/microsd_boot.md
index 81aaa70c9..06d97b27a 100644
--- a/docs/som/cm/cm4/getting-started/install-system/microsd_boot.md
+++ b/docs/som/cm/cm4/getting-started/install-system/microsd_boot.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import BalenaEtcherUse from '../../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 <BalenaEtcherUse />
diff --git a/docs/som/cm/cm4/getting-started/quickly_start.md b/docs/som/cm/cm4/getting-started/quickly_start.md
index e651579b5..c722af3d0 100644
--- a/docs/som/cm/cm4/getting-started/quickly_start.md
+++ b/docs/som/cm/cm4/getting-started/quickly_start.md
@@ -28,7 +28,7 @@ sidebar_position: 1
 您需要提前准备以下硬件设备：可选设备建议选择其中一种，方便快速上手使用产品
 
 - 主板：瑞莎 CM4 搭配 CM4 IO 板
-- 系统启动介质：MicroSD 卡
+- 系统启动介质：microSD 卡
 - 电源适配器：标准 DC 12V/2A 电源适配器（DC-5525 接口）
 - USB 串口数据线（可选）：用于串口调试和登录系统
 - HDMI 数据线和显示器（可选）：用于显示系统界面和图形化界面操作
@@ -44,7 +44,7 @@ sidebar_position: 1
 
 您可以根据自己的系统启动介质和拥有的硬件设备，参考下面教程进行系统安装：
 
-- [安装系统到 MicroSD 卡](./install-system/microsd_boot)(推荐使用)
+- [安装系统到 microSD 卡](./install-system/microsd_boot)(推荐使用)
 - [安装系统到板载 eMMC](./install-system/emmc_boot)
 - [安装系统到 NVMe SSD](./install-system/nvme_boot)
 
@@ -60,12 +60,12 @@ sidebar_position: 1
 
 ## 启动系统
 
-完成系统的安装后，你可以将 MicroSD 卡安装到 CM4 IO 板的 MicroSD 卡槽上，然后连接电源适配器启动系统。
+完成系统的安装后，你可以将 microSD 卡安装到 CM4 IO 板的 microSD 卡槽上，然后连接电源适配器启动系统。
 
 :::tip 系统启动优先级
 若您在主板上安装了多个系统启动介质，系统启动优先级如下：
 
-MicroSD 卡 > 板载 eMMC > UFS 模块 > NVMe SSD
+microSD 卡 > 板载 eMMC > UFS 模块 > NVMe SSD
 :::
 
 <div style={{textAlign: 'center'}}>
diff --git a/docs/som/cm/cm4/getting-started/use_system.md b/docs/som/cm/cm4/getting-started/use_system.md
index ccf6d680d..022a4e301 100644
--- a/docs/som/cm/cm4/getting-started/use_system.md
+++ b/docs/som/cm/cm4/getting-started/use_system.md
@@ -17,7 +17,7 @@ sidebar_position: 3
 :::tip 系统启动优先级
 若您在主板上安装了多个系统启动介质，系统启动优先级如下：
 
-MicroSD 卡 > 板载 eMMC > UFS 模块 > NVMe SSD
+microSD 卡 > 板载 eMMC > UFS 模块 > NVMe SSD
 :::
 
 **说明：你可以将优先级较高的系统启动介质取下来，这样系统就会从优先级较低的系统启动介质启动。**
diff --git a/docs/som/cm/cm4/hardware-use/hardware_info.md b/docs/som/cm/cm4/hardware-use/hardware_info.md
index d336e2673..fe1e70aee 100644
--- a/docs/som/cm/cm4/hardware-use/hardware_info.md
+++ b/docs/som/cm/cm4/hardware-use/hardware_info.md
@@ -44,7 +44,7 @@ sidebar_position: 1
 | ②    | 电源引脚（可触发关机、重启） | ⑨    | 千兆以太网口（支持PoE，需搭配 PoE HAT） | ⑯    | RTC 接口             |
 | ③    | 电源输出                     | ⑩    | USB 3.0 Type-A 接口                     | ⑰    | UFS 模块接口         |
 | ④    | 风扇接口                     | ⑪    | HDMI 接口                               | ⑱    | 4 通道 MIPI CSI 接口 |
-| ⑤    | MicroSD 卡槽                 | ⑫    | 2x 2 通道 MIPI CSI 接口                 | ⑲    | 4 通道 MIPI DSI 接口 |
+| ⑤    | microSD 卡槽                 | ⑫    | 2x 2 通道 MIPI CSI 接口                 | ⑲    | 4 通道 MIPI DSI 接口 |
 | ⑥    | 耳机插孔                     | ⑬    | PoE 接口                                | ⑳    | M.2 M Key 2280 接口  |
 | ⑦    | 2x USB 3.0 Type-C 接口       | ⑭    | 40 Pin GPIO 接口                        | ㉑   | 3x 100 Pin B2B 接口  |
 
diff --git a/docs/som/cm/cm4/hardware-use/microsd.md b/docs/som/cm/cm4/hardware-use/microsd.md
index e604f3e1c..2b41a8844 100644
--- a/docs/som/cm/cm4/hardware-use/microsd.md
+++ b/docs/som/cm/cm4/hardware-use/microsd.md
@@ -2,13 +2,13 @@
 sidebar_position: 2
 ---
 
-# MicroSD 卡槽
+# microSD 卡槽
 
-瑞莎 CM4 IO 板板载 MicroSD 卡槽，兼容 MicroSD / MicroSDHC / MicroSDXC 卡，可用作系统启动盘或扩展存储空间。
+瑞莎 CM4 IO 板板载 microSD 卡槽，兼容 microSD / microSDHC / microSDXC 卡，可用作系统启动盘或扩展存储空间。
 
 ## 硬件连接
 
-将 MicroSD 卡槽安装到瑞莎 CM4 IO 板的 MicroSD 卡槽上。
+将 microSD 卡槽安装到瑞莎 CM4 IO 板的 microSD 卡槽上。
 
 :::tip 接口位置
 可以参考 [硬件信息](./hardware_info.md) 教程找到对应硬件接口位置
@@ -16,15 +16,15 @@ sidebar_position: 2
 
 ## 使用指南
 
-MicroSD 卡可以作为系统启动介质，也可以作为扩展存储空间。
+microSD 卡可以作为系统启动介质，也可以作为扩展存储空间。
 
 ### 系统启动介质
 
-MicroSD 卡存在正常启动的系统时，瑞莎 CM4 会默认从 MicroSD 卡启动系统。
+microSD 卡存在正常启动的系统时，瑞莎 CM4 会默认从 microSD 卡启动系统。
 
 ### 拓展存储空间
 
-通过其他系统启动介质启动系统或者将 MicroSD 卡启动优先级降低，不通过 MicroSD 卡启动系统。
+通过其他系统启动介质启动系统或者将 microSD 卡启动优先级降低，不通过 microSD 卡启动系统。
 
 :::tip 引导说明
 对于部分主板，可以通过软件设置系统引导顺序，将其它系统启动介质的系统作为启动盘
diff --git a/docs/som/cm/cm4/other-os/android/getting-started.md b/docs/som/cm/cm4/other-os/android/getting-started.md
index a929a962f..08aa48d9b 100644
--- a/docs/som/cm/cm4/other-os/android/getting-started.md
+++ b/docs/som/cm/cm4/other-os/android/getting-started.md
@@ -22,7 +22,7 @@ sidebar_position: 2
 您需要提前准备以下硬件设备：
 
 - 主板：瑞莎 CM4 搭配 CM4 IO 板
-- 系统启动介质：MicroSD 卡
+- 系统启动介质：microSD 卡
 - 供电设备：标准 DC 12V/2A 电源适配器（DC-5525 接口）
 - 显示设备：显示器和 HDMI 数据线
 - 输入设备：键盘和鼠标（用于图形界面操作）
@@ -37,22 +37,22 @@ sidebar_position: 2
 
 ## 安装系统
 
-主要介绍安装系统到 MicroSD 卡。
+主要介绍安装系统到 microSD 卡。
 
 :::warning 重要提醒
 
-**安装系统会完全格式化 MicroSD 卡，所有数据将被永久删除！**
+**安装系统会完全格式化 microSD 卡，所有数据将被永久删除！**
 
 请在操作前确认：
 
-- MicroSD 卡中无重要数据或已完成资料备份
+- microSD 卡中无重要数据或已完成资料备份
 - 选择正确的存储设备，避免格式化其他磁盘
 
 :::
 
 ### 硬件连接
 
-将 MicroSD 卡插入 MicroSD 卡读卡器，再将 MicroSD 卡读卡器插入电脑。
+将 microSD 卡插入 microSD 卡读卡器，再将 microSD 卡读卡器插入电脑。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -73,7 +73,7 @@ sidebar_position: 2
 
 ### 写入系统镜像
 
-使用 Balena Etcher 软件可以将系统镜像安装到 MicroSD 卡中。
+使用 Balena Etcher 软件可以将系统镜像安装到 microSD 卡中。
 
 :::tip Balena Etcher
 
@@ -94,7 +94,7 @@ sidebar_position: 2
 
 #### 选择存储设备
 
-点击 `Select target` 选项，选择 MicroSD 卡设备。
+点击 `Select target` 选项，选择 microSD 卡设备。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -112,7 +112,7 @@ sidebar_position: 2
 
 #### 开始烧录
 
-点击 `Flash!` 选项，开始烧录系统镜像到 MicroSD 卡中。
+点击 `Flash!` 选项，开始烧录系统镜像到 microSD 卡中。
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -147,4 +147,4 @@ sidebar_position: 2
 
 ## 启动系统
 
-完成系统的写入后，将 MicroSD 卡安装到 CM4 IO 板的 MicroSD 卡槽中，然后使用 12V DC 电源适配器给 CM4 供电，即可启动系统。
+完成系统的写入后，将 microSD 卡安装到 CM4 IO 板的 microSD 卡槽中，然后使用 12V DC 电源适配器给 CM4 供电，即可启动系统。
diff --git a/docs/som/cm/cm4/other-os/android/install-system.md b/docs/som/cm/cm4/other-os/android/install-system.md
index 3a1ac2ba4..7c7ebf6c5 100644
--- a/docs/som/cm/cm4/other-os/android/install-system.md
+++ b/docs/som/cm/cm4/other-os/android/install-system.md
@@ -9,5 +9,5 @@ Android 系统的安装步骤与 Linux 系统类似，可以参考 [安装系统
 说明：
 
 - MNVMe SSD 无法启动 Android 系统
-- MicroSD 卡和 eMMC 启动使用相同的 Android 系统镜像
+- microSD 卡和 eMMC 启动使用相同的 Android 系统镜像
 - UFS 模块使用专门的 Android 系统镜像
diff --git a/docs/som/cm/cm5/hardware/hw-interface.md b/docs/som/cm/cm5/hardware/hw-interface.md
index 904f8a3b4..0ba48bf8f 100644
--- a/docs/som/cm/cm5/hardware/hw-interface.md
+++ b/docs/som/cm/cm5/hardware/hw-interface.md
@@ -54,7 +54,7 @@ Radxa CM5 IO 支持 MIPI DSI 显示功能。
 瑞莎建议使用 [Radxa Display 8 HD](/accessories/display/lcd-8-hd) 或 [Radxa Display 10 FHD](../../../accessories/display/lcd-10-fhd)。
 :::
 
-## MicroSD
+## microSD
 
 可用于系统启动盘，也可以充当存储介质使用
 
diff --git a/docs/som/cm/cm5/other-os/yocto/install-system/system-to-sd.md b/docs/som/cm/cm5/other-os/yocto/install-system/system-to-sd.md
index e51ca9c5c..7c61fac4b 100644
--- a/docs/som/cm/cm5/other-os/yocto/install-system/system-to-sd.md
+++ b/docs/som/cm/cm5/other-os/yocto/install-system/system-to-sd.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import SystemToSD from '../../../../../../common/yocto/\_system-to-sd.mdx';
 
-# 安装系统到 MicroSD 卡
+# 安装系统到 microSD 卡
 
 <SystemToSD board="Radxa CM5 IO" board_conf="rockchip-rk3588s-radxa-cm5-io.conf" soc="rk3588s" board_name="radxa-cm5-io" />
diff --git a/docs/template/module/hardware/hw-interface.md b/docs/template/module/hardware/hw-interface.md
index d4c7cc306..73a07208c 100644
--- a/docs/template/module/hardware/hw-interface.md
+++ b/docs/template/module/hardware/hw-interface.md
@@ -28,4 +28,4 @@ sidebar_position: 4
 
 ## MIPI DSI
 
-## MicroSD
+## microSD
diff --git a/docs/template/sbc/hardware-design/hardware-interface.md b/docs/template/sbc/hardware-design/hardware-interface.md
index c0c3ef0b4..371497997 100644
--- a/docs/template/sbc/hardware-design/hardware-interface.md
+++ b/docs/template/sbc/hardware-design/hardware-interface.md
@@ -38,4 +38,4 @@ sidebar_position: 4
 
 ## WIFI
 
-## MicroSD
+## microSD
diff --git a/docs/template/tcm/hardware-design/hardware-interface.md b/docs/template/tcm/hardware-design/hardware-interface.md
index c0c3ef0b4..371497997 100644
--- a/docs/template/tcm/hardware-design/hardware-interface.md
+++ b/docs/template/tcm/hardware-design/hardware-interface.md
@@ -38,4 +38,4 @@ sidebar_position: 4
 
 ## WIFI
 
-## MicroSD
+## microSD
diff --git a/docs/zero/zero/getting-started/install-os.md b/docs/zero/zero/getting-started/install-os.md
index 7003cc138..a640281a6 100644
--- a/docs/zero/zero/getting-started/install-os.md
+++ b/docs/zero/zero/getting-started/install-os.md
@@ -46,7 +46,7 @@ import Etcher from '../../../common/general/\_etcher.mdx'
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡 后，将 microSD 卡插入 ZERO 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡 后，将 microSD 卡插入 ZERO 的 microSD 插槽内。
 - ZERO 的供电接口为 [USB OTG](../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 :::tip
diff --git a/docs/zero/zero/hardware-design/hardware-interface.md b/docs/zero/zero/hardware-design/hardware-interface.md
index f4eca38f1..2bf35c366 100644
--- a/docs/zero/zero/hardware-design/hardware-interface.md
+++ b/docs/zero/zero/hardware-design/hardware-interface.md
@@ -118,9 +118,9 @@ ZERO 板载一个 ap6212/ap6256/aw-cm256sm WiFi/BT，各个模块具体参数如
 |   ap6256   | 802.11 a/b/g/n/ac | 2.4GHz/5GHz |     433.3Mbps      | Bluetooth 5.2 |
 | aw-cm256sm | 802.11 a/b/g/n/ac | 2.4GHz/5GHz |     433.3Mbps      | Bluetooth 4.2 |
 
-## MicroSD 卡槽
+## microSD 卡槽
 
-用于 MicroSD 卡启动或数据存储。
+用于 microSD 卡启动或数据存储。
 
 ## USB BOOT 按钮
 
diff --git a/docs/zero/zero2pro/README.md b/docs/zero/zero2pro/README.md
index 263dc4eca..642e4639b 100644
--- a/docs/zero/zero2pro/README.md
+++ b/docs/zero/zero2pro/README.md
@@ -52,7 +52,7 @@ sidebar_position: 40
     </tr>
     <tr>
         <td align="center">存储</td>
-        <td align="center">可选板载 eMMC 模块：16/32/64 GB<br/>MicroSD 存储卡</td>
+        <td align="center">可选板载 eMMC 模块：16/32/64 GB<br/>microSD 存储卡</td>
     </tr>
     <tr>
         <td align="center">显示</td>
diff --git a/docs/zero/zero2pro/getting-started/install-os.md b/docs/zero/zero2pro/getting-started/install-os.md
index 72fd57894..969af1385 100644
--- a/docs/zero/zero2pro/getting-started/install-os.md
+++ b/docs/zero/zero2pro/getting-started/install-os.md
@@ -21,7 +21,7 @@ import Etcher from '../../../common/general/\_etcher.mdx'
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡 后，将 microSD 卡插入 ZERO 2 PRO 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡 后，将 microSD 卡插入 ZERO 2 PRO 的 microSD 插槽内。
 - ZERO 2 PRO 的供电接口为 [USB OTG](../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 :::tip
diff --git a/docs/zero/zero2pro/hardware-design/hardware-interface.md b/docs/zero/zero2pro/hardware-design/hardware-interface.md
index 14fae17cc..da2fc9035 100644
--- a/docs/zero/zero2pro/hardware-design/hardware-interface.md
+++ b/docs/zero/zero2pro/hardware-design/hardware-interface.md
@@ -155,9 +155,9 @@ HDMI 的输出分辨率取决于显示器，Radxa ZERO 2 PRO 会根据显示器
 
 ZERO 2 PRO 板载一个 Wi-Fi 5 (802.11 b/g/n/ac) & BT 5.0 with BLE 无线模块。
 
-## MicroSD 卡槽
+## microSD 卡槽
 
-用于 MicroSD 卡启动或数据存储。
+用于 microSD 卡启动或数据存储。
 
 ## Power 按钮
 
diff --git a/docs/zero/zero3/getting-started/install-os.md b/docs/zero/zero3/getting-started/install-os.md
index 53e222a61..212169022 100644
--- a/docs/zero/zero3/getting-started/install-os.md
+++ b/docs/zero/zero3/getting-started/install-os.md
@@ -27,7 +27,7 @@ import Etcher from '../../../common/general/\_etcher.mdx'
 
 ## 启动系统
 
-- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa ZERO 3 的 MicroSD 插槽内。
+- 按照上述步骤成功烧录 microSD 卡后，将 microSD 卡插入 Radxa ZERO 3 的 microSD 插槽内。
 - Radxa ZERO 3 的供电接口为 [USB 2.0 OTG Type C port](../hardware-design/hardware-interface)，请使用 Type-C 线缆连接供电口和适配器。
 
 :::tip
diff --git a/docs/zero/zero3/other-os/android/install-os.md b/docs/zero/zero3/other-os/android/install-os.md
index 466ace589..c80a8c89f 100644
--- a/docs/zero/zero3/other-os/android/install-os.md
+++ b/docs/zero/zero3/other-os/android/install-os.md
@@ -16,7 +16,7 @@ sidebar_position: 2
 
 **从 SD 卡启动** （**推荐**）
 
-- 通过读卡器将系统镜像烧写到 MicroSD 卡
+- 通过读卡器将系统镜像烧写到 microSD 卡
 
 **从板载eMMC 启动**
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/accessories/storage/taco/getting-started/install-system/sd-system.md b/i18n/en/docusaurus-plugin-content-docs/current/accessories/storage/taco/getting-started/install-system/sd-system.md
index ab48c1f1e..69e67c6de 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/accessories/storage/taco/getting-started/install-system/sd-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/accessories/storage/taco/getting-started/install-system/sd-system.md
@@ -4,14 +4,14 @@ sidebar_position: 5
 
 import IMAGER_INSTALL_SYSTEM from '../../../../../common/raspberry-pi/\_imager-install-system.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
-This guide introduces how to install the system to a MicroSD card using Raspberry Pi Imager.
+This guide introduces how to install the system to a microSD card using Raspberry Pi Imager.
 
 ## Prerequisites
 
-- MicroSD card (16GB or above recommended)
-- MicroSD card reader
+- microSD card (16GB or above recommended)
+- microSD card reader
 - Host computer (Linux or macOS)
 
 ## Install System
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/accessories/storage/taco/getting-started/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/accessories/storage/taco/getting-started/quickly-start.md
index 463443d89..bd1076122 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/accessories/storage/taco/getting-started/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/accessories/storage/taco/getting-started/quickly-start.md
@@ -26,7 +26,7 @@ You need to prepare the following hardware in advance:
 - Display: HDMI cable and monitor
 - Input devices: USB keyboard and mouse
 
-Note: If the Raspberry Pi CM5 does not have onboard eMMC, you need an additional MicroSD card for system installation.
+Note: If the Raspberry Pi CM5 does not have onboard eMMC, you need an additional microSD card for system installation.
 
 :::tip Recommended Accessories
 
@@ -40,7 +40,7 @@ Note: If the Raspberry Pi CM5 does not have onboard eMMC, you need an additional
 Please choose the appropriate installation method based on whether your Raspberry Pi CM5 has onboard eMMC:
 
 - If the Raspberry Pi CM5 has onboard eMMC, refer to [Install System to eMMC](./install-system/emmc-system)
-- If the Raspberry Pi CM5 does not have onboard eMMC, you need to install the system to a MicroSD card, refer to [Install System to MicroSD Card](./install-system/sd-system)
+- If the Raspberry Pi CM5 does not have onboard eMMC, you need to install the system to a microSD card, refer to [Install System to microSD Card](./install-system/sd-system)
 
 ## Boot System
 
@@ -54,7 +54,7 @@ After completing the system installation, power the Radxa Taco with the 12V DC p
 
 <TabItem value="Raspberry Pi CM5 without onboard eMMC">
 
-After completing the system installation, install the MicroSD card into the Radxa Taco's microSD card slot, then power the Radxa Taco with the 12V DC power adapter. The system will boot from the MicroSD card.
+After completing the system installation, install the microSD card into the Radxa Taco's microSD card slot, then power the Radxa Taco with the 12V DC power adapter. The system will boot from the microSD card.
 
 </TabItem>
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/README.md
index 9c6a723b8..43a296cdc 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/README.md
@@ -11,9 +11,9 @@ The Cubie series is a line of single-board computers from Radxa based on Allwinn
 
 | Model     | SoC / CPU                                                    | NPU Performance      | Memory Options                              | System / Onboard Storage                  | Storage Expansion & Buses        | Networking & Wireless                                               | Display & Camera                             | Typical I/O                            |
 | --------- | ------------------------------------------------------------ | -------------------- | ------------------------------------------- | ----------------------------------------- | -------------------------------- | ------------------------------------------------------------------- | -------------------------------------------- | -------------------------------------- |
-| Cubie A5E | Allwinner A527 / T527, 8× Cortex-A55, up to 2.0GHz           | T527 variant: 2 TOPS | LPDDR4/4x: 1GB / 2GB / 4GB                  | SPI Flash, onboard eMMC (optional 0–32GB) | MicroSD, M.2 M-Key NVMe (2230)   | Dual Gigabit Ethernet (one PoE via PoE HAT), Wi‑Fi 6, Bluetooth 5.4 | HDMI 4K@60, 1× MIPI DSI, 1× MIPI CSI         | 40-pin GPIO, USB 3.0 Type‑A, USB‑C OTG |
-| Cubie A7A | Allwinner A733, 2× A76 + 6× A55, up to 2.0GHz                | 3 TOPS               | LPDDR5: 2GB / 4GB / 6GB / 8GB / 12GB / 16GB | 8MB SPI NOR Flash                         | MicroSD, eMMC module, UFS module | Gigabit Ethernet (PoE via PoE HAT), Wi‑Fi 6, Bluetooth 5.4          | HDMI 4K@60, 1× MIPI DSI, 1×/2× MIPI CSI      | 40-pin GPIO, PCIe 3.0 FPC, rich USB    |
-| Cubie A7Z | Allwinner A733, 2× A76 + 6× A55, ultra-compact 65×30mm board | 3 TOPS@INT8          | LPDDR4/4x: 1GB / 2GB / 4GB / 8GB / 16GB     | Optional onboard UFS (up to 1TB)          | MicroSD, PCIe 3.0 FPC (1-lane)   | Onboard Wi‑Fi 6, Bluetooth 5.4                                      | Micro HDMI 4K@60, USB‑C 3.0 DP Alt, MIPI CSI | 40-pin GPIO, dual USB‑C                |
+| Cubie A5E | Allwinner A527 / T527, 8× Cortex-A55, up to 2.0GHz           | T527 variant: 2 TOPS | LPDDR4/4x: 1GB / 2GB / 4GB                  | SPI Flash, onboard eMMC (optional 0–32GB) | microSD, M.2 M-Key NVMe (2230)   | Dual Gigabit Ethernet (one PoE via PoE HAT), Wi‑Fi 6, Bluetooth 5.4 | HDMI 4K@60, 1× MIPI DSI, 1× MIPI CSI         | 40-pin GPIO, USB 3.0 Type‑A, USB‑C OTG |
+| Cubie A7A | Allwinner A733, 2× A76 + 6× A55, up to 2.0GHz                | 3 TOPS               | LPDDR5: 2GB / 4GB / 6GB / 8GB / 12GB / 16GB | 8MB SPI NOR Flash                         | microSD, eMMC module, UFS module | Gigabit Ethernet (PoE via PoE HAT), Wi‑Fi 6, Bluetooth 5.4          | HDMI 4K@60, 1× MIPI DSI, 1×/2× MIPI CSI      | 40-pin GPIO, PCIe 3.0 FPC, rich USB    |
+| Cubie A7Z | Allwinner A733, 2× A76 + 6× A55, ultra-compact 65×30mm board | 3 TOPS@INT8          | LPDDR4/4x: 1GB / 2GB / 4GB / 8GB / 16GB     | Optional onboard UFS (up to 1TB)          | microSD, PCIe 3.0 FPC (1-lane)   | Onboard Wi‑Fi 6, Bluetooth 5.4                                      | Micro HDMI 4K@60, USB‑C 3.0 DP Alt, MIPI CSI | 40-pin GPIO, dual USB‑C                |
 
 ## Model Highlights and Selection Advice
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/README.md
index cdeaa4477..291b5884f 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/README.md
@@ -39,7 +39,7 @@ The Cubie A5E achieves an optimal balance between performance and power efficien
 | ------------ | --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | Processor    | SoC: Allwinner A527 <br/> CPU: 8-core Cortex-A55 <br/> GPU: Arm Mali-G57; Supports OpenGL® ES 1.1 / 2.0 / 3.1 / 3.2, Vulkan® 1.1, OpenCL™ 1.1 / 1.2 / 2.0 <br/> NPU: None                                          |
 | Memory       | LPDDR4 / LPDDR4x, Options: 1GB / 2GB / 4GB                                                                                                                                                                            |
-| Storage      | Boot Storage: On-board SPI Flash <br/> System Storage: Supports MicroSD Card / On-board eMMC (Options: 0GB / 8GB / 16GB / 32GB) / M.2 M Key NVMe SSD <br/> **Boot Priority**: MicroSD Card > NVMe SSD > On-board eMMC |
+| Storage      | Boot Storage: On-board SPI Flash <br/> System Storage: Supports microSD Card / On-board eMMC (Options: 0GB / 8GB / 16GB / 32GB) / M.2 M Key NVMe SSD <br/> **Boot Priority**: microSD Card > NVMe SSD > On-board eMMC |
 | Network      | Wired: 2x Gigabit Ethernet (PoE supported, requires external PoE HAT) <br/> Wireless: Wi-Fi 6, Bluetooth 5.4, with antenna connector                                                                                  |
 | Video Output | HDMI: 1x HDMI port, supports up to 4K@60fps <br/> MIPI DSI: 1x 4-lane MIPI DSI                                                                                                                                        |
 | Camera       | 1x 4-lane MIPI CSI or 2x 2-lane MIPI CSI                                                                                                                                                                              |
@@ -56,7 +56,7 @@ The Cubie A5E achieves an optimal balance between performance and power efficien
 | ------------ | --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | Processor    | SoC: Allwinner T527 <br/> CPU: 8-core Cortex-A55 <br/> GPU: Arm Mali-G57; Supports OpenGL® ES 1.1 / 2.0 / 3.1 / 3.2, Vulkan® 1.1, OpenCL™ 1.1 / 1.2 / 2.0 <br/> NPU: 2TOPS@INT8                                    |
 | Memory       | LPDDR4 / LPDDR4x, Options: 1GB / 2GB / 4GB                                                                                                                                                                            |
-| Storage      | Boot Storage: On-board SPI Flash <br/> System Storage: Supports MicroSD Card / On-board eMMC (Options: 0GB / 8GB / 16GB / 32GB) / M.2 M Key NVMe SSD <br/> **Boot Priority**: MicroSD Card > NVMe SSD > On-board eMMC |
+| Storage      | Boot Storage: On-board SPI Flash <br/> System Storage: Supports microSD Card / On-board eMMC (Options: 0GB / 8GB / 16GB / 32GB) / M.2 M Key NVMe SSD <br/> **Boot Priority**: microSD Card > NVMe SSD > On-board eMMC |
 | Network      | Wired: 2x Gigabit Ethernet (PoE supported, requires external PoE HAT) <br/> Wireless: Wi-Fi 6, Bluetooth 5.4, with antenna connector                                                                                  |
 | Video Output | HDMI: 1x HDMI port, supports up to 4K@60fps <br/> MIPI DSI: 1x 4-lane MIPI DSI                                                                                                                                        |
 | Camera       | 1x 4-lane MIPI CSI or 2x 2-lane MIPI CSI                                                                                                                                                                              |
@@ -80,7 +80,7 @@ The Cubie A5E achieves an optimal balance between performance and power efficien
 | ①   | Wi-Fi / Bluetooth   | ⑧   | PoE Header             | ⑭   | LPDDR4 / LPDDR4x Memory     |
 | ②   | Antenna Connector   | ⑨   | Gigabit Ethernet (PoE) | ⑮   | Allwinner A527 / T527       |
 | ③   | USB 3.0 Type-A HOST | ⑩   | MIPI DSI               | ⑯   | On-board eMMC (Reserved)    |
-| ④   | HDMI                | ⑪   | MicroSD Card Slot      | ⑰   | 40-pin GPIO Header          |
+| ④   | HDMI                | ⑪   | microSD Card Slot      | ⑰   | 40-pin GPIO Header          |
 | ⑤   | SPI Flash           | ⑫   | MIPI CSI               | ⑱   | USB Type-C (5V Power & OTG) |
 | ⑥   | UBOOT Button        | ⑬   | M.2 M Key 2230 Slot    | ⑲   | Gigabit Ethernet (Non-PoE)  |
 | ⑦   | Status LED          |     |                        |     |                             |
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/download.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/download.md
index 2f4f4d2dc..aff91635f 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/download.md
@@ -7,13 +7,13 @@ sidebar_position: 150
 ## System Images
 
 :::tip Beginner's Recommendation
-We strongly recommend that beginners download GPT format Radxa OS official images and use the [Balena Etcher](./getting-started/quickly-start#install-system-image) tool to install them to MicroSD cards. This is the simplest and fastest way to get started.
+We strongly recommend that beginners download GPT format Radxa OS official images and use the [Balena Etcher](./getting-started/quickly-start#install-system-image) tool to install them to microSD cards. This is the simplest and fastest way to get started.
 
 **Image Type Description**
 
 - GPT System Images (Recommended for beginners):
 
-  - Suitable for MicroSD cards or NVMe SSDs
+  - Suitable for microSD cards or NVMe SSDs
   - Use Balena Etcher graphical tool, simple operation
   - Support `dd` command line flashing
   - Radxa recommended image type, best compatibility
@@ -52,7 +52,7 @@ We strongly recommend that beginners download GPT format Radxa OS official image
   - Suitable for GPT system images
   - User-friendly interface, simple operation
   - Automatic image integrity verification
-  - Best for installing systems to MicroSD cards or NVMe SSDs
+  - Best for installing systems to microSD cards or NVMe SSDs
 
 - **[PhoenixSuit (Windows)](https://dl.radxa.com/tools/windows/PhoenixSuit_V2.0.4.zip)** / **[LiveSuit (Linux)](https://dl.radxa.com/tools/linux/LiveSuit_Linux_V3.0.8.zip)**
 
@@ -62,7 +62,7 @@ We strongly recommend that beginners download GPT format Radxa OS official image
   - Requires some technical knowledge
 
 - **[PhoenixCard](https://dl.radxa.com/tools/windows/PhoenixCard_V4.3.1.zip)** (Windows)
-  - Supports creating bootable MicroSD cards with FEL firmware
+  - Supports creating bootable microSD cards with FEL firmware
   - Can be used for mass production scenarios
 
 ## Hardware Design
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/emmc-system.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/emmc-system.md
index 470ad26af..60a79f16b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/emmc-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/emmc-system.md
@@ -16,7 +16,7 @@ This tutorial is for users with the Cubie A5E onboard eMMC version.
 
 After completing the system installation, power off the board and disconnect the power supply. Follow these steps to boot the system:
 
-① Remove the MicroSD card from the board
+① Remove the microSD card from the board
 
 ② Connect the monitor to the board using an HDMI cable
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/microsd-system.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/microsd-system.md
index 7048aae99..bc9785ddf 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/microsd-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/microsd-system.md
@@ -4,13 +4,13 @@ sidebar_position: 1
 
 import BalenaEtcherUse from '../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 <BalenaEtcherUse />
 
 ## Boot the System
 
-① Insert the MicroSD card into the MicroSD card slot
+① Insert the microSD card into the microSD card slot
 
 ② Connect the monitor to the board using an HDMI cable
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/README.md
index 5fb3a3251..65ee49fc1 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/README.md
@@ -17,4 +17,4 @@ To use an NVMe SSD as a boot drive, you need to follow these steps and tutorials
 You can choose different writing methods based on your hardware:
 
 - [Write System Image Using an External SSD Reader](./install-system/reader.md): Requires an NVMe SSD enclosure, relatively simple to operate!
-- [Write System Image from SD Card to NVMe](./install-system/no-reader.md): Requires booting Cubie A5E system normally from a MicroSD card first, then using the `dd` command to install the system to the NVMe SSD.
+- [Write System Image from SD Card to NVMe](./install-system/no-reader.md): Requires booting Cubie A5E system normally from a microSD card first, then using the `dd` command to install the system to the NVMe SSD.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/install-system/no-reader.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/install-system/no-reader.md
index 0f1cbc655..824e02160 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/install-system/no-reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/install-system/no-reader.md
@@ -12,7 +12,7 @@ import InstallSystem from '../../../../../../common/radxa-os/install-system/\_us
 
 After completing the system installation, power off the board and disconnect the power supply. Follow these steps to boot the system:
 
-① Remove the MicroSD card from the board
+① Remove the microSD card from the board
 
 ② Install the NVMe SSD onto the board
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/install-system/reader.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/install-system/reader.md
index 3563c0bec..21daa4de9 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/install-system/reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/install-system/nvme-system/install-system/reader.md
@@ -12,7 +12,7 @@ import InstallSystem from '../../../../../../common/radxa-os/install-system/\_us
 
 After completing the system installation, power off the board and disconnect the power supply. Follow these steps to boot the system:
 
-① Remove the MicroSD card from the board
+① Remove the microSD card from the board
 
 ② Install the NVMe SSD onto the board
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/quickly-start.md
index 235f92b8c..8a9108f65 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/quickly-start.md
@@ -24,7 +24,7 @@ You will need to prepare the following hardware devices in advance:
 
 - Board: Radxa Cubie A5E
 - Power Supply: 5V Type-C power adapter
-- System Boot Media: MicroSD card (for system installation and booting)
+- System Boot Media: microSD card (for system installation and booting)
 - Display: HDMI cable and monitor (for graphical interface display)
 - Input Devices: Keyboard and mouse (for graphical interface operation)
 - Debugging Tools (Optional): USB to UART cable (for serial login, refer to the [Serial Login](../system-config/uart-login) guide) and USB-A hub (for expanding USB peripherals)
@@ -39,20 +39,20 @@ The Cubie A5E board is compatible with PD protocol 5V Type-C power input. A curr
 
 ## Install System
 
-This section mainly introduces how to install the system to a MicroSD card.
+This section mainly introduces how to install the system to a microSD card.
 
 :::warning Important Reminder
-**Installing the system will completely format the MicroSD card, and all data will be permanently deleted!**
+**Installing the system will completely format the microSD card, and all data will be permanently deleted!**
 
 Please confirm before proceeding:
 
-- There is no important data on the MicroSD card, or backups have been completed
+- There is no important data on the microSD card, or backups have been completed
 - You have selected the correct storage device (to avoid accidentally formatting other drives)
   :::
 
 ### Hardware Connection
 
-Insert the MicroSD card into a MicroSD card reader, then connect the card reader to your computer.
+Insert the microSD card into a microSD card reader, then connect the card reader to your computer.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -71,7 +71,7 @@ The downloaded system image is a compressed file and needs to be extracted befor
 
 ### Install System Image
 
-You can use Balena Etcher software to install the system image to the MicroSD card.
+You can use Balena Etcher software to install the system image to the microSD card.
 
 :::tip Balena Etcher
 For installation and usage of Balena Etcher, please refer to the [Etcher Usage](/common/radxa-os/install-system/balena-etcher) tutorial.
@@ -90,7 +90,7 @@ Click the `Flash from file` option and select the pre-downloaded and extracted s
 
 #### Select Storage Device
 
-Click the `Select target` option and choose the MicroSD card device.
+Click the `Select target` option and choose the microSD card device.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -108,7 +108,7 @@ Click the `Select target` option and choose the MicroSD card device.
 
 #### Start Flashing
 
-Click the `Flash!` button to start writing the system image to the MicroSD card.
+Click the `Flash!` button to start writing the system image to the microSD card.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -143,7 +143,7 @@ Click the `Flash!` button to start writing the system image to the MicroSD card.
 
 ## Boot the System
 
-①: Insert the MicroSD card into the MicroSD card slot
+①: Insert the microSD card into the microSD card slot
 
 ②: Connect a monitor to the board using an HDMI cable
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/use-system.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/use-system.md
index 8505adc91..e6b39a519 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/use-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/getting-started/use-system.md
@@ -11,4 +11,4 @@ import UseSystem from '../../../common/radxa-os/install-system/\_use_system.mdx'
 
 # Use System
 
-<UseSystem system_start_priority="System Startup Priority: MicroSD Card > NVMe SSD > eMMC" />
+<UseSystem system_start_priority="System Startup Priority: microSD Card > NVMe SSD > eMMC" />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/hardware-use/hardware-info.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/hardware-use/hardware-info.md
index 884289a5f..7c946c5ef 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/hardware-use/hardware-info.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/hardware-use/hardware-info.md
@@ -23,7 +23,7 @@ This section provides information about the board's hardware interfaces.
 | ①   | Wi-Fi / Bluetooth   | ⑧   | PoE Header                  | ⑭   | LPDDR4 / LPDDR4x RAM           |
 | ②   | Antenna Connector   | ⑨   | Gigabit Ethernet (with PoE) | ⑮   | Allwinner A527 / T527          |
 | ③   | USB 3.0 Type-A HOST | ⑩   | MIPI DSI                    | ⑯   | Onboard eMMC (Reserved)        |
-| ④   | HDMI                | ⑪   | MicroSD Card Slot           | ⑰   | 40-Pin GPIO Header             |
+| ④   | HDMI                | ⑪   | microSD Card Slot           | ⑰   | 40-Pin GPIO Header             |
 | ⑤   | SPI Flash           | ⑫   | MIPI CSI                    | ⑱   | USB Type-C (5V Power & OTG)    |
 | ⑥   | UBOOT Button        | ⑬   | M.2 M Key 2230 Slot         | ⑲   | Gigabit Ethernet (without PoE) |
 | ⑦   | Status LED          |     |                             |     |                                |
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/hardware-use/microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/hardware-use/microsd.md
index 334c6b8f3..5660790b9 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/hardware-use/microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/hardware-use/microsd.md
@@ -2,19 +2,19 @@
 sidebar_position: 2
 ---
 
-# MicroSD Card Slot
+# microSD Card Slot
 
-The Radxa Cubie A5E features a standard onboard MicroSD card slot that is compatible with MicroSD, MicroSDHC, and MicroSDXC cards, primarily used as a system boot device or for expanding storage capacity.
+The Radxa Cubie A5E features a standard onboard microSD card slot that is compatible with microSD, microSDHC, and microSDXC cards, primarily used as a system boot device or for expanding storage capacity.
 
-For optimal storage performance, it is recommended to use a MicroSD card with a capacity of 32GB or higher.
+For optimal storage performance, it is recommended to use a microSD card with a capacity of 32GB or higher.
 
 :::tip
-For the exact location of the MicroSD card slot, please refer to the interface description section in the [Hardware Interface](./hardware-info) tutorial!
+For the exact location of the microSD card slot, please refer to the interface description section in the [Hardware Interface](./hardware-info) tutorial!
 :::
 
 ## Usage Guide
 
-You can follow the [Quick Start](../getting-started/quickly-start) or [Install System to MicroSD Card](../getting-started/install-system/microsd-system) tutorials to install the system image onto a MicroSD card. After installation, insert the MicroSD card into the slot and test if the system boots up properly.
+You can follow the [Quick Start](../getting-started/quickly-start) or [Install System to microSD Card](../getting-started/install-system/microsd-system) tutorials to install the system image onto a microSD card. After installation, insert the microSD card into the slot and test if the system boots up properly.
 
 ## Interface Specifications
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/android/install-system/microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/android/install-system/microsd.md
index 1c455c979..0c4b06bc6 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/android/install-system/microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/android/install-system/microsd.md
@@ -7,13 +7,13 @@ imports_resolve_to:
   - i18n/en/docusaurus-plugin-content-docs/current/common/other-system/fel-image/_microsd_system.mdx
 ---
 
-import MicroSD from '../../../../../common/other-system/fel-image/\_microsd_system.mdx';
+import microSD from '../../../../../common/other-system/fel-image/\_microsd_system.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 :::info Download Address
 
 - The tools and system images required for the tutorial can be downloaded from the [Resource Download](../../../download) page.
   :::
 
-<MicroSD />
+<microSD />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/android/quickly-started.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/android/quickly-started.md
index ab49d44e4..ed8c29280 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/android/quickly-started.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/android/quickly-started.md
@@ -20,13 +20,13 @@ This tutorial is designed to help you get started quickly with the Android syste
 
 Based on your system boot media and available hardware, please refer to the following tutorials for system installation:
 
-- [Install System to MicroSD Card](./install-system/microsd) (Recommended for new users)
+- [Install System to microSD Card](./install-system/microsd) (Recommended for new users)
 - [Install System to Onboard eMMC](./install-system/emmc)
 
 ## Boot the System
 
 :::tip
-If multiple boot media are installed in Cubie A5E, the boot priority is: MicroSD Card > NVMe SSD (Not supported yet) > Onboard eMMC
+If multiple boot media are installed in Cubie A5E, the boot priority is: microSD Card > NVMe SSD (Not supported yet) > Onboard eMMC
 :::
 
 1. Insert the corresponding system boot media into the appropriate interface of the Cubie A5E
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/tina-os/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/tina-os/quickly-start.md
index 0ad56e75e..db72427ce 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/tina-os/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a5e/other-system/tina-os/quickly-start.md
@@ -25,7 +25,7 @@ You will need to prepare the following hardware devices in advance:
 
 - Board: Radxa Cubie A5E
 - Power Supply: 5V Type-C Power Adapter
-- System Boot Media: MicroSD Card (for system installation and booting)
+- System Boot Media: microSD Card (for system installation and booting)
 - Display: HDMI Cable and Monitor (for graphical interface)
 - Input Devices: Keyboard and Mouse (for GUI operation)
 - Debugging Tools (Optional): USB-to-Serial Cable (for serial login) and USB-A Hub (for expanding USB peripherals)
@@ -44,7 +44,7 @@ Please visit the [Resource Downloads](../../download#tina-linux) page to get the
 
 **Image Type Selection**
 
-- **GPT Image (Recommended for beginners)**: Suitable for MicroSD cards and NVMe SSDs, installed using Balena Etcher tool
+- **GPT Image (Recommended for beginners)**: Suitable for microSD cards and NVMe SSDs, installed using Balena Etcher tool
 - **FEL Image (Advanced)**: Suitable for eMMC installation, flashed using Phoenix tools
 
 ## Install System
@@ -53,7 +53,7 @@ You can refer to the following general installation tutorials:
 
 **GPT Image Installation**
 
-- [Install System to MicroSD Card](../../getting-started/quickly-start#install-system) (Recommended for new users)
+- [Install System to microSD Card](../../getting-started/quickly-start#install-system) (Recommended for new users)
 - [Install System to NVMe SSD](../../getting-started/install-system/nvme-system)
 
 **FEL Image Installation**
@@ -62,7 +62,7 @@ You can refer to the following general installation tutorials:
 
 ## Booting the System
 
-① : Insert the MicroSD card into the MicroSD card slot
+① : Insert the microSD card into the microSD card slot
 
 ② : Connect the monitor to the board using an HDMI cable
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/README.md
index f026c5d32..7982c7033 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/README.md
@@ -32,7 +32,7 @@ Powered by the Allwinner A733 SoC, the Cubie A7A features a hybrid octa-core hig
 | ---------- | ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | Processor  | SoC: Allwinner A733 <br/> CPU: 2× Cortex-A76 + 6× Cortex-A55 <br/> GPU: Imagination BXM-4-64 MC1; Supports OpenGL ES 3.2, Vulkan 1.3, OpenCL 3.0 <br/> NPU: 3 TOPS AI Acceleration Engine |
 | Memory     | LPDDR5, Options: 2GB / 4GB / 6GB / 8GB / 12GB / 16GB                                                                                                                                      |
-| Storage    | Boot: 8MB SPI NOR Flash <br/> System Storage: Supports MicroSD card / eMMC module / UFS module                                                                                            |
+| Storage    | Boot: 8MB SPI NOR Flash <br/> System Storage: Supports microSD card / eMMC module / UFS module                                                                                            |
 | Network    | Wired: 1× Gigabit Ethernet (PoE supported with external PoE HAT) <br/> Wireless: Wi-Fi 6, Bluetooth 5.4, external antenna interface                                                       |
 | Video Out  | HDMI: 1× HDMI port, up to 4K@60fps <br/> MIPI DSI: 1× 4-lane MIPI DSI                                                                                                                     |
 | Camera     | 1× 4-lane MIPI CSI or 2× 2-lane MIPI CSI                                                                                                                                                  |
@@ -56,7 +56,7 @@ Powered by the Allwinner A733 SoC, the Cubie A7A features a hybrid octa-core hig
 | ④   | [Headphone Jack](/cubie/a7a/hardware-use/headphone)       | ⑪   | [PoE Connector](/cubie/a7a/hardware-use/ethernet)                    | ⑱   | [Power Button](/cubie/a7a/hardware-use/power-key)                    |
 | ⑤   | [UBOOT Button](/cubie/a7a/hardware-use/uboot-key)         | ⑫   | WiFi 6 & Bluetooth 5.4                                               | ⑲   | [eMMC / UFS Module Combo Slot](/cubie/a7a/hardware-use/emmc-ufs-com) |
 | ⑥   | [USB 2.0 Type-A Port](/cubie/a7a/hardware-use/usb-type-a) | ⑬   | [40-pin GPIO Header](/cubie/a7a/hardware-use/pin-gpio)               | ⑳   | [MIPI CSI Connector](/cubie/a7a/hardware-use/mipi-csi)               |
-| ⑦   | [RTC Header](/cubie/a7a/hardware-use/rtc)                 | ⑭   | [MIPI DSI Connector](/cubie/a7a/hardware-use/mipi-dsi)               | ㉑  | [MicroSD Card Slot](/cubie/a7a/hardware-use/microsd)                 |
+| ⑦   | [RTC Header](/cubie/a7a/hardware-use/rtc)                 | ⑭   | [MIPI DSI Connector](/cubie/a7a/hardware-use/mipi-dsi)               | ㉑  | [microSD Card Slot](/cubie/a7a/hardware-use/microsd)                 |
 
 - Power LED
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/download.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/download.md
index d869d7d82..c1a57f3f3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/download.md
@@ -7,13 +7,13 @@ sidebar_position: 150
 ## System Images
 
 :::tip For Beginners
-We strongly recommend that new users download the official Radxa OS GPT image and use the [Balena Etcher](./getting-started/install-system/sd-system.md) tool to install it onto a MicroSD card. This is the simplest and quickest way to get started.
+We strongly recommend that new users download the official Radxa OS GPT image and use the [Balena Etcher](./getting-started/install-system/sd-system.md) tool to install it onto a microSD card. This is the simplest and quickest way to get started.
 
 **Image Type Descriptions**
 
 - GPT System Image (Recommended for Beginners):
 
-  - Compatible with MicroSD cards or NVMe SSDs
+  - Compatible with microSD cards or NVMe SSDs
   - Uses the user-friendly Balena Etcher graphical tool
   - Supports `dd` command line flashing
   - Radxa's recommended image type with best compatibility
@@ -38,7 +38,7 @@ Suitable for all A733 SoC products, such as Cubie A7Z, Cubie A7A, etc. Beta vers
 
 :::
 
-Currently supports booting from MicroSD cards, eMMC modules, and UFS modules. NVMe/SSD boot requires flashing the SPI Nor Flash firmware.
+Currently supports booting from microSD cards, eMMC modules, and UFS modules. NVMe/SSD boot requires flashing the SPI Nor Flash firmware.
 
 - [Radxa Cubie A7A Debian 11 KDE R6 (Latest)](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r6/radxa-a733_bullseye_kde_r6.output_512.img.xz) (SD / eMMC)
 
@@ -68,7 +68,7 @@ This page contains legacy system images for Cubie A7A and is no longer updated.
 
 ### Android
 
-Compatible with MicroSD cards, eMMC modules, and UFS modules.
+Compatible with microSD cards, eMMC modules, and UFS modules.
 
 #### FEL System Image
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/faq.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/faq.md
index 2d44ee37c..b6ed34288 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/faq.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/faq.md
@@ -16,7 +16,7 @@ If using a standard system image, refer to the [Quick Start → Install System](
 
 - **Phoenix System Image**: Does not include a partition table and requires the Phoenix tool to flash the system image.
 
-If using a Phoenix system image, refer to the tutorials [Install System to MicroSD Card](./low-level-dev/install-system/sd-system) and [Low-Level Development → Install System in FEL Mode](./low-level-dev/install-system/fel-install-system/) based on your system boot medium.
+If using a Phoenix system image, refer to the tutorials [Install System to microSD Card](./low-level-dev/install-system/sd-system) and [Low-Level Development → Install System in FEL Mode](./low-level-dev/install-system/fel-install-system/) based on your system boot medium.
 
 First, confirm whether the installed system image is correct. If the system image is correct, you can use serial debugging to obtain system boot logs and troubleshoot based on the log information.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/README.md
index 5a29b1d0b..63d5ae6f8 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/README.md
@@ -12,4 +12,4 @@ Detailed instructions on the hardware and software preparation required for firs
 
 #### [System Installation](/cubie/a7a/getting-started/install-system)
 
-A comprehensive guide on how to install the operating system on Cubie A7A using different boot media (such as MicroSD cards, UFS modules, eMMC modules, etc.).
+A comprehensive guide on how to install the operating system on Cubie A7A using different boot media (such as microSD cards, UFS modules, eMMC modules, etc.).
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/README.md
index a946be856..e713433ce 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/README.md
@@ -4,11 +4,11 @@ sidebar_position: 2
 
 # Install System
 
-The Radxa Cubie A7A supports booting from three types of storage media: MicroSD cards, UFS modules, and eMMC modules. Users can choose the appropriate boot medium based on their needs.
+The Radxa Cubie A7A supports booting from three types of storage media: microSD cards, UFS modules, and eMMC modules. Users can choose the appropriate boot medium based on their needs.
 
 ### Storage Media Comparison:
 
-- **MicroSD Card**
+- **microSD Card**
 
   - Easier installation process, only requires a card reader
   - Slower read/write speeds compared to UFS and eMMC modules
@@ -16,18 +16,18 @@ The Radxa Cubie A7A supports booting from three types of storage media: MicroSD
 
 - **UFS Module**
 
-  - Faster read/write speeds than MicroSD cards and eMMC modules
+  - Faster read/write speeds than microSD cards and eMMC modules
   - Ideal for high-capacity storage (64GB ~ 1TB)
   - For detailed specifications, see the [Radxa UFS Module](https://radxa.com/products/accessories/ufs-module) product page
 
 - **eMMC Module**
-  - Faster read/write speeds than MicroSD cards
+  - Faster read/write speeds than microSD cards
   - Suitable for smaller capacity storage (8GB ~ 128GB)
   - For detailed specifications, see the [Radxa eMMC Module](https://radxa.com/products/accessories/emmc-module) product page
 
-#### [Install System to MicroSD Card](/cubie/a7a/getting-started/install-system/sd-system)
+#### [Install System to microSD Card](/cubie/a7a/getting-started/install-system/sd-system)
 
-This guide explains how to install the operating system on Cubie A7A using a MicroSD card.
+This guide explains how to install the operating system on Cubie A7A using a microSD card.
 
 #### [Install System to UFS Module](/cubie/a7a/getting-started/install-system/ufs-system)
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/emmc-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/emmc-system/README.md
index 0c5645e40..a76794e61 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/emmc-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/emmc-system/README.md
@@ -4,13 +4,13 @@ sidebar_position: 3
 
 # Install System to eMMC Module
 
-eMMC modules offer faster read/write speeds compared to MicroSD cards, making them an excellent choice for users looking to enhance their system's performance and boot times.
+eMMC modules offer faster read/write speeds compared to microSD cards, making them an excellent choice for users looking to enhance their system's performance and boot times.
 
 We provide two methods to install the system to an eMMC module:
 
 - **With Radxa eMMC/UFS Combo Module Reader**: Directly write the system image using the Radxa eMMC/UFS Combo Module Reader on your PC.
 
-- **Without Radxa eMMC/UFS Combo Module Reader**: Boot the system using a MicroSD card first, then use the `dd` command to install the system image to the eMMC module.
+- **Without Radxa eMMC/UFS Combo Module Reader**: Boot the system using a microSD card first, then use the `dd` command to install the system image to the eMMC module.
 
 For more information about the Radxa eMMC/UFS Combo Module Reader, please visit the [Radxa eMMC/UFS Combo Module Reader product page](https://radxa.com/products/accessories/emmc-ufs-module-reader).
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/emmc-system/no-reader.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/emmc-system/no-reader.md
index 62f951476..afe83beeb 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/emmc-system/no-reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/emmc-system/no-reader.md
@@ -6,7 +6,7 @@ sidebar_position: 3
 
 This guide explains how to install the system to an eMMC module without using an eMMC/UFS combo module reader.
 
-We'll be using the `dd` command to install the system image to the eMMC module while the Cubie A7A is booted from a MicroSD card.
+We'll be using the `dd` command to install the system image to the eMMC module while the Cubie A7A is booted from a microSD card.
 
 :::warning
 Installing the system will format the eMMC module. Please back up any important data in advance!
@@ -17,7 +17,7 @@ Installing the system will format the eMMC module. Please back up any important
 Prepare the following hardware in advance:
 
 - Mainboard: Radxa Cubie A7A
-- Boot media: MicroSD card with system image
+- Boot media: microSD card with system image
 - Target installation media: eMMC module
 - Power adapter: 5V Type-C power adapter
 
@@ -31,7 +31,7 @@ The Cubie A7A supports 5V power input with standard PD protocol. A power adapter
 
 ## Hardware Connection
 
-After confirming that the Cubie A7A has successfully booted from the MicroSD card, install the eMMC module into the eMMC/UFS combo module interface of the Cubie A7A.
+After confirming that the Cubie A7A has successfully booted from the microSD card, install the eMMC module into the eMMC/UFS combo module interface of the Cubie A7A.
 
 :::caution
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/README.md
index 18d0f4ab8..905376aeb 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/README.md
@@ -15,4 +15,4 @@ To use NVMe SSD as a boot system disk, you need to follow these steps and tutori
 You can choose different writing methods based on your hardware devices:
 
 - [Install System Using External Enclosure](./install-system/reader.md): Requires an NVMe SSD enclosure, relatively simple operation!
-- [Install System from SD Card to NVMe](./install-system/no-reader.md): Requires booting the system normally from MicroSD card, then use the `dd` command to install the system to NVMe SSD.
+- [Install System from SD Card to NVMe](./install-system/no-reader.md): Requires booting the system normally from microSD card, then use the `dd` command to install the system to NVMe SSD.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/install-system/no-reader.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/install-system/no-reader.md
index b505a1085..636e1923c 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/install-system/no-reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/install-system/no-reader.md
@@ -12,7 +12,7 @@ import InstallSystem from '../../../../../../common/radxa-os/install-system/\_us
 
 After completing the system installation, shut down the board, disconnect the power supply, and follow these steps to boot the system:
 
-① : Remove the MicroSD card from the board
+① : Remove the microSD card from the board
 
 ② : Install the NVMe SSD to the board through the PCIe FPC interface with an M.2 M Key HAT
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/install-system/reader.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/install-system/reader.md
index b8f5ed89f..1099bdcc6 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/install-system/reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/nvme-system/install-system/reader.md
@@ -12,7 +12,7 @@ import InstallSystem from '../../../../../../common/radxa-os/install-system/\_us
 
 After completing the system installation, shut down the board, disconnect the power supply, and follow these steps to boot the system:
 
-① : Remove the MicroSD card from the board
+① : Remove the microSD card from the board
 
 ② : Install the NVMe SSD to the board through the PCIe FPC interface with an M.2 M Key HAT
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/sd-system.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/sd-system.md
index f532db1a1..bb5d0822c 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/sd-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/sd-system.md
@@ -2,24 +2,24 @@
 sidebar_position: 1
 ---
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
-This guide explains how to install the operating system onto a MicroSD card.
+This guide explains how to install the operating system onto a microSD card.
 
 :::warning
-Installing the system will format the MicroSD card. Please back up any important data in advance!
+Installing the system will format the microSD card. Please back up any important data in advance!
 :::
 
 ## Hardware Requirements
 
 Prepare the following hardware in advance:
 
-- Boot media: MicroSD card
-- Card reader: MicroSD card reader
+- Boot media: microSD card
+- Card reader: microSD card reader
 
 ## Hardware Connection
 
-1. Insert the MicroSD card into the card reader
+1. Insert the microSD card into the card reader
 2. Connect the card reader to a USB port on your PC
 
 <div style={{textAlign: 'center'}}>
@@ -28,7 +28,7 @@ Prepare the following hardware in advance:
 
 ## Software Preparation
 
-Use the open-source image flashing tool Etcher to write the system image to the MicroSD card.
+Use the open-source image flashing tool Etcher to write the system image to the microSD card.
 
 ### Download System Image
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/ufs-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/ufs-system/README.md
index 0a6b989a0..d12515928 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/ufs-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/ufs-system/README.md
@@ -4,13 +4,13 @@ sidebar_position: 2
 
 # Install System to UFS Module
 
-UFS modules offer significantly faster read/write speeds compared to MicroSD cards and eMMC modules, making them an excellent choice for users looking to enhance system performance and boot times.
+UFS modules offer significantly faster read/write speeds compared to microSD cards and eMMC modules, making them an excellent choice for users looking to enhance system performance and boot times.
 
 We provide two methods to install the system to a UFS module:
 
 - **With Radxa eMMC/UFS Combo Module Reader**: For users who have the Radxa eMMC/UFS Combo Module Reader, you can directly write the system image from your PC.
 
-- **Without Radxa eMMC/UFS Combo Module Reader**: For users without the reader, you'll need to boot the system from a MicroSD card first, then use the `dd` command to install the system image to the UFS module.
+- **Without Radxa eMMC/UFS Combo Module Reader**: For users without the reader, you'll need to boot the system from a microSD card first, then use the `dd` command to install the system image to the UFS module.
 
 For more information about the Radxa eMMC/UFS Combo Module Reader, please visit the [official product page](https://radxa.com/products/accessories/emmc-ufs-module-reader).
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/ufs-system/no-reader.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/ufs-system/no-reader.md
index c435467a7..f40e4abee 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/ufs-system/no-reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/install-system/ufs-system/no-reader.md
@@ -6,7 +6,7 @@ sidebar_position: 3
 
 This guide explains how to install the system to a UFS module without using the Radxa eMMC/UFS Combo Module Reader.
 
-This method involves booting the Cubie A7A from a MicroSD card and then using the `dd` command to install the system image to the UFS module.
+This method involves booting the Cubie A7A from a microSD card and then using the `dd` command to install the system image to the UFS module.
 
 :::warning
 Installing the system will format the UFS module. Please back up any important data before proceeding!
@@ -17,7 +17,7 @@ Installing the system will format the UFS module. Please back up any important d
 Prepare the following hardware in advance:
 
 - Single Board Computer: Radxa Cubie A7A
-- Boot media: MicroSD card
+- Boot media: microSD card
 - Installation target: UFS module
 - Power adapter: 5V Type-C power adapter
 
@@ -31,7 +31,7 @@ The Cubie A7A supports 5V power input with PD protocol. A power adapter with 3A
 
 ## Hardware Connection
 
-After confirming that the Cubie A7A has successfully booted from the MicroSD card, install the UFS module into the eMMC/UFS combo module interface of the Cubie A7A.
+After confirming that the Cubie A7A has successfully booted from the microSD card, install the UFS module into the eMMC/UFS combo module interface of the Cubie A7A.
 
 :::caution
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/quickly-start.md
index e52840350..3c3f4e1d2 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/getting-started/quickly-start.md
@@ -22,7 +22,7 @@ This tutorial is designed to help you quickly get started with the Cubie A7A pro
 Prepare the following hardware components in advance: **Choose one of the optional hardware components**
 
 - Mainboard: Radxa Cubie A7A
-- Boot media: MicroSD card
+- Boot media: microSD card
 - Power adapter: 5V Type-C power adapter
 - USB-to-TTL serial cable (optional): For serial debugging and system login
 - HDMI cable and monitor (optional): For display output and GUI operation
@@ -49,10 +49,10 @@ Because the board's passive cooling is limited, the SoC may overheat and cause s
 
 You can install the system by following the tutorials below, based on your boot media and available hardware:
 
-- [Install System to MicroSD Card](./install-system/sd-system)
+- [Install System to microSD Card](./install-system/sd-system)
 
 :::tip Installing System to Other Boot Media
-Currently supports booting from MicroSD card, eMMC module and UFS module.
+Currently supports booting from microSD card, eMMC module and UFS module.
 
 NVMe SSD: Currently recognized and can be used as expanded storage, but cannot be used as boot media.
 
@@ -64,16 +64,16 @@ NVMe SSD: Currently recognized and can be used as expanded storage, but cannot b
 ## Booting the System
 
 :::tip
-If multiple boot media are installed in Cubie A7A, the system boot priority is: MicroSD Card > NVMe SSD > UFS Module > eMMC Module
+If multiple boot media are installed in Cubie A7A, the system boot priority is: microSD Card > NVMe SSD > UFS Module > eMMC Module
 :::
 
-After completing the system installation, install the corresponding boot media (such as MicroSD card / eMMC module / UFS module / NVMe SSD) to the corresponding interface of Cubie A7A.
+After completing the system installation, install the corresponding boot media (such as microSD card / eMMC module / UFS module / NVMe SSD) to the corresponding interface of Cubie A7A.
 
 <Tabs queryString="boot_system">
 
-<TabItem value="MicroSD Card">
+<TabItem value="microSD Card">
 
-Insert the MicroSD card into the MicroSD card slot of Cubie A7A.
+Insert the microSD card into the microSD card slot of Cubie A7A.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/cubie/a7a/a7a-microsd.webp" style={{width: '45%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/README.md
index 8b1d82c92..6699315ed 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/README.md
@@ -10,9 +10,9 @@ This section mainly introduces how to use the hardware of Cubie A7A.
 
 Mainly introduces the hardware interface information of Cubie A7A.
 
-#### [MicroSD Slot](/cubie/a7a/hardware-use/microsd)
+#### [microSD Slot](/cubie/a7a/hardware-use/microsd)
 
-Mainly introduces how to use the MicroSD slot of Cubie A7A.
+Mainly introduces how to use the microSD slot of Cubie A7A.
 
 #### [eMMC / UFS Module Interface](/cubie/a7a/hardware-use/emmc-ufs-com)
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/hardware-info.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/hardware-info.md
index beba174b3..20a4eb3a2 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/hardware-info.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/hardware-info.md
@@ -24,7 +24,7 @@ sidebar_position: 1
 | ④   | [Headphone Jack](/cubie/a7a/hardware-use/headphone)       | ⑪   | [PoE Interface](/cubie/a7a/hardware-use/ethernet)               | ⑱   | [Power Button](/cubie/a7a/hardware-use/power-key)                       |
 | ⑤   | [UBOOT Button](/cubie/a7a/hardware-use/uboot-key)         | ⑫   | WiFi 6 and Bluetooth 5.4                                        | ⑲   | [eMMC/UFS Combo Module Interface](/cubie/a7a/hardware-use/emmc-ufs-com) |
 | ⑥   | [USB 2.0 Type-A Port](/cubie/a7a/hardware-use/usb-type-a) | ⑬   | [40-Pin GPIO Header](/cubie/a7a/hardware-use/pin-gpio)          | ⑳   | [MIPI CSI Interface](/cubie/a7a/hardware-use/mipi-csi)                  |
-| ⑦   | [RTC Interface](/cubie/a7a/hardware-use/rtc)              | ⑭   | [MIPI DSI Interface](/cubie/a7a/hardware-use/mipi-dsi)          | ㉑  | [MicroSD Card Slot](/cubie/a7a/hardware-use/microsd)                    |
+| ⑦   | [RTC Interface](/cubie/a7a/hardware-use/rtc)              | ⑭   | [MIPI DSI Interface](/cubie/a7a/hardware-use/mipi-dsi)          | ㉑  | [microSD Card Slot](/cubie/a7a/hardware-use/microsd)                    |
 
 - **Power LED**
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/microsd.md
index af42f9bb2..bdebfebed 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/hardware-use/microsd.md
@@ -2,25 +2,25 @@
 sidebar_position: 1
 ---
 
-# MicroSD Slot
+# microSD Slot
 
-Radxa Cubie A7A features a standard onboard MicroSD slot, compatible with MicroSD / MicroSDHC / MicroSDXC cards, mainly used as a system boot disk or for expanded storage.
+Radxa Cubie A7A features a standard onboard microSD slot, compatible with microSD / microSDHC / microSDXC cards, mainly used as a system boot disk or for expanded storage.
 
-It is recommended to use a MicroSD card with a capacity of 32GB or above for better storage space.
+It is recommended to use a microSD card with a capacity of 32GB or above for better storage space.
 
 :::tip
-For the exact location of the MicroSD slot, please refer to the interface description section in the [Hardware Interfaces](./hardware-info) guide!
+For the exact location of the microSD slot, please refer to the interface description section in the [Hardware Interfaces](./hardware-info) guide!
 :::
 
 ## Usage Guide
 
-You can refer to the [Quick Start](../getting-started/quickly-start) or [Install System to MicroSD Card](../getting-started/install-system/sd-system) tutorial to install the system image onto a MicroSD card, then insert the MicroSD card into the MicroSD card slot to test if the system boots normally.
+You can refer to the [Quick Start](../getting-started/quickly-start) or [Install System to microSD Card](../getting-started/install-system/sd-system) tutorial to install the system image onto a microSD card, then insert the microSD card into the microSD card slot to test if the system boots normally.
 
 <Tabs queryString="boot_system">
 
-<TabItem value="MicroSD Card">
+<TabItem value="microSD Card">
 
-Insert the MicroSD card into the MicroSD slot of the Cubie A7A.
+Insert the microSD card into the microSD slot of the Cubie A7A.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/cubie/a7a/a7a-microsd.webp" style={{width: '45%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/low-level-dev/install-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/low-level-dev/install-system/README.md
index 40c1435ba..27547f231 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/low-level-dev/install-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/low-level-dev/install-system/README.md
@@ -6,9 +6,9 @@ sidebar_position: 0
 
 Introduction on how to use the Phoenix tool to install the system on Cubie A7A.
 
-#### [Install System to MicroSD Card](/cubie/a7a/low-level-dev/install-system/sd-system)
+#### [Install System to microSD Card](/cubie/a7a/low-level-dev/install-system/sd-system)
 
-Use the PhoenixCard tool to install the system to a MicroSD card.
+Use the PhoenixCard tool to install the system to a microSD card.
 
 #### [Install System in FEL Mode](/cubie/a7a/low-level-dev/install-system/fel-install-system)
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/low-level-dev/install-system/sd-system.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/low-level-dev/install-system/sd-system.md
index 54aa20660..d59e3e5bd 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/low-level-dev/install-system/sd-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/low-level-dev/install-system/sd-system.md
@@ -2,12 +2,12 @@
 sidebar_position: 1
 ---
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
-This section mainly describes how to install the system onto a MicroSD card.
+This section mainly describes how to install the system onto a microSD card.
 
 :::warning
-Installing the system will format the MicroSD card. Please back up any important data in advance!
+Installing the system will format the microSD card. Please back up any important data in advance!
 :::
 
 ## Hardware Preparation
@@ -15,8 +15,8 @@ Installing the system will format the MicroSD card. Please back up any important
 You need to prepare the following hardware in advance:
 
 - Board: Radxa Cubie A7A
-- System boot medium: MicroSD card
-- Card reader: MicroSD card reader
+- System boot medium: microSD card
+- Card reader: microSD card reader
 - Power adapter: 5V Type-C power adapter
 
 :::tip
@@ -31,11 +31,11 @@ The Cubie A7A board supports standard PD protocol 5V power input. A current of 3
 
 - Power Adapter
 
-After the system image is written to the MicroSD card, you can use a Type-C power adapter to power the Cubie A7A, avoiding insufficient power issues during later development.
+After the system image is written to the microSD card, you can use a Type-C power adapter to power the Cubie A7A, avoiding insufficient power issues during later development.
 
 ## Hardware Connection
 
-Insert the MicroSD card into the card reader, then plug the card reader into the PC's USB port.
+Insert the microSD card into the card reader, then plug the card reader into the PC's USB port.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -43,9 +43,9 @@ Insert the MicroSD card into the card reader, then plug the card reader into the
 
 ## Software Preparation
 
-To write the Phoenix system image to the MicroSD card, you need to use the tool provided by Allwinner. You can download the software from the [Resources Download](../../download) page.
+To write the Phoenix system image to the microSD card, you need to use the tool provided by Allwinner. You can download the software from the [Resources Download](../../download) page.
 
-**PhoenixCard**: A Windows-based tool that can be used to create a bootable MicroSD card.
+**PhoenixCard**: A Windows-based tool that can be used to create a bootable microSD card.
 
 ## Install System
 
@@ -55,7 +55,7 @@ Extract the downloaded PhoenixCard archive, enter the PhoenixCard directory, and
 
 ② : Select the `Start up` option, which means the card type to be created is a boot card
 
-③ : Check the disk option corresponding to the MicroSD card
+③ : Check the disk option corresponding to the microSD card
 
 ④ : Click the `Burn` button to start creating the bootable card
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/adb-debug.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/adb-debug.md
index eb05a5dcd..99a433bb4 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/adb-debug.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/adb-debug.md
@@ -17,7 +17,7 @@ Android SDK Platform-Tools includes tools like ADB (Android Debug Bridge) and Fa
 ## Hardware Requirements
 
 - Board: Radxa Cubie A7A
-- Boot media: MicroSD card, eMMC module, or UFS module (choose one)
+- Boot media: microSD card, eMMC module, or UFS module (choose one)
 - Power adapter: 5V Type-C power adapter
 - Type-C cable: For connecting the board to your computer
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/install-system.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/install-system.md
index 3c219c20e..05f54016b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/install-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/install-system.md
@@ -10,6 +10,6 @@ The process of installing the Android system on the Radxa Cubie A7A is similar t
 
 Refer to the following tutorials for installation:
 
-- [Install System to MicroSD Card](../../low-level-dev/install-system/sd-system)
+- [Install System to microSD Card](../../low-level-dev/install-system/sd-system)
 - [Install System to eMMC Module](../../low-level-dev/install-system/fel-install-system/emmc-system)
 - [Install System to UFS Module](../../low-level-dev/install-system/fel-install-system/ufs-system)
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/quickly-start.md
index 8c77f03a4..3f299a5da 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7a/other-system/android/quickly-start.md
@@ -22,7 +22,7 @@ This tutorial aims to help you quickly get started with the Android system on th
 You need to prepare the following hardware devices in advance. **Optional hardware is not mandatory!**
 
 - Mainboard: Radxa Cubie A7A
-- System boot medium: Supports MicroSD card, eMMC / UFS module (choose one system boot medium)
+- System boot medium: Supports microSD card, eMMC / UFS module (choose one system boot medium)
 - Power/Data cable: USB Type A to Type C data cable
 - Power adapter: 5V Type-C power adapter
 - USB serial data cable (optional): For serial debugging and system login
@@ -43,7 +43,7 @@ The Cubie A7A mainboard supports standard PD protocol 5V power input. A current
 
 - System Boot Medium
 
-Used to boot the Cubie A7A system. Supports MicroSD card, eMMC / UFS module (choose one system boot medium).
+Used to boot the Cubie A7A system. Supports microSD card, eMMC / UFS module (choose one system boot medium).
 
 - Power/Data Cable
 
@@ -70,16 +70,16 @@ You can refer to the following tutorial to install the system based on your syst
 ## Boot System
 
 :::tip
-If multiple system boot media are installed on the Cubie A7A, the system boot priority is: MicroSD card > eMMC or UFS module.
+If multiple system boot media are installed on the Cubie A7A, the system boot priority is: microSD card > eMMC or UFS module.
 :::
 
-After installing the system, insert the corresponding system boot medium (e.g., MicroSD card, eMMC module, UFS module) into the appropriate interface on the Cubie A7A.
+After installing the system, insert the corresponding system boot medium (e.g., microSD card, eMMC module, UFS module) into the appropriate interface on the Cubie A7A.
 
 <Tabs queryString="boot_system">
 
-<TabItem value="MicroSD Card">
+<TabItem value="microSD Card">
 
-Insert the MicroSD card into the MicroSD card slot of the Cubie A7A.
+Insert the microSD card into the microSD card slot of the Cubie A7A.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/cubie/a7a/a7a-microsd.webp" style={{width: '45%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/README.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/README.md
index 3902a6f7c..406f644e3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/README.md
@@ -34,7 +34,7 @@ With its compact size and powerful performance, it can efficiently handle comple
 | --------------------- | ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | Processor             | SoC: Allwinner A733 <br/> CPU: 2x Cortex-A76 + 6x Cortex-A55 <br/> GPU: Imagination BXM-4-64 MC1, supports OpenGL ES 3.2, Vulkan 1.3, OpenCL 3.0 <br/> NPU: 3 TOPS@INT8 AI acceleration engine                                                                          |
 | Memory                | LPDDR4/4x, options: 1GB / 2GB / 4GB / 8GB / 16GB                                                                                                                                                                                                                        |
-| Storage               | Onboard: Optional UFS module (up to 1TB) <br/> Expandable: MicroSD card slot                                                                                                                                                                                            |
+| Storage               | Onboard: Optional UFS module (up to 1TB) <br/> Expandable: microSD card slot                                                                                                                                                                                            |
 | Networking            | Onboard Wi-Fi 6, Bluetooth 5.4 chip, external antenna supported for enhanced signal                                                                                                                                                                                     |
 | Video Output          | 1x Micro HDMI port, supports up to 4K@60fps <br/> 1x USB-C 3.0 port with DisplayPort Alt Mode support for external high-definition displays                                                                                                                             |
 | Camera                | 1x 4-lane MIPI CSI (can be split into 2x 2-lane MIPI CSI)                                                                                                                                                                                                               |
@@ -56,7 +56,7 @@ With its compact size and powerful performance, it can efficiently handle comple
 | ①   | USB-C 2.0 OTG & Power Port       | ⑥   | Antenna Connector         | ⑪   | PCIe 3.0 FPC Connector |
 | ②   | USB-C 3.1 OTG & DP Alt Mode Port | ⑦   | WiFi 6 / BT5 Module       | ⑫   | 40-Pin GPIO Interface  |
 | ③   | Allwinner A733 SoC               | ⑧   | 4-lane MIPI CSI Interface | ⑬   | LPDDR4/4x RAM          |
-| ④   | Micro HDMI Port                  | ⑨   | Onboard UFS               | ⑭   | MicroSD Card Slot      |
+| ④   | Micro HDMI Port                  | ⑨   | Onboard UFS               | ⑭   | microSD Card Slot      |
 | ⑤   | Fan Connector                    | ⑩   | U-Boot Button             |     |                        |
 
 - Power Indicator
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/download.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/download.md
index befb9affb..619d1c5d2 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/download.md
@@ -7,13 +7,13 @@ sidebar_position: 150
 ## System Images
 
 :::tip For Beginners
-We strongly recommend that new users download the official Radxa OS GPT image and use the [Balena Etcher](./getting-started/install-system/microsd.md) tool to install it onto a MicroSD card. This is the simplest and quickest way to get started.
+We strongly recommend that new users download the official Radxa OS GPT image and use the [Balena Etcher](./getting-started/install-system/microsd.md) tool to install it onto a microSD card. This is the simplest and quickest way to get started.
 
 **Image Type Descriptions**
 
 - GPT System Image (Recommended for Beginners):
 
-  - Compatible with MicroSD cards or NVMe SSDs
+  - Compatible with microSD cards or NVMe SSDs
   - Uses the user-friendly Balena Etcher graphical tool
   - Supports `dd` command line flashing
   - Radxa's recommended image type with best compatibility
@@ -38,7 +38,7 @@ Suitable for all A733 SoC products, such as Cubie A7Z, Cubie A7A, etc. Beta vers
 
 :::
 
-Currently supports booting from MicroSD cards, eMMC modules, and UFS modules. NVMe/SSD boot requires flashing the SPI Nor Flash firmware.
+Currently supports booting from microSD cards, eMMC modules, and UFS modules. NVMe/SSD boot requires flashing the SPI Nor Flash firmware.
 
 - [Radxa Cubie A7Z Debian 11 KDE R6 (Latest)](https://github.com/radxa-build/radxa-a733/releases/download/rsdk-r6/radxa-a733_bullseye_kde_r6.output_512.img.xz) (SD / eMMC)
 
@@ -62,7 +62,7 @@ This page contains legacy system images for Cubie A7Z and is no longer updated.
 
 ### Android
 
-Compatible with MicroSD cards / UFS modules.
+Compatible with microSD cards / UFS modules.
 
 #### FEL System Image
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/getting-started/install-system/microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/getting-started/install-system/microsd.md
index 696497836..085fc9c2b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/getting-started/install-system/microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/getting-started/install-system/microsd.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import BalenaEtcherUse from '../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 <BalenaEtcherUse />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/getting-started/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/getting-started/quickly-start.md
index 6b5dc1a82..a4409abbb 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/getting-started/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/getting-started/quickly-start.md
@@ -20,7 +20,7 @@ This tutorial is designed to help you get started quickly with the Cubie A7Z mot
 You will need to prepare the following hardware:
 
 - Motherboard: Radxa Cubie A7Z
-- System Boot Media: MicroSD Card (Recommended)
+- System Boot Media: microSD Card (Recommended)
 - Power Adapter: 5V USB-C Power Adapter
 
 :::tip Recommended Accessories
@@ -39,7 +39,7 @@ Because the board's passive cooling is limited, the SoC may overheat and cause s
 
 Based on your system boot media and available hardware, please refer to the following tutorials for system installation:
 
-- [Install System to MicroSD Card](./install-system/microsd)
+- [Install System to microSD Card](./install-system/microsd)
 - [Install System to Onboard UFS](./install-system/ufs)
 
 ## Booting the System
@@ -47,9 +47,9 @@ Based on your system boot media and available hardware, please refer to the foll
 After completing the system installation, you need to install the corresponding system boot media on the Cubie A7Z.
 
 <Tabs queryString="system boot">
-<TabItem value="MicroSD Card">
+<TabItem value="microSD Card">
 
-Insert the MicroSD card into the Cubie A7Z's MicroSD card slot, then connect the Cubie A7Z to a 5V USB-C power adapter to boot the system.
+Insert the microSD card into the Cubie A7Z's microSD card slot, then connect the Cubie A7Z to a 5V USB-C power adapter to boot the system.
 
 <div style={{textAlign: 'center'}}>
    <img src="/en/img/cubie/a7z/a7z-microsd-boot.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/hardware-use/hardware-info.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/hardware-use/hardware-info.md
index 80fbf7a6f..a77881aad 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/hardware-use/hardware-info.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/hardware-use/hardware-info.md
@@ -23,7 +23,7 @@ This section provides an overview of the hardware interfaces on the Cubie A7Z.
 | ①   | USB-C 2.0 OTG & Power Port       | ⑥   | Antenna Connector         | ⑪   | PCIe 3.0 FPC Connector |
 | ②   | USB-C 3.1 OTG & DP Alt Mode Port | ⑦   | WiFi 6 / BT5 Module       | ⑫   | 40-Pin GPIO Header     |
 | ③   | Allwinner A733 SoC               | ⑧   | 4-lane MIPI CSI Connector | ⑬   | LPDDR4/4x RAM          |
-| ④   | Micro HDMI Port                  | ⑨   | Onboard UFS               | ⑭   | MicroSD Card Slot      |
+| ④   | Micro HDMI Port                  | ⑨   | Onboard UFS               | ⑭   | microSD Card Slot      |
 | ⑤   | Fan Connector                    | ⑩   | U-Boot Button             |     |                        |
 
 - Power Indicator
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/hardware-use/microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/hardware-use/microsd.md
index ca5797d3c..4c166dbd5 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/hardware-use/microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/hardware-use/microsd.md
@@ -2,25 +2,25 @@
 sidebar_position: 3
 ---
 
-# MicroSD Card Slot
+# microSD Card Slot
 
-The Radxa Cubie A7Z features a standard onboard MicroSD card slot, compatible with MicroSD / MicroSDHC / MicroSDXC cards, primarily used as a system boot drive or for expanding storage space.
+The Radxa Cubie A7Z features a standard onboard microSD card slot, compatible with microSD / microSDHC / microSDXC cards, primarily used as a system boot drive or for expanding storage space.
 
-For optimal storage performance, it is recommended to use a MicroSD card with a capacity of 32GB or higher.
+For optimal storage performance, it is recommended to use a microSD card with a capacity of 32GB or higher.
 
 :::info Interface Location
-For the specific location of the MicroSD card slot, please refer to the interface description section in the [Hardware Interface](./hardware-info) tutorial!
+For the specific location of the microSD card slot, please refer to the interface description section in the [Hardware Interface](./hardware-info) tutorial!
 :::
 
 ## Usage Guide
 
-You can follow the [Quick Start](../getting-started/quickly_start) or [Install System to MicroSD Card](../getting-started/install-system/microsd) tutorials to install the system image onto a MicroSD card. After installation, insert the MicroSD card into the slot and test if the system boots normally.
+You can follow the [Quick Start](../getting-started/quickly_start) or [Install System to microSD Card](../getting-started/install-system/microsd) tutorials to install the system image onto a microSD card. After installation, insert the microSD card into the slot and test if the system boots normally.
 
 <Tabs queryString="boot_system">
 
-<TabItem value="MicroSD Card">
+<TabItem value="microSD Card">
 
-Insert the MicroSD card into the Cubie A7Z's MicroSD card slot.
+Insert the microSD card into the Cubie A7Z's microSD card slot.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/cubie/a7z/a7z-microsd-boot.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/adb-debug.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/adb-debug.md
index 4682d7e32..59d3bbead 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/adb-debug.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/adb-debug.md
@@ -17,7 +17,7 @@ It bundles ADB, Fastboot, and other tools, and is available for Linux, Windows,
 ## Hardware Requirements
 
 - Board: Radxa Cubie A7Z
-- Boot media: MicroSD card or onboard UFS
+- Boot media: microSD card or onboard UFS
 - Type‑C data cable to connect the board and PC
 
 Ensure the Cubie A7Z has already booted into Android; otherwise ADB cannot connect.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/install-system/sd-system.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/install-system/sd-system.md
index de8a1d577..cf52f9c18 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/install-system/sd-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/install-system/sd-system.md
@@ -2,12 +2,12 @@
 sidebar_position: 1
 ---
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
-This section explains how to deploy the Android system onto a MicroSD card.
+This section explains how to deploy the Android system onto a microSD card.
 
 :::warning
-Flashing the image will format the MicroSD card. Back up any important data in advance!
+Flashing the image will format the microSD card. Back up any important data in advance!
 :::
 
 ## Hardware Checklist
@@ -15,8 +15,8 @@ Flashing the image will format the MicroSD card. Back up any important data in a
 Prepare the following items:
 
 - Board: Radxa Cubie A7Z
-- Boot media: MicroSD card
-- Card reader: MicroSD card reader
+- Boot media: microSD card
+- Card reader: microSD card reader
 - Power supply: 5 V USB Type‑C adapter
 
 :::tip Recommended accessory
@@ -28,11 +28,11 @@ Prepare the following items:
 
 Cubie A7Z accepts PD-compliant 5 V input; use an adapter capable of at least 3 A to keep peripherals stable.
 
-- **Power adapter**: Once the image has been written to the MicroSD card, power the board via a USB‑C adapter to avoid power shortages during development.
+- **Power adapter**: Once the image has been written to the microSD card, power the board via a USB‑C adapter to avoid power shortages during development.
 
 ## Connect the Hardware
 
-Insert the MicroSD card into the reader, then plug the reader into your PC.
+Insert the microSD card into the reader, then plug the reader into your PC.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -40,9 +40,9 @@ Insert the MicroSD card into the reader, then plug the reader into your PC.
 
 ## Software Preparation
 
-You need Allwinner’s Phoenix utilities to flash the Phoenix-format Android image to the MicroSD card. Download them from the [Resources download page](../../../download).
+You need Allwinner’s Phoenix utilities to flash the Phoenix-format Android image to the microSD card. Download them from the [Resources download page](../../../download).
 
-**PhoenixCard**: Windows utility for creating bootable MicroSD cards.
+**PhoenixCard**: Windows utility for creating bootable microSD cards.
 
 ## Flash the System
 
@@ -50,7 +50,7 @@ Unzip PhoenixCard, open the directory, and run `PhoenixCard.exe` as Administrato
 
 1. Choose **Image** and select the decompressed system image file.
 2. Set the card type to **Start up** to build a bootable card.
-3. Tick the drive letter that corresponds to your MicroSD card.
+3. Tick the drive letter that corresponds to your microSD card.
 4. Click **Burn** to start writing.
 
 <div style={{textAlign: 'center'}}>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/quickly-start.md
index 083ee3847..7b4d822c3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/cubie/a7z/other-system/android/quickly-start.md
@@ -20,8 +20,8 @@ This tutorial helps you get up and running with the Cubie A7Z Android system as
 Prepare the following hardware:
 
 - Board: Radxa Cubie A7Z
-- Boot media: MicroSD card
-- Card reader: MicroSD card reader
+- Boot media: microSD card
+- Card reader: microSD card reader
 - Power adapter: 5 V Type‑C adapter
 
 :::tip Recommended accessory
@@ -31,7 +31,7 @@ Prepare the following hardware:
 
 ## Hardware Setup
 
-Insert the MicroSD card into the reader, then plug the reader into the PC’s USB port.
+Insert the microSD card into the reader, then plug the reader into the PC’s USB port.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -39,9 +39,9 @@ Insert the MicroSD card into the reader, then plug the reader into the PC’s US
 
 ## Software Preparation
 
-Use Allwinner’s Phoenix tool to flash the Android image to the MicroSD card. Download it from the [Resources download page](../../download).
+Use Allwinner’s Phoenix tool to flash the Android image to the microSD card. Download it from the [Resources download page](../../download).
 
-**PhoenixCard**: Windows utility for creating bootable MicroSD cards.
+**PhoenixCard**: Windows utility for creating bootable microSD cards.
 
 ## Install the System
 
@@ -51,7 +51,7 @@ Unzip PhoenixCard, open the directory, and run `PhoenixCard.exe` as Administrato
 
 2. Choose **Start up** to build a bootable card.
 
-3. Select the drive letter of the MicroSD card.
+3. Select the drive letter of the microSD card.
 
 4. Click **Burn** to write the image.
 
@@ -59,11 +59,11 @@ Unzip PhoenixCard, open the directory, and run `PhoenixCard.exe` as Administrato
   <img src="/en/img/cubie/a7a/a7a-phoenixcard-windows.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-After the burn completes, close PhoenixCard and insert the MicroSD card into the Cubie A7Z to boot Android.
+After the burn completes, close PhoenixCard and insert the microSD card into the Cubie A7Z to boot Android.
 
 ## Boot the System
 
-After flashing, insert the MicroSD card into the Cubie A7Z slot and connect a 5 V USB‑C power adapter to boot Android.
+After flashing, insert the microSD card into the Cubie A7Z slot and connect a 5 V USB‑C power adapter to boot Android.
 
 <div style={{textAlign: 'center'}}>
    <img src="/en/img/cubie/a7z/a7z-microsd-boot.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/README.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/README.md
index eb0dcb3a1..fc3d5d525 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/README.md
@@ -26,7 +26,7 @@ The Dragon Q6A is equipped with the Qualcomm QCS6490 SoC, featuring a “1+3+4
 | :------------ | :------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | Core Platform | System-on-Chip (SoC): Qualcomm QCS6490 <br/> Central Processing Unit (CPU): 1x Kryo Gold Plus @2.7GHz + 3x Kryo Gold @2.4GHz + 4x Kryo Silver @1.9GHz <br/> Graphics Processing Unit (GPU): Qualcomm® Adreno 643, supporting OpenGL ES 3.2, Vulkan 1.3, OpenCL 2.2, DirectX 12 <br/> AI Accelerator: Hexagon DSP + Hexagon Tensor Accelerator, with a combined AI computing power of up to 12 TOPS <br/> Video Processing Unit (VPU): Supports up to 4K@60fps decoding (H.264/H.265/VP9) and 4K@30fps encoding (H.264/H.265), with HDR10/HDR10+ playback capability |
 | Memory        | LPDDR5, Options: 4GB / 6GB / 8GB / 12GB / 16GB                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                       |
-| Storage       | Boot Storage: Onboard 32MB QSPI Nor Flash <br/> Expandable Storage: Supports MicroSD card / eMMC module / UFS module / M.2 M Key 2230 NVMe SSD                                                                                                                                                                                                                                                                                                                                                                                                                       |
+| Storage       | Boot Storage: Onboard 32MB QSPI Nor Flash <br/> Expandable Storage: Supports microSD card / eMMC module / UFS module / M.2 M Key 2230 NVMe SSD                                                                                                                                                                                                                                                                                                                                                                                                                       |
 | Networking    | Wired Connection: 1x Gigabit Ethernet port (PoE support requires an external PoE HAT) <br/> Wireless Connection: Wi-Fi 6, Bluetooth 5.4 (requires external antenna)                                                                                                                                                                                                                                                                                                                                                                                                  |
 | Video Output  | HDMI: 1x HDMI port, supporting up to 4K@30Hz <br/> MIPI DSI: 1x 4-lane MIPI DSI                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      |
 | Camera        | 1x 4-lane MIPI CSI <br/> 2x 2-lane MIPI CSI                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          |
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/download.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/download.md
index 0b2d29725..edff196c9 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/download.md
@@ -18,7 +18,7 @@ This page hosts the latest official and test system images. Test releases begin
 
 **Note**: When using R1 or higher version system images, please use [SPI boot firmware](#boot-firmware) version 20251230 or newer.
 
-- [radxa-dragon-q6a_noble_gnome_r2.output_512.img.xz](https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-r2/radxa-dragon-q6a_noble_gnome_r2.output_512.img.xz): For booting from MicroSD card / USB drive / eMMC / NVMe
+- [radxa-dragon-q6a_noble_gnome_r2.output_512.img.xz](https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-r2/radxa-dragon-q6a_noble_gnome_r2.output_512.img.xz): For booting from microSD card / USB drive / eMMC / NVMe
 - [radxa-dragon-q6a_noble_gnome_r2.output_4096.img.xz](https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-r2/radxa-dragon-q6a_noble_gnome_r2.output_4096.img.xz): For booting from UFS
 
 :::note Usage note
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/emmc-system/no-emmc-reader.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/emmc-system/no-emmc-reader.md
index 36ea188bb..adb47164e 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/emmc-system/no-emmc-reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/emmc-system/no-emmc-reader.md
@@ -4,13 +4,13 @@ sidebar_position: 4
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_emmc.mdx';
 
-# Booting from MicroSD Card and Installing System to eMMC
+# Booting from microSD Card and Installing System to eMMC
 
 <InstallSystem tag="emmc_module" board="dragon-q6a" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-t4/radxa-dragon-q6a_noble_kde_t4.output_512.img.xz" path_to_image_unxz="radxa-dragon-q6a_noble_kde_t4.output_512.img.xz" path_to_image="radxa-dragon-q6a_noble_kde_t4.output_512.img" />
 
 ## Booting the System
 
-After completing the system installation, remove the MicroSD card, ensure the eMMC module is properly installed in the eMMC module interface of the Dragon Q6A, then power on the Dragon Q6A using a 12V Type-C power adapter.
+After completing the system installation, remove the microSD card, ensure the eMMC module is properly installed in the eMMC module interface of the Dragon Q6A, then power on the Dragon Q6A using a 12V Type-C power adapter.
 
 <div style={{textAlign: 'center'}}>
    <img src="/en/img/dragon/q6a/dragon-q6a-boot-system-emmc.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/nvme-system/no-nvme-reader.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/nvme-system/no-nvme-reader.md
index 0c853fbcd..3e5146ea9 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/nvme-system/no-nvme-reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/nvme-system/no-nvme-reader.md
@@ -4,13 +4,13 @@ sidebar_position: 2
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_nvme.mdx';
 
-# Booting from MicroSD Card and Installing System to NVMe SSD
+# Booting from microSD Card and Installing System to NVMe SSD
 
 <InstallSystem tag="m2_2230" board="dragon-q6a" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-t4/radxa-dragon-q6a_noble_kde_t4.output_512.img.xz" path_to_image_unxz="radxa-dragon-q6a_noble_kde_t4.output_512.img.xz" path_to_image="radxa-dragon-q6a_noble_kde_t4.output_512.img" />
 
 ## Booting the System
 
-After completing the system installation, remove the MicroSD card, ensure the NVMe SSD is properly installed in the NVMe SSD slot of the Dragon Q6A, then power on the Dragon Q6A using a 12V Type-C power adapter.
+After completing the system installation, remove the microSD card, ensure the NVMe SSD is properly installed in the NVMe SSD slot of the Dragon Q6A, then power on the Dragon Q6A using a 12V Type-C power adapter.
 
 <div style={{textAlign: 'center'}}>
    <img src="/en/img/dragon/q6a/dragon-q6a-boot-system-nvme.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/sd-system.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/sd-system.md
index 5047a19c4..4e0987d18 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/sd-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/sd-system.md
@@ -4,19 +4,19 @@ sidebar_position: 1
 
 import BalenaEtcherUse from '../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 <BalenaEtcherUse />
 
 ## Booting the System
 
-After completing the system installation, insert the MicroSD card into the MicroSD card slot of the Dragon Q6A, then power on the Dragon Q6A using the 12V Type-C power adapter to boot the system.
+After completing the system installation, insert the microSD card into the microSD card slot of the Dragon Q6A, then power on the Dragon Q6A using the 12V Type-C power adapter to boot the system.
 
 <div style={{textAlign: 'center'}}>
    <img src="/en/img/dragon/q6a/dragon-q6a-boot-system.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-① : Insert the MicroSD card
+① : Insert the microSD card
 
 ② : Connect the monitor to the board using an HDMI cable
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/ufs-system/no-ufs-reader.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/ufs-system/no-ufs-reader.md
index 0fac55ef8..f11b7038c 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/ufs-system/no-ufs-reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/ufs-system/no-ufs-reader.md
@@ -4,13 +4,13 @@ sidebar_position: 4
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_ufs.mdx';
 
-# Boot from MicroSD Card and Install System to UFS
+# Boot from microSD Card and Install System to UFS
 
 <InstallSystem tag="ufs_module" board="dragon-q6a" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-dragon-q6a/releases/download/rsdk-t4/radxa-dragon-q6a_noble_kde_t4.output_4096.img.xz" path_to_image_unxz="radxa-dragon-q6a_noble_kde_t4.output_4096.img.xz" path_to_image="radxa-dragon-q6a_noble_kde_t4.output_4096.img" />
 
 ## Booting the System
 
-After completing the system installation, remove the MicroSD card, ensure the UFS module is properly installed in the UFS module interface of the Dragon Q6A, then power on the Dragon Q6A using the 12V Type-C power adapter.
+After completing the system installation, remove the microSD card, ensure the UFS module is properly installed in the UFS module interface of the Dragon Q6A, then power on the Dragon Q6A using the 12V Type-C power adapter.
 
 <div style={{textAlign: 'center'}}>
    <img src="/en/img/dragon/q6a/dragon-q6a-boot-system-ufs.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/usb-system/usb-microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/usb-system/usb-microsd.md
index e3b999a0a..3d37b9a53 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/usb-system/usb-microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/install-system/usb-system/usb-microsd.md
@@ -9,13 +9,13 @@ imports_resolve_to:
 
 import USBSystem from '../../../../../common/radxa-os/install-system/qualcomm/\_usb_flash_system.mdx';
 
-# Flash System Image to MicroSD Card
+# Flash System Image to microSD Card
 
-This guide explains how to flash a system image to a MicroSD card using a USB Type-A to Type-A cable.
+This guide explains how to flash a system image to a microSD card using a USB Type-A to Type-A cable.
 
 ## Prerequisites
 
-1. Insert the MicroSD card into the board's MicroSD card slot
+1. Insert the microSD card into the board's microSD card slot
 
 2. Put the board into EDL mode and connect it to your computer using a USB Type-A to Type-A cable --> Refer to the [Entering EDL Mode](./edl-mode) guide
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/quickly-start.md
index df8d5cb72..0c97e3348 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/getting-started/quickly-start.md
@@ -22,7 +22,7 @@ Before you begin, please prepare the following hardware:
 
 - Board: Radxa Dragon Q6A
 - Power Supply: 12V Type-C Power Adapter (PD compatible)
-- Boot Media: MicroSD Card (for system installation and booting)
+- Boot Media: microSD Card (for system installation and booting)
 - Display: HDMI cable and monitor
 - Input Devices: Keyboard and mouse (for GUI operation)
 - Debug Tool (Optional): USB to UART cable (for serial console access)
@@ -36,22 +36,22 @@ Before you begin, please prepare the following hardware:
 
 ## System Installation
 
-This section explains how to install the system on a MicroSD card.
+This section explains how to install the system on a microSD card.
 
 :::warning Important Notice
 
-**Installing the system will completely format your MicroSD card, and all data will be permanently deleted!**
+**Installing the system will completely format your microSD card, and all data will be permanently deleted!**
 
 Before proceeding, please confirm:
 
-- There is no important data on the MicroSD card, or you have backed up all important data
+- There is no important data on the microSD card, or you have backed up all important data
 - You have selected the correct storage device to avoid formatting other disks
 
 :::
 
 ## Hardware Connection
 
-Insert the MicroSD card into a card reader, then connect the card reader to your computer.
+Insert the microSD card into a card reader, then connect the card reader to your computer.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -72,7 +72,7 @@ The downloaded file is in `.img.xz` compressed format. You need to extract it to
 
 ### Install System Image
 
-Use Balena Etcher software to write the system image to the MicroSD card.
+Use Balena Etcher software to write the system image to the microSD card.
 
 :::tip Balena Etcher
 
@@ -93,7 +93,7 @@ Click the `Flash from file` button and select the extracted system image file.
 
 #### Select Storage Device
 
-Click the `Select target` button and choose your MicroSD card device.
+Click the `Select target` button and choose your microSD card device.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -111,7 +111,7 @@ Click the `Select target` button and choose your MicroSD card device.
 
 #### Start Flashing
 
-Click the `Flash!` button to begin writing the system image to the MicroSD card.
+Click the `Flash!` button to begin writing the system image to the microSD card.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -146,13 +146,13 @@ Click the `Flash!` button to begin writing the system image to the MicroSD card.
 
 ## Booting the System
 
-After completing the system installation, insert the MicroSD card into the Dragon Q6A's MicroSD card slot, then power on the Dragon Q6A using the 12V Type-C power adapter to boot the system.
+After completing the system installation, insert the microSD card into the Dragon Q6A's microSD card slot, then power on the Dragon Q6A using the 12V Type-C power adapter to boot the system.
 
 <div style={{textAlign: 'center'}}>
    <img src="/en/img/dragon/q6a/dragon-q6a-boot-system.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-① : Insert the MicroSD card
+① : Insert the microSD card
 
 ② : Connect the monitor to the board using an HDMI cable
 
@@ -182,13 +182,13 @@ After successfully booting the system, you can start using the Radxa system on y
 :::tip Alternative Boot Methods
 For users who want to boot the system using other methods (such as eMMC, UFS, or NVMe SSD), please refer to the following guides for installing the system on different boot media:
 
-- [Install System to MicroSD Card](./install-system/sd-system.md)
+- [Install System to microSD Card](./install-system/sd-system.md)
 - [Install System to USB Drive](./install-system/udisk-system.md)
 - [Install System to UFS](./install-system/ufs-system/)
 - [Install System to eMMC](./install-system/emmc-system/)
 - [Install System to NVMe SSD](./install-system/nvme-system/)
 
-Boot priority: USB > MicroSD > NVMe SSD > eMMC Module > UFS Module
+Boot priority: USB > microSD > NVMe SSD > eMMC Module > UFS Module
 
 :::
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/hardware-use/microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/hardware-use/microsd.md
index 9439914c1..3e6b73863 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/hardware-use/microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/dragon/q6a/hardware-use/microsd.md
@@ -2,13 +2,13 @@
 sidebar_position: 3
 ---
 
-# MicroSD Card Slot
+# microSD Card Slot
 
-The Radxa Dragon Q6A features an onboard MicroSD card slot compatible with MicroSD/MicroSDHC/MicroSDXC cards, which can be used as a system boot drive or for expanded storage.
+The Radxa Dragon Q6A features an onboard microSD card slot compatible with microSD/microSDHC/microSDXC cards, which can be used as a system boot drive or for expanded storage.
 
 ## Hardware Connection
 
-Insert the MicroSD card into the MicroSD card slot on the Radxa Dragon Q6A.
+Insert the microSD card into the microSD card slot on the Radxa Dragon Q6A.
 
 :::tip Interface Location
 Refer to the [Hardware Information](./hardware-info) tutorial to locate the corresponding hardware interface.
@@ -16,15 +16,15 @@ Refer to the [Hardware Information](./hardware-info) tutorial to locate the corr
 
 ## Usage Guide
 
-The MicroSD card can be used as a system boot media or as extended storage space.
+The microSD card can be used as a system boot media or as extended storage space.
 
 ### System Boot Media
 
-When a MicroSD card contains a normally functioning system, the Radxa Dragon Q6A will default to booting the system from the MicroSD card.
+When a microSD card contains a normally functioning system, the Radxa Dragon Q6A will default to booting the system from the microSD card.
 
 ### Expanded Storage Space
 
-If the MicroSD card does not contain a system or the system is booted from another boot media, the MicroSD card will function as expanded storage space.
+If the microSD card does not contain a system or the system is booted from another boot media, the microSD card will function as expanded storage space.
 
 ## Interface Pin Definitions
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e20c/getting-started/install-os/boot_from_sd_card.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e20c/getting-started/install-os/boot_from_sd_card.md
index da784ea42..25da8a3a6 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e20c/getting-started/install-os/boot_from_sd_card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e20c/getting-started/install-os/boot_from_sd_card.md
@@ -11,23 +11,23 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Install the system on the MicroSD card
+# Install the system on the microSD card
 
 ## File download
 
 Please refer to [download](../../download) to download the system os image.
 
-## MicroSD card preparation
+## microSD card preparation
 
-Insert the MicroSD Card into the MicroSD Card Reader, and then insert Reader into the USB port of your PC.
+Insert the microSD Card into the microSD Card Reader, and then insert Reader into the USB port of your PC.
 
-## Install os on MicroSD Card
+## Install os on microSD Card
 
 <Etcher/>
 
 ## Boot the system
 
-After successfully installed OS in the MicroSD Card, insert the MicroSD Card into the MicroSD Card slot (as shown in the picture below), then power on the system, the system will start to boot up, and the power indicator will start to blink.
+After successfully installed OS in the microSD Card, insert the microSD Card into the microSD Card slot (as shown in the picture below), then power on the system, the system will start to boot up, and the power indicator will start to blink.
 
 <img src="/img/e/e20c/radxa-e20c-insert-sd.webp" width="500" alt="radxa-e20c pack" />
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e20c/getting-started/quick-start.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e20c/getting-started/quick-start.md
index 39c6c9b41..69dbd5563 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e20c/getting-started/quick-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e20c/getting-started/quick-start.md
@@ -30,7 +30,7 @@ E20C with onBoard EMMC is equipped with a pre-installed system [istoreos](../ist
 
 <TabItem value="withoutemmc" label="without onBoard EMMC">
 
-Prepare the MicroSD card, and refer to [Install System](./install-os/) to install the operating system.
+Prepare the microSD card, and refer to [Install System](./install-os/) to install the operating system.
 
 </TabItem>
 </Tabs>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/README.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/README.md
index 529bfe3f5..94ea63f20 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/README.md
@@ -60,7 +60,7 @@ The bare board version of the Radxa E24C offers more peripheral interfaces compa
 | Memory (Capacity Optional) | 1GB/2GB/4GB, LPDDR4                                                                              |
 | Onboard eMMC (Optional)    | 8GB/16GB/32GB, eMMC 5.1 standard; Models without eMMC include SPI Nor Flash; mutually exclusive. |
 | SPI Nor Flash (Optional)   | 16MB SPI Nor Flash; Only on models without eMMC                                                  |
-| Expandable Storage         | MicroSD card slot (supports UHS-I)                                                               |
+| Expandable Storage         | microSD card slot (supports UHS-I)                                                               |
 | High-speed Storage         | M.2 PCIe 2.1 NVMe SSD interface (supports 2280 form factor)                                      |
 | **Networking**             |                                                                                                  |
 | Ethernet                   | 4x Gigabit Ethernet ports (WAN/LAN configurable)                                                 |
@@ -78,7 +78,7 @@ The bare board version of the Radxa E24C offers more peripheral interfaces compa
 | Operating Temperature      | 0°C ~ 70°C                                                                                       |
 | **Software Support**       |                                                                                                  |
 | Operating Systems          | Debian Linux, OpenWrt, and more                                                                  |
-| Boot Options               | Boot from MicroSD, eMMC, NVMe SSD, or SPI Nor Flash (some models)                                |
+| Boot Options               | Boot from microSD, eMMC, NVMe SSD, or SPI Nor Flash (some models)                                |
 
 ## Interface Layout
 
@@ -98,7 +98,7 @@ The bare board version of the Radxa E24C offers more peripheral interfaces compa
 |  ③  | Gigabit Ethernet Ports (WAN/LAN configurable) |  4  |
 |  ④  | Power Button                                  |  1  |
 |  ⑤  | LED Indicators (1x Power, 4x Ethernet)        |  5  |
-|  ⑥  | MicroSD Card Slot                             |  1  |
+|  ⑥  | microSD Card Slot                             |  1  |
 |  ⑦  | USB 2.0 Type-A Ports                          |  3  |
 |  ⑧  | Maskrom Button                                |  1  |
 |  ⑨  | User Button                                   |  1  |
@@ -121,7 +121,7 @@ The bare board version of the Radxa E24C offers more peripheral interfaces compa
 |  4  | User Button                                                              |  1  |
 |  5  | USB 2.0 Type-A Ports                                                     |  3  |
 |  6  | RTC Battery Connector                                                    |  1  |
-|  7  | MicroSD Card Slot                                                        |  1  |
+|  7  | microSD Card Slot                                                        |  1  |
 |  8  | GPIO: 14-pin Expansion Header                                            |  1  |
 |  9  | LED Indicators (1x Power, 4x Ethernet)                                   |  5  |
 | 10  | Power Button                                                             |  1  |
@@ -176,7 +176,7 @@ The Radxa E24C offers multiple configuration options, with the standard package
 The following accessories may be included or need to be purchased separately depending on the configuration:
 
 - 12V/2A Power Adapter with DC5525 connector
-- MicroSD Card (required for versions without eMMC)
+- microSD Card (required for versions without eMMC)
 - M.2 NVMe SSD (for users needing expanded storage)
 - USB Type-A to Type-C Cable (for debugging)
 - HDMI Cable (for display connection)
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/install-os/install-system-sd.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/install-os/install-system-sd.md
index 6b9a1db29..52ace2634 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/install-os/install-system-sd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/install-os/install-system-sd.md
@@ -2,7 +2,7 @@
 sidebar_position: 1
 ---
 
-# Installing the Operating System to a MicroSD Card
+# Installing the Operating System to a microSD Card
 
 ## Download the System Image
 
@@ -14,7 +14,7 @@ The downloaded system image is a compressed file that needs to be extracted befo
 
 ## Hardware Connection
 
-Insert the MicroSD card into a card reader, then connect the card reader to your PC's USB port.
+Insert the microSD card into a card reader, then connect the card reader to your PC's USB port.
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/e/e24c/e24c-sd-insert.webp" style={{width: '100%', maxWidth: '600px'}} />
@@ -56,7 +56,7 @@ Click on the `Flash from file` option and select the system image file you downl
   <img src="/img/e/e24c/etcher-01.webp" style={{width: '100%', maxWidth: '600px'}} />
 </div>
 
-- Select the target MicroSD card
+- Select the target microSD card
 
 Click on the `Select target` option and choose the disk device corresponding to your card reader connected to the PC.
 
@@ -102,7 +102,7 @@ After successfully writing the system image, close the Etcher software!
 
 ## Booting the System
 
-After completing the system image writing to the MicroSD card, you can insert the MicroSD card from the card reader into the Radxa E24C's MicroSD card slot, then power on the system using a 12V DC power adapter.
+After completing the system image writing to the microSD card, you can insert the microSD card from the card reader into the Radxa E24C's microSD card slot, then power on the system using a 12V DC power adapter.
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/e/e24c/e24c-insert-sd.webp" style={{width: '100%', maxWidth: '600px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/install-os/nvme-system/no-nvme-reader.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/install-os/nvme-system/no-nvme-reader.md
index bd89a8580..f9274c2c0 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/install-os/nvme-system/no-nvme-reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/install-os/nvme-system/no-nvme-reader.md
@@ -4,9 +4,9 @@ sidebar_position: 10
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_nvme.mdx';
 
-# Boot from MicroSD card and install the system to NVMe SSD
+# Boot from microSD card and install the system to NVMe SSD
 
-<InstallSystem boot_device="MicroSD card" board="e24c" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-rk3528/releases/download/rsdk-t2/radxa-rk3528_bookworm_kde_t2.output.img.xz" path_to_image_unxz="radxa-rk3528_bookworm_kde_t2.output.img.xz" path_to_image="radxa-rk3528_bookworm_kde_t2.output.img" />
+<InstallSystem boot_device="microSD card" board="e24c" download_page="../../../download" download_url="https://github.com/radxa-build/radxa-rk3528/releases/download/rsdk-t2/radxa-rk3528_bookworm_kde_t2.output.img.xz" path_to_image_unxz="radxa-rk3528_bookworm_kde_t2.output.img.xz" path_to_image="radxa-rk3528_bookworm_kde_t2.output.img" />
 
 ## Boot the system
 
@@ -16,7 +16,7 @@ To boot the system from an NVMe SSD, you must flash the SPI boot firmware first.
 
 :::
 
-After the system installation is complete, remove the MicroSD card, make sure the NVMe SSD is installed in the NVMe SSD slot on the Radxa E24C, and then power the Radxa E24C with a 12V DC power adapter.
+After the system installation is complete, remove the microSD card, make sure the NVMe SSD is installed in the NVMe SSD slot on the Radxa E24C, and then power the Radxa E24C with a 12V DC power adapter.
 
 Detailed steps:
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/interface-usage.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/interface-usage.md
index 1092de59c..3bc416f09 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/interface-usage.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/interface-usage.md
@@ -23,7 +23,7 @@ sidebar_position: 2
 |  ④  | User Button                                                              |  1  |
 |  ⑤  | USB 2.0 Type-A Ports                                                     |  3  |
 |  ⑥  | RTC Battery Connector                                                    |  1  |
-|  ⑦  | MicroSD Card Slot                                                        |  1  |
+|  ⑦  | microSD Card Slot                                                        |  1  |
 |  ⑧  | GPIO: 14-Pin Expansion Header                                            |  1  |
 |  ⑨  | LED Indicators (1 Power, 4 Ethernet Port LEDs)                           |  5  |
 |  ⑩  | Power Button                                                             |  1  |
@@ -50,7 +50,7 @@ sidebar_position: 2
 |  ③  | Gigabit Ethernet Ports (Configurable WAN/LAN)  |  4  |
 |  ④  | Power Button                                   |  1  |
 |  ⑤  | LED Indicators (1 Power, 4 Ethernet Port LEDs) |  5  |
-|  ⑥  | MicroSD Card Slot                              |  1  |
+|  ⑥  | microSD Card Slot                              |  1  |
 |  ⑦  | USB 2.0 Type-A Ports                           |  3  |
 |  ⑧  | Maskrom Button                                 |  1  |
 |  ⑨  | User Button                                    |  1  |
@@ -135,9 +135,9 @@ Three USB 2.0 ports for connecting external devices such as keyboards, mice, and
 
 2-Pin 1.25mm RTC battery connector for connecting a real-time clock battery to maintain accurate system time during power loss.
 
-### MicroSD Card Slot
+### microSD Card Slot
 
-For inserting a MicroSD card, which can be used as a system boot device or for additional storage.
+For inserting a microSD card, which can be used as a system boot device or for additional storage.
 
 ### GPIO: 14-Pin Expansion Header
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/quick-start.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/quick-start.md
index 2bcbc1cb3..c23ff63bb 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/quick-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/getting-started/quick-start.md
@@ -58,7 +58,7 @@ Recommended power supply:
 
 Radxa E24C supports various configurations, with the main difference being the presence of onboard eMMC storage.
 
-**For boards without eMMC**: You will need a MicroSD card and a card reader.
+**For boards without eMMC**: You will need a microSD card and a card reader.
 
 **For boards with eMMC**: The system is pre-installed at the factory and ready to use!
 
@@ -72,7 +72,7 @@ Radxa E24C features a USB Type-C port primarily used for debugging and system ac
 
 <TabItem value="No eMMC System">
 
-For systems without onboard eMMC, you'll need to write the system image to a MicroSD card using a card reader.
+For systems without onboard eMMC, you'll need to write the system image to a microSD card using a card reader.
 
 - System Download
 
@@ -84,7 +84,7 @@ The downloaded system image is a compressed file that needs to be extracted befo
 
 - Hardware Connection
 
-Insert the MicroSD card into the card reader, then connect the card reader to your PC's USB port.
+Insert the microSD card into the card reader, then connect the card reader to your PC's USB port.
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/e/e24c/e24c-sd-insert.webp" style={{width: '100%', maxWidth: '600px'}} />
@@ -178,7 +178,7 @@ For users with onboard eMMC, the system comes pre-installed with OpenWrt - no ne
 
 <TabItem value="No eMMC System">
 
-After writing the system image to the MicroSD card, insert it into the Radxa E24C's MicroSD card slot, then power on the device using the 12V DC power adapter.
+After writing the system image to the microSD card, insert it into the Radxa E24C's microSD card slot, then power on the device using the 12V DC power adapter.
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/e/e24c/e24c-insert-sd.webp" style={{width: '100%', maxWidth: '600px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/hardware-usage/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/hardware-usage/hardware-interface.md
index 817ea98e1..cf4baaaa0 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/hardware-usage/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e24c/hardware-usage/hardware-interface.md
@@ -51,7 +51,7 @@ For detailed hardware interface pinouts of Radxa E24C, refer to the [Hardware Sc
 |  4  | User Button                            |  1  |
 |  5  | USB 2.0 Type-A Ports                   |  3  |
 |  6  | RTC Battery Connector                  |  1  |
-|  7  | MicroSD Card Slot                      |  1  |
+|  7  | microSD Card Slot                      |  1  |
 |  8  | GPIO: 14-pin Expansion Header          |  1  |
 |  9  | LED Indicators (1x Power, 4x Ethernet) |  5  |
 | 10  | Power Button                           |  1  |
@@ -62,9 +62,9 @@ For detailed hardware interface pinouts of Radxa E24C, refer to the [Hardware Sc
 | 15  | M.2 NVMe SSD Slot                      |  1  |
 | 16  | SPI Nor Flash                          |  1  |
 
-### MicroSD Card Slot
+### microSD Card Slot
 
-The E24C features a MicroSD card slot, which can be used for storing system data, system images, and system configurations.
+The E24C features a microSD card slot, which can be used for storing system data, system images, and system configurations.
 
 | PIN | Name       | Function Description        |
 | --- | ---------- | --------------------------- |
@@ -84,18 +84,18 @@ The E24C features a MicroSD card slot, which can be used for storing system data
 
 #### Usage Guide
 
-- **Supported Card Types**: Compatible with MicroSD/MicroSDHC/MicroSDXC memory cards
+- **Supported Card Types**: Compatible with microSD/microSDHC/microSDXC memory cards
 - **Recommended Specifications**: Class 10/UHS-I or higher recommended for better performance
-- **Maximum Capacity**: Theoretically supports up to 2TB MicroSDXC cards, tested with 512GB cards
+- **Maximum Capacity**: Theoretically supports up to 2TB microSDXC cards, tested with 512GB cards
 
 #### Main Application Scenarios
 
-- **System Boot**: E24C can boot the operating system from a MicroSD card, which is the most common usage
+- **System Boot**: E24C can boot the operating system from a microSD card, which is the most common usage
 - **Data Storage**: Can be used to expand storage space when the system is already running (e.g., when booted from eMMC)
 - **System Backup**: Can be used to back up the current system and data
 
 :::tip
-For production environments or systems requiring 24/7 operation, it is recommended to use eMMC or M.2 SSD as the primary storage and boot device, as they provide better stability and read/write endurance. MicroSD cards are suitable for temporary storage and development/testing scenarios.
+For production environments or systems requiring 24/7 operation, it is recommended to use eMMC or M.2 SSD as the primary storage and boot device, as they provide better stability and read/write endurance. microSD cards are suitable for temporary storage and development/testing scenarios.
 :::
 
 ### USB Interfaces
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e52c/getting-started/install-os/boot_from_sd_card.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e52c/getting-started/install-os/boot_from_sd_card.md
index 61b5d783e..c65e22801 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e52c/getting-started/install-os/boot_from_sd_card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e52c/getting-started/install-os/boot_from_sd_card.md
@@ -11,23 +11,23 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Install the system on the MicroSD card
+# Install the system on the microSD card
 
 ## File download
 
 Please refer to [download](../../download) to download the system os image.
 
-## MicroSD card preparation
+## microSD card preparation
 
-Insert the MicroSD Card into the MicroSD Card Reader, and then insert Reader into the USB port of your PC.
+Insert the microSD Card into the microSD Card Reader, and then insert Reader into the USB port of your PC.
 
-## Install os on MicroSD Card
+## Install os on microSD Card
 
 <Etcher/>
 
 ## Boot the system
 
-After successfully burning the MicroSD Card according to the above steps, insert the MicroSD Card into the MicroSD Card slot (the right side of the following figure shows the SD card slot), then power on the system, the system will start to boot up, and the power indicator will start to blink.
+After successfully burning the microSD Card according to the above steps, insert the microSD Card into the microSD Card slot (the right side of the following figure shows the SD card slot), then power on the system, the system will start to boot up, and the power indicator will start to blink.
 
 <img src="/img/e/e52c/radxa-e52c-insert-sd.webp" width="500" alt="radxa-e52c pack" />
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e52c/getting-started/quick-start.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e52c/getting-started/quick-start.md
index 063d550d1..8f84c81b1 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e52c/getting-started/quick-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e52c/getting-started/quick-start.md
@@ -32,7 +32,7 @@ E52C with onBoard EMMC is equipped with a pre-installed system [istoreos](../ist
 
 <TabItem value="withoutemmc" label="without onBoard EMMC">
 
-Prepare the MicroSD card, and refer to [Install System](./install-os/) to install the operating system.
+Prepare the microSD card, and refer to [Install System](./install-os/) to install the operating system.
 
 </TabItem>
 </Tabs>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/README.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/README.md
index aea967275..19822e9bf 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/README.md
@@ -63,7 +63,7 @@ All models can be expanded with an M.2 NVMe SSD for storage, providing higher st
 
 - **Powerful Processing Performance**: Rockchip RK3582 processor, dual-core Cortex-A76 (up to 2.2GHz) and quad-core Cortex-A55 (up to 1.8GHz) 64-bit processor
 - **Rich Network Connectivity**: Equipped with 4 gigabit Ethernet ports, supporting multi-WAN access, load balancing, and complex network topologies
-- **Flexible Storage Solutions**: Supports MicroSD card boot, optional onboard eMMC, and M.2 NVMe SSD high-speed storage expansion
+- **Flexible Storage Solutions**: Supports microSD card boot, optional onboard eMMC, and M.2 NVMe SSD high-speed storage expansion
 - **AI Acceleration Capability**: Built-in NPU with computing power up to 5TOPs@INT8, supporting mainstream AI frameworks and inference tasks
 - **Multi-functional Interfaces**: Provides USB 3.0/2.0 interfaces, HDMI 2.1 output (supporting up to 8K), and GPIO expansion interface
 - **Efficient Heat Dissipation Design**: Aluminum alloy case provides excellent passive cooling, with optional fan for active cooling
@@ -78,7 +78,7 @@ All models can be expanded with an M.2 NVMe SSD for storage, providing higher st
 | **NPU**                   | Computing power up to 5TOPs@INT8, supporting mainstream AI inference frameworks              |
 | **Memory**                | 2GB/4GB/8GB/16GB/32GB LPDDR4                                                                 |
 | **Onboard Storage**       | Optional eMMC: 8GB/16GB/32GB/64GB/128GB                                                      |
-| **Storage Expansion**     | MicroSD card slot + M.2 M-Key interface (PCIe 2.1), supporting NVMe SSD                      |
+| **Storage Expansion**     | microSD card slot + M.2 M-Key interface (PCIe 2.1), supporting NVMe SSD                      |
 | **Ethernet**              | 4 gigabit Ethernet ports (WAN/LAN configurable)                                              |
 | **USB Ports**             | 1 USB 3.0 Type-A + 2 USB 2.0 Type-A + 1 USB 3.0 Type-C (OTG)                                 |
 | **Video Output**          | HDMI 2.1 interface, supporting up to 8K resolution                                           |
@@ -99,7 +99,7 @@ The above image shows the main hardware interfaces and component layout of E54C,
 2. USB 3.0/2.0 ports
 3. HDMI 2.1 output port
 4. M.2 NVMe SSD slot
-5. MicroSD card slot
+5. microSD card slot
 6. GPIO expansion interface
 7. 12V DC power connector
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/install-os/boot_from_nvme.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/install-os/boot_from_nvme.md
index f6baae143..90f0cfc8a 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/install-os/boot_from_nvme.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/install-os/boot_from_nvme.md
@@ -6,18 +6,18 @@ sidebar_position: 2
 
 ## Overview
 
-To boot Radxa E54C from NVMe, you first need to boot the system from a MicroSD card or eMMC, then flash the SPI Flash using either the `rsetup` tool or `RKDevTool`, and finally write the system image to the NVMe device using the `dd` command.
+To boot Radxa E54C from NVMe, you first need to boot the system from a microSD card or eMMC, then flash the SPI Flash using either the `rsetup` tool or `RKDevTool`, and finally write the system image to the NVMe device using the `dd` command.
 
-This tutorial demonstrates the process using a MicroSD card. The installation process is identical for eMMC systems.
+This tutorial demonstrates the process using a microSD card. The installation process is identical for eMMC systems.
 
 ## Boot the System
 
-Refer to the [Quick Start](../quick-start) guide to boot the system from a MicroSD card.
+Refer to the [Quick Start](../quick-start) guide to boot the system from a microSD card.
 
 After confirming that the Radxa E54C system has successfully booted, shut it down and disconnect the power. Then insert the NVMe drive into the M.2 slot on the Radxa E54C motherboard.
 
 :::tip
-The MicroSD card functions similarly to a boot disk in an x86 system. Its purpose is to provide a Linux environment for system installation, obtain the SPI Flash image file (`spi.img`), and then flash `spi.img` to the SPI Flash using the `rsetup` tool.
+The microSD card functions similarly to a boot disk in an x86 system. Its purpose is to provide a Linux environment for system installation, obtain the SPI Flash image file (`spi.img`), and then flash `spi.img` to the SPI Flash using the `rsetup` tool.
 :::
 
 ## Flash SPI Flash
@@ -394,7 +394,7 @@ After completing the above operations, please follow these steps:
 
 1. Shut down the system: `sudo shutdown -h now`
 2. Disconnect power from the Radxa E54C
-3. Remove the MicroSD card
+3. Remove the microSD card
 4. Reconnect the power
 5. Wait for the system to boot from NVMe
 
@@ -422,13 +422,13 @@ If you encounter issues during the boot process, try the following solutions:
 
 - **System Fails to Boot**:
 
-  - Reinsert the MicroSD card and boot the system
+  - Reinsert the microSD card and boot the system
   - Try changing the Bootloader file option for the SPI Flash (prioritize the latest version)
   - Check if the M.2 interface is properly connected; try reseating the NVMe drive
 
 - **System Boots But Cannot Log In**:
   - Default username: `radxa`, password: `radxa`
-  - If the password is incorrect, you can boot using the MicroSD card again, then re-download and rewrite the system image
+  - If the password is incorrect, you can boot using the microSD card again, then re-download and rewrite the system image
     :::
 
 ## Next Steps
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/install-os/boot_from_sd_card.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/install-os/boot_from_sd_card.md
index 10ed384cd..2c442190b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/install-os/boot_from_sd_card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/install-os/boot_from_sd_card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Installing the System to a MicroSD Card
+# Installing the System to a microSD Card
 
 ## File Download
 
 Please go to the [Image Download Page](../../download) to download the corresponding operating system image.
 
-## MicroSD Card Preparation
+## microSD Card Preparation
 
-Insert the MicroSD card into an SD card reader, then plug the reader into a USB port on your PC.
+Insert the microSD card into an SD card reader, then plug the reader into a USB port on your PC.
 
 ## Image Flashing
 
@@ -27,7 +27,7 @@ Insert the MicroSD card into an SD card reader, then plug the reader into a USB
 
 ## Starting the System
 
-After successfully flashing the MicroSD Card following the steps above, insert the MicroSD Card into the MicroSD Card slot (the SD card slot is shown on the right side of the image below), then power on the device. The system will begin to boot and the power indicator light will start flashing.
+After successfully flashing the microSD Card following the steps above, insert the microSD Card into the microSD Card slot (the SD card slot is shown on the right side of the image below), then power on the device. The system will begin to boot and the power indicator light will start flashing.
 
 <img src="/img/e/e54c/radxa-e54c-insert-sd.webp" width="500" alt="radxa-e54c pack" />
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/interface-usage.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/interface-usage.md
index b37452c42..21c0e7997 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/interface-usage.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/interface-usage.md
@@ -249,7 +249,7 @@ dd if=/mnt/usb/test.img of=/dev/null bs=1M count=1024 iflag=direct
 
 </NewCodeBlock>
 
-### MicroSD Card Slot
+### microSD Card Slot
 
 Used for inserting a microSD storage card, which can serve as a system boot drive or additional storage space.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/quick-start.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/quick-start.md
index 8f9459d58..4d81b6603 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/quick-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/getting-started/quick-start.md
@@ -30,15 +30,15 @@ To start the Radxa E54C, you will need the following equipment:
 
 <TabItem value="withoutemmc" label="Without onboard EMMC" default>
 
-For E54C without eMMC, you need to use a MicroSD card to install the system.
+For E54C without eMMC, you need to use a microSD card to install the system.
 
 ### File Download
 
 Please go to the [Image Download Page](../download) to download the corresponding operating system image.
 
-### MicroSD Card Preparation
+### microSD Card Preparation
 
-Insert the MicroSD card into the SD card reader, then plug the reader into a USB port on your PC
+Insert the microSD card into the SD card reader, then plug the reader into a USB port on your PC
 
 ### Image Flashing
 
@@ -46,7 +46,7 @@ Insert the MicroSD card into the SD card reader, then plug the reader into a USB
 
 ## Starting the System
 
-After successfully flashing the MicroSD Card as described above, insert the MicroSD Card into the MicroSD Card slot, then plug in the 12V DC adapter. The system will start automatically, and the SYS LED indicator will begin flashing.
+After successfully flashing the microSD Card as described above, insert the microSD Card into the microSD Card slot, then plug in the 12V DC adapter. The system will start automatically, and the SYS LED indicator will begin flashing.
 
 <img src="/img/e/e54c/radxa-e54c-insert-sd.webp" width="500" alt="radxa-e54c pack" />
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/hardware-design/hardware-interface.md
index 85629a717..8165afd8c 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/e/e54c/hardware-design/hardware-interface.md
@@ -45,7 +45,7 @@ The above diagram shows the data channels and connection methods between the RK3
 - **USB Interface**: USB 3.0 and USB 2.0 interfaces connected to the main processor through independent buses
 - **Display Output**: HDMI 2.1 interface providing high-resolution output through dedicated controllers
 - **Storage Interface**:
-  - MicroSD card using a dedicated SDMMC controller
+  - microSD card using a dedicated SDMMC controller
   - Optional onboard eMMC storage connected via high-speed bus
   - M.2 PCIe interface providing high-speed storage expansion through PCIe 2.1 channel
 - **Expansion Interface**: GPIO pins and other interfaces provide highly customizable expansion capabilities
@@ -76,7 +76,7 @@ The hardware design of E54C has the following advantages over other similar prod
 
 **Side and Internal Interfaces**:
 
-- MicroSD Card Slot
+- microSD Card Slot
 - M.2 M-Key Slot (PCIe 2.1)
 - 14-Pin GPIO Expansion Interface
 - Fan and RTC Battery Interfaces
@@ -118,7 +118,7 @@ E54C is equipped with a standard microSD card slot, supporting hot-swapping func
 - **System Backup**: Can be used to backup current system and data
 
 :::tip Usage Suggestions
-For production environments or systems that need to run 24/7, it is recommended to use eMMC or M.2 SSD as the primary storage and boot device, as they provide better stability and read/write durability. MicroSD cards are suitable for temporary storage and development testing scenarios.
+For production environments or systems that need to run 24/7, it is recommended to use eMMC or M.2 SSD as the primary storage and boot device, as they provide better stability and read/write durability. microSD cards are suitable for temporary storage and development testing scenarios.
 :::
 
 ### USB Interfaces
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/fogwise/airbox/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/fogwise/airbox/hardware-design/hardware-interface.md
index 295294119..a6385cce4 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/fogwise/airbox/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/fogwise/airbox/hardware-design/hardware-interface.md
@@ -18,7 +18,7 @@ sidebar_position: 4
 
 Use USB Type-A to Type-C cable to connect the Debug port of the whole machine to the PC, baud rate 115200.
 
-## MicroSD
+## microSD
 
 Supports hot-swapping. Samsung and SanDisk SD cards are currently recommended.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/nio/nio12l/yocto/yocto-user-guide.md b/i18n/en/docusaurus-plugin-content-docs/current/nio/nio12l/yocto/yocto-user-guide.md
index 770bb66ec..cecb6f2a4 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/nio/nio12l/yocto/yocto-user-guide.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/nio/nio12l/yocto/yocto-user-guide.md
@@ -69,9 +69,9 @@ sdc       8:32   0 119.2G  0 disk
 `-sdc10   8:42   0 118.9G  0 part /
 ```
 
-### MicroSD Card
+### microSD Card
 
-Use `lsblk | grep mmc` to check MicroSD card. For example, here `/dev/mmcblk1`.
+Use `lsblk | grep mmc` to check microSD card. For example, here `/dev/mmcblk1`.
 
 ```text
 mmcblk1     179:0    0  58.9G  0 disk
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2a/getting-started/install-os/boot-from-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2a/getting-started/install-os/boot-from-sd-card.md
index 7db96c62b..fc5839ba3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2a/getting-started/install-os/boot-from-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2a/getting-started/install-os/boot-from-sd-card.md
@@ -11,7 +11,7 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Installing the System onto a MicroSD Card
+# Installing the System onto a microSD Card
 
 ## File Download
 
@@ -19,7 +19,7 @@ Please go to [Download Page](../../download) to download the system image.
 
 ## Preparation
 
-Insert the MicroSD card into the SD card reader, then plug the reader into the USB port of your PC.
+Insert the microSD card into the SD card reader, then plug the reader into the USB port of your PC.
 
 ## Install OS
 
@@ -27,7 +27,7 @@ Insert the MicroSD card into the SD card reader, then plug the reader into the U
 
 ## System Boot-Up
 
-After successfully Install the image to the MicroSD card using the steps above, insert the MicroSD card into the MicroSD card slot (as shown in the image below). Then, power on the device, and the system will begin to boot up, displaying the desktop on the HDMI monitor.
+After successfully Install the image to the microSD card using the steps above, insert the microSD card into the microSD card slot (as shown in the image below). Then, power on the device, and the system will begin to boot up, displaying the desktop on the HDMI monitor.
 
 <img src="/img/rock2a/rock-2a-insert-sd.webp" width="500" alt="rock-2a pack" />
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2f/download.md b/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2f/download.md
index e75b4c6a8..babf52525 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2f/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2f/download.md
@@ -24,7 +24,7 @@ This image is fully compatible with E20C, ROCK 2A, and ROCK 2F devices, all inco
 
 - Android
 
-[Radxa ROCK 2F Android 13 MicroSD and eMMC Image](https://github.com/radxa/manifests/releases/download/radxa-rock2a-20241230/ROCK2A_Android13_box_20241230_gpt.zip)：Suitable for booting from MicroSD card or onboard eMMC.
+[Radxa ROCK 2F Android 13 microSD and eMMC Image](https://github.com/radxa/manifests/releases/download/radxa-rock2a-20241230/ROCK2A_Android13_box_20241230_gpt.zip)：Suitable for booting from microSD card or onboard eMMC.
 
 :::tip
 ROCK 2A and ROCK 2F use the same Android image.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2f/getting-started/install-os/boot-from-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2f/getting-started/install-os/boot-from-sd-card.md
index bccffefd4..106f5d059 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2f/getting-started/install-os/boot-from-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock2/rock2f/getting-started/install-os/boot-from-sd-card.md
@@ -1,6 +1,6 @@
 ---
 sidebar_position: 1
-description: "Installing OS on MicroSD Card"
+description: "Installing OS on microSD Card"
 
 doc_kind: wrapper
 source_of_truth: common
@@ -10,7 +10,7 @@ imports_resolve_to:
 
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Installing OS on MicroSD Card
+# Installing OS on microSD Card
 
 ## File Download
 
@@ -18,7 +18,7 @@ Please go to [Download Page](../../download) to download the system image.
 
 ## Preparation
 
-Insert the MicroSD card into the MicroSD card reader, then plug the reader into the USB port of your PC.
+Insert the microSD card into the microSD card reader, then plug the reader into the USB port of your PC.
 
 ## Install OS
 
@@ -26,7 +26,7 @@ Insert the MicroSD card into the MicroSD card reader, then plug the reader into
 
 ## System Boot-Up
 
-After successfully Install the image to the MicroSD card using the steps above, insert the MicroSD card into the MicroSD card slot (as shown in the image below). Then, power on the device, and the system will begin to boot up, displaying the desktop on the HDMI monitor.
+After successfully Install the image to the microSD card using the steps above, insert the microSD card into the microSD card slot (as shown in the image below). Then, power on the device, and the system will begin to boot up, displaying the desktop on the HDMI monitor.
 
 <img src="/img/rock2f/rock-2f-insert-sd.webp" width="500" alt="rock-2a pack" />
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/e25/getting-started/install-os.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/e25/getting-started/install-os.md
index 8aea54e40..107a4720f 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/e25/getting-started/install-os.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/e25/getting-started/install-os.md
@@ -27,7 +27,7 @@ Please go to [Resource Download](../../images) to download the corresponding ima
 
 ## Boot the system
 
-- After successfully burning the microSD card according to the above steps, insert the microSD card into the MicroSD Card Slot.
+- After successfully burning the microSD card according to the above steps, insert the microSD card into the microSD Card Slot.
 
 - The Radxa Radxa E25 is powered by a [USB Type C port](../README), using a Type C cable to connect the power port to the adapter.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3a/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3a/hardware-design/hardware-interface.md
index 6af184c66..fcea8db6e 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3a/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3a/hardware-design/hardware-interface.md
@@ -160,4 +160,4 @@ This procedure requires soldering skills, and it is recommended that it be perfo
 
 ## WIFI
 
-## MicroSD
+## microSD
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/getting-started/install-system/boot-from-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/getting-started/install-system/boot-from-sd-card.md
index c79bd0b36..13c6c9d5c 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/getting-started/install-system/boot-from-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/getting-started/install-system/boot-from-sd-card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Install the system on the MicroSD card
+# Install the system on the microSD card
 
 ## File download
 
 <Images loader={false} system_img={true} spi_img={false} />
 
-## MicroSD card preparation
+## microSD card preparation
 
-Insert the MicroSD card into the SD card reader, and then insert the card reader into the USB port of your PC.
+Insert the microSD card into the SD card reader, and then insert the card reader into the USB port of your PC.
 
 ## Image burning
 
@@ -27,7 +27,7 @@ Insert the MicroSD card into the SD card reader, and then insert the card reader
 
 ## Boot the system
 
-After successfully burning the MicroSD Card according to the above steps, insert the MicroSD Card into the MicroSD Card slot (as shown in the picture below), then power on the system, the system will start booting and HDMI will display the desktop.
+After successfully burning the microSD Card according to the above steps, insert the microSD Card into the microSD Card slot (as shown in the picture below), then power on the system, the system will start booting and HDMI will display the desktop.
 
 <img
 src="/img/rock3/3b/rock3b-sd-slot.webp"
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/hardware-design/hardware-interface.md
index 574f5e886..45418f523 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/hardware-design/hardware-interface.md
@@ -159,7 +159,7 @@ This procedure requires soldering skills, and it is recommended that it be perfo
 | 21  |         GND         | 22  |                     |
 | 23  |         GND         |     |                     |
 
-### MicroSD Card
+### microSD Card
 
 | Pin |         Name          | Pin |         Name          |
 | :-: | :-------------------: | :-: | :-------------------: |
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/erase.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/erase.md
index 1aa188196..b0f257996 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/erase.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/erase.md
@@ -15,7 +15,7 @@ import ERASE from "../../../../common/dev/\_erase-spi-emmc.mdx";
 <ERASE loader="https://dl.radxa.com/rock3/images/loader/rock-3b/rk356x_spl_loader_ddr1056_v1.10.111.bin" loader_name="rk356x_spl_loader_ddr1056_v1.10.111.bin" rkdevtool_erase_emmc_img="/img/common/rkdevtool/rk3588-rkdevtool-erase-eMMC.webp" rkdevtool_erase_spi_flash_img="/img/common/rkdevtool/rk3588-rkdevtool-erase-spi-flash.webp">
 
 <ol>
-    <li>Remove MicroSD card, insert eMMC</li>
+    <li>Remove microSD card, insert eMMC</li>
     <li>Set the dip switch below the USB 3.0 cradle to the device side.</li>
     <li>Short the Maskrom pin, which is located between the USB 3.0 cradle and the Ethernet.</li>
     <li>Connecting a PC host from the OTG port using a USB-A to USB-A cable</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/linux.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/linux.md
index d043ee1ee..41b6c97b2 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/linux.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/linux.md
@@ -21,7 +21,7 @@ import Images from "../../\_image.mdx"
 <Rkdeveloptool model="rock-3b" release_num="18" desktop="xfce" platform="linux" loader="rk356x_spl_loader__v1.15.113.bin">
 
 <ol>
-    <li>Remove MicroSD card, insert eMMC</li>
+    <li>Remove microSD card, insert eMMC</li>
     <li>Set the dip switch below the USB 3.0 cradle to the device side.</li>
     <li>Short the Maskrom pin, which is located between the USB 3.0 cradle and the Ethernet.</li>
     <li>Connecting a PC host from the OTG port using a USB-A to USB-A cable</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/mac-os.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/mac-os.md
index fc1a9fc01..5d39e5a70 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/mac-os.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/mac-os.md
@@ -21,7 +21,7 @@ import Images from "../../\_image.mdx"
 <Rkdeveloptool model="rock-3b" release_num="18" desktop="xfce" platform="macos" loader="rk356x_spl_loader__v1.15.113.bin">
 
 <ol>
-    <li>Remove MicroSD card, insert eMMC</li>
+    <li>Remove microSD card, insert eMMC</li>
     <li>Set the dip switch below the USB 3.0 cradle to the device side.</li>
     <li>Short the Maskrom pin, which is located between the USB 3.0 cradle and the Ethernet.</li>
     <li>Connecting a PC host from the OTG port using a USB-A to USB-A cable</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/windows.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/windows.md
index c9f415274..be18b7487 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/windows.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3b/low-level-dev/maskrom/windows.md
@@ -21,7 +21,7 @@ import Images from "../../\_image.mdx"
 <Rkdevtool rkdevtool_emmc_img="/img/rock3/3b/rock-3b-rkdevtool-maskrom-flash-system.webp" loader_name="rk356x_spl_loader__v1.15.113.bin" emmc={false} pcie={false} sata={false} >
 
 <ol>
-    <li>Remove MicroSD card, insert eMMC</li>
+    <li>Remove microSD card, insert eMMC</li>
     <li>Set the dip switch below the USB 3.0 cradle to the device side.</li>
     <li>Short the Maskrom pin, which is located between the USB 3.0 cradle and the Ethernet.</li>
     <li>Connecting a PC host from the OTG port using a USB-A to USB-A cable</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3c/getting-started/download.md b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3c/getting-started/download.md
index f24d2de01..0cc2dfae5 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3c/getting-started/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock3/rock3c/getting-started/download.md
@@ -36,9 +36,9 @@ title: Resource Download
 
 - Android
 
-[Radxa ROCK 3C Android 11 MicroSD and eMMC Image](https://github.com/radxa/manifests/releases/download/android11-radxa-20240806/Rock3C-Android11_r12-20240806-gpt.zip)：Suitable for booting from MicroSD card or eMMC module.
+[Radxa ROCK 3C Android 11 microSD and eMMC Image](https://github.com/radxa/manifests/releases/download/android11-radxa-20240806/Rock3C-Android11_r12-20240806-gpt.zip)：Suitable for booting from microSD card or eMMC module.
 
-[Radxa ROCK 3C Android 14 MicroSD and eMMC Image](https://github.com/radxa/manifests/releases/download/Android14-rkr6-ROCK3c/ROCK3C-Android14-20250718-HDMI-gpt.zip)：Suitable for booting from MicroSD card or eMMC module.
+[Radxa ROCK 3C Android 14 microSD and eMMC Image](https://github.com/radxa/manifests/releases/download/Android14-rkr6-ROCK3c/ROCK3C-Android14-20250718-HDMI-gpt.zip)：Suitable for booting from microSD card or eMMC module.
 
 :::caution
 Except for the above mirrors which have been fully tested officially, the other mirrors have not been rigorously tested and may have unknown issues and are for evaluation purposes only.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/getting-started/install-os/boot-from-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/getting-started/install-os/boot-from-sd-card.md
index c1b325628..e28059a1c 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/getting-started/install-os/boot-from-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/getting-started/install-os/boot-from-sd-card.md
@@ -4,17 +4,17 @@ sidebar_position: 2
 
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Install OS to MicroSD Card
+# Install OS to microSD Card
 
-This article explains how to install the operating system to a MicroSD card and boot the system from it on ROCK 4A/4B/4A+/4B+/4SE.
+This article explains how to install the operating system to a microSD card and boot the system from it on ROCK 4A/4B/4A+/4B+/4SE.
 
 ## File Download
 
 Download the [ROCK 4A/4B/4A+/4B+/4SE system image](../../download) from the resource download page.
 
-## Prepare MicroSD Card
+## Prepare microSD Card
 
-Insert the MicroSD card into an SD card reader, then connect the reader to your PC's USB port.
+Insert the microSD card into an SD card reader, then connect the reader to your PC's USB port.
 
 ## Write the Image
 
@@ -22,7 +22,7 @@ Insert the MicroSD card into an SD card reader, then connect the reader to your
 
 ## Boot the System
 
-After successfully writing the image to the MicroSD card, insert it into the MicroSD card slot (as shown below), then power on the device. The system will start booting, and the desktop will be displayed on the HDMI monitor.
+After successfully writing the image to the microSD card, insert it into the microSD card slot (as shown below), then power on the device. The system will start booting, and the desktop will be displayed on the HDMI monitor.
 
 <img
 src="/img/rock4/rock4-sd-slot.webp"
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/hardware-design/hardware-interface.md
index 3b58478c0..2e24fc671 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/hardware-design/hardware-interface.md
@@ -95,7 +95,7 @@ import GPIO from '../../\_rock4-gpio.mdx';
 | 21  |    GND    | 22  |     GND     |
 | 23  |    GND    | 24  |             |
 
-### MicroSD
+### microSD
 
 | Pin |     Name     |
 | :-: | :----------: |
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/erase.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/erase.md
index c9b63306e..779b81c36 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/erase.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/erase.md
@@ -13,7 +13,7 @@ import ERASE from "../../../../common/dev/\_erase-spi-emmc.mdx";
 
     <TabItem value="With onboard eMMC">
 
-Disconnect the board power and remove the MicroSD card.
+Disconnect the board power and remove the microSD card.
 
 Detailed steps:
 
@@ -33,7 +33,7 @@ Detailed steps:
 
     <TabItem value="Without onboard eMMC">
 
-Disconnect the board power and remove bootable media (such as MicroSD card and eMMC module, etc.).
+Disconnect the board power and remove bootable media (such as microSD card and eMMC module, etc.).
 
 Detailed steps:
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/linux.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/linux.md
index db3a0a600..698571c29 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/linux.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/linux.md
@@ -17,7 +17,7 @@ Download the [ROCK 4A/4B/4SE system images](../../download) from the resource do
 
     <TabItem value="With onboard eMMC">
 
-Disconnect the board power and remove the MicroSD card.
+Disconnect the board power and remove the microSD card.
 
 Detailed steps:
 
@@ -37,7 +37,7 @@ Detailed steps:
 
     <TabItem value="Without onboard eMMC">
 
-Disconnect the board power and remove bootable media (such as MicroSD card and eMMC module, etc.).
+Disconnect the board power and remove bootable media (such as microSD card and eMMC module, etc.).
 
 Detailed steps:
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/macos.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/macos.md
index f3c281702..fc7e47ab5 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/macos.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/macos.md
@@ -17,7 +17,7 @@ Download the [ROCK 4A/4B/4SE system images](../../download) from the resource do
 
     <TabItem value="With onboard eMMC">
 
-Disconnect the board power and remove the MicroSD card.
+Disconnect the board power and remove the microSD card.
 
 Detailed steps:
 
@@ -37,7 +37,7 @@ Detailed steps:
 
     <TabItem value="Without onboard eMMC">
 
-Disconnect the board power and remove bootable media (such as MicroSD card and eMMC module, etc.).
+Disconnect the board power and remove bootable media (such as microSD card and eMMC module, etc.).
 
 Detailed steps:
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/windows.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/windows.md
index 6dcbc363d..06a9e2483 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/windows.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/low-level-dev/maskrom/windows.md
@@ -19,7 +19,7 @@ import Rkdevtool from "../../../../common/dev/\_rkdevtoolV2.mdx";
 
     <TabItem value="With onboard eMMC">
 
-Disconnect the board power and remove the MicroSD card.
+Disconnect the board power and remove the microSD card.
 
 Detailed steps:
 
@@ -39,7 +39,7 @@ Detailed steps:
 
     <TabItem value="Without onboard eMMC">
 
-Disconnect the board power and remove bootable media (such as MicroSD card and eMMC module, etc.).
+Disconnect the board power and remove bootable media (such as microSD card and eMMC module, etc.).
 
 Detailed steps:
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-emmc.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-emmc.md
index e179b9bc8..c2d69deaf 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-emmc.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-emmc.md
@@ -6,7 +6,7 @@ import UPGRADE_TOOL from "../../../../../../common/dev/\_upgrade-tool.mdx";
 
 # Installing System to eMMC
 
-We can directly install the Android system into the eMMC module. Please refer to the [Installing System to MicroSD Card](./boot-from-sd) section.
+We can directly install the Android system into the eMMC module. Please refer to the [Installing System to microSD Card](./boot-from-sd) section.
 This article mainly describes how to install the Android system in <strong>update format</strong> to the ROCK 4A/4B/4A+/4B+/4SE eMMC via Maskrom mode.
 
 ## File Downloads
@@ -20,7 +20,7 @@ Download the [ROCK 4A/4B/4SE system images](../../../../download) from the resou
     <TabItem value="With onboard eMMC">
 
         <ol>
-            <li>Remove the MicroSD card and disconnect the power</li>
+            <li>Remove the microSD card and disconnect the power</li>
             <li>If there is an SPI Nor Flash on the board, short the SPI Nor Flash pins</li>
             <li>Connect to the PC host using a USB-A to USB-A cable from the OTG port</li>
             <li>Press and hold the Maskrom button</li>
@@ -34,7 +34,7 @@ Download the [ROCK 4A/4B/4SE system images](../../../../download) from the resou
     <TabItem value="Without onboard eMMC">
 
         <ol>
-            <li>Remove the MicroSD card and disconnect the power</li>
+            <li>Remove the microSD card and disconnect the power</li>
             <li>If there is an SPI Nor Flash on the board, short the SPI Nor Flash pins</li>
             <li>Connect to the PC host using a USB-A to USB-A cable from the OTG port</li>
             <li>Connect the power cable. If the power LED stays solid green, you've successfully entered Maskrom mode</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-sd.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-sd.md
index cddc5a9cc..34ed01bcd 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-sd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4ab-se/other-os/android/getting-started/install-os/boot-from-sd.md
@@ -9,17 +9,17 @@ imports_resolve_to:
 
 import Etcher from '../../../../../../common/general/\_etcherV2.mdx';
 
-# Installing System to MicroSD Card
+# Installing System to microSD Card
 
-This article explains how to install the system onto a MicroSD card and boot the system from it on ROCK 4A/4B/4A+/4B+/4SE.
+This article explains how to install the system onto a microSD card and boot the system from it on ROCK 4A/4B/4A+/4B+/4SE.
 
 ## File Downloads
 
 Download the [ROCK 4A/4B/4A+/4B+/4SE system images](../../../../download) from the resource download page.
 
-## Preparing the MicroSD Card
+## Preparing the microSD Card
 
-Insert the MicroSD card into an SD card reader, then connect the reader to a USB port on your PC.
+Insert the microSD card into an SD card reader, then connect the reader to a USB port on your PC.
 
 ## Flashing the Image
 
@@ -27,7 +27,7 @@ Insert the MicroSD card into an SD card reader, then connect the reader to a USB
 
 ## Booting the System
 
-After successfully flashing the MicroSD card as described above, insert the MicroSD card into the MicroSD card slot (as shown in the image below), then power on the device. The system will start booting, and the desktop will be displayed on the HDMI screen.
+After successfully flashing the microSD card as described above, insert the microSD card into the microSD card slot (as shown in the image below), then power on the device. The system will start booting, and the desktop will be displayed on the HDMI screen.
 
 <img
 src="/img/rock4/rock4-sd-slot.webp"
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4c+/getting-started/before-start.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4c+/getting-started/before-start.md
index 75f70a3ed..2e31fe07d 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4c+/getting-started/before-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4c+/getting-started/before-start.md
@@ -33,7 +33,7 @@ ROCK 4C Plus is equipped with two micro HDMI connectors, one supports up to 1440
 Only two of HDMI 2k, HDMI 4K and MIPI DSI can work at the same time.
 :::
 
-- MicroSD Card Reader
+- microSD Card Reader
 
 For flashing the image to the microSD Card.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/README.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/README.md
index b59da67ad..21c6160ac 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/README.md
@@ -37,7 +37,7 @@ Two versions are available: the commercial-grade ROCK 4D based on RK3576, and th
 | ------------ | ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
 | Processor    | System on Chip (SoC): Rockchip RK3576 / RK3576J <br/> CPU: 4x Cortex-A72 + 4x Cortex-A53 <br/> GPU: Arm Mali-G52 MC3 <br/> Neural Processing Unit (NPU): 6 TOPS (supports INT4 / INT8 / INT16 / FP16 / BF16 / TF32) |
 | Memory (RAM) | LPDDR5, options: 2GB / 4GB / 8GB / 16GB                                                                                                                                                                             |
-| Storage      | Boot: 16MB SPI NOR Flash <br/> Expandable: eMMC / UFS module interface, MicroSD card slot                                                                                                                           |
+| Storage      | Boot: 16MB SPI NOR Flash <br/> Expandable: eMMC / UFS module interface, microSD card slot                                                                                                                           |
 | Networking   | Wired: 1x Gigabit Ethernet (PoE supported with external HAT) <br/> Wireless: Wi-Fi 6, Bluetooth 5.4, external antenna interface                                                                                     |
 | Video Output | HDMI: 1× HDMI 2.1, up to 4K@120fps <br/> MIPI DSI: 1× 4-lane MIPI DSI                                                                                                                                               |
 | Camera Input | MIPI CSI: 1× 4-lane (configurable as 2× 2-lane) + 1× 2-lane CSI                                                                                                                                                     |
@@ -65,7 +65,7 @@ Click on the interface names for tutorials on connecting external devices.
 |  ⑤  | [FPC Connector](./hardware-use/fpc-connector.md)    |  1  |  ⑭  | [USB 3.0 Type-A Ports](./hardware-use/usb-type-a.md)<br />Up：USB 3.0 Type-A OTG<br />Down：USB 3.0 Type-A HOST |  2  | ㉓  | [RTC Interface](./hardware-use/rtc.md)                        |  1  |
 |  ⑥  | [WiFi 6 & Bluetooth 5.4](./hardware-use/ante.md)    |  1  |  ⑮  | SPI NOR Flash                                                                                                   |  1  | ㉔  | [eMMC Module Interface](./hardware-use/emmc-ufs-connector.md) |  1  |
 |  ⑦  | [Antenna Connector](./hardware-use/ante.md)         |  1  |  ⑯  | [Gigabit Ethernet (PoE)](./hardware-use/gigabit-ethernet.md)                                                    |  1  | ㉕  | [MIPI CSI Interface](./hardware-use/mipi-csi.md)              |  1  |
-|  ⑧  | [40-Pin GPIO Header](./hardware-use/40-pin-gpio.md) |  1  |  ⑰  | [Fan Connector](./hardware-use/fan.md)                                                                          |  1  | ㉖  | [MicroSD Card Slot](./hardware-use/microsd.md)                |  1  |
+|  ⑧  | [40-Pin GPIO Header](./hardware-use/40-pin-gpio.md) |  1  |  ⑰  | [Fan Connector](./hardware-use/fan.md)                                                                          |  1  | ㉖  | [microSD Card Slot](./hardware-use/microsd.md)                |  1  |
 |  ⑨  | LPDDR5 RAM                                          |  1  |  ⑱  | [Headphone Jack](./hardware-use/headphone.md)                                                                   |  1  | ㉗  | [MIPI DSI Interface](./hardware-use/mipi-dsi.md)              |  1  |
 
     </TabItem>
@@ -81,7 +81,7 @@ Click on the interface names for tutorials on connecting external devices.
 |  ⑤  |  [FPC Connector](./hardware-use/fpc-connector.md)   |  1  |  ⑮  |                                                  SPI NOR Flash                                                  |  1  | ㉕  |            [RTC Interface](./hardware-use/rtc.md)             |  1  |
 |  ⑥  |   [WiFi6 & Bluetooth 5.4](./hardware-use/ante.md)   |  1  |  ⑯  |                          [Gigabit Ethernet (PoE)](./hardware-use/gigabit-ethernet.md)                           |  1  | ㉖  | [eMMC Module Interface](./hardware-use/emmc-ufs-connector.md) |  1  |
 |  ⑦  |     [Antenna Connector](./hardware-use/ante.md)     |  1  |  ⑰  |                                     [Fan Connector](./hardware-use/fan.md)                                      |  1  | ㉗  |       [MIPI CSI Interface](./hardware-use/mipi-csi.md)        |  1  |
-|  ⑧  | [40 Pin GPIO Header](./hardware-use/40-pin-gpio.md) |  1  |  ⑱  |                                  [Headphone Jack](./hardware-use/headphone.md)                                  |  1  | ㉘  |        [MicroSD Card Slot](./hardware-use/microsd.md)         |  1  |
+|  ⑧  | [40 Pin GPIO Header](./hardware-use/40-pin-gpio.md) |  1  |  ⑱  |                                  [Headphone Jack](./hardware-use/headphone.md)                                  |  1  | ㉘  |        [microSD Card Slot](./hardware-use/microsd.md)         |  1  |
 |  ⑨  |                     LPDDR5 RAM                      |  1  |  ⑲  |                                [MIPI CSI Interface](./hardware-use/mipi-csi.md)                                 |  1  | ㉙  |       [MIPI DSI Interface](./hardware-use/mipi-dsi.md)        |  1  |
 |  ⑩  |   [PoE Port](./hardware-use/gigabit-ethernet.md)    |  1  |  ⑳  |                                              Speaker Reserved Pads                                              |  1  |     |                                                               |     |
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/download.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/download.md
index cab3713a4..7422b7cb7 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/download.md
@@ -40,16 +40,16 @@ This page provides the latest stable and testing system images. Testing versions
 
 :::
 
-If the SPI Flash has not been erased, you can directly write the system image to a MicroSD card / UFS module / NVMe / eMMC to boot the system.
+If the SPI Flash has not been erased, you can directly write the system image to a microSD card / UFS module / NVMe / eMMC to boot the system.
 
-- System image for booting from MicroSD card / NVMe SSD / USB drive / eMMC: [Linux-SD-NVME-UDisk.img.xz](https://github.com/radxa-build/radxa-rk3576/releases/download/rsdk-r6/radxa-rk3576_bookworm_kde_r6.output_512.img.xz)
+- System image for booting from microSD card / NVMe SSD / USB drive / eMMC: [Linux-SD-NVME-UDisk.img.xz](https://github.com/radxa-build/radxa-rk3576/releases/download/rsdk-r6/radxa-rk3576_bookworm_kde_r6.output_512.img.xz)
 
 - System image for booting from UFS: [Linux-UFS.img.xz](https://github.com/radxa-build/radxa-rk3576/releases/download/rsdk-r6/radxa-rk3576_bookworm_kde_r6.output_4096.img.xz)
 
 :::caution
 
 1. Please download the system image that matches your chosen boot media. Downloading the wrong image may result in the system failing to boot. The main difference between the UFS image and the normal image is that the UFS image uses a 4K byte block size, while the normal image uses a 512 byte block size.
-2. The downloaded system images are compressed. Be sure to extract them before writing to the MicroSD card / UFS module / NVMe to boot the system.
+2. The downloaded system images are compressed. Be sure to extract them before writing to the microSD card / UFS module / NVMe to boot the system.
 
 :::
 
@@ -61,7 +61,7 @@ If the SPI Flash has not been erased, you can directly write the system image to
 
 :::
 
-- System image for booting from MicroSD card: [Android-SD.zip](https://github.com/radxa/manifests/releases/download/radxa-rock4d-20250528/Rock4d-Android14-rkr6-sd-20250527-gpt.zip)
+- System image for booting from microSD card: [Android-SD.zip](https://github.com/radxa/manifests/releases/download/radxa-rock4d-20250528/Rock4d-Android14-rkr6-sd-20250527-gpt.zip)
 
 - Update system image for booting from UFS module: [Android-UFS-update.zip](https://github.com/radxa/manifests/releases/download/radxa-rock4d-20251014/Rock4d-Android14-rk6-gms-ufs-20251014-update.zip)
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/README.md
index 8b749f981..3343ff7d3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/README.md
@@ -4,14 +4,14 @@ sidebar_position: 2
 
 # Installing the System
 
-Radxa ROCK 4D supports three methods for system installation: MicroSD card, UFS module, and M.2 NVMe SSD. Users can choose the appropriate boot medium based on their needs.
+Radxa ROCK 4D supports three methods for system installation: microSD card, UFS module, and M.2 NVMe SSD. Users can choose the appropriate boot medium based on their needs.
 
-- **Install using MicroSD card** - Simple operation, only requires a card reader to complete the system installation; however, read/write speeds are slower compared to UFS module and M.2 NVMe SSD.
+- **Install using microSD card** - Simple operation, only requires a card reader to complete the system installation; however, read/write speeds are slower compared to UFS module and M.2 NVMe SSD.
 
-- **Install using UFS module** - Faster read/write speeds compared to MicroSD cards. The ROCK 4D supports hot-swappable UFS modules. For more information about UFS modules, please refer to the [Radxa UFS Module Page](https://radxa.com/products/accessories/ufs-module).
+- **Install using UFS module** - Faster read/write speeds compared to microSD cards. The ROCK 4D supports hot-swappable UFS modules. For more information about UFS modules, please refer to the [Radxa UFS Module Page](https://radxa.com/products/accessories/ufs-module).
 
 - **Install using M.2 NVMe SSD** - Even faster read/write speeds than UFS modules, but requires a dedicated adapter board for use.
 
-In summary, if you don't have high requirements for read/write performance, you can use a MicroSD card as the boot medium. If you need faster read/write speeds and don't want to use an additional adapter board with your ROCK 4D, you can install the system using a UFS module. For even higher performance requirements, you can install the system using an M.2 NVMe SSD.
+In summary, if you don't have high requirements for read/write performance, you can use a microSD card as the boot medium. If you need faster read/write speeds and don't want to use an additional adapter board with your ROCK 4D, you can install the system using a UFS module. For even higher performance requirements, you can install the system using an M.2 NVMe SSD.
 
 <DocCardList />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/boot_sd.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/boot_sd.md
index b7eb05f88..106ad93bc 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/boot_sd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/boot_sd.md
@@ -2,9 +2,9 @@
 sidebar_position: 1
 ---
 
-# Installing System to MicroSD Card
+# Installing System to microSD Card
 
-This tutorial explains how to install the system on a MicroSD card.
+This tutorial explains how to install the system on a microSD card.
 
 ## Hardware Preparation
 
@@ -12,8 +12,8 @@ You will need the following hardware to complete the system installation and boo
 
 #### For System Installation
 
-- Card reader: MicroSD card reader
-- Boot medium: MicroSD card (32GB or larger recommended)
+- Card reader: microSD card reader
+- Boot medium: microSD card (32GB or larger recommended)
 
 #### For System Boot
 
@@ -32,13 +32,13 @@ Recommended power supplies:
 
 ## Installing the System
 
-Installing the system will format the MicroSD card. Please back up any important data before proceeding.
+Installing the system will format the microSD card. Please back up any important data before proceeding.
 
 ### Download System Image
 
-On your PC, visit the [Downloads Summary](../../download) page and locate the system image for MicroSD card.
+On your PC, visit the [Downloads Summary](../../download) page and locate the system image for microSD card.
 
-After downloading, extract the system image file. The resulting `*.img` file is the system image that will be written to the MicroSD card.
+After downloading, extract the system image file. The resulting `*.img` file is the system image that will be written to the microSD card.
 
 :::tip
 The downloaded system image is a compressed file that must be extracted before it can be written to the SD card using the image flashing software. If you try to flash the compressed file directly to the SD card without extracting it first, the system installation or boot process may fail.
@@ -46,7 +46,7 @@ The downloaded system image is a compressed file that must be extracted before i
 
 ### Hardware Connection
 
-Insert the MicroSD card into the card reader, then connect the card reader to your PC's USB port.
+Insert the microSD card into the card reader, then connect the card reader to your PC's USB port.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -54,7 +54,7 @@ Insert the MicroSD card into the card reader, then connect the card reader to yo
 
 ### Installing the System Image
 
-Use the open-source image flashing tool Etcher to write the system image to the MicroSD card.
+Use the open-source image flashing tool Etcher to write the system image to the microSD card.
 
 #### Downloading Etcher
 
@@ -159,8 +159,8 @@ Password: `radxa`
 
 After completing the system image installation:
 
-1. Remove the MicroSD card from the card reader
-2. Insert the card into the MicroSD card slot on the ROCK 4D motherboard
+1. Remove the microSD card from the card reader
+2. Insert the card into the microSD card slot on the ROCK 4D motherboard
 3. Power on the system using a 5V Type-C power adapter
 
 When the system boots, both the blue and green LED indicators will light up. After a few seconds, the green LED will stay solid and the blue LED will blink, indicating that the system has successfully booted.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/boot_start.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/boot_start.md
index 93a312397..133a06719 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/boot_start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/boot_start.md
@@ -30,7 +30,7 @@ This tutorial will guide you through the process of flashing the SPI boot firmwa
 
 ## Obtaining the Latest SPI Boot Firmware
 
-You need to boot the ROCK 4D using a MicroSD card. You can refer to the [Quick Start](../quickly_start) guide to complete this step.
+You need to boot the ROCK 4D using a microSD card. You can refer to the [Quick Start](../quickly_start) guide to complete this step.
 
 After successfully booting the system and ensuring the network connection is working, open the ROCK 4D terminal command line and use the Rsetup tool to update the system.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/emmc_system/no_emmc_reader.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/emmc_system/no_emmc_reader.md
index 9d77f64a6..26bbc61a5 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/emmc_system/no_emmc_reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/emmc_system/no_emmc_reader.md
@@ -9,7 +9,7 @@ imports_resolve_to:
 
 import InstallSystem from '../../../../../common/radxa-os/install-system/\_use_dd_emmc.mdx';
 
-# Boot from MicroSD Card and Install System to eMMC
+# Boot from microSD Card and Install System to eMMC
 
 :::tip eMMC System Startup Prompt
 Only the ROCK 4D without SPI Flash version supports eMMC startup, and the version with on-chip SPI Flash does not support eMMC startup.
@@ -19,7 +19,7 @@ Only the ROCK 4D without SPI Flash version supports eMMC startup, and the versio
 
 ## Boot System
 
-After completing the system installation, remove the MicroSD card, confirm that the eMMC module is installed in the eMMC module interface of ROCK 4D, then power on the ROCK 4D using the power adapter to boot the system.
+After completing the system installation, remove the microSD card, confirm that the eMMC module is installed in the eMMC module interface of ROCK 4D, then power on the ROCK 4D using the power adapter to boot the system.
 
 <div style={{textAlign: 'center'}}>
    <img src="/en/img/rock4/4d/rock-4d-boot-system-emmc.webp" style={{width: '100%', maxWidth: '1200px'}} />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/README.md
index 3f5205534..7bb46b5e3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/README.md
@@ -4,11 +4,11 @@ sidebar_position: 3
 
 # Installing System to NVMe SSD
 
-M.2 NVMe SSDs are high-speed, high-capacity, and cost-effective storage devices that offer faster read/write speeds compared to MicroSD cards and UFS modules. They are an excellent choice for users looking to significantly improve their system's read/write and boot performance.
+M.2 NVMe SSDs are high-speed, high-capacity, and cost-effective storage devices that offer faster read/write speeds compared to microSD cards and UFS modules. They are an excellent choice for users looking to significantly improve their system's read/write and boot performance.
 
 We provide two methods to install the system on an M.2 NVMe SSD:
 
-- For users with an M.2 NVMe SSD enclosure, the installation process is similar to installing the system on a MicroSD card and is relatively straightforward.
+- For users with an M.2 NVMe SSD enclosure, the installation process is similar to installing the system on a microSD card and is relatively straightforward.
 
 - For users without an M.2 NVMe SSD enclosure, you can use the `dd` command to install the system image to the M.2 NVMe SSD.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/no_nvme_reader.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/no_nvme_reader.md
index b99869af9..e7117bc06 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/no_nvme_reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/no_nvme_reader.md
@@ -4,7 +4,7 @@ sidebar_position: 2
 
 # Without Using an M.2 NVMe SSD Enclosure
 
-This tutorial is for users who don't have an M.2 NVMe SSD enclosure. It explains how to install the system on an M.2 NVMe SSD using a MicroSD card as the boot medium.
+This tutorial is for users who don't have an M.2 NVMe SSD enclosure. It explains how to install the system on an M.2 NVMe SSD using a microSD card as the boot medium.
 
 :::tip
 An M.2 NVMe SSD is a solid-state drive that supports the M.2 interface and NVMe protocol.
@@ -12,18 +12,18 @@ An M.2 NVMe SSD is a solid-state drive that supports the M.2 interface and NVMe
 
 ## Hardware Preparation
 
-To install the system without an M.2 NVMe SSD enclosure, you'll need to be able to boot your Radxa ROCK 4D from a MicroSD card.
+To install the system without an M.2 NVMe SSD enclosure, you'll need to be able to boot your Radxa ROCK 4D from a microSD card.
 
-**Note: If the MicroSD card doesn't boot properly, please refer to the [Installing System to MicroSD Card](../boot_sd) tutorial to install the system on a MicroSD card first.**
+**Note: If the microSD card doesn't boot properly, please refer to the [Installing System to microSD Card](../boot_sd) tutorial to install the system on a microSD card first.**
 
-We'll be working within the system on the MicroSD card and use the `dd` command to install the system to the M.2 NVMe SSD.
+We'll be working within the system on the microSD card and use the `dd` command to install the system to the M.2 NVMe SSD.
 
 **Note: Booting from an M.2 NVMe SSD requires using it with a PCIe to M.2 M Key HAT.**
 
 You'll need the following hardware:
 
 - Motherboard: Radxa ROCK 4D
-- MicroSD card with a working system
+- microSD card with a working system
 - M.2 NVMe SSD: Purchase separately
 - PCIe to M.2 M Key HAT: Purchase separately
 - Power Adapter: Type-C power adapter (PD protocol supported, 5V input, recommended 3A or higher)
@@ -130,7 +130,7 @@ After completing the system image installation:
 
 1. Shut down the system: `sudo shutdown -h now`
 2. Disconnect the power supply from the ROCK 4D
-3. Remove the MicroSD card
+3. Remove the microSD card
 4. Reconnect the power supply to the ROCK 4D
 5. Wait for the system to boot from the M.2 NVMe SSD
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/nvme_reader.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/nvme_reader.md
index 93814a428..f17e8b8dc 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/nvme_reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/nvme-system/nvme_reader.md
@@ -12,7 +12,7 @@ An M.2 NVMe SSD is a solid-state drive that supports the M.2 interface and NVMe
 
 ## Hardware Preparation
 
-Installing the system on an M.2 NVMe SSD using an enclosure doesn't require a MicroSD card. Simply insert the M.2 NVMe SSD into the enclosure and use the Etcher software to install the system onto the SSD.
+Installing the system on an M.2 NVMe SSD using an enclosure doesn't require a microSD card. Simply insert the M.2 NVMe SSD into the enclosure and use the Etcher software to install the system onto the SSD.
 
 **Note: Booting from an M.2 NVMe SSD requires using it with a PCIe to M.2 M Key HAT.**
 
@@ -163,7 +163,7 @@ Password: radxa
 After completing the system image installation:
 
 1. Remove the M.2 NVMe SSD from the M.2 SSD enclosure
-2. Remove the MicroSD card from the ROCK 4D
+2. Remove the microSD card from the ROCK 4D
 3. Install the M.2 NVMe SSD into the PCIe to M.2 M Key HAT
 4. Install the PCIe to M.2 M Key HAT onto the ROCK 4D
 5. Connect the power supply to the ROCK 4D
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/README.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/README.md
index 07780ba14..0bcea409d 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/README.md
@@ -4,13 +4,13 @@ sidebar_position: 2
 
 # Installing System to UFS Module
 
-UFS modules offer faster read/write speeds compared to MicroSD cards, making them an excellent choice for users looking to improve system performance and boot times.
+UFS modules offer faster read/write speeds compared to microSD cards, making them an excellent choice for users looking to improve system performance and boot times.
 
 We provide two methods to install the system on a UFS module:
 
 - For users with a Radxa eMMC/UFS combo module reader: Directly write the system image using the Radxa eMMC/UFS combo module reader on your PC.
 
-- For users without a Radxa eMMC/UFS combo module reader: Use a MicroSD card to boot the system first, then use the `dd` command to install the system image to the UFS module.
+- For users without a Radxa eMMC/UFS combo module reader: Use a microSD card to boot the system first, then use the `dd` command to install the system image to the UFS module.
 
 For more information about the Radxa eMMC/UFS combo module reader, please refer to the [Radxa eMMC/UFS Combo Module Reader Page](https://radxa.com/products/accessories/emmc-ufs-module-reader).
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/no_ufs_reader.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/no_ufs_reader.md
index b703444b0..d07e4f9f3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/no_ufs_reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/no_ufs_reader.md
@@ -4,21 +4,21 @@ sidebar_position: 2
 
 # Without Using Radxa eMMC/UFS Combo Module Reader
 
-This tutorial is for users who don't have a Radxa eMMC/UFS combo module reader. It explains how to install the system to a UFS module using a MicroSD card as the boot medium.
+This tutorial is for users who don't have a Radxa eMMC/UFS combo module reader. It explains how to install the system to a UFS module using a microSD card as the boot medium.
 
 ## Hardware Preparation
 
-To install the system on a UFS module without a Radxa eMMC/UFS combo module reader, you'll need to have your Radxa ROCK 4D booting properly from a MicroSD card.
+To install the system on a UFS module without a Radxa eMMC/UFS combo module reader, you'll need to have your Radxa ROCK 4D booting properly from a microSD card.
 
-We'll be working within the system on the MicroSD card and use the `dd` command to install the system to the UFS module.
+We'll be working within the system on the microSD card and use the `dd` command to install the system to the UFS module.
 
-**Note:** If you're having issues booting from the MicroSD card, please refer to the [Install System to MicroSD Card](../boot_sd) tutorial first to install the system on a MicroSD card.
+**Note:** If you're having issues booting from the microSD card, please refer to the [Install System to microSD Card](../boot_sd) tutorial first to install the system on a microSD card.
 
 **You will need the following hardware:**
 
 - Motherboard: Radxa ROCK 4D
 - [UFS Module](https://radxa.com/products/accessories/ufs-module)
-- Functional MicroSD card with bootable system
+- Functional microSD card with bootable system
 - Power adapter: Type-C power adapter (with PD protocol support, 5V input, 3A or higher recommended)
 
 :::tip
@@ -131,7 +131,7 @@ After completing the system image installation:
 
 1. Shut down the system: `sudo shutdown -h now`
 2. Disconnect power from the ROCK 4D
-3. Remove the MicroSD card
+3. Remove the microSD card
 4. Reconnect the power
 5. Wait for the system to boot from the UFS module
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/ufs_reader.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/ufs_reader.md
index 6b5c4f512..a37fbdc41 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/ufs_reader.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/install-system/ufs-system/ufs_reader.md
@@ -8,7 +8,7 @@ This tutorial is for users who have a Radxa eMMC/UFS combo module reader. It exp
 
 ## Hardware Preparation
 
-When using the Radxa eMMC/UFS combo module reader to install the system, there's no need to rely on a MicroSD card. Simply insert the UFS module into the eMMC/UFS module reader and use the Etcher software to install the system to the UFS module.
+When using the Radxa eMMC/UFS combo module reader to install the system, there's no need to rely on a microSD card. Simply insert the UFS module into the eMMC/UFS module reader and use the Etcher software to install the system to the UFS module.
 
 **You will need the following hardware:**
 
@@ -163,7 +163,7 @@ When using our provided system image for the first time, you'll need to log in w
 After completing the system image installation:
 
 1. Remove the UFS module from the Radxa eMMC/UFS combo module reader
-2. Remove any MicroSD card from the ROCK 4D
+2. Remove any microSD card from the ROCK 4D
 3. Install the UFS module into the eMMC/UFS module interface on the ROCK 4D
 4. Connect power to the ROCK 4D
 5. Wait for the system to boot from the UFS module
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/quickly_start.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/quickly_start.md
index 43ae41f56..3cc346749 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/quickly_start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/getting-started/quickly_start.md
@@ -22,7 +22,7 @@ This chapter is designed to help you quickly get started with the Radxa ROCK 4D.
 To complete all the steps in this quick start guide, you'll need to prepare the following hardware in advance:
 
 - Motherboard: Radxa ROCK 4D
-- Boot media: MicroSD card
+- Boot media: microSD card
 - USB-to-TTL serial cable (optional): For serial debugging and login
 - Display (optional): HDMI monitor and HDMI cable
 - Power adapter: Type-C power adapter (supports PD protocol, 5V input, recommended current ≥3A)
@@ -59,7 +59,7 @@ Recommended power adapters:
 
 ### Boot Media
 
-While the ROCK 4D supports booting from MicroSD cards, NVMe, and UFS, this quick start guide will focus on booting from a MicroSD card.
+While the ROCK 4D supports booting from microSD cards, NVMe, and UFS, this quick start guide will focus on booting from a microSD card.
 
 ### Serial Debugging
 
@@ -67,11 +67,11 @@ The ROCK 4D supports serial debugging via a USB-to-TTL serial cable. You'll need
 
 ## Writing the System Image
 
-You'll need to download the system image file to your PC and then write it to a MicroSD card.
+You'll need to download the system image file to your PC and then write it to a microSD card.
 
 ### Downloading the System Image
 
-Visit the [Downloads](../download) page on your PC to download the system image package for the ROCK 4D. After downloading, extract the package to get the `*.img` file, which is the system image to be written to your MicroSD card.
+Visit the [Downloads](../download) page on your PC to download the system image package for the ROCK 4D. After downloading, extract the package to get the `*.img` file, which is the system image to be written to your microSD card.
 
 :::tip
 The downloaded system image is a compressed file that must be extracted before writing to the SD card. Writing the compressed file directly to the SD card may result in system write or boot failures.
@@ -79,7 +79,7 @@ The downloaded system image is a compressed file that must be extracted before w
 
 ### Writing the System Image
 
-Insert the MicroSD card into a card reader, then connect the card reader to your PC's USB port.
+Insert the microSD card into a card reader, then connect the card reader to your PC's USB port.
 
 <div style={{textAlign: 'center'}}>
   <img src="/en/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -165,7 +165,7 @@ Password: radxa
 
 ## Booting the System
 
-After writing the system image to your MicroSD card, insert it into the ROCK 4D's MicroSD card slot. Then, power on the system using a 5V Type-C power adapter.
+After writing the system image to your microSD card, insert it into the ROCK 4D's microSD card slot. Then, power on the system using a 5V Type-C power adapter.
 
 When the system boots, both the blue and green LEDs will light up simultaneously. After a few seconds, the green LED will stay lit while the blue LED blinks, indicating a successful system boot.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/hardware-use/hardware-info.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/hardware-use/hardware-info.md
index 98c3cc6c4..b079c3984 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/hardware-use/hardware-info.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/hardware-use/hardware-info.md
@@ -33,7 +33,7 @@ For interfaces that support external devices, click on the interface description
 |  ⑤  | [FPC Connector](./fpc-connector) |  1  |  ⑭  | [USB 3.0 Type-A Ports](./usb-type-a)<br />Up：USB 3.0 Type-A OTG<br />Down：USB 3.0 Type-A HOST |  2  | ㉓  | [RTC Interface](./rtc)                        |  1  |
 |  ⑥  | [WiFi 6 & Bluetooth 5.4](./ante) |  1  |  ⑮  | SPI NOR Flash                                                                                   |  1  | ㉔  | [eMMC Module Interface](./emmc-ufs-connector) |  1  |
 |  ⑦  | [Antenna Connector](./ante)      |  1  |  ⑯  | [Gigabit Ethernet (PoE)](./gigabit-ethernet)                                                    |  1  | ㉕  | [MIPI CSI Interface](./mipi-csi)              |  1  |
-|  ⑧  | [40-Pin GPIO Header](./pin-gpio) |  1  |  ⑰  | [Fan Connector](./fan)                                                                          |  1  | ㉖  | [MicroSD Card Slot](./microsd)                |  1  |
+|  ⑧  | [40-Pin GPIO Header](./pin-gpio) |  1  |  ⑰  | [Fan Connector](./fan)                                                                          |  1  | ㉖  | [microSD Card Slot](./microsd)                |  1  |
 |  ⑨  | LPDDR5 RAM                       |  1  |  ⑱  | [Headphone Jack](./headphone)                                                                   |  1  | ㉗  | [MIPI DSI Interface](./mipi-dsi)              |  1  |
 
     </TabItem>
@@ -49,7 +49,7 @@ For interfaces that support external devices, click on the interface description
 |  ⑤  | [FPC Connector](./fpc-connector) |  1  |  ⑮  |                                          SPI NOR Flash                                          |  1  | ㉕  |            [RTC Interface](./rtc)             |  1  |
 |  ⑥  | [WiFi6 & Bluetooth 5.4](./ante)  |  1  |  ⑯  |                          [Gigabit Ethernet (PoE)](./gigabit-ethernet)                           |  1  | ㉖  | [eMMC Module Interface](./emmc-ufs-connector) |  1  |
 |  ⑦  |   [Antenna Connector](./ante)    |  1  |  ⑰  |                                     [Fan Connector](./fan)                                      |  1  | ㉗  |       [MIPI CSI Interface](./mipi-csi)        |  1  |
-|  ⑧  | [40 Pin GPIO Header](./pin-gpio) |  1  |  ⑱  |                                  [Headphone Jack](./headphone)                                  |  1  | ㉘  |        [MicroSD Card Slot](./microsd)         |  1  |
+|  ⑧  | [40 Pin GPIO Header](./pin-gpio) |  1  |  ⑱  |                                  [Headphone Jack](./headphone)                                  |  1  | ㉘  |        [microSD Card Slot](./microsd)         |  1  |
 |  ⑨  |            LPDDR5 RAM            |  1  |  ⑲  |                                [MIPI CSI Interface](./mipi-csi)                                 |  1  | ㉙  |       [MIPI DSI Interface](./mipi-dsi)        |  1  |
 |  ⑩  |  [PoE Port](./gigabit-ethernet)  |  1  |  ⑳  |                                      Speaker Reserved Pads                                      |  1  |     |                                               |     |
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/hardware-use/microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/hardware-use/microsd.md
index dcc22501d..5de8af7d7 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/hardware-use/microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/hardware-use/microsd.md
@@ -2,22 +2,22 @@
 sidebar_position: 1
 ---
 
-# MicroSD Card Slot
+# microSD Card Slot
 
-The Radxa ROCK 4D features a standard onboard MicroSD card slot, compatible with MicroSD / MicroSDHC / MicroSDXC cards, primarily used as a system boot drive or for expanding storage capacity.
+The Radxa ROCK 4D features a standard onboard microSD card slot, compatible with microSD / microSDHC / microSDXC cards, primarily used as a system boot drive or for expanding storage capacity.
 
-For optimal performance, it's recommended to use a MicroSD card with a capacity of 32GB or larger.
+For optimal performance, it's recommended to use a microSD card with a capacity of 32GB or larger.
 
 <div style={{textAlign: 'center'}}>
-  <img src="/img/rock4/4d/rock4d-microsd-slot.webp" style={{width: '80%', maxWidth: '1200px'}} alt="ROCK 4D MicroSD Card Slot Location" />
+  <img src="/img/rock4/4d/rock4d-microsd-slot.webp" style={{width: '80%', maxWidth: '1200px'}} alt="ROCK 4D microSD Card Slot Location" />
 </div>
 
 ## User Guide
 
-You can refer to the [Quick Start](../getting-started/quickly_start) or [Install System to MicroSD Card](../getting-started/install-system/boot_sd) tutorials to install the system image onto a MicroSD card. After installation, insert the MicroSD card into the card slot and test if the system boots normally.
+You can refer to the [Quick Start](../getting-started/quickly_start) or [Install System to microSD Card](../getting-started/install-system/boot_sd) tutorials to install the system image onto a microSD card. After installation, insert the microSD card into the card slot and test if the system boots normally.
 
 <div style={{textAlign: 'center'}}>
-  <img src="/img/rock4/4d/boot-sd.webp" style={{width: '100%', maxWidth: '1200px'}} alt="Booting from MicroSD Card" />
+  <img src="/img/rock4/4d/boot-sd.webp" style={{width: '100%', maxWidth: '1200px'}} alt="Booting from microSD Card" />
 </div>
 
 ## Interface Specifications
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/android/getting-started.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/android/getting-started.md
index f58a8d4dd..7e06b1921 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/android/getting-started.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/android/getting-started.md
@@ -20,7 +20,7 @@ This tutorial is designed to help you quickly get started with the Android syste
 You will need the following hardware:
 
 - Board: Radxa ROCK 4D
-- Boot media: MicroSD card
+- Boot media: microSD card
 - Power supply: 5V Type-C power adapter
 - Display: Monitor and HDMI cable
 - Input devices: Keyboard and mouse (for GUI operation)
@@ -34,22 +34,22 @@ You will need the following hardware:
 
 ## System Installation
 
-This section explains how to install the system on a MicroSD card.
+This section explains how to install the system on a microSD card.
 
 :::warning Important Notice
 
-**Installing the system will completely format your MicroSD card, and all data will be permanently deleted!**
+**Installing the system will completely format your microSD card, and all data will be permanently deleted!**
 
 Before proceeding, please ensure:
 
-- There is no important data on the MicroSD card or you have backed up all important data
+- There is no important data on the microSD card or you have backed up all important data
 - You have selected the correct storage device to avoid formatting the wrong disk
 
 :::
 
 ### Hardware Connection
 
-Insert the MicroSD card into a card reader, then connect the card reader to your computer.
+Insert the microSD card into a card reader, then connect the card reader to your computer.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -70,7 +70,7 @@ The downloaded file is in `.img.xz` compressed format. You need to extract it fi
 
 ### Write System Image
 
-Use Balena Etcher to write the system image to the MicroSD card.
+Use Balena Etcher to write the system image to the microSD card.
 
 :::tip Balena Etcher
 
@@ -91,7 +91,7 @@ Click the `Flash from file` button and select the downloaded and extracted syste
 
 #### Select Storage Device
 
-Click `Select target` and choose your MicroSD card.
+Click `Select target` and choose your microSD card.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -109,7 +109,7 @@ Click `Select target` and choose your MicroSD card.
 
 #### Start Flashing
 
-Click the `Flash!` button to begin writing the system image to the MicroSD card.
+Click the `Flash!` button to begin writing the system image to the microSD card.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -144,4 +144,4 @@ Click the `Flash!` button to begin writing the system image to the MicroSD card.
 
 ## Booting the System
 
-After completing the system write, insert the MicroSD card into the ROCK 4D's MicroSD card slot, then power on the ROCK 4D using a 5V Type-C power adapter to boot the system.
+After completing the system write, insert the microSD card into the ROCK 4D's microSD card slot, then power on the ROCK 4D using a 5V Type-C power adapter to boot the system.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/buildroot.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/buildroot.md
index 39e377bef..fbe34a40b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/buildroot.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/buildroot.md
@@ -128,8 +128,8 @@ On a Windows host, use the `RKDevTool` to flash the system image `update.img` to
     <img src="/en/img/rock4/4d/other-os-burn-img.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-### Flash Image to MicroSD Card
+### Flash Image to microSD Card
 
-Use SDDiskTool to flash the generated image to a MicroSD Card.
+Use SDDiskTool to flash the generated image to a microSD Card.
 
 <SSDISKTOOL />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/yocto/install-system/system-to-sd.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/yocto/install-system/system-to-sd.md
index 62c36fe0b..00308725c 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/yocto/install-system/system-to-sd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/other-os/yocto/install-system/system-to-sd.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import SystemToSD from '../../../../../common/yocto/\_system-to-sd.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 <SystemToSD board="ROCK 4D" board_conf="rockchip-rk3576-rock4d.conf" soc="rk3576" board_name="rock-4d" />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/system-config/backup-system.md b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/system-config/backup-system.md
index eafa9db03..b1f30c6fb 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/system-config/backup-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock4/rock4d/system-config/backup-system.md
@@ -104,8 +104,8 @@ Offline system backup requires converting the system boot disk to a removable me
 
 Converting different boot media to removable media:
 
-- MicroSD Card
-  Convert the MicroSD card to a removable device using a card reader.
+- microSD Card
+  Convert the microSD card to a removable device using a card reader.
 
 - Non-onboard eMMC Module
   Convert the eMMC module to a removable device using an eMMC reader.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5a/getting-started/install-os/boot_from_sd_card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5a/getting-started/install-os/boot_from_sd_card.md
index ded8c894f..291e109de 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5a/getting-started/install-os/boot_from_sd_card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5a/getting-started/install-os/boot_from_sd_card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Install the system on the MicroSD card
+# Install the system on the microSD card
 
 ## File download
 
 <Images loader={false} system_img={true} spi_img={false} />
 
-## MicroSD Card Preparation
+## microSD Card Preparation
 
-Insert MicroSD Card into SDcard Reader, and then Insert Reader into PC's USB Port
+Insert microSD Card into SDcard Reader, and then Insert Reader into PC's USB Port
 
 ## Flash the image
 
@@ -27,7 +27,7 @@ Insert MicroSD Card into SDcard Reader, and then Insert Reader into PC's USB Por
 
 ## Boot System
 
-Once the System has been successfully installed in according to the above steps, insert the MicroSD Card into the SDCard slot (as shown in the following figure), and then power on the system, the system will start booting up and the HDMI will display the desktop.
+Once the System has been successfully installed in according to the above steps, insert the microSD Card into the SDCard slot (as shown in the following figure), and then power on the system, the system will start booting up and the HDMI will display the desktop.
 
 <img
 src="/img/rock5a/rock5a-sd-slot.webp"
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5b/faq.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5b/faq.md
index 384b96aea..0e2dab120 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5b/faq.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5b/faq.md
@@ -50,9 +50,9 @@ Follow the steps below to troubleshoot ROCK 5B:
 
 ## Q8: I burned eMMC with RKDevTool successfully, but after powering up, the Led doesn't flash and there is no output on the screen.
 
-Confirmation: Remove eMMC Module, MicroSD and NVME devices.
+Confirmation: Remove eMMC Module, microSD and NVME devices.
 
-Remove the eMMC Module, MicroSD and NVME device, then connect the board and PC via USB cable, then see if the device enters [Maskrom state](./low-level-dev/install-os/rkdevtool_maskrom).
+Remove the eMMC Module, microSD and NVME device, then connect the board and PC via USB cable, then see if the device enters [Maskrom state](./low-level-dev/install-os/rkdevtool_maskrom).
 If it's not in MaskRom state, it's most likely due to the following reasons.
 
 In [Burning system to eMMC via USB](./low-level-dev/install-os/rkdevtool_maskrom), did not follow the instructions to press the Maskrom button, causing the system to reach the [SPI Flash](./low-level-dev/install-os/rkdevtool_spi), and when the system starts, it reads the SPI information first, and then there is an error and it cannot start normally.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5b/getting-started/install-os/boot_from_sd_card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5b/getting-started/install-os/boot_from_sd_card.md
index 487ad8164..2a4e6551a 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5b/getting-started/install-os/boot_from_sd_card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5b/getting-started/install-os/boot_from_sd_card.md
@@ -9,15 +9,15 @@ imports_resolve_to:
 
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Install the system on the MicroSD card
+# Install the system on the microSD card
 
 ## File download
 
 Please go to [download](../../download) to download system and loader file.
 
-## MicroSD Card Preparation
+## microSD Card Preparation
 
-Insert the MicroSD card into the SD card reader, and then insert the card reader into the USB port of the PC
+Insert the microSD card into the SD card reader, and then insert the card reader into the USB port of the PC
 
 ## Flash the image
 
@@ -25,7 +25,7 @@ Insert the MicroSD card into the SD card reader, and then insert the card reader
 
 ## Boot System
 
-After successfully flashing the MicroSD Card using the previous steps, insert the MicroSD Card into the MicroSD Card slot (as shown in the image below). Then, power on the device. The power indicator light will display a solid green color, indicating the system has started booting up. Once the normal startup process completes, the indicator light will begin blinking. After a short period of time, the HDMI output will display the desktop.
+After successfully flashing the microSD Card using the previous steps, insert the microSD Card into the microSD Card slot (as shown in the image below). Then, power on the device. The power indicator light will display a solid green color, indicating the system has started booting up. Once the normal startup process completes, the indicator light will begin blinking. After a short period of time, the HDMI output will display the desktop.
 
 <img
 src="/img/rock5b/rock5b-interface-2.webp"
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/getting-started/install-os/boot-from-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/getting-started/install-os/boot-from-sd-card.md
index e81d5f8e4..5e23bd24d 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/getting-started/install-os/boot-from-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/getting-started/install-os/boot-from-sd-card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcher.mdx';
 
-# Install the system on the MicroSD card
+# Install the system on the microSD card
 
 ## File download
 
 <Images loader={false} system_img={true} spi_img={false} />
 
-## MicroSD Preparation
+## microSD Preparation
 
-Insert MicroSD Card into SDCard Reader，then input Reader into PC's USB Port.
+Insert microSD Card into SDCard Reader，then input Reader into PC's USB Port.
 
 ## Burn the image
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/hardware-design/hardware-interface.md
index 197ea5203..0827f1660 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/hardware-design/hardware-interface.md
@@ -258,7 +258,7 @@ MIPI screen support. Utilizes a 39-pin, 0.3 mm pitch, gold-plated connector, mod
 
 Refer [Display accessories](../accessories/display)
 
-### MicroSD
+### microSD
 
 Can be used as a system boot disk or as a storage medium.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/other-os/buildroot.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/other-os/buildroot.md
index 6ac1e68d8..aea8e0ec3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/other-os/buildroot.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/other-os/buildroot.md
@@ -134,8 +134,8 @@ upgrade_tool uf update.img
 
 On a Windows host, use the `RKDevTool` utility through the Type-A port to flash the system image `update.img` to eMMC.
 
-### Flash Image to MicroSD Card
+### Flash Image to microSD Card
 
-Use SDDiskTool to flash the generated image to a MicroSD Card.
+Use SDDiskTool to flash the generated image to a microSD Card.
 
 <SSDISKTOOL />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/other-os/yocto/install-system/system-to-sd.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/other-os/yocto/install-system/system-to-sd.md
index 79360ba5b..ff30ab380 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/other-os/yocto/install-system/system-to-sd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5c/other-os/yocto/install-system/system-to-sd.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import SystemToSD from '../../../../../common/yocto/\_system-to-sd.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 <SystemToSD board="ROCK 5C" board_conf="rockchip-rk3588s-rock-5c.conf" soc="rk3588s" board_name="rock-5c" />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/install-os/boot_form_sd_card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/install-os/boot_form_sd_card.md
index 6f5e23950..bd6645184 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/install-os/boot_form_sd_card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/install-os/boot_form_sd_card.md
@@ -9,7 +9,7 @@ imports_resolve_to:
 
 import Etcher from '../../../../common/general/\_etcher.mdx';
 
-# Make a MicroSD boot disc
+# Make a microSD boot disc
 
 <Etcher model="rock5itx" product="Radxa ROCK 5 ITX" power_supply="12V DC" sd_slot="/img/rock5itx/rock5itx-sd-slot.webp" />
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/install-os/microsd-boot-disk.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/install-os/microsd-boot-disk.md
index d637f3265..ef159766c 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/install-os/microsd-boot-disk.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/install-os/microsd-boot-disk.md
@@ -14,7 +14,7 @@ For third-party systems, please refer to [Resource Download](../../download)
 
 ### Creating a boot disk
 
-Refer to [Making a MicroSD boot disc](./etcher) above, we will use it as a base to install the system into eMMC.
+Refer to [Making a microSD boot disc](./etcher) above, we will use it as a base to install the system into eMMC.
 
 ### Logging in to the system
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/introduction.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/introduction.md
index 815cd2601..4d4ed915e 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/introduction.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/getting-started/introduction.md
@@ -174,7 +174,7 @@ The ROCK 5 ITX is not only a high-performance ARM-based PC board but also a vers
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
@@ -272,7 +272,7 @@ The ROCK 5 ITX is not only a high-performance ARM-based PC board but also a vers
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
@@ -366,7 +366,7 @@ The ROCK 5 ITX is not only a high-performance ARM-based PC board but also a vers
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/hardware-design/hardware-interface.md
index 14fd5344d..3bb44898b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/hardware-design/hardware-interface.md
@@ -81,7 +81,7 @@ sidebar_position: 4
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
@@ -179,7 +179,7 @@ sidebar_position: 4
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
@@ -273,7 +273,7 @@ sidebar_position: 4
       </tr>
       <tr>
         <th>4</th>
-        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">MicroSD</a></th>
+        <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#miscro-sd">microSD</a></th>
         <th>12</th>
         <th><a href="/rock5/rock5itx/hardware-design/hardware-interface#usb-30--hdmi-11">USB 3.0 + HDMI</a></th>
         <th>20</th>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/other-os/android/preparation.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/other-os/android/preparation.md
index 375268871..8436effe7 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/other-os/android/preparation.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5itx/other-os/android/preparation.md
@@ -24,7 +24,7 @@ The ROCK 5 ITX is powered by a 12V power supply, and it is recommended to use a
 
 ### Storage (choose one out of three)
 
--MicroSD, greater than 8GB (for booting from SD)
+-microSD, greater than 8GB (for booting from SD)
 -EMMC Module (On board)
 -NVME SSD (M.2 interface ,for booting from SPI-NVME)
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/download.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/download.md
index 318eefad3..630f452f2 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/download.md
@@ -16,7 +16,7 @@ import Images from "./\_image.mdx"
 
 - Android
 
-[Radxa ROCK 5T Android 12 MicroSD and eMMC System Image](https://github.com/radxa/manifests/releases/download/radxa-rock5t-20250226/Rock5T-Android12-rk14-20250226-gpt.zip)：Suitable for booting from MicroSD card or onboard eMMC.
+[Radxa ROCK 5T Android 12 microSD and eMMC System Image](https://github.com/radxa/manifests/releases/download/radxa-rock5t-20250226/Rock5T-Android12-rk14-20250226-gpt.zip)：Suitable for booting from microSD card or onboard eMMC.
 
 :::caution
 Except for the above images which have been fully tested officially, the other images have not been rigorously tested and may have unknown issues and are for evaluation purposes only.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/faq.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/faq.md
index 716f8a120..771d0d937 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/faq.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/faq.md
@@ -48,7 +48,7 @@ Follow the steps below to troubleshoot ROCK 5T:
 
 Confirmation:
 
-Remove the MicroSD, NVME device and short DISABLE SPI pin, then connect the board and PC via USB cableand press Maskrom key，then see if the device enters [Maskrom state](./low-level-dev/maskrom/).
+Remove the microSD, NVME device and short DISABLE SPI pin, then connect the board and PC via USB cableand press Maskrom key，then see if the device enters [Maskrom state](./low-level-dev/maskrom/).
 If it's not in MaskRom state, it's most likely due to the following reasons.
 
 In [Burning system to eMMC via USB](./low-level-dev/maskrom/), did not follow the instructions to press the Maskrom button, causing the system to reach the [SPI Flash](./low-level-dev/maskrom/erase), and when the system starts, it reads the SPI information first, and then there is an error and it cannot start normally.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/getting-started/install-os/boot_from_sd_card.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/getting-started/install-os/boot_from_sd_card.md
index d6ece7e8b..9d93a5a9d 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/getting-started/install-os/boot_from_sd_card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/getting-started/install-os/boot_from_sd_card.md
@@ -11,15 +11,15 @@ imports_resolve_to:
 import Images from "../../\_image.mdx"
 import Etcher from '../../../../common/general/\_etcherV2.mdx';
 
-# Install the system on the MicroSD card
+# Install the system on the microSD card
 
 ## File download
 
 <Images loader={false} rock5t_system_img={true} rock5t_system_img_61={true} spi_img={false} />
 
-## MicroSD Card Preparation
+## microSD Card Preparation
 
-Insert the MicroSD card into the SD card reader, and then insert the card reader into the USB port of the PC
+Insert the microSD card into the SD card reader, and then insert the card reader into the USB port of the PC
 
 ## Flash the image
 
@@ -27,7 +27,7 @@ Insert the MicroSD card into the SD card reader, and then insert the card reader
 
 ## Boot System
 
-After successfully flashing the MicroSD Card using the previous steps, insert the MicroSD Card into the MicroSD Card slot (as shown in the image below). Then, power on the device. The power indicator light will display a solid green color, indicating the system has started booting up. Once the normal startup process completes, the indicator light will begin blinking. After a short period of time, the HDMI output will display the desktop.
+After successfully flashing the microSD Card using the previous steps, insert the microSD Card into the microSD Card slot (as shown in the image below). Then, power on the device. The power indicator light will display a solid green color, indicating the system has started booting up. Once the normal startup process completes, the indicator light will begin blinking. After a short period of time, the HDMI output will display the desktop.
 
 <img
 src="/img/rock5b/rock5b-interface-2.webp"
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/getting-started/install-os/emmc_boot.md b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/getting-started/install-os/emmc_boot.md
index 258ee9c86..c32ff3183 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/getting-started/install-os/emmc_boot.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rock5/rock5t/getting-started/install-os/emmc_boot.md
@@ -4,12 +4,12 @@ sidebar_position: 3
 
 # Install the system to eMMC
 
-If your Radxa ROCK 5T has onboard eMMC, you can use the `dd` command to write the system image to eMMC while booting from a MicroSD card.
+If your Radxa ROCK 5T has onboard eMMC, you can use the `dd` command to write the system image to eMMC while booting from a microSD card.
 
 :::tip Important Notes
 Installing the system will format the eMMC. Please back up any important data in advance!
 
-If your system cannot currently boot from a MicroSD card, you can refer to the [Install OS to MicroSD Card](./boot_from_sd_card.md) tutorial.
+If your system cannot currently boot from a microSD card, you can refer to the [Install OS to microSD Card](./boot_from_sd_card.md) tutorial.
 :::
 
 ## Prerequisites
@@ -17,10 +17,10 @@ If your system cannot currently boot from a MicroSD card, you can refer to the [
 You will need the following hardware:
 
 - Board: Radxa ROCK 5T
-- Boot medium: MicroSD card
+- Boot medium: microSD card
 - Power adapter: Standard DC 12V/2A power adapter (DC-5525 interface)
 
-We will boot the system from the MicroSD card, download the system image file after entering the system, and then use the `dd` command to write the system image to eMMC.
+We will boot the system from the microSD card, download the system image file after entering the system, and then use the `dd` command to write the system image to eMMC.
 
 :::tip Recommended Accessories
 Radxa ROCK 5T only supports 12V power input, and a current of 2A or higher is recommended to ensure stable operation of all peripherals.
@@ -129,7 +129,7 @@ Device Start End Sectors Size Type
 
 ## Boot the System
 
-After completing the system installation, power off the board, remove the MicroSD card, and then reconnect the power adapter. The system will automatically boot from eMMC.
+After completing the system installation, power off the board, remove the microSD card, and then reconnect the power adapter. The system will automatically boot from eMMC.
 
 ## System Information
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/README.md b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/README.md
index 22acc7694..4e965562e 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/README.md
@@ -4,13 +4,13 @@ sidebar_position: 1
 
 # Install System
 
-ROCK Pi S V1.3 supports MicroSD card installation and system booting.
+ROCK Pi S V1.3 supports microSD card installation and system booting.
 
-ROCK Pi S V1.5 supports MicroSD card and on-chip eMMC installation and system booting. You can choose one of the two methods to install the system, and installing the system to MicroSD card is simpler.
+ROCK Pi S V1.5 supports microSD card and on-chip eMMC installation and system booting. You can choose one of the two methods to install the system, and installing the system to microSD card is simpler.
 
-#### [Install System to MicroSD Card](/rockpi/rockpis/getting-started/install-os/install-os-to-sd)
+#### [Install System to microSD Card](/rockpi/rockpis/getting-started/install-os/install-os-to-sd)
 
-Introduces the method of using MicroSD card to install and boot the system.
+Introduces the method of using microSD card to install and boot the system.
 
 #### [Install System to eMMC (Applicable to V1.5)](/rockpi/rockpis/getting-started/install-os/install-os-to-emmc)
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/install-os-to-emmc.md b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/install-os-to-emmc.md
index d05a55cc8..b07902c00 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/install-os-to-emmc.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/install-os-to-emmc.md
@@ -7,7 +7,7 @@ sidebar_position: 2
 This section tutorial mainly introduces how to install the system to the on-chip eMMC of the Radxa ROCK Pi S V1.5.
 
 :::tip
-ROCK Pi S V1.5 is based on the V1.3 version, and it has added the on-chip eMMC, so you can directly boot the system through eMMC without using a MicroSD card.
+ROCK Pi S V1.5 is based on the V1.3 version, and it has added the on-chip eMMC, so you can directly boot the system through eMMC without using a microSD card.
 :::
 
 ## Hardware Preparation
@@ -148,14 +148,14 @@ rkdeveloptool -V
 We need to put the ROCK Pi S into Maskrom mode to install the system on the eMMC.
 
 :::tip
-The MicroSD card must be removed for the ROCK Pi S to enter Maskrom mode. Otherwise, it will boot directly from the MicroSD card instead of entering Maskrom mode.
+The microSD card must be removed for the ROCK Pi S to enter Maskrom mode. Otherwise, it will boot directly from the microSD card instead of entering Maskrom mode.
 :::
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rockpi/pis/rock-pi-s-v15-maskrom.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-① : MicroSD card slot --> Ensure the MicroSD card is removed
+① : microSD card slot --> Ensure the microSD card is removed
 
 ② : Maskrom button
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/install-os-to-sd.md b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/install-os-to-sd.md
index dd813bed6..c3e962675 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/install-os-to-sd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/install-os/install-os-to-sd.md
@@ -2,9 +2,9 @@
 sidebar_position: 1
 ---
 
-# Installing OS to MicroSD Card
+# Installing OS to microSD Card
 
-This guide explains how to install an operating system to a MicroSD card.
+This guide explains how to install an operating system to a microSD card.
 
 ## Hardware Requirements
 
@@ -12,8 +12,8 @@ Prepare the following hardware to complete the system installation and boot proc
 
 #### For Installation
 
-- Card Reader: MicroSD card reader
-- Boot Media: MicroSD card (32GB or larger recommended)
+- Card Reader: microSD card reader
+- Boot Media: microSD card (32GB or larger recommended)
 
 #### For Booting
 
@@ -26,13 +26,13 @@ The ROCK Pi S board only supports 5V power input. A minimum current of 1A is rec
 
 ## Installing the OS
 
-Installing the OS will format the MicroSD card. Please back up any important data before proceeding.
+Installing the OS will format the microSD card. Please back up any important data before proceeding.
 
 ### Download System Image
 
 On your PC, visit the [Downloads](../../download) page to find the official operating system image.
 
-After downloading, extract the system image file. The resulting `*.img` file is the system image to be flashed to the MicroSD card.
+After downloading, extract the system image file. The resulting `*.img` file is the system image to be flashed to the microSD card.
 
 :::tip
 The downloaded system image is a compressed file that must be extracted before it can be written to the SD card using image writing software. Writing the compressed file directly to the SD card may result in installation failure or boot issues.
@@ -40,7 +40,7 @@ The downloaded system image is a compressed file that must be extracted before i
 
 ### Hardware Connection
 
-Insert the MicroSD card into the card reader, then connect the card reader to a USB port on your PC.
+Insert the microSD card into the card reader, then connect the card reader to a USB port on your PC.
 
 <div style={{textAlign: 'center'}}>
   <img src="/img/rock4/4d/sd-insert.webp" style={{width: '100%', maxWidth: '1200px'}} />
@@ -48,7 +48,7 @@ Insert the MicroSD card into the card reader, then connect the card reader to a
 
 ### Install System Image
 
-Use the open-source image burning tool Etcher to burn the system image file to the MicroSD card.
+Use the open-source image burning tool Etcher to burn the system image file to the microSD card.
 
 #### Download Etcher
 
@@ -153,8 +153,8 @@ Password: radxa
 
 After completing the system image installation:
 
-1. Remove the MicroSD card from the card reader
-2. Insert the card into the MicroSD card slot on the mainboard
+1. Remove the microSD card from the card reader
+2. Insert the card into the microSD card slot on the mainboard
 3. Power on the system using either:
    - A 5V Type-C power adapter, or
    - A Type-C to Type-A cable connected to a PC
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/quickly-start.md b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/quickly-start.md
index d22c0823d..3f433c6a1 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/quickly-start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis/getting-started/quickly-start.md
@@ -33,8 +33,8 @@ This chapter is designed to help you get started quickly with the Radxa ROCK Pi
 To complete all the steps in this quick start guide, you'll need to prepare the following hardware in advance:
 
 - Motherboard: Radxa ROCK Pi S
-- Boot Media: MicroSD Card
-- MicroSD Card Reader: For reading/writing the MicroSD card
+- Boot Media: microSD Card
+- microSD Card Reader: For reading/writing the microSD card
 - USB to UART Serial Cable: For serial debugging and login
 - Power Supply: 5V Type-C power adapter or Type-C to Type-A cable connected to a PC
 
@@ -48,9 +48,9 @@ You can use this to access system output, verify successful boot, and log into t
 
 The ROCK Pi S board only supports 5V power input. A minimum current of 1A is recommended to ensure stable operation of all peripherals.
 
-- MicroSD Card Reader
+- microSD Card Reader
 
-ROCK Pi S V1.5 supports eMMC for system installation and booting. If you install the system to eMMC, a MicroSD card reader is not required.
+ROCK Pi S V1.5 supports eMMC for system installation and booting. If you install the system to eMMC, a microSD card reader is not required.
 
 :::
 
@@ -62,17 +62,17 @@ Choose the installation tutorial that matches your ROCK Pi S version.
 
 <TabItem value=" ROCK Pi S V1.3 ">
 
-ROCK Pi S V1.3 supports MicroSD card installation and system booting.
+ROCK Pi S V1.3 supports microSD card installation and system booting.
 
-- Refer to the [Install System to MicroSD Card](./install-os/install-os-to-sd.md) tutorial.
+- Refer to the [Install System to microSD Card](./install-os/install-os-to-sd.md) tutorial.
 
 </TabItem>
 
 <TabItem value=" ROCK Pi S V1.5 ">
 
-ROCK Pi S V1.5 supports MicroSD card and on-chip eMMC installation and system booting. You can choose one of the two methods to install the system, and installing the system to MicroSD card is simpler.
+ROCK Pi S V1.5 supports microSD card and on-chip eMMC installation and system booting. You can choose one of the two methods to install the system, and installing the system to microSD card is simpler.
 
-- Refer to the [Install System to MicroSD Card](./install-os/install-os-to-sd.md) tutorial
+- Refer to the [Install System to microSD Card](./install-os/install-os-to-sd.md) tutorial
 - Refer to the [Install System to eMMC (Applicable to V1.5)](./install-os/install-os-to-emmc.md) tutorial
 
 </TabItem>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/README.md b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/README.md
index 39ff43a2f..585c774fe 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/README.md
@@ -15,7 +15,7 @@ _The images presented depict a particular configuration of the Radxa ROCK Pi S0.
 | SoC             | RK3308B                                                                                                          |
 | CPU             | Quad‑core Arm® Cortex®‑A35 64‑bit @ 1.0GHz                                                                     |
 | RAM             | 256MB / 512MB DDR3                                                                                               |
-| Storage         | 0GB / 2GB / 4GB / 8GB Onboard eMMC, MicroSD Slot                                                                 |
+| Storage         | 0GB / 2GB / 4GB / 8GB Onboard eMMC, microSD Slot                                                                 |
 | Wireless Module | WiFi 4 / BT 5.0 with BLE                                                                                         |
 | USB             | 1x USB2.0 OTG via 4-Pin MX 1.25mm connector for Power and Data <br/>1x USB2.0 HOST via 4-Pin MX 1.25mm connector |
 | Ethernet        | 1x 100M Ethernet RJ45 via 4Pin MX 1.25mm connector                                                               |
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/getting-started/install-os-to-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/getting-started/install-os-to-sd-card.md
index 640318c65..0b37da33e 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/getting-started/install-os-to-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/getting-started/install-os-to-sd-card.md
@@ -27,7 +27,7 @@ Please go to [Download Summary](./download) to download the corresponding image
 
 ## Boot the system
 
-- After successfully burning the microSD card according to the above steps, insert the microSD card into the MicroSD Card Slot.
+- After successfully burning the microSD card according to the above steps, insert the microSD card into the microSD Card Slot.
 
 - The power supply port of ROCK Pi S0 is 4-Pin USB 2.0 OTG port, please use [USB OTG Cable](/rockpi/rockpis0/getting-started/preparation#usb-otg-cable) to Connect the power supply port and the power adapter.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/hardware/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/hardware/hardware-interface.md
index 0ae20548a..df6d8695b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/hardware/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/hardware/hardware-interface.md
@@ -37,7 +37,7 @@ The AP6212 Wi-Fi/BT module is on board, which can access the network via Wi-Fi.
 
 The AP6212 Wi-Fi/BT module is onboard, which allows you to access devices such as Bluetooth stereo via BT.
 
-## MicroSD
+## microSD
 
 Can be used as system boot media or storage media
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/other-os/buildroot.md b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/other-os/buildroot.md
index 303c89c3b..98ff86626 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/other-os/buildroot.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/rockpi/rockpis0/other-os/buildroot.md
@@ -113,8 +113,8 @@ On Windows, use `RKDevTool` via the Type-A flashing port to write `update.img` i
     <img src="/en/img/rock4/4d/other-os-burn-img.webp" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
-### Flash the Image to a MicroSD Card
+### Flash the Image to a microSD Card
 
-Use SDDiskTool to write the generated image to a MicroSD card.
+Use SDDiskTool to write the generated image to a microSD card.
 
 <SSDISKTOOL />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/roobi/install-roobi.md b/i18n/en/docusaurus-plugin-content-docs/current/roobi/install-roobi.md
index 1c07580f5..d63817ce2 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/roobi/install-roobi.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/roobi/install-roobi.md
@@ -80,7 +80,7 @@ If you haven't performed this step, the system will boot normally.
 
 ![Balena_Etcher](/img/roobi/balena_etcher.webp)
 
-4. After writing is complete, remove the SD card from the host machine and insert it into the [MicroSD](../rock5/rock5itx/getting-started/introduction#board-overview) slot on your device, located at number **4**.
+4. After writing is complete, remove the SD card from the host machine and insert it into the [microSD](../rock5/rock5itx/getting-started/introduction#board-overview) slot on your device, located at number **4**.
 
 5. Remove any other storage media from your device and power it on.s
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/getting-started/install-os/boot-from-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/getting-started/install-os/boot-from-sd-card.md
index 75d2ffcee..429a1a147 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/getting-started/install-os/boot-from-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/getting-started/install-os/boot-from-sd-card.md
@@ -1,6 +1,6 @@
 ---
 sidebar_position: 1
-description: "Install System to MicroSD Card"
+description: "Install System to microSD Card"
 
 doc_kind: wrapper
 source_of_truth: common
@@ -10,15 +10,15 @@ imports_resolve_to:
 
 import Etcher from '../../../../../common/general/\_etcherV2.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 ## File Download
 
 Please download the related Images refer to [Summary of resource downloads](../../download)
 
-## Prepare MicroSD Card
+## Prepare microSD Card
 
-Insert the MicroSD card into an SD card reader, then plug the reader into a USB port on your PC.
+Insert the microSD card into an SD card reader, then plug the reader into a USB port on your PC.
 
 ## Image Burning
 
@@ -26,7 +26,7 @@ Insert the MicroSD card into an SD card reader, then plug the reader into a USB
 
 ## Start the System
 
-After successfully burning the MicroSD card following the steps above, insert the MicroSD card into the MicroSD card slot (as shown below), power on, and the system will start with the desktop displayed on HDMI.
+After successfully burning the microSD card following the steps above, insert the microSD card into the microSD card slot (as shown below), power on, and the system will start with the desktop displayed on HDMI.
 
 <img
 src="/img/cm3/cm3-io-sd-slot.webp"
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/erase.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/erase.md
index eed8aa922..7f1704d08 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/erase.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/erase.md
@@ -16,7 +16,7 @@ import ERASE from "../../../../../common/dev/\_erase-spi-emmc.mdx";
 
 <ol>
     <li>Install the CM3 onto the CM3 IO board</li>
-    <li>Remove (unplug) the MicroSD card from the CM3 IO board</li>
+    <li>Remove (unplug) the microSD card from the CM3 IO board</li>
     <li>Before powering on, press and hold the SPI Disable button or the eMMC Disable button on the CM3, and keep it pressed</li>
     <li>Connect a USB-A to Micro-USB cable to the OTG port (Micro-USB port) on the CM3 IO board, and the other end to the computer</li>
     <li>Connect the DC 12V power supply to power the CM3 IO board; if the green power LED stays on, it has successfully entered Maskrom mode (you can release the button at this point)</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/linux.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/linux.md
index 89b7d5117..8dbe48500 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/linux.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/linux.md
@@ -20,7 +20,7 @@ Please download the related System Images and Loader refer to [Summary of resour
 
 <ol>
     <li>Install the CM3 onto the CM3 IO board</li>
-    <li>Remove (unplug) the MicroSD card from the CM3 IO board</li>
+    <li>Remove (unplug) the microSD card from the CM3 IO board</li>
     <li>Before powering on, press and hold the SPI Disable button, and keep it pressed</li>
     <li>Connect a USB-A to Micro-USB cable to the OTG port (Micro-USB port) on the CM3 IO board, and the other end to the computer</li>
     <li>Connect the DC 12V power supply to power the CM3 IO board; if the green power LED stays on, it has successfully entered Maskrom mode (you can release the button at this point)</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/mac-os.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/mac-os.md
index 7375dfab9..88e5a855d 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/mac-os.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/mac-os.md
@@ -20,7 +20,7 @@ Please download the related System Images and Loader refer to [Summary of resour
 
 <ol>
     <li>Install the CM3 onto the CM3 IO board</li>
-    <li>Remove (unplug) the MicroSD card from the CM3 IO board</li>
+    <li>Remove (unplug) the microSD card from the CM3 IO board</li>
     <li>Before powering on, press and hold the SPI Disable button, and keep it pressed</li>
     <li>Connect a USB-A to Micro-USB cable to the OTG port (Micro-USB port) on the CM3 IO board, and the other end to the computer</li>
     <li>Connect the DC 12V power supply to power the CM3 IO board; if the green power LED stays on, it has successfully entered Maskrom mode (you can release the button at this point)</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/windows.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/windows.md
index 3d622f5b9..eb64df40b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/windows.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3/low-level-dev/maskrom/windows.md
@@ -20,7 +20,7 @@ Please download the related System Images and Loader refer to [Summary of resour
 
 <ol>
     <li>Install the CM3 onto the CM3 IO board</li>
-    <li>Remove (unplug) the MicroSD card from the CM3 IO board</li>
+    <li>Remove (unplug) the microSD card from the CM3 IO board</li>
     <li>Before powering on, press and hold the SPI Disable button, and keep it pressed</li>
     <li>Connect a USB-A to Micro-USB cable to the OTG port (Micro-USB port) on the CM3 IO board, and the other end to the computer</li>
     <li>Connect the DC 12V power supply to power the CM3 IO board; if the green power LED stays on, it has successfully entered Maskrom mode (you can release the button at this point)</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/getting-started/install-os/boot-from-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/getting-started/install-os/boot-from-sd-card.md
index c799c13dd..ecef9540e 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/getting-started/install-os/boot-from-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/getting-started/install-os/boot-from-sd-card.md
@@ -10,15 +10,15 @@ imports_resolve_to:
 
 import Etcher from '../../../../../common/general/\_etcherV2.mdx';
 
-# Install OS to MicroSD Card
+# Install OS to microSD Card
 
 ## File download
 
 Please download the system image refer to [Summary of resource downloads](../../download).
 
-## MicroSD card preparation
+## microSD card preparation
 
-Insert the MicroSD card into the SD card reader, and then insert the card reader into the USB port of the PC.
+Insert the microSD card into the SD card reader, and then insert the card reader into the USB port of the PC.
 
 ## Image burning
 
@@ -26,7 +26,7 @@ Insert the MicroSD card into the SD card reader, and then insert the card reader
 
 ## Boot the system
 
-After successfully burning the MicroSD Card according to the above steps, insert the MicroSD Card into the MicroSD Card slot (as shown in the following figure), and then power on the system, the system will start booting up and HDMI will display the desktop.
+After successfully burning the microSD Card according to the above steps, insert the microSD Card into the microSD Card slot (as shown in the following figure), and then power on the system, the system will start booting up and HDMI will display the desktop.
 
 <img
 src="/img/cm3i/radxa-cm3i-io-board-sd-slot.webp"
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/erase.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/erase.md
index 537bc9a72..5a6977ce9 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/erase.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/erase.md
@@ -15,7 +15,7 @@ import ERASE from "../../../../../common/dev/\_erase-spi-emmc.mdx";
 <ERASE loader="https://dl.radxa.com/rock3/images/loader/rock-3b/rk356x_spl_loader_ddr1056_v1.10.111.bin" rkdevtool_erase_emmc_img="/img/common/rkdevtool/rkdevtool_erase_all.webp" rkdevtool_erase_spi_flash_img="/img/common/rkdevtool/rkdevtool_erase_all.webp">
 
 <ol>
-    <li>Remove the MicroSD card from the base Board</li>
+    <li>Remove the microSD card from the base Board</li>
     <li>Simultaneously press and hold the Maskrom Button (SPI Flash) and Maskrom Button (eMMC) on the CM3I.</li>
     <li>Connect a PC host from the OTG port using a USB-A to USB-A cable</li>
     <li>Connect the power supply, you can enter the MASKROM mode</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/linux.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/linux.md
index 7d4d89758..570b27573 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/linux.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/linux.md
@@ -19,7 +19,7 @@ Please download the system image and Loader refer to [Summary of resource downlo
 <Rkdeveloptool>
 
 <ol>
-    <li>Remove the MicroSD card from the base Board</li>
+    <li>Remove the microSD card from the base Board</li>
     <li>Simultaneously press and hold the Maskrom Button (SPI Flash) and Maskrom Button (eMMC) on the CM3I.</li>
     <li>Connect a PC host from the OTG port using a USB-A to USB-A cable</li>
     <li>Connect the power supply, you can enter the MASKROM mode</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/mac-os.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/mac-os.md
index 0e50f6770..10ab2e54d 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/mac-os.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/mac-os.md
@@ -19,7 +19,7 @@ Please download the system image and Loader refer to [Summary of resource downlo
 <Rkdeveloptool >
 
 <ol>
-    <li>Remove the MicroSD card from the base Board</li>
+    <li>Remove the microSD card from the base Board</li>
     <li>Simultaneously press and hold the Maskrom Button (SPI Flash) and Maskrom Button (eMMC) on the CM3I.</li>
     <li>Connect a PC host from the OTG port using a USB-A to USB-A cable</li>
     <li>Connect the power supply, you can enter the MASKROM mode</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/windows.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/windows.md
index 345c7a7d3..af584f13d 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/windows.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3i/low-level-dev/maskrom/windows.md
@@ -19,7 +19,7 @@ Please download the system image and Loader refer to [Summary of resource downlo
 <Rkdevtool rkdevtool_emmc_img="/img/common/rkdevtool/rkdevtool_genenal_maskrom_flash.webp" loader_name="rk356x_spl_loader__v1.15.113.bin" emmc={false} pcie={false} sata={false} >
 
 <ol>
-    <li>Remove the MicroSD card from the base Board</li>
+    <li>Remove the microSD card from the base Board</li>
     <li>Simultaneously press and hold the Maskrom Button (SPI Flash) and Maskrom Button (eMMC) on the CM3I.</li>
     <li>Connect a PC host from the OTG port using a USB-A to USB-A cable</li>
     <li>Connect the power supply, you can enter the MASKROM mode</li>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3j/getting-started/install-os/boot-from-sd-card.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3j/getting-started/install-os/boot-from-sd-card.md
index bf84ced4f..e2165a85b 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3j/getting-started/install-os/boot-from-sd-card.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm3j/getting-started/install-os/boot-from-sd-card.md
@@ -16,9 +16,9 @@ import Etcher from '../../../../../common/general/\_etcherV2.mdx';
 
 Please go to the [Resource Download](../../download.md) section to download the corresponding image.
 
-## MicroSD Card Preparation
+## microSD Card Preparation
 
-Insert the MicroSD card into the SD card reader, and then plug the reader into the USB port of your PC.
+Insert the microSD card into the SD card reader, and then plug the reader into the USB port of your PC.
 
 ## Image Flash
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/README.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/README.md
index df6cdf5e9..3b63acf87 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/README.md
@@ -74,7 +74,7 @@ Radxa CM4 is available in two product versions, differing in their SoC and opera
 | CPU                   | Quad-core Cortex-A72 + Quad-core Cortex-A53, up to 2.2GHz                                                                                             |
 | GPU                   | ARM Mali G52 MC3 <br /> - Supports OpenGL ES 1.1, 2.0 and 3.2, OpenCL 2.1, Vulkan 1.2                                                                 |
 | NPU                   | Up to 6 TOPS@INT8 <br /> - Supports INT4/INT8/INT16/FP16/TF32 <br /> - Supports mainstream AI frameworks: TensorFlow, ONNX, PyTorch, Caffe            |
-| Storage               | Memory: LPDDR4X, up to 16GB <br /> Storage: Supports onboard eMMC, MicroSD card, UFS module, M.2 M Key NVMe SSD for data storage or system boot       |
+| Storage               | Memory: LPDDR4X, up to 16GB <br /> Storage: Supports onboard eMMC, microSD card, UFS module, M.2 M Key NVMe SSD for data storage or system boot       |
 | Networking            | Wired: 1x Gigabit Ethernet (PoE supported, requires external HAT) <br /> Wireless (optional): Wi-Fi 6, Bluetooth 5.4, with external antenna interface |
 | USB                   | - 2x USB 2.0 Type A HOST<br /> - 1x USB 3.0 Type A HOST<br /> - 1x USB 3.0 Type C OTG/HOST                                                            |
 | Audio Interface       | Audio Input: 3.5mm 4-pole headphone jack with microphone support <br /> Audio Output: Supports stereo output, can directly drive 32Ω headphones       |
@@ -117,7 +117,7 @@ Radxa CM4 is available in two product versions, differing in their SoC and opera
 | ②   | Function Pins (Power off/Reboot) | ⑨   | Gigabit Ethernet (PoE supported) | ⑯   | RTC Interface             |
 | ③   | Power Output                     | ⑩   | USB 3.0 Type-A Port              | ⑰   | UFS Module Interface      |
 | ④   | Fan Connector                    | ⑪   | HDMI Port                        | ⑱   | 4-lane MIPI CSI Interface |
-| ⑤   | MicroSD Card Slot                | ⑫   | 2x 2-lane MIPI CSI Interfaces    | ⑲   | 4-lane MIPI DSI Interface |
+| ⑤   | microSD Card Slot                | ⑫   | 2x 2-lane MIPI CSI Interfaces    | ⑲   | 4-lane MIPI DSI Interface |
 | ⑥   | Headphone Jack                   | ⑬   | PoE Interface                    | ⑳   | M.2 M Key 2280 Slot       |
 | ⑦   | USB 3.0 Type-C Ports             | ⑭   | 40 Pin GPIO Interface            | ㉑  | 3x 100 Pin B2B Connectors |
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/download.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/download.md
index 9ea249526..9fccd9312 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/download.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/download.md
@@ -14,13 +14,13 @@ For USB flashing, the Loader file is used for USB download initialization.
 
 - Debian Linux
 
-Compatible with MicroSD cards, onboard eMMC, and NVMe SSD for system boot.
+Compatible with microSD cards, onboard eMMC, and NVMe SSD for system boot.
 
 [Radxa Debian Linux Debian12 KDE](https://github.com/radxa-build/radxa-rk3576/releases/download/rsdk-r6/radxa-rk3576_bookworm_kde_r6.output_512.img.xz)
 
 - Android
 
-[Radxa CM4 Android 14 MicroSD and eMMC System Image](https://github.com/radxa/manifests/releases/download/radxa-cm4-android14-20250829/Radxa-cm4-android14-rkr6-sd_emmc-20250903-gpt.zip)：Suitable for booting from MicroSD card or onboard eMMC.
+[Radxa CM4 Android 14 microSD and eMMC System Image](https://github.com/radxa/manifests/releases/download/radxa-cm4-android14-20250829/Radxa-cm4-android14-rkr6-sd_emmc-20250903-gpt.zip)：Suitable for booting from microSD card or onboard eMMC.
 
 [Radxa CM4 Android 14 UFS Module System Image](https://github.com/radxa/manifests/releases/download/radxa-cm4-android14-20250829/Radxa_cm4_android14_rkr6_ufs_20250829-update.zip)：Suitable for booting from UFS module.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/install-system/microsd_boot.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/install-system/microsd_boot.md
index 46cb1edd1..367fc5589 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/install-system/microsd_boot.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/install-system/microsd_boot.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import BalenaEtcherUse from '../../../../../common/radxa-os/install-system/\_use_etcher_sd.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 <BalenaEtcherUse />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/quickly_start.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/quickly_start.md
index 8f7aff9b1..633a095c9 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/quickly_start.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/quickly_start.md
@@ -28,7 +28,7 @@ We'll use the CM4 with the CM4 IO Board for this quick start demonstration.
 You'll need to prepare the following hardware (choose one of the optional items for easier setup):
 
 - Mainboard: Radxa CM4 with CM4 IO Board
-- Boot media: MicroSD card
+- Boot media: microSD card
 - Power adapter: Standard DC 12V/2A power adapter (DC-5525 interface)
 - USB-to-TTL serial cable (optional): For serial debugging and system login
 - HDMI cable and monitor (optional): For displaying the system interface and GUI operations
@@ -44,7 +44,7 @@ The Radxa CM4 IO Board only supports 12V power input. A minimum of 2A current is
 
 You can install the system according to your boot media and hardware by following these tutorials:
 
-- [Install System to MicroSD Card](./install-system/microsd_boot) (Recommended)
+- [Install System to microSD Card](./install-system/microsd_boot) (Recommended)
 - [Install System to Onboard eMMC](./install-system/emmc_boot)
 - [Install System to NVMe SSD](./install-system/nvme_boot)
 
@@ -60,16 +60,16 @@ Password: radxa
 
 ## Booting the System
 
-After completing the system installation, insert the MicroSD card into the CM4 IO Board's MicroSD card slot, then connect the power adapter to boot the system.
+After completing the system installation, insert the microSD card into the CM4 IO Board's microSD card slot, then connect the power adapter to boot the system.
 
 :::tip Boot Priority
 If you have multiple boot media installed, the system will boot in the following priority order:
 
-MicroSD Card > Onboard eMMC > UFS Module > NVMe SSD
+microSD Card > Onboard eMMC > UFS Module > NVMe SSD
 :::
 
 <div style={{textAlign: 'center'}}>
-   <img src="/en/img/cm4/cm4_boot_sd.webp" alt="CM4 Booting from MicroSD Card" style={{width: '100%', maxWidth: '1200px'}} />
+   <img src="/en/img/cm4/cm4_boot_sd.webp" alt="CM4 Booting from microSD Card" style={{width: '100%', maxWidth: '1200px'}} />
 </div>
 
 When the system boots normally, the Radxa CM4's LED will light up green when powered on. After the system is running, it will turn off for a few seconds, then the CM4 IO Board's power indicator (red) will light up, and the user LED (green) along with the CM4's LED (green) will blink together.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/use_system.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/use_system.md
index 96d13a296..8c24eb582 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/use_system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/getting-started/use_system.md
@@ -17,7 +17,7 @@ Install the boot media in the corresponding slot on the motherboard, then power
 :::tip Boot Priority
 If you have multiple boot media installed on the motherboard, the system will boot in the following priority order:
 
-MicroSD Card > Onboard eMMC > UFS Module > NVMe SSD
+microSD Card > Onboard eMMC > UFS Module > NVMe SSD
 :::
 
 **Note:** You can remove the higher priority boot media to force the system to boot from a lower priority media.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/hardware-use/hardware_info.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/hardware-use/hardware_info.md
index 066e8de01..fdbe81ed4 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/hardware-use/hardware_info.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/hardware-use/hardware_info.md
@@ -44,7 +44,7 @@ sidebar_position: 1
 | ②   | Power Header (for shutdown/reboot) | ⑨   | Gigabit Ethernet (PoE supported with PoE HAT) | ⑯   | RTC Interface             |
 | ③   | Power Output                       | ⑩   | USB 3.0 Type-A Port                           | ⑰   | UFS Module Interface      |
 | ④   | Fan Connector                      | ⑪   | HDMI Port                                     | ⑱   | 4-lane MIPI CSI Interface |
-| ⑤   | MicroSD Card Slot                  | ⑫   | 2x 2-lane MIPI CSI Interfaces                 | ⑲   | 4-lane MIPI DSI Interface |
+| ⑤   | microSD Card Slot                  | ⑫   | 2x 2-lane MIPI CSI Interfaces                 | ⑲   | 4-lane MIPI DSI Interface |
 | ⑥   | Headphone Jack                     | ⑬   | PoE Interface                                 | ⑳   | M.2 M Key 2280 Slot       |
 | ⑦   | 2x USB 3.0 Type-C Ports            | ⑭   | 40 Pin GPIO Header                            | ㉑  | 3x 100 Pin B2B Connectors |
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/hardware-use/microsd.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/hardware-use/microsd.md
index 612f1b2c4..a33b643c2 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/hardware-use/microsd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/hardware-use/microsd.md
@@ -2,34 +2,34 @@
 sidebar_position: 2
 ---
 
-# MicroSD Card Slot
+# microSD Card Slot
 
-The Radxa CM4 IO Board features a built-in MicroSD card slot that is compatible with MicroSD, MicroSDHC, and MicroSDXC cards. It can be used as a system boot device or for expanded storage.
+The Radxa CM4 IO Board features a built-in microSD card slot that is compatible with microSD, microSDHC, and microSDXC cards. It can be used as a system boot device or for expanded storage.
 
 ## Hardware Connection
 
-Insert your MicroSD card into the MicroSD card slot on the Radxa CM4 IO Board.
+Insert your microSD card into the microSD card slot on the Radxa CM4 IO Board.
 
 :::tip Interface Location
-Refer to the [Hardware Information](./hardware_info.md) guide to locate the MicroSD card slot.
+Refer to the [Hardware Information](./hardware_info.md) guide to locate the microSD card slot.
 :::
 
 ## Usage Guide
 
-The MicroSD card can be used either as a system boot medium or as expanded storage.
+The microSD card can be used either as a system boot medium or as expanded storage.
 
 ### System Boot Medium
 
-When a MicroSD card with a bootable system is inserted, the Radxa CM4 will automatically boot from the MicroSD card by default.
+When a microSD card with a bootable system is inserted, the Radxa CM4 will automatically boot from the microSD card by default.
 
 ### Expanded Storage
 
-To use the MicroSD card as expanded storage, you can either:
+To use the microSD card as expanded storage, you can either:
 
 1. Boot the system from another boot medium, or
-2. Lower the boot priority of the MicroSD card in the boot order
+2. Lower the boot priority of the microSD card in the boot order
 
-This will prevent the system from booting from the MicroSD card while still allowing access to its storage capacity.
+This will prevent the system from booting from the microSD card while still allowing access to its storage capacity.
 
 :::tip Boot Note
 On some motherboards, you can configure the boot order through software to prioritize other boot devices.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/other-os/android/getting-started.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/other-os/android/getting-started.md
index 8c96e9c14..bc96bad4f 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/other-os/android/getting-started.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/other-os/android/getting-started.md
@@ -22,7 +22,7 @@ We use CM4 with CM4 IO board for the quick start demonstration.
 You need to prepare the following hardware devices in advance:
 
 - Board: Radxa CM4 with CM4 IO board
-- System boot medium: MicroSD card
+- System boot medium: microSD card
 - Power supply: Standard DC 12V/2A power adapter (DC-5525 interface)
 - Display device: Monitor and HDMI cable
 - Input devices: Keyboard and mouse (for GUI operation)
@@ -37,22 +37,22 @@ The Radxa CM4 IO board only supports 12V power input. It is recommended to use 2
 
 ## Install System
 
-Mainly introduces installing the system to MicroSD card.
+Mainly introduces installing the system to microSD card.
 
 :::warning Important Notice
 
-**Installing the system will completely format the MicroSD card, and all data will be permanently deleted!**
+**Installing the system will completely format the microSD card, and all data will be permanently deleted!**
 
 Please confirm before operation:
 
-- The MicroSD card contains no important data or data backup has been completed
+- The microSD card contains no important data or data backup has been completed
 - Select the correct storage device to avoid formatting other disks
 
 :::
 
 ### Hardware Connection
 
-Insert the MicroSD card into the MicroSD card reader, then insert the MicroSD card reader into the computer.
+Insert the microSD card into the microSD card reader, then insert the microSD card reader into the computer.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -73,7 +73,7 @@ The image file is a compressed package in `.img.xz` format. After downloading, i
 
 ### Write System Image
 
-Using Balena Etcher software, you can install the system image to the MicroSD card.
+Using Balena Etcher software, you can install the system image to the microSD card.
 
 :::tip Balena Etcher
 
@@ -94,7 +94,7 @@ Click the `Flash from file` option and select the system image file you download
 
 #### Select Storage Device
 
-Click the `Select target` option and select the MicroSD card device.
+Click the `Select target` option and select the microSD card device.
 
 <div style={{ textAlign: "center" }}>
   <img
@@ -112,7 +112,7 @@ Click the `Select target` option and select the MicroSD card device.
 
 #### Start Flashing
 
-Click the `Flash!` option to start flashing the system image to the MicroSD card.
+Click the `Flash!` option to start flashing the system image to the microSD card.
 
 <div style={{ textAlign: "center" }}>
   Wait for system installation to complete
@@ -140,4 +140,4 @@ Click the `Flash!` option to start flashing the system image to the MicroSD card
 
 ## Boot System
 
-After completing the system write, install the MicroSD card into the MicroSD card slot of the CM4 IO board, then use the 12V DC power adapter to power the CM4, and the system will start.
+After completing the system write, install the microSD card into the microSD card slot of the CM4 IO board, then use the 12V DC power adapter to power the CM4, and the system will start.
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/other-os/android/install-system.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/other-os/android/install-system.md
index bd1109251..824cb993d 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/other-os/android/install-system.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm4/other-os/android/install-system.md
@@ -9,5 +9,5 @@ The Android system installation steps are similar to the Linux system. You can r
 Notes:
 
 - MNVMe SSD cannot boot Android system
-- MicroSD card and eMMC boot use the same Android system image
+- microSD card and eMMC boot use the same Android system image
 - UFS module uses a dedicated Android system image
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm5/hardware/hw-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm5/hardware/hw-interface.md
index 513efc0ae..11d66a430 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm5/hardware/hw-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm5/hardware/hw-interface.md
@@ -54,7 +54,7 @@ The Radxa CM5 IO supports the MIPI DSI display function.
 Radxa recommends using [Radxa Display 8 HD](/accessories/display/lcd-8-hd) or [Radxa Display 10 FHD](../../../accessories/display/lcd-10-fhd).
 :::
 
-## MicroSD
+## microSD
 
 Can be used as a system boot disk or as a storage medium
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm5/other-os/yocto/install-system/system-to-sd.md b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm5/other-os/yocto/install-system/system-to-sd.md
index c1dce04ce..9956b88e8 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm5/other-os/yocto/install-system/system-to-sd.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/som/cm/cm5/other-os/yocto/install-system/system-to-sd.md
@@ -9,6 +9,6 @@ imports_resolve_to:
 
 import SystemToSD from '../../../../../../common/yocto/\_system-to-sd.mdx';
 
-# Install System to MicroSD Card
+# Install System to microSD Card
 
 <SystemToSD board="Radxa CM5 IO" board_conf="rockchip-rk3588s-radxa-cm5-io.conf" soc="rk3588s" board_name="radxa-cm5-io" />
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/template/module/hardware/hw-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/template/module/hardware/hw-interface.md
index b13aadcb4..2d81d2ba3 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/template/module/hardware/hw-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/template/module/hardware/hw-interface.md
@@ -28,4 +28,4 @@ sidebar_position: 4
 
 ## MIPI DSI
 
-## MicroSD
+## microSD
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/template/sbc/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/template/sbc/hardware-design/hardware-interface.md
index ffd362fe6..2557a2e2a 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/template/sbc/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/template/sbc/hardware-design/hardware-interface.md
@@ -34,4 +34,4 @@ sidebar_position: 4
 
 ## WIFI
 
-## MicroSD
+## microSD
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/template/tcm/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/template/tcm/hardware-design/hardware-interface.md
index ffd362fe6..2557a2e2a 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/template/tcm/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/template/tcm/hardware-design/hardware-interface.md
@@ -34,4 +34,4 @@ sidebar_position: 4
 
 ## WIFI
 
-## MicroSD
+## microSD
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero/hardware-design/hardware-interface.md
index e87a3e094..95d8dcda5 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero/hardware-design/hardware-interface.md
@@ -116,9 +116,9 @@ ZERO has an ap6212/ap6256/aw-cm256sm WiFi/BT module on board,the specific parame
 |    ap6256    | 802.11 a/b/g/n/ac |     2.4GHz/5GHz     |            433.3Mbps            |   Bluetooth 5.2    |
 |  aw-cm256sm  | 802.11 a/b/g/n/ac |     2.4GHz/5GHz     |            433.3Mbps            |   Bluetooth 4.2    |
 
-## MicroSD slot
+## microSD slot
 
-For MicroSD card booting or data storage.
+For microSD card booting or data storage.
 
 ## USB BOOT Button
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero2pro/README.md b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero2pro/README.md
index a7e3eb542..2670d7234 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero2pro/README.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero2pro/README.md
@@ -52,7 +52,7 @@ In order to maximize the performance of the Radxa ZERO 2 PRO, it is equipped wit
     </tr>
     <tr>
         <td align="center">Storage</td>
-        <td align="center">Optional onboard eMMC module: 16/32/64 GB<br/>MicroSD memory card</td>
+        <td align="center">Optional onboard eMMC module: 16/32/64 GB<br/>microSD memory card</td>
     </tr>
     <tr>
         <td align="center">Displays</td>
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero2pro/hardware-design/hardware-interface.md b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero2pro/hardware-design/hardware-interface.md
index d27439a93..828e5df64 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero2pro/hardware-design/hardware-interface.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero2pro/hardware-design/hardware-interface.md
@@ -155,9 +155,9 @@ On-board [eMMC on the back of the Radxa Zero 2 Pro](../hardware-design/hardware-
 
 ZERO 2 PRO has a Wi-Fi 5 (802.11 b/g/n/ac) & BT 5.0 with BLE wireless module on board.
 
-## MicroSD card slot
+## microSD card slot
 
-For MicroSD card boot or data storage.
+For microSD card boot or data storage.
 
 ## Power button
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero3/getting-started/install-os.md b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero3/getting-started/install-os.md
index 3415729eb..b7233536f 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero3/getting-started/install-os.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero3/getting-started/install-os.md
@@ -27,7 +27,7 @@ Please go to [Resource Download](../download.md) to download the corresponding i
 
 ## Boot the system
 
-- After successfully burning the microSD card according to the above steps, insert the microSD card into the MicroSD Card Slot.
+- After successfully burning the microSD card according to the above steps, insert the microSD card into the microSD Card Slot.
 
 - The Radxa ZERO 3 is powered by a [USB 2.0 OTG Type C port](../hardware-design/hardware-interface), using a Type C cable to connect the power port to the adapter.
 
diff --git a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero3/other-os/android/install-os.md b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero3/other-os/android/install-os.md
index 161699921..7ac4491f6 100644
--- a/i18n/en/docusaurus-plugin-content-docs/current/zero/zero3/other-os/android/install-os.md
+++ b/i18n/en/docusaurus-plugin-content-docs/current/zero/zero3/other-os/android/install-os.md
@@ -16,7 +16,7 @@ There are two main methods to install the operating system depends on where you
 
 **Boot from SD Card** (**recommended**)
 
-- Install the system image to a MicroSD card via a card reader
+- Install the system image to a microSD card via a card reader
 
 **Boot from eMMC OnBoard**
 
@@ -39,7 +39,7 @@ If the board doesn't come with eMMC, you can't boot from eMMC, such as Radxa ZER
 
 #### Install OS
 
-1. Insert MicroSD Card into SD Card reader, and then insert SD card Reader into PC's USB Port
+1. Insert microSD Card into SD Card reader, and then insert SD card Reader into PC's USB Port
 
 2. [Download](https://etcher.balena.io/) Flash tool `Etcher`.
    ![ROCK5A via Etcher 01](/img/rock5a/rock5a-etcher.webp)