diff --git a/content/Hardware Support/Generic/I2C-and-pull-up-resistors.md b/content/Hardware Support/Generic/I2C-and-pull-up-resistors.md
index 0eb59a04..89e4a248 100644
--- a/content/Hardware Support/Generic/I2C-and-pull-up-resistors.md
+++ b/content/Hardware Support/Generic/I2C-and-pull-up-resistors.md
@@ -3,11 +3,9 @@ title: "I2C and pull-up resistors"
id: 4402394268562
---
-For effective data transmission with the Inter-Integrated Circuit (I2C) protocol using Arduino, it's often necessary to use external pull-up resistors on the designated I2C pins. Most Arduino boards don't have pre-installed pull-up resistors on these pins, but instead they offer exposed pads for surface mount resistors ("SMD"). This gives more flexibity on how these pins can be used. More specifically:
+For effective data transmission with the Inter-Integrated Circuit (I2C) protocol using Arduino, it's often necessary to use external pull-up resistors on the designated I2C pins. Most Arduino boards don't have pre-installed pull-up resistors on these pins, but instead they offer exposed pads for surface mount resistors. This gives more flexibity on how these pins can be used. More specifically:
* The I2C designated pins can also be used as General Purpose Input/Output (GPIO) pins or for Analog-to-Digital Conversion (ADC). In this modes, pull-up resistors are not typically required.
-* Users are not bound to use I2C with pre-set pull-up values. This is important because the optimal pull-up value can vary depending on different factors.
-
- Read more about I2C and pull-up values
+* Users are not bound to use I2C with pre-set pull-up values. This is important because the optimal pull-up value can vary depending on different factors. Read more about I2C and pull-up values
Therefore, when setting up I2C communication it is important to refer to the specifications and device datasheets for understanding the ideal pull-up value requirements.