diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/556_554_boost_range.png b/docs/solutions/reference-designs/eval-cn0556-ebz/556_554_boost_range.png new file mode 100644 index 000000000..da8fa8865 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/556_554_boost_range.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:ef5c9e539cdbec327a642bf2918e4523568badc0de6460390cf1fdf75f4db186 +size 474283 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/556_554_buck_range.png b/docs/solutions/reference-designs/eval-cn0556-ebz/556_554_buck_range.png new file mode 100644 index 000000000..e46b42799 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/556_554_buck_range.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:648a4a61907678db630ef54b3cc2e1562bf19b02cbe1f907acc310b4cfb026a0 +size 477030 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/Boost.csv b/docs/solutions/reference-designs/eval-cn0556-ebz/Boost.csv new file mode 100644 index 000000000..38819badb --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/Boost.csv @@ -0,0 +1,10 @@ +,Parameter,pyadi-iio Function,Description,Minimum Value,Maximum Value +Write Functions,V2 Input Voltage,my_cn0556.set_boost_input_volt(value),sets the boost input voltage value,10V,14V +,V2 Undervoltage,my_cn0556.set_boost_input_undervolt(value),sets the boost input undervoltage value,8V,12V +,V1 Output Voltage,my_cn0556.set_boost_output_volt(value),sets the boost output voltage value,14V,56V +,V2 Input Current Limit,my_cn0556.set_boost_input_current_lim(value),sets the boost input current limit value,12A,35A +,V1 Output Current Limit,my_cn0556.set_boost_output_current_lim(value),set the boost output current limit value,0.07A,10A +Read Functions,Input Voltage at V2,my_cn0556.measure_boost_input_volt(),measures the boost input voltage at V2 side,approx. 10V to 14V, +,Output Voltage at V1,my_cn0556.measure_boost_output_volt(),measures the boost output voltage at V1 side,approx. 14V to 56V, +,Input Current at V2,my_cn0556.measure_boost_input_current(),measures the boost input current at V2 side,approx. 0A to 35A, +,Output Current at V1,my_cn0556.measure_boost_output_current(),measures the boost output current at V1 side,approx. 0.07A to 10A, diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/Buck.csv b/docs/solutions/reference-designs/eval-cn0556-ebz/Buck.csv new file mode 100644 index 000000000..c3b346942 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/Buck.csv @@ -0,0 +1,10 @@ +,Parameter,Pyadi-iio Function,Description,Minimum Value,Maximum Value +Write Functions,V1 Input Voltage,my_cn0556.set_buck_input_volt(value),sets the buck input voltage value,14V,56V +,V1 Undervoltage,my_cn0556.set_buck_input_undervolt(value),set the buck input undervoltage value,12V,54V +,V2 Output Voltage,my_cn0556.set_buck_output_volt(value),sets the buck output voltage value,2V,14V +,V1 Input Current Limit,my_cn0556.set_buck_input_current_lim(value),sets the buck input current limit value,0.07A,10A +,V2 Output Current Limit,my_cn0556.set_buck_output_current_lim(value),sets the buck output current limit value,12A,35 A +Read Functions,Input Voltage at V1,my_cn0556.measure_buck_input_volt(),measures the buck input voltage at V1 side,approx. 14Vto 56V, +,Output Voltage at V2,my_cn0556.measure_buck_output_volt(),measures the buck output voltage at V2 side,approx. 2Vto 14V, +,Input Current at V1,my_cn0556.measure_buck_input_current(),measures the buck input current at V1 side,approx. 0.07 A to 10 A, +,Output Current at V2,my_cn0556.measure_buck_output_current(),measures the buck output current at V2 side,approx. 0 A to 35 A, diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/boost_setup_rpi_556_554.png b/docs/solutions/reference-designs/eval-cn0556-ebz/boost_setup_rpi_556_554.png new file mode 100644 index 000000000..3c904bf74 --- 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+size 71042 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/eval-cn0556-ebz_angle.jpg b/docs/solutions/reference-designs/eval-cn0556-ebz/eval-cn0556-ebz_angle.jpg new file mode 100644 index 000000000..4850a2e5e --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/eval-cn0556-ebz_angle.jpg @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:37e3f6a5e8f8f22ed51596c9841bdc16eeebb5fb7393a6f45e1d6f5f4ffce9da +size 9258141 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/index.rst b/docs/solutions/reference-designs/eval-cn0556-ebz/index.rst new file mode 100644 index 000000000..19c91a6d0 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/index.rst @@ -0,0 +1,421 @@ +.. _eval-cn0556-ebz: + +EVAL-CN0556-EBZ +=============== + +Programmable High Current and Voltage Source/Sink Power Supply +"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" + +Overview +-------- + +The :adi:`EVAL-CN0556-EBZ ` is a programmable buck or boost power +supply featuring an adjustable buck output of 2V to 14V, 35A, and +adjustable boost output of 14V to 56V, 10A. The design allows the mode of +operation to externally controlled or automatically selected. Six independent +control loops regulate input and output voltage in both directions, as well as +provide input and output current limit programming and monitoring. + +The system input and output voltages and currents are monitored and controlled +through analog I/O. Using an analog I/O module, a single board computer such +as a Raspberry Pi platform can receive telemetry information to control the +board remotely. + +.. figure:: eval-cn0556-ebz_angle.jpg + :width: 500 px + +Features +~~~~~~~~ + + * High Efficiency Buck or Boost DC-DC Converter + * 14V to 56V Buck Input Voltage and 8V to 14V Boost Input Voltage + * Fully Programmable Bidirectional Control and Monitoring ​ + * Seamless Buck-to-Boost Transition and Vice Versa​ + * Buck Mode: 35A Maximum Output Current​ + * Boost Mode: 10A Maximum Output Current​ + * Reverse Current Protection + +Simplified Block Diagram +~~~~~~~~~~~~~~~~~~~~~~~~~ + +.. figure:: cn0556_simplified_block_diagram.png + :width: 600 px + +System Setup +------------ + +Requirements +~~~~~~~~~~~~ + +**Hardware** + + - :adi:`EVAL-CN0556-EBZ ` + - Analog I/O module :adi:`EVAL-CN0554-RPIZ ` + - Raspberry Pi 4 Model B + - Raspberry Pi 4 USB-C power supply + - Benchtop power supply, up to 56V and 35A + - Digital multimeter + - Electronic load + - MicroHDMI to HDMI cable + - Monitor with HDMI display + - USB keyboard and mouse + - 16 GB microSD card + +**Software** + + - :ref:`ADI Kuiper Linux image ` + - Python 3.7 or newer + +**Documentation** + + - :adi:`CN0556 Circuit Note ` + +Software Setup +-------------- + +The input and output voltages and current limits of the :adi:`CN0556` +can be controlled through software. Interfacing :adi:`CN0556` with the +:adi:`CN0554` analog I/O module enables full control capability. For +the device to run, the SD card should be loaded with Analog Devices Kuiper +Linux, a distribution based on Raspbian from the Raspberry Pi Foundation. It +incorporates Linux device drivers for ADI products as well as tools and other +software products designed and created with ease of use in mind. The reasoning +behind creating this distribution is to minimize the barriers to integrating ADI +hardware devices into a Linux-based embedded system. + +Access to the embedded system can be through ​a remote PC connected ​either via +LAN cable or Wi-Fi. + +Downloading and Flashing ADI Kuiper Linux Image on SD Card +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +In order to control the EVAL-CN0556-EBZ from the Raspberry Pi, you need to install ADI +Kuiper Linux on an SD card. Complete instructions, including where to download +the SD card image, how to write it to the SD card, and how to configure the +system are provided at :ref:`Kuiper Images `. + +.. figure:: command_prompt.png + +There is an available Wiki Page which explains in detail on how to download +and flash the SD card using Windows or Linux OS: **‘Configuring the SD Card +for Raspberry Pi Projects’** in the +:dokuwiki:`Formatting and Flashing SD Cards using Windows `. + +Configuring the SD Card for CN0556 +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +For the Linux kernel to identify the device connected to the expansion header, +update the device tree overlay. A Device Tree Overlay contains information about +additional connected hardware, the EVAL-CN0556-EBZ for this case. The overlay file +is already included in the SD card and just needs to be matched to the EVAL-CN0556-EBZ. + +Follow the procedure under **‘Configuring the SD Card for Raspberry Pi +Projects’** in the :ref:`Analog Devices Kuiper Linux page `, +substituting the following lines in **config.txt** + +This brings up the file in the terminal. Scroll down until the line that +begins with **“dtoverlay”** is found; then, whatever it currently is, change +it to: + +:: + + dtoverlay=rpi-cn0556 + +Running the Example Scripts using PyADI-IIO +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:ref:`PyADI-IIO ` is a python abstraction module for ADI hardware +with IIO drivers to make them easier to use. This module provides device-specific +APIs built on top of the current libIIO python bindings. These interfaces try to +match the driver naming as much as possible without the need to understand the +complexities of libIIO and IIO. + +Follow the step-by-step procedure on how to install, configure, and set up +PyADI-IIO and all necessary packages and modules found in +:ref:`pyadi-iio: Device Specific Python Interfaces for IIO Drivers `. + +Hardware Configuration +---------------------- + +Jumper Settings +~~~~~~~~~~~~~~~ + +**Using 3.3V from the on-board LDO** + +At P1, check if the shunt placed is in correct position. The shunt should be +placed correctly to short Pins 3 and 4. If it is not in proper placement, move +the shunt to the correct position before performing the rest of the tests. + +.. figure:: p1_1.jpg + :width: 400 px + +**Disabling Current Sharing Capability** + +The CN0556 enables a masterless fault-tolerant mechanism for sharing output +current, following below configuration: + ++------------------+----------------------------------------+-----------------+ +| Share Capability | ISHARE pin | IGND pin | ++==================+========================================+=================+ +| **ENABLED** | ISHARE shorted to IGND with RSHARE | | +| | resistor in between | | ++------------------+----------------------------------------+-----------------+ +| **DISABLED** | Shorted to INTVCC | Shorted to AGND | ++------------------+----------------------------------------+-----------------+ + +By default, this capability is **disabled** in CN0556. + +- Shunt must be placed on P5 to short ISHARE to INTVCC + + .. figure:: p5_2.jpg + :width: 400 px + +- Solder jumper P6 is **OPEN** by default to disconnect ISHARE to IGND: + +.. figure:: jumper_p6.png + :width: 400 px + +- Solder jumper P7 is **SHORTED** by default to short IGND to AGND: + +.. figure:: jumper_p7.png + :width: 400 px + +Hardware Setup +--------------- + +CN0556 Initial Hardware Setup (BUCK or BOOST Mode) +-------------------------------------------------- + +The :adi:`EVAL-CN0556-EBZ ` can be programmed to function in buck or +boost mode. Follow below steps to check the buck and boost converter +functionality of the :adi:`EVAL-CN0556-EBZ ` when connected to the +:adi:`EVAL-CN0554-RPIZ `, and its capability to control and monitor +the input and output voltage and current. + +======================== ========================= +Buck Mode Setup Boost Mode Setup +======================== ========================= +CN0556 Buck Mode Setup CN0556 Boost Mode Setup +======================== ========================= + +#. Connect the EVAL-CN0554-RPIZ to the Raspberry Pi 4 using the P20 connector as + shown below. + + .. figure:: rpi_554.png + +#. Insert the MicroSD card into the Raspberry Pi’s SD card slot. See + **Software Setup** section for instructions on how to + configure the SD Card for CN0556. +#. Connect the EVAL-CN0556-EBZ on top of the EVAL-CN0554-RPIZ and Raspberry Pi 4 + combination based on the connections indicated below. + + .. figure::cn0554_cn0556_rev_c.png + +#. Ensure that the jumper configuration at P1 and P5 is correct before powering + on the device. See **Jumper Settings** to verify the + configuration. +#. Ensure that the **P3** is not shorted by any wire. +#. Set up the connections to the Raspberry Pi 4. + + .. figure:: cn0556_figures.png + +#. Connect the MicroHDMI cable to the Raspberry Pi 4 and the other end to the + display monitor. +#. Connect the USB keyboard and a USB mouse to any of the USB ports in the + Raspberry Pi 4. +#. Plug the USB type C power adapter into the Raspberry Pi and wait for it to + boot up. + + +Mode 1: CN0556 in Buck Mode +---------------------------- + +Hardware Setup (continuation): +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +.. warning:: + The following steps involve high DC voltages. + Follow instructions carefully to prevent hot plugging, which may damage + the device by an overvoltage transient. + +#. Prepare a bench top power supply, electronic load, and two digital + multimeters. +#. Ensure that the power supply is completely turned off during the setup. + + .. figure:: cn0556_buck_boost_setup.png + +#. Connect the power supply to V1 terminals (BSTOUT and BSTGND). +#. Connect the first DMM to the V1 input terminals (BSTOUT and BSTGND). +#. Connect the electronic load to V2 terminals (BCKOUT and BCKGND). +#. Connect the second DMM to the V2 output terminals (BCKOUT and BCKGND). +#. Switch on the multimeter to measure DC voltage and probe the following points + after the test program has finished running. +#. Proceed to + **Running the Buck Mode Example Script** section for step-by-step + instructions on how to get measurements. + +Running the Buck Mode Example Script +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +.. tip:: + By default, the example script sets the board into Buck Mode and sets its + parameters to its maximum values. You may try to adjust the values after this test. + Refer to the table of ranges appropriate for each control function. + +#. Ensure that the power supply is at the V1 left side and the electronic load + is at the V2 right side. +#. Once the Raspberry Pi 4 has finished booting, open the command prompt or + terminal and navigate through the examples folder inside the downloaded or + cloned pyadi-iio directory. +#. Turn on the power supply and the electronic load. +#. Set the power supply at V1 left side to **56V** and set the current limit to + **2A**. *Do not enable the power supply yet*. +#. Set the electronic load at the right side to **0.1A**. +#. Enable the electronic load. +#. Navigate into the cn0556_examples folder inside the *pyadi-iio > examples* + directory. +#. Run the example script using the command: + + :: + + ~/pyadi-iio/examples/cn0556_examples $ python cn0556_example_buck.py + +#. The details of the current and voltage set at the output will be displayed. + + .. figure:: pyadi-iio_buck_1.png + +#. Enable the output of the power supply into the V1 terminals. +#. Check the DMM at the output V2 side. It should read approximately 14V. +#. If the reading is not 14V (or almost 0V), try to slowly increase the input + DC voltage at V1 to up to 58V. Once the output is 14V, decrease the input + voltage at V1 to 56V again. +#. Once the power supply is enabled, and the DMM reads approx. 14V, press the + **ENTER** key. + + .. figure:: pyadi-iio_buck_2.png + +#. The input and output voltage and current at the V1 and V2 side will be + printed in the command window. +#. The board will continuously regulate the output voltage to 14V unless CN0556 + is turned off. +#. Press **ENTER** to disable and turn off the board. +#. Turn off the power supply and the electronic load. Make sure that the + settings of the power supply are at 0V and 0A limit, as well as the + electronic load to 0A. + +Summary of Buck Mode Functions +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +The CN0556 buck mode pyadi-iio example script enables the user to control +the input and output parameters of the board, as well as to measure the +current and voltage at the input and output terminals. The summary of the +CN0556 functions for **Buck Mode** can be found below: + +.. csv-table:: Buck Mode Functions Summary + :file: buck.csv + +Mode 2: CN0556 in Boost Mode +---------------------------- + +Hardware Setup (continuation): +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +.. warning:: + The following steps involve high DC voltages. Follow instructions carefully + to prevent hot plugging, which may damage the device by an overvoltage transient. + +#. Prepare a bench top power supply, electronic load, and two digital + multimeters. +#. Ensure that the power supply is completely turned off during the setup. + + .. figure:: boost_setup_rpi_556_554.png + +#. Connect the power supply to V2 terminals (BCKOUT and BCKGND). +#. Connect the second DMM to the V2 input terminals (BCKOUT and BCKGND). +#. Connect the electronic load to V1 terminals (BSTOUT and BSTGND). +#. Connect the first DMM to the V1 output terminals (BSTOUT and BSTGND). +#. Switch on the multimeter to measure DC voltage. +#. Proceed to **Running the Boost Mode Example Script** + section for step-by-step instructions on how to get measurements. + +Running the Boost Mode Example script +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +.. tip:: + By default, the example script sets the board into Boost Mode and sets its + parameters to its maximum values. You may try to adjust the values after this test. + Refer to the table of ranges appropriate for each control function. + +#. Ensure that the power supply is at the V2 right side, and the electronic load + is at the V1 left side. +#. Once the Raspberry Pi 4 has finished booting, open the command prompt or + terminal and navigate through the examples folder inside the downloaded or + cloned pyadi-iio directory. +#. Turn on the power supply and the electronic load. +#. Set the power supply at V2 left side to **14V** and set the current limit to + **10A**. *Do not enable the power supply yet*. +#. Set the electronic load at the right side to **0.1A**. +#. Enable the electronic load. +#. Navigate into the cn0556_examples folder inside the *pyadi-iio > examples* + directory. +#. Run the example script using the command: + + :: + + ~/pyadi-iio/examples/cn0556_examples $ python cn0556_example_boost.py + +#. The details of the current and voltage set at the output will be displayed. + + .. figure:: pyadi-iio_boost_1.png + +#. Enable the output of the power supply into the V2 terminals. +#. Check the DMM at the output V1 side. It should read approximately 56V. +#. Once the power supply is enabled, and the DMM at the left side reads approx. + 56V, press the **ENTER** key. + + .. figure:: pyadi-iio_boost_2.png + +#. The input and output voltage and current at the V1 and V2 side will be + printed in the command window. +#. The board will continuously regulate the output voltage to 56V unless CN0556 + is turned off. +#. Press **ENTER** to disable and turn off the board. +#. Turn off the power supply and the electronic load. Make sure that the + settings of the power supply are at 0V and 0A limit, as well as the + electronic load to 0A. + +Summary of Boost Mode Functions +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +The CN0556 boost mode pyadi-iio example script enables the user to control the +input and output parameters of the board, as well as to measure the current and +voltage at the input and output terminals. The summary of the CN0556 functions +for **Boost Mode** can be found below: + +.. csv-table:: Boost Mode Functions Summary + :file: boost.csv + +Schematic, PCB Layout, Bill of Materials +---------------------------------------- + +.. admonition:: Download + + :download:`EVAL-CN0556-EBZ Design & Integration Files ` + + - Schematics + - PCB Layout + - Bill of Materials + - Allegro Project + +Additional Information and Useful Links +--------------------------------------- + +- :dokuwiki:`Formatting and Flashing SD Cards using Windows ` +- :dokuwiki:`Formatting and Flashing SD Cards using Linux ` +- :ref:`Kuiper Images ` +- :adi:`CN0556 Circuit Note Page ` +- :adi:`CN0554 Product Page ` +- :adi:`LT8228 Product Page ` +- :adi:`LT1930 Product Page ` +- :adi:`LT3010 Product Page ` +- :adi:`ADA4505-1 Product Page ` diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/jumper_p6.png b/docs/solutions/reference-designs/eval-cn0556-ebz/jumper_p6.png new file mode 100644 index 000000000..c460dd07b --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/jumper_p6.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:82dc2b64f5fca8858fe3896b3e274d332a792648aae588bc1eeb71a4f6de7a10 +size 67055 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/jumper_p7.png b/docs/solutions/reference-designs/eval-cn0556-ebz/jumper_p7.png new file mode 100644 index 000000000..d2a592bb4 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/jumper_p7.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:c9751b847e799e8ce08786440f7a02231a2bd1f8ff7bd9604f5445a142df709f +size 69093 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/p1_1.jpg b/docs/solutions/reference-designs/eval-cn0556-ebz/p1_1.jpg new file mode 100644 index 000000000..ea6c1780d --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/p1_1.jpg @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:a4438ad624d12f4eb22ee7bbb4f9a9301e97eda9be1a75468b6ad94d55baccfe +size 424223 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/p5_2.jpg b/docs/solutions/reference-designs/eval-cn0556-ebz/p5_2.jpg new file mode 100644 index 000000000..8b1877e74 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/p5_2.jpg @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:974ace4f7fda75789277893c60c4e3ea9af925fa43f237472c458b021717862a +size 407376 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_boost_1.png b/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_boost_1.png new file mode 100644 index 000000000..7779ea739 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_boost_1.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:4c7347370615bc539f4a9c235f4708f512ec90afccd75ca35b796419127f59a4 +size 55245 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_boost_2.png b/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_boost_2.png new file mode 100644 index 000000000..fbe4e0830 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_boost_2.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:fe363c16db8a3f0e895d5e1b0be74874aea14b6338df177bab86ce3333e4dc92 +size 39283 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_buck_1.png b/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_buck_1.png new file mode 100644 index 000000000..dcc019439 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_buck_1.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:dd08e4ca829210722abed743b70181ee7ac3e5813a4f6f683925bb59c4d6af6c +size 44037 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_buck_2.png b/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_buck_2.png new file mode 100644 index 000000000..0d85424b2 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/pyadi-iio_buck_2.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:fa24698d3c9424ce95e341faa9be3f9678297b01d8a92bde7024d47ea0622bf7 +size 30977 diff --git a/docs/solutions/reference-designs/eval-cn0556-ebz/rpi_554.png b/docs/solutions/reference-designs/eval-cn0556-ebz/rpi_554.png new file mode 100644 index 000000000..1b1c297b3 --- /dev/null +++ b/docs/solutions/reference-designs/eval-cn0556-ebz/rpi_554.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:f17b86b80da06dc58f377e80bb4ba2f8f97fa76b7a246d6a0035ffe06678638e +size 986227