ADRV9002 & ZCU102 Setup with IIO and qIQ Transceiver: Video Summary with Starting Timestamps * *[0:25] Setup*: Shows how to set up an Analog Devices ADRV9002 transceiver chip with a Xilinx ZCU102 host board using Analog Devices IIO software. * *[1:53] SD Card Image Creation*: * Download the latest image from Analog Devices. * Use software like Win32 Dis Imager to write the image to an SD card. * Configure the SD card for the ZCU102 and ADRV9002: * Copy specific files to the root directory of the SD card image. * Choose the right device tree (LVDS vs. CMOS). * Select independent or myo mode for the chip. * *[5:19] Verification*: * Boot the ZCU102 board with the created SD card image. * Connect to the board via a serial port using PuTTY and verify the presence of the axi adrv 9002 device. * Get the IP address assigned to the board. * *[8:10] Running the System with qIQ Transceiver*: * Open the qIQ Transceiver software. * Configure the instrument settings for the ADRV9002 (transmit, receive channels, frequency, attenuation, etc.). * Select the desired mode (e.g., 40 Mega samples per second). * Choose a transmit file (e.g., 802.11 11a signal). * Start the transmission and observe the data in the time domain, frequency domain, and spectrogram views. * Perform demodulation (dmod) of the captured frame. * Analyze the resulting constellation and EVM plots. * *[13:56] Creating a User Profile*: * Use the TE software from Analog Devices to create a custom profile for the chip. * Configure the chip's settings (e.g., mode, bandwidth, sampling rate). * Generate the profile files (JSON and stream). * Rename the stream file to "stream.bin". * Copy the generated JSON and stream files into the quick transceiver folder for access by the software. * *[19:14] Running with the Custom Profile*: * In quick transceiver, select the user-defined configuration in the instrument settings. * Choose a transmit file matching the new profile's settings. * Start the transmission and observe the data. i used gemini 1.5 flash and pro to summarize the transcript
Kuiper Linux, installed on a SD card, is used to boot the ZCU102 and runs the IIO software. This is the Linux method of booting and running the system. TES has a separate SD card for booting and running the system. The TES software runs on a Windows PC and talks over a network connection to the ZCU102. These are two different ways of using the eval system. We like the Linux system better, so that's what we use.
Where can i get the software for the SD card to use TES? Is this the software that is written using Analogs SD writing tool? Have you got a link to where I can find the correct software to get TES to work? Thank you for any help
The TES SD card comes with the ADRV9002 eval board. If you bought that board, check in the box. Here is a link to the Engineer Zone group supporting TES on the 9002: ez.analog.com/rf/wide-band-rf-transceivers/tes-gui-software-support-adrv9001-adrv9007/
ADRV9002 & ZCU102 Setup with IIO and qIQ Transceiver: Video Summary with Starting Timestamps
* *[0:25] Setup*: Shows how to set up an Analog Devices ADRV9002 transceiver chip with a Xilinx ZCU102 host board using Analog Devices IIO software.
* *[1:53] SD Card Image Creation*:
* Download the latest image from Analog Devices.
* Use software like Win32 Dis Imager to write the image to an SD card.
* Configure the SD card for the ZCU102 and ADRV9002:
* Copy specific files to the root directory of the SD card image.
* Choose the right device tree (LVDS vs. CMOS).
* Select independent or myo mode for the chip.
* *[5:19] Verification*:
* Boot the ZCU102 board with the created SD card image.
* Connect to the board via a serial port using PuTTY and verify the presence of the axi adrv 9002 device.
* Get the IP address assigned to the board.
* *[8:10] Running the System with qIQ Transceiver*:
* Open the qIQ Transceiver software.
* Configure the instrument settings for the ADRV9002 (transmit, receive channels, frequency, attenuation, etc.).
* Select the desired mode (e.g., 40 Mega samples per second).
* Choose a transmit file (e.g., 802.11 11a signal).
* Start the transmission and observe the data in the time domain, frequency domain, and spectrogram views.
* Perform demodulation (dmod) of the captured frame.
* Analyze the resulting constellation and EVM plots.
* *[13:56] Creating a User Profile*:
* Use the TE software from Analog Devices to create a custom profile for the chip.
* Configure the chip's settings (e.g., mode, bandwidth, sampling rate).
* Generate the profile files (JSON and stream).
* Rename the stream file to "stream.bin".
* Copy the generated JSON and stream files into the quick transceiver folder for access by the software.
* *[19:14] Running with the Custom Profile*:
* In quick transceiver, select the user-defined configuration in the instrument settings.
* Choose a transmit file matching the new profile's settings.
* Start the transmission and observe the data.
i used gemini 1.5 flash and pro to summarize the transcript
I would love to understand at least some of what this is, it sounds like it's really useful but I couldn't keep up! ;u;
Is Kuiper needed for connecting with the TES software?
Kuiper Linux, installed on a SD card, is used to boot the ZCU102 and runs the IIO software. This is the Linux method of booting and running the system.
TES has a separate SD card for booting and running the system. The TES software runs on a Windows PC and talks over a network connection to the ZCU102.
These are two different ways of using the eval system. We like the Linux system better, so that's what we use.
Where can i get the software for the SD card to use TES?
Is this the software that is written using Analogs SD writing tool?
Have you got a link to where I can find the correct software to get TES to work?
Thank you for any help
The TES SD card comes with the ADRV9002 eval board. If you bought that board, check in the box.
Here is a link to the Engineer Zone group supporting TES on the 9002:
ez.analog.com/rf/wide-band-rf-transceivers/tes-gui-software-support-adrv9001-adrv9007/