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resources:eval:user-guides:pzsdr:testing [27 Jul 2022 13:19] – [Test image] Monica Constandachi | resources:eval:user-guides:pzsdr:testing [31 Jan 2023 04:21] – Replaced the obsolete Kuiper Linux page link Joyce Velasco | ||
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* USB host mode: a Micro USB (male) an adapter to type A (female) is used to connect a usb flash, lsusb linux command is run on carrier to see if host mode is enabled and flash is detected, check speed with hdparm, check that partition is mounted | * USB host mode: a Micro USB (male) an adapter to type A (female) is used to connect a usb flash, lsusb linux command is run on carrier to see if host mode is enabled and flash is detected, check speed with hdparm, check that partition is mounted | ||
* Ethernet: A cable is connected between the board' | * Ethernet: A cable is connected between the board' | ||
- | * Audio: Audio loopback cables plugged into horizontal sets of output/ | + | * Audio: Audio loopback cables plugged into horizontal sets of output/ |
* HDMI: Monitor connectivity is checked through physical displaying output on the attached monitor | * HDMI: Monitor connectivity is checked through physical displaying output on the attached monitor | ||
* Clocks: he clock monitor IP (axi_clock_monitor) is used to test several clock signal paths. The IP features a mechanism which measures the input clock frequency relative to the system clock and stores the result in an internal register. By checking if the measured clock signal is within an expected range the path is validated. 4 clock signals are measured, 3 of them generated by the FMC loopback at the same frequency of 156MHz and one is generated by the AD9517 PLL | * Clocks: he clock monitor IP (axi_clock_monitor) is used to test several clock signal paths. The IP features a mechanism which measures the input clock frequency relative to the system clock and stores the result in an internal register. By checking if the measured clock signal is within an expected range the path is validated. 4 clock signals are measured, 3 of them generated by the FMC loopback at the same frequency of 156MHz and one is generated by the AD9517 PLL | ||
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* 1 adrv9361_rfsom module | * 1 adrv9361_rfsom module | ||
* 1 adrv9361_rfsom FMC carrier board (ADRV1CRR) | * 1 adrv9361_rfsom FMC carrier board (ADRV1CRR) | ||
- | * 1 microSD card and SD adapter with the latest test image ([[resources/tools-software/linux-software/ | + | * 1 microSD card and SD adapter with the latest test image ([[:resources:tools-software:linux-software: |
* 1 External monitor with HDMI input | * 1 External monitor with HDMI input | ||
* 1 Scanner | * 1 Scanner | ||
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=== Test image === | === Test image === | ||
- | The production test software running on the target device is the [[/resources/tools-software/linux-software/ | + | The production test software running on the target device is the [[:resources:tools-software:linux-software: |
=== Required hardware === | === Required hardware === | ||
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* 1 adrv9361_rfsom module | * 1 adrv9361_rfsom module | ||
* 1 adrv936x_rfsom breakout board and power adapter | * 1 adrv936x_rfsom breakout board and power adapter | ||
- | * 1 microSD card using the latest [[/resources/tools-software/linux-software/ | + | * 1 microSD card using the latest [[:resources:tools-software:linux-software: |
* 1 External computer set up to monitor the serial connection | * 1 External computer set up to monitor the serial connection | ||