Difference between revisions of "UCM-iMX93: Yocto Linux: How-To Guide"
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| align="" |ucm-imx93.dtb | | align="" |ucm-imx93.dtb | ||
+ | | align="" |default hardware configuration + lvds display | ||
+ | | align="" |P7/P8 lvds / touch is in use | ||
+ | |- | ||
+ | | align="" |ucm-imx93-mipi.dtb | ||
| align="" |default hardware configuration + mipi dsi display | | align="" |default hardware configuration + mipi dsi display | ||
− | | align="" |P11/P12 mipi | + | | align="" |P11/P12 mipi-dsi / touch is in use |
− | |||
− | |||
− | |||
− | |||
|- | |- | ||
| align="" |ucm-imx93-headless.dtb | | align="" |ucm-imx93-headless.dtb | ||
| align="" |default hardware configuration w/out any display | | align="" |default hardware configuration w/out any display | ||
+ | | align="" | | ||
+ | |- | ||
+ | | align="" |ucm-imx93-mipi-csi.dtb | ||
+ | | align="" |default hardware configuration + lvds display + camera | ||
+ | | align="" |see [[#Camera]] | ||
+ | |- | ||
+ | | align="" |ucm-imx93-eb-eth.dtb | ||
+ | | align="" |default hardware configuration + lvds display + Ethernet extension board | ||
| align="" | | | align="" | | ||
|- | |- | ||
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=Display= | =Display= | ||
+ | |||
+ | ==LVDS== | ||
+ | The UCM-iMX93 evaluation kit can be optionally supplied with the Startec KD070HDTLA020 7" LVDS LCD panel. | ||
+ | Connect the display data cable to connector [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''P7''']]. | ||
+ | Connect the display touch-panel cable to connector [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''P8''']]. | ||
+ | |||
+ | LVDS display requires the following device tree: '''ucm-imx93-lvds.dts'''. | ||
+ | |||
+ | The Linux device node for the display is described in: ''arch/arm64/boot/dts/compulab/ucm-imx93-lvds.dtsi''. | ||
+ | |||
==MIPI-DSI== | ==MIPI-DSI== | ||
− | + | SB-UCMIMX93 supports direct connection with the Startec KD050HDFIA 5" MIPI-DSI LCD panel. | |
Connect the MIPI-DSI display to connectors [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''P11''' and '''P12''']] on the SB-UCMIMX93 carrier-board. | Connect the MIPI-DSI display to connectors [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''P11''' and '''P12''']] on the SB-UCMIMX93 carrier-board. | ||
− | The MIPI-DSI display | + | The MIPI-DSI display requires the following device tree: '''ucm-imx93-mipi.dts'''.</br> |
+ | The MIPI-DSI display is described in the following device tree include file: ''arch/arm64/boot/dts/compulab/ucm-imx93-mipi.dtsi'' | ||
<!-- | <!-- | ||
descriptors of hw device for the drivers | descriptors of hw device for the drivers | ||
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/sys/class/drm/card0/card0-DSI-1/ | /sys/class/drm/card0/card0-DSI-1/ | ||
This device node contains information about the display, such as its supported modes and its current configuration. | This device node contains information about the display, such as its supported modes and its current configuration. | ||
− | |||
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− | |||
− | |||
− | |||
==Display Manager== | ==Display Manager== | ||
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=Camera= | =Camera= | ||
− | The UCM-iMX93 evaluation kit supports the e-con e- | + | The UCM-iMX93 evaluation kit supports the e-con e-CAM131_CURB 13MP 4K camera module.</br> |
Connect the camera to connector [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''P9''']] on the SB-UCMIMX93 carrier-board. | Connect the camera to connector [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''P9''']] on the SB-UCMIMX93 carrier-board. | ||
− | + | Use device tree file: '''ucm-imx93-mipi-csi.dtb''' | |
− | + | <!-- | |
Verify that the '''mxc-isi-cap''' driver is registered correctly: | Verify that the '''mxc-isi-cap''' driver is registered correctly: | ||
<pre> | <pre> | ||
Line 120: | Line 130: | ||
The camera device tree nodes are described in: ''arch/arm64/boot/dts/compulab/ucm-imx93.dtsi''.</br> | The camera device tree nodes are described in: ''arch/arm64/boot/dts/compulab/ucm-imx93.dtsi''.</br> | ||
− | + | ||
* camera interface: /soc@0/bus@42000000/i2c@42530000/mipi2@42 | * camera interface: /soc@0/bus@42000000/i2c@42530000/mipi2@42 | ||
* soc camera controller /soc@0/bus@42800000/camera/csi@4ae00000 | * soc camera controller /soc@0/bus@42800000/camera/csi@4ae00000 | ||
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SB-UCMIMX93 evaluation carrier-board exposes one CAN bus interface on connector [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''J21''']]. | SB-UCMIMX93 evaluation carrier-board exposes one CAN bus interface on connector [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''J21''']]. | ||
− | |||
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* Configure both CAN interface bit-rate to 1 Mbit/sec: | * Configure both CAN interface bit-rate to 1 Mbit/sec: | ||
<pre> | <pre> | ||
− | ip link set can0 type can bitrate 1000000 | + | ip link set can0 up type can bitrate 1000000 |
</pre> | </pre> | ||
− | * | + | |
+ | * On one system, dump all received data frames as well as error frames: | ||
<pre> | <pre> | ||
− | + | candump any,0:0,#FFFFFFFF | |
+ | |||
+ | can0 111 [8] 11 22 33 44 55 66 77 88 | ||
+ | can0 11111111 [8] 11 22 33 44 55 66 77 88 | ||
+ | ... | ||
+ | can0 03FF0983 [8] D7 61 FF 03 C1 F7 C1 34 | ||
+ | can0 19C34D32 [8] F7 5A C2 73 AD 0E 3F 0B | ||
+ | can0 0675E391 [4] 2B 2D D3 49 | ||
+ | can0 13091C55 [8] 99 32 EC 77 27 81 49 0B | ||
+ | can0 098D67CF [8] 22 50 AB 48 AD 7F F4 26 | ||
+ | can0 05263FEC [5] 1B 4C 02 45 6E | ||
+ | can0 12B30E20 [0] | ||
+ | can0 1F193DF9 [1] C5 | ||
+ | can0 1EB0B18F [8] 3E 3F DA 57 C2 FE 73 58 | ||
+ | can0 1E5C64D9 [5] 6F 0D B3 63 6A | ||
+ | can0 1E1DE3F9 [8] 96 48 AC 79 4E 00 27 71 | ||
+ | can0 0E1A11B7 [8] 75 81 70 7C 86 79 A7 77 | ||
+ | can0 05F8FD8B [7] 33 F9 9B 1E 77 3D 1F | ||
+ | can0 1E155FCD [8] E6 BA F8 58 ED 6D C8 10 | ||
+ | can0 1D91DF9E [8] 5D 29 82 7B 97 1D AB 5C | ||
+ | can0 11FB3CDA [3] 14 65 C3 | ||
+ | can0 091352C0 [2] 2C ED | ||
+ | ... | ||
</pre> | </pre> | ||
− | + | On second system: | |
− | + | * Send standard CAN frame: | |
− | |||
− | * Send standard CAN frame | ||
<pre> | <pre> | ||
cansend can0 111#1122334455667788 | cansend can0 111#1122334455667788 | ||
</pre> | </pre> | ||
− | * Send extended CAN frame | + | * Send extended CAN frame: |
<pre> | <pre> | ||
cansend can0 11111111#1122334455667788 | cansend can0 11111111#1122334455667788 | ||
Line 257: | Line 280: | ||
can0 11FB3CDA#14.65.C3 | can0 11FB3CDA#14.65.C3 | ||
can0 091352C0#2C.ED | can0 091352C0#2C.ED | ||
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... | ... | ||
</pre> | </pre> | ||
Line 354: | Line 350: | ||
<pre> | <pre> | ||
[Device_Name]# quit | [Device_Name]# quit | ||
+ | </pre> | ||
+ | |||
+ | =Cellular Modem= | ||
+ | UCM-IMX93 Yocto includes support for Quectel EC25 mini-PCIe cellular modem that can be installed into the evaluation kit. | ||
+ | |||
+ | * Install the modem module into the mini-PCIe socket [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''P18''']] | ||
+ | * Close jumper [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''E11''']] | ||
+ | * Connect a cellular antenna to the main antenna connector on the modem | ||
+ | * Install an active SIM card into SIM socket [[UCM-iMX93: Evaluation Kit: Hardware Guide#Connector_Locations | '''P20''']] | ||
+ | * Boot to linux | ||
+ | |||
+ | Run the following command to verify that the modem is detected correctly: | ||
+ | <pre> | ||
+ | root@ucm-imx93:~# lsusb | ||
+ | Bus 001 Device 002: ID 2c7c:0125 Quectel Wireless Solutions Co., Ltd. EC25 LTE modem | ||
+ | |||
+ | root@ucm-imx93:~# mmcli -L | ||
+ | /org/freedesktop/ModemManager1/Modem/0 [QUALCOMM INCORPORATED] QUECTEL Mobile Broadband Module | ||
+ | </pre> | ||
+ | Obtain <apn> of your sim card company ,e.g. rl.internet | ||
+ | |||
+ | Establish connection: | ||
+ | <pre> | ||
+ | root@ucm-imx93:~# nmcli connection add type gsm ifname '*' con-name CellularCon apn <apn> | ||
+ | root@ucm-imx93:~# nmcli connection | ||
+ | NAME UUID TYPE DEVICE | ||
+ | CellularCon a1620622-8588-4349-b3fc-66be79fbbede gsm cdc-wdm0 | ||
+ | </pre> | ||
+ | Allow up to a minute to connect to wireless network and make sure modem state is connected: | ||
+ | <pre> | ||
+ | root@ucm-imx93:~#mmcli -m 0 | ||
+ | </pre> | ||
+ | To test the wireless interface run: | ||
+ | <pre> | ||
+ | root@ucm-imx93:~#ping -c 5 dns.google -I wwan0 | ||
</pre> | </pre> | ||
Line 385: | Line 416: | ||
* Short pin P3-1 (UART5-RX) with P3-3 (UART5-TX) on SB-UCMIMX93 to create a loop-back. | * Short pin P3-1 (UART5-RX) with P3-3 (UART5-TX) on SB-UCMIMX93 to create a loop-back. | ||
* Run the following commands: | * Run the following commands: | ||
− | + | stty -F /dev/ttyLP4 1:0:1cb2:0:3:1c:7f:15:4:5:1:0:11:13:1a:0:12:f:17:16:0:0:0:0:0:0:0:0:0:0:0:0:0:0:0:0 | |
− | + | cat /dev/ttyLP4 & | |
− | + | echo hello > /dev/ttyLP4 | |
The "hello" string should appear on the terminal. | The "hello" string should appear on the terminal. | ||
<!-- | <!-- | ||
Line 479: | Line 510: | ||
=SPI= | =SPI= | ||
− | + | ||
− | + | Loopback example: | |
− | + | ||
− | + | In order to enable SPI device, it needs to be added to the device tree in the following manner: | |
− | + | ||
− | + | Set up the kernel source repository by following the instructions in this guide: https://github.com/compulab-yokneam/meta-bsp-imx9/blob/mickledore-6.1.55-2.0/Documentation/linux_kernel_build.md | |
− | + | ||
− | + | However, stop before the final command that builds the kernel. | |
− | + | ||
− | + | Instead of building the full kernel, run: | |
− | + | ||
− | + | make dtbs | |
− | + | ||
− | + | Locate the compiled device tree: | |
− | + | ||
− | + | arch/arm64/boot/dts/compulab/ucm-imx93-lpspi.dtb | |
+ | |||
+ | On the UCM-IMX93, identify your boot partition by running: | ||
+ | |||
+ | lsblk | ||
+ | |||
+ | Then, copy the .dtb file to that partition. | ||
+ | |||
+ | Restart your device and interrupt the boot process to access U-Boot. Then run: | ||
+ | |||
+ | setenv fdtfile ucm-imx93-lpspi.dtb; boot | ||
+ | |||
+ | Compile the SPI test tool: | ||
+ | |||
+ | ${CROSS_COMPILE}gcc ./tools/spi/spidev_test.c -o ./spidev_test | ||
+ | |||
+ | Copy the spidev_test binary to the SoM. | ||
+ | |||
+ | SPI signals location: | ||
<pre> | <pre> | ||
− | + | ECSPI3_MOSI - P3.14 | |
− | + | ECSPI3_SCLK - P3.16 | |
− | + | ECSPI3_MISO/UART7_RX - U25 pin 1 (beside RS485) | |
− | + | ECSPI3_SSO/UART7_TX - U25 pin 4 (beside RS485) | |
− | |||
− | |||
− | |||
− | |||
− | / | ||
− | / | ||
</pre> | </pre> | ||
+ | |||
+ | Use jumper cable to connect MOSI and MISO. | ||
+ | |||
+ | On the module, run: | ||
+ | ./spidev_test -v -D /dev/spidev0.0 -p "hello" | ||
+ | |||
+ | You should see RX same as TX. | ||
=GPIO= | =GPIO= | ||
− | The following | + | The following table outlines default GPIO assignments when UCM-iMX93 is used with the SB-UCMIMX93 carrier-board: |
{| class="wikitable" style="text-align:left;" | {| class="wikitable" style="text-align:left;" | ||
|- | |- | ||
| align="center" | '''Signal Name | | align="center" | '''Signal Name | ||
| align="center" | '''On SB-UCMIMX93''' | | align="center" | '''On SB-UCMIMX93''' | ||
− | + | | align="center" | '''GPIO # in Linux''' | |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | | align="center" | | ||
|- | |- | ||
| align="center" |GPIO_IO04 | | align="center" |GPIO_IO04 | ||
| align="center" |P3-20 | | align="center" |P3-20 | ||
+ | | align="center" |32+4 | ||
|- | |- | ||
| align="center" |GPIO_IO05 | | align="center" |GPIO_IO05 | ||
| align="center" |P3-18 | | align="center" |P3-18 | ||
+ | | align="center" |32+18 | ||
|- | |- | ||
| align="center" |GPIO_IO07 | | align="center" |GPIO_IO07 | ||
| align="center" |P3-6 | | align="center" |P3-6 | ||
+ | | align="center" |32+7 | ||
|- | |- | ||
| align="center" |GPIO_IO14 | | align="center" |GPIO_IO14 | ||
| align="center" |P5-4 | | align="center" |P5-4 | ||
+ | | align="center" |32+14 | ||
|- | |- | ||
| align="center" |GPIO_IO15 | | align="center" |GPIO_IO15 | ||
− | | align="center" | | + | | align="center" |P5-2 |
+ | | align="center" |32+15 | ||
|- | |- | ||
| align="center" |GPIO_IO16 | | align="center" |GPIO_IO16 | ||
| align="center" |P3-4 | | align="center" |P3-4 | ||
− | + | | align="center" |32+16 | |
− | |||
− | | align="center" | | ||
|- | |- | ||
|} | |} | ||
+ | These GPIOs belong to ''gpiochip0'' which numbering space starts at 32. Therefore it is required to add 32 to the GPIO number.</br> | ||
+ | Other signals that are reserved for peripheral controls can be reassigned to function as GPIOs in ''arch/arm64/boot/dts/compulab/ucm-imx93-pinctrl.dtsi''. | ||
− | + | ==Example: controlling pin GPIO_IO16== | |
− | + | '''Exporting the pin in sysfs'''</br> | |
− | + | Create a file system export entry: | |
− | + | <pre> | |
− | + | cd /sys/class/gpio/ | |
− | + | echo $((32+16)) > export | |
− | + | </pre> | |
− | + | Now pin GPIO_IO16 is assigned to sysfs. You can view the newly created entry in line 16 by running: | |
− | + | <pre>gpioinfo 0</pre> | |
− | |||
− | < | ||
− | |||
− | |||
− | |||
− | |||
− | |||
+ | '''Writing to a pin'''</br> | ||
+ | Go to GPIO_IO16 sysfs folder: | ||
+ | <pre>cd /sys/class/gpio/gpio$((32+16))</pre> | ||
+ | Set pin direction to output: | ||
+ | <pre>echo out > direction</pre> | ||
+ | Set pin value to high or low: | ||
+ | <pre> | ||
+ | echo 1 > value | ||
+ | echo 0 > value | ||
+ | </pre> | ||
+ | '''Reading from a pin'''</br> | ||
+ | Go to GPIO_IO16 sysfs folder: | ||
+ | <pre>cd /sys/class/gpio/gpio$((32+16))</pre> | ||
+ | Set pin direction to input: | ||
+ | <pre>echo in > direction</pre> | ||
+ | Read the value of the pin from the value file: | ||
+ | <pre>cat value</pre> | ||
+ | =ADC= | ||
+ | i.MX93 SoC features integrated 12 bit analog to digital converter.<br> | ||
+ | To use the ADC, enable it in device tree e.g. in arch/arm64/boot/dts/compulab/sbc-mcm-imx93.dts: | ||
+ | <pre> | ||
+ | &adc1 { | ||
+ | vref-supply = <®_vref_1v8>; | ||
+ | status = "okay"; | ||
+ | }; | ||
+ | </pre> | ||
+ | Sysfs device controls will appear in: | ||
+ | cd /sys/bus/iio/devices/iio\:device0/ | ||
+ | SB-UCMIMX93 exposes ADC signals on 100-mil header '''P3'''. | ||
+ | {| class="wikitable" style="text-align:center;" | ||
+ | |- | ||
+ | | '''Signal Name || '''pin on P3''' || '''sysfs file''' | ||
+ | |- | ||
+ | |ADC_IN0 | ||
+ | |9 | ||
+ | |in_voltage0_raw | ||
+ | |- | ||
+ | |ADC_IN1 | ||
+ | |11 | ||
+ | |in_voltage1_raw | ||
+ | |- | ||
+ | |ADC_IN2 | ||
+ | |13 | ||
+ | |in_voltage2_raw | ||
+ | |- | ||
+ | |ADC_IN3 | ||
+ | |15 | ||
+ | |in_voltage3_raw | ||
+ | |- | ||
+ | |} | ||
+ | For example, to read voltage from P3-9 run: | ||
+ | cat /sys/bus/iio/devices/iio\:device0/in_voltage0_raw | ||
+ | Expected output is a value in range 0 - 4095 which spans over the voltage range 0 - 1.8V | ||
=Suspend / Resume= | =Suspend / Resume= | ||
{{note|The operation below requires '''root''' access.}} | {{note|The operation below requires '''root''' access.}} | ||
Line 644: | Line 734: | ||
</pre> | </pre> | ||
− | + | = Device Serial Number= | |
− | + | Product information is stored in on-board EEPROM.<br> | |
− | + | * To read the product serial number run: | |
− | To read the product serial number | + | cat /proc/device-tree/product-sn && echo |
− | + | * To read the product configuration part number run: | |
− | -- | + | cat /proc/device-tree/product-options && echo |
=See Also= | =See Also= | ||
Line 657: | Line 747: | ||
[[Category:Yocto]] | [[Category:Yocto]] | ||
[[Category:UCM-iMX93]] | [[Category:UCM-iMX93]] | ||
+ | [[Category:UCM-iMX93L]] |
Latest revision as of 14:11, 18 August 2024
Contents
Device Tree
Available Device Tree Files
The current release includes the following dtb files:
DTB | Hardware Configuration and Features | Jumpers/Connectors Settings |
ucm-imx93.dtb | default hardware configuration + lvds display | P7/P8 lvds / touch is in use |
ucm-imx93-mipi.dtb | default hardware configuration + mipi dsi display | P11/P12 mipi-dsi / touch is in use |
ucm-imx93-headless.dtb | default hardware configuration w/out any display | |
ucm-imx93-mipi-csi.dtb | default hardware configuration + lvds display + camera | see #Camera |
ucm-imx93-eb-eth.dtb | default hardware configuration + lvds display + Ethernet extension board |
Set device tree
The current release provides two methods to switch between dtb files:
- U-Boot environment
The U-boot fdtfile variable contains the device tree name that will be loaded into the RAM. This variable can be changed by:
Environment | Command |
U-Boot | setenv fdtfile <fdt_file_name>; saveenv; |
Linux | fw_setenv fdtfile <fdt_file_name> |
- GRUB environment (if the image was created with the meta-compulab-uefi layer)
Environment | Command/Procedure |
GRUB Boot Menu | Goto "Advanced Boot Options" and choose a device tree from the provided dtb list. |
Linux | grub-editenv /boot/grub/grubenv set fdtfile=<fdt_file_name> |
Serial Console
UCM-iMX93 provides serial console on UART1.
SB-UCMIMX93 evaluation carrier-board exposes the console UART via CP2104 serial-to-USB bridge on connector P16.
Connecting to a host PC
- Use a micro-USB cable to connect the console connector P16 to a USB port on your host PC.
- Make sure the CP2104 driver is available with your operating system, otherwise install CP2104 driver onto the host PC from https://www.silabs.com/documents/public/software/CP210x_Windows_Drivers_with_Serial_Enumeration.zip
- Identify the host PC interface and port number that will be used for communication with the UCM-iMX93 evaluation kit:
- In most Linux PCs, the serial port will be denoted as one of the following (where n is a positive integer): /dev/ttyUSB0, /dev/ttyUSB1 ... /dev/ttyUSBn
- In Windows PCs, the serial port usually will be denoted as one of the following (where n is a positive integer): COM1, COM2 ... COMn
- Start a terminal emulation program (such as PuTTY on Windows or minicom on Linux).
- In the port configuration section of the terminal emulation program select the port identified in previous step and set the following serial port parameters:
Baud Rate Data Bits Stop Bits Parity Flow Control 115200 8 1 none none
Display
LVDS
The UCM-iMX93 evaluation kit can be optionally supplied with the Startec KD070HDTLA020 7" LVDS LCD panel. Connect the display data cable to connector P7. Connect the display touch-panel cable to connector P8.
LVDS display requires the following device tree: ucm-imx93-lvds.dts.
The Linux device node for the display is described in: arch/arm64/boot/dts/compulab/ucm-imx93-lvds.dtsi.
MIPI-DSI
SB-UCMIMX93 supports direct connection with the Startec KD050HDFIA 5" MIPI-DSI LCD panel.
Connect the MIPI-DSI display to connectors P11 and P12 on the SB-UCMIMX93 carrier-board.
The MIPI-DSI display requires the following device tree: ucm-imx93-mipi.dts.
The MIPI-DSI display is described in the following device tree include file: arch/arm64/boot/dts/compulab/ucm-imx93-mipi.dtsi
The Linux device node for the MIPI-DSI display:
/sys/class/drm/card0/card0-DSI-1/
This device node contains information about the display, such as its supported modes and its current configuration.
Display Manager
UCM-iMX93 Yocto uses Weston as the default display manager. It can be configured in /etc/xdg/weston/weston.ini.
For example the transform setting can be set to rotate-90, rotate-180, rotate-270, or commented out.
In order to apply the configuration, you need to restart the weston display manager:
systemctl stop weston systemctl start weston
Camera
The UCM-iMX93 evaluation kit supports the e-con e-CAM131_CURB 13MP 4K camera module.
Connect the camera to connector P9 on the SB-UCMIMX93 carrier-board.
Use device tree file: ucm-imx93-mipi-csi.dtb The Linux video device node used for capturing: /dev/video0
Video Capturing
Single image capturing:
gst-launch-1.0 v4l2src num-buffers=1 ! jpegenc ! filesink location=single_buffer.jpg
Output to wayland surface:
gst-launch-1.0 v4l2src device=/dev/video0 ! 'video/x-raw,width=1280,height=720,format=BGRA' ! textoverlay text="CLAB UCM-iMX93" ! waylandsink window-width=1280 window-height=720
To find a pipe element run:
gst-inspect-1.0 | grep sink -i
Detailed information on a specific pipe element:
gst-inspect-1.0 <name>
To learn more please refer to:
https://linuxtv.org/wiki/index.php/V4L_capturing
https://en.wikipedia.org/wiki/GStreamer
USB
UCM-IMX93 features two USB2.0 ports that are derived from the i.MX93 USB sub-system.
On SB-UCMIMX93 evaluation carrier-board USB ports are available on the following connectors:
USB port# | HW setting | Connector | Mode |
1 | P21 is not used | type-A J5 | host |
1 | P21 connected to USB host | micro-USB P21 | device |
2 | jumper E11 is open | type-A J6 | host |
2 | jumper E11 is closed | mini-PCIe P18 | host |
USB #1 in device mode
USB #1 port can be operated in device mode when connected to a host machine using connector P21.
Available gadgets for the UBS #1 in device mode:
USB gadget | SOM command |
usb serial device | modprobe g_serial |
usb network device | modprobe g_ether |
usb mass storage device | modprobe g_mass_storage file=/dev/sdX |
CAN bus
UCM-iMX93 features two Flexible Controller Area Network (FLEXCAN) modules. SB-UCMIMX93 evaluation carrier-board exposes one CAN bus interface on connector J21.
- Configure both CAN interface bit-rate to 1 Mbit/sec:
ip link set can0 up type can bitrate 1000000
- On one system, dump all received data frames as well as error frames:
candump any,0:0,#FFFFFFFF can0 111 [8] 11 22 33 44 55 66 77 88 can0 11111111 [8] 11 22 33 44 55 66 77 88 ... can0 03FF0983 [8] D7 61 FF 03 C1 F7 C1 34 can0 19C34D32 [8] F7 5A C2 73 AD 0E 3F 0B can0 0675E391 [4] 2B 2D D3 49 can0 13091C55 [8] 99 32 EC 77 27 81 49 0B can0 098D67CF [8] 22 50 AB 48 AD 7F F4 26 can0 05263FEC [5] 1B 4C 02 45 6E can0 12B30E20 [0] can0 1F193DF9 [1] C5 can0 1EB0B18F [8] 3E 3F DA 57 C2 FE 73 58 can0 1E5C64D9 [5] 6F 0D B3 63 6A can0 1E1DE3F9 [8] 96 48 AC 79 4E 00 27 71 can0 0E1A11B7 [8] 75 81 70 7C 86 79 A7 77 can0 05F8FD8B [7] 33 F9 9B 1E 77 3D 1F can0 1E155FCD [8] E6 BA F8 58 ED 6D C8 10 can0 1D91DF9E [8] 5D 29 82 7B 97 1D AB 5C can0 11FB3CDA [3] 14 65 C3 can0 091352C0 [2] 2C ED ...
On second system:
- Send standard CAN frame:
cansend can0 111#1122334455667788
- Send extended CAN frame:
cansend can0 11111111#1122334455667788
- CAN frames (extended mode) generator, random payload, interval between two successive flames 50 msec:
cangen -g 50 -e -D r -v can0 can: raw protocol (rev 20170425) ... can0 03FF0983#D7.61.FF.03.C1.F7.C1.34 can0 19C34D32#F7.5A.C2.73.AD.0E.3F.0B can0 0675E391#2B.2D.D3.49 can0 13091C55#99.32.EC.77.27.81.49.0B can0 098D67CF#22.50.AB.48.AD.7F.F4.26 can0 05263FEC#1B.4C.02.45.6E can0 12B30E20# can0 1F193DF9#C5 can0 1EB0B18F#3E.3F.DA.57.C2.FE.73.58 can0 1E5C64D9#6F.0D.B3.63.6A can0 1E1DE3F9#96.48.AC.79.4E.00.27.71 can0 0E1A11B7#75.81.70.7C.86.79.A7.77 can0 05F8FD8B#33.F9.9B.1E.77.3D.1F can0 1E155FCD#E6.BA.F8.58.ED.6D.C8.10 can0 1D91DF9E#5D.29.82.7B.97.1D.AB.5C can0 11FB3CDA#14.65.C3 can0 091352C0#2C.ED ...
WiFi
UCM-iMX93 features 802.11ac wireless connectivity solution implemented with an NXP 88W8997 module.
The NetworkManager can be used to manage WiFi interface.
Before working with WiFi, please ensure that WiFi antenna is connected to the SOM. |
Enable/Disable WiFi Interface
- To enable WiFi interface:
nmcli radio wifi on
- To disable WiFi interface:
nmcli radio wifi off
Network Scanning
- Sample WiFi scanning:
nmcli dev wifi list
- The output will show the list of Access Points and Ad-Hoc cells in range.
Connecting to Access Point
In the following example:
- Replace <SSID> and <PASSWORD> with the actual access point parameters:
nmcli device wifi connect <SSID> password <PASSWORD> name WifiCon
- Disconnect wireless network:
nmcli connection down WifiCon
- Connect wireless network again:
nmcli connection up WifiCon
Creating Access Point
In the following example:
- Replace <SSID> and <PASSWORD> with desired access point parameters:
nmcli device wifi hotspot ssid <SSID> password <PASSWORD> con-name HotspotCon
- Disable wireless AP:
nmcli connection down HotspotCon
- Enable wireless AP again:
nmcli connection up HotspotCon
Bluetooth
UCM-iMX93 features Bluetooth connectivity implemented with an NXP 88W8997 module.
Before working with Bluetooth, please ensure that Bluetooth antenna is connected to the SOM. |
To start bluetoothctl use the following command:
bluetoothctl
To start the scan process use the following commands:
[bluetooth]# default-agent [bluetooth]# power on [bluetooth]# scan on
Bluetooth device should be turned on and visible. Its MAC-adress and name should appear in bluetoothctl in following format:
[CHG] Device AA:BB:CC:DD:EE:FF Name: Device_Name
To pair with the Bluetooth device use the following command:
pair AA:BB:CC:DD:EE:FF
Where AA:BB:CC:DD:EE:FF is MAC-adress of the Bluetooth device.
To quit bluetoothctl use the following command:
[Device_Name]# quit
Cellular Modem
UCM-IMX93 Yocto includes support for Quectel EC25 mini-PCIe cellular modem that can be installed into the evaluation kit.
- Install the modem module into the mini-PCIe socket P18
- Close jumper E11
- Connect a cellular antenna to the main antenna connector on the modem
- Install an active SIM card into SIM socket P20
- Boot to linux
Run the following command to verify that the modem is detected correctly:
root@ucm-imx93:~# lsusb Bus 001 Device 002: ID 2c7c:0125 Quectel Wireless Solutions Co., Ltd. EC25 LTE modem root@ucm-imx93:~# mmcli -L /org/freedesktop/ModemManager1/Modem/0 [QUALCOMM INCORPORATED] QUECTEL Mobile Broadband Module
Obtain <apn> of your sim card company ,e.g. rl.internet
Establish connection:
root@ucm-imx93:~# nmcli connection add type gsm ifname '*' con-name CellularCon apn <apn> root@ucm-imx93:~# nmcli connection NAME UUID TYPE DEVICE CellularCon a1620622-8588-4349-b3fc-66be79fbbede gsm cdc-wdm0
Allow up to a minute to connect to wireless network and make sure modem state is connected:
root@ucm-imx93:~#mmcli -m 0
To test the wireless interface run:
root@ucm-imx93:~#ping -c 5 dns.google -I wwan0
UART
The following table outlines default UART routing when UCM-iMX93 is used with the SB-UCMIMX93 carrier-board:
UCM-iMX93 port | Linux device | on SB-UCMIMX93 carrier-board |
UART1 | /dev/ttyLP0 | converted to serial-over-USB debug console, micro-USB connector P16 |
UART2 | /dev/ttyLP1 | converted to RS232, DB9 connector P17 |
UART5 | /dev/ttyLP4 | routed to 100-mil header P3 |
UART7 | /dev/ttyLP6 | converted to RS485, terminal block J22 |
Example: testing UART5
- Short pin P3-1 (UART5-RX) with P3-3 (UART5-TX) on SB-UCMIMX93 to create a loop-back.
- Run the following commands:
stty -F /dev/ttyLP4 1:0:1cb2:0:3:1c:7f:15:4:5:1:0:11:13:1a:0:12:f:17:16:0:0:0:0:0:0:0:0:0:0:0:0:0:0:0:0 cat /dev/ttyLP4 & echo hello > /dev/ttyLP4
The "hello" string should appear on the terminal.
I2C
The following I2C buses and devices are present when UCM-iMX93 is used with the SB-UCMIMX93 carrier-board:
Device | I2C bus in Linux | Address | HW port in UCM-iMX93 |
UCM-iMX93 EEPROM | 0 | 0x50 | I2C1 (internal) |
UCM-iMX93 RTC | 0 | 0x69 | I2C1 (internal) |
UCM-iMX93 PMIC | 1 | 0x25 | I2C2 (internal) |
GPIO extender on SB-UCMIMX93 for on-board control signals | 2 | 0x20 | I2C3 |
Camera module control on SB-UCMIMX93 connector P9 | 2 | 0x42 | I2C3 |
SB-UCMIMX93 EEPROM | 2 | 0x54 | I2C3 |
Touch-screen controller of MIPI-DSI or LVDS panel on SB-UCMIMX93 connector P8 or P12 | 2 | 0x5d | I2C3 |
To list all mapped devices:
# ls /proc/device-tree/soc@0/bus@*/i2c@*/*@* -d -w 1 /proc/device-tree/soc@0/bus@42000000/i2c@42530000/goodix@5d /proc/device-tree/soc@0/bus@42000000/i2c@42530000/mipi2@42 /proc/device-tree/soc@0/bus@42000000/i2c@42530000/pca9555@20 /proc/device-tree/soc@0/bus@44000000/i2c@44340000/rtc@69 /proc/device-tree/soc@0/bus@44000000/i2c@44350000/pmic@25
Note how:
- each node is appended with its address.
- I2C buses order corresponds to the order of their addresses.
e.g. to inspect bus 0, in which we have RTC, run:
# i2cdetect -y 0 0 1 2 3 4 5 6 7 8 9 a b c d e f 00: -- -- -- -- -- -- -- -- 10: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 20: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 30: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 40: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 50: 50 51 52 53 -- -- -- -- -- -- -- -- -- -- -- -- 60: -- -- -- -- -- -- -- -- -- UU -- -- -- -- -- -- 70: -- -- -- -- -- -- -- --
In the above output numbers mark unused devices, UU marks a device that is used by a driver.
Indeed we see RTC in use at offset 0x69.
An example how to dump EEPROM contents:
hexdump -C /sys/devices/platform/soc@0/44000000.bus/44340000.i2c/i2c-0/0-0050/eeprom
SPI
Loopback example:
In order to enable SPI device, it needs to be added to the device tree in the following manner:
Set up the kernel source repository by following the instructions in this guide: https://github.com/compulab-yokneam/meta-bsp-imx9/blob/mickledore-6.1.55-2.0/Documentation/linux_kernel_build.md
However, stop before the final command that builds the kernel.
Instead of building the full kernel, run:
make dtbs
Locate the compiled device tree:
arch/arm64/boot/dts/compulab/ucm-imx93-lpspi.dtb
On the UCM-IMX93, identify your boot partition by running:
lsblk
Then, copy the .dtb file to that partition.
Restart your device and interrupt the boot process to access U-Boot. Then run:
setenv fdtfile ucm-imx93-lpspi.dtb; boot
Compile the SPI test tool:
${CROSS_COMPILE}gcc ./tools/spi/spidev_test.c -o ./spidev_test
Copy the spidev_test binary to the SoM.
SPI signals location:
ECSPI3_MOSI - P3.14 ECSPI3_SCLK - P3.16 ECSPI3_MISO/UART7_RX - U25 pin 1 (beside RS485) ECSPI3_SSO/UART7_TX - U25 pin 4 (beside RS485)
Use jumper cable to connect MOSI and MISO.
On the module, run:
./spidev_test -v -D /dev/spidev0.0 -p "hello"
You should see RX same as TX.
GPIO
The following table outlines default GPIO assignments when UCM-iMX93 is used with the SB-UCMIMX93 carrier-board:
Signal Name | On SB-UCMIMX93 | GPIO # in Linux |
GPIO_IO04 | P3-20 | 32+4 |
GPIO_IO05 | P3-18 | 32+18 |
GPIO_IO07 | P3-6 | 32+7 |
GPIO_IO14 | P5-4 | 32+14 |
GPIO_IO15 | P5-2 | 32+15 |
GPIO_IO16 | P3-4 | 32+16 |
These GPIOs belong to gpiochip0 which numbering space starts at 32. Therefore it is required to add 32 to the GPIO number.
Other signals that are reserved for peripheral controls can be reassigned to function as GPIOs in arch/arm64/boot/dts/compulab/ucm-imx93-pinctrl.dtsi.
Example: controlling pin GPIO_IO16
Exporting the pin in sysfs
Create a file system export entry:
cd /sys/class/gpio/ echo $((32+16)) > export
Now pin GPIO_IO16 is assigned to sysfs. You can view the newly created entry in line 16 by running:
gpioinfo 0
Writing to a pin
Go to GPIO_IO16 sysfs folder:
cd /sys/class/gpio/gpio$((32+16))
Set pin direction to output:
echo out > direction
Set pin value to high or low:
echo 1 > value echo 0 > value
Reading from a pin
Go to GPIO_IO16 sysfs folder:
cd /sys/class/gpio/gpio$((32+16))
Set pin direction to input:
echo in > direction
Read the value of the pin from the value file:
cat value
ADC
i.MX93 SoC features integrated 12 bit analog to digital converter.
To use the ADC, enable it in device tree e.g. in arch/arm64/boot/dts/compulab/sbc-mcm-imx93.dts:
&adc1 { vref-supply = <®_vref_1v8>; status = "okay"; };
Sysfs device controls will appear in:
cd /sys/bus/iio/devices/iio\:device0/
SB-UCMIMX93 exposes ADC signals on 100-mil header P3.
Signal Name | pin on P3 | sysfs file |
ADC_IN0 | 9 | in_voltage0_raw |
ADC_IN1 | 11 | in_voltage1_raw |
ADC_IN2 | 13 | in_voltage2_raw |
ADC_IN3 | 15 | in_voltage3_raw |
For example, to read voltage from P3-9 run:
cat /sys/bus/iio/devices/iio\:device0/in_voltage0_raw
Expected output is a value in range 0 - 4095 which spans over the voltage range 0 - 1.8V
Suspend / Resume
The operation below requires root access. |
UCM-iMX93 features suspend mode, which allows to minimize power consumption.
The following command should be used to enter suspend mode:
echo mem >/sys/power/state
To resume normal operation press shortly the ON/OFF button SW5.
CPU temperature
i.MX93 SoC features an internal temperature sensor which allows to measure the SoC temperature. Execute the following command to read the current CPU temperature:
cat /sys/class/thermal/thermal_zone0/temp
RTC
UCM-iMX93 features two RTC devices:
- i.MX93 internal RTC (rtc0) - can be used as wake-up source
- AB1805 external RTC (rtc1) - can be used for low current battery powered time keeping
Internal RTC - rtc0
System information:
udevadm info -p /sys/class/rtc/rtc0 P: /devices/platform/soc@0/44000000.bus/44440000.bbnsm/44440000.bbnsm:rtc/rtc/rtc0 N: rtc0 L: -100 S: rtc E: DEVPATH=/devices/platform/soc@0/44000000.bus/44440000.bbnsm/44440000.bbnsm:rtc/rtc/rtc0 E: DEVNAME=/dev/rtc0 E: MAJOR=251 E: MINOR=0 E: SUBSYSTEM=rtc E: USEC_INITIALIZED=14959708 E: DEVLINKS=/dev/rtc
Wake up:
rtc0 can be used as a wake up source, as a result an rtcwakeup can be used with this device:
rtcwake --device /dev/rtc0 -s 5 -m mem
External RTC - rtc1
System information:
udevadm info -p /sys/class/rtc/rtc1 N: rtc1 L: 0 E: DEVPATH=/devices/platform/soc@0/44000000.bus/44340000.i2c/i2c-0/0-0069/rtc/rtc1 E: DEVNAME=/dev/rtc1 E: MAJOR=251 E: MINOR=1 E: SUBSYSTEM=rtc
Set the date and write it into the RTC:
date -s "16 Jun 2023 12:00:00" Fri 16 Jun 2023 12:00:00 hwclock --systohc --rtc /dev/rtc1
Read the RTC time and date:
hwclock --show --rtc /dev/rtc1 2023-06-16 12:01:37.935876+00:00
Device Serial Number
Product information is stored in on-board EEPROM.
- To read the product serial number run:
cat /proc/device-tree/product-sn && echo
- To read the product configuration part number run:
cat /proc/device-tree/product-options && echo