Difference between revisions of "Gx mipi i2c.sh user guide"
| Line 786: | Line 786: | ||
Sharpening intensity [0-255] | Sharpening intensity [0-255] | ||
| − | ===== | + | =====denoise2d===== |
| − | <code>./gx_mipi_i2c.sh -r | + | <code>./gx_mipi_i2c.sh -r denoise2d -b your_i2c_bus_number</code> |
| − | <code>./gx_mipi_i2c.sh -w | + | <code>./gx_mipi_i2c.sh -w denoise2d [0,255] -b your_i2c_bus_number</code> |
2D noise reduction intensity [0-255] | 2D noise reduction intensity [0-255] | ||
| − | ===== | + | =====denoise3d===== |
| − | <code>./gx_mipi_i2c.sh -r | + | <code>./gx_mipi_i2c.sh -r denoise3d -b your_i2c_bus_number</code> |
| − | <code>./gx_mipi_i2c.sh -w | + | <code>./gx_mipi_i2c.sh -w denoise3d [0,255] -b your_i2c_bus_number</code> |
3D noise reduction intensity [0-255] | 3D noise reduction intensity [0-255] | ||
Revision as of 10:10, 23 December 2025
gx_mipi_i2c.sh Shell scripts usage
1 Overview
The gx_mipi_i2c.sh script is a tool set for configuring GX MIPI series cameras through the I2C.
This script is essentially an access to registers. For registers, please refer to GX Series MIPI Camera Register Map.
2 Download
We provide download links for gx_mipi_i2c.sh for different embedded platforms.
Generally, these links can be found in the respective platform's GitHub repository.
Below is the list:
3 Prepare
cd gx_tools_rpi/sources/
./make.sh
cd ..
chmod +x *
4 gx_mipi_i2c.sh USAGE
$ ./gx_mipi_i2c.sh
Usage: ./gx_mipi_i2c.sh [-r/w] [function name] [param1] [param2 ] [param3] [param4] -b bus
options:
-r read
-w write
[function name] function name
[param1] param1 of each function
[param1] param2 of each function
[param3] param3 of each function
[param4] param4 of each function
-b [i2c bus num] i2c bus number
-d [i2c addr] i2c addr if not default 0x3b
Please open this srcipt and read the COMMENT on top for support functions and samples
5 i2c bus number on different board
Please refer to the following article to determine which -b parameter you need to use.
i2c bus number on different boards
6 Common Questions Regarding Scripts
1.When I2C communication fails, the following error message will be displayed.
./i2c_functions.sh: line 235: Read i2c err: syntax error in expression (error token is "i2c err")
2.When the script cannot find an executable binary file to execute, the following prompt will be shown.
❌ Error: Required tool not found or not executable: /home/pi/nveye_tools/i2c_vread
❌ Error: Required tool not found or not executable: /home/pi/nveye_tools/i2c_vwrite
7 Functions list
7.1 Note
The camera has two states, standby and running, after the start of image acquisition into the running state.
There are some registers that are write-protected in the running state, which will be marked with an asterisk. For example: trgsrc* .
There are some parameters that have strict range restrictions, and it's a good idea to try reading them when you're in doubt.
7.2 Basic Parameters
7.2.1 manufacturer
./gx_mipi_i2c.sh -r manufacturer -b your_i2c_bus_number
Get the manufacturer name, which is VEYE.
7.2.2 model
./gx_mipi_i2c.sh -r model -b your_i2c_bus_number
Get the product model, such as GX-MIPI-IMX662.
7.2.3 sensorname
./gx_mipi_i2c.sh -r sensorname -b your_i2c_bus_number
Get the sensor model, such as IMX662-AAQR.
7.2.4 version
./gx_mipi_i2c.sh -r version -b your_i2c_bus_number
Get the Controller version number and Logical version number.
The system has two main control chips that serve the control and logic functions respectively.
7.2.5 serialno
./gx_mipi_i2c.sh -r serialno -b your_i2c_bus_number
Get the unique serial number of this module.
7.2.6 timestamp
./gx_mipi_i2c.sh -r timestamp -b your_i2c_bus_number
Get the time since the system started, in milliseconds.
7.2.7 errcode
reserved
7.2.8 fmtcap
./gx_mipi_i2c.sh -r fmtcap -b your_i2c_bus_number
Get the Module supports data formats
Capbility of data formats supported by the camera.
bit0: Mono8
bit1: Mono10
bit2: Mono12
bit3: Mono14
bit4: UYVY
bit5: RGB888
bit6: Temp
bit7: YUYV
7.2.9 readmodecap
./gx_mipi_i2c.sh -r readmodecap -b your_i2c_bus_number
Get the Sensor reads out the capability set of patterns.
Capbility of read mode supported by the camera.
bit0: Normal
bit1: binning mode
bit2: subsampling mode
7.2.10 workmodecap
./gx_mipi_i2c.sh -r workmodecap -b your_i2c_bus_number
Get the Video streaming mode capability set
Capbility of trigger mode supported by the camera.
bit0: Video streaming mode
bit1: Normal trigger mode.
bit2: Rolling shutter multi-frame trigger mode.
bit3: Pulse trigger mode.
bit4: Multi-camera synchronization mode.
7.2.11 lanecap
./gx_mipi_i2c.sh -r lanecap -b your_i2c_bus_number
Get the number of MIPI Lanes supported by the camera
The number of MIPI lanes supported by the camera .
The lower to higher bits correspond to the supported capabilities for 1 lane, 2 lanes, 3 lanes, and 4 lanes, respectively.
For example, 0x2 indicates support for 2 lanes, and 0xA indicates support for both 2 lanes and 4 lanes.
7.2.12 cameramodel0-cameramodel7
./gx_mipi_i2c.sh -r cameramodel0 -b your_i2c_bus_number
Get the camera model, such as: cameramodel0 is 0x47582d4d(ascii is GX-M)
7.2.13 temp
./gx_mipi_i2c.sh -r temp -b your_i2c_bus_number
Get the temp is 25K
7.2.14 videomodecap
./gx_mipi_i2c.sh -r videomodecap -b your_i2c_bus_number
Get the videomodecap is 2
| value | description |
|---|---|
| bit0 | ROI mode |
| bit1 | VideoMode mode |
7.2.15 videomodenum
./gx_mipi_i2c.sh -r videomodenum -b your_i2c_bus_number
Get the videomodenum 1
7.2.16 vidoemodewh1-vidoemodewh8
./gx_mipi_i2c.sh -r videomodewh1 -b your_i2c_bus_number
Get the videomodewh1 is 0x7800438 (1920*1080)
In the first mode, the width is represented by the high 16 bits and the height by the low 16 bits.
7.2.17 videomodeparam1-videomodeparam8
./gx_mipi_i2c.sh -r videomode_param1 -b your_i2c_bus_number
Get the videomodeparam1 is 0x1003c
The frame rate and reading method of the first mode. The high 8-bit standby, the middle 8-bit is for reading mode, and the low 16-bit is for the maximum frame rate.
| value | description |
|---|---|
| 0 | ordinary |
| 1 | binning |
| 2 | subsampling |
7.2.18 factoryparam
./gx_mipi_i2c.sh -w factoryparam -b your_i2c_bus_number
All parameters restored to factory default values.
This operation will erase the system flash and rewrite it. Please ensure that the power is not interrupted during the operation.
Additionally, it is recommended not to perform frequent factoryparam operations.
7.2.19 paramsave
./gx_mipi_i2c.sh -w paramsave -b your_i2c_bus_number
Save all parameters to flash, and they will not be lost when power off.
This operation will erase the system flash and rewrite it. Please ensure that the power is not interrupted during the operation.
Additionally, it is recommended not to perform frequent paramsave operations.
7.2.20 reboot
./gx_mipi_i2c.sh -w reboot -b your_i2c_bus_number
Reboot the camera.
7.3 Image Acquisition
7.3.1 imgacq
./gx_mipi_i2c.sh -w imgacq [0/1] -b your_i2c_bus_number
Start/Stop acquisition
There is no image output after the camera is powered on, which means it is in the standby state.
After writing 1 to this register, it enters the running state and starts outputting images or waiting for the trigger signal.
Writing 0 will stop the output image and enter the standby state.
7.3.2 workmode
./gx_mipi_i2c.sh -w workmode [0,1,4] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r workmode -b your_i2c_bus_number
| value | description |
|---|---|
| 0 | Video streaming mode |
| 1 | Normal trigger mode |
| 4 | Multi-camera synchronization mode |
See product manual for details.
7.3.3 trgsrc
./gx_mipi_i2c.sh -w trgsrc [0,1] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r trgsrc -b your_i2c_bus_number
| value | description |
|---|---|
| 0 | Software trigger |
| 1 | Hardware trigger |
7.3.4 trgnum
./gx_mipi_i2c.sh -w trgnum [1,255] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r trgnum -b your_i2c_bus_number
The number of image frames output by one trigger signal in trigger mode.
7.3.5 trginterval
./gx_mipi_i2c.sh -w trginterval [us] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r trginterval -b your_i2c_bus_number
Trigger interval in normal trigger mode, in microseconds. Range:[0.0xFFFFFF].
7.3.6 trgone
./gx_mipi_i2c.sh -w trgone -b your_i2c_bus_number
Software trigger command.One execution will perform a soft trigger.
7.3.7 trgcount
./gx_mipi_i2c.sh -r trgcount -b your_i2c_bus_number
Trigger count statistics.
Get the total number of triggers and the number of trigger loss.
./gx_mipi_i2c.sh -w trgcount [1] -b your_i2c_bus_number
Clear trigger count.
7.3.8 i2caddr
./gx_mipi_i2c.sh -w i2caddr [new] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r i2caddr -b your_i2c_bus_number
This module support i2c address changed by software, i2c address range[0x3,0x77].
Will really take effect only after paramsave and reboot .
7.3.9 nondiscontinuousmode
./gx_mipi_i2c.sh -w nondiscontinuousmode [0/1] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r nondiscontinuousmode -b your_i2c_bus_number
Indicates whether the clock lan of the mipi signal is in continuous clock mode.
0: discontinuous mode
1: continuous mode
7.3.10 slavemode
./gx_mipi_i2c.sh -w slavemode [0/1] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r slavemode -b your_i2c_bus_number
Whether the sensor is operating in slave mode. In slave mode, the camera relies on external signals to provide XVS and XHS.
Writing this parameter will cause the camera to automatically save the current settings and reboot.
7.3.11 framecount
./gx_mipi_i2c.sh -r framecount -b your_i2c_bus_number
Get the Sensor_Frame_Count is 434 , Out_Frame_Count is 436
Sensor_Frame_Count:
The number of frames collected from the sensor is counted in a loop. Only accumulation is performed without clearing, and it is updated once per second.
Out_Frame_Count:
The number of frames output is counted in a loop. Only accumulation is performed without clearing, and it is updated once per second.
7.3.12 triggercyclemin
./gx_mipi_i2c.sh -r triggercyclemin -b your_i2c_bus_number
Get the Trigger_Cycle_Min is 0
7.3.13 daynightmode
./gx_mipi_i2c.sh -w daynightmode [0,2] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r daynightmode -b your_i2c_bus_number
daynightmode type
| value | description |
|---|---|
| 0 | Color mode |
| 1 | Black and white mode |
| 2 | External trigger mode |
7.3.14 ircutdir
./gx_mipi_i2c.sh -w ircutdir [0/1] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r ircutdir -b your_i2c_bus_number
By default, if the voltage at port A is higher than that at port B (A > B), the IRCUT module will drive the filter to enter the optical path. When the direction is switched so that the voltage at port B becomes higher than that at port A (A < B), the polarity of the electromagnetic coil reverses, and the filter is driven to exit the optical path.
7.3.15 pinpolarity
./gx_mipi_i2c.sh -w pinpolarity [0/1] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r pinpolarity -b your_i2c_bus_number
Trigger pin polarity reversal day and night. By default, a low level indicates night. After setting this value to 1, a high level indicates night.
7.3.16 ircuttimer
./gx_mipi_i2c.sh -w ircuttimer [0/1] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r ircuttimer -b your_i2c_bus_number
Whether to enable IRCUT periodic control; If enabled, IRCUT control will be performed according to the default cycle. If not enabled, control will only be carried out once during mode switching.
7.4 Image Properties
7.4.1 testimg
./gx_mipi_i2c.sh -w testimg [0/1] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r testimg -b your_i2c_bus_number
| value | description |
|---|---|
| 0 | Common image |
| 1 | Vertical color stripes |
7.4.2 pixelformat
./gx_mipi_i2c.sh -w pixelformat [4/5/6/7] -b your_i2c_bus_number
./gx_mipi_i2c.sh -r pixelformat -b your_i2c_bus_number
| value | description |
|---|---|
| 4 | UYVY |
| 5 | RGB888 |
| 6 | Temp |
| 7 | YUYV |
7.4.3 maxwh
./gx_mipi_i2c.sh -r maxwh -b your_i2c_bus_number
Get the maximum width and height supported by the sensor
7.4.4 minwh
./gx_mipi_i2c.sh -r minwh -b your_i2c_bus_number
Get the minimum width and height supported by the camera.
7.4.5 maxfps
./gx_mipi_i2c.sh -r maxfps -b your_i2c_bus_number
The maximum frame rate supported in the current mode.
Depending on the configured ROI, the maximum frame rate will be different. This parameter supports decimals.
7.4.6 minfps
./gx_mipi_i2c.sh -r minfps -b your_i2c_bus_number
Read the minimum frame rate supported by the current module.
7.4.7 curwh
./gx_mipi_i2c.sh -r curwh -b your_i2c_bus_number
Get the current width and height
7.4.8 imgdir
./gx_mipi_i2c.sh -r imgdir -b your_i2c_bus_number
./gx_mipi_i2c.sh -w imgdir [0/1/2/3] -b your_i2c_bus_number
Image orientation:
| value | description |
|---|---|
| 0 | normal |
| 1 | mirror |
| 2 | flip |
| 3 | flip&mirror |
7.4.9 videomode
./gx_mipi_i2c.sh -r videomode -b your_i2c_bus_number
./gx_mipi_i2c.sh -w videomode [0-7] -b your_i2c_bus_number
For cameras that use the VideoMode mode to select the frame rate of width and height, which mode to choose, Range [0-7],The corresponding capability set is VideomodeCap.
7.4.10 readmode
./gx_mipi_i2c.sh -r readmode -b your_i2c_bus_number
image model:
| value | description |
|---|---|
| 0 | normal mode |
| 1 | 2x2binning mode |
| 2 | subsampling mode |
7.4.11 lanenum
./gx_mipi_i2c.shsh -r lanenum -b your_i2c_bus_number
Configuration of the number of LANs outputting MIPI signals
| value | description |
|---|---|
| 2 | 2lane |
| 4 | 4lane |
7.4.12 mipidatarate
./gx_mipi_i2c.shh -r mipidatarate -b your_i2c_bus_number
The rate of each LAN in the MIPI system is measured in kbps.
7.4.13 fps
./gx_mipi_i2c.sh -r fps -b your_i2c_bus_number
./gx_mipi_i2c.sh -w fps -b [framerate] your_i2c_bus_number
Configure the actual frame rate of the camera in the current mode.
Range:(0,maxfps].
In video streaming mode, this parameter determines the actual frame rate.
In normal trigger mode, it is recommended to set the fps to the maxfps value to ensure the highest trigger signal responsiveness.
7.5 Image Processing
7.5.1 expmode
./gx_mipi_i2c.sh -r expmode -b your_i2c_bus_number
./gx_mipi_i2c.sh -w expmode [0/2] -b your_i2c_bus_number
Exposure type
| value | description |
|---|---|
| 0 | manual exposure |
| 2 | auto exposure |
7.5.2 aetarget
./gx_mipi_i2c.sh -r aetarget -b your_i2c_bus_number
./gx_mipi_i2c.sh -w aetarget [0,255] -b your_i2c_bus_number
The target brightness of AE algorithm.
Within the set range, the algorithm will prioritize the increase in exposure time,
and increase the gain if the exposure time reaches the maximum and still cannot reach the set target brightness value.
7.5.3 aestrategy
./gx_mipi_i2c.sh -r aestrategy -b your_i2c_bus_number
./gx_mipi_i2c.sh -w aestrategy [0/1] -b your_i2c_bus_number
Automatic exposure strategy
| value | description |
|---|---|
| 0 | Bright Area Priority mode (High Light priority |
| 1 | Dark zone priority mode (low light priority) |
7.5.4 metime
./gx_mipi_i2c.sh -r metime -b your_i2c_bus_number
./gx_mipi_i2c.sh -w metime [us] -b your_i2c_bus_number
Range (0,1000000/fps].Because of Note1 and range limitation, please read back to confirm the real metime take effect.
Unit: microseconds.
7.5.5 aemaxtime
./gx_mipi_i2c.sh -r aemaxtime -b your_i2c_bus_number
./gx_mipi_i2c.sh -w aemaxtime [16,1000000/fps] -b your_i2c_bus_number
Automatic maximum exposure time range: 16 to 1,000,000/fps (unit: microseconds)
7.5.6 exptime
./gx_mipi_i2c.sh -r exptime -b your_i2c_bus_number
Get the current exposure time. This command is valid in any exposure mode.
Unit: microseconds.
7.5.7 curgain
./gx_mipi_i2c.sh -r curgain -b your_i2c_bus_number
Gets the current gain. This command is valid in any exposure mode.
7.5.8 mgain
./gx_mipi_i2c.sh -r mgain -b your_i2c_bus_number
./gx_mipi_i2c.sh -w mgain [gain] -b your_i2c_bus_number
The manual gain value, range and step size vary by model.
7.5.9 aemaxgain
./gx_mipi_i2c.sh -r aemaxgain -b your_i2c_bus_number
./gx_mipi_i2c.sh -w aemaxgain [0,maxgain] -b your_i2c_bus_number
Maximum value of auto gain. The range and step vary according to the model.
Most sensors have a gain step of 0.1dB, some are 0.3dB.
7.5.10 wbmode
./gx_mipi_i2c.sh -r wbmode -b your_i2c_bus_number
./gx_mipi_i2c.sh -w wbmode [0/2] -b your_i2c_bus_number
wbmode type
| value | description |
|---|---|
| 0 | manual white balance |
| 2 | auto white balance |
7.5.11 awbcolortempmin
./gx_mipi_i2c.sh -r awbcolortempmin -b your_i2c_bus_number
./gx_mipi_i2c.sh -w awbcolortempmin [1000,15000] -b your_i2c_bus_number
White balance minimum color temperature (K),Range[1000,15000].
7.5.12 awbcolortempmax
./gx_mipi_i2c.sh -r awbcolortempmax -b your_i2c_bus_number
./gx_mipi_i2c.sh -w awbcolortempmax [1000,15000] -b your_i2c_bus_number
White balance maximum color temperature (K),Range[1000,15000].
7.5.13 mwbbgain
./gx_mipi_i2c.sh -r mwbbgain -b your_i2c_bus_number
./gx_mipi_i2c.sh -w mwbbgain [0,4095] -b your_i2c_bus_number
Manual white balance B gain [0,4095]
7.5.14 mwbrgain
./gx_mipi_i2c.sh -r mwbrgain -b your_i2c_bus_number
./gx_mipi_i2c.sh -w mwbrgain [0,4095] -b your_i2c_bus_number
Manual white balance R gain [0,4095]
7.5.15 colortemp
./gx_mipi_i2c.sh -r colortemp -b your_i2c_bus_number
Current color temperature (k)
7.5.16 currgain
./gx_mipi_i2c.sh -r currgain -b your_i2c_bus_number
Current white balance R gain [0,4095]
7.5.17 curbgain
./gx_mipi_i2c.sh -r curbgain -b your_i2c_bus_number
Current white balance B gain [0,4095]
7.5.18 aemintime
./gx_mipi_i2c.sh -r aemintime -b your_i2c_bus_number
./gx_mipi_i2c.sh -w aemintime [16,1000000/fps] -b your_i2c_bus_number
Automatic minimum exposure time range: 16 to 1,000,000/fps (unit: microseconds)
7.5.19 gamma_index
./gx_mipi_i2c.sh -r gamma_index -b your_i2c_bus_number
./gx_mipi_i2c.sh -w gamma_index [0,12] -b your_i2c_bus_number
The GX series has preset gamma options, with different values representing different gamma settings:
0: Gamma off, that is, linear format.
1: Default gamma.
2: gamma_1.6
3: gamma_1.8
4: gamma_2.0
5: gamma_2.2
6: Style 1
7: Style 2
8: Style 3
9: Style 4
10: Style 5
11: Style 6
12: User-defined gamma (TODO)
7.5.20 antiflicker
./gx_mipi_i2c.sh -r antiflicker -b your_i2c_bus_number
./gx_mipi_i2c.sh -w antiflicker [0/1] [50/60/100/120/200/240] -b your_i2c_bus_number
param1:Whether the antiflicker function is enabled [0/1]
param2:
Anti-flicker frequency.
Options: 50, 60, 100, 120, 200, 240.
Once set, the camera's exposure time will be an integer multiple of (1s/(freq*2)) to avoid banding.
For stronger lighting, it is recommended to use a higher value to prevent overexposure.
7.5.21 wdrparam
./gx_mipi_i2c.sh -r wdrparam -b your_i2c_bus_number
./gx_mipi_i2c.sh -w wdrparam [0/1] [0,255] -b your_i2c_bus_number
param1:Whether the WDR function is enabled [0/1]
param2:WDR intensity [0-255]
7.5.22 sharppen
./gx_mipi_i2c.sh -r sharppen -b your_i2c_bus_number
./gx_mipi_i2c.sh -w sharppen [0,255] -b your_i2c_bus_number
Sharpening intensity [0-255]
7.5.23 denoise2d
./gx_mipi_i2c.sh -r denoise2d -b your_i2c_bus_number
./gx_mipi_i2c.sh -w denoise2d [0,255] -b your_i2c_bus_number
2D noise reduction intensity [0-255]
7.5.24 denoise3d
./gx_mipi_i2c.sh -r denoise3d -b your_i2c_bus_number
./gx_mipi_i2c.sh -w denoise3d [0,255] -b your_i2c_bus_number
3D noise reduction intensity [0-255]
7.5.25 saturation
./gx_mipi_i2c.sh -r saturation -b your_i2c_bus_number
./gx_mipi_i2c.sh -w saturation [0,100] -b your_i2c_bus_number
Saturation [0-100]
7.5.26 contrast
./gx_mipi_i2c.sh -r contrast -b your_i2c_bus_number
./gx_mipi_i2c.sh -w contrast [0,100] -b your_i2c_bus_number
contrast [0-100]
7.5.27 hue
./gx_mipi_i2c.sh -r hue -b your_i2c_bus_number
./gx_mipi_i2c.sh -w hue [0-100] -b your_i2c_bus_number
hue [0-100]
7.5.28 slowshutter
./gx_mipi_i2c.sh -r slowshutter -b your_i2c_bus_number
./gx_mipi_i2c.sh -w slowshutter [0/1] [20] -b your_i2c_bus_number
Is the automatic frame reduction function for parameter 1 enabled?
Parameter 2 sets the gain threshold for automatically reducing frames. The unit is 0.1 dB.
Note: This setting is only effective in the automatic exposure mode + video stream mode. It determines whether the Aemode is in the fixed frame rate mode or the automatic frame reduction mode.
When using this function, the maximum exposure time needs to be used in conjunction, for example, aemaxtime= 1,000,000 (us), and then the slowshutter enable and frame rate reduction gain threshold should be set.
7.5.29 ldc
./gx_mipi_i2c.sh -r ldc -b your_i2c_bus_number
./gx_mipi_i2c.sh -w ldc [0,255] -b your_i2c_bus_number
Lens Distortion Correction [0-255], abbreviated as LDC, with 0 indicating disable.
Note: The parameters of this function setting must be set before the camera captures images to be effective.
7.5.30 dehaze
./gx_mipi_i2c.sh -r dehaze -b your_i2c_bus_number
./gx_mipi_i2c.sh -w dehaze [0,255] -b your_i2c_bus_number
Defogging intensity [0-255], 0 indicates off.
7.5.31 drc
./gx_mipi_i2c.sh -r drc -b your_i2c_bus_number
./gx_mipi_i2c.sh -w drc [0,255] -b your_i2c_bus_number
Digital wide dynamic range. Range [0-255], 0 indicates off.
7.6 IO Control
7.6.1 trgdelay
./gx_mipi_i2c.sh -r trgdelay -b your_i2c_bus_number
./gx_mipi_i2c.sh -w trgdelay [0,1000000] -b your_i2c_bus_number
Trigger delay, effective under both soft trigger and hard trigger mode.
range: 0 to 1000000 (unit: microsecond)
7.6.2 trgedge
./gx_mipi_i2c.sh -r trgedge -b your_i2c_bus_number
./gx_mipi_i2c.sh -w trgedge [0,1] -b your_i2c_bus_number
Effective trigger edge in hard trigger mode.
| value | description |
|---|---|
| 0 | Rising edge |
| 1 | Falling edge |
7.6.3 trgexp_delay
./gx_mipi_i2c.sh -r trgexp_delay -b your_i2c_bus_number
./gx_mipi_i2c.sh -w trgexp_delay [0,100000] -b your_i2c_bus_number
Exposure delay, i.e. the time to turn on the Strobe signal in advance.
range: 0 to 1000000 (unit: microsecond)
The difference between trgexp_delay and trgdelay, see manual for details.
7.6.4 outio1_rvs
./gx_mipi_i2c.sh -r outio1_rvs -b your_i2c_bus_number
./gx_mipi_i2c.sh -w outio1_rvs [0,1] -b your_i2c_bus_number
Reverse OUT_IO1 high and low levels if set to 1.
8 Notes
Note1: All parameters of exposure time are in microseconds. However, due to the properties of the sensor, the actual exposure time unit of the sensor is 1 line, can not be accurate to 1us.
9 Configuration Method for Typical Application Scenarios:
9.1 Stream mode:
./gx_mipi_i2c.sh -w imgacq 1 -b your_i2c_bus_number
9.2 Trigger mode:
./gx_mipi_i2c.sh -w imgacq 0 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w workmode 1 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w trgsrc 0 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w trgnum 1 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w trginterval 0 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w trgone -b your_i2c_bus_number
According to the above command, you can take a picture.
9.3 Sync mode:
Note: The synchronous mode requires two cameras.
./gx_mipi_i2c.sh -w slavemode 0 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w slavemode 1 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w workmode 4 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w workmode 4 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w imgacq 1 -b your_i2c_bus_number
./gx_mipi_i2c.sh -w imgacq 1 -b your_i2c_bus_number
./veye_raspipreview -cs 1 -p '0,0,1000,520' -t -1
./veye_raspipreview -cs 0 -p '600,0,1280,720' -t -1
After completing the above configuration, you can proceed to start capturing images.
Please note that if you need to adjust the frame rate during the image acquisition process, you must first stop the acquisition before making the changes.
After stopping the acquisition, the camera will still complete the capture of the current frame.
The newly set parameters will only take effect afterward.