Difference between revisions of "Nvidia Jetson Application Note Index"
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=== Main App Note === | === Main App Note === | ||
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+ | ==== VEYE and CS series camera ==== | ||
* [[VEYE CS Camera for Jetson TX2|How to use VEYE and CS camera module on NVIDIA Jetson Board]] | * [[VEYE CS Camera for Jetson TX2|How to use VEYE and CS camera module on NVIDIA Jetson Board]] | ||
* [[FPD LINK III for Jetson|How to use FPD Link III camera module on NVIDIA Jetson Board]] | * [[FPD LINK III for Jetson|How to use FPD Link III camera module on NVIDIA Jetson Board]] | ||
*[[How to use frame rate adjust function on NVIDIA Jetson Board]] | *[[How to use frame rate adjust function on NVIDIA Jetson Board]] | ||
+ | |||
+ | ==== MV series camera ==== | ||
+ | |||
+ | * [[Mv series camera appnotes 4 jetson|How to use MV series camera on NVIDIA Jetson Board]] | ||
=== I2C user guide === | === I2C user guide === |
Revision as of 09:16, 17 May 2022
1 Main App Note
1.1 VEYE and CS series camera
- How to use VEYE and CS camera module on NVIDIA Jetson Board
- How to use FPD Link III camera module on NVIDIA Jetson Board
- How to use frame rate adjust function on NVIDIA Jetson Board
1.2 MV series camera
2 I2C user guide
For the parameter configuration aspect of the camera module, we use the DRA (Direct Register Access) approach instead of encapsulating the interface in the v4l2 driver in order to achieve better flexibility and a more direct parameter configuration function.
The following shell scripts can be used directly or embedded into your programs. Of course, by reading their source codes, you will be able to see the registers and access methods corresponding to each function.
2.1 veye_mipi_i2c.sh
Applicable models: VEYE-MIPI-290/327,VEYE-MIPI-IMX327S,VEYE-MIPI-IMX462,VEYE-MIPI-IMX385.
2.2 cs_mipi_i2c.sh
Applicable models: CS-MIPI-IMX307,CS-MIPI-SC132.
2.3 veye5_mipi_i2c.sh
Applicable models:VEYE-MIPI-IMX335.
2.4 mv_mipi_i2c.sh
Applicable models:MV-MIPI-IMX178M.