Driverless mode 393
From ElphelWiki
Contents
Description
Instructions on how to disable sensor driver and get images from image sensor (for MT9F002 sensor)
Instructions
pre (editing files on the boot SD card)
- Remove 10389 board if installed (otherwise will have to rewrite eeprom)
- To load bitstream for MT9F002 appropriate changes need to be made to:
- device tree
set sensors to mt9f002 in elphel393-detect_sensors,sensors entry
- /etc/elphel393/default_10389.xml for setup w/o 10389 or 10389's eeprom otherwise write MT9F002 as application
Application name must be already added to /usr/local/autocampars.php
- Disable driver
root@elphel393~# touch /etc/elphel393/disable_driver # then reboot
init
- start python session:
root@elphel393~# cd /usr/local/verilog/; test_mcntrl.py @hargs-after
- init (if the driver is not disabled the i2c writes will not work):
setup_all_sensors True None 0x1 False 4384 3280 write_sensor_i2c 0 1 0 0x31c08000 # hispi timing write_sensor_i2c 0 1 0 0x030600b4 # pll multiplier write_sensor_i2c 0 1 0 0x31c68400 # hispi control status write_sensor_i2c 0 1 0 0x306e9280 # datapath select write_sensor_i2c 0 1 0 0x301a001c # reset and start streaming hispi_phases_adjust 0 write_sensor_i2c 0 1 0 0x301a001c # reset and start streaming setup_all_sensors True None 0x1 False 4384 3280 compressor_control all None None None None None 2 program_gamma all 0 0.57 0.04 write_sensor_i2c 0 1 0 0x3028000a # global gain write_sensor_i2c 0 1 0 0x302c000d # some gain write_sensor_i2c 0 1 0 0x302e0010 # some gain write_sensor_i2c 0 1 0 0x30120080 # coarse exposure jpeg_acquire_write #write_sensor_i2c 0 1 0 0x301a0018 # put to standby
- inspect image:
http://192.168.0.9/img.jpeg
Example: 1600x1200 window
8-bit compress to jpeg
- setup:
write_sensor_i2c 0 1 0 0x3002001e write_sensor_i2c 0 1 0 0x300604f5 write_sensor_i2c 0 1 0 0x034e04d8 write_sensor_i2c 0 1 0 0x300a056a write_sensor_i2c 0 1 0 0x30040090 write_sensor_i2c 0 1 0 0x300806cf write_sensor_i2c 0 1 0 0x034c0640 write_sensor_i2c 0 1 0 0x300c04c8 setup_all_sensors True None 0x1 False 1600 1200 compressor_control all None None None None None 2 write_sensor_i2c 0 1 0 0x301a001c # wait write_sensor_i2c 0 1 0 0x301a0018 jpeg_acquire_write
- inspect:
refresh http://192.168.0.9/img.jpeg
8-bit raw
- setup
same as above, no need to repeat if already done
- capture (copy-pasting the code below with comments will work)
setup_all_sensors True None 0x1 False 1600 1200 write_sensor_i2c 0 1 0 0x301a001c # wait write_sensor_i2c 0 1 0 0x301a0018 # notice membridge_start (under Setting membridge for sensor 0) # it can be different: 0x2e000000 or 0x2dc00000 membridge_start mem_save "/usr/local/verilog/sensor_dump" 0x2e000000 0x400000
- copy (from an ssh session in another terminal)
scp /usr/local/verilog/sensor_dump ip@host:/path/1600x1200_8bit.raw
- open:
Use imagej: File > Import > Raw...
16-bit raw
- setup
same as above, no need to repeat if already done
- capture (copy-pasting the code below with comments will work)
# Notice that the window width in 16 bit mode is 2x setup_all_sensors True 18 0x1 False 3200 1200 set_sensor_mode 0 1 1 True True enable_memcntrl_en_dis 12 True write_sensor_i2c 0 1 0 0x301a001c # wait write_sensor_i2c 0 1 0 0x301a0018 # notice membridge_start (under Setting membridge for sensor 0) # it can be different: 0x2e000000 or 0x2dc00000 membridge_start mem_save "/usr/local/verilog/sensor_dump" 0x2e000000 0x400000
- copy (from an ssh session in another terminal)
scp /usr/local/verilog/sensor_dump ip@host:/path/1600x1200_16bit.raw
- open:
Use imagej: File > Import > Raw...
Example: other window sizes
- Download and run mt9f002_window_generator.py
- Then edit the code snippets for 1600x1200 according to the new window size
- If getting raw sensor data 8-bit and 16-bit the membridge buffer is 4MB, so calculate accordingly:
for 8-bit : WxH < 4M for 16-bit: WxH < 2M If not then - the buffer is circular which will result in overwriting of the beginning of the image