How to use I2C

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This How-To is meant to be a starting point for people to learn use I2C for IGEP v2 devices as quickly and easily as possible. In this how-to, we use a program that reads and decodes EDID information from display. This program was tested in:

NOTE: This program is a beta version, it decodes EDID following E-EDID Standard Release A-1 from VESA using i2c-dev driver. There are some functionalities that are not implemented (see code comments) and other new ones that appear in other revisions. Besides, this program only parses the first EDID 128 bytes block. But this code is enough to learn to use I2C.

More information about EDID.


There are some requisites to follow this guide:

Check I2C Devices

NOTE: use these steps with Linaro Headless .

In this How-to, I used pre-compiled modules, because: it's quick and it works. All versions of Linux are supported, as long as I2C support is included in the kernel.

To make sure that I2C driver works well, follow the next steps to install i2c-tools:

sudo apt-get install  i2c-tools

Parse I2C busses:

i2cdetect -l

The result will be similar at that:

i2c-1	i2c       	OMAP I2C adapter                	I2C adapter
i2c-3	i2c       	OMAP I2C adapter                	I2C adapter

It's important than i2c-3 was enabled, because it connects to DVI-D by default.

Compile and Run

Download parse-edid-beta3.tar.bz2 and extract it.

There are some things that is interesting learn, before compiling the program. Open it and seek next lines:

//1==enabled 0==disable
#define FORCE 1

//Address DVI Standard: 0x50
#define ADDRESS 0x50

Constant FORCE is defined to allow this program access to I2c, although other programs use it at the same time. It can be dangerous in writing operations but in read operations don't have problems.

Constant ADDRESS is defined to acces in specific I2C address. In DVI devices, 0x50 is default address, that means that other peripherals can be connected to same bus with other 7 bit address.

See the code below:

for (i=0;i<=255;i++)
     if (edidint[i]<0)
          printf("Error:read failed\n");
          return -1;

The program uses i2c_smbus_read_byte_data function to get information from display, "i" variable is the EEPROM address. EEPROM (Slave) reads address from Omap (Master), after, EEPROM sends the address value to Omap (Master).

More information about I2C.

Compile program using IGEP SDK:

arm-poky-linux-gnueabi-gcc parse-edid-beta3.c -o parse-edid-beta3

Export binary to IGEP using scp:

scp parse-edid-beta3 root@<IGEP IP address>:/home/root 

Run program as root. Pass the i2c number that you want to parse:

./parse-edid-beta3 -d 3


This is the result from a Samsung SyncMaster B2030HD display, you can contribute to this How-To adding your display information:

root@localhost:~/I2CPROGRAM# parse-edid-beta3 -d 3
256-byte EDID successfully retrieved from i2c bus 3
Decode EDID information:

Manufacturer: SAM Model 70a Serial Number 0
Made week 11 of 2010
EDID version: 1.3

Digital display
Maximum image size: 44 cm x 25 cm
Gamma: 2.20
Supported color formats: RGB 4:4:4, YCrCb 4:2:2
First detailed timing is preferred timing

Established timings supported:

Standard timings supported:

Detailed mode:	Clock:				108.000 MHz,
		Screen:				443 mm x 249 mm,
		Active resolution:		1600x900,
		Blanking resolution:		1624x901,
		Sync offset resolution:		1704x904,
		Sync pulse width resolution:	1800x1000,
		Hborder: 0, Vborder: 0,
		+hsync +vsync

Detailed mode:	Clock:				74.250 MHz,
		Screen:				443 mm x 249 mm,
		Active resolution:		1280x720,
		Blanking resolution:		1720x725,
		Sync offset resolution:		1760x730,
		Sync pulse width resolution:	1980x750,
		Hborder: 0, Vborder: 0,
		+hsync +vsync

Monitor ranges: 24-75HZ vertical, 26-81kHz horizontal, max dotclock 230MHz

Monitor name: SMB2030HD