Difference between revisions of "Category:How to - i2c"

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The 2 wires are the SCL or clock wire and the SDL or data wire. The clock high to low transition is used to signal that the data wire has a stable 1/0 data value and that the receiver should shift this into the data results register. The clock line is high when the bus is idle. A special high to low transition on the clock line followed by a high to low transition on the data line signals the start of a message sequence. the end of a message sequence is a low to high transition in the data line followed by a low to high transition in the SCL line.  An important aspect of this communication standard is that each device is assigned a unique 7 bit address, (oh yea the 8th bit is the Read/write indicator to complete the byte). The device address is the first byte sent in any communication. Subsequent bytes of a message depend on the device you are talking to.  
 
The 2 wires are the SCL or clock wire and the SDL or data wire. The clock high to low transition is used to signal that the data wire has a stable 1/0 data value and that the receiver should shift this into the data results register. The clock line is high when the bus is idle. A special high to low transition on the clock line followed by a high to low transition on the data line signals the start of a message sequence. the end of a message sequence is a low to high transition in the data line followed by a low to high transition in the SCL line.  An important aspect of this communication standard is that each device is assigned a unique 7 bit address, (oh yea the 8th bit is the Read/write indicator to complete the byte). The device address is the first byte sent in any communication. Subsequent bytes of a message depend on the device you are talking to.  
  
Because of patents that have since expired, other companies had to use slightly differnet ways to do the same thing so a very similar serial communicatinos method called SPI uses 4 wires and another called TWI uses the same 2 wires.
+
Because of patents that have since expired, other companies had to use slightly different ways to do the same thing so a very similar serial communications method called SPI uses 4 wires and another called TWI uses the same 2 wires.
 +
 
 +
== I2C with Gumstix Overo ==
 +
 
 +
There are several i2c buses available on the overo board.
 +
 
 +
The bus accessible from most of the 40 pin expansion board headers is i2c-3.
 +
 
 +
Refer to the board [http://pubs.gumstix.com/boards/ schematics] to find whether the board you are using exposes the i2c lines.
 +
 
 +
You are looking for GPIO184_SCL3 and GPIO185_SDA3.
 +
 
 +
For many of the boards, pin 23 is SCL and pin 24 is SDA.
 +
 
 +
The voltage levels are 1.8v, so a voltage level shifter is required to connect to 3.3 or 5 volt slave devices.
 +
A good explanation can be found [http://www.nxp.com/documents/application_note/AN10441.pdf here.]
 +
 
 +
The overo main board already has pullup resistors for SCL and SDA.
 +
 
 +
The default gumstix kernels set the i2c-3 bus speed to 400 kHz.
 +
 
 +
This can be changed to 100 kHz with a kernel command line parameter in u-boot.
 +
 
 +
i2c_bus=3,100
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 +
The i2c-3 bus appears as a character device under /dev
 +
 
 +
root@overo:/dev# ls -all i2c*
 +
crw-rw---- 1 root root 89, 1 Jan  1  2000 i2c-1
 +
crw-rw---- 1 root root 89, 3 Jan  1  2000 i2c-3
 +
 
 +
Programmers can access devices on the bus using standard unix file i/o.
 +
 
 +
You must set the slave address with an ioctl() call prior to communicating with a slave device.
 +
 
 +
The driver takes care of shifting the slave address one bit and appending the R/W bit in the first byte of the transfer.
 +
 
 +
Here's a C example minus any error checking.
 +
 
 +
...
 +
#include <stdint.h>
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <fcntl.h>
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#include <linux/i2c-dev.h> /* for I2C_SLAVE */
 +
  ...
 +
 +
int fh;
 +
uint8_t data[4];
 +
 +
fh = open("/dev/i2c-3", O_RDWR);
 +
 +
/* tell the driver we want the device with address 0x20 on the I2C bus */
 +
ioctl(fh, I2C_SLAVE, 0x20);
 +
 +
/* write two bytes */
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data[0] = 0x05;
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data[1] = 0x08;
 +
write(fh, data, 2);
 +
 +
/* read 4 bytes */
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read(fh, data, 4);
 +
 +
close(fh);
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 +
==Sample code==
 +
 
 +
Here is a small project showing how to write Overo I2C userland code to communicate with an I/O expander as the slave device. It includes a schematic for the voltage level conversion of the I2C lines that's required.
 +
 
 +
[http://github.com/scottellis/overo-mcp23017 overo-mcp23017]
 +
 
 +
[[Category:How_to_-_general]]

Latest revision as of 12:52, 12 August 2010

Background

I2c is a 2-wire serial 8 bit communications protocol from the old days. It is mainly used to communicate between on-board components when the design does not allow for a data and address bus. Typical components are elapsed timer chips, ee-proms, FRAM's, A/D and D/A chips. Some cpu's have the I2c hardware shift registers built in.

The 2 wires are the SCL or clock wire and the SDL or data wire. The clock high to low transition is used to signal that the data wire has a stable 1/0 data value and that the receiver should shift this into the data results register. The clock line is high when the bus is idle. A special high to low transition on the clock line followed by a high to low transition on the data line signals the start of a message sequence. the end of a message sequence is a low to high transition in the data line followed by a low to high transition in the SCL line. An important aspect of this communication standard is that each device is assigned a unique 7 bit address, (oh yea the 8th bit is the Read/write indicator to complete the byte). The device address is the first byte sent in any communication. Subsequent bytes of a message depend on the device you are talking to.

Because of patents that have since expired, other companies had to use slightly different ways to do the same thing so a very similar serial communications method called SPI uses 4 wires and another called TWI uses the same 2 wires.

I2C with Gumstix Overo

There are several i2c buses available on the overo board.

The bus accessible from most of the 40 pin expansion board headers is i2c-3.

Refer to the board schematics to find whether the board you are using exposes the i2c lines.

You are looking for GPIO184_SCL3 and GPIO185_SDA3.

For many of the boards, pin 23 is SCL and pin 24 is SDA.

The voltage levels are 1.8v, so a voltage level shifter is required to connect to 3.3 or 5 volt slave devices. A good explanation can be found here.

The overo main board already has pullup resistors for SCL and SDA.

The default gumstix kernels set the i2c-3 bus speed to 400 kHz.

This can be changed to 100 kHz with a kernel command line parameter in u-boot.

i2c_bus=3,100

The i2c-3 bus appears as a character device under /dev

root@overo:/dev# ls -all i2c*
crw-rw---- 1 root root 89, 1 Jan  1  2000 i2c-1
crw-rw---- 1 root root 89, 3 Jan  1  2000 i2c-3

Programmers can access devices on the bus using standard unix file i/o.

You must set the slave address with an ioctl() call prior to communicating with a slave device.

The driver takes care of shifting the slave address one bit and appending the R/W bit in the first byte of the transfer.

Here's a C example minus any error checking.

...
#include <stdint.h> 
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <linux/i2c-dev.h> /* for I2C_SLAVE */
  ...

int fh;
uint8_t data[4];

fh = open("/dev/i2c-3", O_RDWR);

/* tell the driver we want the device with address 0x20 on the I2C bus */
ioctl(fh, I2C_SLAVE, 0x20);

/* write two bytes */
data[0] = 0x05;
data[1] = 0x08;
write(fh, data, 2);

/* read 4 bytes */
read(fh, data, 4);

close(fh);

Sample code

Here is a small project showing how to write Overo I2C userland code to communicate with an I/O expander as the slave device. It includes a schematic for the voltage level conversion of the I2C lines that's required.

overo-mcp23017

Pages in category "How to - i2c"

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