Difference between revisions of "Example i2c test"
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The <code>i2c_test</code> project builds one executable: <code>i2c_test</code>. | The <code>i2c_test</code> project builds one executable: <code>i2c_test</code>. | ||
+ | == Opening, Building and Uploading the Project Files == | ||
− | + | For information on opening the project from within Eclipse, please see [[Importing the EMAC OE SDK Projects with Eclipse]]. Then, follow [[Using the EMAC OE SDK Projects with Eclipse]] for information on how to build, upload and execute the example. | |
− | For information on | + | Alternatively, the <code>Makefile</code> can be used with the <code>make</code> command from the commandline to build and upload the example. For information on this method, please see [[Using EMAC OE SDK Example Projects]]. |
− | + | ====EMAC SDK 5.X==== | |
− | Alternatively, the <code> | + | For information on opening the project from within QtCreator, please see [[Getting_Started_With_Qt_Creator#Adding_Source_Files | QtCreator: Adding Source Files]]. Then, follow [[Getting Started With Qt Creator]] for information on how to build, upload and execute the example. |
+ | |||
+ | Alternatively, the <code>CMakefile.txt</code> can be used with the <code>cmake</code> command from the commandline to build and upload the example. For information on this method, please see [[Getting_Started_with_the_EMAC_OE_SDK#Target_Machine_Compiling | Getting Started with the EMAC OE SDK]]. | ||
+ | |||
+ | Code can be found at http://git.emacinc.com/OE/example-projects | ||
== Usage and Behavior == | == Usage and Behavior == | ||
=== Hardware Requirements === | === Hardware Requirements === | ||
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===Using i2c_test=== | ===Using i2c_test=== | ||
− | The <code>i2c_test</code> program is executed from the console. | + | The <code>i2c_test</code> program is executed from the console. If using the iPac9x25 it takes an optional argument which is the string representing the device path. By default, "/dev/i2c-1" is set, but if another device path needs to be used, append that to the command. |
− | {{cli |./i2c_test}} | + | {{cli |./i2c_test <optional device_path>}} |
A menu will appear in the terminal: | A menu will appear in the terminal: |
Latest revision as of 13:21, 30 November 2022
This is a guide to the i2c_test
example project included in the EMAC OE SDK.
I²C
is a two wire serial interface used to connect to a variety of sensor and I/O devices. The interface uses only two bi-directional open-drain I/Os, Serial Data Line (SDA) and Serial Clock (SCL), to communicate to devices based on an address encoded within the data transmission. SDA is a data signal which sends and receives serially transmitted data. SCL is a clock signal which is used to determine when to latch data from the SDA line.
This procedure provides an overview of how to compile and run the i2c_test
C example project. This is an example test interface for reading/writing to the Linux I²C
device interface. It is only relevant if the I²C
device interface is enabled and an external I²C
device is connected to the bus. It assumes familiarity with the C programming language and is intended to be used by experienced programmers who are looking to learn the EMAC SDK.
For more information about the protocol see the following page: http://www.nxp.com/documents/user_manual/UM10204.pdf
The i2c_test
project builds one executable: i2c_test
.
Contents
Opening, Building and Uploading the Project Files
For information on opening the project from within Eclipse, please see Importing the EMAC OE SDK Projects with Eclipse. Then, follow Using the EMAC OE SDK Projects with Eclipse for information on how to build, upload and execute the example.
Alternatively, the Makefile
can be used with the make
command from the commandline to build and upload the example. For information on this method, please see Using EMAC OE SDK Example Projects.
EMAC SDK 5.X
For information on opening the project from within QtCreator, please see QtCreator: Adding Source Files. Then, follow Getting Started With Qt Creator for information on how to build, upload and execute the example.
Alternatively, the CMakefile.txt
can be used with the cmake
command from the commandline to build and upload the example. For information on this method, please see Getting Started with the EMAC OE SDK.
Code can be found at http://git.emacinc.com/OE/example-projects
Usage and Behavior
Hardware Requirements
The i2c_test
C example project will run on any EMAC carrier board which has an I²C
interface (see also the EMAC I²C Programming page).
Using i2c_test
The i2c_test
program is executed from the console. If using the iPac9x25 it takes an optional argument which is the string representing the device path. By default, "/dev/i2c-1" is set, but if another device path needs to be used, append that to the command.
root
@
som9x25
:
~
#
./i2c_test <optional device_path>
A menu will appear in the terminal:
Select a function (a,b,c,d,e) to test or q to quit. You will be prompted for read, write and register values as appropriate. Test results will be displayed in the terminal.
Test Options
- Set Slave Address
Press the A key to select the Set slave address function, then press Enter.
The slave address receives the clock and responds when addressed by the master.
This function is to set the slave address of the I²C
device. This only need to be done once to initialize the address and then each time that a new device is addressed.
- Write byte to register
Press the B key to select the Write byte to register function, then press Enter
This function uses the Linux write
system call to write one byte to the selected register on the I²C
device.
- Write 2 bytes to register
Press the C key to select the Write 2 bytes to register function, then press Enter.
This function uses the same system call as the previous option, but writes 2 bytes to a register instead of just one.
- Read byte from register
Press the D key to select the Read byte from register function, then press Enter.
This function uses the Linux read
system call to read a byte to the selected register on the I²C
device.
- Read 2 bytes from register
Press the E key to select the Read 2 bytes from register function, then press Enter.
This function uses the same system call as the previous option, but shifts to the right.
The i2c_test
example writes a byte to a selected register. The register then reads the byte, shifts the byte 8 bits to the right and then reads the address to the selected register on the I²C
device.
- Quit
Press the Q key to quit out of thei2c_test
example, then press Enter.
This function exits you out of the i2c_test
example on the I²C
device.
Real-World Example
Hardware Requirements
The i2c_test
C Real-World example project will be running on an EMAC SOM-210ES carrier board. This example will be communicating with the RTC clock on the SOM-3517M.
For more information about the RTC Clock see the following page for the data sheet: http://www.nxp.com/documents/data_sheet/PCA8565.pdf
Using Real-World Example i2c_test
Just like before, the i2c_test
program is executed from the console. It takes no parameters.
root
@
som9x25
:
~
#
./i2c_test
A menu will appear in the terminal:
Test Options
- Set Slave Address
Press the A key to select the Set slave address function, then press Enter.
The RTC Clock slave address in binary is 1010001 (58 in Hexadecimal).
NOTE |
The slave address must be shifted to the right one bit. |
Summary
The i2c_test
C example project writes and reads bytes to a selected register on the I²C
device.