Difference between revisions of "Example mcp4922 test"
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./mcp4922_test | ./mcp4922_test | ||
− | Regard the HDR8 ANALOG I/O HEADER | + | Regard the EMAC SoM-150ES carrier board. Locate the HDR8 ANALOG I/O HEADER (circled). |
− | + | [[File:hdr8_analog_io_header_location.jpg]] | |
Pin 15 is analog out 0 and pin 16 is analog out 1. Pins 1, 2, 17 and 18 are all ground. | Pin 15 is analog out 0 and pin 16 is analog out 1. Pins 1, 2, 17 and 18 are all ground. |
Revision as of 11:42, 31 December 2013
This is a guide to the mcp4922_test
C example project included in the EMAC OE SDK.
This is an example application for accessing the EMAC interface for the on-board DtoA of the SoM-150ES. This interface uses the EMAC ioex class to provide a GPIO-like interface (see also the egpc project). This application outputs a sine wave on channel 0 and a cosine wave on channel 1.
The mcp4922_test
project builds one executable: mcp4922_test
.
Contents
Opening, Building and Uploading the Project Files
1. Open the C/C++ editing perspective.
stub
2. Open the project files.
stub
3. Build the project.
stub
4. Upload the executables to the target system.
stub
Usage and Behavior
mcp4922_test
outputs a sine wave on channel 0 and a cosine wave on channel 1.
Hardware Requirements
The mcp4922_test
C example project requires an EMAC SoM-150ES carrier board.
Using mcp4922_test
Run it from the console...
./mcp4922_test
Regard the EMAC SoM-150ES carrier board. Locate the HDR8 ANALOG I/O HEADER (circled).
Pin 15 is analog out 0 and pin 16 is analog out 1. Pins 1, 2, 17 and 18 are all ground.
When we execute mcp4922_test
we get a 5v sine signal on pin 15 and a cosine on pin 16. We can watch the signals on an oscilloscope or listen to them on a speaker.