Difference between revisions of "LPC1768: DAC Programming"
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{| class="table table-striped table-hover table-condensed table-bordered" | {| class="table table-striped table-hover table-condensed table-bordered" | ||
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− | ! | + | !DAC Channel || Port Pin || Pin Functions || Associated PINSEL Register |
|- | |- | ||
− | | | + | |Aout|| P0.26 || 0-GPIO, 1-AD0[3], 2-<b>AOUT </b>, 3-RXD3||20,21 bits of PINSEL1 |
− | |} | + | |} |
− | + | $$DAC Output = (Vref * InputValue)/MaxValue = (3.3 * InputValue)/1023 = InputValue * 3.22 mv.$$ | |
− | $$DAC Output = (Vref * InputValue)/ | + | <br><br> |
− | + | ||
− | + | ||
=DAC Registers= | =DAC Registers= |
Latest revision as of 18:30, 21 April 2016
Objective
In this tutorial we are going to discuss how to use the inbuilt LPC1768 DAC.
Finally we will see how to use the ExploreEmbedded DAC libraries.
LPC1768 DAC Module
Lpc1768 has in built DAC with following features.
- 10-bit digital to analog converter
- Resistor string architecture
- Buffered output
- Power-down mode
- Selectable speed vs. power
- Maximum update rate of 1 MHz.
DAC Channel | Port Pin | Pin Functions | Associated PINSEL Register |
---|---|---|---|
Aout | P0.26 | 0-GPIO, 1-AD0[3], 2-AOUT , 3-RXD3 | 20,21 bits of PINSEL1 |
$$DAC Output = (Vref * InputValue)/MaxValue = (3.3 * InputValue)/1023 = InputValue * 3.22 mv.$$
DAC Registers
Steps
Code