SLAA475A October   2010  – March 2019 MSP430L092

 

  1.   MSP430x09x Analog Pool: Feature Set and Advanced Use
    1.     Trademarks
    2. 1 MSP430x09x Overview
    3. 2 Analog Pool (A-Pool)
      1. 2.1  Input Dividers
      2. 2.2  Internal Reference
      3. 2.3  Starting and Stopping the A-Pool
      4. 2.4  Comparator Function
      5. 2.5  8-Bit DAC Function
      6. 2.6  8-Bit ADC Function
        1. 2.6.1 ADC Conversion Using Ramp
          1. 2.6.1.1 ADC Conversion Without Error Compensation
          2. 2.6.1.2 ADC Conversions With Overdrive Compensation
          3. 2.6.1.3 ADC Conversions With Offset Compensation
          4. 2.6.1.4 ADC Conversions With Overall Compensation
          5. 2.6.1.5 Windowed ADC Conversion
        2. 2.6.2 ADC Conversion Using SAR
        3. 2.6.3 Multiple ADC Conversions
        4. 2.6.4 Comparison Between Different Measurement Methods
        5. 2.6.5 Error Dependencies
      7. 2.7  SVM Function
      8. 2.8  Use of Multiple Features
      9. 2.9  Temperature Measurements With the A-Pool
      10. 2.10 Fractional and Integer Number Use
      11. 2.11 APINTB and APFRACTB Use With ATBU and EOCBU
      12. 2.12 A-Pool Trigger Sources
      13. 2.13 Filtering ADC Conversions With Digital Filters
    4. 3 Summary
    5. 4 References
  2.   Revision History

2.6.1.1 ADC Conversion Without Error Compensation

An ADC conversion for digital filtering can be implemented with a single ramp conversion. This measurement method should be preferred when an exact accuracy is not so important and if the general voltage range of the input signal should be identified. The counter starts at 0 and counts up to the measured voltage. In this method, no error compensation is included. The following example code shows a single ramp conversion from A0 in a 500-mV range. A single conversion is done, and the value is saved in the result variable.

#include "msp430l092.h" unsigned char result; void main( void ) { // Stop watchdog timer to prevent time out reset WDTCTL = WDTPW + WDTHOLD; APCNF = CMPON+DBON+CONVON+APREFON; // Enable comparator on + // Enable DAC buffer + // Enable conversion + // Enable reference APVDIV = A0DIV; // Set 500mV input range APINT = 0x00; // Clear ADC-DAC-REG APIE |= EOCIE; // Enable end of conversion interrupt _BIS_SR(GIE); // Switch on global interrupts APCTL = CBSTP+SBSTP+APPSEL0+APPSEL2+OSEL; // Set DAC buffer output to PSEL + // Select output buffer + // Enable Comparator based stop + // Enable Saturation based stop + APCTL |= RUNSTOP; // Start conversion while (1); } #pragma vector=APOOL_VECTOR // A-Pool interrupt service routine __interrupt void APOOL_ISR(void) { switch(__even_in_range(APIV,8)) // Add offset to PC and delete flag { case 0: break; case 2: result = APINT; // Save value in variable break; case 4: break; case 6: break; case 8: break; default: break; } }