Back
//******************************************************************************
// MSP430x26x Demo - DMA0, ADC12 A10 Single Block Xfer to RAM, TBCCR1, DCO
//
// Description: A 0x20 word block of data is sampled and recorded into RAM
// starting at address 01500h from the ADC12 channel 10 (temp sensor) using the
// Record() function. Timer_B CCR1 begins the ADC12 sample period, CCR0 the hold
// and conversion start. Timer_B operates in the up mode with CCR0 defining the
// sample period. DMA0 will automatically transfer each ADC12 conversion code
// to memory when complete. At the end of the recording block, DMA0 will issue
// an interrupt existing the function.
// In the example the RAM block use to record the ADC12 data begins at 0x1500.
// P1.0 is toggled during DMA transfer only for demonstration purposes.
// ACLK = 32kHz, MCLK = SMCLK = default DCO 1.045MHz
//
// MSP430F261x
// -----------------
// /|\| XIN|-
// | | | 32kHz
// --|RST XOUT|-
// | |
// | P1.0|-->LED
//
//
// B. Nisarga
// Texas Instruments Inc.
// September 2007
// Built with IAR Embedded Workbench Version: 3.42A
//******************************************************************************
#include "msp430x26x.h"
void Record(void);
void main(void)
{
WDTCTL = WDTPW + WDTHOLD; // Stop watchdog timer
P1DIR |= 0x01; // Set P1.0 to output direction
while(1)
{
Record();
_NOP(); // << SET BREAKPOINT HERE
}
}
void Record(void)
{
volatile int i;
ADC12MCTL0 = SREF_1 + INCH_10; // Channel A10, Vref+
ADC12IFG = 0;
ADC12CTL1 = SHS_3 + CONSEQ_2; // S&H TB.OUT1, rep. single chan
ADC12CTL0 = REF2_5V + REFON + ADC12ON + ENC; // VRef ADC12 on, enabled
i = 0x03600; // Delay for needed ref start-up.
while(i--); // See datasheet for details.
TBCCR0 = 100; // Init TBCCR0 w/ sample prd
TBCCR1 = 70; // Trigger for ADC12 SC
TBCCTL1 = OUTMOD_7; // Reset OUT1 on EQU1, set on EQU0
DMA0SA = ADC12MEM0_; // Src address = ADC12 module
DMA0DA = 0x01500; // Dst address = RAM memory
DMA0SZ = 0x020; // Size in words
DMACTL0 = DMA0TSEL_6; // ADC12IFGx triggers DMA0
DMA0CTL = DMADSTINCR_3 + DMAIE + DMAEN; // Config
P1OUT |= 0x01; // Start recording and enter LPM0
TBCTL = TBSSEL_2 + MC_1 + TBCLR; // SMCLK, clear TBR, up mode
__bis_SR_register(LPM0_bits + GIE); // Enter LPM0, enable interrupts
ADC12CTL1 &= ~CONSEQ_2; // Stop conversion immediately
ADC12CTL0 &= ~ENC; // Disable ADC12 conversion
ADC12CTL0 = 0; // Switch off ADC12 & ref voltage
TBCTL = 0; // Disable Timer_B
P1OUT &= ~0x01; // Clear P1.0 (LED Off)
}
#pragma vector = DMA_VECTOR
__interrupt void DMA_ISR(void)
{
DMA0CTL &= ~DMAIFG; // Clear DMA0 interrupt flag
__bic_SR_register_on_exit(LPM0_bits); // Exit LPMx, interrupts enabled
}
|