📄 dco_2mhz_20xx.c
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//******************************************************************************
// MSP430x20x2 Demo - Basic Clock, Output Buffered SMCLK, ACLK and MCLK/10
//
// Description: Buffer ACLK on P2.0, default SMCLK(DCO) on P1.4 and MCLK/10 on
// P1.1. To measure SMCLK on P1.4 with the FET, use "Release JTAG on Go"
// in the debugger to have access to the port. Then run the code.
// ACLK = LFXT1 = 32768, MCLK = SMCLK = 2MHz
// //* External watch crystal installed on XIN XOUT is required for ACLK *//
//
// MSP430F2012
// -----------------
// /|\| XIN|-
// | | | 32kHz
// --|RST XOUT|-
// | |
// | P1.4/SMCLK|-->SMCLK = ~2Mhz
// | P1.1|-->MCLK/10 = DCO/10
// | P1.0/ACLK|-->ACLK = 32kHz
//
// L. Westlund
// Texas Instruments Inc.
// March 2006
// Built with IAR Embedded Workbench Version: 3.40A
//******************************************************************************
#include <msp430x20x3.h>
#include "DCO_Library.h"
void main(void)
{
volatile unsigned int i;
int result;
WDTCTL = WDTPW +WDTHOLD; // Stop Watchdog Timer
P1DIR |= 0x13; // P1.0, P1.1 and P1.4 outputs
P1SEL |= 0x11; // P1.0 ACLK, P1.4 SMCLK output
for( i = 0; i < 0xFFFF; i++){} // delay for ACLK startup
result = TI_SetDCO(0);
if( result == TI_DCO_SET_TO_SLOWEST ) // returned result if DCO registers hit min
{
while(1); // set breakpoint here to see if hit
}
else if( result == TI_DCO_SET_TO_FASTEST )// returned result if DCO registers hit max
{
while(1); // set breakpoint here to see if hit
}
else if( result == TI_DCO_TIMEOUT_ERROR ) // returned result if DCO takes >10000 loops
{
while(1); // set breakpoint here to see if hit
}
while(1)
{
P1OUT |= 0x02; // P1.1 = 1
P1OUT &= ~0x02; // P1.1 = 0
}
}
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