/* * Copyright 2008, Freie Universitaet Berlin (FUB). All rights reserved. * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ /** * @file * @ingroup lpc2387_adc * @brief LPC2387 ADC * * @author Thomas Hillebrandt * @version $Revision: 3250 $ * * @note $Id: lpc2387-adc.c 3250 2011-03-11 09:45:44Z schmittb $ */ // cpu #include "lpc2387.h" #include "lpc23xx.h" #include "lpc2387-adc.h" #define ENABLE_DEBUG (0) #include "debug.h" #if ENABLE_DEBUG #include "xtimer.h" #endif /*---------------------------------------------------------------------------*/ void adc_init(void) { // enable clock /Power for ADC PCONP |= BIT12; // peripheral Clock Selection for ADC PCLKSEL0 |= 0x03000000; // pclock = cclock/8 // set A/D control register AD0CR AD0CR = (0x01 << 0) | /* SEL=1, select channel 0~7 on ADC0 */ (0xff << 8) | /* CLKDIV = 1, ADC_CLK = PCLK/10 = 0.45 MHz */ (0 << 16) | /* BURST = 0, no BURST, software controlled */ (0 << 17) | /* CLKS = 0, 11 clocks/10 bits */ (1 << 21) | /* PDN = 1, normal operation */ (0 << 22) | /* TEST1:0 = 00 */ (0 << 24) | /* START = 0 A/D conversion stops */ (0 << 27); /* EDGE = 0 (CAP/MAT signal falling,trigger A/D conversion) */ } /*---------------------------------------------------------------------------*/ void adc_init_1(void) { // enable clock /Power for ADC PCONP |= BIT12; //PIN0.24 function select AD0.1 PINSEL1 |= BIT16; // peripheral Clock Selection for ADC PCLKSEL0 |= 0x03000000; // pclock = cclock/8 // set A/D control register AD0CR AD0CR = (0x01 << 0) | /* SEL=1, select channel 0~7 on ADC0 */ (0x00 << 8) | /* CLKDIV = 1, ADC_CLK = PCLK/1 = 4.5 MHz */ (0 << 16) | /* BURST = 0, no BURST, software controlled */ (0 << 17) | /* CLKS = 0, 11 clocks/10 bits */ (1 << 21) | /* PDN = 1, normal operation */ (0 << 22) | /* TEST1:0 = 00 */ (0 << 24) | /* START = 0 A/D conversion stops */ (0 << 27); /* EDGE = 0 (CAP/MAT signal falling,trigger A/D conversion) */ } /*---------------------------------------------------------------------------*/ void adc_init_2(void) { // enable clock /Power for ADC PCONP |= BIT12; // PIN0.23 function select to AD0.0 PINSEL1 |= BIT14; // peripheral Clock Selection for ADC PCLKSEL0 |= 0x03000000; // pclock = cclock/8 // set A/D control register AD0CR AD0CR = (0x01 << 0) | /* SEL=1, select channel 0 on ADC0 */ (0x00 << 8) | /* CLKDIV = 1, ADC_CLK = PCLK/1 = 4.5 MHz */ (0 << 16) | /* BURST = 0, no BURST */ (0 << 17) | /* CLKS = 0, 11 clocks/10 bits */ (1 << 21) | /* PDN = 1, normal operation */ (0 << 22) | /* TEST1:0 = 00 */ (0 << 24) | /* START = 0 A/D conversion stops */ (0 << 27); /* EDGE = 0 (CAP/MAT signal falling,trigger A/D conversion) */ } /*---------------------------------------------------------------------------*/ uint16_t adc_read(uint8_t channel) { #if ENABLE_DEBUG uint32_t t1, t2; #endif uint32_t regVal, adc_data; /* channel number is 0 through 7 */ if (channel >= ADC_NUM) { channel = 0; /* reset channel number to 0 */ } /* switch channel, start A/D convert */ AD0CR &= 0xFFFFFF00; #if ENABLE_DEBUG t1 = _xtimer_now(); #endif AD0CR |= (1 << 24) | (1 << channel); #if ENABLE_DEBUG t2 = _xtimer_now(); #endif while (1) { /* read result of A/D conversion */ regVal = *(volatile unsigned long *)(AD0_BASE_ADDR + ADC_OFFSET + ADC_INDEX * channel); /* wait until end of A/D convert */ if (regVal & ADC_DONE) { break; } } AD0CR &= 0xF8FFFFFF; /* stop ADC now */ if (regVal & ADC_OVERRUN) { /* save data when it's not overrun, otherwise, return zero */ return 0; } adc_data = (regVal >> 6) & 0x3FF; DEBUG("%s, %d: %lu\n", RIOT_FILE_RELATIVE, __LINE__, t1); DEBUG("%s, %d: %lu\n", RIOT_FILE_RELATIVE, __LINE__, t2); return (uint16_t) adc_data; /* return A/D conversion value */ }