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ADC_full/adc.cpp@0:013005f626db, 2012-06-26 (annotated)

Committer:: AndrewK
Date:: Tue Jun 26 06:23:18 2012 +0000
Revision:: 0:013005f626db

Who changed what in which revision?

User	Revision	Line number	New contents of line
AndrewK	0:013005f626db	1	/* mbed Library - ADC
AndrewK	0:013005f626db	2	* Copyright (c) 2010, sblandford
AndrewK	0:013005f626db	3	* released under MIT license http://mbed.org/licence/mit
AndrewK	0:013005f626db	4	*/
AndrewK	0:013005f626db	5	#include "mbed.h"
AndrewK	0:013005f626db	6	#include "adc.h"
AndrewK	0:013005f626db	7
AndrewK	0:013005f626db	8
AndrewK	0:013005f626db	9	ADC *ADC::instance;
AndrewK	0:013005f626db	10
AndrewK	0:013005f626db	11	ADC::ADC(int sample_rate, int cclk_div)
AndrewK	0:013005f626db	12	{
AndrewK	0:013005f626db	13
AndrewK	0:013005f626db	14	int i, adc_clk_freq, pclk, clock_div, max_div=1;
AndrewK	0:013005f626db	15
AndrewK	0:013005f626db	16	//Work out CCLK
AndrewK	0:013005f626db	17	adc_clk_freq=CLKS_PER_SAMPLE*sample_rate;
AndrewK	0:013005f626db	18	int m = (LPC_SC->PLL0CFG & 0xFFFF) + 1;
AndrewK	0:013005f626db	19	int n = (LPC_SC->PLL0CFG >> 16) + 1;
AndrewK	0:013005f626db	20	int cclkdiv = LPC_SC->CCLKCFG + 1;
AndrewK	0:013005f626db	21	int Fcco = (2 * m * XTAL_FREQ) / n;
AndrewK	0:013005f626db	22	int cclk = Fcco / cclkdiv;
AndrewK	0:013005f626db	23
AndrewK	0:013005f626db	24	//Power up the ADC
AndrewK	0:013005f626db	25	LPC_SC->PCONP \|= (1 << 12);
AndrewK	0:013005f626db	26	//Set clock at cclk / 1.
AndrewK	0:013005f626db	27	LPC_SC->PCLKSEL0 &= ~(0x3 << 24);
AndrewK	0:013005f626db	28	switch (cclk_div) {
AndrewK	0:013005f626db	29	case 1:
AndrewK	0:013005f626db	30	LPC_SC->PCLKSEL0 \|= 0x1 << 24;
AndrewK	0:013005f626db	31	break;
AndrewK	0:013005f626db	32	case 2:
AndrewK	0:013005f626db	33	LPC_SC->PCLKSEL0 \|= 0x2 << 24;
AndrewK	0:013005f626db	34	break;
AndrewK	0:013005f626db	35	case 4:
AndrewK	0:013005f626db	36	LPC_SC->PCLKSEL0 \|= 0x0 << 24;
AndrewK	0:013005f626db	37	break;
AndrewK	0:013005f626db	38	case 8:
AndrewK	0:013005f626db	39	LPC_SC->PCLKSEL0 \|= 0x3 << 24;
AndrewK	0:013005f626db	40	break;
AndrewK	0:013005f626db	41	default:
AndrewK	0:013005f626db	42	fprintf(stderr, "Warning: ADC CCLK clock divider must be 1, 2, 4 or 8. %u supplied.\n",
AndrewK	0:013005f626db	43	cclk_div);
AndrewK	0:013005f626db	44	fprintf(stderr, "Defaulting to 1.\n");
AndrewK	0:013005f626db	45	LPC_SC->PCLKSEL0 \|= 0x1 << 24;
AndrewK	0:013005f626db	46	break;
AndrewK	0:013005f626db	47	}
AndrewK	0:013005f626db	48	pclk = cclk / cclk_div;
AndrewK	0:013005f626db	49	clock_div=pclk / adc_clk_freq;
AndrewK	0:013005f626db	50
AndrewK	0:013005f626db	51	if (clock_div > 0xFF) {
AndrewK	0:013005f626db	52	fprintf(stderr, "Warning: Clock division is %u which is above 255 limit. Re-Setting at limit.\n",
AndrewK	0:013005f626db	53	clock_div);
AndrewK	0:013005f626db	54	clock_div=0xFF;
AndrewK	0:013005f626db	55	}
AndrewK	0:013005f626db	56	if (clock_div == 0) {
AndrewK	0:013005f626db	57	fprintf(stderr, "Warning: Clock division is 0. Re-Setting to 1.\n");
AndrewK	0:013005f626db	58	clock_div=1;
AndrewK	0:013005f626db	59	}
AndrewK	0:013005f626db	60
AndrewK	0:013005f626db	61	_adc_clk_freq=pclk / clock_div;
AndrewK	0:013005f626db	62	if (_adc_clk_freq > MAX_ADC_CLOCK) {
AndrewK	0:013005f626db	63	fprintf(stderr, "Warning: Actual ADC sample rate of %u which is above %u limit\n",
AndrewK	0:013005f626db	64	_adc_clk_freq / CLKS_PER_SAMPLE, MAX_ADC_CLOCK / CLKS_PER_SAMPLE);
AndrewK	0:013005f626db	65	while ((pclk / max_div) > MAX_ADC_CLOCK) max_div++;
AndrewK	0:013005f626db	66	fprintf(stderr, "Maximum recommended sample rate is %u\n", (pclk / max_div) / CLKS_PER_SAMPLE);
AndrewK	0:013005f626db	67	}
AndrewK	0:013005f626db	68
AndrewK	0:013005f626db	69	LPC_ADC->ADCR =
AndrewK	0:013005f626db	70	((clock_div - 1 ) << 8 ) \| //Clkdiv
AndrewK	0:013005f626db	71	( 1 << 21 ); //A/D operational
AndrewK	0:013005f626db	72
AndrewK	0:013005f626db	73	//Default no channels enabled
AndrewK	0:013005f626db	74	LPC_ADC->ADCR &= ~0xFF;
AndrewK	0:013005f626db	75	//Default NULL global custom isr
AndrewK	0:013005f626db	76	_adc_g_isr = NULL;
AndrewK	0:013005f626db	77	//Initialize arrays
AndrewK	0:013005f626db	78	for (i=7; i>=0; i--) {
AndrewK	0:013005f626db	79	_adc_data[i] = 0;
AndrewK	0:013005f626db	80	_adc_isr[i] = NULL;
AndrewK	0:013005f626db	81	}
AndrewK	0:013005f626db	82
AndrewK	0:013005f626db	83
AndrewK	0:013005f626db	84	//* Attach IRQ
AndrewK	0:013005f626db	85	instance = this;
AndrewK	0:013005f626db	86	NVIC_SetVector(ADC_IRQn, (uint32_t)&_adcisr);
AndrewK	0:013005f626db	87
AndrewK	0:013005f626db	88	//Disable global interrupt
AndrewK	0:013005f626db	89	LPC_ADC->ADINTEN &= ~0x100;
AndrewK	0:013005f626db	90
AndrewK	0:013005f626db	91	};
AndrewK	0:013005f626db	92
AndrewK	0:013005f626db	93	void ADC::_adcisr(void)
AndrewK	0:013005f626db	94	{
AndrewK	0:013005f626db	95	instance->adcisr();
AndrewK	0:013005f626db	96	}
AndrewK	0:013005f626db	97
AndrewK	0:013005f626db	98
AndrewK	0:013005f626db	99	void ADC::adcisr(void)
AndrewK	0:013005f626db	100	{
AndrewK	0:013005f626db	101	uint32_t stat;
AndrewK	0:013005f626db	102	int chan;
AndrewK	0:013005f626db	103
AndrewK	0:013005f626db	104	// Read status
AndrewK	0:013005f626db	105	stat = LPC_ADC->ADSTAT;
AndrewK	0:013005f626db	106	//Scan channels for over-run or done and update array
AndrewK	0:013005f626db	107	if (stat & 0x0101) _adc_data[0] = LPC_ADC->ADDR0;
AndrewK	0:013005f626db	108	if (stat & 0x0202) _adc_data[1] = LPC_ADC->ADDR1;
AndrewK	0:013005f626db	109	if (stat & 0x0404) _adc_data[2] = LPC_ADC->ADDR2;
AndrewK	0:013005f626db	110	if (stat & 0x0808) _adc_data[3] = LPC_ADC->ADDR3;
AndrewK	0:013005f626db	111	if (stat & 0x1010) _adc_data[4] = LPC_ADC->ADDR4;
AndrewK	0:013005f626db	112	if (stat & 0x2020) _adc_data[5] = LPC_ADC->ADDR5;
AndrewK	0:013005f626db	113	if (stat & 0x4040) _adc_data[6] = LPC_ADC->ADDR6;
AndrewK	0:013005f626db	114	if (stat & 0x8080) _adc_data[7] = LPC_ADC->ADDR7;
AndrewK	0:013005f626db	115
AndrewK	0:013005f626db	116	// Channel that triggered interrupt
AndrewK	0:013005f626db	117	chan = (LPC_ADC->ADGDR >> 24) & 0x07;
AndrewK	0:013005f626db	118	//User defined interrupt handlers
AndrewK	0:013005f626db	119	if (_adc_isr[chan] != NULL)
AndrewK	0:013005f626db	120	_adc_isr[chan](_adc_data[chan]);
AndrewK	0:013005f626db	121	if (_adc_g_isr != NULL)
AndrewK	0:013005f626db	122	_adc_g_isr(chan, _adc_data[chan]);
AndrewK	0:013005f626db	123	return;
AndrewK	0:013005f626db	124	}
AndrewK	0:013005f626db	125
AndrewK	0:013005f626db	126	int ADC::_pin_to_channel(PinName pin) {
AndrewK	0:013005f626db	127	int chan;
AndrewK	0:013005f626db	128	switch (pin) {
AndrewK	0:013005f626db	129	case p15://=p0.23 of LPC1768
AndrewK	0:013005f626db	130	default:
AndrewK	0:013005f626db	131	chan=0;
AndrewK	0:013005f626db	132	break;
AndrewK	0:013005f626db	133	case p16://=p0.24 of LPC1768
AndrewK	0:013005f626db	134	chan=1;
AndrewK	0:013005f626db	135	break;
AndrewK	0:013005f626db	136	case p17://=p0.25 of LPC1768
AndrewK	0:013005f626db	137	chan=2;
AndrewK	0:013005f626db	138	break;
AndrewK	0:013005f626db	139	case p18://=p0.26 of LPC1768
AndrewK	0:013005f626db	140	chan=3;
AndrewK	0:013005f626db	141	break;
AndrewK	0:013005f626db	142	case p19://=p1.30 of LPC1768
AndrewK	0:013005f626db	143	chan=4;
AndrewK	0:013005f626db	144	break;
AndrewK	0:013005f626db	145	case p20://=p1.31 of LPC1768
AndrewK	0:013005f626db	146	chan=5;
AndrewK	0:013005f626db	147	break;
AndrewK	0:013005f626db	148	}
AndrewK	0:013005f626db	149	return(chan);
AndrewK	0:013005f626db	150	}
AndrewK	0:013005f626db	151
AndrewK	0:013005f626db	152	PinName ADC::channel_to_pin(int chan) {
AndrewK	0:013005f626db	153	const PinName pin[8]={p15, p16, p17, p18, p19, p20, p15, p15};
AndrewK	0:013005f626db	154
AndrewK	0:013005f626db	155	if ((chan < 0) \|\| (chan > 5))
AndrewK	0:013005f626db	156	fprintf(stderr, "ADC channel %u is outside range available to MBED pins.\n", chan);
AndrewK	0:013005f626db	157	return(pin[chan & 0x07]);
AndrewK	0:013005f626db	158	}
AndrewK	0:013005f626db	159
AndrewK	0:013005f626db	160
AndrewK	0:013005f626db	161	int ADC::channel_to_pin_number(int chan) {
AndrewK	0:013005f626db	162	const int pin[8]={15, 16, 17, 18, 19, 20, 0, 0};
AndrewK	0:013005f626db	163
AndrewK	0:013005f626db	164	if ((chan < 0) \|\| (chan > 5))
AndrewK	0:013005f626db	165	fprintf(stderr, "ADC channel %u is outside range available to MBED pins.\n", chan);
AndrewK	0:013005f626db	166	return(pin[chan & 0x07]);
AndrewK	0:013005f626db	167	}
AndrewK	0:013005f626db	168
AndrewK	0:013005f626db	169
AndrewK	0:013005f626db	170	uint32_t ADC::_data_of_pin(PinName pin) {
AndrewK	0:013005f626db	171	//If in burst mode and at least one interrupt enabled then
AndrewK	0:013005f626db	172	//take all values from _adc_data
AndrewK	0:013005f626db	173	if (burst() && (LPC_ADC->ADINTEN & 0x3F)) {
AndrewK	0:013005f626db	174	return(_adc_data[_pin_to_channel(pin)]);
AndrewK	0:013005f626db	175	} else {
AndrewK	0:013005f626db	176	//Return current register value or last value from interrupt
AndrewK	0:013005f626db	177	switch (pin) {
AndrewK	0:013005f626db	178	case p15://=p0.23 of LPC1768
AndrewK	0:013005f626db	179	default:
AndrewK	0:013005f626db	180	return(LPC_ADC->ADINTEN & 0x01?_adc_data[0]:LPC_ADC->ADDR0);
AndrewK	0:013005f626db	181	case p16://=p0.24 of LPC1768
AndrewK	0:013005f626db	182	return(LPC_ADC->ADINTEN & 0x02?_adc_data[1]:LPC_ADC->ADDR1);
AndrewK	0:013005f626db	183	case p17://=p0.25 of LPC1768
AndrewK	0:013005f626db	184	return(LPC_ADC->ADINTEN & 0x04?_adc_data[2]:LPC_ADC->ADDR2);
AndrewK	0:013005f626db	185	case p18://=p0.26 of LPC1768:
AndrewK	0:013005f626db	186	return(LPC_ADC->ADINTEN & 0x08?_adc_data[3]:LPC_ADC->ADDR3);
AndrewK	0:013005f626db	187	case p19://=p1.30 of LPC1768
AndrewK	0:013005f626db	188	return(LPC_ADC->ADINTEN & 0x10?_adc_data[4]:LPC_ADC->ADDR4);
AndrewK	0:013005f626db	189	case p20://=p1.31 of LPC1768
AndrewK	0:013005f626db	190	return(LPC_ADC->ADINTEN & 0x20?_adc_data[5]:LPC_ADC->ADDR5);
AndrewK	0:013005f626db	191	}
AndrewK	0:013005f626db	192	}
AndrewK	0:013005f626db	193	}
AndrewK	0:013005f626db	194
AndrewK	0:013005f626db	195	//Enable or disable an ADC pin
AndrewK	0:013005f626db	196	void ADC::setup(PinName pin, int state) {
AndrewK	0:013005f626db	197	int chan;
AndrewK	0:013005f626db	198	chan=_pin_to_channel(pin);
AndrewK	0:013005f626db	199	if ((state & 1) == 1) {
AndrewK	0:013005f626db	200	switch(pin) {
AndrewK	0:013005f626db	201	case p15://=p0.23 of LPC1768
AndrewK	0:013005f626db	202	default:
AndrewK	0:013005f626db	203	LPC_PINCON->PINSEL1 &= ~((unsigned int)0x3 << 14);
AndrewK	0:013005f626db	204	LPC_PINCON->PINSEL1 \|= (unsigned int)0x1 << 14;
AndrewK	0:013005f626db	205	LPC_PINCON->PINMODE1 &= ~((unsigned int)0x3 << 14);
AndrewK	0:013005f626db	206	LPC_PINCON->PINMODE1 \|= (unsigned int)0x2 << 14;
AndrewK	0:013005f626db	207	break;
AndrewK	0:013005f626db	208	case p16://=p0.24 of LPC1768
AndrewK	0:013005f626db	209	LPC_PINCON->PINSEL1 &= ~((unsigned int)0x3 << 16);
AndrewK	0:013005f626db	210	LPC_PINCON->PINSEL1 \|= (unsigned int)0x1 << 16;
AndrewK	0:013005f626db	211	LPC_PINCON->PINMODE1 &= ~((unsigned int)0x3 << 16);
AndrewK	0:013005f626db	212	LPC_PINCON->PINMODE1 \|= (unsigned int)0x2 << 16;
AndrewK	0:013005f626db	213	break;
AndrewK	0:013005f626db	214	case p17://=p0.25 of LPC1768
AndrewK	0:013005f626db	215	LPC_PINCON->PINSEL1 &= ~((unsigned int)0x3 << 18);
AndrewK	0:013005f626db	216	LPC_PINCON->PINSEL1 \|= (unsigned int)0x1 << 18;
AndrewK	0:013005f626db	217	LPC_PINCON->PINMODE1 &= ~((unsigned int)0x3 << 18);
AndrewK	0:013005f626db	218	LPC_PINCON->PINMODE1 \|= (unsigned int)0x2 << 18;
AndrewK	0:013005f626db	219	break;
AndrewK	0:013005f626db	220	case p18://=p0.26 of LPC1768:
AndrewK	0:013005f626db	221	LPC_PINCON->PINSEL1 &= ~((unsigned int)0x3 << 20);
AndrewK	0:013005f626db	222	LPC_PINCON->PINSEL1 \|= (unsigned int)0x1 << 20;
AndrewK	0:013005f626db	223	LPC_PINCON->PINMODE1 &= ~((unsigned int)0x3 << 20);
AndrewK	0:013005f626db	224	LPC_PINCON->PINMODE1 \|= (unsigned int)0x2 << 20;
AndrewK	0:013005f626db	225	break;
AndrewK	0:013005f626db	226	case p19://=p1.30 of LPC1768
AndrewK	0:013005f626db	227	LPC_PINCON->PINSEL3 &= ~((unsigned int)0x3 << 28);
AndrewK	0:013005f626db	228	LPC_PINCON->PINSEL3 \|= (unsigned int)0x3 << 28;
AndrewK	0:013005f626db	229	LPC_PINCON->PINMODE3 &= ~((unsigned int)0x3 << 28);
AndrewK	0:013005f626db	230	LPC_PINCON->PINMODE3 \|= (unsigned int)0x2 << 28;
AndrewK	0:013005f626db	231	break;
AndrewK	0:013005f626db	232	case p20://=p1.31 of LPC1768
AndrewK	0:013005f626db	233	LPC_PINCON->PINSEL3 &= ~((unsigned int)0x3 << 30);
AndrewK	0:013005f626db	234	LPC_PINCON->PINSEL3 \|= (unsigned int)0x3 << 30;
AndrewK	0:013005f626db	235	LPC_PINCON->PINMODE3 &= ~((unsigned int)0x3 << 30);
AndrewK	0:013005f626db	236	LPC_PINCON->PINMODE3 \|= (unsigned int)0x2 << 30;
AndrewK	0:013005f626db	237	break;
AndrewK	0:013005f626db	238	}
AndrewK	0:013005f626db	239	//Only one channel can be selected at a time if not in burst mode
AndrewK	0:013005f626db	240	if (!burst()) LPC_ADC->ADCR &= ~0xFF;
AndrewK	0:013005f626db	241	//Select channel
AndrewK	0:013005f626db	242	LPC_ADC->ADCR \|= (1 << chan);
AndrewK	0:013005f626db	243	}
AndrewK	0:013005f626db	244	else {
AndrewK	0:013005f626db	245	switch(pin) {
AndrewK	0:013005f626db	246	case p15://=p0.23 of LPC1768
AndrewK	0:013005f626db	247	default:
AndrewK	0:013005f626db	248	LPC_PINCON->PINSEL1 &= ~((unsigned int)0x3 << 14);
AndrewK	0:013005f626db	249	LPC_PINCON->PINMODE1 &= ~((unsigned int)0x3 << 14);
AndrewK	0:013005f626db	250	break;
AndrewK	0:013005f626db	251	case p16://=p0.24 of LPC1768
AndrewK	0:013005f626db	252	LPC_PINCON->PINSEL1 &= ~((unsigned int)0x3 << 16);
AndrewK	0:013005f626db	253	LPC_PINCON->PINMODE1 &= ~((unsigned int)0x3 << 16);
AndrewK	0:013005f626db	254	break;
AndrewK	0:013005f626db	255	case p17://=p0.25 of LPC1768
AndrewK	0:013005f626db	256	LPC_PINCON->PINSEL1 &= ~((unsigned int)0x3 << 18);
AndrewK	0:013005f626db	257	LPC_PINCON->PINMODE1 &= ~((unsigned int)0x3 << 18);
AndrewK	0:013005f626db	258	break;
AndrewK	0:013005f626db	259	case p18://=p0.26 of LPC1768:
AndrewK	0:013005f626db	260	LPC_PINCON->PINSEL1 &= ~((unsigned int)0x3 << 20);
AndrewK	0:013005f626db	261	LPC_PINCON->PINMODE1 &= ~((unsigned int)0x3 << 20);
AndrewK	0:013005f626db	262	break;
AndrewK	0:013005f626db	263	case p19://=p1.30 of LPC1768
AndrewK	0:013005f626db	264	LPC_PINCON->PINSEL3 &= ~((unsigned int)0x3 << 28);
AndrewK	0:013005f626db	265	LPC_PINCON->PINMODE3 &= ~((unsigned int)0x3 << 28);
AndrewK	0:013005f626db	266	break;
AndrewK	0:013005f626db	267	case p20://=p1.31 of LPC1768
AndrewK	0:013005f626db	268	LPC_PINCON->PINSEL3 &= ~((unsigned int)0x3 << 30);
AndrewK	0:013005f626db	269	LPC_PINCON->PINMODE3 &= ~((unsigned int)0x3 << 30);
AndrewK	0:013005f626db	270	break;
AndrewK	0:013005f626db	271	}
AndrewK	0:013005f626db	272	LPC_ADC->ADCR &= ~(1 << chan);
AndrewK	0:013005f626db	273	}
AndrewK	0:013005f626db	274	}
AndrewK	0:013005f626db	275	//Return channel enabled/disabled state
AndrewK	0:013005f626db	276	int ADC::setup(PinName pin) {
AndrewK	0:013005f626db	277	int chan;
AndrewK	0:013005f626db	278
AndrewK	0:013005f626db	279	chan = _pin_to_channel(pin);
AndrewK	0:013005f626db	280	return((LPC_ADC->ADCR & (1 << chan)) >> chan);
AndrewK	0:013005f626db	281	}
AndrewK	0:013005f626db	282
AndrewK	0:013005f626db	283	//Select channel already setup
AndrewK	0:013005f626db	284	void ADC::select(PinName pin) {
AndrewK	0:013005f626db	285	int chan;
AndrewK	0:013005f626db	286
AndrewK	0:013005f626db	287	//Only one channel can be selected at a time if not in burst mode
AndrewK	0:013005f626db	288	if (!burst()) LPC_ADC->ADCR &= ~0xFF;
AndrewK	0:013005f626db	289	//Select channel
AndrewK	0:013005f626db	290	chan = _pin_to_channel(pin);
AndrewK	0:013005f626db	291	LPC_ADC->ADCR \|= (1 << chan);
AndrewK	0:013005f626db	292	}
AndrewK	0:013005f626db	293
AndrewK	0:013005f626db	294	//Enable or disable burst mode
AndrewK	0:013005f626db	295	void ADC::burst(int state) {
AndrewK	0:013005f626db	296	if ((state & 1) == 1) {
AndrewK	0:013005f626db	297	if (startmode(0) != 0)
AndrewK	0:013005f626db	298	fprintf(stderr, "Warning. startmode is %u. Must be 0 for burst mode.\n", startmode(0));
AndrewK	0:013005f626db	299	LPC_ADC->ADCR \|= (1 << 16);
AndrewK	0:013005f626db	300	}
AndrewK	0:013005f626db	301	else
AndrewK	0:013005f626db	302	LPC_ADC->ADCR &= ~(1 << 16);
AndrewK	0:013005f626db	303	}
AndrewK	0:013005f626db	304	//Return burst mode state
AndrewK	0:013005f626db	305	int ADC::burst(void) {
AndrewK	0:013005f626db	306	return((LPC_ADC->ADCR & (1 << 16)) >> 16);
AndrewK	0:013005f626db	307	}
AndrewK	0:013005f626db	308
AndrewK	0:013005f626db	309	//Set startmode and edge
AndrewK	0:013005f626db	310	void ADC::startmode(int mode, int edge) {
AndrewK	0:013005f626db	311	int lpc_adc_temp;
AndrewK	0:013005f626db	312
AndrewK	0:013005f626db	313	//Reset start mode and edge bit,
AndrewK	0:013005f626db	314	lpc_adc_temp = LPC_ADC->ADCR & ~(0x0F << 24);
AndrewK	0:013005f626db	315	//Write with new values
AndrewK	0:013005f626db	316	lpc_adc_temp \|= ((mode & 7) << 24) \| ((edge & 1) << 27);
AndrewK	0:013005f626db	317	LPC_ADC->ADCR = lpc_adc_temp;
AndrewK	0:013005f626db	318	}
AndrewK	0:013005f626db	319
AndrewK	0:013005f626db	320	//Return startmode state according to mode_edge=0: mode and mode_edge=1: edge
AndrewK	0:013005f626db	321	int ADC::startmode(int mode_edge){
AndrewK	0:013005f626db	322	switch (mode_edge) {
AndrewK	0:013005f626db	323	case 0:
AndrewK	0:013005f626db	324	default:
AndrewK	0:013005f626db	325	return((LPC_ADC->ADCR >> 24) & 0x07);
AndrewK	0:013005f626db	326	case 1:
AndrewK	0:013005f626db	327	return((LPC_ADC->ADCR >> 27) & 0x01);
AndrewK	0:013005f626db	328	}
AndrewK	0:013005f626db	329	}
AndrewK	0:013005f626db	330
AndrewK	0:013005f626db	331	//Start ADC conversion
AndrewK	0:013005f626db	332	void ADC::start(void) {
AndrewK	0:013005f626db	333	startmode(1,0);
AndrewK	0:013005f626db	334	}
AndrewK	0:013005f626db	335
AndrewK	0:013005f626db	336
AndrewK	0:013005f626db	337	//Set interrupt enable/disable for pin to state
AndrewK	0:013005f626db	338	void ADC::interrupt_state(PinName pin, int state) {
AndrewK	0:013005f626db	339	int chan;
AndrewK	0:013005f626db	340
AndrewK	0:013005f626db	341	chan = _pin_to_channel(pin);
AndrewK	0:013005f626db	342	if (state == 1) {
AndrewK	0:013005f626db	343	LPC_ADC->ADINTEN &= ~0x100;
AndrewK	0:013005f626db	344	LPC_ADC->ADINTEN \|= 1 << chan;
AndrewK	0:013005f626db	345	/* Enable the ADC Interrupt */
AndrewK	0:013005f626db	346	NVIC_EnableIRQ(ADC_IRQn);
AndrewK	0:013005f626db	347	} else {
AndrewK	0:013005f626db	348	LPC_ADC->ADINTEN &= ~( 1 << chan );
AndrewK	0:013005f626db	349	//Disable interrrupt if no active pins left
AndrewK	0:013005f626db	350	if ((LPC_ADC->ADINTEN & 0xFF) == 0)
AndrewK	0:013005f626db	351	NVIC_DisableIRQ(ADC_IRQn);
AndrewK	0:013005f626db	352	}
AndrewK	0:013005f626db	353	}
AndrewK	0:013005f626db	354
AndrewK	0:013005f626db	355	//Return enable/disable state of interrupt for pin
AndrewK	0:013005f626db	356	int ADC::interrupt_state(PinName pin) {
AndrewK	0:013005f626db	357	int chan;
AndrewK	0:013005f626db	358
AndrewK	0:013005f626db	359	chan = _pin_to_channel(pin);
AndrewK	0:013005f626db	360	return((LPC_ADC->ADINTEN >> chan) & 0x01);
AndrewK	0:013005f626db	361	}
AndrewK	0:013005f626db	362
AndrewK	0:013005f626db	363
AndrewK	0:013005f626db	364	//Attach custom interrupt handler replacing default
AndrewK	0:013005f626db	365	void ADC::attach(void(*fptr)(void)) {
AndrewK	0:013005f626db	366	//* Attach IRQ
AndrewK	0:013005f626db	367	NVIC_SetVector(ADC_IRQn, (uint32_t)fptr);
AndrewK	0:013005f626db	368	}
AndrewK	0:013005f626db	369
AndrewK	0:013005f626db	370	//Restore default interrupt handler
AndrewK	0:013005f626db	371	void ADC::detach(void) {
AndrewK	0:013005f626db	372	//* Attach IRQ
AndrewK	0:013005f626db	373	instance = this;
AndrewK	0:013005f626db	374	NVIC_SetVector(ADC_IRQn, (uint32_t)&_adcisr);
AndrewK	0:013005f626db	375	}
AndrewK	0:013005f626db	376
AndrewK	0:013005f626db	377
AndrewK	0:013005f626db	378	//Append interrupt handler for pin to function isr
AndrewK	0:013005f626db	379	void ADC::append(PinName pin, void(*fptr)(uint32_t value)) {
AndrewK	0:013005f626db	380	int chan;
AndrewK	0:013005f626db	381
AndrewK	0:013005f626db	382	chan = _pin_to_channel(pin);
AndrewK	0:013005f626db	383	_adc_isr[chan] = fptr;
AndrewK	0:013005f626db	384	}
AndrewK	0:013005f626db	385
AndrewK	0:013005f626db	386	//Append interrupt handler for pin to function isr
AndrewK	0:013005f626db	387	void ADC::unappend(PinName pin) {
AndrewK	0:013005f626db	388	int chan;
AndrewK	0:013005f626db	389
AndrewK	0:013005f626db	390	chan = _pin_to_channel(pin);
AndrewK	0:013005f626db	391	_adc_isr[chan] = NULL;
AndrewK	0:013005f626db	392	}
AndrewK	0:013005f626db	393
AndrewK	0:013005f626db	394	//Unappend global interrupt handler to function isr
AndrewK	0:013005f626db	395	void ADC::append(void(*fptr)(int chan, uint32_t value)) {
AndrewK	0:013005f626db	396	_adc_g_isr = fptr;
AndrewK	0:013005f626db	397	}
AndrewK	0:013005f626db	398
AndrewK	0:013005f626db	399	//Detach global interrupt handler to function isr
AndrewK	0:013005f626db	400	void ADC::unappend() {
AndrewK	0:013005f626db	401	_adc_g_isr = NULL;
AndrewK	0:013005f626db	402	}
AndrewK	0:013005f626db	403
AndrewK	0:013005f626db	404	//Set ADC offset
AndrewK	0:013005f626db	405	void offset(int offset) {
AndrewK	0:013005f626db	406	LPC_ADC->ADTRM &= ~(0x07 << 4);
AndrewK	0:013005f626db	407	LPC_ADC->ADTRM \|= (offset & 0x07) << 4;
AndrewK	0:013005f626db	408	}
AndrewK	0:013005f626db	409
AndrewK	0:013005f626db	410	//Return current ADC offset
AndrewK	0:013005f626db	411	int offset(void) {
AndrewK	0:013005f626db	412	return((LPC_ADC->ADTRM >> 4) & 0x07);
AndrewK	0:013005f626db	413	}
AndrewK	0:013005f626db	414
AndrewK	0:013005f626db	415	//Return value of ADC on pin
AndrewK	0:013005f626db	416	int ADC::read(PinName pin) {
AndrewK	0:013005f626db	417	//Reset DONE and OVERRUN flags of interrupt handled ADC data
AndrewK	0:013005f626db	418	_adc_data[_pin_to_channel(pin)] &= ~(((uint32_t)0x01 << 31) \| ((uint32_t)0x01 << 30));
AndrewK	0:013005f626db	419	//Return value
AndrewK	0:013005f626db	420	return((_data_of_pin(pin) >> 4) & 0xFFF);
AndrewK	0:013005f626db	421	}
AndrewK	0:013005f626db	422
AndrewK	0:013005f626db	423	//Return DONE flag of ADC on pin
AndrewK	0:013005f626db	424	int ADC::done(PinName pin) {
AndrewK	0:013005f626db	425	return((_data_of_pin(pin) >> 31) & 0x01);
AndrewK	0:013005f626db	426	}
AndrewK	0:013005f626db	427
AndrewK	0:013005f626db	428	//Return OVERRUN flag of ADC on pin
AndrewK	0:013005f626db	429	int ADC::overrun(PinName pin) {
AndrewK	0:013005f626db	430	return((_data_of_pin(pin) >> 30) & 0x01);
AndrewK	0:013005f626db	431	}
AndrewK	0:013005f626db	432
AndrewK	0:013005f626db	433	int ADC::actual_adc_clock(void) {
AndrewK	0:013005f626db	434	return(_adc_clk_freq);
AndrewK	0:013005f626db	435	}
AndrewK	0:013005f626db	436
AndrewK	0:013005f626db	437	int ADC::actual_sample_rate(void) {
AndrewK	0:013005f626db	438	return(_adc_clk_freq / CLKS_PER_SAMPLE);
AndrewK	0:013005f626db	439	}

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Type:	Program
Created:	26 Jun 2012
Imports:	16
Forks:	0
Commits:	1
Dependents:	0
Dependencies:	2
Followers:	3

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