Exemplo n.º 1
0
int get_adc_sample(int chan)
{
	int count;
	int value = -1;
	int sum;
	
	set_chan_list(chan, 1);
	set_avg_mode(chan, NO_AVG_MODE, SAMPLE_NUM_8);
	set_sample_mux(chan, g_chan_mux[chan]);
	set_detect_mux(g_chan_mux[chan]);
	set_idle_mux(g_chan_mux[chan]); // for revb
	enable_sample_engine();
	start_sample();

	// Read any CBUS register to delay one clock
	// cycle after starting the sampling engine
	// The bus is really fast and we may miss that it started
	{ count = READ_CBUS_REG(ISA_TIMERE); }

	count = 0;
	while (delta_busy() || sample_busy() || avg_busy()){
		if (++count > 10000){
			printf("ADC busy error.\n");
			goto adc_sample_end;
			}
	}
	
    stop_sample();
    
    sum = 0;
    count = 0;
    value = get_fifo_sample();

	while (get_fifo_cnt()){
        value = get_fifo_sample() & 0x3ff;
        if ((value != 0x1fe) && (value != 0x1ff)){
			sum += value & 0x3ff;
            count++;
        }
	}
	value = (count) ? (sum / count) : (-1);

adc_sample_end:
	
#if AML_ADC_SAMPLE_DEBUG
	printf("ch%d = %d, count=%d\n", chan, value, count);
#endif //AML_ADC_SAMPLE_DEBUG

	disable_sample_engine();
	set_sc_phase();
	return value;
}
Exemplo n.º 2
0
void saradc_enable(void)
{
	int i;

	//set adc clock as 1.28Mhz @sys=27MHz
	set_clock_divider(20);
	enable_clock();
	enable_adc();

	set_sample_mode(DIFF_MODE);
	set_tempsen(0);
	disable_fifo_irq();
	disable_continuous_sample();
	disable_chan0_delta();
	disable_chan1_delta();

	set_input_delay(10, INPUT_DELAY_TB_1US);
	set_sample_delay(10, SAMPLE_DELAY_TB_1US);
	set_block_delay(10, BLOCK_DELAY_TB_1US);
	
	// channels sampling mode setting
	for(i=0; i<AML_ADC_SARADC_CHAN_NUM; i++) {
		set_sample_sw(i, IDLE_SW);
		set_sample_mux(i, g_chan_mux[i]);
	}
	
	// idle mode setting
	set_idle_sw(IDLE_SW);
	set_idle_mux(g_chan_mux[AML_ADC_CHAN_0]);
	
	// detect mode setting
	set_detect_sw(DETECT_SW);
	set_detect_mux(g_chan_mux[AML_ADC_CHAN_0]);
	disable_detect_sw();
	disable_detect_pullup();
	set_detect_irq_pol(0);
	disable_detect_irq();
	set_sc_phase();
	enable_sample_engine();

#if AML_ADC_SAMPLE_DEBUG
	printf("ADCREG reg0 =%x\n",   READ_CBUS_REG(SAR_ADC_REG0));
	printf("ADCREG ch list =%x\n",READ_CBUS_REG(SAR_ADC_CHAN_LIST));
	printf("ADCREG avg  =%x\n",   READ_CBUS_REG(SAR_ADC_AVG_CNTL));
	printf("ADCREG reg3 =%x\n",   READ_CBUS_REG(SAR_ADC_REG3));
	printf("ADCREG ch72 sw =%x\n",READ_CBUS_REG(SAR_ADC_AUX_SW));
	printf("ADCREG ch10 sw =%x\n",READ_CBUS_REG(SAR_ADC_CHAN_10_SW));
	printf("ADCREG detect&idle=%x\n",READ_CBUS_REG(SAR_ADC_DETECT_IDLE_SW));
#endif //AML_ADC_SAMPLE_DEBUG

}
Exemplo n.º 3
0
static void saradc_init(void)
{
	int i;
	
	enable_bandgap();
	//low speed, set to clk81 without division
	set_clock_src(1); //0-xtal, 1-clk81
	set_clock_divider(0);
	enable_clock();
	enable_adc();

	set_sample_mode(DIFF_MODE);
	set_tempsen(0);
	disable_fifo_irq();
	disable_continuous_sample();
	disable_chan0_delta();
	disable_chan1_delta();

	set_input_delay(10, INPUT_DELAY_TB_1US);
	set_sample_delay(10, SAMPLE_DELAY_TB_1US);
	set_block_delay(10, BLOCK_DELAY_TB_1US);
	aml_set_reg32_bits(P_AO_SAR_ADC_DELAY, 3, 27, 2);
	
	// channels sampling mode setting
	for(i=0; i<AML_ADC_SARADC_CHAN_NUM; i++) {
		set_sample_sw(i, IDLE_SW);
		set_sample_mux(i, g_chan_mux[i]);
	}

	// idle mode setting
	set_idle_sw(IDLE_SW);
	set_idle_mux(g_chan_mux[AML_ADC_CHAN_0]);

	// detect mode setting
	set_detect_sw(DETECT_SW);
	set_detect_mux(g_chan_mux[AML_ADC_CHAN_0]);
	disable_detect_sw();
	disable_detect_pullup();
	set_detect_irq_pol(0);
	disable_detect_irq();
	set_cal_voltage(7);
	set_sc_phase();

	enable_sample_engine();
	udelay(1000);
	while (get_fifo_cnt()) {
		i = get_fifo_sample() & 0x3ff;
	}
}