test program to power up two MAX11410 ADCs and check the inputs of ADC1. Uses MAX11410 library.
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main.cpp
- Committer:
- laserdad
- Date:
- 2018-01-05
- Revision:
- 5:d7b803aa9079
- Parent:
- 4:c194858fe0c6
File content as of revision 5:d7b803aa9079:
// I2CU - Search for devices on an I2C bus // Copyright (c) 2009, sford // Released under the MIT License: http://mbed.org/license/mit // // Goes through each device address, seeing if it gets a response // - for every device if finds, it prints the 8-bit address // - if the program hangs, the bus isn't working (check pull-ups etc) // - if it doesn't find your device, check power/bus wiring etc // // - Note: if you plug / unplug devices try cycling power #include "mbed.h" #include "MAX11410.h" #define CS1 D9 #define CS2 D10 #define MOSI_1 D11 #define MISO_1 D12 #define SCLK_1 D13 #define VDD 3.3 AnalogOut vOut1(A3); AnalogOut vOut2(A4); DigitalOut cs_pin1(CS1); DigitalOut cs_pin2(CS2); SPI spi(MOSI_1, MISO_1, SCLK_1); MAX11410 adc1(&spi,&cs_pin1); MAX11410 adc2(&spi,&cs_pin2); //Serial pc(USBTX, USBRX,115200); Serial pc(USBTX, USBRX, 9600); void starting() { pc.printf("this program has started\r\n"); } void print8bitRegsAdc1(char start_reg,char end_reg) { bool int_status; char val; for(int n=start_reg;n<=end_reg;n++) { val = adc1.read8bits(n,&int_status); pc.printf("reg %02x, val =%02x\r\n",n,val); } } void print8bitRegsAdc2(char start_reg,char end_reg) { bool int_status; char val; for(int n=start_reg;n<=end_reg;n++) { val = adc2.read8bits(n,&int_status); pc.printf("reg %02x, val =%02x\r\n",n,val); } } int main() { int32_t channel_data[10]; float vdiff=0.01; vOut1 = 0.5-vdiff/2; vOut2 = 0.5+vdiff/2; starting(); bool int_state; spi.format(8,MAX11410_SPI_MODE); //configure number of spi bits 8, 16 spi.frequency(8000000); // Max 8MHz //read chip ID pc.printf("chip ID %d\r\n",adc1.read8bits(REG_PART_ID,&int_state) ); //config ADC 1 adc1.reset(); //POR // adc2.reset(); //check default register configs pc.printf("default regs for ADC1\r\n"); print8bitRegsAdc1(REG_PD,REG_WAIT_START); pc.printf("default regs for ADC2\r\n"); print8bitRegsAdc2(REG_PD,REG_WAIT_START); //config interrupts, PGA, Buffer, polarity, reference char mode_config = MODE_NORMAL; adc1.write8bitReg(REG_PD,mode_config); //got to normal mode adc2.write8bitReg(REG_PD,mode_config); //got to normal mode char filter_config = FIR_SIXTY | _RATE(4) ; // adc1.write8bitReg( REG_FILTER,filter_config ); adc2.write8bitReg( REG_FILTER,filter_config ); char ctrl_config = INT_CLOCK | BIPOLAR | TWOS_COMP | _PBUF_EN(0) | _NBUF_EN(0) | REF_AVDD ; //ADC configuration adc1.write8bitReg( REG_CTRL, ctrl_config ); adc2.write8bitReg( REG_CTRL, ctrl_config ); char source_config = VBIAS_ACTIVE | BRN_OFF | _IDAC(0); //not sourcing current adc1.write8bitReg( REG_SOURCE,source_config ); adc2.write8bitReg( REG_SOURCE,source_config ); uint32_t status_ie_config = DATA_RDY_INT | CAL_RDY_INT | CONV_RDY_INT; adc1.write24bitReg(REG_STATUS_IE,status_ie_config); adc2.write8bitReg( REG_SOURCE,source_config ); char gain_setting = 0; char pga_config = PGA | _GAIN_EXP(gain_setting) ; //no gain adc1.write8bitReg(REG_PGA,pga_config); adc2.write8bitReg(REG_PGA,pga_config); pc.printf("PGA gain = %d\r\n",1<<gain_setting); //check register writes pc.printf("checking register writes\r\n"); pc.printf("reg %02x, val %02x, set to %02x\r\n",REG_PD,adc1.read8bits(REG_PD,&int_state),mode_config); pc.printf("reg %02x, val %02x, set to %02x\r\n",REG_FILTER,adc1.read8bits(REG_FILTER,&int_state),filter_config); pc.printf("reg %02x, val %02x, set to %02x\r\n",REG_CTRL,adc1.read8bits(REG_CTRL,&int_state),ctrl_config); pc.printf("reg %02x, val %02x, set to %02x\r\n",REG_SOURCE,adc1.read8bits(REG_SOURCE,&int_state),source_config); pc.printf("reg %02x, val %06x, set to %06x\r\n",REG_STATUS_IE,adc1.read24bits(REG_STATUS_IE,&int_state),status_ie_config); pc.printf("reg %02x, val %02x, set to %02x\r\n",REG_PGA,adc1.read8bits(REG_PGA,&int_state),pga_config); // for each channel 1-5 for(int n=0;n<5;n++) { //select channel char p_ch = 2*n<<4; char n_ch = 2*n+1; adc1.write8bitReg(REG_MUX_CTRL0, p_ch | n_ch ); //select data output register and begin conversion adc1.write8bitReg(REG_CONV_START, (_DEST(n) | SINGLE_CONV) ); //optional: cal Gain //optional: cal Offset //optional: store cal parameters //begin conversion //wait for interrupt while(!adc1.interrupt() ) { wait_ms(CONV_DELAY_MS);//do nothing } //read conversion channel_data[n] = adc1.read24bitsSigned(REG_DATA0+n,&int_state); pc.printf("%d, ",channel_data[n]); } //channel sweep pc.printf("\r\n"); //config ADC 2: repeat above // while(1) // { // // } } //END MAIN