MAX32620HSP ECG with lead off detection
Dependencies: mbed HSP_ECG MAX14720 USBDevice
main.cpp
- Committer:
- douqan93
- Date:
- 2019-03-28
- Revision:
- 0:9ead5978d784
- Child:
- 1:8b09f627a713
File content as of revision 0:9ead5978d784:
#include "mbed.h" #include "MAX14720.h" #include "MAX30001.h" #include "MAX30101.h" #include "System.h" #include "USBSerial.h" /************************************************************************************************************************************/ /// define the HVOUT Boost Voltage default for the MAX14720 PMIC #define HVOUT_VOLTAGE 4500 // set to 4500 mV /// define all I2C addresses #define MAX14720_I2C_SLAVE_ADDR (0x54) #define MAX30101_I2C_SLAVE_ADDR (0xAE) // Settings for ECG Initialization #define En_ecg 0x01 #define Openp 0x00 #define Openn 0x00 #define Pol 0x00 #define Calp_sel 0x00 #define Caln_sel 0x00 #define E_fit 0x0F #define Rate 0x02 #define Gain 0x00 #define Dhpf 0x01 #define Dlpf 0x01 // Settings for ECG RtoR #define En_rtor 0x01 #define Wndw 0x03 #define Gain1 0x0f #define Pavg 0x02 #define Ptsf 0x03 #define Hoff 0x20 #define Ravg 0x02 #define Rhsf 0x04 #define Clr_rrint 0x01 // Settings for Lead Detection #define En_dcloff 0x01 #define Ipol 0x00 #define Imag 0x00 #define Vth 0x00 // Settings for the HR initialization #define FIFO_WATERLEVEL_MARK 15 #define SAMPLE_AVG 2 #define SAMPLE_RATE 1 #define PULSE_WIDTH 2 #define RED_LED_CURRENT 0x1F #define IR_LED_CURRENT 0X1F /// Define with Maxim VID and a Maxim assigned PID, set to version 0x0001 and non-blocking USBSerial usbSerial(0x0b6a, 0x0100, 0x0001, false); // I2C Master 2 I2C i2c2(I2C2_SDA, I2C2_SCL); // used by MAX14720, MAX30101, LIS2DH // SPI Master 0 with SPI0_SS for use with MAX30001 SPI spi(SPI0_MOSI, SPI0_MISO, SPI0_SCK, SPI0_SS); // used by MAX30001 // PMIC MAX14720 max14720(&i2c2, MAX14720_I2C_SLAVE_ADDR); // Optical Oximeter //MAX30101 max30101(&i2c2, MAX30101_I2C_SLAVE_ADDR); //InterruptIn max30101_Interrupt(P4_0); // ECG device MAX30001 max30001(&spi); InterruptIn max30001_InterruptB(P3_6); InterruptIn max30001_Interrupt2B(P4_5); /// PWM used as fclk for the MAX30001 PwmOut pwmout(P1_7); // Data of sensors int32_t ECG_Raw; //int32_t SpO_Raw; uint32_t index = 0; DigitalOut led(LED1); //@brief Creates a packet that will be streamed via USB Serial //@brief the packet created will be inserted into a fifo to be streamed at a later time //@param id Streaming ID //@param buffer Pointer to a uint32 array that contains the data to include in the packet //@param number Number of elements in the buffer // void StreamPacketUint32_ex(uint32_t id, uint32_t *buffer, uint32_t number) { int k; if(id == MAX30001_DATA_ECG) { for (k = 0; k < number; k++) { ECG_Raw = (int32_t)(buffer[k] << 8); ECG_Raw = ECG_Raw >> 14; usbSerial.printf("%d|" , index); usbSerial.printf("%d\r\n", ECG_Raw); index++; } } } /*void StreamPacketUint32_ex(uint32_t id, uint32_t *buffer, uint32_t number) { int i; if(id == MAX30101_OXIMETER_DATA + 2) { for (i = 0; i < number; i++) { SpO_Raw = (int32_t)(buffer[i]); } usbSerial.printf("%d\r\n", SpO_Raw); } }*/ //****************************************************************************** /*void MAX30101_OnInterrupt(void){ I2CM_Init_Reset(2, 1); }*/ //******************************************************************************* int main() { // hold results for returning functions int result; // initialize HVOUT on the MAX14720 PMIC result = max14720.init(); if (result == MAX14720_ERROR){ printf("Error initializing MAX14720"); } max14720.boostEn = MAX14720::BOOST_ENABLED; max14720.boostSetVoltage(HVOUT_VOLTAGE); // This is the SpO2 mode (IR&Red LED) /*max30101.SpO2mode_init(FIFO_WATERLEVEL_MARK, SAMPLE_AVG, SAMPLE_RATE,PULSE_WIDTH, RED_LED_CURRENT,IR_LED_CURRENT); // MAX30101 initialize interrupt max30101.onInterrupt(&MAX30101_OnInterrupt); max30101.onDataAvailable(&StreamPacketUint32_ex); max30101_Interrupt.fall(&MAX30101MidIntHandler);*/ // Interrupt priority NVIC_SetPriority(GPIO_P0_IRQn, 5); NVIC_SetPriority(GPIO_P1_IRQn, 5); NVIC_SetPriority(GPIO_P2_IRQn, 5); NVIC_SetPriority(GPIO_P3_IRQn, 5); NVIC_SetPriority(GPIO_P4_IRQn, 5); NVIC_SetPriority(GPIO_P5_IRQn, 5); NVIC_SetPriority(GPIO_P6_IRQn, 5); // used by the MAX30001 NVIC_SetPriority(SPI1_IRQn, 0); /* ECG Initialize */ max30001_InterruptB.disable_irq(); max30001_Interrupt2B.disable_irq(); max30001_InterruptB.mode(PullUp); max30001_InterruptB.fall(&MAX30001Mid_IntB_Handler); max30001_Interrupt2B.mode(PullUp); max30001_Interrupt2B.fall(&MAX30001Mid_Int2B_Handler); max30001_InterruptB.enable_irq(); max30001_Interrupt2B.enable_irq(); MAX30001_AllowInterrupts(1); // Configuring the FCLK for the ECG, set to 32.768KHZ pwmout.period_us(31); pwmout.write(0.5); // 0-1 is 0-100%, 0.5 = 50% duty cycle. //max30001.max30001_RtoR_InitStart(En_rtor, Wndw, Gain1, Pavg, Ptsf, Hoff, Ravg, Rhsf, Clr_rrint); max30001.max30001_sw_rst(); // Do a software reset of the MAX30001 max30001.max30001_INT_assignment( MAX30001::MAX30001_INT_B, // en_enint_loc MAX30001::MAX30001_NO_INT, // en_eovf_loc MAX30001::MAX30001_NO_INT, // en_fstint_loc MAX30001::MAX30001_INT_2B, // en_dcloffint_loc MAX30001::MAX30001_INT_B, // en_bint_loc MAX30001::MAX30001_NO_INT, // en_bovf_loc MAX30001::MAX30001_INT_2B, // en_bover_loc MAX30001::MAX30001_INT_2B, // en_bundr_loc MAX30001::MAX30001_NO_INT, // en_bcgmon_loc MAX30001::MAX30001_INT_B, // en_pint_loc MAX30001::MAX30001_NO_INT, // en_povf_loc, MAX30001::MAX30001_NO_INT, // en_pedge_loc MAX30001::MAX30001_INT_2B, // en_lonint_loc MAX30001::MAX30001_INT_B, // en_rrint_loc MAX30001::MAX30001_NO_INT, // en_samp_loc MAX30001::MAX30001_INT_ODNR, // intb_Type MAX30001::MAX30001_INT_ODNR); // int2b_Type // MAX30001 initialize interrupt max30001.max30001_ECG_InitStart(En_ecg, Openp, Openn, Pol, Calp_sel, Caln_sel, E_fit, Rate, Gain, Dhpf, Dlpf); //max30001.max30001_Enable_DcLeadOFF_Init(En_dcloff, Ipol, Imag, Vth); //max30001.max30001_FIFO_LeadONOff_Read(); max30001.max30001_synch(); max30001.onDataAvailable(&StreamPacketUint32_ex); int a; while (1) { a = usbSerial._getc(); if (a == 65) { max30001.max30001_Stop_ECG(); index = 0; } if (a == 97) { //max30001.max30001_sw_rst(); max30001.max30001_ECG_InitStart(En_ecg, Openp, Openn, Pol, Calp_sel, Caln_sel, E_fit, Rate, Gain, Dhpf, Dlpf); //max30001.max30001_synch(); //max30001.onDataAvailable(&StreamPacketUint32_ex); } } }