Corey Harris
/
MAX30003_Demo_Debug
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Dependencies: MAX30003 max32630fthr
Diff: main.cpp
- Revision:
- 4:828118be72d0
- Parent:
- 3:420d5efbd967
diff -r 420d5efbd967 -r 828118be72d0 main.cpp
--- a/main.cpp Tue Aug 22 21:40:49 2017 +0000
+++ b/main.cpp Mon Aug 28 20:55:47 2017 +0000
@@ -1,3 +1,37 @@
+/*******************************************************************************
+ * Copyright (C) 2017 Maxim Integrated Products, Inc., All Rights Reserved.
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a
+ * copy of this software and associated documentation files (the "Software"),
+ * to deal in the Software without restriction, including without limitation
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,
+ * and/or sell copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included
+ * in all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
+ * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
+ * IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES
+ * OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
+ * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ *
+ * Except as contained in this notice, the name of Maxim Integrated
+ * Products, Inc. shall not be used except as stated in the Maxim Integrated
+ * Products, Inc. Branding Policy.
+ *
+ * The mere transfer of this software does not imply any licenses
+ * of trade secrets, proprietary technology, copyrights, patents,
+ * trademarks, maskwork rights, or any other form of intellectual
+ * property whatsoever. Maxim Integrated Products, Inc. retains all
+ * ownership rights.
+ *******************************************************************************
+ */
+
+
#include "mbed.h"
#include "max32630fthr.h"
#include "MAX30003.h"
@@ -16,8 +50,8 @@
int main()
{
- const int RTOR_STATUS_MASK = ( 1<<10 );
- const int EINT_STATUS_MASK = ( 1<<23 );
+
+ const int EINT_STATUS_MASK = 1 << 23;
Serial pc(USBTX, USBRX); // Use USB debug probe for serial link
pc.baud(115200); // Baud rate = 115200
@@ -32,55 +66,41 @@
SPI spiBus(SPI2_MOSI, SPI2_MISO, SPI2_SCK); // SPI bus, P5_1 = MOSI,
// P5_2 = MISO, P5_0 = SCK
- MAX30003 * ecgAFE;
- ecgAFE = new MAX30003(spiBus, P5_3); // New MAX30003 on spiBus, CS = P5_3
- ecg_config(*ecgAFE); // Config ECG
+ MAX30003 ecgAFE(spiBus, P5_3); // New MAX30003 on spiBus, CS = P5_3
+ ecg_config( ecgAFE ); // Config ECG
- ecgAFE->writeRegister( MAX30003::SYNCH , 0);
+ ecgAFE.writeRegister( MAX30003::SYNCH , 0);
- uint32_t ecgFIFO, readSamples, idx, ETAG[32], status, RtoR;
+ uint32_t ecgFIFO, readECGSamples, idx, ETAG[32], status;
int16_t ecgSample[32];
- float BPM;
while(1) {
/* Read back ECG samples from the FIFO */
if( ecgFIFOIntFlag ) {
+ ecgFIFOIntFlag = 0;
pc.printf("Interrupt received....\r\n");
- status = ecgAFE->readRegister( MAX30003::STATUS ); // Read the STATUS register
- pc.printf("Status : 0x%x\r\n"
- "Current BPM is %3.2f\r\n\r\n", status, BPM);
-
- // Check if R-to-R interrupt asserted
- if( ( status & RTOR_STATUS_MASK ) == RTOR_STATUS_MASK ){ // Check if RtoR update
-
- ecgFIFOIntFlag = 0;
- pc.printf("R-to-R Interrupt \r\n");
- RtoR = ecgAFE->readRegister( MAX30003::RTOR ); // Read RtoR register
- BPM = 60.0*RtoR/32768.0; // Convert to BPM
- pc.printf("RtoR : %d\r\n\r\n", RtoR); // Print BPM/RtoR
-
- }
+ status = ecgAFE.readRegister( MAX30003::STATUS ); // Read the STATUS register
+ pc.printf("Status : 0x%x\r\n\r\n", status);
// Check if EINT interrupt asserted
if ( ( status & EINT_STATUS_MASK ) == EINT_STATUS_MASK ) {
- ecgFIFOIntFlag = 0;
pc.printf("FIFO Interrupt \r\n");
- readSamples = 0; // Reset sample counter
+ readECGSamples = 0; // Reset sample counter
do {
- ecgFIFO = ecgAFE->readRegister( MAX30003::ECG_FIFO ); // Read FIFO
- ecgSample[readSamples] = ecgFIFO >> 8; // Isolate voltage data
- ETAG[readSamples] = ( ecgFIFO >> 3 ) & 0b111; // Isolate ETAG
- readSamples++; // Increment sample counter
+ ecgFIFO = ecgAFE.readRegister( MAX30003::ECG_FIFO ); // Read FIFO
+ ecgSample[readECGSamples] = ecgFIFO >> 8; // Isolate voltage data
+ ETAG[readECGSamples] = ( ecgFIFO >> 3 ) & 0b111; // Isolate ETAG
+ readECGSamples++; // Increment sample counter
// Check that sample is not last sample in FIFO
- } while ( ETAG[readSamples-1] == 0x0 ||
- ETAG[readSamples-1] == 0x1 );
+ } while ( ETAG[readECGSamples-1] == 0x0 ||
+ ETAG[readECGSamples-1] == 0x1 );
- pc.printf("%d samples read from FIFO \r\n", readSamples);
+ pc.printf("%d samples read from FIFO \r\n", readECGSamples);
// Check if FIFO has overflowed
if( ETAG[readECGSamples - 1] == 0x7 ){
@@ -88,12 +108,11 @@
}
/* Print results */
- for( idx = 0; idx < readSamples; idx++ ) {
+ for( idx = 0; idx < readECGSamples; idx++ ) {
pc.printf("Sample : %6d, \tETAG : 0x%x\r\n", ecgSample[idx], ETAG[idx]);
}
pc.printf("\r\n\r\n\r\n");
}
-
}
}
}
@@ -112,23 +131,24 @@
CNFG_GEN_r.bits.rbiasn = 1; // Enable resistive bias on negative input
CNFG_GEN_r.bits.rbiasp = 1; // Enable resistive bias on positive input
CNFG_GEN_r.bits.en_rbias = 1; // Enable resistive bias
- CNFG_GEN_r.bits.imag = 2; // Current magnitude = 10nA
CNFG_GEN_r.bits.en_dcloff = 1; // Enable DC lead-off detection
+ CNFG_GEN_r.bits.imag = 0b010; // Current magnitude = 10nA
+ CNFG_GEN_r.bits.rbiasv = 0b00; // Resistive bias = 50MOhm
ecgAFE.writeRegister( MAX30003::CNFG_GEN , CNFG_GEN_r.all);
// ECG Config register setting
MAX30003::ECGConfiguration_u CNFG_ECG_r;
- CNFG_ECG_r.bits.dlpf = 1; // Digital LPF cutoff = 40Hz
- CNFG_ECG_r.bits.dhpf = 1; // Digital HPF cutoff = 0.5Hz
- CNFG_ECG_r.bits.gain = 3; // ECG gain = 160V/V
- CNFG_ECG_r.bits.rate = 2; // Sample rate = 128 sps
+ CNFG_ECG_r.bits.dlpf = 0b01; // Digital LPF cutoff = 40Hz
+ CNFG_ECG_r.bits.dhpf = 1; // Digital HPF cutoff = 0.5Hz
+ CNFG_ECG_r.bits.gain = 0b11; // ECG gain = 160V/V
+ CNFG_ECG_r.bits.rate = 0b10; // Sample rate = 128 sps
ecgAFE.writeRegister( MAX30003::CNFG_ECG , CNFG_ECG_r.all);
//R-to-R configuration
MAX30003::RtoR1Configuration_u CNFG_RTOR_r;
- CNFG_RTOR_r.bits.en_rtor = 1; // Enable R-to-R detection
+ CNFG_RTOR_r.bits.en_rtor = 0; // Disable R-to-R detection
ecgAFE.writeRegister( MAX30003::CNFG_RTOR1 , CNFG_RTOR_r.all);
@@ -142,8 +162,8 @@
//Enable interrupts register setting
MAX30003::EnableInterrupts_u EN_INT_r;
EN_INT_r.bits.en_eint = 1; // Enable EINT interrupt
- EN_INT_r.bits.en_rrint = 1; // Enable R-to-R interrupt
- EN_INT_r.bits.intb_type = 3; // Open-drain NMOS with internal pullup
+ EN_INT_r.bits.en_rrint = 0; // Disable R-to-R interrupt
+ EN_INT_r.bits.intb_type = 0b11; // Open-drain NMOS with internal pullup
ecgAFE.writeRegister( MAX30003::EN_INT , EN_INT_r.all);
@@ -151,6 +171,13 @@
MAX30003::ManageDynamicModes_u MNG_DYN_r;
MNG_DYN_r.bits.fast = 0; // Fast recovery mode disabled
ecgAFE.writeRegister( MAX30003::MNGR_DYN , MNG_DYN_r.all);
+
+ // MUX Config
+ MAX30003::MuxConfiguration_u CNFG_MUX_r;
+ CNFG_MUX_r.bits.openn = 0; // Connect ECGN to AFE channel
+ CNFG_MUX_r.bits.openp = 0; // Connect ECGP to AFE channel
+ ecgAFE.writeRegister( MAX30003::CNFG_EMUX , CNFG_MUX_r.all);
+
return;