dogukan barkan
MAX32620HSP ECG with lead off detection
Dependencies: mbed HSP_ECG MAX14720 USBDevice
Revision 0:9ead5978d784, committed 2019-03-28
- Comitter:
- douqan93
- Date:
- Thu Mar 28 08:10:23 2019 +0000
- Child:
- 1:8b09f627a713
- Commit message:
- MAX32620HSP raw ECG data on serial
Changed in this revision
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/MAX14720.lib Thu Mar 28 08:10:23 2019 +0000 @@ -0,0 +1,1 @@ +https://developer.mbed.org/teams/MaximIntegrated/code/MAX14720/#2c3f2da51c5d
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/MAX30001/MAX30001/MAX30001.cpp Thu Mar 28 08:10:23 2019 +0000
@@ -0,0 +1,1317 @@
+
+/*******************************************************************************
+ * Copyright (C) 2016 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 "MAX30001.h"
+
+MAX30001 *MAX30001::instance = NULL;
+
+//******************************************************************************
+MAX30001::MAX30001(PinName mosi, PinName miso, PinName sclk, PinName cs) {
+ spi = new SPI(mosi, miso, sclk, cs);
+ spi->frequency(3000000);
+ spi_owner = true;
+ functionpointer.attach(&spiHandler);
+ onDataAvailableCallback = NULL;
+ instance = this;
+}
+
+//******************************************************************************
+MAX30001::MAX30001(SPI *_spi) {
+ spi = _spi;
+ spi->frequency(3000000);
+ spi_owner = false;
+ functionpointer.attach(&spiHandler);
+ onDataAvailableCallback = NULL;
+ instance = this;
+}
+
+//******************************************************************************
+MAX30001::~MAX30001(void) {
+ if (spi_owner) {
+ delete spi;
+ }
+}
+
+//******************************************************************************
+int MAX30001::max30001_Rbias_FMSTR_Init(uint8_t En_rbias, uint8_t Rbiasv,
+ uint8_t Rbiasp, uint8_t Rbiasn,
+ uint8_t Fmstr) {
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_rbias = En_rbias;
+ max30001_cnfg_gen.bit.rbiasv = Rbiasv;
+ max30001_cnfg_gen.bit.rbiasp = Rbiasp;
+ max30001_cnfg_gen.bit.rbiasn = Rbiasn;
+ max30001_cnfg_gen.bit.fmstr = Fmstr;
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_CAL_InitStart(uint8_t En_Vcal, uint8_t Vmode,
+ uint8_t Vmag, uint8_t Fcal, uint16_t Thigh,
+ uint8_t Fifty) {
+ // CNFG_CAL
+ if (max30001_reg_read(CNFG_CAL, &max30001_cnfg_cal.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_cal.bit.vmode = Vmode;
+ max30001_cnfg_cal.bit.vmag = Vmag;
+ max30001_cnfg_cal.bit.fcal = Fcal;
+ max30001_cnfg_cal.bit.thigh = Thigh;
+ max30001_cnfg_cal.bit.fifty = Fifty;
+
+ if (max30001_reg_write(CNFG_CAL, max30001_cnfg_cal.all) == -1) {
+ return -1;
+ }
+
+ // RTOS uses a 32768HZ clock. 32768ticks represents 1secs. 1sec/10 =
+ // 100msecs.
+ wait(1.0 / 10.0);
+
+ if (max30001_reg_read(CNFG_CAL, &max30001_cnfg_cal.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_cal.bit.en_vcal = En_Vcal;
+
+ if (max30001_reg_write(CNFG_CAL, max30001_cnfg_cal.all) == -1) {
+ return -1;
+ }
+
+ // RTOS uses a 32768HZ clock. 32768ticks represents 1secs. 1sec/10 =
+ // 100msecs.
+ wait(1.0 / 10.0);
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_CAL_Stop(void) {
+
+ if (max30001_reg_read(CNFG_CAL, &max30001_cnfg_cal.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_cal.bit.en_vcal = 0; // Disable VCAL, all other settings are left unaffected
+
+ if (max30001_reg_write(CNFG_CAL, max30001_cnfg_cal.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+//******************************************************************************
+//******************************************************************************
+int MAX30001::max30001_INT_assignment(max30001_intrpt_Location_t en_enint_loc, max30001_intrpt_Location_t en_eovf_loc, max30001_intrpt_Location_t en_fstint_loc,
+ max30001_intrpt_Location_t en_dcloffint_loc, max30001_intrpt_Location_t en_bint_loc, max30001_intrpt_Location_t en_bovf_loc,
+ max30001_intrpt_Location_t en_bover_loc, max30001_intrpt_Location_t en_bundr_loc, max30001_intrpt_Location_t en_bcgmon_loc,
+ max30001_intrpt_Location_t en_pint_loc, max30001_intrpt_Location_t en_povf_loc, max30001_intrpt_Location_t en_pedge_loc,
+ max30001_intrpt_Location_t en_lonint_loc, max30001_intrpt_Location_t en_rrint_loc, max30001_intrpt_Location_t en_samp_loc,
+ max30001_intrpt_type_t intb_Type, max30001_intrpt_type_t int2b_Type)
+
+
+{
+ // INT1
+
+ if (max30001_reg_read(EN_INT, &max30001_en_int.all) == -1) {
+ return -1;
+ }
+
+ // max30001_en_int2.bit.en_pint = 0b1; // Keep this off...
+
+ max30001_en_int.bit.en_eint = 0b1 & en_enint_loc;
+ max30001_en_int.bit.en_eovf = 0b1 & en_eovf_loc;
+ max30001_en_int.bit.en_fstint = 0b1 & en_fstint_loc;
+
+ max30001_en_int.bit.en_dcloffint = 0b1 & en_dcloffint_loc;
+ max30001_en_int.bit.en_bint = 0b1 & en_bint_loc;
+ max30001_en_int.bit.en_bovf = 0b1 & en_bovf_loc;
+
+ max30001_en_int.bit.en_bover = 0b1 & en_bover_loc;
+ max30001_en_int.bit.en_bundr = 0b1 & en_bundr_loc;
+ max30001_en_int.bit.en_bcgmon = 0b1 & en_bcgmon_loc;
+
+ max30001_en_int.bit.en_pint = 0b1 & en_pint_loc;
+ max30001_en_int.bit.en_povf = 0b1 & en_povf_loc;
+ max30001_en_int.bit.en_pedge = 0b1 & en_pedge_loc;
+
+ max30001_en_int.bit.en_lonint = 0b1 & en_lonint_loc;
+ max30001_en_int.bit.en_rrint = 0b1 & en_rrint_loc;
+ max30001_en_int.bit.en_samp = 0b1 & en_samp_loc;
+
+ max30001_en_int.bit.intb_type = int2b_Type;
+
+ if (max30001_reg_write(EN_INT, max30001_en_int.all) == -1) {
+ return -1;
+ }
+
+ // INT2
+
+ if (max30001_reg_read(EN_INT2, &max30001_en_int2.all) == -1) {
+ return -1;
+ }
+
+ max30001_en_int2.bit.en_eint = 0b1 & (en_enint_loc >> 1);
+ max30001_en_int2.bit.en_eovf = 0b1 & (en_eovf_loc >> 1);
+ max30001_en_int2.bit.en_fstint = 0b1 & (en_fstint_loc >> 1);
+
+ max30001_en_int2.bit.en_dcloffint = 0b1 & (en_dcloffint_loc >> 1);
+ max30001_en_int2.bit.en_bint = 0b1 & (en_bint_loc >> 1);
+ max30001_en_int2.bit.en_bovf = 0b1 & (en_bovf_loc >> 1);
+
+ max30001_en_int2.bit.en_bover = 0b1 & (en_bover_loc >> 1);
+ max30001_en_int2.bit.en_bundr = 0b1 & (en_bundr_loc >> 1);
+ max30001_en_int2.bit.en_bcgmon = 0b1 & (en_bcgmon_loc >> 1);
+
+ max30001_en_int2.bit.en_pint = 0b1 & (en_pint_loc >> 1);
+ max30001_en_int2.bit.en_povf = 0b1 & (en_povf_loc >> 1);
+ max30001_en_int2.bit.en_pedge = 0b1 & (en_pedge_loc >> 1);
+
+ max30001_en_int2.bit.en_lonint = 0b1 & (en_lonint_loc >> 1);
+ max30001_en_int2.bit.en_rrint = 0b1 & (en_rrint_loc >> 1);
+ max30001_en_int2.bit.en_samp = 0b1 & (en_samp_loc >> 1);
+
+ max30001_en_int2.bit.intb_type = intb_Type;
+
+ if (max30001_reg_write(EN_INT2, max30001_en_int2.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_ECG_InitStart(uint8_t En_ecg, uint8_t Openp,
+ uint8_t Openn, uint8_t Pol,
+ uint8_t Calp_sel, uint8_t Caln_sel,
+ uint8_t E_fit, uint8_t Rate, uint8_t Gain,
+ uint8_t Dhpf, uint8_t Dlpf) {
+
+ // CNFG_EMUX
+
+ if (max30001_reg_read(CNFG_EMUX, &max30001_cnfg_emux.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_emux.bit.openp = Openp;
+ max30001_cnfg_emux.bit.openn = Openn;
+ max30001_cnfg_emux.bit.pol = Pol;
+ max30001_cnfg_emux.bit.calp_sel = Calp_sel;
+ max30001_cnfg_emux.bit.caln_sel = Caln_sel;
+
+ if (max30001_reg_write(CNFG_EMUX, max30001_cnfg_emux.all) == -1) {
+ return -1;
+ }
+
+ /**** ENABLE CHANNELS ****/
+ // CNFG_GEN
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_ecg = En_ecg; // 0b1
+
+ // fmstr is default
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ /**** Wait for PLL Lock & References to settle down ****/
+
+ max30001_timeout = 0;
+
+ do {
+ if (max30001_reg_read(STATUS, &max30001_status.all) == -1) // Wait and spin for PLL to lock...
+ {
+ return -1;
+ }
+ } while (max30001_status.bit.pllint == 1 && max30001_timeout++ <= 1000);
+
+ // MNGR_INT
+
+ if (max30001_reg_read(MNGR_INT, &max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ max30001_mngr_int.bit.e_fit = E_fit; // 31
+
+ if (max30001_reg_write(MNGR_INT, max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ // CNFG_ECG
+
+ if (max30001_reg_read(CNFG_ECG, &max30001_cnfg_ecg.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_ecg.bit.rate = Rate;
+ max30001_cnfg_ecg.bit.gain = Gain;
+ max30001_cnfg_ecg.bit.dhpf = Dhpf;
+ max30001_cnfg_ecg.bit.dlpf = Dlpf;
+
+ if (max30001_reg_write(CNFG_ECG, max30001_cnfg_ecg.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_ECGFast_Init(uint8_t Clr_Fast, uint8_t Fast, uint8_t Fast_Th) {
+ if (max30001_reg_read(MNGR_INT, &max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ max30001_mngr_int.bit.clr_fast = Clr_Fast;
+
+ if (max30001_reg_write(MNGR_INT, max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ if (max30001_reg_read(MNGR_DYN, &max30001_mngr_dyn.all) == -1) {
+ return -1;
+ }
+
+ max30001_mngr_dyn.bit.fast = Fast;
+ max30001_mngr_dyn.bit.fast_th = Fast_Th;
+
+ if (max30001_reg_write(MNGR_INT, max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_Stop_ECG(void) {
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_ecg = 0; // Stop ECG
+
+ // fmstr is default
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_PACE_InitStart(uint8_t En_pace, uint8_t Clr_pedge,
+ uint8_t Pol, uint8_t Gn_diff_off,
+ uint8_t Gain, uint8_t Aout_lbw,
+ uint8_t Aout, uint8_t Dacp,
+ uint8_t Dacn) {
+
+ /**** SET MASTER FREQUENCY, ENABLE CHANNELS ****/
+
+ // CNFG_GEN
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_pace = En_pace; // 0b1;
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ /**** Wait for PLL Lock & References to settle down ****/
+ max30001_timeout = 0;
+
+ do {
+ if (max30001_reg_read(STATUS, &max30001_status.all) ==
+ -1) // Wait and spin for PLL to lock...
+ {
+ return -1;
+ }
+
+ } while (max30001_status.bit.pllint == 1 && max30001_timeout++ <= 1000);
+
+ // MNGR_INT
+
+ if (max30001_reg_read(MNGR_INT, &max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ max30001_mngr_int.bit.clr_pedge = Clr_pedge; // 0b0;
+
+ if (max30001_reg_write(MNGR_INT, max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ /* Put: CNFG_PACE */
+
+ max30001_reg_read(CNFG_PACE, &max30001_cnfg_pace.all);
+
+ max30001_cnfg_pace.bit.pol = Pol;
+ max30001_cnfg_pace.bit.gn_diff_off = Gn_diff_off;
+ max30001_cnfg_pace.bit.gain = Gain;
+ max30001_cnfg_pace.bit.aout_lbw = Aout_lbw;
+ max30001_cnfg_pace.bit.aout = Aout;
+ max30001_cnfg_pace.bit.dacp = Dacp;
+ max30001_cnfg_pace.bit.dacn = Dacn;
+
+ max30001_reg_write(CNFG_PACE, max30001_cnfg_pace.all);
+
+ return 0;
+}
+//******************************************************************************
+int MAX30001::max30001_Stop_PACE(void) {
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_pace = 0; // Stop PACE
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_BIOZ_InitStart(
+ uint8_t En_bioz, uint8_t Openp, uint8_t Openn, uint8_t Calp_sel,
+ uint8_t Caln_sel, uint8_t CG_mode, uint8_t B_fit, uint8_t Rate,
+ uint8_t Ahpf, uint8_t Ext_rbias, uint8_t Gain, uint8_t Dhpf, uint8_t Dlpf,
+ uint8_t Fcgen, uint8_t Cgmon, uint8_t Cgmag, uint8_t Phoff) {
+
+ // CNFG_BMUX
+
+ if (max30001_reg_read(CNFG_BMUX, &max30001_cnfg_bmux.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_bmux.bit.openp = Openp; // 0b1;
+ max30001_cnfg_bmux.bit.openn = Openn; // 0b1;
+ max30001_cnfg_bmux.bit.calp_sel = Calp_sel; // 0b10;
+ max30001_cnfg_bmux.bit.caln_sel = Caln_sel; // 0b11;
+ max30001_cnfg_bmux.bit.cg_mode = CG_mode; // 0b00;
+
+ if (max30001_reg_write(CNFG_BMUX, max30001_cnfg_bmux.all) == -1) {
+ return -1;
+ }
+
+ /**** SET MASTER FREQUENCY, ENABLE CHANNELS ****/
+
+ // CNFG_GEN
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_bioz = En_bioz;
+
+ // fmstr is default
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ /**** Wait for PLL Lock & References to settle down ****/
+
+ max30001_timeout = 0;
+
+ do {
+ if (max30001_reg_read(STATUS, &max30001_status.all) ==
+ -1) // Wait and spin for PLL to lock...
+ {
+ return -1;
+ }
+
+ } while (max30001_status.bit.pllint == 1 && max30001_timeout++ <= 1000);
+
+ /**** Start of CNFG_BIOZ ****/
+
+ // MNGR_INT
+
+ if (max30001_reg_read(MNGR_INT, &max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ max30001_mngr_int.bit.b_fit = B_fit; //;
+
+ if (max30001_reg_write(MNGR_INT, max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ // CNFG_BIOZ
+
+ if (max30001_reg_read(CNFG_BIOZ, &max30001_cnfg_bioz.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_bioz.bit.rate = Rate;
+ max30001_cnfg_bioz.bit.ahpf = Ahpf;
+ max30001_cnfg_bioz.bit.ext_rbias = Ext_rbias;
+ max30001_cnfg_bioz.bit.gain = Gain;
+ max30001_cnfg_bioz.bit.dhpf = Dhpf;
+ max30001_cnfg_bioz.bit.dlpf = Dlpf;
+ max30001_cnfg_bioz.bit.fcgen = Fcgen;
+ max30001_cnfg_bioz.bit.cgmon = Cgmon;
+ max30001_cnfg_bioz.bit.cgmag = Cgmag;
+ max30001_cnfg_bioz.bit.phoff = Phoff;
+
+ if (max30001_reg_write(CNFG_BIOZ, max30001_cnfg_bioz.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_Stop_BIOZ(void) {
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_bioz = 0; // Stop BIOZ
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_BIOZ_InitBist(uint8_t En_bist, uint8_t Rnom,
+ uint8_t Rmod, uint8_t Fbist) {
+
+ // CNFG_BMUX
+
+ if (max30001_reg_read(CNFG_BMUX, &max30001_cnfg_bmux.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_bmux.bit.en_bist = En_bist;
+ max30001_cnfg_bmux.bit.rnom = Rnom;
+ max30001_cnfg_bmux.bit.rmod = Rmod;
+ max30001_cnfg_bmux.bit.fbist = Fbist;
+
+ if (max30001_reg_write(CNFG_BMUX, max30001_cnfg_bmux.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+//******************************************************************************
+int MAX30001::max30001_RtoR_InitStart(uint8_t En_rtor, uint8_t Wndw,
+ uint8_t Gain, uint8_t Pavg, uint8_t Ptsf,
+ uint8_t Hoff, uint8_t Ravg, uint8_t Rhsf,
+ uint8_t Clr_rrint) {
+
+ // MNGR_INT
+
+ if (max30001_reg_read(MNGR_INT, &max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ max30001_mngr_int.bit.clr_rrint =
+ Clr_rrint; // 0b01 & 0b00 are for interrupt mode...
+ // 0b10 is for monitoring mode... it just overwrites the data...
+
+ if (max30001_reg_write(MNGR_INT, max30001_mngr_int.all) == -1) {
+ return -1;
+ }
+
+ // RTOR1
+ if (max30001_reg_read(CNFG_RTOR1, &max30001_cnfg_rtor1.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_rtor1.bit.wndw = Wndw;
+ max30001_cnfg_rtor1.bit.gain = Gain;
+ max30001_cnfg_rtor1.bit.en_rtor = En_rtor;
+ max30001_cnfg_rtor1.bit.pavg = Pavg;
+ max30001_cnfg_rtor1.bit.ptsf = Ptsf;
+
+ if (max30001_reg_write(CNFG_RTOR1, max30001_cnfg_rtor1.all) == -1) {
+ return -1;
+ }
+ // RTOR2
+
+ if (max30001_reg_read(CNFG_RTOR2, &max30001_cnfg_rtor2.all) == -1) {
+ return -1;
+ }
+ max30001_cnfg_rtor2.bit.hoff = Hoff;
+ max30001_cnfg_rtor2.bit.ravg = Ravg;
+ max30001_cnfg_rtor2.bit.rhsf = Rhsf;
+
+ if (max30001_reg_write(CNFG_RTOR2, max30001_cnfg_rtor2.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_Stop_RtoR(void) {
+
+ if (max30001_reg_read(CNFG_RTOR1, &max30001_cnfg_rtor1.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_rtor1.bit.en_rtor = 0; // Stop RtoR
+
+ if (max30001_reg_write(CNFG_RTOR1, max30001_cnfg_rtor1.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_PLL_lock(void) {
+ // Spin to see PLLint become zero to indicate a lock.
+
+ max30001_timeout = 0;
+
+ do {
+ if (max30001_reg_read(STATUS, &max30001_status.all) ==
+ -1) // Wait and spin for PLL to lock...
+ {
+ return -1;
+ }
+
+ } while (max30001_status.bit.pllint == 1 && max30001_timeout++ <= 1000);
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_sw_rst(void) {
+ // SW reset for the MAX30001 chip
+
+ if (max30001_reg_write(SW_RST, 0x000000) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_synch(void) { // For synchronization
+ if (max30001_reg_write(SYNCH, 0x000000) == -1) {
+ return -1;
+ }
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max300001_fifo_rst(void) { // Resets the FIFO
+ if (max30001_reg_write(FIFO_RST, 0x000000) == -1) {
+ return -1;
+ }
+ return 0;
+}
+
+//******************************************************************************
+// int MAX30001::max30001_reg_write(uint8_t addr, uint32_t data)
+int MAX30001::max30001_reg_write(MAX30001_REG_map_t addr, uint32_t data) {
+
+ uint8_t result[4];
+ uint8_t data_array[4];
+ int32_t success = 0;
+
+ data_array[0] = (addr << 1) & 0xff;
+
+ data_array[3] = data & 0xff;
+ data_array[2] = (data >> 8) & 0xff;
+ data_array[1] = (data >> 16) & 0xff;
+
+ success = SPI_Transmit(&data_array[0], 4, &result[0], 4);
+
+ if (success != 0) {
+ return -1;
+ } else {
+ return 0;
+ }
+}
+
+//******************************************************************************
+// int MAX30001::max30001_reg_read(uint8_t addr, uint32_t *return_data)
+int MAX30001::max30001_reg_read(MAX30001_REG_map_t addr,
+ uint32_t *return_data) {
+ uint8_t result[4];
+ uint8_t data_array[1];
+ int32_t success = 0;
+
+ data_array[0] = ((addr << 1) & 0xff) | 1; // For Read, Or with 1
+ success = SPI_Transmit(&data_array[0], 1, &result[0], 4);
+ *return_data = /*result[0] + */ (uint32_t)(result[1] << 16) +
+ (result[2] << 8) + result[3];
+ if (success != 0) {
+ return -1;
+ } else {
+ return 0;
+ }
+}
+
+//******************************************************************************
+int MAX30001::max30001_Enable_DcLeadOFF_Init(int8_t En_dcloff, int8_t Ipol,
+ int8_t Imag, int8_t Vth) {
+ // the leads are not touching the body
+
+ // CNFG_EMUX, Set ECGP and ECGN for external hook up...
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_dcloff = En_dcloff;
+ max30001_cnfg_gen.bit.ipol = Ipol;
+ max30001_cnfg_gen.bit.imag = Imag;
+ max30001_cnfg_gen.bit.vth = Vth;
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_Disable_DcLeadOFF(void) {
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_dcloff = 0; // Turned off the dc lead off.
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_BIOZ_Enable_ACLeadOFF_Init(uint8_t En_bloff,
+ uint8_t Bloff_hi_it,
+ uint8_t Bloff_lo_it) {
+
+ // CNFG_GEN
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_bloff = En_bloff;
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ // MNGR_DYN
+ if (max30001_reg_read(MNGR_DYN, &max30001_mngr_dyn.all) == -1) {
+ return -1;
+ }
+
+ max30001_mngr_dyn.bit.bloff_hi_it = Bloff_hi_it;
+ max30001_mngr_dyn.bit.bloff_lo_it = Bloff_lo_it;
+
+ if (max30001_reg_write(MNGR_DYN, max30001_mngr_dyn.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_BIOZ_Disable_ACleadOFF(void) {
+ // CNFG_GEN
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_bloff = 0b0; // Turns of the BIOZ AC Lead OFF feature
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30001::max30001_BIOZ_Enable_BCGMON(void) {
+ // CNFG_BIOZ
+ if (max30001_reg_read(CNFG_BIOZ, &max30001_cnfg_bioz.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_bioz.bit.cgmon = 1;
+
+ if (max30001_reg_write(CNFG_BIOZ, max30001_cnfg_bioz.all) == -1) {
+ return -1;
+ }
+
+ max30001_reg_read(CNFG_BIOZ, &max30001_cnfg_bioz.all);
+
+ return 0;
+}
+
+#if 1
+//******************************************************************************
+int MAX30001::max30001_Enable_LeadON(int8_t Channel) // Channel: ECG = 0b01, BIOZ = 0b10, Disable = 0b00
+{
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_ecg = 0b0;
+ max30001_cnfg_gen.bit.en_bioz = 0b0;
+ max30001_cnfg_gen.bit.en_pace = 0b0;
+
+ max30001_cnfg_gen.bit.en_ulp_lon = Channel; // BIOZ ULP lead on detection...
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all);
+
+ max30001_reg_read(STATUS, &max30001_status.all);
+
+ return 0;
+}
+//******************************************************************************
+int MAX30001::max30001_Disable_LeadON(void) {
+
+ if (max30001_reg_read(CNFG_GEN, &max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ max30001_cnfg_gen.bit.en_ulp_lon = 0b0;
+
+ if (max30001_reg_write(CNFG_GEN, max30001_cnfg_gen.all) == -1) {
+ return -1;
+ }
+
+ return 0;
+}
+#endif
+//******************************************************************************
+#define LEADOFF_SERVICE_TIME 0x2000 // 0x1000 = 1 second
+#define LEADOFF_NUMSTATES 2
+uint32_t leadoffState = 0;
+uint32_t max30001_LeadOffoldTime = 0;
+void MAX30001::max30001_ServiceLeadoff(uint32_t currentTime) {
+
+ uint32_t delta_Time;
+
+ delta_Time = currentTime - max30001_LeadOffoldTime;
+
+ if (delta_Time > LEADOFF_SERVICE_TIME) {
+ switch (leadoffState) {
+ case 0: /* switch to ECG DC Lead OFF */
+ max30001_Enable_DcLeadOFF_Init(0b01, 0b0, 0b001, 0b00);
+ break;
+
+ case 1: /* switch to BIOZ DC Lead OFF */
+ max30001_Enable_DcLeadOFF_Init(0b10, 0b0, 0b001, 0b00);
+ break;
+ }
+
+ leadoffState++;
+ leadoffState %= LEADOFF_NUMSTATES;
+
+ max30001_LeadOffoldTime = currentTime;
+ }
+}
+//******************************************************************************
+#define LEADON_SERVICE_TIME 0x2000 // 0x1000 = 1 second
+#define LEADON_NUMSTATES 2
+uint32_t leadOnState = 0;
+uint32_t max30001_LeadOnoldTime = 0;
+void MAX30001::max30001_ServiceLeadON(uint32_t currentTime) {
+
+ uint32_t delta_Time;
+
+ delta_Time = currentTime - max30001_LeadOnoldTime;
+
+ if (delta_Time > LEADON_SERVICE_TIME) {
+ switch (leadOnState) {
+ case 0: /* switch to ECG DC Lead ON */
+ max30001_Enable_LeadON(0b01);
+ break;
+
+ case 1: /* switch to BIOZ DC Lead ON */
+ max30001_Enable_LeadON(0b10);
+ break;
+ }
+
+ leadOnState++;
+ leadOnState %= LEADON_NUMSTATES;
+
+ max30001_LeadOnoldTime = currentTime;
+ }
+}
+
+//******************************************************************************
+int MAX30001::max30001_FIFO_LeadONOff_Read(void) {
+
+ uint8_t result[32 * 3]; // 32words - 3bytes each
+
+ uint8_t data_array[4];
+ int32_t success = 0;
+ int i, j;
+
+ uint32_t total_databytes;
+ uint8_t i_index;
+ uint8_t data_chunk;
+ uint8_t loop_logic;
+
+ uint8_t etag, ptag, btag;
+
+ uint8_t adr;
+
+ int8_t ReadAllPaceOnce;
+
+ static uint8_t dcloffint_OneShot = 0;
+ static uint8_t acloffint_OneShot = 0;
+ static uint8_t bcgmon_OneShot = 0;
+ static uint8_t acleadon_OneShot = 0;
+
+ int8_t ret_val;
+
+ if (max30001_status.bit.eint == 1 || max30001_status.bit.pint == 1) {
+ adr = ECG_FIFO_BURST;
+ data_array[0] = ((adr << 1) & 0xff) | 1;
+
+ // The SPI routine only sends out data of 32 bytes in size. Therefore the
+ // data is being read in
+ // smaller chunks in this routine...
+
+ total_databytes = (max30001_mngr_int.bit.e_fit + 1) * 3;
+
+ i_index = 0;
+ loop_logic = 1;
+
+ while (loop_logic) {
+ if (total_databytes > 30) {
+ data_chunk = 30;
+ total_databytes = total_databytes - 30;
+ } else {
+ data_chunk = total_databytes;
+ loop_logic = 0;
+ }
+
+ /* The extra 1 byte is for the extra byte that comes out of the SPI */
+ success = SPI_Transmit(&data_array[0], 1, &result[i_index], (data_chunk + 1)); // Make a copy of the FIFO over here...
+
+ if (success != 0) {
+ return -1;
+ }
+
+ /* This is important, because every transaction above creates an empty
+ * redundant data at result[0] */
+ for (j = i_index; j < (data_chunk + i_index); j++) /* get rid of the 1 extra byte by moving the whole array up one */
+ {
+ result[j] = result[j + 1];
+ }
+
+ i_index = i_index + 30; /* point to the next array location to put the data in */
+ }
+
+ ReadAllPaceOnce = 0;
+
+ /* Put the content of the FIFO based on the EFIT value, We ignore the
+ * result[0] and start concatenating indexes: 1,2,3 - 4,5,6 - 7,8,9 - */
+ for (i = 0, j = 0; i < max30001_mngr_int.bit.e_fit + 1; i++, j = j + 3) // index1=23-16 bit, index2=15-8 bit, index3=7-0 bit
+ {
+ max30001_ECG_FIFO_buffer[i] = ((uint32_t)result[j] << 16) + (result[j + 1] << 8) + result[j + 2];
+
+ etag = (0b00111000 & result[j + 2]) >> 3;
+ ptag = 0b00000111 & result[j + 2];
+
+ if (ptag != 0b111 && ReadAllPaceOnce == 0) {
+
+ ReadAllPaceOnce = 1; // This will prevent extra read of PACE, once group
+ // 0-5 is read ONCE.
+
+ adr = PACE0_FIFO_BURST;
+
+ data_array[0] = ((adr << 1) & 0xff) | 1; // For Read Or with 1
+
+ success = SPI_Transmit(&data_array[0], 1, &result[0], 10);
+
+ max30001_PACE[0] = (uint32_t)(result[1] << 16) + (result[2] << 8) + result[3];
+ max30001_PACE[1] = (uint32_t)(result[4] << 16) + (result[5] << 8) + result[6];
+ max30001_PACE[2] = (uint32_t)(result[7] << 16) + (result[8] << 8) + result[9];
+
+ adr = PACE1_FIFO_BURST;
+
+ data_array[0] = ((adr << 1) & 0xff) | 1; // For Read Or with 1
+
+ success = SPI_Transmit(&data_array[0], 1, &result[0], 10);
+
+ max30001_PACE[3] = (uint32_t)(result[1] << 16) + (result[2] << 8) + result[3];
+ max30001_PACE[4] = (uint32_t)(result[4] << 16) + (result[5] << 8) + result[6];
+ max30001_PACE[5] = (uint32_t)(result[7] << 16) + (result[8] << 8) + result[9];
+
+ adr = PACE2_FIFO_BURST;
+
+ data_array[0] = ((adr << 1) & 0xff) | 1; // For Read Or with 1
+
+ success = SPI_Transmit(&data_array[0], 1, &result[0], 10);
+
+ max30001_PACE[6] = (uint32_t)(result[1] << 16) + (result[2] << 8) + result[3];
+ max30001_PACE[7] = (uint32_t)(result[4] << 16) + (result[5] << 8) + result[6];
+ max30001_PACE[8] = (uint32_t)(result[7] << 16) + (result[8] << 8) + result[9];
+
+ adr = PACE3_FIFO_BURST;
+
+ data_array[0] = ((adr << 1) & 0xff) | 1; // For Read Or with 1
+
+ success = SPI_Transmit(&data_array[0], 1, &result[0], 10);
+
+ max30001_PACE[9] = (uint32_t)(result[1] << 16) + (result[2] << 8) + result[3];
+ max30001_PACE[10] = (uint32_t)(result[4] << 16) + (result[5] << 8) + result[6];
+ max30001_PACE[11] = (uint32_t)(result[7] << 16) + (result[8] << 8) + result[9];
+
+ adr = PACE4_FIFO_BURST;
+
+ data_array[0] = ((adr << 1) & 0xff) | 1; // For Read Or with 1
+
+ success = SPI_Transmit(&data_array[0], 1, &result[0], 10);
+
+ max30001_PACE[12] = (uint32_t)(result[1] << 16) + (result[2] << 8) + result[3];
+ max30001_PACE[13] = (uint32_t)(result[4] << 16) + (result[5] << 8) + result[6];
+ max30001_PACE[14] = (uint32_t)(result[7] << 16) + (result[8] << 8) + result[9];
+
+ adr = PACE5_FIFO_BURST;
+
+ data_array[0] = ((adr << 1) & 0xff) | 1; // For Read Or with 1
+
+ success = SPI_Transmit(&data_array[0], 1, &result[0], 10);
+
+ max30001_PACE[15] = (uint32_t)(result[1] << 16) + (result[2] << 8) + result[3];
+ max30001_PACE[16] = (uint32_t)(result[4] << 16) + (result[5] << 8) + result[6];
+ max30001_PACE[17] = (uint32_t)(result[7] << 16) + (result[8] << 8) + result[9];
+
+ dataAvailable(MAX30001_DATA_PACE, max30001_PACE, 18); // Send out the Pace data once only
+ }
+ }
+
+ if (etag != 0b110) {
+
+ dataAvailable(MAX30001_DATA_ECG, max30001_ECG_FIFO_buffer, (max30001_mngr_int.bit.e_fit + 1));
+ }
+
+ } /* End of ECG init */
+
+ /* RtoR */
+
+ if (max30001_status.bit.rrint == 1) {
+ if (max30001_reg_read(RTOR, &max30001_RtoR_data) == -1) {
+ return -1;
+ }
+
+ max30001_RtoR_data = (0x00FFFFFF & max30001_RtoR_data) >> 10;
+
+ hspValMax30001.R2R = (uint16_t)max30001_RtoR_data;
+ hspValMax30001.fmstr = (uint16_t)max30001_cnfg_gen.bit.fmstr;
+
+ dataAvailable(MAX30001_DATA_RTOR, &max30001_RtoR_data, 1);
+ }
+
+ // Handling BIOZ data...
+
+ if (max30001_status.bit.bint == 1) {
+ adr = 0x22;
+ data_array[0] = ((adr << 1) & 0xff) | 1;
+
+ /* [(BFIT+1)*3byte]+1extra byte due to the addr */
+
+ if (SPI_Transmit(&data_array[0], 1, &result[0],((max30001_mngr_int.bit.b_fit + 1) * 3) + 1) == -1) // Make a copy of the FIFO over here...
+
+ {
+ return -1;
+ }
+
+ btag = 0b00000111 & result[3];
+
+ /* Put the content of the FIFO based on the BFIT value, We ignore the
+ * result[0] and start concatenating indexes: 1,2,3 - 4,5,6 - 7,8,9 - */
+ for (i = 0, j = 0; i < max30001_mngr_int.bit.b_fit + 1; i++, j = j + 3) // index1=23-16 bit, index2=15-8 bit, index3=7-0 bit
+ {
+ max30001_BIOZ_FIFO_buffer[i] = ((uint32_t)result[j + 1] << 16) + (result[j + 2] << 8) + result[j + 3];
+ }
+
+ if (btag != 0b110) {
+ dataAvailable(MAX30001_DATA_BIOZ, max30001_BIOZ_FIFO_buffer, 8);
+ }
+ }
+
+ ret_val = 0;
+
+ if (max30001_status.bit.dcloffint == 1) // ECG/BIOZ Lead Off
+ {
+ dcloffint_OneShot = 1;
+ max30001_DCLeadOff = 0;
+ max30001_DCLeadOff = max30001_DCLeadOff | (max30001_cnfg_gen.bit.en_dcloff << 8) | (max30001_status.all & 0x00000F);
+ dataAvailable(MAX30001_DATA_LEADOFF_DC, &max30001_DCLeadOff, 1);
+ // Do a FIFO Reset
+ max30001_reg_write(FIFO_RST, 0x000000);
+
+ ret_val = 0b100;
+
+ } else if (dcloffint_OneShot == 1 && max30001_status.bit.dcloffint == 0) // Just send once when it comes out of dc lead off
+ {
+ max30001_DCLeadOff = 0;
+ max30001_DCLeadOff = max30001_DCLeadOff | (max30001_cnfg_gen.bit.en_dcloff << 8) | (max30001_status.all & 0x00000F);
+ dataAvailable(MAX30001_DATA_LEADOFF_DC, &max30001_DCLeadOff, 1);
+ dcloffint_OneShot = 0;
+ }
+
+ if (max30001_status.bit.bover == 1 || max30001_status.bit.bundr == 1) // BIOZ AC Lead Off
+ {
+ acloffint_OneShot = 1;
+ max30001_ACLeadOff = 0;
+ max30001_ACLeadOff =
+ max30001_ACLeadOff | ((max30001_status.all & 0x030000) >> 16);
+ dataAvailable(MAX30001_DATA_LEADOFF_AC, &max30001_ACLeadOff, 1);
+ // Do a FIFO Reset
+ max30001_reg_write(FIFO_RST, 0x000000);
+
+ ret_val = 0b1000;
+ } else if (acloffint_OneShot == 1 && max30001_status.bit.bover == 0 && max30001_status.bit.bundr == 0) // Just send once when it comes out of ac lead off
+ {
+ max30001_ACLeadOff = 0;
+ max30001_ACLeadOff = max30001_ACLeadOff | ((max30001_status.all & 0x030000) >> 16);
+ dataAvailable(MAX30001_DATA_LEADOFF_AC, &max30001_ACLeadOff, 1);
+ acloffint_OneShot = 0;
+ }
+
+ if (max30001_status.bit.bcgmon == 1) // BIOZ BCGMON check
+ {
+ bcgmon_OneShot = 1;
+ max30001_bcgmon = 0;
+ max30001_bcgmon = max30001_bcgmon | ((max30001_status.all & 0x000030) >> 4);
+ dataAvailable(MAX30001_DATA_BCGMON, &max30001_bcgmon, 1);
+ // Do a FIFO Reset
+ max30001_reg_write(FIFO_RST, 0x000000);
+
+ ret_val = 0b10000;
+ } else if (bcgmon_OneShot == 1 && max30001_status.bit.bcgmon == 0) {
+ max30001_bcgmon = 0;
+ max30001_bcgmon = max30001_bcgmon | ((max30001_status.all & 0x000030) >> 4);
+ bcgmon_OneShot = 0;
+ dataAvailable(MAX30001_DATA_BCGMON, &max30001_bcgmon, 1);
+ }
+
+#if 0
+if(max30001_status.bit.lonint == 1) // AC LeadON Check
+{
+ max30001_LeadOn = 0;
+ max30001_reg_read(STATUS,&max30001_status.all); // Reading is important
+ max30001_LeadOn = max30001_LeadOn | (max30001_cnfg_gen.bit.en_ulp_lon << 8) | ((max30001_status.all & 0x000800) >> 11); // 0b01 will mean ECG Lead On, 0b10 will mean BIOZ Lead On
+ // LEAD ON has been detected... Now take actions
+}
+#endif
+
+ if (max30001_status.bit.lonint == 1 &&
+ acleadon_OneShot == 0) // AC LeadON Check, when lead is on
+ {
+ max30001_LeadOn = 0;
+ max30001_reg_read(STATUS, &max30001_status.all); // Reading is important
+ max30001_LeadOn =
+ max30001_LeadOn | (max30001_cnfg_gen.bit.en_ulp_lon << 8) |
+ ((max30001_status.all & 0x000800) >>
+ 11); // 0b01 will mean ECG Lead On, 0b10 will mean BIOZ Lead On
+
+ // LEAD ON has been detected... Now take actions
+ acleadon_OneShot = 1;
+ dataAvailable(MAX30001_DATA_ACLEADON, &max30001_LeadOn, 1); // One shot data will be sent...
+ } else if (max30001_status.bit.lonint == 0 && acleadon_OneShot == 1) {
+ max30001_LeadOn = 0;
+ max30001_reg_read(STATUS, &max30001_status.all);
+ max30001_LeadOn =
+ max30001_LeadOn | (max30001_cnfg_gen.bit.en_ulp_lon << 8) | ((max30001_status.all & 0x000800) >> 11); // 0b01 will mean ECG Lead On, 0b10 will mean BIOZ Lead On
+ dataAvailable(MAX30001_DATA_ACLEADON, &max30001_LeadOn, 1); // One shot data will be sent...
+ acleadon_OneShot = 0;
+ }
+
+ return ret_val;
+}
+
+//******************************************************************************
+
+int MAX30001::max30001_int_handler(void) {
+
+ static uint32_t InitReset = 0;
+
+ int8_t return_value;
+
+ max30001_reg_read(STATUS, &max30001_status.all);
+
+ // Inital Reset and any FIFO over flow invokes a FIFO reset
+ if (InitReset == 0 || max30001_status.bit.eovf == 1 || max30001_status.bit.bovf == 1 || max30001_status.bit.povf == 1) {
+ // Do a FIFO Reset
+ max30001_reg_write(FIFO_RST, 0x000000);
+
+ InitReset++;
+ return 2;
+ }
+
+ return_value = 0;
+
+ // The four data handling goes on over here
+ if (max30001_status.bit.eint == 1 || max30001_status.bit.pint == 1 || max30001_status.bit.bint == 1 || max30001_status.bit.rrint == 1) {
+ return_value = return_value | max30001_FIFO_LeadONOff_Read();
+ }
+
+ // ECG/BIOZ DC Lead Off test
+ if (max30001_status.bit.dcloffint == 1) {
+ return_value = return_value | max30001_FIFO_LeadONOff_Read();
+ }
+
+ // BIOZ AC Lead Off test
+ if (max30001_status.bit.bover == 1 || max30001_status.bit.bundr == 1) {
+ return_value = return_value | max30001_FIFO_LeadONOff_Read();
+ }
+
+ // BIOZ DRVP/N test using BCGMON.
+ if (max30001_status.bit.bcgmon == 1) {
+ return_value = return_value | max30001_FIFO_LeadONOff_Read();
+ }
+
+ if (max30001_status.bit.lonint == 1) // ECG Lead ON test: i.e. the leads are touching the body...
+ {
+
+ max30001_FIFO_LeadONOff_Read();
+ }
+
+ return return_value;
+}
+
+/// function pointer to the async callback
+static event_callback_t functionpointer;
+/// flag used to indicate an async xfer has taken place
+static volatile int xferFlag = 0;
+
+/**
+* @brief Callback handler for SPI async events
+* @param events description of event that occurred
+*/
+static void spiHandler(int events) { xferFlag = 1; }
+
+/**
+* @brief Transmit and recieve QUAD SPI data
+* @param tx_buf pointer to transmit byte buffer
+* @param tx_size number of bytes to transmit
+* @param rx_buf pointer to the recieve buffer
+* @param rx_size number of bytes to recieve
+*/
+int MAX30001::SPI_Transmit(const uint8_t *tx_buf, uint32_t tx_size, uint8_t *rx_buf, uint32_t rx_size) {
+ xferFlag = 0;
+ int i;
+ for (i = 0; i < sizeof(buffer); i++) {
+ if (i < tx_size)
+ buffer[i] = tx_buf[i];
+ else
+ buffer[i] = 0xFF;
+ }
+ spi->transfer<uint8_t>(buffer, (int)rx_size, rx_buf, (int)rx_size, spiHandler /* functionpointer */);
+ while (xferFlag == 0);
+ return 0;
+}
+
+//******************************************************************************
+void MAX30001::max30001_ReadHeartrateData(max30001_t *_hspValMax30001) {
+ _hspValMax30001->R2R = hspValMax30001.R2R;
+ _hspValMax30001->fmstr = hspValMax30001.fmstr;
+}
+
+//******************************************************************************
+void MAX30001::onDataAvailable(PtrFunction _onDataAvailable) {
+ onDataAvailableCallback = _onDataAvailable;
+}
+
+/**
+* @brief Used to notify an external function that interrupt data is available
+* @param id type of data available
+* @param buffer 32-bit buffer that points to the data
+* @param length length of 32-bit elements available
+*/
+void MAX30001::dataAvailable(uint32_t id, uint32_t *buffer, uint32_t length) {
+ if (onDataAvailableCallback != NULL) {
+ (*onDataAvailableCallback)(id, buffer, length);
+ }
+}
+
+/**
+* @brief Callback handler for SPI async events
+* @param events description of event that occurred
+*/
+void MAX30001::spiHandler(int events) { xferFlag = 1; }
+
+//******************************************************************************
+static int allowInterrupts = 0;
+
+void MAX30001Mid_IntB_Handler(void) {
+ if (allowInterrupts == 0) return;
+ MAX30001::instance->max30001_int_handler();
+}
+
+void MAX30001Mid_Int2B_Handler(void) {
+ if (allowInterrupts == 0) return;
+ MAX30001::instance->max30001_int_handler();
+}
+
+void MAX30001_AllowInterrupts(int state) {
+allowInterrupts = state;
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/MAX30001/MAX30001/MAX30001.h Thu Mar 28 08:10:23 2019 +0000
@@ -0,0 +1,1076 @@
+/*******************************************************************************
+* Copyright (C) 2015 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.
+*******************************************************************************/
+/*
+ * max30001.h
+ *
+ * Created on: Oct 9, 2015
+ * Author: faisal.tariq
+ */
+
+#ifndef MAX30001_H_
+#define MAX30001_H_
+
+#include "mbed.h"
+
+#define mbed_COMPLIANT // Uncomment to Use timer for MAX30001 FCLK (for mbed)
+ // Comment to use the RTC clock
+
+#define ASYNC_SPI_BUFFER_SIZE (32 * 3) // Maximimum buffer size for async byte transfers
+
+// Defines for data callbacks
+#define MAX30001_DATA_ECG 0x30
+#define MAX30001_DATA_PACE 0x31
+#define MAX30001_DATA_RTOR 0x32
+#define MAX30001_DATA_BIOZ 0x33
+#define MAX30001_DATA_LEADOFF_DC 0x34
+#define MAX30001_DATA_LEADOFF_AC 0x35
+#define MAX30001_DATA_BCGMON 0x36
+#define MAX30001_DATA_ACLEADON 0x37
+
+#define MAX30001_SPI_MASTER_PORT 0
+#define MAX30001_SPI_SS_INDEX 0
+
+#define MAX30001_INT_PORT_B 3
+#define MAX30001_INT_PIN_B 6
+
+#define MAX30001_INT_PORT_2B 4
+#define MAX30001_INT_PIN_2B 5
+
+#define MAX30001_INT_PORT_FCLK 1
+#define MAX30001_INT_PIN_FCLK 7
+
+#define MAX30001_FUNC_SEL_TMR 2 // 0=FW Control, 1= Pulse Train, 2=Timer
+
+#define MAX30001_INDEX 3
+#define MAX30001_POLARITY 0
+#define MAX30001_PERIOD 30518
+#define MAX30001_CYCLE 50
+
+#define MAX30001_IOMUX_IO_ENABLE 1
+
+#define MAX30001_SPI_PORT 0
+#define MAX30001_CS_PIN 0
+#define MAX30001_CS_POLARITY 0
+#define MAX30001_CS_ACTIVITY_DELAY 0
+#define MAX30001_CS_INACTIVITY_DELAY 0
+#define MAX30001_CLK_HI 1
+#define MAX30001_CLK_LOW 1
+#define MAX30001_ALT_CLK 0
+#define MAX30001_CLK_POLARITY 0
+#define MAX30001_CLK_PHASE 0
+#define MAX30001_WRITE 1
+#define MAX30001_READ 0
+
+#define MAX30001_INT_PORT_B 3
+#define MAX30001INT_PIN_B 6
+
+void MAX30001_AllowInterrupts(int state);
+
+/**
+* Maxim Integrated MAX30001 ECG/BIOZ chip
+*/
+class MAX30001 {
+
+public:
+ typedef enum { // MAX30001 Register addresses
+ STATUS = 0x01,
+ EN_INT = 0x02,
+ EN_INT2 = 0x03,
+ MNGR_INT = 0x04,
+ MNGR_DYN = 0x05,
+ SW_RST = 0x08,
+ SYNCH = 0x09,
+ FIFO_RST = 0x0A,
+ INFO = 0x0F,
+ CNFG_GEN = 0x10,
+ CNFG_CAL = 0x12,
+ CNFG_EMUX = 0x14,
+ CNFG_ECG = 0x15,
+ CNFG_BMUX = 0x17,
+ CNFG_BIOZ = 0x18,
+ CNFG_PACE = 0x1A,
+ CNFG_RTOR1 = 0x1D,
+ CNFG_RTOR2 = 0x1E,
+
+ // Data locations
+ ECG_FIFO_BURST = 0x20,
+ ECG_FIFO = 0x21,
+ FIFO_BURST = 0x22,
+ BIOZ_FIFO = 0x23,
+ RTOR = 0x25,
+
+ PACE0_FIFO_BURST = 0x30,
+ PACE0_A = 0x31,
+ PACE0_B = 0x32,
+ PACE0_C = 0x33,
+
+ PACE1_FIFO_BURST = 0x34,
+ PACE1_A = 0x35,
+ PACE1_B = 0x36,
+ PACE1_C = 0x37,
+
+ PACE2_FIFO_BURST = 0x38,
+ PACE2_A = 0x39,
+ PACE2_B = 0x3A,
+ PACE2_C = 0x3B,
+
+ PACE3_FIFO_BURST = 0x3C,
+ PACE3_A = 0x3D,
+ PACE3_B = 0x3E,
+ PACE3_C = 0x3F,
+
+ PACE4_FIFO_BURST = 0x40,
+ PACE4_A = 0x41,
+ PACE4_B = 0x42,
+ PACE4_C = 0x43,
+
+ PACE5_FIFO_BURST = 0x44,
+ PACE5_A = 0x45,
+ PACE5_B = 0x46,
+ PACE5_C = 0x47,
+
+ } MAX30001_REG_map_t;
+
+ /**
+ * @brief STATUS (0x01)
+ */
+ union max30001_status_reg {
+ uint32_t all;
+
+ struct {
+ uint32_t loff_nl : 1;
+ uint32_t loff_nh : 1;
+ uint32_t loff_pl : 1;
+ uint32_t loff_ph : 1;
+
+ uint32_t bcgmn : 1;
+ uint32_t bcgmp : 1;
+ uint32_t reserved1 : 1;
+ uint32_t reserved2 : 1;
+
+ uint32_t pllint : 1;
+ uint32_t samp : 1;
+ uint32_t rrint : 1;
+ uint32_t lonint : 1;
+
+ uint32_t pedge : 1;
+ uint32_t povf : 1;
+ uint32_t pint : 1;
+ uint32_t bcgmon : 1;
+
+ uint32_t bundr : 1;
+ uint32_t bover : 1;
+ uint32_t bovf : 1;
+ uint32_t bint : 1;
+
+ uint32_t dcloffint : 1;
+ uint32_t fstint : 1;
+ uint32_t eovf : 1;
+ uint32_t eint : 1;
+
+ uint32_t reserved : 8;
+
+ } bit;
+
+ } max30001_status;
+
+
+ /**
+ * @brief EN_INT (0x02)
+ */
+
+ union max30001_en_int_reg {
+ uint32_t all;
+
+ struct {
+ uint32_t intb_type : 2;
+ uint32_t reserved1 : 1;
+ uint32_t reserved2 : 1;
+
+ uint32_t reserved3 : 1;
+ uint32_t reserved4 : 1;
+ uint32_t reserved5 : 1;
+ uint32_t reserved6 : 1;
+
+ uint32_t en_pllint : 1;
+ uint32_t en_samp : 1;
+ uint32_t en_rrint : 1;
+ uint32_t en_lonint : 1;
+
+ uint32_t en_pedge : 1;
+ uint32_t en_povf : 1;
+ uint32_t en_pint : 1;
+ uint32_t en_bcgmon : 1;
+
+ uint32_t en_bundr : 1;
+ uint32_t en_bover : 1;
+ uint32_t en_bovf : 1;
+ uint32_t en_bint : 1;
+
+ uint32_t en_dcloffint : 1;
+ uint32_t en_fstint : 1;
+ uint32_t en_eovf : 1;
+ uint32_t en_eint : 1;
+
+ uint32_t reserved : 8;
+
+ } bit;
+
+ } max30001_en_int;
+
+
+ /**
+ * @brief EN_INT2 (0x03)
+ */
+ union max30001_en_int2_reg {
+ uint32_t all;
+
+ struct {
+ uint32_t intb_type : 2;
+ uint32_t reserved1 : 1;
+ uint32_t reserved2 : 1;
+
+ uint32_t reserved3 : 1;
+ uint32_t reserved4 : 1;
+ uint32_t reserved5 : 1;
+ uint32_t reserved6 : 1;
+
+ uint32_t en_pllint : 1;
+ uint32_t en_samp : 1;
+ uint32_t en_rrint : 1;
+ uint32_t en_lonint : 1;
+
+ uint32_t en_pedge : 1;
+ uint32_t en_povf : 1;
+ uint32_t en_pint : 1;
+ uint32_t en_bcgmon : 1;
+
+ uint32_t en_bundr : 1;
+ uint32_t en_bover : 1;
+ uint32_t en_bovf : 1;
+ uint32_t en_bint : 1;
+
+ uint32_t en_dcloffint : 1;
+ uint32_t en_fstint : 1;
+ uint32_t en_eovf : 1;
+ uint32_t en_eint : 1;
+
+ uint32_t reserved : 8;
+
+ } bit;
+
+ } max30001_en_int2;
+
+ /**
+ * @brief MNGR_INT (0x04)
+ */
+ union max30001_mngr_int_reg {
+ uint32_t all;
+
+ struct {
+ uint32_t samp_it : 2;
+ uint32_t clr_samp : 1;
+ uint32_t clr_pedge : 1;
+ uint32_t clr_rrint : 2;
+ uint32_t clr_fast : 1;
+ uint32_t reserved1 : 1;
+ uint32_t reserved2 : 4;
+ uint32_t reserved3 : 4;
+
+ uint32_t b_fit : 3;
+ uint32_t e_fit : 5;
+
+ uint32_t reserved : 8;
+
+ } bit;
+
+ } max30001_mngr_int;
+
+ /**
+ * @brief MNGR_DYN (0x05)
+ */
+ union max30001_mngr_dyn_reg {
+ uint32_t all;
+
+ struct {
+ uint32_t bloff_lo_it : 8;
+ uint32_t bloff_hi_it : 8;
+ uint32_t fast_th : 6;
+ uint32_t fast : 2;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_mngr_dyn;
+
+ // 0x08
+ // uint32_t max30001_sw_rst;
+
+ // 0x09
+ // uint32_t max30001_synch;
+
+ // 0x0A
+ // uint32_t max30001_fifo_rst;
+
+
+ /**
+ * @brief INFO (0x0F)
+ */
+ union max30001_info_reg {
+ uint32_t all;
+ struct {
+ uint32_t serial : 12;
+ uint32_t part_id : 2;
+ uint32_t sample : 1;
+ uint32_t reserved1 : 1;
+ uint32_t rev_id : 4;
+ uint32_t pattern : 4;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_info;
+
+ /**
+ * @brief CNFG_GEN (0x10)
+ */
+ union max30001_cnfg_gen_reg {
+ uint32_t all;
+ struct {
+ uint32_t rbiasn : 1;
+ uint32_t rbiasp : 1;
+ uint32_t rbiasv : 2;
+ uint32_t en_rbias : 2;
+ uint32_t vth : 2;
+ uint32_t imag : 3;
+ uint32_t ipol : 1;
+ uint32_t en_dcloff : 2;
+ uint32_t en_bloff : 2;
+ uint32_t reserved1 : 1;
+ uint32_t en_pace : 1;
+ uint32_t en_bioz : 1;
+ uint32_t en_ecg : 1;
+ uint32_t fmstr : 2;
+ uint32_t en_ulp_lon : 2;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_gen;
+
+
+ /**
+ * @brief CNFG_CAL (0x12)
+ */
+ union max30001_cnfg_cal_reg {
+ uint32_t all;
+ struct {
+ uint32_t thigh : 11;
+ uint32_t fifty : 1;
+ uint32_t fcal : 3;
+ uint32_t reserved1 : 5;
+ uint32_t vmag : 1;
+ uint32_t vmode : 1;
+ uint32_t en_vcal : 1;
+ uint32_t reserved2 : 1;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_cal;
+
+ /**
+ * @brief CNFG_EMUX (0x14)
+ */
+ union max30001_cnfg_emux_reg {
+ uint32_t all;
+ struct {
+ uint32_t reserved1 : 16;
+ uint32_t caln_sel : 2;
+ uint32_t calp_sel : 2;
+ uint32_t openn : 1;
+ uint32_t openp : 1;
+ uint32_t reserved2 : 1;
+ uint32_t pol : 1;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_emux;
+
+
+ /**
+ * @brief CNFG_ECG (0x15)
+ */
+ union max30001_cnfg_ecg_reg {
+ uint32_t all;
+ struct {
+ uint32_t reserved1 : 12;
+ uint32_t dlpf : 2;
+ uint32_t dhpf : 1;
+ uint32_t reserved2 : 1;
+ uint32_t gain : 2;
+ uint32_t reserved3 : 4;
+ uint32_t rate : 2;
+
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_ecg;
+
+ /**
+ * @brief CNFG_BMUX (0x17)
+ */
+ union max30001_cnfg_bmux_reg {
+ uint32_t all;
+ struct {
+ uint32_t fbist : 2;
+ uint32_t reserved1 : 2;
+ uint32_t rmod : 3;
+ uint32_t reserved2 : 1;
+ uint32_t rnom : 3;
+ uint32_t en_bist : 1;
+ uint32_t cg_mode : 2;
+ uint32_t reserved3 : 2;
+ uint32_t caln_sel : 2;
+ uint32_t calp_sel : 2;
+ uint32_t openn : 1;
+ uint32_t openp : 1;
+ uint32_t reserved4 : 2;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_bmux;
+
+ /**
+ * @brief CNFG_BIOZ (0x18)
+ */
+ union max30001_bioz_reg {
+ uint32_t all;
+ struct {
+ uint32_t phoff : 4;
+ uint32_t cgmag : 3;
+ uint32_t cgmon : 1;
+ uint32_t fcgen : 4;
+ uint32_t dlpf : 2;
+ uint32_t dhpf : 2;
+ uint32_t gain : 2;
+ uint32_t reserved1 : 1;
+ uint32_t ext_rbias : 1;
+ uint32_t ahpf : 3;
+ uint32_t rate : 1;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_bioz;
+
+
+ /**
+ * @brief CNFG_PACE (0x1A)
+ */
+ union max30001_cnfg_pace_reg {
+ uint32_t all;
+
+ struct {
+ uint32_t dacn : 4;
+ uint32_t dacp : 4;
+ uint32_t reserved1 : 4;
+ uint32_t aout : 2;
+ uint32_t aout_lbw : 1;
+ uint32_t reserved2 : 1;
+ uint32_t gain : 3;
+ uint32_t gn_diff_off : 1;
+ uint32_t reserved3 : 3;
+ uint32_t pol : 1;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_pace;
+
+ /**
+ * @brief CNFG_RTOR1 (0x1D)
+ */
+ union max30001_cnfg_rtor1_reg {
+ uint32_t all;
+ struct {
+ uint32_t reserved1 : 8;
+ uint32_t ptsf : 4;
+ uint32_t pavg : 2;
+ uint32_t reserved2 : 1;
+ uint32_t en_rtor : 1;
+ uint32_t gain : 4;
+ uint32_t wndw : 4;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_rtor1;
+
+ /**
+ * @brief CNFG_RTOR2 (0x1E)
+ */
+ union max30001_cnfg_rtor2_reg {
+ uint32_t all;
+ struct {
+ uint32_t reserved1 : 8;
+ uint32_t rhsf : 3;
+ uint32_t reserved2 : 1;
+ uint32_t ravg : 2;
+ uint32_t reserved3 : 2;
+ uint32_t hoff : 6;
+ uint32_t reserved4 : 2;
+ uint32_t reserved : 8;
+ } bit;
+
+ } max30001_cnfg_rtor2;
+
+ /*********************************************************************************/
+
+ typedef enum {
+ MAX30001_NO_INT = 0, // No interrupt
+ MAX30001_INT_B = 1, // INTB selected for interrupt
+ MAX30001_INT_2B = 2 // INT2B selected for interrupt
+ } max30001_intrpt_Location_t;
+
+ typedef enum {
+ MAX30001_INT_DISABLED = 0b00,
+ MAX30001_INT_CMOS = 0b01,
+ MAX30001_INT_ODN = 0b10,
+ MAX30001_INT_ODNR = 0b11
+ } max30001_intrpt_type_t;
+
+ typedef enum { // Input Polarity selection
+ MAX30001_NON_INV = 0, // Non-Inverted
+ MAX30001_INV = 1 // Inverted
+ } max30001_emux_pol;
+
+ typedef enum { // OPENP and OPENN setting
+ MAX30001_ECG_CON_AFE = 0, // ECGx is connected to AFE channel
+ MAX30001_ECG_ISO_AFE = 1 // ECGx is isolated from AFE channel
+ } max30001_emux_openx;
+
+ typedef enum { // EMUX_CALP_SEL & EMUX_CALN_SEL
+ MAX30001_NO_CAL_SIG = 0b00, // No calibration signal is applied
+ MAX30001_INPT_VMID = 0b01, // Input is connected to VMID
+ MAX30001_INPT_VCALP = 0b10, // Input is connected to VCALP
+ MAX30001_INPT_VCALN = 0b11 // Input is connected to VCALN
+ } max30001_emux_calx_sel;
+
+ typedef enum { // EN_ECG, EN_BIOZ, EN_PACE
+ MAX30001_CHANNEL_DISABLED = 0b0, //
+ MAX30001_CHANNEL_ENABLED = 0b1
+ } max30001_en_feature;
+
+ /*********************************************************************************/
+ // Data
+ uint32_t max30001_ECG_FIFO_buffer[32]; // (303 for internal test)
+ uint32_t max30001_BIOZ_FIFO_buffer[8]; // (303 for internal test)
+
+ uint32_t max30001_PACE[18]; // Pace Data 0-5
+
+ uint32_t max30001_RtoR_data; // This holds the RtoR data
+
+ uint32_t max30001_DCLeadOff; // This holds the LeadOff data, Last 4 bits give
+ // the status, BIT3=LOFF_PH, BIT2=LOFF_PL,
+ // BIT1=LOFF_NH, BIT0=LOFF_NL
+ // 8th and 9th bits tell Lead off is due to ECG or BIOZ.
+ // 0b01 = ECG Lead Off and 0b10 = BIOZ Lead off
+
+ uint32_t max30001_ACLeadOff; // This gives the state of the BIOZ AC Lead Off
+ // state. BIT 1 = BOVER, BIT 0 = BUNDR
+
+ uint32_t max30001_bcgmon; // This holds the BCGMON data, BIT 1 = BCGMP, BIT0 =
+ // BCGMN
+
+ uint32_t max30001_LeadOn; // This holds the LeadOn data, BIT1 = BIOZ Lead ON,
+ // BIT0 = ECG Lead ON, BIT8= Lead On Status Bit
+
+ uint32_t max30001_timeout; // If the PLL does not respond, timeout and get out.
+
+ typedef struct { // Creating a structure for BLE data
+ int16_t R2R;
+ int16_t fmstr;
+ } max30001_t;
+
+ max30001_t hspValMax30001; // R2R, FMSTR
+
+ /**
+ * @brief Constructor that accepts pin names for the SPI interface
+ * @param spi pointer to the mbed SPI object
+ */
+ MAX30001(SPI *spi);
+
+ /**
+ * @brief Constructor that accepts pin names for the SPI interface
+ * @param mosi master out slave in pin name
+ * @param miso master in slave out pin name
+ * @param sclk serial clock pin name
+ * @param cs chip select pin name
+ */
+ MAX30001(PinName mosi, PinName miso, PinName sclk, PinName cs);
+
+ /**
+ * MAX30001 destructor
+ */
+ ~MAX30001(void);
+
+ /**
+ * @brief This function sets up the Resistive Bias mode and also selects the master clock frequency.
+ * @brief Uses Register: CNFG_GEN-0x10
+ * @param En_rbias: Enable and Select Resitive Lead Bias Mode
+ * @param Rbiasv: Resistive Bias Mode Value Selection
+ * @param Rbiasp: Enables Resistive Bias on Positive Input
+ * @param Rbiasn: Enables Resistive Bias on Negative Input
+ * @param Fmstr: Selects Master Clock Frequency
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Rbias_FMSTR_Init(uint8_t En_rbias, uint8_t Rbiasv,
+ uint8_t Rbiasp, uint8_t Rbiasn, uint8_t Fmstr);
+
+ /**
+ * @brief This function uses sets up the calibration signal internally. If it is desired to use the internal signal, then
+ * @brief this function must be called and the registers set, prior to setting the CALP_SEL and CALN_SEL in the ECG_InitStart
+ * @brief and BIOZ_InitStart functions.
+ * @brief Uses Register: CNFG_CAL-0x12
+ * @param En_Vcal: Calibration Source (VCALP and VCALN) Enable
+ * @param Vmode: Calibration Source Mode Selection
+ * @param Vmag: Calibration Source Magnitude Selection (VMAG)
+ * @param Fcal: Calibration Source Frequency Selection (FCAL)
+ * @param Thigh: Calibration Source Time High Selection
+ * @param Fifty: Calibration Source Duty Cycle Mode Selection
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_CAL_InitStart(uint8_t En_Vcal, uint8_t Vmode, uint8_t Vmag,
+ uint8_t Fcal, uint16_t Thigh, uint8_t Fifty);
+
+ /**
+ * @brief This function disables the VCAL signal
+ * @returns 0-if no error. A non-zero value indicates an error.
+ */
+ int max30001_CAL_Stop(void);
+
+ /**
+ * @brief This function handles the assignment of the two interrupt pins (INTB & INT2B) with various
+ * @brief functions/behaviors of the MAX30001. Also, each pin can be configured for different drive capability.
+ * @brief Uses Registers: EN_INT-0x02 and EN_INT2-0x03.
+ * @param max30001_intrpt_Locatio_t <argument>: All the arguments with the aforementioned enumeration essentially
+ * can be configured to generate an interrupt on either INTB or INT2B or NONE.
+ * @param max30001_intrpt_type_t intb_Type: INTB Port Type (EN_INT Selections).
+ * @param max30001_intrpt_type _t int2b_Type: INT2B Port Type (EN_INT2 Selections)
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_INT_assignment(max30001_intrpt_Location_t en_enint_loc, max30001_intrpt_Location_t en_eovf_loc, max30001_intrpt_Location_t en_fstint_loc,
+ max30001_intrpt_Location_t en_dcloffint_loc, max30001_intrpt_Location_t en_bint_loc, max30001_intrpt_Location_t en_bovf_loc,
+ max30001_intrpt_Location_t en_bover_loc, max30001_intrpt_Location_t en_bundr_loc, max30001_intrpt_Location_t en_bcgmon_loc,
+ max30001_intrpt_Location_t en_pint_loc, max30001_intrpt_Location_t en_povf_loc, max30001_intrpt_Location_t en_pedge_loc,
+ max30001_intrpt_Location_t en_lonint_loc, max30001_intrpt_Location_t en_rrint_loc, max30001_intrpt_Location_t en_samp_loc,
+ max30001_intrpt_type_t intb_Type, max30001_intrpt_type_t int2b_Type);
+
+
+
+ /**
+ * @brief For MAX30001/3 ONLY
+ * @brief This function sets up the MAX30001 for the ECG measurements.
+ * @brief Registers used: CNFG_EMUX, CNFG_GEN, MNGR_INT, CNFG_ECG.
+ * @param En_ecg: ECG Channel Enable <CNFG_GEN register bits>
+ * @param Openp: Open the ECGN Input Switch (most often used for testing and calibration studies) <CNFG_EMUX register bits>
+ * @param Openn: Open the ECGN Input Switch (most often used for testing and calibration studies) <CNFG_EMUX register bits>
+ * @param Calp_sel: ECGP Calibration Selection <CNFG_EMUX register bits>
+ * @param Caln_sel: ECGN Calibration Selection <CNFG_EMUX register bits>
+ * @param E_fit: ECG FIFO Interrupt Threshold (issues EINT based on number of unread FIFO records) <CNFG_GEN register bits>
+ * @param Clr_rrint: RTOR R Detect Interrupt (RRINT) Clear Behavior <CNFG_GEN register bits>
+ * @param Rate: ECG Data Rate
+ * @param Gain: ECG Channel Gain Setting
+ * @param Dhpf: ECG Channel Digital High Pass Filter Cutoff Frequency
+ * @param Dlpf: ECG Channel Digital Low Pass Filter Cutoff Frequency
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_ECG_InitStart(uint8_t En_ecg, uint8_t Openp, uint8_t Openn,
+ uint8_t Pol, uint8_t Calp_sel, uint8_t Caln_sel,
+ uint8_t E_fit, uint8_t Rate, uint8_t Gain,
+ uint8_t Dhpf, uint8_t Dlpf);
+
+ /**
+ * @brief For MAX30001/3 ONLY
+ * @brief This function enables the Fast mode feature of the ECG.
+ * @brief Registers used: MNGR_INT-0x04, MNGR_DYN-0x05
+ * @param Clr_Fast: FAST MODE Interrupt Clear Behavior <MNGR_INT Register>
+ * @param Fast: ECG Channel Fast Recovery Mode Selection (ECG High Pass Filter Bypass) <MNGR_DYN Register>
+ * @param Fast_Th: Automatic Fast Recovery Threshold
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_ECGFast_Init(uint8_t Clr_Fast, uint8_t Fast, uint8_t Fast_Th);
+
+ /**
+ * @brief For MAX30001/3 ONLY
+ * @brief This function disables the ECG.
+ * @brief Uses Register CNFG_GEN-0x10.
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Stop_ECG(void);
+
+ /**
+ * @brief For MAX30001 ONLY
+ * @brief This function sets up the MAX30001 for pace signal detection.
+ * @brief If both PACE and BIOZ are turned ON, then make sure Fcgen is set for 80K or 40K in the
+ * @brief max30001_BIOZ_InitStart() function. However, if Only PACE is on but BIOZ off, then Fcgen can be set
+ * @brief for 80K only, in the max30001_BIOZ_InitStart() function
+ * @brief Registers used: MNGR_INT-0x04, CNFG_GEN-0x37, CNFG_PACE-0x1A.
+ * @param En_pace : PACE Channel Enable <CNFG_GEN Register>
+ * @param Clr_pedge : PACE Edge Detect Interrupt (PEDGE) Clear Behavior <MNGR_INT Register>
+ * @param Pol: PACE Input Polarity Selection <CNFG_PACE Register>
+ * @param Gn_diff_off: PACE Differentiator Mode <CNFG_PACE Register>
+ * @param Gain: PACE Channel Gain Selection <CNFG_PACE Register>
+ * @param Aout_lbw: PACE Analog Output Buffer Bandwidth Mode <CNFG_PACE Register>
+ * @param Aout: PACE Single Ended Analog Output Buffer Signal Monitoring Selection <CNFG_PACE Register>
+ * @param Dacp (4bits): PACE Detector Positive Comparator Threshold <CNFG_PACE Register>
+ * @param Dacn(4bits): PACE Detector Negative Comparator Threshold <CNFG_PACE Register>
+ * @returns 0-if no error. A non-zero value indicates an error <CNFG_PACE Register>
+ *
+ */
+ int max30001_PACE_InitStart(uint8_t En_pace, uint8_t Clr_pedge, uint8_t Pol,
+ uint8_t Gn_diff_off, uint8_t Gain,
+ uint8_t Aout_lbw, uint8_t Aout, uint8_t Dacp,
+ uint8_t Dacn);
+
+ /**
+ *@brief For MAX30001 ONLY
+ *@param This function disables the PACE. Uses Register CNFG_GEN-0x10.
+ *@returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Stop_PACE(void);
+
+ /**
+ * @brief For MAX30001/2 ONLY
+ * @brief This function sets up the MAX30001 for BIOZ measurement.
+ * @brief Registers used: MNGR_INT-0x04, CNFG_GEN-0X10, CNFG_BMUX-0x17,CNFG_BIOZ-0x18.
+ * @param En_bioz: BIOZ Channel Enable <CNFG_GEN Register>
+ * @param Openp: Open the BIP Input Switch <CNFG_BMUX Register>
+ * @param Openn: Open the BIN Input Switch <CNFG_BMUX Register>
+ * @param Calp_sel: BIP Calibration Selection <CNFG_BMUX Register>
+ * @param Caln_sel: BIN Calibration Selection <CNFG_BMUX Register>
+ * @param CG_mode: BIOZ Current Generator Mode Selection <CNFG_BMUX Register>
+ * @param B_fit: BIOZ FIFO Interrupt Threshold (issues BINT based on number of unread FIFO records) <MNGR_INT Register>
+ * @param Rate: BIOZ Data Rate <CNFG_BIOZ Register>
+ * @param Ahpf: BIOZ/PACE Channel Analog High Pass Filter Cutoff Frequency and Bypass <CNFG_BIOZ Register>
+ * @param Ext_rbias: External Resistor Bias Enable <CNFG_BIOZ Register>
+ * @param Gain: BIOZ Channel Gain Setting <CNFG_BIOZ Register>
+ * @param Dhpf: BIOZ Channel Digital High Pass Filter Cutoff Frequency <CNFG_BIOZ Register>
+ * @param Dlpf: BIOZ Channel Digital Low Pass Filter Cutoff Frequency <CNFG_BIOZ Register>
+ * @param Fcgen: BIOZ Current Generator Modulation Frequency <CNFG_BIOZ Register>
+ * @param Cgmon: BIOZ Current Generator Monitor <CNFG_BIOZ Register>
+ * @param Cgmag: BIOZ Current Generator Magnitude <CNFG_BIOZ Register>
+ * @param Phoff: BIOZ Current Generator Modulation Phase Offset <CNFG_BIOZ Register>
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_BIOZ_InitStart(uint8_t En_bioz, uint8_t Openp, uint8_t Openn,
+ uint8_t Calp_sel, uint8_t Caln_sel,
+ uint8_t CG_mode,
+ /* uint8_t En_bioz,*/ uint8_t B_fit, uint8_t Rate,
+ uint8_t Ahpf, uint8_t Ext_rbias, uint8_t Gain,
+ uint8_t Dhpf, uint8_t Dlpf, uint8_t Fcgen,
+ uint8_t Cgmon, uint8_t Cgmag, uint8_t Phoff);
+
+ /**
+ * @brief For MAX30001/2 ONLY
+ * @brief This function disables the BIOZ. Uses Register CNFG_GEN-0x10.
+ * @returns 0-if no error. A non-zero value indicates an error.
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Stop_BIOZ(void);
+
+ /**
+ * @brief For MAX30001/2 ONLY
+ * @brief BIOZ modulated Resistance Built-in-Self-Test, Registers used: CNFG_BMUX-0x17
+ * @param En_bist: Enable Modulated Resistance Built-in-Self-test <CNFG_BMUX Register>
+ * @param Rnom: BIOZ RMOD BIST Nominal Resistance Selection <CNFG_BMUX Register>
+ * @param Rmod: BIOZ RMOD BIST Modulated Resistance Selection <CNFG_BMUX Register>
+ * @param Fbist: BIOZ RMOD BIST Frequency Selection <CNFG_BMUX Register>
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_BIOZ_InitBist(uint8_t En_bist, uint8_t Rnom, uint8_t Rmod,
+ uint8_t Fbist);
+
+ /**
+ * @brief For MAX30001/3/4 ONLY
+ * @brief Sets up the device for RtoR measurement
+ * @param EN_rtor: ECG RTOR Detection Enable <RTOR1 Register>
+ * @param Wndw: R to R Window Averaging (Window Width = RTOR_WNDW[3:0]*8mS) <RTOR1 Register>
+ * @param Gain: R to R Gain (where Gain = 2^RTOR_GAIN[3:0], plus an auto-scale option) <RTOR1 Register>
+ * @param Pavg: R to R Peak Averaging Weight Factor <RTOR1 Register>
+ * @param Ptsf: R to R Peak Threshold Scaling Factor <RTOR1 Register>
+ * @param Hoff: R to R minimum Hold Off <RTOR2 Register>
+ * @param Ravg: R to R Interval Averaging Weight Factor <RTOR2 Register>
+ * @param Rhsf: R to R Interval Hold Off Scaling Factor <RTOR2 Register>
+ * @param Clr_rrint: RTOR Detect Interrupt Clear behaviour <MNGR_INT Register>
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_RtoR_InitStart(uint8_t En_rtor, uint8_t Wndw, uint8_t Gain,
+ uint8_t Pavg, uint8_t Ptsf, uint8_t Hoff,
+ uint8_t Ravg, uint8_t Rhsf, uint8_t Clr_rrint);
+
+ /**
+ * @brief For MAX30001/3/4 ONLY
+ * @brief This function disables the RtoR. Uses Register CNFG_RTOR1-0x1D
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Stop_RtoR(void);
+
+ /**
+ * @brief This is a function that waits for the PLL to lock; once a lock is achieved it exits out. (For convenience only)
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_PLL_lock(void);
+
+ /**
+ * @brief This function causes the MAX30001 to reset. Uses Register SW_RST-0x08
+ * @return 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_sw_rst(void);
+
+ /**
+ * @brief This function provides a SYNCH operation. Uses Register SYCNH-0x09. Please refer to the data sheet for
+ * @brief the details on how to use this.
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_synch(void);
+
+ /**
+ * @brief This function performs a FIFO Reset. Uses Register FIFO_RST-0x0A. Please refer to the data sheet
+ * @brief for the details on how to use this.
+ * @returns 0-if no error. A non-zero value indicates an error.
+ */
+ int max300001_fifo_rst(void);
+
+ /**
+ *
+ * @brief This is a callback function which collects all the data from the ECG, BIOZ, PACE and RtoR. It also handles
+ * @brief Lead On/Off. This function is passed through the argument of max30001_COMMinit().
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_int_handler(void);
+
+ /**
+ * @brief This is function called from the max30001_int_handler() function and processes all the ECG, BIOZ, PACE
+ * @brief and the RtoR data and sticks them in appropriate arrays and variables each unsigned 32 bits.
+ * @param ECG data will be in the array (input): max30001_ECG_FIFO_buffer[]
+ * @param Pace data will be in the array (input): max30001_PACE[]
+ * @param RtoRdata will be in the variable (input): max30001_RtoR_data
+ * @param BIOZ data will be in the array (input): max30001_BIOZ_FIFO_buffer[]
+ * @param global max30001_ECG_FIFO_buffer[]
+ * @param global max30001_PACE[]
+ * @param global max30001_BIOZ_FIFO_buffer[]
+ * @param global max30001_RtoR_data
+ * @param global max30001_DCLeadOff
+ * @param global max30001_ACLeadOff
+ * @param global max30001_LeadON
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_FIFO_LeadONOff_Read(void);
+
+ /**
+ * @brief This function allows writing to a register.
+ * @param addr: Address of the register to write to
+ * @param data: 24-bit data read from the register.
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_reg_write(MAX30001_REG_map_t addr, uint32_t data);
+
+ /**
+ * @brief This function allows reading from a register
+ * @param addr: Address of the register to read from.
+ * @param *return_data: pointer to the value read from the register.
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_reg_read(MAX30001_REG_map_t addr, uint32_t *return_data);
+
+ /**
+ * @brief This function enables the DC Lead Off detection. Either ECG or BIOZ can be detected, one at a time.
+ * @brief Registers Used: CNFG_GEN-0x10
+ * @param En_dcloff: BIOZ Digital Lead Off Detection Enable
+ * @param Ipol: DC Lead Off Current Polarity (if current sources are enabled/connected)
+ * @param Imag: DC Lead off current Magnitude Selection
+ * @param Vth: DC Lead Off Voltage Threshold Selection
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Enable_DcLeadOFF_Init(int8_t En_dcloff, int8_t Ipol, int8_t Imag,
+ int8_t Vth);
+
+ /**
+ * @brief This function disables the DC Lead OFF feature, whichever is active.
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Disable_DcLeadOFF(void);
+
+ /**
+ * @brief This function sets up the BIOZ for AC Lead Off test.
+ * @brief Registers Used: CNFG_GEN-0x10, MNGR_DYN-0x05
+ * @param En_bloff: BIOZ Digital Lead Off Detection Enable <CNFG_GEN register>
+ * @param Bloff_hi_it: DC Lead Off Current Polarity (if current sources are enabled/connected) <MNGR_DYN register>
+ * @param Bloff_lo_it: DC Lead off current Magnitude Selection <MNGR_DYN register>
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_BIOZ_Enable_ACLeadOFF_Init(uint8_t En_bloff, uint8_t Bloff_hi_it,
+ uint8_t Bloff_lo_it);
+
+ /**
+ * @brief This function Turns of the BIOZ AC Lead OFF feature
+ * @brief Registers Used: CNFG_GEN-0x10
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_BIOZ_Disable_ACleadOFF(void);
+
+ /**
+ * @brief This function enables the Current Gnerator Monitor
+ * @brief Registers Used: CNFG_BIOZ-0x18
+ * @returns 0-if no error. A non-zero value indicates an error.
+ *
+ */
+ int max30001_BIOZ_Enable_BCGMON(void);
+
+ /**
+ *
+ * @brief This function enables the Lead ON detection. Either ECG or BIOZ can be detected, one at a time.
+ * @brief Also, the en_bioz, en_ecg, en_pace setting is saved so that when this feature is disabled through the
+ * @brief max30001_Disable_LeadON() function (or otherwise) the enable/disable state of those features can be retrieved.
+ * @param Channel: ECG or BIOZ detection
+ * @returns 0-if everything is good. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Enable_LeadON(int8_t Channel);
+
+ /**
+ * @brief This function turns off the Lead ON feature, whichever one is active. Also, retrieves the en_bioz,
+ * @brief en_ecg, en_pace and sets it back to as it was.
+ * @param 0-if everything is good. A non-zero value indicates an error.
+ *
+ */
+ int max30001_Disable_LeadON(void);
+
+ /**
+ *
+ * @brief This function is toggled every 2 seconds to switch between ECG Lead ON and BIOZ Lead ON detect
+ * @brief Adjust LEADOFF_SERVICE_TIME to determine the duration between the toggles.
+ * @param CurrentTime - This gets fed the time by RTC_GetValue function
+ *
+ */
+ void max30001_ServiceLeadON(uint32_t currentTime);
+
+ /**
+ *
+ * @brief This function is toggled every 2 seconds to switch between ECG DC Lead Off and BIOZ DC Lead Off
+ * @brief Adjust LEADOFF_SERVICE_TIME to determine the duration between the toggles.
+ * @param CurrentTime - This gets fed the time by RTC_GetValue function
+ *
+ */
+ void max30001_ServiceLeadoff(uint32_t currentTime);
+
+ /**
+ *
+ * @brief This function sets current RtoR values and fmstr values in a pointer structure
+ * @param hspValMax30001 - Pointer to a structure where to store the values
+ *
+ */
+ void max30001_ReadHeartrateData(max30001_t *_hspValMax30001);
+
+ /**
+ * @brief type definition for data interrupt
+ */
+ typedef void (*PtrFunction)(uint32_t id, uint32_t *buffer, uint32_t length);
+
+ /**
+ * @brief Used to connect a callback for when interrupt data is available
+ */
+ void onDataAvailable(PtrFunction _onDataAvailable);
+
+ static MAX30001 *instance;
+
+private:
+ void dataAvailable(uint32_t id, uint32_t *buffer, uint32_t length);
+ /// interrupt handler for async spi events
+ static void spiHandler(int events);
+ /// wrapper method to transmit and recieve SPI data
+ int SPI_Transmit(const uint8_t *tx_buf, uint32_t tx_size, uint8_t *rx_buf,
+ uint32_t rx_size);
+
+ /// pointer to mbed SPI object
+ SPI *spi;
+ /// is this object the owner of the spi object
+ bool spi_owner;
+ /// buffer to use for async transfers
+ uint8_t buffer[ASYNC_SPI_BUFFER_SIZE];
+ /// function pointer to the async callback
+ event_callback_t functionpointer;
+ /// callback function when interrupt data is available
+ PtrFunction onDataAvailableCallback;
+
+}; // End of MAX30001 Class
+
+/**
+ * @brief Preventive measure used to dismiss interrupts that fire too early during
+ * @brief initialization on INTB line
+ *
+ */
+void MAX30001Mid_IntB_Handler(void);
+
+/**
+ * @brief Preventive measure used to dismiss interrupts that fire too early during
+ * @brief initialization on INT2B line
+ *
+ */
+void MAX30001Mid_Int2B_Handler(void);
+
+/**
+ * @brief Allows Interrupts to be accepted as valid.
+ * @param state: 1-Allow interrupts, Any-Don't allow interrupts.
+ *
+ */
+void MAX30001_AllowInterrupts(int state);
+
+#endif /* MAX30001_H_ */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/MAX30101/MAX30101/MAX30101.cpp Thu Mar 28 08:10:23 2019 +0000
@@ -0,0 +1,703 @@
+
+/*******************************************************************************
+ * Copyright (C) 2016 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 "MAX30101.h"
+
+MAX30101 *MAX30101::instance = NULL;
+
+//******************************************************************************
+MAX30101::MAX30101(PinName sda, PinName scl, int slaveAddress):
+ slaveAddress(slaveAddress) {
+ i2c = new I2C(sda, scl);
+ i2c_owner = true;
+ i2c->frequency(400000);
+ onInterruptCallback = NULL;
+ onDataAvailableCallback = NULL;
+ instance = this;
+}
+
+//******************************************************************************
+MAX30101::MAX30101(I2C *_i2c, int slaveAddress) :
+ slaveAddress(slaveAddress) {
+ i2c = _i2c;
+ i2c_owner = false;
+ i2c->frequency(400000);
+ onInterruptCallback = NULL;
+ onDataAvailableCallback = NULL;
+ instance = this;
+}
+
+//******************************************************************************
+MAX30101::~MAX30101(void) {
+ if (i2c_owner) {
+ delete i2c;
+ }
+}
+
+//******************************************************************************
+int MAX30101::int_handler(void) {
+ uint16_t index, i;
+ uint16_t rx_bytes, second_rx_bytes;
+ char temp_int;
+ char temp_frac;
+ uint16_t num_active_led;
+ uint32_t sample;
+ int loop = 1;
+ static uint8_t cntr_int = 0;
+
+
+ cntr_int++;
+
+ while (loop) {
+ if (i2c_reg_read(REG_INT_STAT_1, &max30101_Interrupt_Status_1.all) != 0) // Read Interrupt flag bits
+ {
+ return -1;
+ }
+
+ if (i2c_reg_read(REG_INT_STAT_2, &max30101_Interrupt_Status_2.all) != 0) // Read Interrupt flag bits
+ {
+ return -1;
+ }
+
+ if (max30101_Interrupt_Status_1.bit.a_full) {
+ /* Read the sample(s) */
+ char reg = REG_FIFO_DATA;
+
+ num_active_led = 0;
+
+ if (max30101_mode_configuration.bit.mode == 0x02) // Heart Rate mode, i.e. 1 led
+ {
+ num_active_led = 1;
+ } else if (max30101_mode_configuration.bit.mode == 0x03) // SpO2 mode, i.e. 2 led
+ {
+ num_active_led = 2;
+ } else if (max30101_mode_configuration.bit.mode == 0x07) // Multi-LED mode, i.e. 1-4 led
+ {
+ if (max30101_multiLED_mode_ctrl_1.bit.slot1 != 0) {
+ num_active_led++;
+ }
+
+ if (max30101_multiLED_mode_ctrl_1.bit.slot2 != 0) {
+ num_active_led++;
+ }
+
+ if (max30101_multiLED_mode_ctrl_2.bit.slot3 != 0) {
+ num_active_led++;
+ }
+
+ if (max30101_multiLED_mode_ctrl_2.bit.slot4 != 0) {
+ num_active_led++;
+ }
+ }
+ // 3bytes/LED x Number of Active LED x FIFO level selected
+ rx_bytes = 3 * num_active_led * (32-max30101_fifo_configuration.bit.fifo_a_full);
+
+ second_rx_bytes = rx_bytes;
+
+ /* The FIFO Size is determined by the Sample size. The number of bytes
+ * in a Sample is dictated by number of LED's
+ *
+ * #LED Selected Bytes in "1" sample
+ * 1 3
+ * 2 6
+ * 3 9
+ * 4 12
+ *
+ * The I2C API function limits the number of bytes to read to 256 (i.e.
+ * char). Therefore, when set for
+ * Multiple LED's and the FIFO size is set to 32. It would mean there is
+ * more than 256 bytes.
+ * In that case two I2C reads have to be made. However It is important
+ * to not that each "Sample"
+ * must be read completely and reading only partial number of bytes from
+ * a sample will result in erroneous data.
+ *
+ * For example:
+ * Num of LED selected = 3 and FIFO size is set to 32 (i.e. 0 value in
+ * register), then the number of bytes
+ * will be 3bytes/Led * 3led's * 32 = 288 bytes in all. Since there are
+ * 3 LED's each sample will contain (3 * 3)
+ * 9bytes. Therefore Sample 1 = 9bytes, Sample 2 = 18,... Sample 28 =
+ * 252. Therefore the first
+ * I2C read should be 252 bytes and the second read should be 288-252 =
+ * 36.
+ *
+ * It turns out that this size issue comes up only when number of LED
+ * selected is 3 or 4 and choosing 252bytes
+ * for the first I2C read would work for both Number of LED selection.
+ */
+
+ if (rx_bytes <= CHUNK_SIZE) {
+ I2CM_Read(slaveAddress, ®, 1, &max30101_rawData[0],
+ (char)rx_bytes /*total_databytes_1*/);
+ } else {
+ I2CM_Read(slaveAddress, ®, 1, &max30101_rawData[0], CHUNK_SIZE);
+
+ second_rx_bytes = second_rx_bytes - CHUNK_SIZE;
+ I2CM_Read(slaveAddress, ®, 1, &max30101_rawData[CHUNK_SIZE],
+ (char)second_rx_bytes);
+ }
+
+ index = 0;
+
+ for (i = 0; i < rx_bytes; i += 3) {
+ sample = ((uint32_t)(max30101_rawData[i] & 0x03) << 16) | (max30101_rawData[i + 1] << 8) | max30101_rawData[i + 2];
+
+ // Right shift the data based on the LED_PW setting
+ sample = sample >>
+ (3 -
+ max30101_spo2_configuration.bit.led_pw); // 0=shift 3, 1=shift 2, 2=shift 1, 3=no shift
+
+ max30101_buffer[index++] = sample;
+ }
+
+ onDataAvailableCallback(MAX30101_OXIMETER_DATA + num_active_led, max30101_buffer, index);
+ }
+
+// This interrupt handles the proximity interrupt, for future enhancements
+#if 0
+ if(max30101_Interrupt_Status_1.bit.prox_int)
+ {
+ max30101_mode_configuration.full=0;
+ max30101_mode_configuration.bit.mode=0x03; // SpO2 mode
+ i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.full);
+
+ }
+#endif
+
+ // This interrupt handles the temperature interrupt
+ if (max30101_Interrupt_Status_2.bit.die_temp_rdy) {
+ char reg;
+
+ reg = REG_TINT;
+ if (I2CM_Read(slaveAddress, ®, 1, &temp_int, 1) != 0) {
+ return -1;
+ }
+
+ reg = REG_TFRAC;
+ if (I2CM_Read(slaveAddress, ®, 1, &temp_frac, 1) != 0) {
+ return -1;
+ }
+
+ max30101_final_temp = (int8_t)temp_int + 0.0625 * temp_frac;
+
+ if (i2c_reg_write(REG_TEMP_EN, 0x00) != 0) // Die Temperature Config, Temp disable... after one read...
+ {
+ return -1;
+ }
+ }
+
+ if (i2c_reg_read(REG_INT_STAT_1, &max30101_Interrupt_Status_1.all) != 0) // Read Interrupt flag bits
+ {
+ return -1;
+ }
+ if (max30101_Interrupt_Status_1.bit.a_full != 1) {
+ loop = 0;
+ }
+ }
+
+ interruptPostCallback();
+
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::SpO2mode_init(uint8_t fifo_waterlevel_mark, uint8_t sample_avg,
+ uint8_t sample_rate, uint8_t pulse_width,
+ uint8_t red_led_current, uint8_t ir_led_current) {
+
+ char status;
+
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.reset = 1;
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) // Reset the device, Mode = don't use...
+ {
+ return -1;
+ }
+
+ /* Give it some settle time (100ms) */
+ wait(1.0 / 10.0); // Let things settle down a bit
+
+ max30101_fifo_configuration.all = 0;
+ max30101_fifo_configuration.bit.smp_ave = sample_avg; // Sample averaging;
+ max30101_fifo_configuration.bit.fifo_roll_over_en = 1; // FIFO Roll over enabled
+ max30101_fifo_configuration.bit.fifo_a_full = fifo_waterlevel_mark; // Interrupt when certain level is filled
+ if (i2c_reg_write(REG_FIFO_CFG, max30101_fifo_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_spo2_configuration.bit.spo2_adc_rge = 0x2; // ADC Range 8192 fullscale
+ max30101_spo2_configuration.bit.spo2_sr = sample_rate; // 100 Samp/sec.
+ max30101_spo2_configuration.bit.led_pw = pulse_width; // Pulse Width=411us and ADC Resolution=18
+ if (i2c_reg_write(REG_SPO2_CFG, max30101_spo2_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_led1_pa = red_led_current; // RED LED current
+ if (i2c_reg_write(REG_LED1_PA, max30101_led1_pa) != 0) {
+ return -1;
+ }
+
+ max30101_led2_pa = ir_led_current; // IR LED current
+ if (i2c_reg_write(REG_LED2_PA, max30101_led2_pa) != 0) {
+ return -1;
+ }
+
+ /************/
+
+ if (i2c_reg_read(REG_INT_STAT_1, &status) != 0) // Clear INT1 by reading the status
+ {
+ return -1;
+ }
+
+ if (i2c_reg_read(REG_INT_STAT_2, &status) != 0) // Clear INT2 by reading the status
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_W_PTR, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_OVF_CNT, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_R_PTR, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ max30101_Interrupt_Enable_1.all = 0;
+ max30101_Interrupt_Enable_1.bit.a_full_en = 1; // Enable FIFO almost full interrupt
+ if (i2c_reg_write(REG_INT_EN_1, max30101_Interrupt_Enable_1.all) != 0) {
+ return -1;
+ }
+
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.mode = 0x03; // SpO2 mode
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::SpO2mode_stop(void) {
+
+ max30101_Interrupt_Enable_1.all = 0;
+ max30101_Interrupt_Enable_1.bit.a_full_en = 0; // Disable FIFO almost full interrupt
+ if (i2c_reg_write(REG_INT_EN_1, max30101_Interrupt_Enable_1.all) != 0) {
+ return -1;
+ }
+
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.mode = 0x00; // SpO2 mode off
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_led1_pa = 0; // RED LED current, 0.0
+ if (i2c_reg_write(REG_LED1_PA, max30101_led1_pa) != 0) {
+ return -1;
+ }
+
+ max30101_led2_pa = 0; // IR LED current, 0.0
+ if (i2c_reg_write(REG_LED2_PA, max30101_led2_pa) != 0) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::HRmode_init(uint8_t fifo_waterlevel_mark, uint8_t sample_avg,
+ uint8_t sample_rate, uint8_t pulse_width,
+ uint8_t red_led_current) {
+
+ /*uint8_t*/ char status;
+
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.reset = 1;
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) // Reset the device, Mode = don't use...
+ {
+ return -1;
+ }
+
+ /* Give it some settle time (100ms) */
+ wait(1.0 / 10.0); // Let things settle down a bit
+
+ max30101_fifo_configuration.all = 0;
+ max30101_fifo_configuration.bit.smp_ave = sample_avg; // Sample averaging;
+ max30101_fifo_configuration.bit.fifo_roll_over_en = 1; // FIFO Roll over enabled
+ max30101_fifo_configuration.bit.fifo_a_full = fifo_waterlevel_mark; // Interrupt when certain level is filled
+ if (i2c_reg_write(REG_FIFO_CFG, max30101_fifo_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_spo2_configuration.bit.spo2_adc_rge = 0x2; // ADC Range 8192 fullscale
+ max30101_spo2_configuration.bit.spo2_sr = sample_rate; // 100 Samp/sec.
+ max30101_spo2_configuration.bit.led_pw = pulse_width; // Pulse Width=411us and ADC Resolution=18
+ if (i2c_reg_write(REG_SPO2_CFG, max30101_spo2_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_led1_pa = red_led_current; // RED LED current, 0.0
+ if (i2c_reg_write(REG_LED1_PA, max30101_led1_pa) != 0) {
+ return -1;
+ }
+
+ /************/
+
+ if (i2c_reg_read(REG_INT_STAT_1, &status) != 0) // Clear INT1 by reading the status
+ {
+ return -1;
+ }
+
+ if (i2c_reg_read(REG_INT_STAT_2, &status) != 0) // Clear INT2 by reading the status
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_W_PTR, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_OVF_CNT, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_R_PTR, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ max30101_Interrupt_Enable_1.all = 0;
+ max30101_Interrupt_Enable_1.bit.a_full_en = 1;
+ // max30101_Interrupt_Enable_1.bit.prox_int_en=0; // Enable Proximity
+ // Interrupt
+ if (i2c_reg_write(REG_INT_EN_1, max30101_Interrupt_Enable_1.all) != 0) {
+ return -1;
+ }
+
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.mode = 0x02; // HR mode
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::HRmode_stop(void) {
+
+ max30101_Interrupt_Enable_1.all = 0;
+ max30101_Interrupt_Enable_1.bit.a_full_en = 0; // Disable FIFO almost full interrupt
+ if (i2c_reg_write(REG_INT_EN_1, max30101_Interrupt_Enable_1.all) != 0) {
+ return -1;
+ }
+
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.mode = 0x00; // HR mode off
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_led1_pa = 0; // RED LED current, 0.0
+ if (i2c_reg_write(REG_LED1_PA, max30101_led1_pa) != 0) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::Multimode_init(uint8_t fifo_waterlevel_mark, uint8_t sample_avg,
+ uint8_t sample_rate, uint8_t pulse_width,
+ uint8_t red_led_current, uint8_t ir_led_current,
+ uint8_t green_led_current, uint8_t slot_1,
+ uint8_t slot_2, uint8_t slot_3, uint8_t slot_4) {
+ char status;
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.reset = 1;
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) // Reset the device, Mode = don't use...
+ {
+ return -1;
+ }
+
+ /* Give it some settle time (100ms) */ // Let things settle down a bit
+ wait(1.0 / 10.0);
+
+ max30101_fifo_configuration.all = 0;
+ max30101_fifo_configuration.bit.smp_ave = sample_avg; // Sample averaging;
+ max30101_fifo_configuration.bit.fifo_roll_over_en = 1; // FIFO Roll over enabled
+ max30101_fifo_configuration.bit.fifo_a_full =
+ fifo_waterlevel_mark; // Interrupt when certain level is filled
+ if (i2c_reg_write(REG_FIFO_CFG, max30101_fifo_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_spo2_configuration.bit.spo2_adc_rge = 0x2; // ADC Range 8192 fullscale
+ max30101_spo2_configuration.bit.spo2_sr = sample_rate; // 100 Samp/sec.
+ max30101_spo2_configuration.bit.led_pw = pulse_width; // Pulse Width=411us and ADC Resolution=18
+ if (i2c_reg_write(REG_SPO2_CFG, max30101_spo2_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_led1_pa = red_led_current; // RED LED current
+ if (i2c_reg_write(REG_LED1_PA, max30101_led1_pa) != 0) {
+ return -1;
+ }
+
+ max30101_led2_pa = ir_led_current; // IR LED current
+ if (i2c_reg_write(REG_LED2_PA, max30101_led2_pa) != 0) {
+ return -1;
+ }
+
+ max30101_led3_pa = green_led_current; // Green LED current
+ if (i2c_reg_write(REG_LED3_PA, max30101_led3_pa) != 0) {
+ return -1;
+ }
+
+ // 0x01=Red(LED1), 0x02=IR(LED2), 0x03=Green(LED3) : Use LEDn_PA to adjust the intensity
+ // 0x05=Red , 0x06=IR , 0x07=Green : Use PILOT_PA to adjust the intensity DO NOT USE THIS ROW...
+
+ max30101_multiLED_mode_ctrl_1.bit.slot1 = slot_1;
+ max30101_multiLED_mode_ctrl_1.bit.slot2 = slot_2;
+ if (i2c_reg_write(REG_SLT2_SLT1, max30101_multiLED_mode_ctrl_1.all)) {
+ return -1;
+ }
+
+ max30101_multiLED_mode_ctrl_2.all = 0;
+ max30101_multiLED_mode_ctrl_2.bit.slot3 = slot_3;
+ max30101_multiLED_mode_ctrl_2.bit.slot4 = slot_4;
+ if (i2c_reg_write(REG_SLT4_SLT3, max30101_multiLED_mode_ctrl_2.all)) {
+ return -1;
+ }
+
+ /************/
+
+ if (i2c_reg_read(REG_INT_STAT_1, &status) != 0) // Clear INT1 by reading the status
+ {
+ return -1;
+ }
+
+ if (i2c_reg_read(REG_INT_STAT_2, &status) != 0) // Clear INT2 by reading the status
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_W_PTR, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_OVF_CNT, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_FIFO_R_PTR, 0x00) != 0) // Clear FIFO ptr
+ {
+ return -1;
+ }
+
+ max30101_Interrupt_Enable_1.all = 0;
+ max30101_Interrupt_Enable_1.bit.a_full_en = 1; // Enable FIFO almost full interrupt
+ if (i2c_reg_write(REG_INT_EN_1, max30101_Interrupt_Enable_1.all) != 0) {
+ return -1;
+ }
+
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.mode = 0x07; // Multi-LED mode
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::Multimode_stop(void) {
+
+ max30101_Interrupt_Enable_1.all = 0;
+ max30101_Interrupt_Enable_1.bit.a_full_en = 0; // Disable FIFO almost full interrupt
+ if (i2c_reg_write(REG_INT_EN_1, max30101_Interrupt_Enable_1.all) != 0) {
+ return -1;
+ }
+
+ max30101_mode_configuration.all = 0;
+ max30101_mode_configuration.bit.mode = 0x00; // Multi-LED mode off
+ if (i2c_reg_write(REG_MODE_CFG, max30101_mode_configuration.all) != 0) {
+ return -1;
+ }
+
+ max30101_led1_pa = 0; // RED LED current, 0.0
+ if (i2c_reg_write(REG_LED1_PA, max30101_led1_pa) != 0) {
+ return -1;
+ }
+
+ max30101_led2_pa = 0; // IR LED current, 0.0
+ if (i2c_reg_write(REG_LED2_PA, max30101_led2_pa) != 0) {
+ return -1;
+ }
+
+ max30101_led3_pa = 0; // Green LED current, 0.0
+ if (i2c_reg_write(REG_LED3_PA, max30101_led3_pa) != 0) {
+ return -1;
+ }
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::tempread(void) {
+ max30101_Interrupt_Enable_2.all = 0;
+ max30101_Interrupt_Enable_2.bit.die_temp_rdy_en = 1; // Enable the Temp Rdy;
+ if (i2c_reg_write(REG_INT_EN_2, 0x02) != 0) // Interrupt Enable 2, Temperature Interrupt
+ {
+ return -1;
+ }
+
+ if (i2c_reg_write(REG_TEMP_EN, 0x01) != 0) // Die Temperature Config, Temp enable...
+ {
+ return -1;
+ }
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::i2c_reg_write(MAX30101_REG_map_t reg, char value) {
+ char cmdData[2] = {reg, value};
+
+ if (I2CM_Write(slaveAddress, NULL, 0, cmdData, 2) != 0 /*2*/) {
+ return -1;
+ }
+
+ return 0;
+}
+
+//******************************************************************************
+int MAX30101::i2c_reg_read(MAX30101_REG_map_t reg, char *value) {
+ if (I2CM_Read(slaveAddress, (char *)®, 1, value, 1) != 0 /*1*/) {
+ return -1;
+ }
+
+ return 0;
+}
+
+/**
+* @brief Read from an I2C device
+* @param slaveAddress slave address to use with transaction
+* @param writeData pointer of data to write
+* @param writeCount number of data to write
+* @param readData pointer to buffer to read to
+* @param readCount number of bytes to read
+*/
+int MAX30101::I2CM_Read(int slaveAddress, char *writeData, char writeCount,
+ char *readData, char readCount) {
+ if (writeData != NULL && writeCount != 0) {
+ i2c->write(slaveAddress, writeData, writeCount, true);
+ }
+ if (readData != NULL && readCount != 0) {
+ i2c->read(slaveAddress, readData, readCount);
+ }
+ return 0;
+}
+
+/**
+* @brief Write to an I2C device
+* @param slaveAddress slave address to use with transaction
+* @param writeData pointer of data to write
+* @param writeCount1 number of data to write
+* @param writeData2 pointer to buffer to read to
+* @param writeCount2 number of bytes to read
+*/
+int MAX30101::I2CM_Write(int slaveAddress, char *writeData1, char writeCount1,
+ char *writeData2, char writeCount2) {
+ if (writeData1 != NULL && writeCount1 != 0) {
+ i2c->write(slaveAddress, writeData1, writeCount1);
+ }
+ if (writeData2 != NULL && writeCount2 != 0) {
+ i2c->write(slaveAddress, writeData2, writeCount2);
+ }
+ return 0;
+}
+
+//******************************************************************************
+void MAX30101::onDataAvailable(DataCallbackFunction _onDataAvailable) {
+ onDataAvailableCallback = _onDataAvailable;
+}
+
+/**
+* @brief Used to notify an external function that interrupt data is available
+* @param id type of data available
+* @param buffer 32-bit buffer that points to the data
+* @param length length of 32-bit elements available
+*/
+void MAX30101::dataAvailable(uint32_t id, uint32_t *buffer, uint32_t length) {
+ if (onDataAvailableCallback != NULL) {
+ (*onDataAvailableCallback)(id, buffer, length);
+ }
+}
+
+//******************************************************************************
+void MAX30101::onInterrupt(InterruptFunction _onInterrupt) {
+ onInterruptCallback = _onInterrupt;
+}
+
+/**
+* @brief Executed on interrupt
+* @param id type of data available
+* @param buffer 32-bit buffer that points to the data
+* @param length length of 32-bit elements available
+*/
+void MAX30101::interruptPostCallback(void) {
+ if (onInterruptCallback != NULL) {
+ (*onInterruptCallback)();
+ }
+}
+
+int max30101_enableInterrupts = 0;
+/**************************************************************************************************************/
+void MAX30101MidIntHandler(void) {
+ MAX30101::instance->int_handler();
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/MAX30101/MAX30101/MAX30101.h Thu Mar 28 08:10:23 2019 +0000
@@ -0,0 +1,459 @@
+/*******************************************************************************
+/ * Copyright (C) 2015 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.
+ *******************************************************************************/
+/*
+ * max30101.h
+ *
+ * Created on: Aug 26, 2015
+ * Author: faisal.tariq
+ */
+
+#ifndef _MAX30101_H_
+#define _MAX30101_H_
+
+#include "mbed.h"
+
+#define MAX30101_RAW_DATA_SIZE 3 * 4 * 32
+#define MAX30101_PROC_DATA_SIZE 4 * 32
+
+#define MAX30101_OXIMETER_DATA 0x10
+
+#define CHUNK_SIZE 252
+
+// MAX30101 Register addresses
+
+#define MAX30101_INT_PORT 4
+#define MAX30101_INT_PIN 0
+#define MAX30101_MASTER_NUM 2
+
+/**
+* Maxim Integrated MAX30101 Oximeter chip
+*/
+class MAX30101 {
+public:
+ float max30101_final_temp; // Global declaration
+ uint32_t max30101_buffer[MAX30101_PROC_DATA_SIZE]; // final Processed data
+ char max30101_rawData[MAX30101_RAW_DATA_SIZE]; // raw data from the chip
+
+ typedef enum { // MAX30101 Register addresses
+
+ /*Status */
+ REG_INT_STAT_1 = 0x00,
+ REG_INT_STAT_2 = 0x01,
+ REG_INT_EN_1 = 0x02,
+ REG_INT_EN_2 = 0x03,
+
+ REG_FIFO_W_PTR = 0x04,
+ REG_FIFO_OVF_CNT = 0x05,
+ REG_FIFO_R_PTR = 0x06,
+ REG_FIFO_DATA = 0x07,
+ /* Configuration */
+ REG_FIFO_CFG = 0x08,
+ REG_MODE_CFG = 0x09,
+ REG_SPO2_CFG = 0x0A,
+ REG_LED1_PA = 0x0C,
+ REG_LED2_PA = 0x0D,
+ REG_LED3_PA = 0x0E,
+ REG_PILOT_PA = 0x10,
+ REG_SLT2_SLT1 = 0x11,
+ REG_SLT4_SLT3 = 0x12,
+ /* Die Temp */
+ REG_TINT = 0x1F,
+ REG_TFRAC = 0x20,
+ REG_TEMP_EN = 0x21,
+ /* Proximity Func */
+ REG_PROX_INT_THR = 0x30,
+ /* Part ID */
+ REG_REV_ID = 0xFE,
+ REG_ID = 0xFF,
+ } MAX30101_REG_map_t;
+
+ /**********/
+ /* STATUS */
+ /**********/
+ /// @brief STATUS1 (0x00)
+ union max30101_Interrupt_Status_1_reg {
+ char all;
+ struct {
+ char pwr_rdy : 1;
+ char reserved : 3;
+ char prox_int : 1;
+ char alc_ovf : 1;
+ char ppg_rdy : 1;
+ char a_full : 1;
+ } bit;
+ } max30101_Interrupt_Status_1;
+
+ /// @brief STATUS2 (0x01)
+ union max30101_Interrupt_Status_2_reg {
+ char all;
+ struct {
+ char reserved1 : 1;
+ char die_temp_rdy : 1;
+ char reserved2 : 6;
+ } bit;
+ } max30101_Interrupt_Status_2;
+
+ /// @brief INTERRUPT_ENABLE1 (0x02)
+ volatile union max30101_Interrupt_Enable_1_reg {
+ uint8_t all;
+ struct {
+ uint8_t reserved1 : 4;
+ uint8_t prox_int_en : 1;
+ uint8_t alc_ovf_en : 1;
+ uint8_t ppg_rdy_en : 1;
+ uint8_t a_full_en : 1;
+ } bit;
+ } max30101_Interrupt_Enable_1;
+
+ /// @brief INTERRUPT_ENABLE2 (0x03)
+ volatile union max30101_Interrupt_Enable_2_reg {
+ uint8_t all;
+ struct {
+ uint8_t reserved1 : 1;
+ uint8_t die_temp_rdy_en : 1;
+ uint8_t reserved2 : 6;
+ } bit;
+ } max30101_Interrupt_Enable_2;
+
+ /*********/
+ /* FIFO */
+ /*********/
+ // 0x04
+ /// @brief FIFO_WR_PTR (0x04)
+ volatile union max30101_fifo_wr_ptr_reg {
+ uint8_t all;
+ struct {
+ uint8_t fifo_wr_ptr : 5;
+ uint8_t reserved1 : 3;
+ } bit;
+ } max30101_fifo_wr_ptr;
+
+ /// @brief OVF_COUNTER (0x05)
+ volatile union max30101_ovf_counter_reg {
+ uint8_t all;
+ struct {
+ uint8_t fifo_ovf_counter : 5;
+ uint8_t reserved1 : 3;
+ } bit;
+ } max30101_ovf_counter_reg;
+
+ /// @brief FIFO_READ_PTR (0x06)
+ volatile union max30101_fifo_rd_ptr_reg {
+ uint8_t all;
+ struct {
+ uint8_t fifo_rd_ptr : 5;
+ uint8_t reserved1 : 3;
+ } bit;
+ } max30101_fifo_rd_ptr;
+
+ // 0x07
+ uint8_t max30101_fifo_data;
+
+ /********************/
+ /* Configuration */
+ /********************/
+ // 0x08
+ /// @brief FIFO_CONFIGURATION (0x08)
+ volatile union max30101_fifo_configuration_reg {
+ uint8_t all;
+ struct {
+ uint8_t fifo_a_full : 4;
+ uint8_t fifo_roll_over_en : 1;
+ uint8_t smp_ave : 3;
+ } bit;
+ } max30101_fifo_configuration;
+
+ /// @brief MODE_CONFIGURATION (0x09)
+ volatile union max30101_mode_configuration_reg {
+ uint8_t all;
+ struct {
+ uint8_t mode : 3;
+ uint8_t reserved1 : 3;
+ uint8_t reset : 1;
+ uint8_t shdn : 1;
+ } bit;
+ } max30101_mode_configuration;
+
+ /// @brief SPO2_CONGIGURATION (0x0A)
+ volatile union max30101_spo2_configuration_reg {
+ uint8_t all;
+ struct {
+ uint8_t led_pw : 2;
+ uint8_t spo2_sr : 3;
+ uint8_t spo2_adc_rge : 2;
+ uint8_t reserved1 : 1;
+ } bit;
+ } max30101_spo2_configuration;
+
+ /// @brief LED1_PA (0x0C)
+ uint8_t max30101_led1_pa;
+
+ /// @brief LED2_PA (0x0D)
+ uint8_t max30101_led2_pa;
+
+ /// @brief LED3_PA (0x0E)
+ uint8_t max30101_led3_pa;
+
+ /// @brief PILOT_PA (0x10)
+ uint8_t max30101_pilot_pa;
+
+ volatile union max30101_multiLED_mode_ctrl_1_reg {
+ uint8_t all;
+ struct {
+ uint8_t slot1 : 3;
+ uint8_t reserved : 1;
+ uint8_t slot2 : 3;
+ uint8_t reserved1 : 1;
+ } bit;
+ } max30101_multiLED_mode_ctrl_1;
+
+ volatile union max30101_multiLED_mode_ctrl_2_reg {
+ uint8_t all;
+ struct {
+ uint8_t slot3 : 3;
+ uint8_t reserved : 1;
+ uint8_t slot4 : 3;
+ uint8_t reserved1 : 1;
+ } bit;
+ } max30101_multiLED_mode_ctrl_2;
+
+ /********************/
+ /* Die Temperature */
+ /********************/
+
+ uint8_t max30101_tinit;
+
+ uint8_t max30101_tfrac;
+
+ volatile union max30101_die_temp_config {
+ uint8_t all;
+ struct {
+ uint8_t temp_en : 1;
+ uint8_t reserved : 7;
+ } bit;
+ } max30101_die_temp_config;
+ /*******************************/
+ /***** Function Prototypes *****/
+ /*******************************/
+
+ uint8_t max30101_prox_int_thresh;
+
+ /**
+ * MAX30101 constructor.
+ *
+ * @param sda mbed pin to use for SDA line of I2C interface.
+ * @param scl mbed pin to use for SCL line of I2C interface.
+ */
+ MAX30101(PinName sda, PinName scl, int slaveAddress);
+
+ /**
+ * MAX30101 constructor.
+ *
+ * @param i2c I2C object to use.
+ */
+ MAX30101(I2C *i2c, int slaveAddress);
+
+ /**
+ * MAX30101 destructor.
+ */
+ ~MAX30101(void);
+
+ /**
+ * @brief Allows reading from MAX30101 register
+ * @param reg: is the register address, to read from (look at max30101.h and the
+ * data sheet for details)
+ * @param value: is the pointer to the value read from the register
+ * @returns 0-if no error. A non-zero value indicates an error.
+ */
+ int i2c_reg_read(MAX30101_REG_map_t reg, char *value);
+
+ /**
+ * @brief Allows writing to MAX30101 register
+ * @param reg: is the register address, to read from (look at max30101.h and
+ * the
+ * data sheet for details)
+ * @param value: is the value to write to the register
+ * @returns 0-if if no error. A non-zero value indicates an error.
+ */
+ int i2c_reg_write(MAX30101_REG_map_t reg, char value);
+
+ /**
+ * @brief This function sets up for the SpO2 mode. The data is returned in
+ * the callback function
+ * @brief max30101_int_handler in global array: buffer[]. SP mode handles two LED (Red,IR) data. Hence it
+ * @brief can fill up the FIFO up to a maximum of 3bytes/sample x 32 x 2 = 192bytes.
+ * @param fifo_waterlevel_mark: corresponds to FIFO_A_FULL, In FIFO Configuration Register (0x08)
+ * @param sample_avg: corresponds to SMP_AVE, in FIFO Configuration Register (0x08)
+ * @param sample_rate: corresponds to SPO2_SR, IN SpO2 Configuration Register (0x0A)
+ * @param pulse_width: corresponds to LED_PW in SpO2 Configuration register(0x0A)
+ * @param red_led_current: corresponds to LED1_PA register (0x0C). Please see data sheet for values
+ * @param ir_led_current: corresponds to LED2_PA register (0x0D). Please see data sheet for values
+ * @returns 0-if everything is good. A non-zero value indicates an error.
+ */
+ int SpO2mode_init(uint8_t fifo_waterlevel_mark, uint8_t sample_avg,
+ uint8_t sample_rate, uint8_t pulse_width,
+ uint8_t red_led_current, uint8_t ir_led_current);
+
+ /**
+ * @brief This function will stop the SpO2 mode and turn off all operating LED�s.
+ * @return 0-if if no error. A non-zero value indicates an error.
+ */
+ int SpO2mode_stop(void);
+
+ /**
+ * @brief This function sets up for the HR mode. The data is returned in thecallback function
+ * @brief max30101_int_handler in global array: buffer[].HR mode handles one LED (Red) data. Hence it can fill
+ * @brief up the FIFO up to a maximum of 3bytes/sample x 32 = 96bytes.
+ * @brief fifo_waterlevel_mark: corresponds to FIFO_A_FULL, In FIFO Configuration Register (0x08)
+ * @param sample_avg: corresponds to SMP_AVE, in FIFO Configuration Register (0x08)
+ * @param sample_rate:corresponds to SPO2_SR, IN SpO2 Configuration Register (0x0A)
+ * @param pulse_width: corresponds to LED_PW in SpO2 Configuration Register(0x0A)
+ * @param red_led_current: corresponds to LED1_PA register (0x0C). Please see data sheet for values
+ * @returns 0-if if no error. A non-zero value indicates an error.
+ */
+ int HRmode_init(uint8_t fifo_waterlevel_mark, uint8_t sample_avg,
+ uint8_t sample_rate, uint8_t pulse_width,
+ uint8_t red_led_current);
+
+ /**
+ * @brief This function will stop the HR mode and turn off all operating
+ * LED’s.
+ * @return 0-if if no error. A non-zero value indicates an error.
+ */
+ int HRmode_stop(void);
+
+ /**
+ *@brief This function sets up for the Multi-mode. The data is returned in the callback function max30101_int_handler in global array:
+ *@brief buffer[]. Multi-LED mode can handle 1 to 4 LED combinations. Hence it can fill up the FIFO up to a maximum of
+ *@brief 3bytes/sample x 32 x 4 = 384bytes.
+ *@param fifo_waterlevel_mark: corresponds to FIFO_A_FULL, In FIFO Configuration Register (0x08)
+ *@param sample_avg: corresponds to SMP_AVE, in FIFO Configuration Register (0x08)
+ *@param sample_rate:corresponds to SPO2_SR, IN SpO2 Configuration Register (0x0A)
+ *@param pulse_width: corresponds to LED_PW in SpO2 Configuration register(0x0A)
+ *@param red_led_current: corresponds to LED1_PA register (0x0C). Please see data sheet for values
+ *@param ir_led_current: corresponds to LED2_PA register (0x0D). Please see data sheet for values
+ *@param green_led_current: corresponds to LED3_PA register (0x0E). Please see data sheet for values
+ *@param slot_1,…,slot_4: corresponds to Multi-LED Mode control Registers (0x11-0x12).
+ *@returns 0-if if no error. A non-zero value indicates an error.
+ */
+ int Multimode_init(uint8_t fifo_waterlevel_mark, uint8_t sample_avg,
+ uint8_t sample_rate, uint8_t pulse_width,
+ uint8_t red_led_current, uint8_t ir_led_current,
+ uint8_t green_led_current, uint8_t slot_1, uint8_t slot_2,
+ uint8_t slot_3, uint8_t slot_4);
+
+ /**
+ * @brief This function will stop the Multi-mode and turn off all operating LED’s.
+ * @returns 0-if if no error. A non-zero value indicates an error.
+ */
+ int Multimode_stop(void);
+
+ /**
+ * @brief This is a function that sets up for temperature read and should be called after one of the mode
+ * @brief has been setup. The data is returned in the callback function max30101_int_handler. This
+ * @brief function needs to be called every time temperature reading is required.
+ * @brief Call the temp function after one of the MODES have been started
+ * @brief Note that the temp is disabled after one read... also, it is not necessary
+ * @brief to read the temp frequently...
+ * @returns 0-if if no error. A non-zero value indicates an error.
+ */
+ int tempread(void);
+
+ /**
+ *@brief This is a callback function which collects the data from the FIFO of the MAX30101 in a 32-bit
+ *@brief unsigned global array called max30101_buffer[]. Upon every interrupt from the MAX30101, this
+ *@brief function is called to service the FIFO of the MAX30101. This callback function also services the
+ *@brief interrupt for the temp data. The temp data is collected in a floating point global variable
+ *@brief final_temp.
+ *@param max30101_buffer[], global uint32_t
+ *@returns 0-if everything is good. A non-zero value indicates an error.
+ */
+ int int_handler(void);
+ /**
+ * @brief type definition for data interrupt
+ */
+ typedef void (*DataCallbackFunction)(uint32_t id, uint32_t *buffer,
+ uint32_t length);
+ /**
+ * @brief type definition for general interrupt
+ */
+ typedef void (*InterruptFunction)();
+
+ /**
+ * @brief Used to connect a callback for when interrupt data is available
+ */
+ void onInterrupt(InterruptFunction _onInterrupt);
+
+ /**
+ * @brief Used to connect a callback for when interrupt data is available
+ */
+ void onDataAvailable(DataCallbackFunction _onDataAvailable);
+
+ /**
+ * @brief Interrupt callback
+ */
+ void MAX30101_OnInterrupt(void);
+
+ static MAX30101 *instance;
+
+private:
+ /// called when interrupt data is available
+ void dataAvailable(uint32_t id, uint32_t *buffer, uint32_t length);
+ /// callback function at the end of the interrupt
+ void interruptPostCallback(void);
+ /// callback function when interrupt data is available
+ DataCallbackFunction onDataAvailableCallback;
+ /// callback function when interrupt data is available
+ InterruptFunction onInterruptCallback;
+ /// Read I2c wrapper method
+ int I2CM_Read(int slaveAddress, char *writeData, char writeCount, char *readData, char readCount);
+ /// Write I2c wrapper method
+ int I2CM_Write(int slaveAddress, char *writeData1, char writeCount1, char *writeData2, char writeCount2);
+ /// pointer to I2C object
+ I2C *i2c;
+ /// flag to track if this object is the owner (created) the I2C object
+ bool i2c_owner;
+ /// Device slave address
+ int slaveAddress;
+};
+
+/**
+* @brief Resets the I2C block, when needed
+*/
+extern void I2CM_Init_Reset(uint8_t index, int speed);
+
+ /**
+ * @brief Used for debugging, if needed
+ */
+void MAX30101MidIntHandler(void);
+
+#endif /* _MAX30101_H_ */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/System/System.cpp Thu Mar 28 08:10:23 2019 +0000
@@ -0,0 +1,43 @@
+/*******************************************************************************
+ * Copyright (C) 2016 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"
+
+//******************************************************************************
+void I2CM_Init_Reset(uint8_t index, int speed) {
+ mxc_i2cm_regs_t *regs = MXC_I2CM_GET_I2CM(index);
+ /* reset module */
+ regs->ctrl = MXC_F_I2CM_CTRL_MSTR_RESET_EN;
+ regs->ctrl = 0;
+ /* enable tx_fifo and rx_fifo */
+ regs->ctrl |= (MXC_F_I2CM_CTRL_TX_FIFO_EN | MXC_F_I2CM_CTRL_RX_FIFO_EN);
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/System/System.h Thu Mar 28 08:10:23 2019 +0000 @@ -0,0 +1,41 @@ +/******************************************************************************* + * Copyright (C) 2016 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. + ******************************************************************************* + */ +#ifndef _SYSTEM_H_ +#define _SYSTEM_H_ + +/** +* This issues a reset to the I2C Peripheral +*/ +void I2CM_Init_Reset(uint8_t index, int speed); + +#endif // _SYSTEM_H_
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/USBDevice.lib Thu Mar 28 08:10:23 2019 +0000 @@ -0,0 +1,1 @@ +https://os.mbed.com/teams/MaximIntegrated/code/USBDevice/#dad310740b28
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/main.cpp Thu Mar 28 08:10:23 2019 +0000
@@ -0,0 +1,215 @@
+ #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);
+ }
+ }
+}
+
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/mbed.bld Thu Mar 28 08:10:23 2019 +0000 @@ -0,0 +1,1 @@ +https://os.mbed.com/users/mbed_official/code/mbed/builds/84c0a372a020 \ No newline at end of file