MAX32664C_MAXM86146_Mode1_Optical - Mode1 Optical Validation

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David Jung / Mbed OS MAX32664C_MAXM86146_Mode1_Optical

Mode1 Optical Validation

main.cpp@28:315604f4b374, 2021-10-11 (annotated)

Committer:: phonemacro
Date:: Mon Oct 11 23:11:33 2021 +0000
Revision:: 28:315604f4b374
Parent:: 27:a45d6e38f2de
Child:: 29:a7dd81450b35

MAXM86161 updates: Config slots, PD config for red, IR. Add algo FIFO size. Add tests for EN_LDO, GPIO1 gpios, and disable algo.

Who changed what in which revision?

User	Revision	Line number	New contents of line
phonemacro	0:6f65cae31c54	1	/*******************************************************************************
phonemacro	9:12720bbacfe2	2	* Copyright (C) 2021 Maxim Integrated Products, Inc., All Rights Reserved.
phonemacro	0:6f65cae31c54	3	*
phonemacro	0:6f65cae31c54	4	* Permission is hereby granted, free of charge, to any person obtaining a
phonemacro	0:6f65cae31c54	5	* copy of this software and associated documentation files (the "Software"),
phonemacro	0:6f65cae31c54	6	* to deal in the Software without restriction, including without limitation
phonemacro	0:6f65cae31c54	7	* the rights to use, copy, modify, merge, publish, distribute, sublicense,
phonemacro	0:6f65cae31c54	8	* and/or sell copies of the Software, and to permit persons to whom the
phonemacro	0:6f65cae31c54	9	* Software is furnished to do so, subject to the following conditions:
phonemacro	0:6f65cae31c54	10	*
phonemacro	0:6f65cae31c54	11	* The above copyright notice and this permission notice shall be included
phonemacro	0:6f65cae31c54	12	* in all copies or substantial portions of the Software.
phonemacro	0:6f65cae31c54	13	*
phonemacro	0:6f65cae31c54	14	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
phonemacro	0:6f65cae31c54	15	* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
phonemacro	0:6f65cae31c54	16	* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
phonemacro	0:6f65cae31c54	17	* IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES
phonemacro	0:6f65cae31c54	18	* OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
phonemacro	0:6f65cae31c54	19	* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
phonemacro	0:6f65cae31c54	20	* OTHER DEALINGS IN THE SOFTWARE.
phonemacro	0:6f65cae31c54	21	*
phonemacro	0:6f65cae31c54	22	* Except as contained in this notice, the name of Maxim Integrated
phonemacro	0:6f65cae31c54	23	* Products, Inc. shall not be used except as stated in the Maxim Integrated
phonemacro	0:6f65cae31c54	24	* Products, Inc. Branding Policy.
phonemacro	0:6f65cae31c54	25	*
phonemacro	0:6f65cae31c54	26	* The mere transfer of this software does not imply any licenses
phonemacro	0:6f65cae31c54	27	* of trade secrets, proprietary technology, copyrights, patents,
phonemacro	0:6f65cae31c54	28	* trademarks, maskwork rights, or any other form of intellectual
phonemacro	0:6f65cae31c54	29	* property whatsoever. Maxim Integrated Products, Inc. retains all
phonemacro	0:6f65cae31c54	30	* ownership rights.
phonemacro	0:6f65cae31c54	31	*******************************************************************************
phonemacro	0:6f65cae31c54	32	*/
phonemacro	0:6f65cae31c54	33
phonemacro	0:6f65cae31c54	34	#include "mbed.h"
phonemacro	0:6f65cae31c54	35	#include "platform/mbed_thread.h"
phonemacro	3:da975696b936	36	#include "mbed.h"
phonemacro	4:4f1e9439f048	37	/******************************************************************************
phonemacro	16:ff1122f0624a	38	* https://os.mbed.com/users/phonemacro/code/MAX32664C_Example_Host_Code
phonemacro	16:ff1122f0624a	39	* Tera Term output is set to 115200 baud rate.
phonemacro	28:315604f4b374	40	* ver: 211011
phonemacro	16:ff1122f0624a	41	******************************************************************************/
phonemacro	16:ff1122f0624a	42
phonemacro	16:ff1122f0624a	43	/******************************************************************************
phonemacro	4:4f1e9439f048	44	* Warning, if using the either
phonemacro	4:4f1e9439f048	45	* MAX32630FTHR+MAXM86161_ADPTER_REVB+MAXM86146EVSYS sensor brd or
phonemacro	4:4f1e9439f048	46	* MAX32630FTHR+MAXM86161_ADPTER_REVB+MAXM86161EVSYS sensor brd,
phonemacro	4:4f1e9439f048	47	* The VLED is connected to USB power which is noisy. The VLED should be
phonemacro	4:4f1e9439f048	48	* connected to a regulated power supply if you are testing accuracy.
phonemacro	4:4f1e9439f048	49	*******************************************************************************
phonemacro	4:4f1e9439f048	50	*/
phonemacro	5:7f5a012747a5	51
phonemacro	24:064478ff33d2	52	/######################################*/
phonemacro	6:e1b7190d6cb5	53	// define one and only one of the following three platforms
phonemacro	28:315604f4b374	54	//#define MAXM86146_CFG 1 // tested on MAXM86146EVSYS_sensorBrd+MAXM86161_ADAPTER_REVB+MAX32630FTHR 33.13.12
phonemacro	21:67d58af1ec56	55	//#define MAXREFDES103_CFG // not tested
phonemacro	28:315604f4b374	56	#define MAXM86161_CFG 1 // tested on MAXM86161+MAX32630FTHR v32.9.22, 32.13.12
phonemacro	6:e1b7190d6cb5	57	/*****************************************************************************/
phonemacro	24:064478ff33d2	58
phonemacro	24:064478ff33d2	59	/######################################*/
phonemacro	24:064478ff33d2	60	// define which adaptor board is being used
phonemacro	26:33c0d3fd2a95	61	#define MAXM86161_ADPTR_EVKIT_B
phonemacro	26:33c0d3fd2a95	62	//#define MAXREFDES1319 // MAXM86161: Remove J7; For PIN1=ACC_INTN, J9 set to 2-3; For PIN13=OPT_INTN, J10 set to 2-3
phonemacro	24:064478ff33d2	63	/******************************************************************************
phonemacro	24:064478ff33d2	64	* MAX32630FTHR GPIOs
phonemacro	24:064478ff33d2	65	******************************************************************************/
phonemacro	24:064478ff33d2	66	#ifdef MAXM86161_ADPTR_EVKIT_B
phonemacro	24:064478ff33d2	67	#define RST_PIN P5_6
phonemacro	24:064478ff33d2	68	#define MFIO_PIN P5_4
phonemacro	24:064478ff33d2	69	#else
phonemacro	24:064478ff33d2	70	#ifdef MAXREFDES1319
phonemacro	24:064478ff33d2	71	#define RST_PIN P3_0
phonemacro	24:064478ff33d2	72	#define MFIO_PIN P5_2
phonemacro	24:064478ff33d2	73	#endif
phonemacro	24:064478ff33d2	74	#endif
phonemacro	24:064478ff33d2	75
phonemacro	24:064478ff33d2	76	DigitalOut rst(RST_PIN, PullUp);
phonemacro	24:064478ff33d2	77	DigitalOut mfio(MFIO_PIN, PullUp);
phonemacro	24:064478ff33d2	78	I2C sh_i2c(P3_4, P3_5);
phonemacro	24:064478ff33d2	79
phonemacro	24:064478ff33d2	80	/*****************************************************************************/
phonemacro	26:33c0d3fd2a95	81	#if defined(MAXM86161_CFG) //\|\| defined(MAXM86146_CFG) // don't need 3.3V for MAXM86146EVSYS_sensorBrd+MAXM86161_ADAPTER_REVB+MAX32630FTHR
phonemacro	17:0d6e99a0fd8d	82	#include "max32630fthr.h"
phonemacro	17:0d6e99a0fd8d	83	MAX32630FTHR pegasus(MAX32630FTHR::VIO_3V3); // Enable J1-pin2, 3.3V and set GPIO to 3.3v
phonemacro	21:67d58af1ec56	84	#endif
phonemacro	26:33c0d3fd2a95	85
phonemacro	26:33c0d3fd2a95	86	/######################################*/
phonemacro	14:c8cc6d7fd5f9	87	//#define RAW // define this if you only AFE+accel data, no algo
phonemacro	14:c8cc6d7fd5f9	88	#define ALGO_ONLY 1 // define this if you only want algo data, comment out if you want raw sensor+algo data
phonemacro	12:17a0bf823462	89	//#define EXTENDED_ALGO 1 // define this if you want the extended algo format
phonemacro	13:1baccc6275a7	90	//#define AGC 1 // define this for AGC, otherwise the default is AEC
phonemacro	6:e1b7190d6cb5	91
phonemacro	6:e1b7190d6cb5	92	#ifdef MAXREFDES103_CFG
phonemacro	5:7f5a012747a5	93	#include "MAX20303.h"
phonemacro	6:e1b7190d6cb5	94	I2C sh_i2c_pmic(P5_7, P6_0);
phonemacro	5:7f5a012747a5	95	#endif
phonemacro	5:7f5a012747a5	96
phonemacro	2:563d90a111b3	97	#ifdef MAXM86146_CFG
phonemacro	0:6f65cae31c54	98	#define PPG_SZ 36 //maxm86146
phonemacro	0:6f65cae31c54	99	#else
phonemacro	0:6f65cae31c54	100	#define PPG_SZ 18 //maxm86161, max86141
phonemacro	0:6f65cae31c54	101	#endif
phonemacro	0:6f65cae31c54	102	#define ACCEL_SZ 6 // accel
phonemacro	0:6f65cae31c54	103	#define SENSOR_SZ (PPG_SZ+ACCEL_SZ)
phonemacro	18:f4c95b1c0efc	104
phonemacro	28:315604f4b374	105	#if defined(MAXM86161_CFG)
phonemacro	28:315604f4b374	106	#define old_msbl 1 // 3x.12.0 or earlier; 32.9.x
phonemacro	28:315604f4b374	107	#endif
phonemacro	18:f4c95b1c0efc	108	#ifdef old_msbl
phonemacro	18:f4c95b1c0efc	109	#ifdef EXTENDED_ALGO
phonemacro	18:f4c95b1c0efc	110	#define ALGO_SZ 52 // 52 bytes is the extended algo size for 3x.12.0
phonemacro	18:f4c95b1c0efc	111	#else
phonemacro	18:f4c95b1c0efc	112	#define ALGO_SZ 20 // 20 bytes is the algo normal size for 3x.12.0
phonemacro	18:f4c95b1c0efc	113	#endif
phonemacro	12:17a0bf823462	114	#else
phonemacro	18:f4c95b1c0efc	115	#ifdef EXTENDED_ALGO
phonemacro	21:67d58af1ec56	116	#define ALGO_SZ 56 // 56 bytes is the extended algo size for 3x.13.x+
phonemacro	18:f4c95b1c0efc	117	#else
phonemacro	21:67d58af1ec56	118	#define ALGO_SZ 24 // 24 bytes is the algo normal size for 3x.13.x+
phonemacro	18:f4c95b1c0efc	119	#endif
phonemacro	12:17a0bf823462	120	#endif
phonemacro	18:f4c95b1c0efc	121
phonemacro	0:6f65cae31c54	122	#ifdef ALGO_ONLY
phonemacro	0:6f65cae31c54	123	#define TTL_SZ (ALGO_SZ)
phonemacro	0:6f65cae31c54	124	#else
phonemacro	14:c8cc6d7fd5f9	125	#ifdef RAW
phonemacro	14:c8cc6d7fd5f9	126	#define TTL_SZ (PPG_SZ+ACCEL_SZ)
phonemacro	14:c8cc6d7fd5f9	127	#else
phonemacro	14:c8cc6d7fd5f9	128	#define TTL_SZ (PPG_SZ+ACCEL_SZ+ALGO_SZ)
phonemacro	14:c8cc6d7fd5f9	129	#endif
phonemacro	0:6f65cae31c54	130	#endif
phonemacro	0:6f65cae31c54	131
phonemacro	3:da975696b936	132	Serial pc(USBTX, USBRX, 115200);
phonemacro	0:6f65cae31c54	133	DigitalOut rLED(LED1);
phonemacro	0:6f65cae31c54	134	DigitalOut gLED(LED2);
phonemacro	0:6f65cae31c54	135	DigitalOut bLED(LED3);
phonemacro	6:e1b7190d6cb5	136
phonemacro	6:e1b7190d6cb5	137	//#define thread_sleep_for(x) wait_ms(x) // for older versions of mbed
phonemacro	0:6f65cae31c54	138
phonemacro	5:7f5a012747a5	139
phonemacro	6:e1b7190d6cb5	140	const int SH_ADDR = 0xAA;//0x55;
phonemacro	0:6f65cae31c54	141	int32_t Time_to_Read_PPG = 0;
phonemacro	0:6f65cae31c54	142
phonemacro	0:6f65cae31c54	143	#define BLINKING_RATE_MS 1000ms
phonemacro	0:6f65cae31c54	144	void blink_timer(void) {
phonemacro	0:6f65cae31c54	145	gLED = !gLED; /* blink the green LED */
phonemacro	0:6f65cae31c54	146	}
phonemacro	0:6f65cae31c54	147
phonemacro	0:6f65cae31c54	148	void fifo_timer(void) {
phonemacro	0:6f65cae31c54	149	Time_to_Read_PPG = 1;
phonemacro	0:6f65cae31c54	150	}
phonemacro	0:6f65cae31c54	151
phonemacro	14:c8cc6d7fd5f9	152	/*****************************************************************************/
phonemacro	14:c8cc6d7fd5f9	153	// read_sh_fifo
phonemacro	14:c8cc6d7fd5f9	154	/*****************************************************************************/
phonemacro	27:a45d6e38f2de	155	/######################################*/
phonemacro	28:315604f4b374	156	#define OPTIMIZE_FIFO_READ 1 // Assume that the FIFO is filled at the specified rate, so just periodically check then number of samples in the FIFO to save power
phonemacro	27:a45d6e38f2de	157	#ifdef OPTIMIZE_FIFO_READ // tested on MAXM86146EVSYS
phonemacro	27:a45d6e38f2de	158	int32_t check_fifo_countdown;
phonemacro	27:a45d6e38f2de	159	#define MAX_FIFO_CNT 20
phonemacro	27:a45d6e38f2de	160	#endif
phonemacro	10:192ea88e964b	161	void read_sh_fifo(void) {
phonemacro	0:6f65cae31c54	162	char cmd[8], i, j, samples;
phonemacro	0:6f65cae31c54	163	char rsp[3000];
phonemacro	0:6f65cae31c54	164	int32_t ppg[12];
phonemacro	5:7f5a012747a5	165	int16_t accel[3];
phonemacro	12:17a0bf823462	166	int32_t status, opmode, hr, hr_conf, ibi, ibi_conf;
phonemacro	12:17a0bf823462	167	#ifdef EXTENDED_ALGO
phonemacro	12:17a0bf823462	168	int32_t walk_stp, run_stp, energy, amr, iadj1_rqt, iadj1, iadj2_rqt, iadj2, iadj3_rqt, iadj3;
phonemacro	12:17a0bf823462	169	int32_t intadj_rqt, intadj, smpladj_rqt, smpladj, rqt_smplave, afestatehr, hr_motion;
phonemacro	12:17a0bf823462	170	#endif
phonemacro	12:17a0bf823462	171	int32_t act, r, spo2, spo2_conf;
phonemacro	4:4f1e9439f048	172	int32_t spo2_compl, spo2_lo, spo2_mo, spo2_lopi, spo2_unrel, spo2_state, ibi_offset, scd;
phonemacro	2:563d90a111b3	173	int32_t scnt = 0;
phonemacro	0:6f65cae31c54	174	int32_t ptr = 0;
phonemacro	0:6f65cae31c54	175	int32_t sptr = 0;
phonemacro	1:da792e46a385	176	mfio = 0; wait_us(300);
phonemacro	0:6f65cae31c54	177	Time_to_Read_PPG = 0;
phonemacro	27:a45d6e38f2de	178	#if defined(OPTIMIZE_FIFO_READ)
phonemacro	27:a45d6e38f2de	179	check_fifo_countdown--;
phonemacro	27:a45d6e38f2de	180	samples = 1;
phonemacro	27:a45d6e38f2de	181	scnt = 1;
phonemacro	27:a45d6e38f2de	182	if (check_fifo_countdown == 0) {
phonemacro	27:a45d6e38f2de	183	#endif
phonemacro	27:a45d6e38f2de	184
phonemacro	22:f6b366c3b954	185	#if defined(MAXREFDES103_CFG) \|\| defined(MAXM86161_CFG)
phonemacro	0:6f65cae31c54	186	// 2.1
phonemacro	27:a45d6e38f2de	187	cmd[0] = 0x00; cmd[1] = 0x00;
phonemacro	27:a45d6e38f2de	188	sh_i2c.write(SH_ADDR, cmd, 2);
phonemacro	27:a45d6e38f2de	189	wait_us(100);
phonemacro	27:a45d6e38f2de	190	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	27:a45d6e38f2de	191	// pc.printf("2.1 Status: %x %x\n\r", rsp[0], rsp[1]);
phonemacro	22:f6b366c3b954	192	#else
phonemacro	22:f6b366c3b954	193	// testd 33.13.12 doesn't need 2.1
phonemacro	0:6f65cae31c54	194	#endif
phonemacro	0:6f65cae31c54	195	// 2.2
phonemacro	27:a45d6e38f2de	196	cmd[0] = 0x12; cmd[1] = 0x00;
phonemacro	27:a45d6e38f2de	197	sh_i2c.write(SH_ADDR, cmd, 2);
phonemacro	27:a45d6e38f2de	198	wait_us(100);
phonemacro	27:a45d6e38f2de	199	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	27:a45d6e38f2de	200	// pc.printf("2.2 Status: %x %x\n\r", rsp[0], rsp[1]);
phonemacro	27:a45d6e38f2de	201	samples = rsp[1];
phonemacro	27:a45d6e38f2de	202	// pc.printf("num samples %d, (numttl)+1 %d\n\r", rsp[1], TTL_SZsamples+1);
phonemacro	27:a45d6e38f2de	203	// pc.printf("num smpls %d \n\r", samples);
phonemacro	27:a45d6e38f2de	204	scnt = rsp[1];
phonemacro	27:a45d6e38f2de	205	#if defined(OPTIMIZE_FIFO_READ)
phonemacro	27:a45d6e38f2de	206	}
phonemacro	27:a45d6e38f2de	207	if (check_fifo_countdown <= 0)
phonemacro	27:a45d6e38f2de	208	check_fifo_countdown = MAX_FIFO_CNT;
phonemacro	27:a45d6e38f2de	209	#endif
phonemacro	27:a45d6e38f2de	210
phonemacro	0:6f65cae31c54	211	// 2.3
phonemacro	4:4f1e9439f048	212	cmd[0] = 0x12; cmd[1] = 0x01;
phonemacro	6:e1b7190d6cb5	213	sh_i2c.write(SH_ADDR, cmd, 2);
phonemacro	22:f6b366c3b954	214	wait_us(100);
phonemacro	6:e1b7190d6cb5	215	sh_i2c.read(SH_ADDR, rsp, 1+(TTL_SZ*samples));
phonemacro	22:f6b366c3b954	216	mfio = 1;
phonemacro	21:67d58af1ec56	217
phonemacro	0:6f65cae31c54	218	status = rsp[0];
phonemacro	5:7f5a012747a5	219
phonemacro	0:6f65cae31c54	220	sptr = 1;
phonemacro	0:6f65cae31c54	221	for (i = 0; i < scnt; i++) {
phonemacro	0:6f65cae31c54	222	#ifdef ALGO_ONLY
phonemacro	0:6f65cae31c54	223	ptr = sptr;
phonemacro	0:6f65cae31c54	224	#else
phonemacro	2:563d90a111b3	225	ptr = sptr;
phonemacro	2:563d90a111b3	226	ppg[0] = (rsp[ptr+0] << 16) \| (rsp[ptr+1] << 8) \| (rsp[ptr+2]);
phonemacro	2:563d90a111b3	227	ppg[1] = (rsp[ptr+3] << 16) \| (rsp[ptr+4] << 8) \| (rsp[ptr+5]);
phonemacro	2:563d90a111b3	228	ppg[2] = (rsp[ptr+6] << 16) \| (rsp[ptr+7] << 8) \| (rsp[ptr+8]);
phonemacro	3:da975696b936	229	ppg[3] = (rsp[ptr+9] << 16) \| (rsp[ptr+10] << 8) \| (rsp[ptr+11]);
phonemacro	4:4f1e9439f048	230	ppg[4] = (rsp[ptr+12] << 16) \| (rsp[ptr+13] << 8) \| (rsp[ptr+14]);
phonemacro	4:4f1e9439f048	231	ppg[5] = (rsp[ptr+15] << 16) \| (rsp[ptr+16] << 8) \| (rsp[ptr+17]);
phonemacro	3:da975696b936	232	pc.printf("%d,%d,%d,%d,", ppg[0], ppg[1], ppg[2], ppg[3]);
phonemacro	14:c8cc6d7fd5f9	233	#ifdef MAXM86146_CFG
phonemacro	14:c8cc6d7fd5f9	234	#ifdef RAW
phonemacro	14:c8cc6d7fd5f9	235	pc.printf("%d,%d,", ppg[4], ppg[5]);
phonemacro	14:c8cc6d7fd5f9	236	ppg[6] = (rsp[ptr+18] << 16) \| (rsp[ptr+19] << 8) \| (rsp[ptr+20]);
phonemacro	14:c8cc6d7fd5f9	237	ppg[7] = (rsp[ptr+21] << 16) \| (rsp[ptr+22] << 8) \| (rsp[ptr+23]);
phonemacro	14:c8cc6d7fd5f9	238	ppg[8] = (rsp[ptr+24] << 16) \| (rsp[ptr+25] << 8) \| (rsp[ptr+26]);
phonemacro	14:c8cc6d7fd5f9	239	ppg[9] = (rsp[ptr+27] << 16) \| (rsp[ptr+28] << 8) \| (rsp[ptr+29]);
phonemacro	14:c8cc6d7fd5f9	240	ppg[10] = (rsp[ptr+30] << 16) \| (rsp[ptr+31] << 8) \| (rsp[ptr+32]);
phonemacro	14:c8cc6d7fd5f9	241	ppg[11] = (rsp[ptr+33] << 16) \| (rsp[ptr+34] << 8) \| (rsp[ptr+35]);
phonemacro	14:c8cc6d7fd5f9	242	pc.printf("%d,%d,%d,%d,%d,%d,", ppg[6], ppg[7],ppg[8], ppg[9],ppg[10], ppg[11]);
phonemacro	14:c8cc6d7fd5f9	243	#endif
phonemacro	14:c8cc6d7fd5f9	244	#endif
phonemacro	5:7f5a012747a5	245	accel[0] = (rsp[PPG_SZ+0] << 8) \| (rsp[PPG_SZ+1]);
phonemacro	5:7f5a012747a5	246	accel[1] = (rsp[PPG_SZ+2] << 8) \| (rsp[PPG_SZ+3]);
phonemacro	5:7f5a012747a5	247	accel[2] = (rsp[PPG_SZ+4] << 8) \| (rsp[PPG_SZ+5]);
phonemacro	5:7f5a012747a5	248	pc.printf("%d,%d,%d,", accel[0], accel[1], accel[2]);
phonemacro	5:7f5a012747a5	249
phonemacro	0:6f65cae31c54	250	ptr = sptr + SENSOR_SZ;
phonemacro	0:6f65cae31c54	251	#endif
phonemacro	14:c8cc6d7fd5f9	252	#ifndef RAW
phonemacro	12:17a0bf823462	253	#ifdef EXTENDED_ALGO
phonemacro	3:da975696b936	254	// pc.printf("ptr %d ttlsiz %d ", ptr, TTL_SZ);
phonemacro	0:6f65cae31c54	255	opmode = rsp[ptr];
phonemacro	0:6f65cae31c54	256	hr = (rsp[ptr+1] << 8) + rsp[ptr+2];
phonemacro	0:6f65cae31c54	257	hr_conf = rsp[ptr+3];
phonemacro	12:17a0bf823462	258	ibi = (rsp[ptr+4] << 8) + rsp[ptr+5];
phonemacro	12:17a0bf823462	259
phonemacro	12:17a0bf823462	260	ibi_conf = rsp[ptr+6];
phonemacro	12:17a0bf823462	261	act = rsp[ptr+7];
phonemacro	12:17a0bf823462	262	walk_stp = (rsp[ptr+8] << 24) + (rsp[ptr+9] << 16) + (rsp[ptr+10] << 8) + rsp[ptr+11];
phonemacro	12:17a0bf823462	263	run_stp = (rsp[ptr+12] << 24) + (rsp[ptr+13] << 16) + (rsp[ptr+14] << 8) + rsp[ptr+15];
phonemacro	12:17a0bf823462	264
phonemacro	12:17a0bf823462	265	energy = (rsp[ptr+16] << 24) + (rsp[ptr+17] << 16) + (rsp[ptr+18] << 8) + rsp[ptr+19];
phonemacro	12:17a0bf823462	266	amr = (rsp[ptr+20] << 24) + (rsp[ptr+21] << 16) + (rsp[ptr+22] << 8) + rsp[ptr+23];
phonemacro	12:17a0bf823462	267	iadj1_rqt = rsp[ptr+24];
phonemacro	12:17a0bf823462	268	iadj1 = (rsp[ptr+25] << 8) + rsp[ptr+26];
phonemacro	12:17a0bf823462	269
phonemacro	12:17a0bf823462	270	iadj2_rqt = rsp[ptr+27];
phonemacro	12:17a0bf823462	271	iadj2 = (rsp[ptr+28] << 8) + rsp[ptr+29];
phonemacro	12:17a0bf823462	272	iadj3_rqt = rsp[ptr+30];
phonemacro	12:17a0bf823462	273	iadj3 = (rsp[ptr+31] << 8) + rsp[ptr+32];
phonemacro	12:17a0bf823462	274
phonemacro	12:17a0bf823462	275	intadj_rqt = rsp[ptr+33];
phonemacro	12:17a0bf823462	276	intadj = rsp[ptr+34];
phonemacro	12:17a0bf823462	277	smpladj_rqt = rsp[ptr+35];
phonemacro	12:17a0bf823462	278	smpladj = rsp[ptr+36];
phonemacro	12:17a0bf823462	279
phonemacro	12:17a0bf823462	280	rqt_smplave = rsp[ptr+37];
phonemacro	12:17a0bf823462	281	afestatehr = rsp[ptr+38];
phonemacro	12:17a0bf823462	282	hr_motion = rsp[ptr+39];
phonemacro	12:17a0bf823462	283	scd = rsp[ptr+40];
phonemacro	12:17a0bf823462	284
phonemacro	12:17a0bf823462	285
phonemacro	12:17a0bf823462	286	r = (rsp[ptr+41] << 8) + rsp[ptr+42];
phonemacro	12:17a0bf823462	287	spo2_conf = rsp[ptr+43];
phonemacro	12:17a0bf823462	288
phonemacro	12:17a0bf823462	289	spo2 = (rsp[ptr+44] << 8) + rsp[ptr+45];
phonemacro	12:17a0bf823462	290	spo2_compl = rsp[ptr+46];
phonemacro	12:17a0bf823462	291	spo2_lo = rsp[ptr+47];
phonemacro	12:17a0bf823462	292	spo2_mo = rsp[ptr+48];
phonemacro	12:17a0bf823462	293
phonemacro	12:17a0bf823462	294	spo2_lopi = rsp[ptr+49];
phonemacro	12:17a0bf823462	295	spo2_unrel = rsp[ptr+50];
phonemacro	12:17a0bf823462	296	spo2_state = rsp[ptr+51];
phonemacro	12:17a0bf823462	297
phonemacro	12:17a0bf823462	298	ibi_offset = rsp[ptr+52];
phonemacro	12:17a0bf823462	299
phonemacro	12:17a0bf823462	300	sptr += (TTL_SZ);
phonemacro	12:17a0bf823462	301	#if 1
phonemacro	12:17a0bf823462	302	pc.printf("%d,%d,%d,%d,", opmode, hr, hr_conf, ibi);
phonemacro	12:17a0bf823462	303	pc.printf("%d,%d,", ibi_conf, act);
phonemacro	12:17a0bf823462	304	pc.printf("%d,%d,%d,", walk_stp, run_stp, energy);
phonemacro	12:17a0bf823462	305	pc.printf("%d,%d,%d,%d,", amr, iadj1_rqt, iadj1, iadj2_rqt);
phonemacro	12:17a0bf823462	306	pc.printf("%d,%d,%d,%d,", iadj2, iadj3_rqt, iadj3, intadj_rqt);
phonemacro	12:17a0bf823462	307	pc.printf("%d,%d,%d,%d,", intadj, smpladj_rqt, smpladj, rqt_smplave);
phonemacro	12:17a0bf823462	308	pc.printf("%d,%d,", afestatehr, hr_motion);
phonemacro	12:17a0bf823462	309	pc.printf("%d,", scd);
phonemacro	12:17a0bf823462	310	pc.printf("%d,%d,%d,%d,", spo2, spo2_compl, spo2_lo, spo2_mo);
phonemacro	12:17a0bf823462	311	pc.printf("%d,%d,%d,", spo2_lopi,spo2_unrel, spo2_state);
phonemacro	12:17a0bf823462	312	pc.printf("%d,", ibi_offset);
phonemacro	12:17a0bf823462	313	#else
phonemacro	12:17a0bf823462	314	pc.printf("%d,%d,", hr, hr_conf);
phonemacro	12:17a0bf823462	315	pc.printf("%d,%d,", spo2, spo2_conf);
phonemacro	16:ff1122f0624a	316	pc.printf("%d,%d,%d,", spo2_lo, spo2_mo, spo2_lopi);
phonemacro	12:17a0bf823462	317	pc.printf("%d,%d,", spo2_unrel, scd);
phonemacro	12:17a0bf823462	318	#endif
phonemacro	12:17a0bf823462	319	#else // normal algo size
phonemacro	12:17a0bf823462	320	// pc.printf("ptr %d ttlsiz %d ", ptr, TTL_SZ);
phonemacro	12:17a0bf823462	321	opmode = rsp[ptr];
phonemacro	12:17a0bf823462	322	hr = (rsp[ptr+1] << 8) + rsp[ptr+2];
phonemacro	12:17a0bf823462	323	hr_conf = rsp[ptr+3];
phonemacro	12:17a0bf823462	324	ibi = (rsp[ptr+4] << 8) + rsp[ptr+5];
phonemacro	4:4f1e9439f048	325
phonemacro	11:a16b6bf38841	326	ibi_conf = rsp[ptr+6];
phonemacro	3:da975696b936	327	act = rsp[ptr+7];
phonemacro	3:da975696b936	328	r = (rsp[ptr+8] << 8) + rsp[ptr+9];
phonemacro	0:6f65cae31c54	329	spo2_conf = rsp[ptr+10];
phonemacro	4:4f1e9439f048	330
phonemacro	0:6f65cae31c54	331	spo2 = (rsp[ptr+11] << 8) + rsp[ptr+12];
phonemacro	4:4f1e9439f048	332	spo2_compl = rsp[ptr+13];
phonemacro	4:4f1e9439f048	333	spo2_lo = rsp[ptr+14];
phonemacro	4:4f1e9439f048	334	spo2_mo = rsp[ptr+15];
phonemacro	4:4f1e9439f048	335
phonemacro	4:4f1e9439f048	336	spo2_lopi = rsp[ptr+16];
phonemacro	4:4f1e9439f048	337	spo2_unrel = rsp[ptr+17];
phonemacro	4:4f1e9439f048	338	spo2_state = rsp[ptr+18];
phonemacro	2:563d90a111b3	339	scd = rsp[ptr+19];
phonemacro	0:6f65cae31c54	340
phonemacro	4:4f1e9439f048	341	ibi_offset = rsp[ptr+20];
phonemacro	0:6f65cae31c54	342
phonemacro	4:4f1e9439f048	343	sptr += (TTL_SZ);
phonemacro	27:a45d6e38f2de	344	#if 0
phonemacro	4:4f1e9439f048	345	pc.printf("%d,%d,%d,%d,", opmode, hr, hr_conf, ibi);
phonemacro	4:4f1e9439f048	346	pc.printf("%d,%d,%d,%d,", ibi_conf, act, r, spo2_conf);
phonemacro	4:4f1e9439f048	347	pc.printf("%d,%d,%d,%d,", spo2, spo2_compl, spo2_lo, spo2_mo);
phonemacro	4:4f1e9439f048	348	pc.printf("%d,%d,%d,%d,", spo2_lopi,spo2_unrel, spo2_state, scd);
phonemacro	4:4f1e9439f048	349	pc.printf("%d,", ibi_offset);
phonemacro	4:4f1e9439f048	350	#else
phonemacro	4:4f1e9439f048	351	pc.printf("%d,%d,", hr, hr_conf);
phonemacro	4:4f1e9439f048	352	pc.printf("%d,%d,", spo2, spo2_conf);
phonemacro	4:4f1e9439f048	353	pc.printf("%d,", spo2_lo);
phonemacro	4:4f1e9439f048	354	pc.printf("%d,%d,", spo2_unrel, scd);
phonemacro	4:4f1e9439f048	355	#endif
phonemacro	12:17a0bf823462	356	#endif // end normal algo size
phonemacro	14:c8cc6d7fd5f9	357	#endif // !RAW
phonemacro	4:4f1e9439f048	358
phonemacro	3:da975696b936	359	pc.printf("\n\r");
phonemacro	0:6f65cae31c54	360	}
phonemacro	0:6f65cae31c54	361	}
phonemacro	0:6f65cae31c54	362
phonemacro	6:e1b7190d6cb5	363	#ifdef MAXREFDES103_CFG
phonemacro	14:c8cc6d7fd5f9	364	/*****************************************************************************/
phonemacro	14:c8cc6d7fd5f9	365	// init_max20303_pmic
phonemacro	14:c8cc6d7fd5f9	366	/*****************************************************************************/
phonemacro	6:e1b7190d6cb5	367	void init_max20303_pmic(void) {
phonemacro	5:7f5a012747a5	368	/* Wait for pmic to settle down */
phonemacro	5:7f5a012747a5	369	thread_sleep_for(800);
phonemacro	5:7f5a012747a5	370
phonemacro	5:7f5a012747a5	371	//set_time(1544787300); // Set RTC time to Wed, 28 Oct 2009 11:35:37
phonemacro	6:e1b7190d6cb5	372	MAX20303 max20303(&sh_i2c);
phonemacro	5:7f5a012747a5	373	/Set LDO1 to 1.8v/
phonemacro	5:7f5a012747a5	374	max20303.LDO1Config();
phonemacro	5:7f5a012747a5	375
phonemacro	5:7f5a012747a5	376	/Set LDO2 to 3v/
phonemacro	5:7f5a012747a5	377	max20303.LDO2Config();
phonemacro	5:7f5a012747a5	378
phonemacro	5:7f5a012747a5	379	//max20303.BoostEnable();
phonemacro	5:7f5a012747a5	380	max20303.BuckBoostEnable();
phonemacro	5:7f5a012747a5	381
phonemacro	5:7f5a012747a5	382	max20303.led0on(0);
phonemacro	5:7f5a012747a5	383	max20303.led1on(0);
phonemacro	5:7f5a012747a5	384	max20303.led2on(0);
phonemacro	5:7f5a012747a5	385
phonemacro	5:7f5a012747a5	386	/* Wait for pmic to settle down */
phonemacro	5:7f5a012747a5	387	thread_sleep_for(200);
phonemacro	28:315604f4b374	388
phonemacro	5:7f5a012747a5	389	}
phonemacro	6:e1b7190d6cb5	390	#endif // MAXREFDES103_CFG
phonemacro	14:c8cc6d7fd5f9	391
phonemacro	14:c8cc6d7fd5f9	392	/*****************************************************************************/
phonemacro	14:c8cc6d7fd5f9	393	// init_sh_algo
phonemacro	14:c8cc6d7fd5f9	394	/*****************************************************************************/
phonemacro	14:c8cc6d7fd5f9	395	void init_sh_algo(void) {
phonemacro	14:c8cc6d7fd5f9	396	char cmd[8];
phonemacro	0:6f65cae31c54	397	char rsp[256];
phonemacro	27:a45d6e38f2de	398
phonemacro	27:a45d6e38f2de	399	#ifdef OPTIMIZE_FIFO_READ
phonemacro	27:a45d6e38f2de	400	check_fifo_countdown = MAX_FIFO_CNT;
phonemacro	27:a45d6e38f2de	401	#endif
phonemacro	27:a45d6e38f2de	402
phonemacro	10:192ea88e964b	403	// switch to application mode
phonemacro	0:6f65cae31c54	404	rst = 0;
phonemacro	0:6f65cae31c54	405	mfio = 1;
phonemacro	0:6f65cae31c54	406	thread_sleep_for(10);
phonemacro	0:6f65cae31c54	407	rst = 1;
phonemacro	0:6f65cae31c54	408	thread_sleep_for(1500);
phonemacro	10:192ea88e964b	409	#ifdef MAXREFDES103_CFG
phonemacro	10:192ea88e964b	410	init_max20303_pmic();
phonemacro	10:192ea88e964b	411	#endif
phonemacro	23:e7ecf1416965	412	#if 0 // 1.5s is ok for 33.13.12
phonemacro	23:e7ecf1416965	413	thread_sleep_for(250);
phonemacro	20:7fc26287beb7	414	#endif
phonemacro	0:6f65cae31c54	415
phonemacro	1:da792e46a385	416	mfio = 0; wait_us(300);
phonemacro	4:4f1e9439f048	417
phonemacro	4:4f1e9439f048	418	//read operating mode
phonemacro	4:4f1e9439f048	419	cmd[0] = 0x02; cmd[1] = 0x00;
phonemacro	6:e1b7190d6cb5	420	sh_i2c.write(SH_ADDR, cmd, 2);
phonemacro	1:da792e46a385	421	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	422	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	6:e1b7190d6cb5	423	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	424	pc.printf("\n\r 0x02 0x00 Status, Read Operating Mode: %x %x\n\r", rsp[0], rsp[1]);
phonemacro	5:7f5a012747a5	425	//1.11 rd ver
phonemacro	4:4f1e9439f048	426	cmd[0] = 0xFF; cmd[1] = 0x03;
phonemacro	6:e1b7190d6cb5	427	sh_i2c.write(SH_ADDR, cmd, 2);
phonemacro	1:da792e46a385	428	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	429	sh_i2c.read(SH_ADDR, rsp, 4);
phonemacro	1:da792e46a385	430	mfio = 1; mfio = 0; wait_us(300);
phonemacro	3:da975696b936	431	pc.printf("Ver: %d %d %d %d\n\r", rsp[0], rsp[1], rsp[2], rsp[3]);
phonemacro	0:6f65cae31c54	432
phonemacro	28:315604f4b374	433	#if defined(MAXM86161_CFG)
phonemacro	28:315604f4b374	434	// algo sz normal
phonemacro	17:0d6e99a0fd8d	435	cmd[0] = 0x11; cmd[1] = 0x06; cmd[2] = 0x01;
phonemacro	17:0d6e99a0fd8d	436	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	17:0d6e99a0fd8d	437	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	17:0d6e99a0fd8d	438	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	17:0d6e99a0fd8d	439	mfio = 1; mfio = 0; wait_us(300);
phonemacro	17:0d6e99a0fd8d	440	pc.printf("algo size: %d %d \n\r", rsp[0], rsp[1]);
phonemacro	17:0d6e99a0fd8d	441
phonemacro	28:315604f4b374	442	// algo sz extended
phonemacro	17:0d6e99a0fd8d	443	cmd[0] = 0x11; cmd[1] = 0x06; cmd[2] = 0x02;
phonemacro	17:0d6e99a0fd8d	444	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	17:0d6e99a0fd8d	445	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	17:0d6e99a0fd8d	446	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	17:0d6e99a0fd8d	447	mfio = 1; mfio = 0; wait_us(300);
phonemacro	17:0d6e99a0fd8d	448	pc.printf("algo size: %d %d \n\r", rsp[0], rsp[1]);
phonemacro	17:0d6e99a0fd8d	449
phonemacro	28:315604f4b374	450	// algo sz scd
phonemacro	17:0d6e99a0fd8d	451	cmd[0] = 0x11; cmd[1] = 0x06; cmd[2] = 0x03;
phonemacro	17:0d6e99a0fd8d	452	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	17:0d6e99a0fd8d	453	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	17:0d6e99a0fd8d	454	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	17:0d6e99a0fd8d	455	mfio = 1; mfio = 0; wait_us(300);
phonemacro	17:0d6e99a0fd8d	456	pc.printf("algo size: %d %d \n\r", rsp[0], rsp[1]);
phonemacro	17:0d6e99a0fd8d	457	#endif
phonemacro	17:0d6e99a0fd8d	458
phonemacro	17:0d6e99a0fd8d	459	#if 0
phonemacro	17:0d6e99a0fd8d	460	// set Perfusion Index threshold to .05 (3x.13.19+)
phonemacro	17:0d6e99a0fd8d	461	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x1D; cmd[3] = 50;
phonemacro	16:ff1122f0624a	462	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	16:ff1122f0624a	463	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	16:ff1122f0624a	464	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	16:ff1122f0624a	465	mfio = 1; mfio = 0; wait_us(300);
phonemacro	16:ff1122f0624a	466	pc.printf("pi set to 0x19 : %x \n\r", rsp[0]);
phonemacro	17:0d6e99a0fd8d	467	#endif
phonemacro	16:ff1122f0624a	468
phonemacro	0:6f65cae31c54	469	// 1.3 sensor and algo data
phonemacro	4:4f1e9439f048	470	cmd[0] = 0x10; cmd[1] = 0x00;
phonemacro	2:563d90a111b3	471	#ifdef ALGO_ONLY
phonemacro	0:6f65cae31c54	472	cmd[2] = 0x02; // algo data
phonemacro	4:4f1e9439f048	473	pc.printf("algo only \n\r");
phonemacro	2:563d90a111b3	474	#else
phonemacro	2:563d90a111b3	475	cmd[2] = 0x03; // sensor + algo data
phonemacro	4:4f1e9439f048	476	pc.printf("sens+algo \n\r");
phonemacro	2:563d90a111b3	477	#endif
phonemacro	6:e1b7190d6cb5	478	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	1:da792e46a385	479	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	480	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	1:da792e46a385	481	mfio = 1; mfio = 0; wait_us(300);
phonemacro	3:da975696b936	482	pc.printf("1.3 Status: %x\n\r", rsp[0]);
phonemacro	3:da975696b936	483	// 1.7 cont hr, spo2
phonemacro	4:4f1e9439f048	484	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x0A; cmd[3] = 0x00;
phonemacro	6:e1b7190d6cb5	485	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	3:da975696b936	486	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	487	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	3:da975696b936	488	mfio = 1; mfio = 0; wait_us(300);
phonemacro	3:da975696b936	489	pc.printf("1.7 Status: %x\n\r", rsp[0]);
phonemacro	4:4f1e9439f048	490	// 1.8 AEC enable (default)
phonemacro	4:4f1e9439f048	491	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x0B; cmd[3] = 0x01;
phonemacro	6:e1b7190d6cb5	492	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	1:da792e46a385	493	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	494	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	1:da792e46a385	495	mfio = 1; mfio = 0; wait_us(300);
phonemacro	4:4f1e9439f048	496	pc.printf("1.8 Status: %x\n\r", rsp[0]);
phonemacro	13:1baccc6275a7	497	#if AGC
phonemacro	13:1baccc6275a7	498	// AGC1.8 Disable auto PD (default
phonemacro	13:1baccc6275a7	499	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x12; cmd[3] = 0x00;
phonemacro	13:1baccc6275a7	500	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	13:1baccc6275a7	501	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	13:1baccc6275a7	502	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	13:1baccc6275a7	503	mfio = 1; mfio = 0; wait_us(300);
phonemacro	13:1baccc6275a7	504	pc.printf("AGC1.8 Status: %x\n\r", rsp[0]);
phonemacro	13:1baccc6275a7	505	// AGC1.9 Disable SCD (default)
phonemacro	13:1baccc6275a7	506	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x0C; cmd[3] = 0x00;
phonemacro	13:1baccc6275a7	507	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	13:1baccc6275a7	508	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	13:1baccc6275a7	509	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	13:1baccc6275a7	510	mfio = 1; mfio = 0; wait_us(300);
phonemacro	13:1baccc6275a7	511	pc.printf("AGC1.9 Status: %x\n\r", rsp[0]);
phonemacro	13:1baccc6275a7	512	// AGC1.10 Set AGC target PD TO 10uA
phonemacro	13:1baccc6275a7	513	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x11; cmd[3] = 0x00; cmd[3] = 0x64;
phonemacro	13:1baccc6275a7	514	sh_i2c.write(SH_ADDR, cmd, 5);
phonemacro	13:1baccc6275a7	515	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	13:1baccc6275a7	516	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	13:1baccc6275a7	517	mfio = 1; mfio = 0; wait_us(300);
phonemacro	13:1baccc6275a7	518	pc.printf("AGC1.10 Status: %x\n\r", rsp[0]);
phonemacro	13:1baccc6275a7	519	#else
phonemacro	4:4f1e9439f048	520	// 1.9 auto PD (default
phonemacro	4:4f1e9439f048	521	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x12; cmd[3] = 0x01;
phonemacro	6:e1b7190d6cb5	522	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	1:da792e46a385	523	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	524	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	1:da792e46a385	525	mfio = 1; mfio = 0; wait_us(300);
phonemacro	4:4f1e9439f048	526	pc.printf("1.9 Status: %x\n\r", rsp[0]);
phonemacro	4:4f1e9439f048	527	// 1.10 SCD (default)
phonemacro	4:4f1e9439f048	528	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x0C; cmd[3] = 0x01;
phonemacro	6:e1b7190d6cb5	529	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	4:4f1e9439f048	530	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	531	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	4:4f1e9439f048	532	mfio = 1; mfio = 0; wait_us(300);
phonemacro	4:4f1e9439f048	533	pc.printf("1.7 Status: %x\n\r", rsp[0]);
phonemacro	13:1baccc6275a7	534	#endif
phonemacro	28:315604f4b374	535
phonemacro	28:315604f4b374	536	#if defined(MAXM86161_CFG) //only use Red and IR
phonemacro	28:315604f4b374	537	//1.20 Sec 4.1 map leds to slots for MAXM86146
phonemacro	28:315604f4b374	538	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x19; cmd[3] = 0x23; cmd[4] = 0x00; cmd[5] = 0x00;
phonemacro	28:315604f4b374	539	sh_i2c.write(SH_ADDR, cmd, 6);
phonemacro	28:315604f4b374	540	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	541	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	28:315604f4b374	542	mfio = 1; mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	543	pc.printf("map leds to slots %x\n\r", rsp[0]);
phonemacro	28:315604f4b374	544	//1.21 map HR inputs to slots
phonemacro	28:315604f4b374	545	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x17; cmd[3] = 0x00; cmd[4] = 0x73;
phonemacro	28:315604f4b374	546	sh_i2c.write(SH_ADDR, cmd, 5);
phonemacro	28:315604f4b374	547	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	548	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	28:315604f4b374	549	mfio = 1; mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	550	pc.printf("map HR to slots/PDs %x\n\r", rsp[0]);
phonemacro	28:315604f4b374	551	//1.22 map SpO2 inputs to slots
phonemacro	28:315604f4b374	552	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x18; cmd[3] = 0x00; cmd[4] = 0x10;
phonemacro	28:315604f4b374	553	sh_i2c.write(SH_ADDR, cmd, 5);
phonemacro	28:315604f4b374	554	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	555	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	28:315604f4b374	556	mfio = 1; mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	557	pc.printf("map SpO2 to slots/PDs %x\n\r", rsp[0]);
phonemacro	28:315604f4b374	558	#endif
phonemacro	28:315604f4b374	559
phonemacro	3:da975696b936	560	#ifdef MAXM86146_CFG
phonemacro	3:da975696b936	561	//1.20 Sec 4.1 map leds to slots for MAXM86146
phonemacro	4:4f1e9439f048	562	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x19; cmd[3] = 0x13; cmd[4] = 0x56; cmd[5] = 0x00;
phonemacro	6:e1b7190d6cb5	563	sh_i2c.write(SH_ADDR, cmd, 6);
phonemacro	3:da975696b936	564	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	565	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	3:da975696b936	566	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	567	pc.printf("map leds to slots %x\n\r", rsp[0]);
phonemacro	3:da975696b936	568	//1.21 map HR inputs to slots
phonemacro	4:4f1e9439f048	569	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x17; cmd[3] = 0x00; cmd[4] = 0x11;
phonemacro	6:e1b7190d6cb5	570	sh_i2c.write(SH_ADDR, cmd, 5);
phonemacro	3:da975696b936	571	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	572	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	3:da975696b936	573	mfio = 1; mfio = 0; wait_us(300);
phonemacro	3:da975696b936	574	pc.printf("map HR to slots/PDs %x\n\r", rsp[0]);
phonemacro	3:da975696b936	575	//1.22 map SpO2 inputs to slots
phonemacro	4:4f1e9439f048	576	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x18; cmd[3] = 0x30; cmd[4] = 0x20;
phonemacro	6:e1b7190d6cb5	577	sh_i2c.write(SH_ADDR, cmd, 5);
phonemacro	3:da975696b936	578	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	579	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	3:da975696b936	580	mfio = 1; mfio = 0; wait_us(300);
phonemacro	3:da975696b936	581	pc.printf("map SpO2 to slots/PDs %x\n\r", rsp[0]);
phonemacro	26:33c0d3fd2a95	582
phonemacro	3:da975696b936	583	#if 0
phonemacro	2:563d90a111b3	584	//1.20 Sec 4.1 map leds to slots for MAXM86146
phonemacro	4:4f1e9439f048	585	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x19; cmd[3] = 0x15; cmd[4] = 0x60; cmd[5] = 0x00;
phonemacro	6:e1b7190d6cb5	586	sh_i2c.write(SH_ADDR, cmd, 6);
phonemacro	1:da792e46a385	587	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	588	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	1:da792e46a385	589	mfio = 1; mfio = 0; wait_us(300);
phonemacro	3:da975696b936	590	pc.printf("map leds to slots%x\n\r", rsp[0]);
phonemacro	2:563d90a111b3	591	//1.21 map HR inputs to slots
phonemacro	4:4f1e9439f048	592	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x17; cmd[3] = 0x00; cmd[4] = 0x01;
phonemacro	6:e1b7190d6cb5	593	sh_i2c.write(SH_ADDR, cmd, 5);
phonemacro	1:da792e46a385	594	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	595	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	1:da792e46a385	596	mfio = 1; mfio = 0; wait_us(300);
phonemacro	3:da975696b936	597	pc.printf("map HR to slots/PDs %x\n\r", rsp[0]);
phonemacro	2:563d90a111b3	598	//1.22 map SpO2 inputs to slots
phonemacro	4:4f1e9439f048	599	cmd[0] = 0x50; cmd[1] = 0x07; cmd[2] = 0x18; cmd[3] = 0x20; cmd[4] = 0x10;
phonemacro	6:e1b7190d6cb5	600	sh_i2c.write(SH_ADDR, cmd, 5);
phonemacro	1:da792e46a385	601	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	602	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	1:da792e46a385	603	mfio = 1; mfio = 0; wait_us(300);
phonemacro	3:da975696b936	604	pc.printf("map SpO2 to slots/PDs %x\n\r", rsp[0]);
phonemacro	3:da975696b936	605	#endif
phonemacro	3:da975696b936	606	#endif // MAXM86146_CFG
phonemacro	0:6f65cae31c54	607
phonemacro	28:315604f4b374	608
phonemacro	28:315604f4b374	609	#if 0 // MAXM86161 test new commands
phonemacro	28:315604f4b374	610	// LDO enable
phonemacro	28:315604f4b374	611	cmd[0] = 0x10; cmd[1] = 0x12; cmd[2] = 0x01;
phonemacro	28:315604f4b374	612	//cmd[0] = 0x10; cmd[1] = 0x12; cmd[2] = 0x00;
phonemacro	28:315604f4b374	613	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	28:315604f4b374	614	thread_sleep_for(2);
phonemacro	28:315604f4b374	615	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	28:315604f4b374	616	pc.printf("\n\r ldo en %x\n\r", rsp[0]);
phonemacro	28:315604f4b374	617	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	618	// GPIO enable
phonemacro	28:315604f4b374	619	cmd[0] = 0x10; cmd[1] = 0x13; cmd[2] = 0x01;
phonemacro	28:315604f4b374	620	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	28:315604f4b374	621	thread_sleep_for(2);
phonemacro	28:315604f4b374	622	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	28:315604f4b374	623	pc.printf("\n\r gpio en %x\n\r", rsp[0]);
phonemacro	28:315604f4b374	624	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	625	#endif
phonemacro	28:315604f4b374	626
phonemacro	4:4f1e9439f048	627	// 1.3 Enable HR, SpO2 algo
phonemacro	12:17a0bf823462	628	#ifdef EXTENDED_ALGO
phonemacro	12:17a0bf823462	629	cmd[0] = 0x52; cmd[1] = 0x07; cmd[2] = 0x02;
phonemacro	12:17a0bf823462	630	#else
phonemacro	4:4f1e9439f048	631	cmd[0] = 0x52; cmd[1] = 0x07; cmd[2] = 0x01;
phonemacro	12:17a0bf823462	632	#endif
phonemacro	6:e1b7190d6cb5	633	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	28:315604f4b374	634	mfio = 1;
phonemacro	0:6f65cae31c54	635	thread_sleep_for(465);
phonemacro	28:315604f4b374	636	mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	637	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	3:da975696b936	638	pc.printf("1.14 status: %x\n\r", rsp[0]);
phonemacro	0:6f65cae31c54	639
phonemacro	4:4f1e9439f048	640	#if 1
phonemacro	4:4f1e9439f048	641	//1.31 rd AFE part id
phonemacro	4:4f1e9439f048	642	cmd[0] = 0x41; cmd[1] = 0x00; cmd[2] = 0xFF;
phonemacro	6:e1b7190d6cb5	643	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	4:4f1e9439f048	644	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	645	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	4:4f1e9439f048	646	mfio = 1; mfio = 0; wait_us(300);
phonemacro	4:4f1e9439f048	647	pc.printf("1.31 part id afe %x %x\n\r", rsp[0], rsp[1]);
phonemacro	4:4f1e9439f048	648	//1.32 rd accel who
phonemacro	4:4f1e9439f048	649	cmd[0] = 0x41; cmd[1] = 0x04; cmd[2] = 0x0F;
phonemacro	6:e1b7190d6cb5	650	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	4:4f1e9439f048	651	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	6:e1b7190d6cb5	652	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	4:4f1e9439f048	653	mfio = 1; mfio = 0; wait_us(300);
phonemacro	4:4f1e9439f048	654	pc.printf("1.32 who accel %x %x\n\r", rsp[0], rsp[1]);
phonemacro	28:315604f4b374	655	#endif
phonemacro	26:33c0d3fd2a95	656	mfio = 1;
phonemacro	10:192ea88e964b	657	}
phonemacro	10:192ea88e964b	658
phonemacro	14:c8cc6d7fd5f9	659	/*****************************************************************************/
phonemacro	14:c8cc6d7fd5f9	660	// init_sh_raw
phonemacro	14:c8cc6d7fd5f9	661	/*****************************************************************************/
phonemacro	14:c8cc6d7fd5f9	662	void init_sh_raw(void) {
phonemacro	14:c8cc6d7fd5f9	663	char cmd[8];
phonemacro	14:c8cc6d7fd5f9	664	char rsp[256];
phonemacro	14:c8cc6d7fd5f9	665	// switch to application mode
phonemacro	14:c8cc6d7fd5f9	666	rst = 0;
phonemacro	14:c8cc6d7fd5f9	667	mfio = 1;
phonemacro	14:c8cc6d7fd5f9	668	thread_sleep_for(10);
phonemacro	14:c8cc6d7fd5f9	669	rst = 1;
phonemacro	14:c8cc6d7fd5f9	670	thread_sleep_for(1500);
phonemacro	14:c8cc6d7fd5f9	671	#ifdef MAXREFDES103_CFG
phonemacro	14:c8cc6d7fd5f9	672	init_max20303_pmic();
phonemacro	14:c8cc6d7fd5f9	673	#endif
phonemacro	14:c8cc6d7fd5f9	674
phonemacro	14:c8cc6d7fd5f9	675	mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	676
phonemacro	14:c8cc6d7fd5f9	677	//read operating mode
phonemacro	14:c8cc6d7fd5f9	678	cmd[0] = 0x02; cmd[1] = 0x00;
phonemacro	14:c8cc6d7fd5f9	679	sh_i2c.write(SH_ADDR, cmd, 2);
phonemacro	14:c8cc6d7fd5f9	680	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	681	sh_i2c.read(SH_ADDR, rsp, 2);
phonemacro	14:c8cc6d7fd5f9	682	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	683	pc.printf("\n\r 0x02 0x00 Status, Read Operating Mode: %x %x\n\r", rsp[0], rsp[1]);
phonemacro	14:c8cc6d7fd5f9	684	//1.11 rd ver
phonemacro	14:c8cc6d7fd5f9	685	cmd[0] = 0xFF; cmd[1] = 0x03;
phonemacro	14:c8cc6d7fd5f9	686	sh_i2c.write(SH_ADDR, cmd, 2);
phonemacro	14:c8cc6d7fd5f9	687	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	688	sh_i2c.read(SH_ADDR, rsp, 4);
phonemacro	14:c8cc6d7fd5f9	689	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	690	pc.printf("Ver: %d %d %d %d\n\r", rsp[0], rsp[1], rsp[2], rsp[3]);
phonemacro	14:c8cc6d7fd5f9	691
phonemacro	14:c8cc6d7fd5f9	692	// raw1.1 sensor data
phonemacro	14:c8cc6d7fd5f9	693	cmd[0] = 0x10; cmd[1] = 0x00; cmd[2] = 0x01;
phonemacro	14:c8cc6d7fd5f9	694	pc.printf("raw sensor data only \n\r");
phonemacro	14:c8cc6d7fd5f9	695	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	14:c8cc6d7fd5f9	696	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	697	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	698	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	699	pc.printf("raw1.1 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	700	// raw1.2 interrupt threshold
phonemacro	14:c8cc6d7fd5f9	701	cmd[0] = 0x10; cmd[1] = 0x01; cmd[2] = 0x01;
phonemacro	14:c8cc6d7fd5f9	702	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	14:c8cc6d7fd5f9	703	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	704	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	705	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	706	pc.printf("raw1.2 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	707	// raw1.3 enable sh accel
phonemacro	14:c8cc6d7fd5f9	708	cmd[0] = 0x44; cmd[1] = 0x04; cmd[2] = 0x01; cmd[3] = 0x00;
phonemacro	14:c8cc6d7fd5f9	709	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	710	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	711	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	712	mfio = 1; thread_sleep_for(20); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	713	pc.printf("raw1.3 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	714	// raw1.4 enable AFE
phonemacro	14:c8cc6d7fd5f9	715	cmd[0] = 0x44; cmd[1] = 0x00; cmd[2] = 0x01; cmd[3] = 0x00;
phonemacro	14:c8cc6d7fd5f9	716	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	717	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	718	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	719	mfio = 1; thread_sleep_for(250); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	720	pc.printf("raw1.4 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	721	// raw1.5 sample rate 100 Hz, ave 1
phonemacro	14:c8cc6d7fd5f9	722	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x12; cmd[3] = 0x18; // set AFE reg 0x12 to 100 Hz
phonemacro	14:c8cc6d7fd5f9	723	// cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x12; cmd[3] = 0x20; // set AFE reg 0x12 to 200 Hz
phonemacro	14:c8cc6d7fd5f9	724	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	725	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	726	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	727	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	728	pc.printf("raw1.5 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	729	// raw1.6 LED1 current
phonemacro	14:c8cc6d7fd5f9	730	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x23; cmd[3] = 0x7F;
phonemacro	14:c8cc6d7fd5f9	731	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	732	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	733	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	734	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	735	pc.printf("raw1.6 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	736	#ifndef MAXM86146_CFG
phonemacro	14:c8cc6d7fd5f9	737	// raw1.7 LED2 current
phonemacro	14:c8cc6d7fd5f9	738	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x24; cmd[3] = 0x7F;
phonemacro	14:c8cc6d7fd5f9	739	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	740	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	741	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	742	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	743	pc.printf("raw1.7 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	744	#endif
phonemacro	14:c8cc6d7fd5f9	745	// raw1.8 LED3 current
phonemacro	14:c8cc6d7fd5f9	746	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x25; cmd[3] = 0x7F;
phonemacro	14:c8cc6d7fd5f9	747	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	748	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	749	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	750	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	751	pc.printf("raw1.8 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	752	#ifdef MAXM86146_CFG
phonemacro	14:c8cc6d7fd5f9	753	// LED5 current
phonemacro	14:c8cc6d7fd5f9	754	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x27; cmd[3] = 0x7F;
phonemacro	14:c8cc6d7fd5f9	755	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	756	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	757	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	758	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	759	pc.printf("led5 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	760	// LED6 current
phonemacro	14:c8cc6d7fd5f9	761	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x27; cmd[3] = 0x7F;
phonemacro	14:c8cc6d7fd5f9	762	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	763	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	764	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	765	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	766	pc.printf("led6 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	767
phonemacro	14:c8cc6d7fd5f9	768	// Set Seq cntrl1 LED2, LED1
phonemacro	14:c8cc6d7fd5f9	769	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x20; cmd[3] = 0x21;
phonemacro	14:c8cc6d7fd5f9	770	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	771	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	772	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	773	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	774	pc.printf("Seq cntrl1 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	775	// Set Seq cntrl2 LED4, LED3
phonemacro	14:c8cc6d7fd5f9	776	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x21; cmd[3] = 0xA3;
phonemacro	14:c8cc6d7fd5f9	777	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	778	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	779	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	780	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	781	pc.printf("Seq cntrl2 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	782	// Set Seq cntrl3 LED6, LED5
phonemacro	14:c8cc6d7fd5f9	783	cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x22; cmd[3] = 0x21;
phonemacro	14:c8cc6d7fd5f9	784	// cmd[0] = 0x40; cmd[1] = 0x00; cmd[2] = 0x22; cmd[3] = 0x99; // Ambient
phonemacro	14:c8cc6d7fd5f9	785	sh_i2c.write(SH_ADDR, cmd, 4);
phonemacro	14:c8cc6d7fd5f9	786	mfio = 1; thread_sleep_for(2); mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	787	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	14:c8cc6d7fd5f9	788	mfio = 1; mfio = 0; wait_us(300);
phonemacro	14:c8cc6d7fd5f9	789	pc.printf("Seq cntrl3 Status: %x\n\r", rsp[0]);
phonemacro	14:c8cc6d7fd5f9	790
phonemacro	14:c8cc6d7fd5f9	791	#endif
phonemacro	28:315604f4b374	792	mfio = 1;
phonemacro	28:315604f4b374	793	}
phonemacro	14:c8cc6d7fd5f9	794
phonemacro	14:c8cc6d7fd5f9	795	/*****************************************************************************/
phonemacro	14:c8cc6d7fd5f9	796	// main
phonemacro	14:c8cc6d7fd5f9	797	/*****************************************************************************/
phonemacro	10:192ea88e964b	798	int main()
phonemacro	10:192ea88e964b	799	{
phonemacro	10:192ea88e964b	800	sh_i2c.frequency(400000);
phonemacro	10:192ea88e964b	801	int32_t ledcnt = 0;
phonemacro	10:192ea88e964b	802	rLED = LED_OFF; gLED = LED_ON; bLED = LED_OFF;
phonemacro	10:192ea88e964b	803	Ticker ticker; // calls a callback repeatedly with a timeout
phonemacro	28:315604f4b374	804
phonemacro	28:315604f4b374	805	#if 0 // test disable algo
phonemacro	28:315604f4b374	806	char cmd[8];
phonemacro	28:315604f4b374	807	char rsp[256];
phonemacro	28:315604f4b374	808	// 3.1 Disable algo
phonemacro	28:315604f4b374	809	mfio = 1; mfio = 0; wait_us(300);
phonemacro	28:315604f4b374	810	cmd[0] = 0x52; cmd[1] = 0x07; cmd[2] = 0x00;
phonemacro	28:315604f4b374	811	sh_i2c.write(SH_ADDR, cmd, 3);
phonemacro	28:315604f4b374	812	thread_sleep_for(465);
phonemacro	28:315604f4b374	813	sh_i2c.read(SH_ADDR, rsp, 1);
phonemacro	28:315604f4b374	814	pc.printf("3.1 disable algo: %x\n\r", rsp[0]);
phonemacro	28:315604f4b374	815	mfio = 1;
phonemacro	28:315604f4b374	816	#endif
phonemacro	28:315604f4b374	817
phonemacro	10:192ea88e964b	818	//ticker.attach(callback(&blink_timer), BLINKING_RATE_MS); /* set timer for one second */
phonemacro	14:c8cc6d7fd5f9	819	#ifdef RAW
phonemacro	14:c8cc6d7fd5f9	820	init_sh_raw();
phonemacro	14:c8cc6d7fd5f9	821	#else
phonemacro	14:c8cc6d7fd5f9	822	init_sh_algo();
phonemacro	14:c8cc6d7fd5f9	823	#endif
phonemacro	28:315604f4b374	824	mfio = 1;
phonemacro	8:e6ae69cfecbf	825	#if defined(MAXREFDES103_CFG) \|\| defined(MAXM86161_CFG) \|\| defined(MAXM86146_CFG)
phonemacro	6:e1b7190d6cb5	826	Timer tmr1;
phonemacro	0:6f65cae31c54	827	while (1) {
phonemacro	6:e1b7190d6cb5	828	tmr1.start();
phonemacro	28:315604f4b374	829	if (tmr1.read_ms() >= 40) {
phonemacro	7:23b067817ab8	830	tmr1.reset();
phonemacro	10:192ea88e964b	831	read_sh_fifo();
phonemacro	7:23b067817ab8	832	if ((ledcnt++ % 50) == 0)
phonemacro	6:e1b7190d6cb5	833	gLED = !gLED;
phonemacro	0:6f65cae31c54	834	}
phonemacro	0:6f65cae31c54	835	}
phonemacro	6:e1b7190d6cb5	836	#else
phonemacro	6:e1b7190d6cb5	837	ticker.attach(callback(&fifo_timer), 0.040f);
phonemacro	6:e1b7190d6cb5	838	while (1) {
phonemacro	6:e1b7190d6cb5	839	if (Time_to_Read_PPG) {
phonemacro	10:192ea88e964b	840	read_sh_fifo();
phonemacro	7:23b067817ab8	841	if ((ledcnt++ % 50) == 0)
phonemacro	6:e1b7190d6cb5	842	gLED = !gLED;
phonemacro	6:e1b7190d6cb5	843	}
phonemacro	6:e1b7190d6cb5	844	}
phonemacro	6:e1b7190d6cb5	845	#endif
phonemacro	0:6f65cae31c54	846	}

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Type:	Program
Mbed OS support:	Mbed OS
Created:	01 Jun 2022
Imports:	1
Forks:	0
Commits:	67
Dependents:	0
Dependencies:	1
Followers:	1

main.cpp@28:315604f4b374, 2021-10-11 (annotated)

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