MAX30001 SYS EvKit - MAX30001-MAX32630FTHR SYS EvKit

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MAX30001-MAX32630FTHR SYS EvKit

Dependencies: USBDevice max32630fthr

Max30001 EVKIT Summary

The MAX30001 EVKIT SYS-MBED Evaluation System (EV System) is used to evaluates the MAX30001 sensor, which is an ECG (electrocardiogram), biopotential and bioimpedance analog front end solution for wearable applications. The full EV System consists of the MAX32630FTHR Development board (DEV board) and MAX30001 sensor board and the evaluation software. The EvKit features EKG, PACE, RtoR (R-peak timing), Bio-Z, and raw data logging.

The MAX30001 EVKIT SYS-MBED evaluation system is assembled, tested and contains the necessary circuitry and connections to evaluate the MAX30001 sensor.

When evaluated as an EV System, the MAX32630FTHR board provides the necessary logic rails, master clock, SPI, USB-to-Serial interfaces that are needed to evaluate the MAX30001 sensor board. MAX32630FTHR can be used as an independent development platform. Another wiki page for that platform is available here.

Communication with the DEV board is facilitated by Windows 7, Windows 8 and Windows 10 compatible software that provides a simple and intuitive graphical user interface (GUI).

HSP/main.cpp@1:4e530e89b68f, 2018-04-12 (annotated)

Committer:: Emre.Eken
Date:: Thu Apr 12 13:38:23 2018 +0300
Revision:: 1:4e530e89b68f

main.cpp path is changed

Who changed what in which revision?

User	Revision	Line number	New contents of line
Emre.Eken	1:4e530e89b68f	1	/*******************************************************************************
Emre.Eken	1:4e530e89b68f	2	* Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved.
Emre.Eken	1:4e530e89b68f	3	*
Emre.Eken	1:4e530e89b68f	4	* Permission is hereby granted, free of charge, to any person obtaining a
Emre.Eken	1:4e530e89b68f	5	* copy of this software and associated documentation files (the "Software"),
Emre.Eken	1:4e530e89b68f	6	* to deal in the Software without restriction, including without limitation
Emre.Eken	1:4e530e89b68f	7	* the rights to use, copy, modify, merge, publish, distribute, sublicense,
Emre.Eken	1:4e530e89b68f	8	* and/or sell copies of the Software, and to permit persons to whom the
Emre.Eken	1:4e530e89b68f	9	* Software is furnished to do so, subject to the following conditions:
Emre.Eken	1:4e530e89b68f	10	*
Emre.Eken	1:4e530e89b68f	11	* The above copyright notice and this permission notice shall be included
Emre.Eken	1:4e530e89b68f	12	* in all copies or substantial portions of the Software.
Emre.Eken	1:4e530e89b68f	13	*
Emre.Eken	1:4e530e89b68f	14	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
Emre.Eken	1:4e530e89b68f	15	* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
Emre.Eken	1:4e530e89b68f	16	* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
Emre.Eken	1:4e530e89b68f	17	* IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES
Emre.Eken	1:4e530e89b68f	18	* OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
Emre.Eken	1:4e530e89b68f	19	* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
Emre.Eken	1:4e530e89b68f	20	* OTHER DEALINGS IN THE SOFTWARE.
Emre.Eken	1:4e530e89b68f	21	*
Emre.Eken	1:4e530e89b68f	22	* Except as contained in this notice, the name of Maxim Integrated
Emre.Eken	1:4e530e89b68f	23	* Products, Inc. shall not be used except as stated in the Maxim Integrated
Emre.Eken	1:4e530e89b68f	24	* Products, Inc. Branding Policy.
Emre.Eken	1:4e530e89b68f	25	*
Emre.Eken	1:4e530e89b68f	26	* The mere transfer of this software does not imply any licenses
Emre.Eken	1:4e530e89b68f	27	* of trade secrets, proprietary technology, copyrights, patents,
Emre.Eken	1:4e530e89b68f	28	* trademarks, maskwork rights, or any other form of intellectual
Emre.Eken	1:4e530e89b68f	29	* property whatsoever. Maxim Integrated Products, Inc. retains all
Emre.Eken	1:4e530e89b68f	30	* ownership rights.
Emre.Eken	1:4e530e89b68f	31	*******************************************************************************
Emre.Eken	1:4e530e89b68f	32	*/
Emre.Eken	1:4e530e89b68f	33	#include "mbed.h"
Emre.Eken	1:4e530e89b68f	34	#include "max32630fthr.h"
Emre.Eken	1:4e530e89b68f	35	#include "SDBlockDevice.h"
Emre.Eken	1:4e530e89b68f	36	#include "USBSerial.h"
Emre.Eken	1:4e530e89b68f	37	#include "QuadSpiInterface.h"
Emre.Eken	1:4e530e89b68f	38	#include "S25FS512.h"
Emre.Eken	1:4e530e89b68f	39	#include "MAX30001.h"
Emre.Eken	1:4e530e89b68f	40	#include "HspLed.h"
Emre.Eken	1:4e530e89b68f	41	#include "PushButton.h"
Emre.Eken	1:4e530e89b68f	42	#include "version.h"
Emre.Eken	1:4e530e89b68f	43	#include "Peripherals.h"
Emre.Eken	1:4e530e89b68f	44	#include "Streaming.h"
Emre.Eken	1:4e530e89b68f	45	#include "RpcServer.h"
Emre.Eken	1:4e530e89b68f	46	#include "DataLoggingService.h"
Emre.Eken	1:4e530e89b68f	47	#include "StringInOut.h"
Emre.Eken	1:4e530e89b68f	48
Emre.Eken	1:4e530e89b68f	49	//Init PMIC on FTHR board and set logic thresholds to 3.3V
Emre.Eken	1:4e530e89b68f	50	MAX32630FTHR pegasus(MAX32630FTHR::VIO_3V3);
Emre.Eken	1:4e530e89b68f	51
Emre.Eken	1:4e530e89b68f	52	SDBlockDevice sd(P0_5, P0_6, P0_4, P0_7); //mosi, miso, sclk, cs
Emre.Eken	1:4e530e89b68f	53
Emre.Eken	1:4e530e89b68f	54	///
Emre.Eken	1:4e530e89b68f	55	/// wire Interfaces
Emre.Eken	1:4e530e89b68f	56	///
Emre.Eken	1:4e530e89b68f	57	/// Define with Maxim VID and a Maxim assigned PID, set to version 0x0001 and non-blocking
Emre.Eken	1:4e530e89b68f	58	USBSerial usbSerial(0x0b6a, 0x7531, 0x0001, false);
Emre.Eken	1:4e530e89b68f	59
Emre.Eken	1:4e530e89b68f	60	//SD card insertion detection pin
Emre.Eken	1:4e530e89b68f	61	DigitalIn SDDetect(P2_2, PullUp);
Emre.Eken	1:4e530e89b68f	62
Emre.Eken	1:4e530e89b68f	63	/// DigitalOut for CS
Emre.Eken	1:4e530e89b68f	64	DigitalOut cs(P5_6);
Emre.Eken	1:4e530e89b68f	65
Emre.Eken	1:4e530e89b68f	66	/// SPI Master 2 with SPI0_SS for use with MAX30001
Emre.Eken	1:4e530e89b68f	67	SPI spi(SPI2_MOSI, SPI2_MISO, SPI2_SCK); // used by MAX30001
Emre.Eken	1:4e530e89b68f	68
Emre.Eken	1:4e530e89b68f	69	QuadSpiInterface quadSpiInterface(SPI1_MOSI, SPI1_MISO, SPI1_SCK,SPI1_SS); // used by S25FS512
Emre.Eken	1:4e530e89b68f	70
Emre.Eken	1:4e530e89b68f	71	///Debug port
Emre.Eken	1:4e530e89b68f	72	Serial Debug(USBTX, USBRX);
Emre.Eken	1:4e530e89b68f	73
Emre.Eken	1:4e530e89b68f	74	///
Emre.Eken	1:4e530e89b68f	75	/// Devices
Emre.Eken	1:4e530e89b68f	76	///
Emre.Eken	1:4e530e89b68f	77
Emre.Eken	1:4e530e89b68f	78	/// External Flash
Emre.Eken	1:4e530e89b68f	79	S25FS512 s25fs512(&quadSpiInterface);
Emre.Eken	1:4e530e89b68f	80
Emre.Eken	1:4e530e89b68f	81	/// ECG device
Emre.Eken	1:4e530e89b68f	82	MAX30001 max30001(&spi, &cs);
Emre.Eken	1:4e530e89b68f	83
Emre.Eken	1:4e530e89b68f	84	InterruptIn max30001_InterruptB(P5_5);
Emre.Eken	1:4e530e89b68f	85	InterruptIn max30001_Interrupt2B(P5_4);
Emre.Eken	1:4e530e89b68f	86
Emre.Eken	1:4e530e89b68f	87	/// HSP platform LED
Emre.Eken	1:4e530e89b68f	88	HspLed hspLed(LED_RED);
Emre.Eken	1:4e530e89b68f	89
Emre.Eken	1:4e530e89b68f	90	/// Packet TimeStamp Timer, set for 1uS
Emre.Eken	1:4e530e89b68f	91	Timer timestampTimer;
Emre.Eken	1:4e530e89b68f	92
Emre.Eken	1:4e530e89b68f	93	/// HSP Platform push button
Emre.Eken	1:4e530e89b68f	94	PushButton pushButton(SW1);
Emre.Eken	1:4e530e89b68f	95
Emre.Eken	1:4e530e89b68f	96	int main()
Emre.Eken	1:4e530e89b68f	97	{
Emre.Eken	1:4e530e89b68f	98	//boost baudrate so we can get messages while running gui
Emre.Eken	1:4e530e89b68f	99	Debug.baud(115200);
Emre.Eken	1:4e530e89b68f	100
Emre.Eken	1:4e530e89b68f	101	// local input state of the RPC
Emre.Eken	1:4e530e89b68f	102	int inputState;
Emre.Eken	1:4e530e89b68f	103	// RPC request buffer
Emre.Eken	1:4e530e89b68f	104	char request[128];
Emre.Eken	1:4e530e89b68f	105	// RPC reply buffer
Emre.Eken	1:4e530e89b68f	106	char reply[128];
Emre.Eken	1:4e530e89b68f	107
Emre.Eken	1:4e530e89b68f	108	// display start banner
Emre.Eken	1:4e530e89b68f	109	Debug.printf("Maxim Integrated mbed hSensor %d.%d.%d %02d/%02d/%02d\n",
Emre.Eken	1:4e530e89b68f	110	VERSION_MAJOR, VERSION_MINOR, VERSION_PATCH,
Emre.Eken	1:4e530e89b68f	111	VERSION_MONTH, VERSION_DAY, VERSION_SHORT_YEAR);
Emre.Eken	1:4e530e89b68f	112	fflush(stdout);
Emre.Eken	1:4e530e89b68f	113
Emre.Eken	1:4e530e89b68f	114	// turn on red led
Emre.Eken	1:4e530e89b68f	115	Debug.printf("Init HSPLED...\n");
Emre.Eken	1:4e530e89b68f	116	fflush(stdout);
Emre.Eken	1:4e530e89b68f	117	hspLed.on();
Emre.Eken	1:4e530e89b68f	118
Emre.Eken	1:4e530e89b68f	119	// set NVIC priorities for GPIO to prevent priority inversion
Emre.Eken	1:4e530e89b68f	120	Debug.printf("Init NVIC Priorities...\n");
Emre.Eken	1:4e530e89b68f	121	fflush(stdout);
Emre.Eken	1:4e530e89b68f	122	NVIC_SetPriority(GPIO_P0_IRQn, 5);
Emre.Eken	1:4e530e89b68f	123	NVIC_SetPriority(GPIO_P1_IRQn, 5);
Emre.Eken	1:4e530e89b68f	124	NVIC_SetPriority(GPIO_P2_IRQn, 5);
Emre.Eken	1:4e530e89b68f	125	NVIC_SetPriority(GPIO_P3_IRQn, 5);
Emre.Eken	1:4e530e89b68f	126	NVIC_SetPriority(GPIO_P4_IRQn, 5);
Emre.Eken	1:4e530e89b68f	127	NVIC_SetPriority(GPIO_P5_IRQn, 5);
Emre.Eken	1:4e530e89b68f	128	NVIC_SetPriority(GPIO_P6_IRQn, 5);
Emre.Eken	1:4e530e89b68f	129	// used by the MAX30001
Emre.Eken	1:4e530e89b68f	130	NVIC_SetPriority(SPIM2_IRQn, 0);
Emre.Eken	1:4e530e89b68f	131
Emre.Eken	1:4e530e89b68f	132	// Be able to statically reference these devices anywhere in the application
Emre.Eken	1:4e530e89b68f	133	Peripherals::setS25FS512(&s25fs512);
Emre.Eken	1:4e530e89b68f	134	Peripherals::setUSBSerial(&usbSerial);
Emre.Eken	1:4e530e89b68f	135	Peripherals::setTimestampTimer(&timestampTimer);
Emre.Eken	1:4e530e89b68f	136	Peripherals::setHspLed(&hspLed);
Emre.Eken	1:4e530e89b68f	137	Peripherals::setPushButton(&pushButton);
Emre.Eken	1:4e530e89b68f	138	Peripherals::setMAX30001(&max30001);
Emre.Eken	1:4e530e89b68f	139	Peripherals::setSdFS(&sd);
Emre.Eken	1:4e530e89b68f	140	Peripherals::setSDDetect(&SDDetect);
Emre.Eken	1:4e530e89b68f	141
Emre.Eken	1:4e530e89b68f	142	// init the S25FS256 external flash device
Emre.Eken	1:4e530e89b68f	143	Debug.printf("Init S25FS512...\n");
Emre.Eken	1:4e530e89b68f	144	fflush(stdout);
Emre.Eken	1:4e530e89b68f	145	s25fs512.init();
Emre.Eken	1:4e530e89b68f	146
Emre.Eken	1:4e530e89b68f	147	// start blinking led1
Emre.Eken	1:4e530e89b68f	148	Debug.printf("Init HSPLED Blink...\n");
Emre.Eken	1:4e530e89b68f	149	fflush(stdout);
Emre.Eken	1:4e530e89b68f	150	hspLed.blink(1000);
Emre.Eken	1:4e530e89b68f	151
Emre.Eken	1:4e530e89b68f	152	//
Emre.Eken	1:4e530e89b68f	153	// MAX30001
Emre.Eken	1:4e530e89b68f	154	//
Emre.Eken	1:4e530e89b68f	155	Debug.printf("Init MAX30001 callbacks, interrupts...\n");
Emre.Eken	1:4e530e89b68f	156	fflush(stdout);
Emre.Eken	1:4e530e89b68f	157	max30001_InterruptB.disable_irq();
Emre.Eken	1:4e530e89b68f	158	max30001_Interrupt2B.disable_irq();
Emre.Eken	1:4e530e89b68f	159	max30001_InterruptB.mode(PullUp);
Emre.Eken	1:4e530e89b68f	160	max30001_InterruptB.fall(&MAX30001Mid_IntB_Handler);
Emre.Eken	1:4e530e89b68f	161	max30001_Interrupt2B.mode(PullUp);
Emre.Eken	1:4e530e89b68f	162	max30001_Interrupt2B.fall(&MAX30001Mid_Int2B_Handler);
Emre.Eken	1:4e530e89b68f	163	max30001_InterruptB.enable_irq();
Emre.Eken	1:4e530e89b68f	164	max30001_Interrupt2B.enable_irq();
Emre.Eken	1:4e530e89b68f	165	MAX30001_AllowInterrupts(1);
Emre.Eken	1:4e530e89b68f	166	max30001.max30001_sw_rst(); // Do a software reset of the MAX30001
Emre.Eken	1:4e530e89b68f	167	max30001.max30001_INT_assignment(MAX30001::MAX30001_INT_B, MAX30001::MAX30001_NO_INT, MAX30001::MAX30001_NO_INT, // en_enint_loc, en_eovf_loc, en_fstint_loc,
Emre.Eken	1:4e530e89b68f	168	MAX30001::MAX30001_INT_2B, MAX30001::MAX30001_INT_2B, MAX30001::MAX30001_NO_INT, // en_dcloffint_loc, en_bint_loc, en_bovf_loc,
Emre.Eken	1:4e530e89b68f	169	MAX30001::MAX30001_INT_2B, MAX30001::MAX30001_INT_2B, MAX30001::MAX30001_NO_INT, // en_bover_loc, en_bundr_loc, en_bcgmon_loc,
Emre.Eken	1:4e530e89b68f	170	MAX30001::MAX30001_INT_B, MAX30001::MAX30001_NO_INT, MAX30001::MAX30001_NO_INT, // en_pint_loc, en_povf_loc, en_pedge_loc,
Emre.Eken	1:4e530e89b68f	171	MAX30001::MAX30001_INT_2B, MAX30001::MAX30001_INT_B, MAX30001::MAX30001_NO_INT, // en_lonint_loc, en_rrint_loc, en_samp_loc,
Emre.Eken	1:4e530e89b68f	172	MAX30001::MAX30001_INT_ODNR, MAX30001::MAX30001_INT_ODNR); // intb_Type, int2b_Type)
Emre.Eken	1:4e530e89b68f	173	max30001.onDataAvailable(&StreamPacketUint32);
Emre.Eken	1:4e530e89b68f	174
Emre.Eken	1:4e530e89b68f	175	// initialize the RPC server
Emre.Eken	1:4e530e89b68f	176	Debug.printf("Init RPC Server...\n");
Emre.Eken	1:4e530e89b68f	177	fflush(stdout);
Emre.Eken	1:4e530e89b68f	178	RPC_init();
Emre.Eken	1:4e530e89b68f	179
Emre.Eken	1:4e530e89b68f	180	// initialize the logging service
Emre.Eken	1:4e530e89b68f	181	Debug.printf("Init LoggingService...\n");
Emre.Eken	1:4e530e89b68f	182	fflush(stdout);
Emre.Eken	1:4e530e89b68f	183	LoggingService_Init();
Emre.Eken	1:4e530e89b68f	184
Emre.Eken	1:4e530e89b68f	185	// initialize the SD disk
Emre.Eken	1:4e530e89b68f	186	sd.init();
Emre.Eken	1:4e530e89b68f	187
Emre.Eken	1:4e530e89b68f	188	// start main loop
Emre.Eken	1:4e530e89b68f	189	Debug.printf("Start main loop...\n");
Emre.Eken	1:4e530e89b68f	190	fflush(stdout);
Emre.Eken	1:4e530e89b68f	191
Emre.Eken	1:4e530e89b68f	192	while(1)
Emre.Eken	1:4e530e89b68f	193	{
Emre.Eken	1:4e530e89b68f	194	// get a RPC string if one is available
Emre.Eken	1:4e530e89b68f	195	inputState = getLine(request, sizeof(request));
Emre.Eken	1:4e530e89b68f	196	// if a string has been captured, process string
Emre.Eken	1:4e530e89b68f	197	if (inputState == GETLINE_DONE)
Emre.Eken	1:4e530e89b68f	198	{
Emre.Eken	1:4e530e89b68f	199	//Send request to debug port
Emre.Eken	1:4e530e89b68f	200	Debug.printf(request);
Emre.Eken	1:4e530e89b68f	201	// process the RPC string
Emre.Eken	1:4e530e89b68f	202	RPC_call(request, reply);
Emre.Eken	1:4e530e89b68f	203	//Send reply to debug port
Emre.Eken	1:4e530e89b68f	204	Debug.printf(reply);
Emre.Eken	1:4e530e89b68f	205	// output the reply
Emre.Eken	1:4e530e89b68f	206	putStr(reply);
Emre.Eken	1:4e530e89b68f	207	}
Emre.Eken	1:4e530e89b68f	208
Emre.Eken	1:4e530e89b68f	209	// process any logging or streaming requests
Emre.Eken	1:4e530e89b68f	210	LoggingService_ServiceRoutine();
Emre.Eken	1:4e530e89b68f	211	}
Emre.Eken	1:4e530e89b68f	212	}