Motor_Ble_v1201820223FINAL - 20180223FINAL

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NEHSROBOT / Mbed 2 deprecated Motor_Ble_v1201820223FINAL

20180223FINAL

Dependencies: BLE_API X_NUCLEO_IDB0XA1 X_NUCLEO_IHM02A1 mbed

Fork of Motor_Ble_v10223 by NEHSROBOT

main.cpp@12:407779f755d0, 2018-02-23 (annotated)

Committer:: yong304
Date:: Fri Feb 23 08:52:13 2018 +0000
Revision:: 12:407779f755d0
Parent:: 11:6deabd374c96

20180223FINAL

Who changed what in which revision?

User	Revision	Line number	New contents of line
apalmieri	0:aae2d6c2a9eb	1	/* mbed Microcontroller Library
apalmieri	0:aae2d6c2a9eb	2	* Copyright (c) 2006-2013 ARM Limited
apalmieri	0:aae2d6c2a9eb	3	*
apalmieri	0:aae2d6c2a9eb	4	* Licensed under the Apache License, Version 2.0 (the "License");
apalmieri	0:aae2d6c2a9eb	5	* you may not use this file except in compliance with the License.
apalmieri	0:aae2d6c2a9eb	6	* You may obtain a copy of the License at
apalmieri	0:aae2d6c2a9eb	7	*
apalmieri	0:aae2d6c2a9eb	8	* http://www.apache.org/licenses/LICENSE-2.0
apalmieri	0:aae2d6c2a9eb	9	*
apalmieri	0:aae2d6c2a9eb	10	* Unless required by applicable law or agreed to in writing, software
apalmieri	0:aae2d6c2a9eb	11	* distributed under the License is distributed on an "AS IS" BASIS,
apalmieri	0:aae2d6c2a9eb	12	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
apalmieri	0:aae2d6c2a9eb	13	* See the License for the specific language governing permissions and
apalmieri	0:aae2d6c2a9eb	14	* limitations under the License.
apalmieri	0:aae2d6c2a9eb	15	*/
barry210110	7:126b141a8c86	16
barry210110	7:126b141a8c86	17	/* Includes ------------------------------------------------------------------*/
barry210110	7:126b141a8c86	18
barry210110	7:126b141a8c86	19
yong304	10:21eecb227c05	20
barry210110	7:126b141a8c86	21	/* Helper header files. */
barry210110	7:126b141a8c86	22	#include "DevSPI.h"
yong304	10:21eecb227c05	23	void FWD();
yong304	10:21eecb227c05	24	void BWD();
yong304	10:21eecb227c05	25	void LEFT();
yong304	10:21eecb227c05	26	void RIGHT();
yong304	11:6deabd374c96	27	void SOFTSTOP();
barry210110	7:126b141a8c86	28	/* Expansion Board specific header files. */
barry210110	7:126b141a8c86	29	#include "XNucleoIHM02A1.h"
apalmieri	0:aae2d6c2a9eb	30
apalmieri	0:aae2d6c2a9eb	31	#include "mbed.h"
apalmieri	0:aae2d6c2a9eb	32	#include "ble/BLE.h"
apalmieri	0:aae2d6c2a9eb	33	#include "LEDService.h"
yong304	10:21eecb227c05	34
barry210110	9:ef9b37e2464f	35
barry210110	7:126b141a8c86	36	/* Definitions ---------------------------------------------------------------*/
apalmieri	0:aae2d6c2a9eb	37
barry210110	7:126b141a8c86	38	/* Number of movements per revolution. */
barry210110	7:126b141a8c86	39	#define MPR_1 4
barry210110	7:126b141a8c86	40
barry210110	7:126b141a8c86	41	/* Number of steps. */
barry210110	7:126b141a8c86	42	#define STEPS_1 (400 * 128) /* 1 revolution given a 400 steps motor configured at 1/128 microstep mode. */
barry210110	7:126b141a8c86	43	#define STEPS_2 (STEPS_1 * 2)
barry210110	7:126b141a8c86	44
barry210110	7:126b141a8c86	45	/* Delay in milliseconds. */
barry210110	7:126b141a8c86	46	#define DELAY_1 1000
barry210110	7:126b141a8c86	47	#define DELAY_2 2000
barry210110	7:126b141a8c86	48	#define DELAY_3 5000
barry210110	7:126b141a8c86	49
barry210110	9:ef9b37e2464f	50	#ifdef TARGET_STM32F401
barry210110	9:ef9b37e2464f	51	DevSPI dev_spi(PB_15, PB_14, PB_13);
barry210110	9:ef9b37e2464f	52	#else
barry210110	9:ef9b37e2464f	53	DevSPI dev_spi(PB_15, PB_14, PB_13);
barry210110	9:ef9b37e2464f	54	#endif
yong304	10:21eecb227c05	55
barry210110	7:126b141a8c86	56	/* Variables -----------------------------------------------------------------*/
barry210110	7:126b141a8c86	57
barry210110	7:126b141a8c86	58	/* Initialization parameters of the motors connected to the expansion board. */
barry210110	7:126b141a8c86	59	L6470_init_t init[L6470DAISYCHAINSIZE] = {
barry210110	7:126b141a8c86	60	/* First Motor. */
barry210110	7:126b141a8c86	61	{
barry210110	7:126b141a8c86	62	9.0, /* Motor supply voltage in V. */
barry210110	7:126b141a8c86	63	400, /* Min number of steps per revolution for the motor. */
barry210110	7:126b141a8c86	64	1.7, /* Max motor phase voltage in A. */
barry210110	7:126b141a8c86	65	3.06, /* Max motor phase voltage in V. */
barry210110	7:126b141a8c86	66	300.0, /* Motor initial speed [step/s]. */
barry210110	7:126b141a8c86	67	500.0, /* Motor acceleration [step/s^2] (comment for infinite acceleration mode). */
barry210110	7:126b141a8c86	68	500.0, /* Motor deceleration [step/s^2] (comment for infinite deceleration mode). */
barry210110	7:126b141a8c86	69	992.0, /* Motor maximum speed [step/s]. */
barry210110	7:126b141a8c86	70	0.0, /* Motor minimum speed [step/s]. */
barry210110	7:126b141a8c86	71	602.7, /* Motor full-step speed threshold [step/s]. */
barry210110	7:126b141a8c86	72	3.06, /* Holding kval [V]. */
barry210110	7:126b141a8c86	73	3.06, /* Constant speed kval [V]. */
barry210110	7:126b141a8c86	74	3.06, /* Acceleration starting kval [V]. */
barry210110	7:126b141a8c86	75	3.06, /* Deceleration starting kval [V]. */
barry210110	7:126b141a8c86	76	61.52, /* Intersect speed for bemf compensation curve slope changing [step/s]. */
barry210110	7:126b141a8c86	77	392.1569e-6, /* Start slope [s/step]. */
barry210110	7:126b141a8c86	78	643.1372e-6, /* Acceleration final slope [s/step]. */
barry210110	7:126b141a8c86	79	643.1372e-6, /* Deceleration final slope [s/step]. */
barry210110	7:126b141a8c86	80	0, /* Thermal compensation factor (range [0, 15]). */
barry210110	7:126b141a8c86	81	3.06 * 1000 * 1.10, /* Ocd threshold [ma] (range [375 ma, 6000 ma]). */
barry210110	7:126b141a8c86	82	3.06 * 1000 * 1.00, /* Stall threshold [ma] (range [31.25 ma, 4000 ma]). */
barry210110	7:126b141a8c86	83	StepperMotor::STEP_MODE_1_128, /* Step mode selection. */
barry210110	7:126b141a8c86	84	0xFF, /* Alarm conditions enable. */
barry210110	7:126b141a8c86	85	0x2E88 /* Ic configuration. */
barry210110	7:126b141a8c86	86	},
barry210110	7:126b141a8c86	87
barry210110	7:126b141a8c86	88	/* Second Motor. */
barry210110	7:126b141a8c86	89	{
barry210110	7:126b141a8c86	90	9.0, /* Motor supply voltage in V. */
barry210110	7:126b141a8c86	91	400, /* Min number of steps per revolution for the motor. */
barry210110	7:126b141a8c86	92	1.7, /* Max motor phase voltage in A. */
barry210110	7:126b141a8c86	93	3.06, /* Max motor phase voltage in V. */
barry210110	7:126b141a8c86	94	300.0, /* Motor initial speed [step/s]. */
barry210110	7:126b141a8c86	95	500.0, /* Motor acceleration [step/s^2] (comment for infinite acceleration mode). */
barry210110	7:126b141a8c86	96	500.0, /* Motor deceleration [step/s^2] (comment for infinite deceleration mode). */
barry210110	7:126b141a8c86	97	992.0, /* Motor maximum speed [step/s]. */
barry210110	7:126b141a8c86	98	0.0, /* Motor minimum speed [step/s]. */
barry210110	7:126b141a8c86	99	602.7, /* Motor full-step speed threshold [step/s]. */
barry210110	7:126b141a8c86	100	3.06, /* Holding kval [V]. */
barry210110	7:126b141a8c86	101	3.06, /* Constant speed kval [V]. */
barry210110	7:126b141a8c86	102	3.06, /* Acceleration starting kval [V]. */
barry210110	7:126b141a8c86	103	3.06, /* Deceleration starting kval [V]. */
barry210110	7:126b141a8c86	104	61.52, /* Intersect speed for bemf compensation curve slope changing [step/s]. */
barry210110	7:126b141a8c86	105	392.1569e-6, /* Start slope [s/step]. */
barry210110	7:126b141a8c86	106	643.1372e-6, /* Acceleration final slope [s/step]. */
barry210110	7:126b141a8c86	107	643.1372e-6, /* Deceleration final slope [s/step]. */
barry210110	7:126b141a8c86	108	0, /* Thermal compensation factor (range [0, 15]). */
barry210110	7:126b141a8c86	109	3.06 * 1000 * 1.10, /* Ocd threshold [ma] (range [375 ma, 6000 ma]). */
barry210110	7:126b141a8c86	110	3.06 * 1000 * 1.00, /* Stall threshold [ma] (range [31.25 ma, 4000 ma]). */
barry210110	7:126b141a8c86	111	StepperMotor::STEP_MODE_1_128, /* Step mode selection. */
barry210110	7:126b141a8c86	112	0xFF, /* Alarm conditions enable. */
barry210110	7:126b141a8c86	113	0x2E88 /* Ic configuration. */
barry210110	7:126b141a8c86	114	}
barry210110	7:126b141a8c86	115	};
barry210110	7:126b141a8c86	116
yong304	10:21eecb227c05	117
yong304	10:21eecb227c05	118	/* Motor Control Expansion Board. */
yong304	12:407779f755d0	119	XNucleoIHM02A1* x_nucleo_ihm02a1 = new XNucleoIHM02A1(&init[0], &init[1], A4, A5, D4, A2, &dev_spi);
barry210110	9:ef9b37e2464f	120
barry210110	7:126b141a8c86	121	DigitalOut actuatedLED(LED2);
barry210110	7:126b141a8c86	122	const static char DEVICE_NAME[] = "mydevice"; // CHANGE NAME
barry210110	7:126b141a8c86	123	static const uint16_t uuid16_list[] = {LEDService::LED_SERVICE_UUID}; // GATT ATTRIBUTE UUID
apalmieri	0:aae2d6c2a9eb	124
apalmieri	0:aae2d6c2a9eb	125	LEDService *ledServicePtr;
apalmieri	0:aae2d6c2a9eb	126
apalmieri	0:aae2d6c2a9eb	127	void disconnectionCallback(const Gap::DisconnectionCallbackParams_t *params)
apalmieri	0:aae2d6c2a9eb	128	{
apalmieri	0:aae2d6c2a9eb	129	(void)params;
apalmieri	3:e0efdb741bd4	130	BLE::Instance().gap().startAdvertising(); // restart advertising
apalmieri	0:aae2d6c2a9eb	131	}
apalmieri	0:aae2d6c2a9eb	132
apalmieri	0:aae2d6c2a9eb	133	/**
apalmieri	0:aae2d6c2a9eb	134	* This callback allows the LEDService to receive updates to the ledState Characteristic.
apalmieri	0:aae2d6c2a9eb	135	*
apalmieri	0:aae2d6c2a9eb	136	* @param[in] params
apalmieri	0:aae2d6c2a9eb	137	* Information about the characterisitc being updated.
apalmieri	0:aae2d6c2a9eb	138	*/
apalmieri	0:aae2d6c2a9eb	139	void onDataWrittenCallback(const GattWriteCallbackParams *params) {
apalmieri	0:aae2d6c2a9eb	140	if ((params->handle == ledServicePtr->getValueHandle()) && (params->len == 1)) {
yong304	10:21eecb227c05	141
yong304	11:6deabd374c96	142	if ( *(params->data)== 0x41 )
barry210110	7:126b141a8c86	143	{
barry210110	7:126b141a8c86	144	actuatedLED=1 ;
yong304	11:6deabd374c96	145	FWD();
yong304	11:6deabd374c96	146	}
yong304	11:6deabd374c96	147	else if (*(params->data)== 0x42)
yong304	11:6deabd374c96	148	{
yong304	12:407779f755d0	149	actuatedLED=1 ;
yong304	12:407779f755d0	150	BWD();
yong304	11:6deabd374c96	151
yong304	11:6deabd374c96	152	}
yong304	11:6deabd374c96	153	else if (*(params->data)== 0x43)
yong304	11:6deabd374c96	154	{
barry210110	7:126b141a8c86	155	actuatedLED=1 ;
yong304	12:407779f755d0	156	RIGHT();
yong304	11:6deabd374c96	157
yong304	11:6deabd374c96	158	}
yong304	11:6deabd374c96	159	else if (*(params->data)== 0x44)
yong304	11:6deabd374c96	160	{
yong304	10:21eecb227c05	161	actuatedLED=1 ;
yong304	10:21eecb227c05	162	LEFT();
yong304	10:21eecb227c05	163	}
yong304	12:407779f755d0	164	else if (*(params->data)== 0x45)
yong304	12:407779f755d0	165	{
yong304	12:407779f755d0	166	actuatedLED=0 ;
yong304	12:407779f755d0	167	SOFTSTOP();
yong304	12:407779f755d0	168	}
yong304	12:407779f755d0	169
yong304	10:21eecb227c05	170
barry210110	7:126b141a8c86	171
apalmieri	0:aae2d6c2a9eb	172	}
barry210110	7:126b141a8c86	173
apalmieri	0:aae2d6c2a9eb	174	}
apalmieri	0:aae2d6c2a9eb	175
apalmieri	0:aae2d6c2a9eb	176	/**
apalmieri	0:aae2d6c2a9eb	177	* This function is called when the ble initialization process has failled
apalmieri	0:aae2d6c2a9eb	178	*/
barry210110	7:126b141a8c86	179	int onBleInitError(BLE &ble, ble_error_t error)
apalmieri	0:aae2d6c2a9eb	180	{
apalmieri	0:aae2d6c2a9eb	181	/* Initialization error handling should go here */
apalmieri	0:aae2d6c2a9eb	182	}
apalmieri	0:aae2d6c2a9eb	183
apalmieri	0:aae2d6c2a9eb	184	/**
apalmieri	0:aae2d6c2a9eb	185	* Callback triggered when the ble initialization process has finished
apalmieri	0:aae2d6c2a9eb	186	*/
apalmieri	0:aae2d6c2a9eb	187	void bleInitComplete(BLE::InitializationCompleteCallbackContext *params)
apalmieri	0:aae2d6c2a9eb	188	{
apalmieri	0:aae2d6c2a9eb	189	BLE& ble = params->ble;
apalmieri	0:aae2d6c2a9eb	190	ble_error_t error = params->error;
apalmieri	0:aae2d6c2a9eb	191
apalmieri	0:aae2d6c2a9eb	192	if (error != BLE_ERROR_NONE) {
apalmieri	0:aae2d6c2a9eb	193	/* In case of error, forward the error handling to onBleInitError */
apalmieri	0:aae2d6c2a9eb	194	onBleInitError(ble, error);
yong304	10:21eecb227c05	195	return;
apalmieri	0:aae2d6c2a9eb	196	}
apalmieri	0:aae2d6c2a9eb	197
apalmieri	0:aae2d6c2a9eb	198	/* Ensure that it is the default instance of BLE */
apalmieri	0:aae2d6c2a9eb	199	if(ble.getInstanceID() != BLE::DEFAULT_INSTANCE) {
apalmieri	0:aae2d6c2a9eb	200	return;
apalmieri	0:aae2d6c2a9eb	201	}
apalmieri	0:aae2d6c2a9eb	202
apalmieri	0:aae2d6c2a9eb	203	ble.gap().onDisconnection(disconnectionCallback);
apalmieri	0:aae2d6c2a9eb	204	ble.gattServer().onDataWritten(onDataWrittenCallback);
apalmieri	0:aae2d6c2a9eb	205
apalmieri	0:aae2d6c2a9eb	206	bool initialValueForLEDCharacteristic = true;
apalmieri	3:e0efdb741bd4	207	ledServicePtr = new LEDService(ble, initialValueForLEDCharacteristic);
apalmieri	0:aae2d6c2a9eb	208
apalmieri	0:aae2d6c2a9eb	209	/* setup advertising */
apalmieri	0:aae2d6c2a9eb	210	ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED \| GapAdvertisingData::LE_GENERAL_DISCOVERABLE);
apalmieri	0:aae2d6c2a9eb	211	ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_16BIT_SERVICE_IDS, (uint8_t *)uuid16_list, sizeof(uuid16_list));
apalmieri	0:aae2d6c2a9eb	212	ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LOCAL_NAME, (uint8_t *)DEVICE_NAME, sizeof(DEVICE_NAME));
apalmieri	0:aae2d6c2a9eb	213	ble.gap().setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
apalmieri	0:aae2d6c2a9eb	214	ble.gap().setAdvertisingInterval(1000); /* 1000ms. */
apalmieri	0:aae2d6c2a9eb	215	ble.gap().startAdvertising();
barry210110	7:126b141a8c86	216
apalmieri	0:aae2d6c2a9eb	217	while (true) {
apalmieri	0:aae2d6c2a9eb	218	ble.waitForEvent();
apalmieri	0:aae2d6c2a9eb	219	}
apalmieri	0:aae2d6c2a9eb	220	}
apalmieri	0:aae2d6c2a9eb	221
apalmieri	0:aae2d6c2a9eb	222	int main(void)
barry210110	7:126b141a8c86	223	{
barry210110	7:126b141a8c86	224
apalmieri	0:aae2d6c2a9eb	225	BLE &ble = BLE::Instance();
apalmieri	0:aae2d6c2a9eb	226
barry210110	7:126b141a8c86	227	ble.init(bleInitComplete);
barry210110	7:126b141a8c86	228
apalmieri	0:aae2d6c2a9eb	229	}
yong304	10:21eecb227c05	230
yong304	10:21eecb227c05	231	void FWD()
yong304	10:21eecb227c05	232	{
barry210110	9:ef9b37e2464f	233
barry210110	7:126b141a8c86	234	/* Building a list of motor control components. */
barry210110	7:126b141a8c86	235	L6470 **motors = x_nucleo_ihm02a1->get_components();
yong304	11:6deabd374c96	236	//otors[0]->set_home();
yong304	10:21eecb227c05	237
yong304	10:21eecb227c05	238	/* Getting the current position. */
yong304	11:6deabd374c96	239	//t position = motors[0]->get_position();
yong304	10:21eecb227c05	240
yong304	11:6deabd374c96	241	/* Preparing each motor to perform a run at a specified speed. */
yong304	10:21eecb227c05	242	for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
yong304	11:6deabd374c96	243	motors[m]->prepare_run(StepperMotor::FWD, 400);
yong304	10:21eecb227c05	244	}
yong304	10:21eecb227c05	245
yong304	10:21eecb227c05	246	/* Performing the action on each motor at the same time. */
yong304	10:21eecb227c05	247	x_nucleo_ihm02a1->perform_prepared_actions();
yong304	10:21eecb227c05	248
yong304	10:21eecb227c05	249	/* Waiting while active. */
yong304	10:21eecb227c05	250	motors[0]->wait_while_active();
yong304	11:6deabd374c96	251	motors[1]->wait_while_active();
yong304	10:21eecb227c05	252	}
yong304	10:21eecb227c05	253
yong304	10:21eecb227c05	254	void BWD()
yong304	10:21eecb227c05	255	{
yong304	10:21eecb227c05	256
yong304	10:21eecb227c05	257	/* Building a list of motor control components. */
yong304	10:21eecb227c05	258	L6470 **motors = x_nucleo_ihm02a1->get_components();
yong304	11:6deabd374c96	259	// motors[0]->set_home();
barry210110	7:126b141a8c86	260
barry210110	7:126b141a8c86	261	/* Getting the current position. */
yong304	11:6deabd374c96	262	// int position = motors[0]->get_position();
barry210110	7:126b141a8c86	263
yong304	12:407779f755d0	264	/* Preparing each motor to perform a run at a specified speed. */
yong304	10:21eecb227c05	265	for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
yong304	12:407779f755d0	266	motors[m]->prepare_run(StepperMotor::BWD, 400);
yong304	10:21eecb227c05	267	}
yong304	10:21eecb227c05	268
yong304	10:21eecb227c05	269	/* Performing the action on each motor at the same time. */
yong304	10:21eecb227c05	270	x_nucleo_ihm02a1->perform_prepared_actions();
yong304	10:21eecb227c05	271
yong304	10:21eecb227c05	272	/* Waiting while active. */
yong304	10:21eecb227c05	273	motors[0]->wait_while_active();
yong304	11:6deabd374c96	274	motors[1]->wait_while_active();
yong304	10:21eecb227c05	275	}
yong304	10:21eecb227c05	276	void LEFT()
yong304	10:21eecb227c05	277	{
yong304	10:21eecb227c05	278
yong304	10:21eecb227c05	279	/* Building a list of motor control components. */
yong304	10:21eecb227c05	280	L6470 **motors = x_nucleo_ihm02a1->get_components();
yong304	11:6deabd374c96	281	// motors[0]->set_home();
yong304	10:21eecb227c05	282
yong304	10:21eecb227c05	283	/* Getting the current position. */
yong304	11:6deabd374c96	284	// int position = motors[0]->get_position();
yong304	10:21eecb227c05	285
yong304	10:21eecb227c05	286	/* Preparing each motor to perform a run at a specified speed. */
yong304	12:407779f755d0	287	motors[0]->prepare_run(StepperMotor::FWD, 400);
yong304	12:407779f755d0	288	motors[1]->prepare_run(StepperMotor::BWD, 400);
barry210110	7:126b141a8c86	289
yong304	10:21eecb227c05	290	/* Performing the action on each motor at the same time. */
yong304	10:21eecb227c05	291	x_nucleo_ihm02a1->perform_prepared_actions();
barry210110	7:126b141a8c86	292
yong304	10:21eecb227c05	293	/* Waiting while active. */
yong304	10:21eecb227c05	294	motors[0]->wait_while_active();
yong304	11:6deabd374c96	295	motors[1]->wait_while_active();
yong304	10:21eecb227c05	296	}
yong304	10:21eecb227c05	297	void RIGHT()
yong304	10:21eecb227c05	298	{
yong304	10:21eecb227c05	299
yong304	10:21eecb227c05	300	/* Building a list of motor control components. */
yong304	10:21eecb227c05	301	L6470 **motors = x_nucleo_ihm02a1->get_components();
yong304	11:6deabd374c96	302	// motors[0]->set_home();
yong304	10:21eecb227c05	303
yong304	10:21eecb227c05	304	/* Getting the current position. */
yong304	11:6deabd374c96	305	// int position = motors[0]->get_position();
yong304	10:21eecb227c05	306
yong304	10:21eecb227c05	307	/* Preparing each motor to perform a run at a specified speed. */
yong304	12:407779f755d0	308	motors[0]->prepare_run(StepperMotor::BWD, 400);
yong304	12:407779f755d0	309	motors[1]->prepare_run(StepperMotor::FWD, 400);
yong304	10:21eecb227c05	310
yong304	10:21eecb227c05	311	/* Performing the action on each motor at the same time. */
yong304	10:21eecb227c05	312	x_nucleo_ihm02a1->perform_prepared_actions();
barry210110	9:ef9b37e2464f	313
yong304	10:21eecb227c05	314	/* Waiting while active. */
yong304	10:21eecb227c05	315	motors[0]->wait_while_active();
yong304	11:6deabd374c96	316	motors[1]->wait_while_active();
yong304	11:6deabd374c96	317	}
yong304	11:6deabd374c96	318	void SOFTSTOP()
yong304	11:6deabd374c96	319	{
yong304	11:6deabd374c96	320
yong304	11:6deabd374c96	321	/* Building a list of motor control components. */
yong304	11:6deabd374c96	322	L6470 **motors = x_nucleo_ihm02a1->get_components();
yong304	11:6deabd374c96	323	/* Preparing each motor to perform a hard stop. */
yong304	11:6deabd374c96	324	for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
yong304	11:6deabd374c96	325	motors[m]->prepare_soft_stop();
yong304	11:6deabd374c96	326	}
yong304	11:6deabd374c96	327
yong304	11:6deabd374c96	328	/* Performing the action on each motor at the same time. */
yong304	11:6deabd374c96	329	x_nucleo_ihm02a1->perform_prepared_actions();
yong304	11:6deabd374c96	330
yong304	11:6deabd374c96	331	}

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	23 Feb 2018
Imports:	0
Forks:	1
Commits:	13
Dependents:	0
Dependencies:	4
Followers:	10

main.cpp@12:407779f755d0, 2018-02-23 (annotated)

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