HydraulicControlBoard_LIGHT_GJ - eeprom_test

Users » GiJeongKim » Code » HydraulicControlBoard_LIGHT_GJ

Kim GiJeong / Mbed 2 deprecated HydraulicControlBoard_LIGHT_GJ

eeprom_test

main.cpp@5:a4319f79457b, 2019-08-20 (annotated)

Committer:: jobuuu
Date:: Tue Aug 20 10:12:00 2019 +0000
Revision:: 5:a4319f79457b
Parent:: 2:a1c0a37df760
Child:: 6:df07d3491e3a

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User	Revision	Line number	New contents of line
GiJeongKim	0:51c43836c1d7	1	#include "mbed.h"
GiJeongKim	0:51c43836c1d7	2	#include "FastPWM.h"
GiJeongKim	0:51c43836c1d7	3	#include "INIT_HW.h"
jobuuu	2:a1c0a37df760	4	#include "function_CAN.h"
GiJeongKim	0:51c43836c1d7	5	#include "SPI_EEP_ENC.h"
GiJeongKim	0:51c43836c1d7	6	#include "I2C_AS5510.h"
GiJeongKim	0:51c43836c1d7	7	#include "setting.h"
GiJeongKim	0:51c43836c1d7	8
GiJeongKim	0:51c43836c1d7	9	// dac & check
GiJeongKim	0:51c43836c1d7	10	DigitalOut check(PC_2);
GiJeongKim	0:51c43836c1d7	11	DigitalOut check_2(PC_3);
GiJeongKim	0:51c43836c1d7	12	AnalogOut dac_1(PA_4);
GiJeongKim	0:51c43836c1d7	13	AnalogOut dac_2(PA_5);
jobuuu	5:a4319f79457b	14	//AnalogIn adc3(PC_1);
GiJeongKim	0:51c43836c1d7	15
GiJeongKim	0:51c43836c1d7	16	// pwm
jobuuu	2:a1c0a37df760	17	double dtc_v=0.0;
jobuuu	2:a1c0a37df760	18	double dtc_w=0.0;
GiJeongKim	0:51c43836c1d7	19
GiJeongKim	0:51c43836c1d7	20	// I2C
GiJeongKim	0:51c43836c1d7	21	I2C i2c(PC_9,PA_8); // SDA, SCL (for K22F)
GiJeongKim	0:51c43836c1d7	22	const int i2c_slave_addr1 = 0x56;
GiJeongKim	0:51c43836c1d7	23	unsigned int value; // 10bit output of reading sensor AS5510
GiJeongKim	0:51c43836c1d7	24
GiJeongKim	0:51c43836c1d7	25	// SPI
GiJeongKim	0:51c43836c1d7	26	SPI eeprom(PB_15, PB_14, PB_13); // EEPROM //(SPI_MOSI, SPI_MISO, SPI_SCK);
GiJeongKim	0:51c43836c1d7	27	DigitalOut eeprom_cs(PB_12);
GiJeongKim	0:51c43836c1d7	28	SPI enc(PC_12,PC_11,PC_10);
GiJeongKim	0:51c43836c1d7	29	DigitalOut enc_cs(PD_2);
jobuuu	2:a1c0a37df760	30	DigitalOut indi_led(PA_15);
GiJeongKim	0:51c43836c1d7	31
GiJeongKim	0:51c43836c1d7	32	// UART
GiJeongKim	0:51c43836c1d7	33	Serial pc(PA_9,PA_10); // _ UART
GiJeongKim	0:51c43836c1d7	34
GiJeongKim	0:51c43836c1d7	35	//CAN
GiJeongKim	0:51c43836c1d7	36	CAN can(PB_8, PB_9, 1000000);
GiJeongKim	0:51c43836c1d7	37	CANMessage msg;
jobuuu	2:a1c0a37df760	38
jobuuu	2:a1c0a37df760	39	// Variables
jobuuu	5:a4319f79457b	40	double cur = 0.0;
jobuuu	5:a4319f79457b	41	double cur_ref = 0.0;
jobuuu	5:a4319f79457b	42	double cur_ref_old = 0.0;
jobuuu	5:a4319f79457b	43	double cur_ref_diff = 0.0;
jobuuu	5:a4319f79457b	44	double cur_err = 0.0;
jobuuu	5:a4319f79457b	45	double cur_err_int = 0.0;
jobuuu	5:a4319f79457b	46	double cur_err_old = 0.0;
jobuuu	5:a4319f79457b	47	double cur_err_diff = 0.0;
GiJeongKim	0:51c43836c1d7	48
jobuuu	5:a4319f79457b	49	double pos = 0.0;
jobuuu	5:a4319f79457b	50	double pos_ref = 0.0;
GiJeongKim	0:51c43836c1d7	51
jobuuu	5:a4319f79457b	52	double vel;
jobuuu	5:a4319f79457b	53	double vel_ref;
jobuuu	5:a4319f79457b	54
jobuuu	5:a4319f79457b	55	double pres_A;
jobuuu	5:a4319f79457b	56	double pres_B;
jobuuu	5:a4319f79457b	57
jobuuu	5:a4319f79457b	58	double V_out=0.0;
jobuuu	5:a4319f79457b	59	double V_rem=0.0; // for anti-windup
jobuuu	5:a4319f79457b	60	double V_MAX = 12000.0; // Maximum Voltage : 12V = 12000mV
jobuuu	5:a4319f79457b	61
jobuuu	5:a4319f79457b	62	double PWM_out=0.0;
jobuuu	5:a4319f79457b	63
GiJeongKim	0:51c43836c1d7	64	int main()
GiJeongKim	0:51c43836c1d7	65	{
jobuuu	1:e04e563be5ce	66	/*******************************************************
jobuuu	1:e04e563be5ce	67	*** Initialization
jobuuu	1:e04e563be5ce	68	********************************************************/
jobuuu	1:e04e563be5ce	69
jobuuu	2:a1c0a37df760	70	indi_led = 0;
jobuuu	1:e04e563be5ce	71	pc.baud(9600);
jobuuu	2:a1c0a37df760	72
jobuuu	2:a1c0a37df760	73	//Timer t;
jobuuu	2:a1c0a37df760	74	//t.start();
jobuuu	2:a1c0a37df760	75	//t.stop();
jobuuu	2:a1c0a37df760	76	//pc.printf("The time taken was %f seconds\n",t.read());
jobuuu	2:a1c0a37df760	77
GiJeongKim	0:51c43836c1d7	78	// i2c init
GiJeongKim	0:51c43836c1d7	79	// i2c.frequency(400 * 1000); // 0.4 mHz
GiJeongKim	0:51c43836c1d7	80	// wait_ms(2); // Power Up wait
GiJeongKim	0:51c43836c1d7	81	// look_for_hardware_i2c(); // Hardware present
GiJeongKim	0:51c43836c1d7	82	// init_as5510(i2c_slave_addr1);
jobuuu	2:a1c0a37df760	83
GiJeongKim	0:51c43836c1d7	84	// // spi init
GiJeongKim	0:51c43836c1d7	85	eeprom.format(8,3);
GiJeongKim	0:51c43836c1d7	86	eeprom.frequency(5000000); //5M
GiJeongKim	0:51c43836c1d7	87	enc.format(8,0);
GiJeongKim	0:51c43836c1d7	88	enc.frequency(5000000); //5M
jobuuu	2:a1c0a37df760	89
GiJeongKim	0:51c43836c1d7	90	// ADC init
jobuuu	5:a4319f79457b	91	Init_ADC();
jobuuu	2:a1c0a37df760	92
GiJeongKim	0:51c43836c1d7	93	// Pwm init
GiJeongKim	0:51c43836c1d7	94	Init_PWM();
GiJeongKim	0:51c43836c1d7	95	TIM4->CR1 ^= TIM_CR1_UDIS;
jobuuu	2:a1c0a37df760	96
GiJeongKim	0:51c43836c1d7	97	// //SPI
GiJeongKim	0:51c43836c1d7	98	// spi_eeprom_ready();
GiJeongKim	0:51c43836c1d7	99	// spi_eeprom_write(0x1,0x112);
GiJeongKim	0:51c43836c1d7	100	// spi_eeprom_ready();
GiJeongKim	0:51c43836c1d7	101	// int i = spi_eeprom_read(0x1);
jobuuu	2:a1c0a37df760	102
GiJeongKim	0:51c43836c1d7	103	// CAN
jobuuu	2:a1c0a37df760	104	can.attach(&CAN_RX_HANDLER);
jobuuu	2:a1c0a37df760	105
GiJeongKim	0:51c43836c1d7	106	// spi _ enc
GiJeongKim	0:51c43836c1d7	107	spi_enc_set_init();
jobuuu	1:e04e563be5ce	108
jobuuu	1:e04e563be5ce	109
jobuuu	1:e04e563be5ce	110	/*******************************************************
jobuuu	1:e04e563be5ce	111	*** Program is operating!
jobuuu	1:e04e563be5ce	112	********************************************************/
GiJeongKim	0:51c43836c1d7	113	while(1) {
GiJeongKim	0:51c43836c1d7	114	// dac_1=0.5;
GiJeongKim	0:51c43836c1d7	115	// dac_2=0.1;
GiJeongKim	0:51c43836c1d7	116	check_2 = 1;
GiJeongKim	0:51c43836c1d7	117	//spi _ eeprom
GiJeongKim	0:51c43836c1d7	118	// spi_eeprom_ready();
GiJeongKim	0:51c43836c1d7	119	// spi_eeprom_write(0x0001,0xFFFFFFFF);
GiJeongKim	0:51c43836c1d7	120	// spi_eeprom_ready();
GiJeongKim	0:51c43836c1d7	121	// int a=spi_eeprom_read(0x0001);
GiJeongKim	0:51c43836c1d7	122	//spi _ enc
GiJeongKim	0:51c43836c1d7	123	int a = spi_enc_read();
GiJeongKim	0:51c43836c1d7	124	// read_field(i2c_slave_addr1);
jobuuu	2:a1c0a37df760	125
GiJeongKim	0:51c43836c1d7	126	check_2=0;
jobuuu	2:a1c0a37df760	127
jobuuu	2:a1c0a37df760	128	// pc.printf("%f\n",PWM_out);
jobuuu	2:a1c0a37df760	129	// pc.printf("%d\n",a1);
jobuuu	2:a1c0a37df760	130
jobuuu	2:a1c0a37df760	131	// wait(0.01f);
GiJeongKim	0:51c43836c1d7	132	}
jobuuu	1:e04e563be5ce	133	}
jobuuu	1:e04e563be5ce	134
jobuuu	2:a1c0a37df760	135	/*******************************************************************************
jobuuu	2:a1c0a37df760	136	TIMER INTERRUPT
jobuuu	2:a1c0a37df760	137	*******************************************************************************/
jobuuu	2:a1c0a37df760	138
jobuuu	2:a1c0a37df760	139	unsigned long CNT_TMR4 = 0;
jobuuu	2:a1c0a37df760	140	double FREQ_TMR4 = (double)FREQ_20k;
jobuuu	5:a4319f79457b	141	double DT_TMR4 = (double)DT_20k;
jobuuu	1:e04e563be5ce	142	extern "C" void TIM4_IRQHandler(void)
jobuuu	1:e04e563be5ce	143	{
jobuuu	2:a1c0a37df760	144	if ( TIM4->SR & TIM_SR_UIF ) {
jobuuu	1:e04e563be5ce	145	/*******************************************************
jobuuu	1:e04e563be5ce	146	*** Sensor Read & Data Handling
jobuuu	1:e04e563be5ce	147	********************************************************/
jobuuu	1:e04e563be5ce	148
jobuuu	2:a1c0a37df760	149	if((CNT_TMR4%2)==0){
jobuuu	2:a1c0a37df760	150	//spi
jobuuu	2:a1c0a37df760	151	// eeprom.write(0xff);
jobuuu	2:a1c0a37df760	152	// eeprom.write(0xff);
jobuuu	2:a1c0a37df760	153	// ready();
jobuuu	2:a1c0a37df760	154	// read(1);
jobuuu	2:a1c0a37df760	155
jobuuu	2:a1c0a37df760	156	//i2c
jobuuu	2:a1c0a37df760	157	//// read_field(i2c_slave_addr1);
jobuuu	2:a1c0a37df760	158
jobuuu	2:a1c0a37df760	159	//ADC
jobuuu	5:a4319f79457b	160	ADC3->CR2 \|= 0x40000000; // adc _ 12bit
jobuuu	2:a1c0a37df760	161	// a1=ADC1->DR;
jobuuu	2:a1c0a37df760	162	// a1=ADC2->DR;
jobuuu	5:a4319f79457b	163	// int raw_cur = ADC3->DR;
jobuuu	5:a4319f79457b	164	while((ADC3->SR & 0b10));
jobuuu	5:a4319f79457b	165
jobuuu	5:a4319f79457b	166	double alpha_update_cur = 1.0/(1.0+(FREQ_TMR4/2.0)/(2.03.141000.0)); // f_cutoff : 500Hz
jobuuu	5:a4319f79457b	167	double cur_new = ((double)ADC3->DR-2048.0)*20.0/4096.0; // unit : mA
jobuuu	5:a4319f79457b	168	cur=cur(1.0-alpha_update_cur)+cur_new(alpha_update_cur);
jobuuu	2:a1c0a37df760	169	}
jobuuu	1:e04e563be5ce	170
jobuuu	1:e04e563be5ce	171	//DAC
jobuuu	1:e04e563be5ce	172	// dac_1 = ADC1->DR;
jobuuu	1:e04e563be5ce	173	// dac_2 = ADC2->DR;
jobuuu	1:e04e563be5ce	174
jobuuu	1:e04e563be5ce	175	/*******************************************************
jobuuu	5:a4319f79457b	176	*** Valve Current Control
jobuuu	1:e04e563be5ce	177	********************************************************/
jobuuu	1:e04e563be5ce	178
jobuuu	5:a4319f79457b	179	bool FLAG_current_control = false;
jobuuu	5:a4319f79457b	180	if(FLAG_current_control) {
jobuuu	5:a4319f79457b	181	cur_err = cur_ref - cur;
jobuuu	5:a4319f79457b	182	cur_err_int = cur_err_int + cur_err*DT_TMR4;
jobuuu	5:a4319f79457b	183	cur_err_diff = (cur_err - cur_err_old)*FREQ_TMR4;
jobuuu	5:a4319f79457b	184	cur_err_old = cur_err;
jobuuu	5:a4319f79457b	185
jobuuu	5:a4319f79457b	186	double R_model = 150.0; // ohm
jobuuu	5:a4319f79457b	187	double L_model = 0.3;
jobuuu	5:a4319f79457b	188	double w0 = 2.03.1490.0;
jobuuu	5:a4319f79457b	189	double KP_I = L_model*w0;
jobuuu	5:a4319f79457b	190	double KI_I = R_model*w0;
jobuuu	5:a4319f79457b	191	double KD_I = 0.0;
jobuuu	5:a4319f79457b	192
jobuuu	5:a4319f79457b	193	double FF_gain = 0.0;
jobuuu	5:a4319f79457b	194	V_out = (int) (KP_I * cur_err + KI_I * cur_err_int + KD_I * cur_err_diff);
jobuuu	5:a4319f79457b	195	// V_out = V_out + FF_gain * (R_model*I_REF); // Unit : mV
jobuuu	5:a4319f79457b	196	V_out = V_out + FF_gain * (R_modelcur_ref + L_modelcur_ref_diff); // Unit : mV
jobuuu	5:a4319f79457b	197
jobuuu	5:a4319f79457b	198	double Ka = 5.0/KP_I;
jobuuu	5:a4319f79457b	199	if(V_out > V_MAX) {
jobuuu	5:a4319f79457b	200	V_rem = V_out-V_MAX;
jobuuu	5:a4319f79457b	201	V_rem = Ka*V_rem;
jobuuu	5:a4319f79457b	202	V_out = V_MAX;
jobuuu	5:a4319f79457b	203	cur_err_int = cur_err_int - V_rem*DT_5k;
jobuuu	5:a4319f79457b	204	} else if(V_out < -V_MAX) {
jobuuu	5:a4319f79457b	205	V_rem = V_out-(-V_MAX);
jobuuu	5:a4319f79457b	206	V_rem = Ka*V_rem;
jobuuu	5:a4319f79457b	207	V_out = -V_MAX;
jobuuu	5:a4319f79457b	208	cur_err_int = cur_err_int - V_rem*DT_5k;
jobuuu	5:a4319f79457b	209	}
jobuuu	5:a4319f79457b	210
jobuuu	5:a4319f79457b	211	} else {
jobuuu	5:a4319f79457b	212	// PWM_RAW : -5000.0mV~5000.0mV(full duty)
jobuuu	5:a4319f79457b	213	double t = (double)CNT_TMR4*DT_TMR4;
jobuuu	5:a4319f79457b	214	double T = 5.0;
jobuuu	5:a4319f79457b	215
jobuuu	5:a4319f79457b	216	V_out = 1000.0sin(2.0PI*t/T); // Unit : mV
jobuuu	5:a4319f79457b	217	// if(V_out > 0.0) V_out = 1000.0;
jobuuu	5:a4319f79457b	218	// else if(V_out < 0.0) V_out = -1000.0;
jobuuu	5:a4319f79457b	219	}
jobuuu	5:a4319f79457b	220
jobuuu	5:a4319f79457b	221	PWM_out= V_out/12000.0; // Full duty : 12000.0mV
jobuuu	2:a1c0a37df760	222
jobuuu	2:a1c0a37df760	223	// Saturation of output voltage to 5.0V
jobuuu	5:a4319f79457b	224	if(PWM_out > 0.41667) PWM_out=0.41667; //5.0/12.0 = 0.41667
jobuuu	5:a4319f79457b	225	else if (PWM_out < -0.41667) PWM_out=-0.41667;
jobuuu	2:a1c0a37df760	226
jobuuu	2:a1c0a37df760	227	if (PWM_out>0.0) {
jobuuu	2:a1c0a37df760	228	dtc_v=0.0;
jobuuu	1:e04e563be5ce	229	dtc_w=PWM_out;
jobuuu	1:e04e563be5ce	230	} else {
jobuuu	2:a1c0a37df760	231	dtc_v=-PWM_out;
jobuuu	2:a1c0a37df760	232	dtc_w=0.0;
jobuuu	1:e04e563be5ce	233	}
jobuuu	1:e04e563be5ce	234
jobuuu	1:e04e563be5ce	235	//pwm
jobuuu	2:a1c0a37df760	236	TIM4->CCR2 = (PWM_ARR)*(1.0-dtc_v);
jobuuu	2:a1c0a37df760	237	TIM4->CCR1 = (PWM_ARR)*(1.0-dtc_w);
jobuuu	1:e04e563be5ce	238
jobuuu	1:e04e563be5ce	239	/*******************************************************
jobuuu	2:a1c0a37df760	240	*** Data Send (CAN) & Print out (UART)
jobuuu	1:e04e563be5ce	241	********************************************************/
jobuuu	2:a1c0a37df760	242	if((CNT_TMR4%40)==0){
jobuuu	2:a1c0a37df760	243	msg.id = 50;
jobuuu	2:a1c0a37df760	244	msg.len = 4;
jobuuu	5:a4319f79457b	245	int temp_CUR = (int)(cur*1000.0);
jobuuu	2:a1c0a37df760	246	msg.data[0]=0x00FF&temp_CUR;
jobuuu	2:a1c0a37df760	247	msg.data[1]=0x00FF&(temp_CUR>>8);
jobuuu	5:a4319f79457b	248	int temp_PWM = (int)(V_out);
jobuuu	2:a1c0a37df760	249	msg.data[2]=0x00FF&temp_PWM;
jobuuu	2:a1c0a37df760	250	msg.data[3]=0x00FF&(temp_PWM>>8);
jobuuu	2:a1c0a37df760	251	can.write(msg);
jobuuu	2:a1c0a37df760	252	}
jobuuu	1:e04e563be5ce	253
jobuuu	2:a1c0a37df760	254	// if((CNT_TMR4%4000)==0){
jobuuu	2:a1c0a37df760	255	// pc.printf("%d\n",a1);
jobuuu	2:a1c0a37df760	256	// }
jobuuu	1:e04e563be5ce	257
jobuuu	1:e04e563be5ce	258	/*******************************************************
jobuuu	1:e04e563be5ce	259	*** Timer Counting & etc.
jobuuu	1:e04e563be5ce	260	********************************************************/
jobuuu	2:a1c0a37df760	261	CNT_TMR4++;
jobuuu	1:e04e563be5ce	262	}
jobuuu	1:e04e563be5ce	263	TIM4->SR = 0x0; // reset the status register
GiJeongKim	0:51c43836c1d7	264	}

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	20 Jul 2020
Imports:	1
Forks:	0
Commits:	69
Dependents:	0
Dependencies:	2
Followers:	1

main.cpp@5:a4319f79457b, 2019-08-20 (annotated)

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