BAE_b4hw_test - sw_test_workin

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sakthi priya amirtharaj / Mbed 2 deprecated BAE_b4hw_test

sw_test_workin

Fork of BAE_icecream_1_0 by sakthi priya amirtharaj

ACS.cpp@3:20647ff68b3c, 2015-01-31 (annotated)

Committer:: sakthipriya
Date:: Sat Jan 31 14:11:53 2015 +0000
Revision:: 3:20647ff68b3c
Parent:: 2:edd107ea4740
Child:: 5:4199c0dfed33

i2c while removed and works - to be characterised

Who changed what in which revision?

User	Revision	Line number	New contents of line
raizel_varun	0:ebdf4f859dca	1	#include "ACS.h"
raizel_varun	0:ebdf4f859dca	2	#include "MPU3300.h"
raizel_varun	0:ebdf4f859dca	3	#include "pin_config.h"
raizel_varun	0:ebdf4f859dca	4
raizel_varun	0:ebdf4f859dca	5	//PwmOut PWM1(PTD4); //Functions used to generate PWM signal
raizel_varun	0:ebdf4f859dca	6	//PWM output comes from pins p6
raizel_varun	0:ebdf4f859dca	7	Serial pc1(USBTX, USBRX);
raizel_varun	0:ebdf4f859dca	8	SPI spi_acs (PIN16, PIN17, PIN15); // mosi, miso, sclk PTE18,19,17
greenroshks	2:edd107ea4740	9	DigitalOut SSN_MAG (PTC16); // ssn for magnetometer PTB11
greenroshks	2:edd107ea4740	10	DigitalInOut DRDY (PTE3); // drdy for magnetometer PTA17
greenroshks	2:edd107ea4740	11	DigitalOut ssn_gyr (PTE2); //Slave Select pin of gyroscope PTB16
greenroshks	2:edd107ea4740	12	InterruptIn dr(PTC6); //Interrupt pin for gyro PTC5
greenroshks	2:edd107ea4740	13	PwmOut PWM1(D2); //Functions used to generate PWM signal
greenroshks	2:edd107ea4740	14	PwmOut PWM2(D3);
greenroshks	2:edd107ea4740	15	PwmOut PWM3(D4); //PWM output comes from pins p6
raizel_varun	0:ebdf4f859dca	16	Ticker tr; //Ticker function to give values for limited amount of time for gyro
raizel_varun	0:ebdf4f859dca	17	Timeout tr_mag;
raizel_varun	0:ebdf4f859dca	18	uint8_t trflag_mag;
raizel_varun	0:ebdf4f859dca	19	uint8_t trFlag; //ticker Flag for gyro
raizel_varun	0:ebdf4f859dca	20	uint8_t drFlag; //data-ready interrupt flag for gyro
raizel_varun	0:ebdf4f859dca	21
raizel_varun	0:ebdf4f859dca	22	//--------------------------------TORQUE ROD--------------------------------------------------------------------------------------------------------------//
raizel_varun	0:ebdf4f859dca	23
raizel_varun	0:ebdf4f859dca	24	void FUNC_ACS_GENPWM(float M[3])
raizel_varun	0:ebdf4f859dca	25	{
raizel_varun	0:ebdf4f859dca	26
raizel_varun	0:ebdf4f859dca	27
sakthipriya	3:20647ff68b3c	28	printf("\n\rEnterd PWMGEN function\n\r\r");
raizel_varun	0:ebdf4f859dca	29	float DCx = 0; //Duty cycle of Moment in x, y, z directions
raizel_varun	0:ebdf4f859dca	30	float ix = 0; //Current sent in x, y, z TR's
raizel_varun	0:ebdf4f859dca	31	float timep = 0.02 ;
raizel_varun	0:ebdf4f859dca	32	float Mx=M[0]; //Time period is set to 0.02s
raizel_varun	0:ebdf4f859dca	33	//Moment in x, y, z directions
greenroshks	2:edd107ea4740	34
raizel_varun	0:ebdf4f859dca	35
raizel_varun	0:ebdf4f859dca	36
raizel_varun	0:ebdf4f859dca	37	ix = Mx * 0.3 ; //Moment and Current always have the linear relationship
raizel_varun	0:ebdf4f859dca	38
raizel_varun	0:ebdf4f859dca	39	if( ix>0&& ix < 0.006 ) //Current and Duty cycle have the linear relationship between 1% and 100%
raizel_varun	0:ebdf4f859dca	40	{
raizel_varun	0:ebdf4f859dca	41	DCx = 61000000pow(ix,4) - 377291pow(ix,3) + 4689.6pow(ix,2) + 149.19*ix - 0.0008;
raizel_varun	0:ebdf4f859dca	42	PWM1.period(timep);
raizel_varun	0:ebdf4f859dca	43	PWM1 = DCx/100 ;
raizel_varun	0:ebdf4f859dca	44	}
raizel_varun	0:ebdf4f859dca	45	else if( ix >= 0.006&& ix < 0.0116)
raizel_varun	0:ebdf4f859dca	46	{
raizel_varun	0:ebdf4f859dca	47	DCx = 1100000000pow(ix,4) - 51000000pow(ix,3) + 62603pow(ix,2) - 199.29ix + 0.7648;
raizel_varun	0:ebdf4f859dca	48	PWM1.period(timep);
raizel_varun	0:ebdf4f859dca	49	PWM1 = DCx/100 ;
raizel_varun	0:ebdf4f859dca	50	}
raizel_varun	0:ebdf4f859dca	51	else if (ix >= 0.0116&& ix < 0.0624)
raizel_varun	0:ebdf4f859dca	52	{
raizel_varun	0:ebdf4f859dca	53
raizel_varun	0:ebdf4f859dca	54	DCx = 212444pow(ix,4) - 33244pow(ix,3) + 1778.4pow(ix,2) + 120.91ix + 0.3878;
raizel_varun	0:ebdf4f859dca	55	PWM1.period(timep);
raizel_varun	0:ebdf4f859dca	56	PWM1 = DCx/100 ;
raizel_varun	0:ebdf4f859dca	57	}
raizel_varun	0:ebdf4f859dca	58	else if(ix >= 0.0624&& ix < 0.555)
raizel_varun	0:ebdf4f859dca	59	{
sakthipriya	3:20647ff68b3c	60	printf("\n\rACS entered if\n\r");
raizel_varun	0:ebdf4f859dca	61	DCx = 331.15pow(ix,4) - 368.09pow(ix,3) + 140.43pow(ix,2) + 158.59ix + 0.0338;
raizel_varun	0:ebdf4f859dca	62	PWM1.period(timep);
raizel_varun	0:ebdf4f859dca	63	PWM1 = DCx/100 ;
raizel_varun	0:ebdf4f859dca	64	}
raizel_varun	0:ebdf4f859dca	65	else if(ix==0)
raizel_varun	0:ebdf4f859dca	66	{
greenroshks	2:edd107ea4740	67	DCx = 50;
raizel_varun	0:ebdf4f859dca	68	PWM1.period(timep);
raizel_varun	0:ebdf4f859dca	69	PWM1 = DCx/100 ;
raizel_varun	0:ebdf4f859dca	70	}
raizel_varun	0:ebdf4f859dca	71	else
raizel_varun	0:ebdf4f859dca	72	{
raizel_varun	0:ebdf4f859dca	73	// printf("!!!!!!!!!!Error!!!!!!!!!");
raizel_varun	0:ebdf4f859dca	74	}
greenroshks	2:edd107ea4740	75
sakthipriya	3:20647ff68b3c	76	printf("\n\r moment :%f\n\r",DCx);
raizel_varun	0:ebdf4f859dca	77	float DCy = 0; //Duty cycle of Moment in x, y, z directions
raizel_varun	0:ebdf4f859dca	78	float iy = 0; //Current sent in x, y, z TR's
raizel_varun	0:ebdf4f859dca	79
raizel_varun	0:ebdf4f859dca	80	float My=M[1]; //Time period is set to 0.2s
raizel_varun	0:ebdf4f859dca	81	//Moment in x, y, z directions
raizel_varun	0:ebdf4f859dca	82
raizel_varun	0:ebdf4f859dca	83
raizel_varun	0:ebdf4f859dca	84	iy = My * 0.3 ; //Moment and Current always have the linear relationship
raizel_varun	0:ebdf4f859dca	85
raizel_varun	0:ebdf4f859dca	86	if( iy>0&& iy < 0.006 ) //Current and Duty cycle have the linear relationship between 1% and 100%
raizel_varun	0:ebdf4f859dca	87	{
raizel_varun	0:ebdf4f859dca	88	DCy = 61000000pow(iy,4) - 377291pow(iy,3) + 4689.6pow(iy,2) + 149.19*iy - 0.0008;
raizel_varun	0:ebdf4f859dca	89	PWM2.period(timep);
raizel_varun	0:ebdf4f859dca	90	PWM2 = DCy/100 ;
raizel_varun	0:ebdf4f859dca	91	}
raizel_varun	0:ebdf4f859dca	92	else if( iy >= 0.006&& iy < 0.0116)
raizel_varun	0:ebdf4f859dca	93	{
raizel_varun	0:ebdf4f859dca	94	DCy = 1100000000pow(iy,4) - 51000000pow(iy,3) + 62603pow(iy,2) - 199.29iy + 0.7648;
raizel_varun	0:ebdf4f859dca	95	PWM2.period(timep);
raizel_varun	0:ebdf4f859dca	96	PWM2 = DCy/100 ;
raizel_varun	0:ebdf4f859dca	97	}
raizel_varun	0:ebdf4f859dca	98	else if (iy >= 0.0116&& iy < 0.0624)
raizel_varun	0:ebdf4f859dca	99	{
raizel_varun	0:ebdf4f859dca	100
raizel_varun	0:ebdf4f859dca	101	DCy = 212444pow(iy,4) - 33244pow(iy,3) + 1778.4pow(iy,2) + 120.91iy + 0.3878;
raizel_varun	0:ebdf4f859dca	102	PWM2.period(timep);
raizel_varun	0:ebdf4f859dca	103	PWM2 = DCy/100 ;
raizel_varun	0:ebdf4f859dca	104	}
raizel_varun	0:ebdf4f859dca	105	else if(iy >= 0.0624&& iy < 0.555)
raizel_varun	0:ebdf4f859dca	106	{
sakthipriya	3:20647ff68b3c	107	printf("\n\rACS entered if\n\r");
raizel_varun	0:ebdf4f859dca	108	DCy = 331.15pow(iy,4) - 368.09pow(iy,3) + 140.43pow(iy,2) + 158.59iy + 0.0338;
raizel_varun	0:ebdf4f859dca	109	PWM2.period(timep);
raizel_varun	0:ebdf4f859dca	110	PWM2 = DCy/100 ;
raizel_varun	0:ebdf4f859dca	111	}
raizel_varun	0:ebdf4f859dca	112	else if(iy==0)
raizel_varun	0:ebdf4f859dca	113	{
raizel_varun	0:ebdf4f859dca	114	DCy = 0;
raizel_varun	0:ebdf4f859dca	115	PWM2.period(timep);
raizel_varun	0:ebdf4f859dca	116	PWM2 = DCy/100 ;
raizel_varun	0:ebdf4f859dca	117	}
raizel_varun	0:ebdf4f859dca	118	else
raizel_varun	0:ebdf4f859dca	119	{
raizel_varun	0:ebdf4f859dca	120	// printf("!!!!!!!!!!Error!!!!!!!!!");
raizel_varun	0:ebdf4f859dca	121	}
raizel_varun	0:ebdf4f859dca	122	float DCz = 0; //Duty cycle of Moment in x, y, z directions
raizel_varun	0:ebdf4f859dca	123	float iz = 0; //Current sent in x, y, z TR's
raizel_varun	0:ebdf4f859dca	124
raizel_varun	0:ebdf4f859dca	125	float Mz=M[2]; //Time period is set to 0.2s
raizel_varun	0:ebdf4f859dca	126	//Moment in x, y, z directions
raizel_varun	0:ebdf4f859dca	127
raizel_varun	0:ebdf4f859dca	128
raizel_varun	0:ebdf4f859dca	129	iz = Mz * 0.3 ; //Moment and Current always have the linear relationship
raizel_varun	0:ebdf4f859dca	130
raizel_varun	0:ebdf4f859dca	131	if( iz>0&& iz < 0.006 ) //Current and Duty cycle have the linear relationship between 1% and 100%
raizel_varun	0:ebdf4f859dca	132	{
raizel_varun	0:ebdf4f859dca	133	DCz = 61000000pow(iz,4) - 377291pow(iz,3) + 4689.6pow(iz,2) + 149.19*iz - 0.0008;
raizel_varun	0:ebdf4f859dca	134	PWM3.period(timep);
raizel_varun	0:ebdf4f859dca	135	PWM3 = DCz/100 ;
raizel_varun	0:ebdf4f859dca	136	}
raizel_varun	0:ebdf4f859dca	137	else if( iz >= 0.006&& iz < 0.0116)
raizel_varun	0:ebdf4f859dca	138	{
raizel_varun	0:ebdf4f859dca	139	DCz = 1100000000pow(iz,4) - 51000000pow(iz,3) + 62603pow(iz,2) - 199.29iz + 0.7648;
raizel_varun	0:ebdf4f859dca	140	PWM3.period(timep);
raizel_varun	0:ebdf4f859dca	141	PWM3 = DCz/100 ;
raizel_varun	0:ebdf4f859dca	142	}
raizel_varun	0:ebdf4f859dca	143	else if (iz >= 0.0116&& iz < 0.0624)
raizel_varun	0:ebdf4f859dca	144	{
raizel_varun	0:ebdf4f859dca	145
raizel_varun	0:ebdf4f859dca	146	DCz = 212444pow(iz,4) - 33244pow(iz,3) + 1778.4pow(iz,2) + 120.91iz + 0.3878;
raizel_varun	0:ebdf4f859dca	147	PWM3.period(timep);
raizel_varun	0:ebdf4f859dca	148	PWM3 = DCz/100 ;
raizel_varun	0:ebdf4f859dca	149	}
raizel_varun	0:ebdf4f859dca	150	else if(iz >= 0.0624&& iz < 0.555)
raizel_varun	0:ebdf4f859dca	151	{
sakthipriya	3:20647ff68b3c	152	printf("\n\rACS entered if\n\r");
raizel_varun	0:ebdf4f859dca	153	DCz = 331.15pow(iz,4) - 368.09pow(iz,3) + 140.43pow(iz,2) + 158.59iz + 0.0338;
raizel_varun	0:ebdf4f859dca	154	PWM3.period(timep);
raizel_varun	0:ebdf4f859dca	155	PWM3 = DCz/100 ;
raizel_varun	0:ebdf4f859dca	156	}
raizel_varun	0:ebdf4f859dca	157	else if(iz==0)
raizel_varun	0:ebdf4f859dca	158	{
raizel_varun	0:ebdf4f859dca	159	DCz = 0;
raizel_varun	0:ebdf4f859dca	160	PWM3.period(timep);
raizel_varun	0:ebdf4f859dca	161	PWM3 = DCz/100 ;
raizel_varun	0:ebdf4f859dca	162	}
raizel_varun	0:ebdf4f859dca	163	else
raizel_varun	0:ebdf4f859dca	164	{
raizel_varun	0:ebdf4f859dca	165	// printf("!!!!!!!!!!Error!!!!!!!!!");
raizel_varun	0:ebdf4f859dca	166	}
raizel_varun	0:ebdf4f859dca	167
sakthipriya	3:20647ff68b3c	168	printf("\n\rExited PWMGEN function\n\r");
raizel_varun	0:ebdf4f859dca	169	}
raizel_varun	0:ebdf4f859dca	170	/*-------------------------------------------------------------------------------------------------------------------------------------------------------
raizel_varun	0:ebdf4f859dca	171	-------------------------------------------MAGNETOMETER-------------------------------------------------------------------------------------------------*/
raizel_varun	0:ebdf4f859dca	172
raizel_varun	0:ebdf4f859dca	173	void trsub_mag()
raizel_varun	0:ebdf4f859dca	174	{
raizel_varun	0:ebdf4f859dca	175	trflag_mag=0;
raizel_varun	0:ebdf4f859dca	176	}
raizel_varun	0:ebdf4f859dca	177
raizel_varun	0:ebdf4f859dca	178	void FUNC_ACS_MAG_INIT()
raizel_varun	0:ebdf4f859dca	179	{
greenroshks	2:edd107ea4740	180	//DRDY.output();
greenroshks	2:edd107ea4740	181	DRDY = 0;
greenroshks	2:edd107ea4740	182	int a ;
greenroshks	2:edd107ea4740	183	a=DRDY;
sakthipriya	3:20647ff68b3c	184	printf("\n\r DRDY is %d\n\r",a);
raizel_varun	0:ebdf4f859dca	185	SSN_MAG=1; //pin is disabled
raizel_varun	0:ebdf4f859dca	186	spi_acs.format(8,0); // 8bits,Mode 0
raizel_varun	0:ebdf4f859dca	187	spi_acs.frequency(100000); //clock frequency
raizel_varun	0:ebdf4f859dca	188
raizel_varun	0:ebdf4f859dca	189	SSN_MAG=0; // Selecting pin
raizel_varun	0:ebdf4f859dca	190	wait_ms(10); //accounts for delay.can be minimised.
raizel_varun	0:ebdf4f859dca	191
raizel_varun	0:ebdf4f859dca	192	spi_acs.write(0x83); //
raizel_varun	0:ebdf4f859dca	193
raizel_varun	0:ebdf4f859dca	194	wait_ms(10);
raizel_varun	0:ebdf4f859dca	195
raizel_varun	0:ebdf4f859dca	196	unsigned char i;
raizel_varun	0:ebdf4f859dca	197	for(i=0;i<3;i++)//initialising values.
raizel_varun	0:ebdf4f859dca	198	{
raizel_varun	0:ebdf4f859dca	199	spi_acs.write(0x00); //MSB of X,y,Z
raizel_varun	0:ebdf4f859dca	200	spi_acs.write(0xc8); //LSB of X,Y,z;pointer increases automatically.
raizel_varun	0:ebdf4f859dca	201	}
raizel_varun	0:ebdf4f859dca	202	SSN_MAG=1;
raizel_varun	0:ebdf4f859dca	203
raizel_varun	0:ebdf4f859dca	204	}
raizel_varun	0:ebdf4f859dca	205
raizel_varun	0:ebdf4f859dca	206	float* FUNC_ACS_MAG_EXEC()
raizel_varun	0:ebdf4f859dca	207	{
sakthipriya	3:20647ff68b3c	208	//printf("\n\rEntered magnetometer function\n\r");
greenroshks	2:edd107ea4740	209	//DRDY.output();
greenroshks	2:edd107ea4740	210	DRDY.write(0);
greenroshks	2:edd107ea4740	211	int a;
greenroshks	2:edd107ea4740	212	a = DRDY;
sakthipriya	3:20647ff68b3c	213	printf("\n\r DRDY is %d\n\r",a);
raizel_varun	0:ebdf4f859dca	214	SSN_MAG=0; //enabling slave to measure the values
raizel_varun	0:ebdf4f859dca	215	wait_ms(10);
raizel_varun	0:ebdf4f859dca	216	spi_acs.write(0x82); //initiates measurement
raizel_varun	0:ebdf4f859dca	217	wait_ms(10);
raizel_varun	0:ebdf4f859dca	218	spi_acs.write(0x01); //selecting x,y and z axes, measurement starts now
raizel_varun	0:ebdf4f859dca	219	SSN_MAG=1;
raizel_varun	0:ebdf4f859dca	220	wait_ms(10);
raizel_varun	0:ebdf4f859dca	221
raizel_varun	0:ebdf4f859dca	222	trflag_mag=1;
raizel_varun	0:ebdf4f859dca	223	tr_mag.attach(&trsub_mag,1); //runs in background,makes trflag_mag=0 after 1s
greenroshks	2:edd107ea4740	224	DRDY.input();
raizel_varun	0:ebdf4f859dca	225	while(trflag_mag) /*initially flag is 1,so loop is executed,if DRDY is high,then data is retrieved and programme ends,else
raizel_varun	0:ebdf4f859dca	226	loop runs for at the max 1s and if still DRDY is zero,the flag becomes 0 and loop is not executed and
raizel_varun	0:ebdf4f859dca	227	programme is terminated*/
raizel_varun	0:ebdf4f859dca	228	{
raizel_varun	0:ebdf4f859dca	229	wait_ms(5);
raizel_varun	0:ebdf4f859dca	230	if(DRDY==1)
raizel_varun	0:ebdf4f859dca	231	{
sakthipriya	3:20647ff68b3c	232	printf("\n\rwth\n");
raizel_varun	0:ebdf4f859dca	233	SSN_MAG=0;
raizel_varun	0:ebdf4f859dca	234	spi_acs.write(0xc9); //command byte for retrieving data
raizel_varun	0:ebdf4f859dca	235
raizel_varun	0:ebdf4f859dca	236	unsigned char axis;
raizel_varun	0:ebdf4f859dca	237	float Bnewvalue[3]={0.0,0.0,0.0};
raizel_varun	0:ebdf4f859dca	238	int32_t Bvalue[3]={0,0,0};
raizel_varun	0:ebdf4f859dca	239	int32_t a= pow(2.0,24.0);
raizel_varun	0:ebdf4f859dca	240	int32_t b= pow(2.0,23.0);
raizel_varun	0:ebdf4f859dca	241
raizel_varun	0:ebdf4f859dca	242	for(axis=0;axis<3;axis++)
raizel_varun	0:ebdf4f859dca	243	{
raizel_varun	0:ebdf4f859dca	244	Bvalue[axis]=spi_acs.write(0x00)<<16; //MSB 1 is send first
raizel_varun	0:ebdf4f859dca	245	wait_ms(10);
raizel_varun	0:ebdf4f859dca	246	Bvalue[axis]\|=spi_acs.write(0x00)<<8; //MSB 2 is send next
raizel_varun	0:ebdf4f859dca	247	wait_ms(10);
raizel_varun	0:ebdf4f859dca	248	Bvalue[axis]\|=spi_acs.write(0x00); //LSB is send.....total length is 24 bits(3*8bits)...which are appended to get actual bit configuration
raizel_varun	0:ebdf4f859dca	249
raizel_varun	0:ebdf4f859dca	250
raizel_varun	0:ebdf4f859dca	251	if((Bvalue[axis]&b)==b)
raizel_varun	0:ebdf4f859dca	252	{
raizel_varun	0:ebdf4f859dca	253	Bvalue[axis]=Bvalue[axis]-a; //converting 2s complement to signed decimal
raizel_varun	0:ebdf4f859dca	254
raizel_varun	0:ebdf4f859dca	255	}
raizel_varun	0:ebdf4f859dca	256	Bnewvalue[axis]=(float)Bvalue[axis]22.0pow(10.0,-3.0); //1 LSB=(22nT)...final value of field obtained in micro tesla
raizel_varun	0:ebdf4f859dca	257
raizel_varun	0:ebdf4f859dca	258	wait_ms(10);
sakthipriya	3:20647ff68b3c	259	printf("\t%lf\n\r",Bnewvalue[axis]);
raizel_varun	0:ebdf4f859dca	260
raizel_varun	0:ebdf4f859dca	261	}
raizel_varun	0:ebdf4f859dca	262	SSN_MAG=1;
greenroshks	2:edd107ea4740	263	/* for test only to removed */
greenroshks	2:edd107ea4740	264	Bnewvalue[0]=Bnewvalue[1]=Bnewvalue[2]=100;
raizel_varun	0:ebdf4f859dca	265	return Bnewvalue; //return here? doubt..
raizel_varun	0:ebdf4f859dca	266	break;
raizel_varun	0:ebdf4f859dca	267	}
raizel_varun	0:ebdf4f859dca	268
raizel_varun	0:ebdf4f859dca	269	}
raizel_varun	0:ebdf4f859dca	270
raizel_varun	0:ebdf4f859dca	271	}
raizel_varun	0:ebdf4f859dca	272	/*------------------------------------------------------------------------------------------------------------------------------------------------------
raizel_varun	0:ebdf4f859dca	273	-------------------------------------------CONTROL ALGORITHM------------------------------------------------------------------------------------------*/
raizel_varun	0:ebdf4f859dca	274
raizel_varun	0:ebdf4f859dca	275	float * FUNC_ACS_CNTRLALGO(float b[3],float omega[3])
raizel_varun	0:ebdf4f859dca	276	{
raizel_varun	0:ebdf4f859dca	277	float db[3]; /// inputs
raizel_varun	0:ebdf4f859dca	278	//initialization
raizel_varun	0:ebdf4f859dca	279	float bb[3] = {0, 0, 0};
raizel_varun	0:ebdf4f859dca	280	float d[3] = {0, 0, 0};
raizel_varun	0:ebdf4f859dca	281	float Jm[3][3] = {{0.2730, 0, 0}, {0, 0.3018, 0}, {0, 0, 0.3031}};
raizel_varun	0:ebdf4f859dca	282	float den = 0;
raizel_varun	0:ebdf4f859dca	283	float den2;
raizel_varun	0:ebdf4f859dca	284	int i, j; //temporary variables
raizel_varun	0:ebdf4f859dca	285	float Mu[2], z[2], dv[2], v[2], u[2], tauc[3] = {0, 0, 0}; //outputs
raizel_varun	0:ebdf4f859dca	286	float invJm[3][3];
raizel_varun	0:ebdf4f859dca	287	float kmu2 = 0.07, gamma2 = 1.9e4, kz2 = 0.4e-2, kmu = 0.003, gamma = 5.6e4, kz = 0.1e-4;
sakthipriya	3:20647ff68b3c	288	printf("Entered cntrl algo\n\r");
raizel_varun	0:ebdf4f859dca	289	//structure parameters
raizel_varun	0:ebdf4f859dca	290
raizel_varun	0:ebdf4f859dca	291	void inverse (float mat[3][3], float inv[3][3]);
raizel_varun	0:ebdf4f859dca	292	void getInput (float x[9]);
raizel_varun	0:ebdf4f859dca	293	//functions
raizel_varun	0:ebdf4f859dca	294
raizel_varun	0:ebdf4f859dca	295	////////// Input from Matlab //////////////
raizel_varun	0:ebdf4f859dca	296	while(1)
raizel_varun	0:ebdf4f859dca	297	{
raizel_varun	0:ebdf4f859dca	298
raizel_varun	0:ebdf4f859dca	299	/*getInput(inputs);
raizel_varun	0:ebdf4f859dca	300	//while(1)
raizel_varun	0:ebdf4f859dca	301	b[0] = inputs[0];
raizel_varun	0:ebdf4f859dca	302	b[1] = inputs[1];
raizel_varun	0:ebdf4f859dca	303	b[2] = inputs[2];
raizel_varun	0:ebdf4f859dca	304	db[0] = inputs[3];
raizel_varun	0:ebdf4f859dca	305	db[1] = inputs[4];
raizel_varun	0:ebdf4f859dca	306	db[2] = inputs[5];
raizel_varun	0:ebdf4f859dca	307	omega[0] = inputs[6];
raizel_varun	0:ebdf4f859dca	308	omega[1] = inputs[7];
raizel_varun	0:ebdf4f859dca	309	omega[2] = inputs[8];*/
raizel_varun	0:ebdf4f859dca	310	/////////// Control Algorithm //////////////////////
raizel_varun	0:ebdf4f859dca	311	// calculate norm b, norm db
raizel_varun	0:ebdf4f859dca	312	den = sqrt((b[0]b[0]) + (b[1]b[1]) + (b[2]*b[2]));
raizel_varun	0:ebdf4f859dca	313	den2 = (b[0]db[0]) + (b[1]db[1]) + (b[2]*db[2]);
raizel_varun	0:ebdf4f859dca	314
raizel_varun	0:ebdf4f859dca	315	for(i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	316	{
raizel_varun	0:ebdf4f859dca	317	db[i] = (db[i]denden-b[i]*den2) / (pow(den,3));
raizel_varun	0:ebdf4f859dca	318	//db[i]/=dendenden;
raizel_varun	0:ebdf4f859dca	319	}
raizel_varun	0:ebdf4f859dca	320
raizel_varun	0:ebdf4f859dca	321	for(i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	322	{
sakthipriya	3:20647ff68b3c	323	printf("\n\rreached here\n\r");
raizel_varun	0:ebdf4f859dca	324	if(den!=0)
raizel_varun	0:ebdf4f859dca	325	//b[i]=b[i]/den; //there is a problem here. The code gets stuck here. Maf value is required
raizel_varun	0:ebdf4f859dca	326	;
raizel_varun	0:ebdf4f859dca	327	}
raizel_varun	0:ebdf4f859dca	328
raizel_varun	0:ebdf4f859dca	329	// select kz, kmu, gamma
raizel_varun	0:ebdf4f859dca	330	if(b[0]>0.9 \|\| b[0]<-0.9)
raizel_varun	0:ebdf4f859dca	331	{
raizel_varun	0:ebdf4f859dca	332	kz = kz2;
raizel_varun	0:ebdf4f859dca	333	kmu = kmu2;
raizel_varun	0:ebdf4f859dca	334	gamma = gamma2;
raizel_varun	0:ebdf4f859dca	335	}
raizel_varun	0:ebdf4f859dca	336	// calculate Mu, v, dv, z, u
raizel_varun	0:ebdf4f859dca	337	for(i=0;i<2;i++)
raizel_varun	0:ebdf4f859dca	338	{
raizel_varun	0:ebdf4f859dca	339	Mu[i] = b[i+1];
raizel_varun	0:ebdf4f859dca	340	v[i] = -kmu*Mu[i];
raizel_varun	0:ebdf4f859dca	341	dv[i] = -kmu*db[i+1];
raizel_varun	0:ebdf4f859dca	342	z[i] = db[i+1] - v[i];
raizel_varun	0:ebdf4f859dca	343	u[i] = -kz*z[i] + dv[i]-(Mu[i] / gamma);
raizel_varun	0:ebdf4f859dca	344	}
raizel_varun	0:ebdf4f859dca	345	inverse(Jm, invJm);
raizel_varun	0:ebdf4f859dca	346	// calculate cross(omega,J*omega)for(i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	347
raizel_varun	0:ebdf4f859dca	348	for(j=0;j<3;j++)
raizel_varun	0:ebdf4f859dca	349	bb[i] += omega[j](omega[(i+1)%3]Jm[(i+2)%3][j] - omega[(i+2)%3]*Jm[(i+1)%3][j]);
raizel_varun	0:ebdf4f859dca	350
raizel_varun	0:ebdf4f859dca	351	// calculate invJmcross(omega,Jomega) store in d
raizel_varun	0:ebdf4f859dca	352	for(i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	353	{
raizel_varun	0:ebdf4f859dca	354	for(j=0;j<3;j++)
raizel_varun	0:ebdf4f859dca	355	d[i] += bb[j]*invJm[i][j];
raizel_varun	0:ebdf4f859dca	356	}
raizel_varun	0:ebdf4f859dca	357	// calculate d = cross(invJmcross(omega,Jomega),b) -cross(omega,db)
raizel_varun	0:ebdf4f859dca	358	// bb =[0;u-d(2:3)]
raizel_varun	0:ebdf4f859dca	359	// store in bb
raizel_varun	0:ebdf4f859dca	360	bb[1] = u[0] + (d[0]b[2])-(d[2]b[0])-(omega[0]db[2]) + (omega[2]db[0]);
raizel_varun	0:ebdf4f859dca	361	bb[2] = u[1]-(d[0]b[1]) + (d[1]b[0]) + (omega[0]db[1])-(omega[1]db[0]);
raizel_varun	0:ebdf4f859dca	362	bb[0] = 0;
raizel_varun	0:ebdf4f859dca	363	// calculate N
raizel_varun	0:ebdf4f859dca	364	// reusing invJm as N
raizel_varun	0:ebdf4f859dca	365
raizel_varun	0:ebdf4f859dca	366	for(i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	367	{
raizel_varun	0:ebdf4f859dca	368	d[i] = invJm[1][i];
raizel_varun	0:ebdf4f859dca	369	invJm[ 1][i] = b[2]invJm[0][i] - b[0]invJm[2][i];
raizel_varun	0:ebdf4f859dca	370	invJm[2][i] = -b[1]invJm[0][i] + b[0]d[i];
raizel_varun	0:ebdf4f859dca	371	invJm[0][i] = b[i];
raizel_varun	0:ebdf4f859dca	372	}
raizel_varun	0:ebdf4f859dca	373	// calculate inv(N) store in Jm
raizel_varun	0:ebdf4f859dca	374	inverse(invJm, Jm);
raizel_varun	0:ebdf4f859dca	375	// calculate tauc
raizel_varun	0:ebdf4f859dca	376	for(i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	377	{
raizel_varun	0:ebdf4f859dca	378	for(j=0;j<3;j++)
raizel_varun	0:ebdf4f859dca	379	tauc[i] += Jm[i][j]*bb[j];
raizel_varun	0:ebdf4f859dca	380	}
raizel_varun	0:ebdf4f859dca	381
raizel_varun	0:ebdf4f859dca	382	return(tauc);
raizel_varun	0:ebdf4f859dca	383	}
raizel_varun	0:ebdf4f859dca	384	}
raizel_varun	0:ebdf4f859dca	385	/////////// Output to Matlab //////////////////
raizel_varun	0:ebdf4f859dca	386	/* for(i=0;i<3;i++) {
sakthipriya	3:20647ff68b3c	387	printf("%f\n\r",tauc[i]*10000000);
raizel_varun	0:ebdf4f859dca	388	wait_ms(10);
raizel_varun	0:ebdf4f859dca	389	}
raizel_varun	0:ebdf4f859dca	390	}
raizel_varun	0:ebdf4f859dca	391
raizel_varun	0:ebdf4f859dca	392	}*/
raizel_varun	0:ebdf4f859dca	393	void inverse(float mat[3][3], float inv[3][3])
raizel_varun	0:ebdf4f859dca	394	{
raizel_varun	0:ebdf4f859dca	395	int i, j;
raizel_varun	0:ebdf4f859dca	396	float det = 0;
raizel_varun	0:ebdf4f859dca	397	for(i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	398	{ for(j=0;j<3;j++)
raizel_varun	0:ebdf4f859dca	399	inv[j][i] = (mat[(i+1)%3][(j+1)%3]*mat[(i+2)%3][(j+2)%3]) - (mat[(i+2)%3]
raizel_varun	0:ebdf4f859dca	400	[(j+1)%3]*mat[(i+1)%3][(j+2)%3]);
raizel_varun	0:ebdf4f859dca	401	}
raizel_varun	0:ebdf4f859dca	402	det += (mat[0][0]inv[0][0]) + (mat[0][1]inv[1][0]) + (mat[0][2]*inv[2][0]);
raizel_varun	0:ebdf4f859dca	403	for(i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	404	{ for(j=0;j<3;j++)
raizel_varun	0:ebdf4f859dca	405	inv[i][j] /= det;
raizel_varun	0:ebdf4f859dca	406	}
raizel_varun	0:ebdf4f859dca	407	}/*
raizel_varun	0:ebdf4f859dca	408	void getInput (float x[9]) {
raizel_varun	0:ebdf4f859dca	409	//Functions used to generate PWM signal
raizel_varun	0:ebdf4f859dca	410	//PWM output comes from pins p6
raizel_varun	0:ebdf4f859dca	411	Serial pc1(USBTX, USBRX);
raizel_varun	0:ebdf4f859dca	412	char c[10];
raizel_varun	0:ebdf4f859dca	413	char tempchar[8];
raizel_varun	0:ebdf4f859dca	414	int i, j;
raizel_varun	0:ebdf4f859dca	415	//float f[9];
raizel_varun	0:ebdf4f859dca	416	long n = 0;
raizel_varun	0:ebdf4f859dca	417	float flval = 0;
raizel_varun	0:ebdf4f859dca	418	for(j=0;j<9;j++) {
raizel_varun	0:ebdf4f859dca	419	for(i=0;i<9;i++) {
raizel_varun	0:ebdf4f859dca	420	c[i] = pc1.getc(); if(i<8) {
raizel_varun	0:ebdf4f859dca	421	tempchar[i] = c[i];
raizel_varun	0:ebdf4f859dca	422	}
raizel_varun	0:ebdf4f859dca	423	}
raizel_varun	0:ebdf4f859dca	424	sscanf (tempchar, "%8x", &n);
raizel_varun	0:ebdf4f859dca	425	memcpy(&flval, &n, sizeof(long));
sakthipriya	3:20647ff68b3c	426	printf("%f\n\r", flval);
raizel_varun	0:ebdf4f859dca	427	x[j] = flval;
raizel_varun	0:ebdf4f859dca	428	}
raizel_varun	0:ebdf4f859dca	429	}*/
raizel_varun	0:ebdf4f859dca	430
raizel_varun	0:ebdf4f859dca	431	void trSub();
raizel_varun	0:ebdf4f859dca	432	void drSub();
raizel_varun	0:ebdf4f859dca	433	void init_gyro();
raizel_varun	0:ebdf4f859dca	434	float * FUNC_ACS_EXEC_GYR();
raizel_varun	0:ebdf4f859dca	435
raizel_varun	0:ebdf4f859dca	436	void drSub() //In this function we setting data-ready flag to 1
raizel_varun	0:ebdf4f859dca	437	{
raizel_varun	0:ebdf4f859dca	438	drFlag=1;
raizel_varun	0:ebdf4f859dca	439	}
raizel_varun	0:ebdf4f859dca	440	void trSub() //In this function we are setting ticker flag to 0
raizel_varun	0:ebdf4f859dca	441	{
raizel_varun	0:ebdf4f859dca	442	trFlag=0;
raizel_varun	0:ebdf4f859dca	443	}
raizel_varun	0:ebdf4f859dca	444	void FUNC_ACS_INIT_GYR()
raizel_varun	0:ebdf4f859dca	445	{
raizel_varun	0:ebdf4f859dca	446	uint8_t response;
raizel_varun	0:ebdf4f859dca	447	ssn_gyr=1; //Deselecting the chip
greenroshks	2:edd107ea4740	448	spi_acs.format(8,0); // Spi format is 8 bits, and clock mode 3
raizel_varun	0:ebdf4f859dca	449	spi_acs.frequency(1000000); //frequency to be set as 1MHz
raizel_varun	0:ebdf4f859dca	450	drFlag=0; //Intially defining data-ready flag to be 0
raizel_varun	0:ebdf4f859dca	451	dr.mode(PullDown);
raizel_varun	0:ebdf4f859dca	452	dr.rise(&drSub);
raizel_varun	0:ebdf4f859dca	453	__disable_irq();
raizel_varun	0:ebdf4f859dca	454
raizel_varun	0:ebdf4f859dca	455	/Following the above mentioned algorithm for initializing the register and changing its configuration/
raizel_varun	0:ebdf4f859dca	456	ssn_gyr=0; //Selecting chip(Mpu-3300)
raizel_varun	0:ebdf4f859dca	457	spi_acs.write(USER_CTRL\|READFLAG); //sending USER_CTRL address with read bit
raizel_varun	0:ebdf4f859dca	458	response=spi_acs.write(DUMMYBIT); //sending dummy bit to get default values of the register
raizel_varun	0:ebdf4f859dca	459
raizel_varun	0:ebdf4f859dca	460	ssn_gyr=1; //Deselecting the chip
raizel_varun	0:ebdf4f859dca	461	wait(0.1); //waiting according the product specifications
raizel_varun	0:ebdf4f859dca	462
raizel_varun	0:ebdf4f859dca	463	ssn_gyr=0; //again selecting the chip
raizel_varun	0:ebdf4f859dca	464	spi_acs.write(USER_CTRL); //sending USER_CTRL address without read bit
raizel_varun	0:ebdf4f859dca	465	spi_acs.write(response\|BIT_I2C_IF_DIS); //disabling the I2C mode in the register
raizel_varun	0:ebdf4f859dca	466	ssn_gyr=1; //deselecting the chip
raizel_varun	0:ebdf4f859dca	467	wait(0.1); // waiting for 100ms before going for another register
raizel_varun	0:ebdf4f859dca	468
raizel_varun	0:ebdf4f859dca	469	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	470	spi_acs.write(PWR_MGMT_1\|READFLAG); //Power Management register-1
raizel_varun	0:ebdf4f859dca	471	response=spi_acs.write(DUMMYBIT);
raizel_varun	0:ebdf4f859dca	472	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	473	wait(0.1);
raizel_varun	0:ebdf4f859dca	474
raizel_varun	0:ebdf4f859dca	475	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	476	spi_acs.write(PWR_MGMT_1);
raizel_varun	0:ebdf4f859dca	477	response=spi_acs.write(response\|BIT_CLKSEL_X); //Selecting the X axis gyroscope as clock as mentioned above
raizel_varun	0:ebdf4f859dca	478	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	479	wait(0.1);
raizel_varun	0:ebdf4f859dca	480
raizel_varun	0:ebdf4f859dca	481	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	482	spi_acs.write(GYRO_CONFIG\|READFLAG); //sending GYRO_CONFIG address with read bit
raizel_varun	0:ebdf4f859dca	483	response=spi_acs.write(DUMMYBIT);
raizel_varun	0:ebdf4f859dca	484	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	485	wait(0.1);
raizel_varun	0:ebdf4f859dca	486
raizel_varun	0:ebdf4f859dca	487	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	488	spi_acs.write(GYRO_CONFIG); //sending GYRO_CONFIG address to write to register
raizel_varun	0:ebdf4f859dca	489	spi_acs.write(response&(~(BITS_FS_SEL_3\|BITS_FS_SEL_4))); //selecting a full scale mode of +/=225 deg/sec
raizel_varun	0:ebdf4f859dca	490	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	491	wait(0.1);
raizel_varun	0:ebdf4f859dca	492
raizel_varun	0:ebdf4f859dca	493	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	494	spi_acs.write(CONFIG\|READFLAG); //sending CONFIG address with read bit
raizel_varun	0:ebdf4f859dca	495	response=spi_acs.write(DUMMYBIT);
raizel_varun	0:ebdf4f859dca	496	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	497	wait(0.1);
raizel_varun	0:ebdf4f859dca	498
raizel_varun	0:ebdf4f859dca	499	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	500	spi_acs.write(CONFIG); //sending CONFIG address to write to register
raizel_varun	0:ebdf4f859dca	501	spi_acs.write(response\|BITS_DLPF_CFG); //selecting a bandwidth of 42 hz and delay of 4.8ms
raizel_varun	0:ebdf4f859dca	502	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	503	wait(0.1);
raizel_varun	0:ebdf4f859dca	504
raizel_varun	0:ebdf4f859dca	505	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	506	spi_acs.write(SMPLRT_DIV\|READFLAG); //sending SMPLRT_DIV address with read bit
raizel_varun	0:ebdf4f859dca	507	response=spi_acs.write(DUMMYBIT);
raizel_varun	0:ebdf4f859dca	508	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	509	wait(0.1);
raizel_varun	0:ebdf4f859dca	510
raizel_varun	0:ebdf4f859dca	511	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	512	spi_acs.write(SMPLRT_DIV); //sending SMPLRT_DIV address to write to register
raizel_varun	0:ebdf4f859dca	513	spi_acs.write(response&BITS_SMPLRT_DIV); //setting the sampling rate division to be 0 to make sample rate = gyroscopic output rate
raizel_varun	0:ebdf4f859dca	514	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	515	wait(0.1);
raizel_varun	0:ebdf4f859dca	516
raizel_varun	0:ebdf4f859dca	517	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	518	spi_acs.write(INT_ENABLE\|READFLAG); //sending address of INT_ENABLE with readflag
raizel_varun	0:ebdf4f859dca	519	response=spi_acs.write(DUMMYBIT); //sending dummy byte to get the default values of the
raizel_varun	0:ebdf4f859dca	520	// regiser
raizel_varun	0:ebdf4f859dca	521	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	522	wait(0.1);
raizel_varun	0:ebdf4f859dca	523
raizel_varun	0:ebdf4f859dca	524	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	525	spi_acs.write(INT_ENABLE); //sending INT_ENABLE address to write to register
raizel_varun	0:ebdf4f859dca	526	spi_acs.write(response\|BIT_DATA_RDY_ENABLE); //Enbling data ready interrupt
raizel_varun	0:ebdf4f859dca	527	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	528	wait(0.1);
raizel_varun	0:ebdf4f859dca	529
raizel_varun	0:ebdf4f859dca	530	__enable_irq();
raizel_varun	0:ebdf4f859dca	531	}
raizel_varun	0:ebdf4f859dca	532
raizel_varun	0:ebdf4f859dca	533	float * FUNC_ACS_EXEC_GYR()
raizel_varun	0:ebdf4f859dca	534	{
sakthipriya	3:20647ff68b3c	535	printf("\n\rEntered gyro\n\r");
raizel_varun	0:ebdf4f859dca	536	uint8_t response;
raizel_varun	0:ebdf4f859dca	537	uint8_t MSB,LSB;
raizel_varun	0:ebdf4f859dca	538	int16_t bit_data;
raizel_varun	0:ebdf4f859dca	539	float data[3],error[3]={0,0,0}; //declaring error array to add to the values when required
raizel_varun	0:ebdf4f859dca	540	float senstivity = 145.6; //senstivity is 145.6 for full scale mode of +/-225 deg/sec
raizel_varun	0:ebdf4f859dca	541	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	542	spi_acs.write(PWR_MGMT_1\|READFLAG); //sending address of INT_ENABLE with readflag
raizel_varun	0:ebdf4f859dca	543	response=spi_acs.write(DUMMYBIT); //
raizel_varun	0:ebdf4f859dca	544	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	545	wait(0.1);
raizel_varun	0:ebdf4f859dca	546
raizel_varun	0:ebdf4f859dca	547	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	548	spi_acs.write(PWR_MGMT_1); //sending PWR_MGMT_1 address to write to register
raizel_varun	0:ebdf4f859dca	549	response=spi_acs.write(response&(~(BIT_SLEEP))); //waking up the gyroscope from sleep
raizel_varun	0:ebdf4f859dca	550	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	551	wait(0.1);
raizel_varun	0:ebdf4f859dca	552
raizel_varun	0:ebdf4f859dca	553	trFlag=1;
raizel_varun	0:ebdf4f859dca	554	tr.attach(&trSub,1); //executes the function trSub afer 1sec
raizel_varun	0:ebdf4f859dca	555
raizel_varun	0:ebdf4f859dca	556	while(trFlag)
raizel_varun	0:ebdf4f859dca	557	{
raizel_varun	0:ebdf4f859dca	558	wait_ms(5); //This is required for this while loop to exit. I don't know why.
raizel_varun	0:ebdf4f859dca	559	if(drFlag==1)
raizel_varun	0:ebdf4f859dca	560	{
raizel_varun	0:ebdf4f859dca	561	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	562	spi_acs.write(GYRO_XOUT_H\|READFLAG); //sending address of PWR_MGMT_1 with readflag
raizel_varun	0:ebdf4f859dca	563	for(int i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	564	{
raizel_varun	0:ebdf4f859dca	565	MSB = spi_acs.write(DUMMYBIT); //reading the MSB values of x,y and z respectively
raizel_varun	0:ebdf4f859dca	566	LSB = spi_acs.write(DUMMYBIT); //reading the LSB values of x,y and z respectively
raizel_varun	0:ebdf4f859dca	567	bit_data= ((int16_t)MSB<<8)\|LSB; //concatenating to get 16 bit 2's complement of the required gyroscope values
raizel_varun	0:ebdf4f859dca	568	data[i]=(float)bit_data;
raizel_varun	0:ebdf4f859dca	569	data[i]=data[i]/senstivity; //dividing with senstivity to get the readings in deg/sec
raizel_varun	0:ebdf4f859dca	570	data[i]+=error[i]; //adding with error to remove offset errors
raizel_varun	0:ebdf4f859dca	571	}
raizel_varun	0:ebdf4f859dca	572	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	573	for (int i=0;i<3;i++)
raizel_varun	0:ebdf4f859dca	574	{
raizel_varun	0:ebdf4f859dca	575	printf("%f\t",data[i]); //printing the angular velocity values
raizel_varun	0:ebdf4f859dca	576	}
sakthipriya	3:20647ff68b3c	577	printf("\n\r");
raizel_varun	0:ebdf4f859dca	578	break;
raizel_varun	0:ebdf4f859dca	579	}
raizel_varun	0:ebdf4f859dca	580	drFlag=0;
raizel_varun	0:ebdf4f859dca	581	}
raizel_varun	0:ebdf4f859dca	582	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	583	spi_acs.write(PWR_MGMT_1\|READFLAG); //sending address of PWR_MGMT_1 with readflag
raizel_varun	0:ebdf4f859dca	584	response=spi_acs.write(DUMMYBIT);
raizel_varun	0:ebdf4f859dca	585	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	586	wait(0.1);
raizel_varun	0:ebdf4f859dca	587
raizel_varun	0:ebdf4f859dca	588	ssn_gyr=0;
raizel_varun	0:ebdf4f859dca	589	spi_acs.write(PWR_MGMT_1); //sending PWR_MGMT_1 address to write to register
raizel_varun	0:ebdf4f859dca	590	response=spi_acs.write(response\|BIT_SLEEP); //setting the gyroscope in sleep mode
raizel_varun	0:ebdf4f859dca	591	ssn_gyr=1;
raizel_varun	0:ebdf4f859dca	592	wait(0.1);
sakthipriya	3:20647ff68b3c	593	printf("\n\rExited gyro\n\r");
raizel_varun	0:ebdf4f859dca	594	return data;
raizel_varun	0:ebdf4f859dca	595	}
raizel_varun	0:ebdf4f859dca	596
raizel_varun	0:ebdf4f859dca	597
raizel_varun	0:ebdf4f859dca	598
raizel_varun	0:ebdf4f859dca	599
raizel_varun	0:ebdf4f859dca	600
raizel_varun	0:ebdf4f859dca	601

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	03 Feb 2015
Imports:	7
Forks:	3
Commits:	8
Dependents:	0
Dependencies:	2
Followers:	2

ACS.cpp@3:20647ff68b3c, 2015-01-31 (annotated)

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