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Dmitry Kovalev / Mbed 2 deprecated LG2

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Dependencies: mbed

Fork of LG by igor Apu

Command.c@106:250ddd8629c6, 2016-04-01 (annotated)

Committer:: Kovalev_D
Date:: Fri Apr 01 10:05:35 2016 +0000
Revision:: 106:250ddd8629c6
Parent:: 105:bd01d8d20fb6
Child:: 107:4d178bcc9d8a

Who changed what in which revision?

User	Revision	Line number	New contents of line
igor_v	0:8ad47e2b6f00	1	#include "stdlib.h"
igor_v	0:8ad47e2b6f00	2	#include "LPC17xx.h"
igor_v	0:8ad47e2b6f00	3	#include "Global.h"
Kovalev_D	106:250ddd8629c6	4	int tempNH,tempNL;
igor_v	0:8ad47e2b6f00	5	unsigned int Rate_Flag;
igor_v	0:8ad47e2b6f00	6	unsigned int CountBuFFIn;
igor_v	21:bc8c1cec3da6	7	unsigned int N=0,CRC_N;
igor_v	21:bc8c1cec3da6	8	unsigned int Param1=0;
igor_v	21:bc8c1cec3da6	9	unsigned int Param2=0;
igor_v	21:bc8c1cec3da6	10	unsigned int Param3=0;
igor_v	21:bc8c1cec3da6	11	unsigned int Param4=0;
Kovalev_D	102:4270092be987	12	unsigned int Consol=123;
igor_v	0:8ad47e2b6f00	13	/*
igor_v	21:bc8c1cec3da6	14	void exec_CMD(void) //r. === процедура окончательной дешифрации и исполнения команды
igor_v	0:8ad47e2b6f00	15	{
igor_v	0:8ad47e2b6f00	16	unsigned int Comand_code;
igor_v	21:bc8c1cec3da6	17
igor_v	21:bc8c1cec3da6	18	//rx_buf_copy = 1; //r. предустанов флага копирования приемного буфера
igor_v	0:8ad47e2b6f00	19
igor_v	0:8ad47e2b6f00	20	Comand_code = (rcv_buf[2] & 0xFF) << 8;
igor_v	21:bc8c1cec3da6	21	PC_Comand = Comand_code \| (rcv_buf[3] & 0xFF); //e. save it in the memory for echo-transmission //r. сохранить его в памяти для обратной передачи
igor_v	0:8ad47e2b6f00	22	}*/
igor_v	0:8ad47e2b6f00	23	void CMD_Maintenance(void)
igor_v	0:8ad47e2b6f00	24	{
igor_v	30:17c84ed091b3	25	BuffTemp[0] = Gyro.SOC_Out;
igor_v	30:17c84ed091b3	26	BuffTemp[1] = Gyro .My_Addres;
igor_v	30:17c84ed091b3	27	BuffTemp[2] = Gyro .Firmware_Version;
igor_v	30:17c84ed091b3	28	BuffTemp[3] = Gyro .GLD_Serial;
igor_v	21:bc8c1cec3da6	29	BuffTemp[4]=0x00;
igor_v	21:bc8c1cec3da6	30	BuffTemp[5]=0x00;
igor_v	21:bc8c1cec3da6	31	Check(BuffTemp, 8);
igor_v	21:bc8c1cec3da6	32	WriteConN (BuffTemp,8);
igor_v	0:8ad47e2b6f00	33	}
igor_v	0:8ad47e2b6f00	34
igor_v	0:8ad47e2b6f00	35	void CMD_Rate(void)
igor_v	21:bc8c1cec3da6	36	{
igor_v	21:bc8c1cec3da6	37
Kovalev_D	106:250ddd8629c6	38	unsigned int T_VibH , T_VibL; // Частота вибропривода.
Kovalev_D	106:250ddd8629c6	39	unsigned int tau_VibH , tau_VibL;
igor_v	21:bc8c1cec3da6	40	unsigned int Cnt_PlsL , Cnt_PlsH; // Счетчик +.
igor_v	21:bc8c1cec3da6	41	unsigned int Cnt_MnsL , Cnt_MnsH; // Счетчик -.
igor_v	21:bc8c1cec3da6	42	unsigned int Cnt_DifL , Cnt_DifH; // Разность счетчиков.
igor_v	21:bc8c1cec3da6	43	unsigned int F_rasL , F_rasH; // Частота расщепления.
igor_v	21:bc8c1cec3da6	44
Kovalev_D	106:250ddd8629c6	45	unsigned int HF_regL , HF_regH; // Выход регулятора ГВЧ.
Kovalev_D	106:250ddd8629c6	46	unsigned int HF_difL , HF_difH; // Сигнал ошибки регулячтора ГВЧ.
igor_v	21:bc8c1cec3da6	47
igor_v	21:bc8c1cec3da6	48	unsigned int WP_regL , WP_regH;
igor_v	21:bc8c1cec3da6	49
igor_v	21:bc8c1cec3da6	50	unsigned int ADC1L, ADC2L, ADC3L, ADC4L, ADC5L;
igor_v	21:bc8c1cec3da6	51	unsigned int ADC1H, ADC2H, ADC3H, ADC4H, ADC5H;
Kovalev_D	106:250ddd8629c6	52
igor_v	30:17c84ed091b3	53	// Gyro .T_Vib=(unsigned int)((768000016/Gyro.Frq)4096);
Kovalev_D	106:250ddd8629c6	54	Gyro.T_Vib=(unsigned int)((7680000*16/(Gyro.Frq>>12)));
igor_v	30:17c84ed091b3	55	Gyro.Firmware_Version=0xff; /// промежуточная затычка
igor_v	21:bc8c1cec3da6	56
igor_v	30:17c84ed091b3	57	T_VibH = ( Gyro.T_Vib>>8 ) TakeByte;
igor_v	30:17c84ed091b3	58	T_VibL = ( Gyro.T_Vib ) TakeByte;
Kovalev_D	106:250ddd8629c6	59
Kovalev_D	106:250ddd8629c6	60	tau_VibH = ( Gyro.tau >>8 ) TakeByte;
Kovalev_D	106:250ddd8629c6	61	tau_VibL = ( Gyro.tau ) TakeByte;
Kovalev_D	106:250ddd8629c6	62
igor_v	30:17c84ed091b3	63	Cnt_PlsH = ( Gyro.Cnt_Pls>>8) TakeByte;
Kovalev_D	106:250ddd8629c6	64	Cnt_PlsL = Gyro.Cnt_Pls TakeByte;
Kovalev_D	106:250ddd8629c6	65	Gyro.Cnt_Pls= 0;
Kovalev_D	106:250ddd8629c6	66
igor_v	30:17c84ed091b3	67	Cnt_MnsH = ( Gyro.Cnt_Mns>>8) TakeByte;
Kovalev_D	106:250ddd8629c6	68	Cnt_MnsL = Gyro.Cnt_Mns TakeByte;
Kovalev_D	106:250ddd8629c6	69	Gyro.Cnt_Mns=0;
Kovalev_D	106:250ddd8629c6	70
Kovalev_D	106:250ddd8629c6	71	Cnt_DifH = ( Dif_QEI>>8) TakeByte;
Kovalev_D	106:250ddd8629c6	72	Cnt_DifL = ( Dif_QEI ) TakeByte;
Kovalev_D	106:250ddd8629c6	73
Kovalev_D	106:250ddd8629c6	74	//Spi.DAC_A
igor_v	30:17c84ed091b3	75	F_rasH = ( Gyro.F_ras>>8 ) TakeByte;
igor_v	30:17c84ed091b3	76	F_rasL = ( Gyro.F_ras ) TakeByte;
Kovalev_D	106:250ddd8629c6	77
Kovalev_D	106:250ddd8629c6	78	HF_regL = ( Spi.DAC_A>>8 ) TakeByte;
Kovalev_D	106:250ddd8629c6	79	HF_regH = ( Spi.DAC_A>>8 ) TakeByte;
Kovalev_D	106:250ddd8629c6	80
Kovalev_D	106:250ddd8629c6	81
igor_v	21:bc8c1cec3da6	82	ADC1H = ( Spi.ADC1>>8 ) TakeByte;
Kovalev_D	45:cbc955aecebe	83	ADC1L = ( Spi.ADC1 ) TakeByte;
igor_v	0:8ad47e2b6f00	84
igor_v	21:bc8c1cec3da6	85	ADC2H = ( Spi.ADC2>>8 ) TakeByte;
Kovalev_D	45:cbc955aecebe	86	ADC2L = ( Spi.ADC2 ) TakeByte;
igor_v	21:bc8c1cec3da6	87
igor_v	21:bc8c1cec3da6	88	ADC3H = ( Spi.ADC3>>8 ) TakeByte;
Kovalev_D	45:cbc955aecebe	89	ADC3L = ( Spi.ADC3 ) TakeByte;
igor_v	21:bc8c1cec3da6	90
igor_v	21:bc8c1cec3da6	91	ADC4H = ( Spi.ADC4>>8 ) TakeByte;
Kovalev_D	45:cbc955aecebe	92	ADC4L = ( Spi.ADC4 ) TakeByte;
igor_v	21:bc8c1cec3da6	93
igor_v	21:bc8c1cec3da6	94	ADC5H = ( Spi.ADC5>>8 ) TakeByte;
Kovalev_D	45:cbc955aecebe	95	ADC5L = ( Spi.ADC5 ) TakeByte;
igor_v	21:bc8c1cec3da6	96
igor_v	21:bc8c1cec3da6	97	WP_regH = ( Spi.DAC_B>>8 ) TakeByte;
igor_v	21:bc8c1cec3da6	98	WP_regL = ( Spi.DAC_B ) TakeByte;
igor_v	21:bc8c1cec3da6	99
igor_v	21:bc8c1cec3da6	100	HF_regH=0xff;
igor_v	21:bc8c1cec3da6	101	HF_regL=0xff;
igor_v	21:bc8c1cec3da6	102
igor_v	21:bc8c1cec3da6	103	HF_difH=0xff;
igor_v	21:bc8c1cec3da6	104	HF_difL=0xff;
igor_v	21:bc8c1cec3da6	105
igor_v	0:8ad47e2b6f00	106
igor_v	30:17c84ed091b3	107	BuffTemp[ 0] = Gyro.SOC_Out;
igor_v	30:17c84ed091b3	108	BuffTemp[ 1] = Gyro.My_Addres;
igor_v	21:bc8c1cec3da6	109
Kovalev_D	106:250ddd8629c6	110	BuffTemp[ 2] =0x00;//старший байт счетчика +.
Kovalev_D	106:250ddd8629c6	111	BuffTemp[ 3] =0x00;//младший байт счетчика +.
Kovalev_D	106:250ddd8629c6	112	BuffTemp[ 4] =0x00;//старший байт счетчика -.
Kovalev_D	106:250ddd8629c6	113	BuffTemp[ 5] =0x00;//младший байт счетчика -.
Kovalev_D	106:250ddd8629c6	114	BuffTemp[ 6] =0x00;//старший байт разности счетчиков
Kovalev_D	106:250ddd8629c6	115	BuffTemp[ 7] =0x00;//младший байт разности счетчиков
igor_v	21:bc8c1cec3da6	116
Kovalev_D	106:250ddd8629c6	117	BuffTemp[ 8] = F_rasH;//расщипление частота
Kovalev_D	106:250ddd8629c6	118	BuffTemp[ 9] = F_rasL;//
igor_v	21:bc8c1cec3da6	119
Kovalev_D	106:250ddd8629c6	120	BuffTemp[10] = HF_regH;//выход регулятора гвч;
igor_v	21:bc8c1cec3da6	121	BuffTemp[11] = HF_regL;
igor_v	21:bc8c1cec3da6	122
Kovalev_D	106:250ddd8629c6	123	BuffTemp[12]=0x01;////
Kovalev_D	106:250ddd8629c6	124	BuffTemp[13]=0x01;////
igor_v	21:bc8c1cec3da6	125
Kovalev_D	106:250ddd8629c6	126	BuffTemp[14] = T_VibH;
Kovalev_D	106:250ddd8629c6	127	BuffTemp[15] = T_VibL;
igor_v	21:bc8c1cec3da6	128
Kovalev_D	106:250ddd8629c6	129	BuffTemp[16] = 0x01;
Kovalev_D	106:250ddd8629c6	130	BuffTemp[17] = 0x02;
igor_v	21:bc8c1cec3da6	131
Kovalev_D	106:250ddd8629c6	132	BuffTemp[18] = tau_VibH;
Kovalev_D	106:250ddd8629c6	133	BuffTemp[19] = tau_VibL;
igor_v	21:bc8c1cec3da6	134
Kovalev_D	106:250ddd8629c6	135	BuffTemp[20] = 0x00;
Kovalev_D	106:250ddd8629c6	136	BuffTemp[21] = 0x00;
igor_v	21:bc8c1cec3da6	137
Kovalev_D	106:250ddd8629c6	138	BuffTemp[22] = 0x00;
Kovalev_D	106:250ddd8629c6	139	BuffTemp[23] = 0x00;
igor_v	21:bc8c1cec3da6	140
Kovalev_D	106:250ddd8629c6	141	BuffTemp[24] = 0x00;
Kovalev_D	106:250ddd8629c6	142	BuffTemp[25] = 0x00;// ХЗ
igor_v	21:bc8c1cec3da6	143
Kovalev_D	106:250ddd8629c6	144	BuffTemp[26] = ADC1H;
Kovalev_D	106:250ddd8629c6	145	BuffTemp[27] = ADC1L;
igor_v	21:bc8c1cec3da6	146
Kovalev_D	106:250ddd8629c6	147	BuffTemp[28] = ADC2H;
Kovalev_D	106:250ddd8629c6	148	BuffTemp[29] = ADC2L;
igor_v	21:bc8c1cec3da6	149
Kovalev_D	106:250ddd8629c6	150	BuffTemp[30] = ADC2H;//in1
Kovalev_D	106:250ddd8629c6	151	BuffTemp[31] = ADC2L;
igor_v	21:bc8c1cec3da6	152
Kovalev_D	106:250ddd8629c6	153	BuffTemp[32] = ADC3H;
Kovalev_D	106:250ddd8629c6	154	BuffTemp[33] = ADC3L;//in2
igor_v	21:bc8c1cec3da6	155
Kovalev_D	106:250ddd8629c6	156	BuffTemp[34] = ADC5H;
Kovalev_D	106:250ddd8629c6	157	BuffTemp[35] = ADC5L;
igor_v	21:bc8c1cec3da6	158
Kovalev_D	106:250ddd8629c6	159	BuffTemp[36] =0x00;//ADC6
Kovalev_D	106:250ddd8629c6	160	BuffTemp[37] =0x00;//ADC6
igor_v	21:bc8c1cec3da6	161
Kovalev_D	106:250ddd8629c6	162	BuffTemp[38] =0x00;
Kovalev_D	106:250ddd8629c6	163	BuffTemp[39] =0x00;
Kovalev_D	106:250ddd8629c6	164	BuffTemp[40] =0x00;
Kovalev_D	106:250ddd8629c6	165	BuffTemp[41] =0x00;
igor_v	21:bc8c1cec3da6	166
igor_v	21:bc8c1cec3da6	167
igor_v	21:bc8c1cec3da6	168	Check(BuffTemp, 44);
igor_v	21:bc8c1cec3da6	169	WriteConN (BuffTemp,44);
Kovalev_D	92:c892f0311aa7	170
igor_v	0:8ad47e2b6f00	171	}
igor_v	0:8ad47e2b6f00	172
igor_v	21:bc8c1cec3da6	173	void CMD_M_Control_D8()///установка\сброс регистров управления
igor_v	21:bc8c1cec3da6	174	{
Kovalev_D	104:ab1cb4ff56b2	175	unsigned int bit,NReg,Pa;
Kovalev_D	104:ab1cb4ff56b2	176	unsigned int SR,V,A,Bit_num;
Kovalev_D	104:ab1cb4ff56b2	177	SR=0;
Kovalev_D	104:ab1cb4ff56b2	178	V=0;
Kovalev_D	104:ab1cb4ff56b2	179	A=0;
Kovalev_D	104:ab1cb4ff56b2	180	Bit_num=0;
Kovalev_D	104:ab1cb4ff56b2	181
igor_v	30:17c84ed091b3	182	BuffTemp[0] = Gyro.SOC_Out; //DD
igor_v	30:17c84ed091b3	183	BuffTemp[1] = Gyro.My_Addres; //00
igor_v	30:17c84ed091b3	184	BuffTemp[2] = Gyro.CMD_In; //D8
Kovalev_D	104:ab1cb4ff56b2	185
Kovalev_D	104:ab1cb4ff56b2	186	/*
Kovalev_D	104:ab1cb4ff56b2	187
Kovalev_D	104:ab1cb4ff56b2	188	FrqON
Kovalev_D	104:ab1cb4ff56b2	189	PlcON
Kovalev_D	104:ab1cb4ff56b2	190	HFOOFF
Kovalev_D	104:ab1cb4ff56b2	191	HFOON
igor_v	21:bc8c1cec3da6	192
Kovalev_D	104:ab1cb4ff56b2	193	PlcOFF
Kovalev_D	104:ab1cb4ff56b2	194	PlcON
Kovalev_D	104:ab1cb4ff56b2	195	*/
Kovalev_D	104:ab1cb4ff56b2	196	Pa = BuffTemp[3];
Kovalev_D	104:ab1cb4ff56b2	197
Kovalev_D	104:ab1cb4ff56b2	198	SR = Pa >> 0x7;
Kovalev_D	104:ab1cb4ff56b2	199
Kovalev_D	104:ab1cb4ff56b2	200	V = Pa >> 0x5;
Kovalev_D	104:ab1cb4ff56b2	201	V = V & 0x3;
Kovalev_D	104:ab1cb4ff56b2	202
Kovalev_D	104:ab1cb4ff56b2	203	A = Pa >> 0x4;
Kovalev_D	104:ab1cb4ff56b2	204	A = A & 0x1;
Kovalev_D	104:ab1cb4ff56b2	205
Kovalev_D	104:ab1cb4ff56b2	206	Bit_num = Pa & 0xf;
Kovalev_D	104:ab1cb4ff56b2	207
Kovalev_D	104:ab1cb4ff56b2	208	if(SR) {
Kovalev_D	104:ab1cb4ff56b2	209	switch (Bit_num){
Kovalev_D	105:bd01d8d20fb6	210
Kovalev_D	104:ab1cb4ff56b2	211	case 0x06:
Kovalev_D	104:ab1cb4ff56b2	212	FrqON
Kovalev_D	105:bd01d8d20fb6	213	break;
Kovalev_D	105:bd01d8d20fb6	214
Kovalev_D	104:ab1cb4ff56b2	215	case 0x03:
Kovalev_D	105:bd01d8d20fb6	216	HFOON
Kovalev_D	105:bd01d8d20fb6	217	break;
Kovalev_D	105:bd01d8d20fb6	218
Kovalev_D	105:bd01d8d20fb6	219	case 0x01:
Kovalev_D	105:bd01d8d20fb6	220	PlcON
Kovalev_D	105:bd01d8d20fb6	221	break;
Kovalev_D	104:ab1cb4ff56b2	222	}
Kovalev_D	104:ab1cb4ff56b2	223	}
Kovalev_D	104:ab1cb4ff56b2	224	else{
Kovalev_D	104:ab1cb4ff56b2	225	switch (Bit_num){
Kovalev_D	105:bd01d8d20fb6	226
Kovalev_D	105:bd01d8d20fb6	227	case 0x06:
Kovalev_D	104:ab1cb4ff56b2	228	FrqOff
Kovalev_D	105:bd01d8d20fb6	229	break;
Kovalev_D	105:bd01d8d20fb6	230
Kovalev_D	105:bd01d8d20fb6	231	case 0x03:
Kovalev_D	105:bd01d8d20fb6	232	HFOOFF
Kovalev_D	105:bd01d8d20fb6	233	break;
Kovalev_D	105:bd01d8d20fb6	234
Kovalev_D	105:bd01d8d20fb6	235	case 0x01:
Kovalev_D	105:bd01d8d20fb6	236	PlcOFF
Kovalev_D	105:bd01d8d20fb6	237	break;
Kovalev_D	104:ab1cb4ff56b2	238	}
Kovalev_D	104:ab1cb4ff56b2	239	}
igor_v	21:bc8c1cec3da6	240
igor_v	0:8ad47e2b6f00	241	}
igor_v	0:8ad47e2b6f00	242
igor_v	21:bc8c1cec3da6	243	void CMD_M_Control_D9()///чтение регистров управления
igor_v	21:bc8c1cec3da6	244	{
igor_v	21:bc8c1cec3da6	245	int bit,NReg;
igor_v	30:17c84ed091b3	246	BuffTemp[0] = Gyro.SOC_Out; //DD
igor_v	30:17c84ed091b3	247	BuffTemp[1] = Gyro.My_Addres; //00
igor_v	30:17c84ed091b3	248	BuffTemp[2] = Gyro.CMD_In; //D9
igor_v	21:bc8c1cec3da6	249	if ((Param1 & 0x10) == 0) {
igor_v	21:bc8c1cec3da6	250	BuffTemp[3]=0<<4;
igor_v	30:17c84ed091b3	251	BuffTemp[4] = (Gyro.RgConA>>8 )& 0xff;
igor_v	30:17c84ed091b3	252	BuffTemp[5] = Gyro.RgConA & 0xff;
igor_v	21:bc8c1cec3da6	253	} else {
igor_v	21:bc8c1cec3da6	254	BuffTemp[3]=1<<4;
igor_v	30:17c84ed091b3	255	BuffTemp[4] = (Gyro.RgConB>>8 ) & 0xff;
igor_v	30:17c84ed091b3	256	BuffTemp[5] = Gyro.RgConB & 0xff;
igor_v	21:bc8c1cec3da6	257	}
igor_v	21:bc8c1cec3da6	258	Check(BuffTemp, CRC_N);
igor_v	21:bc8c1cec3da6	259	WriteConN (BuffTemp,CRC_N);
igor_v	21:bc8c1cec3da6	260	}
igor_v	21:bc8c1cec3da6	261	// (номер (код) ЦАПа 0...3, старший байт требуемого ЦАПа, младший байт треб ЦАПа)
igor_v	0:8ad47e2b6f00	262	void CMD_M_Stymul()
igor_v	0:8ad47e2b6f00	263	{
igor_v	21:bc8c1cec3da6	264	int temp;
Kovalev_D	102:4270092be987	265	int HFO;
Kovalev_D	102:4270092be987	266	temp=BuffTemp[3];
Kovalev_D	102:4270092be987	267	Consol = temp&0x3;
Kovalev_D	103:e96f08947def	268	HFO = temp&0x3;// // (номер (код) ЦАПа 0...3, HFO - 3dac, PLC - 0DAC
igor_v	21:bc8c1cec3da6	269	temp =((BuffTemp[4]<<8) \| BuffTemp[5]);
igor_v	21:bc8c1cec3da6	270	// temp=0;
igor_v	21:bc8c1cec3da6	271	temp=temp&0xFFFF;
Kovalev_D	102:4270092be987	272
Kovalev_D	102:4270092be987	273	if(HFO)
Kovalev_D	102:4270092be987	274	{
Kovalev_D	102:4270092be987	275	Spi.DAC_A=(unsigned int)temp;
Kovalev_D	102:4270092be987	276	}
Kovalev_D	102:4270092be987	277	else{
igor_v	21:bc8c1cec3da6	278	DACF =(temp*K_DAC)+deltaDAC;
igor_v	21:bc8c1cec3da6	279	Spi.DAC_B =(unsigned int)(DACF) /(unsigned int)(tempK_DAC+deltaDAC)*/; // K_DAC);
igor_v	21:bc8c1cec3da6	280	}
igor_v	0:8ad47e2b6f00	281	}
Kovalev_D	103:e96f08947def	282	void Gph_W()
Kovalev_D	103:e96f08947def	283	{
Kovalev_D	103:e96f08947def	284	int Gain_A;
Kovalev_D	103:e96f08947def	285	int Gain_B;
Kovalev_D	103:e96f08947def	286	Gyro.Gain_A=BuffTemp[4];
Kovalev_D	103:e96f08947def	287	Gyro.Gain_B=BuffTemp[5];
Kovalev_D	103:e96f08947def	288	}
igor_v	0:8ad47e2b6f00	289
Kovalev_D	98:95b8e79f13e1	290	void CMD_M_vib()
Kovalev_D	102:4270092be987	291	{ LoopOn
Kovalev_D	102:4270092be987	292	unsigned int temp1,temp2;
Kovalev_D	102:4270092be987	293
Kovalev_D	102:4270092be987	294	temp1 =((BuffTemp[4]<<8) \| BuffTemp[5]);
Kovalev_D	102:4270092be987	295	temp1=temp1&0xFFFF;
Kovalev_D	102:4270092be987	296
Kovalev_D	102:4270092be987	297	temp2 =((BuffTemp[6]<<8) \| BuffTemp[7]);
Kovalev_D	102:4270092be987	298	temp2=temp2&0xFFFF;
Kovalev_D	102:4270092be987	299	Gyro.Frq = ((unsigned int) ((768000016/temp1)))161616;
Kovalev_D	102:4270092be987	300	Consol=Gyro.Frq ;
Kovalev_D	98:95b8e79f13e1	301	}
igor_v	0:8ad47e2b6f00	302	unsigned int Check(char *c, unsigned int Count)
igor_v	0:8ad47e2b6f00	303	{
igor_v	21:bc8c1cec3da6	304	int i=1;
igor_v	21:bc8c1cec3da6	305	unsigned int temp,CRC;
igor_v	21:bc8c1cec3da6	306
igor_v	21:bc8c1cec3da6	307
igor_v	21:bc8c1cec3da6	308	temp=1;
igor_v	21:bc8c1cec3da6	309	CRC=0;
igor_v	21:bc8c1cec3da6	310
igor_v	21:bc8c1cec3da6	311
igor_v	21:bc8c1cec3da6	312	for(; i<Count-2; i++) {
igor_v	21:bc8c1cec3da6	313	CRC+=c[i];
igor_v	21:bc8c1cec3da6	314	}
igor_v	0:8ad47e2b6f00	315
igor_v	21:bc8c1cec3da6	316	if(c[Count-2]!=((CRC>>8)&0xFF)) {
igor_v	21:bc8c1cec3da6	317	temp=0;
igor_v	30:17c84ed091b3	318	Gyro.RsErrLine = (Gyro.RsErrLine)&=0x2;
igor_v	21:bc8c1cec3da6	319	}
igor_v	0:8ad47e2b6f00	320
igor_v	21:bc8c1cec3da6	321	if(c[Count-1]!=((CRC>>0)&0xFF)) {
igor_v	21:bc8c1cec3da6	322	temp=0;
igor_v	30:17c84ed091b3	323	// Gyro.RsErrLine= (Gyro.RsErrLine)=0x2;
igor_v	21:bc8c1cec3da6	324	}
igor_v	21:bc8c1cec3da6	325
igor_v	21:bc8c1cec3da6	326	c[Count-2]=(CRC>>8)&0xFF;
igor_v	21:bc8c1cec3da6	327	c[Count-1]=(CRC>>0)&0xFF;
igor_v	21:bc8c1cec3da6	328
igor_v	21:bc8c1cec3da6	329
igor_v	21:bc8c1cec3da6	330
igor_v	21:bc8c1cec3da6	331	return temp;
igor_v	0:8ad47e2b6f00	332	}
igor_v	0:8ad47e2b6f00	333
igor_v	0:8ad47e2b6f00	334	int Getlengf(void)
igor_v	0:8ad47e2b6f00	335	{
igor_v	21:bc8c1cec3da6	336	unsigned int lengf=0;
igor_v	30:17c84ed091b3	337	switch(Gyro.CMD_In) {
igor_v	30:17c84ed091b3	338	case 0x99://Gyrotainance
Kovalev_D	92:c892f0311aa7	339
igor_v	21:bc8c1cec3da6	340	lengf=6;
igor_v	21:bc8c1cec3da6	341	CRC_N=8;
igor_v	21:bc8c1cec3da6	342	break;
igor_v	0:8ad47e2b6f00	343
igor_v	21:bc8c1cec3da6	344	case 0x0A: //m_stymul
igor_v	21:bc8c1cec3da6	345	lengf=8;
igor_v	21:bc8c1cec3da6	346	break;
igor_v	21:bc8c1cec3da6	347
igor_v	21:bc8c1cec3da6	348	case 0xA5://DeviceMode
igor_v	21:bc8c1cec3da6	349
igor_v	21:bc8c1cec3da6	350	lengf=6;
igor_v	21:bc8c1cec3da6	351	CRC_N=8;
igor_v	21:bc8c1cec3da6	352	break;
igor_v	21:bc8c1cec3da6	353
igor_v	21:bc8c1cec3da6	354	case 0xDD://m_rate
igor_v	0:8ad47e2b6f00	355
igor_v	21:bc8c1cec3da6	356	lengf=6;
igor_v	21:bc8c1cec3da6	357	CRC_N=44;
igor_v	21:bc8c1cec3da6	358	break;
igor_v	21:bc8c1cec3da6	359
igor_v	21:bc8c1cec3da6	360	case 0xB0://DeviceMode
igor_v	21:bc8c1cec3da6	361
igor_v	21:bc8c1cec3da6	362	lengf=6;
igor_v	21:bc8c1cec3da6	363	CRC_N=8;
igor_v	21:bc8c1cec3da6	364	break;
igor_v	21:bc8c1cec3da6	365
igor_v	21:bc8c1cec3da6	366	case 0xD8://m_control
igor_v	0:8ad47e2b6f00	367
igor_v	21:bc8c1cec3da6	368	lengf=6;
igor_v	21:bc8c1cec3da6	369	CRC_N=8;
igor_v	21:bc8c1cec3da6	370	break;
igor_v	21:bc8c1cec3da6	371
igor_v	21:bc8c1cec3da6	372	case 0xD9://m_control
igor_v	0:8ad47e2b6f00	373
igor_v	21:bc8c1cec3da6	374	lengf=6;
igor_v	21:bc8c1cec3da6	375	CRC_N=8;
igor_v	21:bc8c1cec3da6	376	break;
Kovalev_D	102:4270092be987	377
Kovalev_D	102:4270092be987	378	case 0xE4:
Kovalev_D	98:95b8e79f13e1	379	lengf=8;
Kovalev_D	98:95b8e79f13e1	380	break;
Kovalev_D	103:e96f08947def	381
Kovalev_D	103:e96f08947def	382
Kovalev_D	103:e96f08947def	383	case 0xE6:
Kovalev_D	103:e96f08947def	384	lengf=8;
Kovalev_D	103:e96f08947def	385	break;
Kovalev_D	103:e96f08947def	386
igor_v	21:bc8c1cec3da6	387	}
Kovalev_D	98:95b8e79f13e1	388
igor_v	21:bc8c1cec3da6	389	return lengf;
igor_v	0:8ad47e2b6f00	390	}
igor_v	0:8ad47e2b6f00	391
igor_v	0:8ad47e2b6f00	392	void Read_CMD(void)
igor_v	21:bc8c1cec3da6	393	{
Kovalev_D	92:c892f0311aa7	394
Kovalev_D	45:cbc955aecebe	395
Kovalev_D	45:cbc955aecebe	396	Gyro.RsErrLine = (Gyro.RsErrLine)& 0xffff;//для сброса ошибки
igor_v	21:bc8c1cec3da6	397
igor_v	21:bc8c1cec3da6	398
Kovalev_D	45:cbc955aecebe	399
Kovalev_D	93:b3803774f110	400	CountBuFFIn=ReadChekCon1(BuffTemp); // чтение данных из консоли
igor_v	42:6fc307c4963e	401
Kovalev_D	92:c892f0311aa7	402	if(CountBuFFIn==1) { // если есть первый байт
igor_v	21:bc8c1cec3da6	403	if (BuffTemp[0] != SOC_In) {
Kovalev_D	93:b3803774f110	404	ReadCon1(BuffTemp);
igor_v	30:17c84ed091b3	405	Gyro.RsErrLine += 0x100;//WriteCon("\n\r ...Error.... ");
Kovalev_D	93:b3803774f110	406	BuffTemp[99]=Gyro.RsErrLine;
Kovalev_D	102:4270092be987	407
igor_v	21:bc8c1cec3da6	408	}
Kovalev_D	92:c892f0311aa7	409	} else if(CountBuFFIn==2) { //если второй ,fqn
igor_v	30:17c84ed091b3	410	if (BuffTemp[1] != Gyro.My_Addres) {
Kovalev_D	93:b3803774f110	411	ReadCon1(BuffTemp);
igor_v	30:17c84ed091b3	412	Gyro.RsErrLine += 0x1;//WriteCon("\n\r ...Error_ADDRES.... ");
igor_v	21:bc8c1cec3da6	413	}
igor_v	42:6fc307c4963e	414	} else if(CountBuFFIn==3) { // если ьоетий байт
igor_v	30:17c84ed091b3	415	Gyro.CMD_In=BuffTemp[2];
Kovalev_D	92:c892f0311aa7	416	N=Getlengf();
Kovalev_D	92:c892f0311aa7	417	}
Kovalev_D	92:c892f0311aa7	418	else if(CountBuFFIn==4 && (N==6))
Kovalev_D	92:c892f0311aa7	419	{ // N - длина посылки аскглд(для записи параметров). определяется по коду команды в Getlengf();
igor_v	21:bc8c1cec3da6	420	Param1=BuffTemp[3];
Kovalev_D	92:c892f0311aa7	421	}
Kovalev_D	92:c892f0311aa7	422	else if((CountBuFFIn==5)&&(N==7))
Kovalev_D	92:c892f0311aa7	423	{
Kovalev_D	92:c892f0311aa7	424
igor_v	21:bc8c1cec3da6	425	Param1=BuffTemp[3];
igor_v	21:bc8c1cec3da6	426	Param2=BuffTemp[4];
igor_v	0:8ad47e2b6f00	427
Kovalev_D	92:c892f0311aa7	428	}
Kovalev_D	92:c892f0311aa7	429	else if((CountBuFFIn==6)&&(N==8))
Kovalev_D	92:c892f0311aa7	430	{
igor_v	21:bc8c1cec3da6	431	Param1=BuffTemp[3];
igor_v	21:bc8c1cec3da6	432	Param2=BuffTemp[4];
igor_v	21:bc8c1cec3da6	433	Param3=BuffTemp[5];
Kovalev_D	92:c892f0311aa7	434	}
Kovalev_D	102:4270092be987	435	else if((CountBuFFIn==8)&&(N==10))
Kovalev_D	102:4270092be987	436	{
Kovalev_D	102:4270092be987	437	Param1=BuffTemp[4];
Kovalev_D	102:4270092be987	438	Param2=BuffTemp[5];
Kovalev_D	102:4270092be987	439	Param3=BuffTemp[6];
Kovalev_D	102:4270092be987	440	Param4=BuffTemp[7];
Kovalev_D	102:4270092be987	441	}
Kovalev_D	98:95b8e79f13e1	442
Kovalev_D	92:c892f0311aa7	443	else if(CountBuFFIn > (N-1))
Kovalev_D	92:c892f0311aa7	444	{
Kovalev_D	93:b3803774f110	445	ReadCon1(BuffTemp);
igor_v	30:17c84ed091b3	446	switch(Gyro.CMD_In) {
Kovalev_D	92:c892f0311aa7	447	case 0x99:
Kovalev_D	93:b3803774f110	448
igor_v	21:bc8c1cec3da6	449	CMD_Maintenance();
igor_v	21:bc8c1cec3da6	450	break;
igor_v	21:bc8c1cec3da6	451	case 0xD8:
igor_v	21:bc8c1cec3da6	452	CMD_M_Control_D8();
igor_v	21:bc8c1cec3da6	453	case 0xD9:
igor_v	21:bc8c1cec3da6	454	CMD_M_Control_D9();
igor_v	21:bc8c1cec3da6	455	break;
igor_v	21:bc8c1cec3da6	456	case 0x0A:
Kovalev_D	45:cbc955aecebe	457	CMD_M_Stymul();
igor_v	21:bc8c1cec3da6	458	break;
igor_v	21:bc8c1cec3da6	459	case 0xDD:
igor_v	21:bc8c1cec3da6	460	Rate_Flag=1;
Kovalev_D	102:4270092be987	461	break;
Kovalev_D	102:4270092be987	462	case 0xE4:
Kovalev_D	102:4270092be987	463	CMD_M_vib();
Kovalev_D	102:4270092be987	464	break;
Kovalev_D	103:e96f08947def	465	case 0xE6:
Kovalev_D	103:e96f08947def	466	Gph_W();
Kovalev_D	103:e96f08947def	467	break;
Kovalev_D	103:e96f08947def	468
Kovalev_D	103:e96f08947def	469
igor_v	30:17c84ed091b3	470	Gyro.RsErrLine = 0;
Kovalev_D	103:e96f08947def	471
Kovalev_D	103:e96f08947def	472
Kovalev_D	102:4270092be987	473	}
igor_v	21:bc8c1cec3da6	474	}
igor_v	0:8ad47e2b6f00	475	}
igor_v	0:8ad47e2b6f00	476
igor_v	0:8ad47e2b6f00	477
igor_v	21:bc8c1cec3da6	478

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	20 Oct 2016
Imports:	4
Forks:	1
Commits:	220
Dependents:	0
Dependencies:	1
Followers:	1

Command.c@106:250ddd8629c6, 2016-04-01 (annotated)

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