Dmitry Kovalev / Mbed 2 deprecated LG2

fork

Dependencies:   mbed

Fork of LG by igor Apu

Command.c@165:b2bd0c810a4f, 2016-05-20 (annotated)

Committer:
Kovalev_D
Date:
Fri May 20 14:03:58 2016 +0000
Revision:
165:b2bd0c810a4f
Parent:
163:affb5706d191
Child:
168:f4a6abb18358
456

Who changed what in which revision?

UserRevisionLine numberNew 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;
Kovalev_D 121:bbae560cdd43 13 unsigned int TempParam=1;
Kovalev_D 124:9ae09249f842 14 unsigned int CountParam=0;
Kovalev_D 129:406995a91322 15
Kovalev_D 148:7ce8c1fd00f7 16 int ttemp;
Kovalev_D 136:19b9e6abb86f 17
Kovalev_D 136:19b9e6abb86f 18
Kovalev_D 136:19b9e6abb86f 19 unsigned int pDestT ;
Kovalev_D 136:19b9e6abb86f 20 GyroParam *Flash;
Kovalev_D 147:1aed74f19a8f 21 ///////////////flah and boot///////////
Kovalev_D 147:1aed74f19a8f 22 void GoBoot(void)
Kovalev_D 147:1aed74f19a8f 23 {
Kovalev_D 147:1aed74f19a8f 24 /* Prepare Sectors to be flashed */
Kovalev_D 147:1aed74f19a8f 25 NVIC_DisableIRQ(TIMER1_IRQn);
Kovalev_D 147:1aed74f19a8f 26 NVIC_DisableIRQ(TIMER2_IRQn);
Kovalev_D 147:1aed74f19a8f 27 NVIC_DisableIRQ(TIMER3_IRQn);
Kovalev_D 147:1aed74f19a8f 28 NVIC_DisableIRQ(EINT3_IRQn);
Kovalev_D 147:1aed74f19a8f 29 SystemInitDef();
Kovalev_D 147:1aed74f19a8f 30 vIAP_ReinvokeISP();
Kovalev_D 147:1aed74f19a8f 31 }
Kovalev_D 147:1aed74f19a8f 32
Kovalev_D 147:1aed74f19a8f 33 void WriteFlash(void)
Kovalev_D 147:1aed74f19a8f 34 {
Kovalev_D 147:1aed74f19a8f 35
Kovalev_D 147:1aed74f19a8f 36 NVIC_DisableIRQ(TIMER1_IRQn);
Kovalev_D 147:1aed74f19a8f 37 NVIC_DisableIRQ(TIMER2_IRQn);
Kovalev_D 147:1aed74f19a8f 38 NVIC_DisableIRQ(TIMER3_IRQn);
Kovalev_D 147:1aed74f19a8f 39 NVIC_DisableIRQ(EINT3_IRQn);
Kovalev_D 147:1aed74f19a8f 40
Kovalev_D 147:1aed74f19a8f 41 SystemInitDef();
Kovalev_D 147:1aed74f19a8f 42 WriteCon("\r\n Start Prepare Sectors");
Kovalev_D 147:1aed74f19a8f 43 if(u32IAP_PrepareSectors(18, 21) == IAP_STA_CMD_SUCCESS)
Kovalev_D 147:1aed74f19a8f 44 {
Kovalev_D 147:1aed74f19a8f 45 WriteCon("\r\nPrepare Sectors OK");
Kovalev_D 147:1aed74f19a8f 46 WriteCon("\r\n Start Erase");
Kovalev_D 147:1aed74f19a8f 47 u32IAP_EraseSectors(IMG_START_SECTOR, IMG_END_SECTOR);
Kovalev_D 147:1aed74f19a8f 48 WriteCon("\r\n AND Erase");
Kovalev_D 147:1aed74f19a8f 49 }
Kovalev_D 147:1aed74f19a8f 50 else WriteCon("\r\nPrepare Sectors ERROR");
Kovalev_D 147:1aed74f19a8f 51 SystemInit1();
Kovalev_D 147:1aed74f19a8f 52 Gyro.FlashMod = 0;
Kovalev_D 147:1aed74f19a8f 53 }
Kovalev_D 136:19b9e6abb86f 54
Kovalev_D 136:19b9e6abb86f 55 void ReadFlash ( void)
Kovalev_D 136:19b9e6abb86f 56 {
Kovalev_D 147:1aed74f19a8f 57 Gyro.FlashMod = 0;
Kovalev_D 136:19b9e6abb86f 58 WriteCon("\r\n Pirivet Flash");
Kovalev_D 136:19b9e6abb86f 59 pDestT= (unsigned int) (0x10000);
Kovalev_D 136:19b9e6abb86f 60 Flash = (GyroParam*) pDestT;
Kovalev_D 136:19b9e6abb86f 61 GyroP = *(Flash);
Kovalev_D 136:19b9e6abb86f 62 sprintf((Time)," dffddfd <%07d> ", GyroP.Str.K_WP_rst_heating);
Kovalev_D 136:19b9e6abb86f 63 WriteCon(Time);
Kovalev_D 136:19b9e6abb86f 64
Kovalev_D 136:19b9e6abb86f 65 }
Kovalev_D 136:19b9e6abb86f 66
Kovalev_D 129:406995a91322 67 void CMD_M_Param_R(void)
igor_v 0:8ad47e2b6f00 68 {
Kovalev_D 129:406995a91322 69 unsigned int NP;
Kovalev_D 129:406995a91322 70 unsigned int Param;
Kovalev_D 129:406995a91322 71 BuffTemp[0] = Gyro.SOC_Out;
Kovalev_D 129:406995a91322 72 BuffTemp[1] = Gyro.My_Addres;
Kovalev_D 129:406995a91322 73
Kovalev_D 129:406995a91322 74 NP = BuffTemp[3];
Kovalev_D 129:406995a91322 75
Kovalev_D 129:406995a91322 76 Param = GyroP.Array[NP];
Kovalev_D 129:406995a91322 77
Kovalev_D 129:406995a91322 78 BuffTemp[2] =(Param >> 8) & 0xff;//старший байт требуемого параметра
Kovalev_D 129:406995a91322 79 BuffTemp[3] =(Param >> 0) & 0xff;//младший байт требуемого параметра
Kovalev_D 129:406995a91322 80
Kovalev_D 129:406995a91322 81 Check(BuffTemp, 6);
Kovalev_D 129:406995a91322 82 WriteConN (BuffTemp,6);
Kovalev_D 129:406995a91322 83 }
Kovalev_D 129:406995a91322 84 void CMD_M_Param_W(void)
Kovalev_D 129:406995a91322 85 {
Kovalev_D 129:406995a91322 86 unsigned int NP;
Kovalev_D 129:406995a91322 87 unsigned int Param;
Kovalev_D 129:406995a91322 88
Kovalev_D 129:406995a91322 89 NP = BuffTemp[3];
Kovalev_D 129:406995a91322 90 Param = (BuffTemp[4]<<8);
Kovalev_D 129:406995a91322 91 Param |= BuffTemp[5];
Kovalev_D 129:406995a91322 92
Kovalev_D 129:406995a91322 93 GyroP.Array[NP] = Param;
Kovalev_D 129:406995a91322 94
Kovalev_D 129:406995a91322 95
Kovalev_D 129:406995a91322 96 BuffTemp[0] = Gyro.SOC_Out;
Kovalev_D 129:406995a91322 97 BuffTemp[1] = Gyro.My_Addres;
Kovalev_D 129:406995a91322 98 BuffTemp[2] = Gyro.CMD_In;
Kovalev_D 129:406995a91322 99 BuffTemp[3] = 0x00;//старший байт требуемого параметра
Kovalev_D 129:406995a91322 100
Kovalev_D 129:406995a91322 101 Check(BuffTemp, 6);
Kovalev_D 129:406995a91322 102 WriteConN (BuffTemp,6);
Kovalev_D 129:406995a91322 103 }
igor_v 0:8ad47e2b6f00 104 void CMD_Maintenance(void)
igor_v 0:8ad47e2b6f00 105 {
Kovalev_D 122:fbacb932a30b 106
Kovalev_D 122:fbacb932a30b 107 BuffTemp[0] = Gyro.SOC_Out;
Kovalev_D 124:9ae09249f842 108 BuffTemp[1] = Gyro.My_Addres;
Kovalev_D 124:9ae09249f842 109 BuffTemp[2] = Gyro.Firmware_Version;
Kovalev_D 124:9ae09249f842 110 BuffTemp[3] = Gyro.GLD_Serial;
igor_v 21:bc8c1cec3da6 111 BuffTemp[4]=0x00;
igor_v 21:bc8c1cec3da6 112 BuffTemp[5]=0x00;
igor_v 21:bc8c1cec3da6 113 Check(BuffTemp, 8);
igor_v 21:bc8c1cec3da6 114 WriteConN (BuffTemp,8);
Kovalev_D 121:bbae560cdd43 115
igor_v 0:8ad47e2b6f00 116 }
Kovalev_D 165:b2bd0c810a4f 117
Kovalev_D 124:9ae09249f842 118 void CMD_Delta_500Hz(void)
Kovalev_D 124:9ae09249f842 119 {
Kovalev_D 165:b2bd0c810a4f 120
Kovalev_D 124:9ae09249f842 121 Gyro.Delta500_Event=0;
Kovalev_D 122:fbacb932a30b 122 unsigned int Temp;
Kovalev_D 124:9ae09249f842 123 BuffTemp[ 0] = Gyro.SOC_Out;
Kovalev_D 122:fbacb932a30b 124 BuffTemp[ 1] = Gyro.My_Addres;
Kovalev_D 124:9ae09249f842 125
Kovalev_D 124:9ae09249f842 126 Temp = Gyro.CuruAngle;
Kovalev_D 124:9ae09249f842 127 Gyro.CuruAngle = 0;
Kovalev_D 124:9ae09249f842 128
Kovalev_D 124:9ae09249f842 129 BuffTemp[ 2] =(Temp >> 8) & 0xff;//старший байт разности счетчиков
Kovalev_D 124:9ae09249f842 130 BuffTemp[ 3] =(Temp >> 0) & 0xff;//младший байт разности счетчиков
Kovalev_D 124:9ae09249f842 131
Kovalev_D 124:9ae09249f842 132 BuffTemp[ 4] = CountParam;
Kovalev_D 124:9ae09249f842 133 switch(CountParam) {
Kovalev_D 124:9ae09249f842 134
Kovalev_D 124:9ae09249f842 135
Kovalev_D 124:9ae09249f842 136
Kovalev_D 124:9ae09249f842 137 //F_ras
Kovalev_D 124:9ae09249f842 138 case 0:
Kovalev_D 124:9ae09249f842 139 Temp = Gyro.F_ras;
Kovalev_D 124:9ae09249f842 140 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 141 break;
Kovalev_D 124:9ae09249f842 142
Kovalev_D 124:9ae09249f842 143 case 1:
Kovalev_D 124:9ae09249f842 144 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 145 break;
Kovalev_D 124:9ae09249f842 146
Kovalev_D 124:9ae09249f842 147
Kovalev_D 124:9ae09249f842 148
Kovalev_D 124:9ae09249f842 149 //HFO
Kovalev_D 124:9ae09249f842 150 case 2:
Kovalev_D 124:9ae09249f842 151 Temp = 0;//HFO
Kovalev_D 124:9ae09249f842 152 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 153 break;
Kovalev_D 124:9ae09249f842 154
Kovalev_D 124:9ae09249f842 155 case 3:
Kovalev_D 124:9ae09249f842 156 Temp = 0;//HFO
Kovalev_D 124:9ae09249f842 157 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 158 break;
Kovalev_D 124:9ae09249f842 159
Kovalev_D 124:9ae09249f842 160
Kovalev_D 124:9ae09249f842 161
Kovalev_D 124:9ae09249f842 162 //T_Vibro
Kovalev_D 124:9ae09249f842 163 case 4:
Kovalev_D 124:9ae09249f842 164 Temp = (unsigned int)((7680000*16/(Gyro.Frq>>12)));
Kovalev_D 124:9ae09249f842 165 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 166 break;
Kovalev_D 124:9ae09249f842 167
Kovalev_D 124:9ae09249f842 168 case 5:
Kovalev_D 124:9ae09249f842 169 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 170 break;
Kovalev_D 124:9ae09249f842 171
Kovalev_D 124:9ae09249f842 172
Kovalev_D 124:9ae09249f842 173
Kovalev_D 124:9ae09249f842 174 //L_Vibro
Kovalev_D 124:9ae09249f842 175 case 6:
Kovalev_D 124:9ae09249f842 176 Temp = (unsigned int)(((7680000*16/200) *Gyro.AmpPer /(Gyro.Frq>>12)));
Kovalev_D 124:9ae09249f842 177 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 178
Kovalev_D 124:9ae09249f842 179 break;
Kovalev_D 124:9ae09249f842 180
Kovalev_D 124:9ae09249f842 181 case 7:
Kovalev_D 124:9ae09249f842 182 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 183 break;
Kovalev_D 124:9ae09249f842 184
Kovalev_D 124:9ae09249f842 185
Kovalev_D 124:9ae09249f842 186
Kovalev_D 124:9ae09249f842 187 //Напряжение на регуляторе периметра
Kovalev_D 124:9ae09249f842 188 case 8:
Kovalev_D 165:b2bd0c810a4f 189 Temp = Spi.DAC_B /*- 0x7fff*/;
Kovalev_D 124:9ae09249f842 190 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 191
Kovalev_D 124:9ae09249f842 192 break;
Kovalev_D 124:9ae09249f842 193
Kovalev_D 124:9ae09249f842 194 case 9:
Kovalev_D 124:9ae09249f842 195 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 196 break;
Kovalev_D 124:9ae09249f842 197
Kovalev_D 124:9ae09249f842 198
Kovalev_D 124:9ae09249f842 199
Kovalev_D 124:9ae09249f842 200 //темпкратурный канал 0
Kovalev_D 124:9ae09249f842 201 case 10:
Kovalev_D 124:9ae09249f842 202 Temp = 100;
Kovalev_D 124:9ae09249f842 203 BuffTemp[5] = (Temp >> 8) & 0xff;
igor_v 0:8ad47e2b6f00 204
Kovalev_D 124:9ae09249f842 205 break;
Kovalev_D 124:9ae09249f842 206
Kovalev_D 124:9ae09249f842 207 case 11:
Kovalev_D 124:9ae09249f842 208 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 209 break;
Kovalev_D 124:9ae09249f842 210
Kovalev_D 124:9ae09249f842 211
Kovalev_D 124:9ae09249f842 212
Kovalev_D 124:9ae09249f842 213 //темпкратурный канал 1
Kovalev_D 124:9ae09249f842 214 case 12:
Kovalev_D 124:9ae09249f842 215 Temp = Gyro.AD_Slow >> 16;
Kovalev_D 124:9ae09249f842 216 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 217
Kovalev_D 124:9ae09249f842 218 break;
Kovalev_D 124:9ae09249f842 219
Kovalev_D 124:9ae09249f842 220 case 13:
Kovalev_D 124:9ae09249f842 221 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 222 break;
Kovalev_D 124:9ae09249f842 223
Kovalev_D 124:9ae09249f842 224
Kovalev_D 124:9ae09249f842 225
Kovalev_D 124:9ae09249f842 226 //ток 1
Kovalev_D 124:9ae09249f842 227 case 14:
Kovalev_D 124:9ae09249f842 228 Temp = Gyro.In1;
Kovalev_D 124:9ae09249f842 229 BuffTemp[5] = (Temp >> 8) & 0xff;//in1//2
Kovalev_D 124:9ae09249f842 230
Kovalev_D 124:9ae09249f842 231 break;
Kovalev_D 124:9ae09249f842 232
Kovalev_D 124:9ae09249f842 233 case 15:
Kovalev_D 124:9ae09249f842 234 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 235 break;
Kovalev_D 124:9ae09249f842 236
Kovalev_D 124:9ae09249f842 237
Kovalev_D 124:9ae09249f842 238
Kovalev_D 124:9ae09249f842 239 //ток 2
Kovalev_D 124:9ae09249f842 240 case 16:
Kovalev_D 124:9ae09249f842 241 Temp = Gyro.In2;
Kovalev_D 124:9ae09249f842 242 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 243 break;
Kovalev_D 124:9ae09249f842 244
Kovalev_D 124:9ae09249f842 245 case 17:
Kovalev_D 124:9ae09249f842 246 BuffTemp[5] = (Temp >> 0) & 0xff;//in2//3
Kovalev_D 124:9ae09249f842 247 break;
Kovalev_D 124:9ae09249f842 248
Kovalev_D 124:9ae09249f842 249
Kovalev_D 124:9ae09249f842 250
Kovalev_D 124:9ae09249f842 251 //разностный температурный канал Delta Temp
Kovalev_D 124:9ae09249f842 252 case 18:
Kovalev_D 124:9ae09249f842 253 Temp = Gyro.DeltaT;
Kovalev_D 124:9ae09249f842 254 BuffTemp[5] = (Temp >> 8) & 0xff;//дельта
Kovalev_D 124:9ae09249f842 255 break;
Kovalev_D 124:9ae09249f842 256
Kovalev_D 124:9ae09249f842 257 case 19:
Kovalev_D 124:9ae09249f842 258 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 259 break;
Kovalev_D 124:9ae09249f842 260
Kovalev_D 124:9ae09249f842 261
Kovalev_D 124:9ae09249f842 262
Kovalev_D 124:9ae09249f842 263 //температурный канал 5
Kovalev_D 124:9ae09249f842 264 case 20:
Kovalev_D 124:9ae09249f842 265 Temp = Gyro.Termo;//0xa4=164
Kovalev_D 124:9ae09249f842 266 BuffTemp[5] =(Temp >> 8) & 0xff;//температура
Kovalev_D 124:9ae09249f842 267
Kovalev_D 124:9ae09249f842 268 break;
Kovalev_D 124:9ae09249f842 269
Kovalev_D 124:9ae09249f842 270 case 21:
Kovalev_D 124:9ae09249f842 271 BuffTemp[5] =(Temp >> 0) & 0xff;//ADC6 sesnsor 5
Kovalev_D 124:9ae09249f842 272 break;
Kovalev_D 124:9ae09249f842 273 }
Kovalev_D 162:44e4ded32c6a 274 Check(BuffTemp, CRC_N);
Kovalev_D 162:44e4ded32c6a 275 WriteConN (BuffTemp,CRC_N);
Kovalev_D 128:1e4675a36c93 276
Kovalev_D 165:b2bd0c810a4f 277
Kovalev_D 165:b2bd0c810a4f 278 if(CountParam>20)CountParam=0;//зацикливания буфера от 0 до 21
Kovalev_D 165:b2bd0c810a4f 279 else CountParam++;
Kovalev_D 124:9ae09249f842 280
Kovalev_D 124:9ae09249f842 281 }
Kovalev_D 124:9ae09249f842 282 void CMD_Delta_Ext(void)
Kovalev_D 124:9ae09249f842 283 {
Kovalev_D 124:9ae09249f842 284 unsigned int Temp;
Kovalev_D 128:1e4675a36c93 285 Gyro.EXT_Latch=0;
Kovalev_D 124:9ae09249f842 286 BuffTemp[ 0] = Gyro.SOC_Out;
Kovalev_D 124:9ae09249f842 287 BuffTemp[ 1] = Gyro.My_Addres;
Kovalev_D 124:9ae09249f842 288 Temp = Gyro.CuruAngle;
Kovalev_D 124:9ae09249f842 289 Gyro.CuruAngle = 0;
Kovalev_D 124:9ae09249f842 290
Kovalev_D 124:9ae09249f842 291 BuffTemp[ 2] =(Temp >> 8) & 0xff;//старший байт разности счетчиков
Kovalev_D 124:9ae09249f842 292 BuffTemp[ 3] =(Temp >> 0) & 0xff;//младший байт разности счетчиков
Kovalev_D 124:9ae09249f842 293
Kovalev_D 124:9ae09249f842 294 BuffTemp[ 4] = CountParam;
Kovalev_D 128:1e4675a36c93 295 switch(CountParam) {
Kovalev_D 124:9ae09249f842 296
Kovalev_D 128:1e4675a36c93 297 WriteCon("5");
Kovalev_D 124:9ae09249f842 298
Kovalev_D 124:9ae09249f842 299 //F_ras
Kovalev_D 124:9ae09249f842 300 case 0:
Kovalev_D 124:9ae09249f842 301 Temp = Gyro.F_ras;
Kovalev_D 124:9ae09249f842 302 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 128:1e4675a36c93 303
Kovalev_D 124:9ae09249f842 304 break;
Kovalev_D 124:9ae09249f842 305
Kovalev_D 124:9ae09249f842 306 case 1:
Kovalev_D 124:9ae09249f842 307 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 128:1e4675a36c93 308
Kovalev_D 124:9ae09249f842 309 break;
Kovalev_D 124:9ae09249f842 310
Kovalev_D 124:9ae09249f842 311
Kovalev_D 124:9ae09249f842 312
Kovalev_D 124:9ae09249f842 313 //HFO
Kovalev_D 124:9ae09249f842 314 case 2:
Kovalev_D 124:9ae09249f842 315 Temp = 0;//HFO
Kovalev_D 124:9ae09249f842 316 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 128:1e4675a36c93 317
Kovalev_D 124:9ae09249f842 318 break;
Kovalev_D 124:9ae09249f842 319
Kovalev_D 124:9ae09249f842 320 case 3:
Kovalev_D 124:9ae09249f842 321 Temp = 0;//HFO
Kovalev_D 124:9ae09249f842 322 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 128:1e4675a36c93 323
Kovalev_D 124:9ae09249f842 324 break;
Kovalev_D 124:9ae09249f842 325
Kovalev_D 124:9ae09249f842 326
Kovalev_D 124:9ae09249f842 327
Kovalev_D 124:9ae09249f842 328 //T_Vibro
Kovalev_D 124:9ae09249f842 329 case 4:
Kovalev_D 124:9ae09249f842 330 Temp = (unsigned int)((7680000*16/(Gyro.Frq>>12)));
Kovalev_D 124:9ae09249f842 331 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 128:1e4675a36c93 332
Kovalev_D 124:9ae09249f842 333 break;
Kovalev_D 124:9ae09249f842 334
Kovalev_D 124:9ae09249f842 335 case 5:
Kovalev_D 124:9ae09249f842 336 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 128:1e4675a36c93 337
Kovalev_D 124:9ae09249f842 338 break;
Kovalev_D 124:9ae09249f842 339
Kovalev_D 124:9ae09249f842 340
Kovalev_D 124:9ae09249f842 341
Kovalev_D 124:9ae09249f842 342 //L_Vibro
Kovalev_D 124:9ae09249f842 343 case 6:
Kovalev_D 124:9ae09249f842 344 Temp = (unsigned int)(((7680000*16/200) *Gyro.AmpPer /(Gyro.Frq>>12)));
Kovalev_D 124:9ae09249f842 345 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 122:fbacb932a30b 346
Kovalev_D 124:9ae09249f842 347 break;
Kovalev_D 124:9ae09249f842 348
Kovalev_D 124:9ae09249f842 349 case 7:
Kovalev_D 124:9ae09249f842 350 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 351 break;
Kovalev_D 124:9ae09249f842 352
Kovalev_D 124:9ae09249f842 353
Kovalev_D 124:9ae09249f842 354
Kovalev_D 124:9ae09249f842 355 //Напряжение на регуляторе периметра
Kovalev_D 124:9ae09249f842 356 case 8:
Kovalev_D 165:b2bd0c810a4f 357 Temp = Spi.DAC_B /*- 0x7fff*/;
Kovalev_D 124:9ae09249f842 358 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 359
Kovalev_D 124:9ae09249f842 360 break;
Kovalev_D 124:9ae09249f842 361
Kovalev_D 124:9ae09249f842 362 case 9:
Kovalev_D 124:9ae09249f842 363 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 364 break;
Kovalev_D 124:9ae09249f842 365
Kovalev_D 124:9ae09249f842 366
Kovalev_D 124:9ae09249f842 367
Kovalev_D 124:9ae09249f842 368 //темпкратурный канал 0
Kovalev_D 124:9ae09249f842 369 case 10:
Kovalev_D 124:9ae09249f842 370 Temp = 100;
Kovalev_D 124:9ae09249f842 371 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 372
Kovalev_D 124:9ae09249f842 373 break;
Kovalev_D 124:9ae09249f842 374
Kovalev_D 124:9ae09249f842 375 case 11:
Kovalev_D 124:9ae09249f842 376 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 377 break;
Kovalev_D 124:9ae09249f842 378
Kovalev_D 124:9ae09249f842 379
Kovalev_D 124:9ae09249f842 380
Kovalev_D 124:9ae09249f842 381 //темпкратурный канал 1
Kovalev_D 124:9ae09249f842 382 case 12:
Kovalev_D 124:9ae09249f842 383 Temp = Gyro.AD_Slow >> 16;
Kovalev_D 124:9ae09249f842 384 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 385
Kovalev_D 124:9ae09249f842 386 break;
Kovalev_D 124:9ae09249f842 387
Kovalev_D 124:9ae09249f842 388 case 13:
Kovalev_D 124:9ae09249f842 389 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 390 break;
Kovalev_D 124:9ae09249f842 391
Kovalev_D 124:9ae09249f842 392
Kovalev_D 124:9ae09249f842 393
Kovalev_D 124:9ae09249f842 394 //ток 1
Kovalev_D 124:9ae09249f842 395 case 14:
Kovalev_D 124:9ae09249f842 396 Temp = Gyro.In1;
Kovalev_D 124:9ae09249f842 397 BuffTemp[5] = (Temp >> 8) & 0xff;//in1//2
Kovalev_D 124:9ae09249f842 398
Kovalev_D 124:9ae09249f842 399 break;
Kovalev_D 124:9ae09249f842 400
Kovalev_D 124:9ae09249f842 401 case 15:
Kovalev_D 124:9ae09249f842 402 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 403 break;
Kovalev_D 124:9ae09249f842 404
Kovalev_D 124:9ae09249f842 405
Kovalev_D 124:9ae09249f842 406
Kovalev_D 124:9ae09249f842 407 //ток 2
Kovalev_D 124:9ae09249f842 408 case 16:
Kovalev_D 124:9ae09249f842 409 Temp = Gyro.In2;
Kovalev_D 124:9ae09249f842 410 BuffTemp[5] = (Temp >> 8) & 0xff;
Kovalev_D 124:9ae09249f842 411 break;
Kovalev_D 124:9ae09249f842 412
Kovalev_D 124:9ae09249f842 413 case 17:
Kovalev_D 124:9ae09249f842 414 BuffTemp[5] = (Temp >> 0) & 0xff;//in2//3
Kovalev_D 124:9ae09249f842 415 break;
Kovalev_D 124:9ae09249f842 416
Kovalev_D 124:9ae09249f842 417
Kovalev_D 124:9ae09249f842 418
Kovalev_D 124:9ae09249f842 419 //разностный температурный канал Delta Temp
Kovalev_D 124:9ae09249f842 420 case 18:
Kovalev_D 124:9ae09249f842 421 Temp = Gyro.DeltaT;
Kovalev_D 124:9ae09249f842 422 BuffTemp[5] = (Temp >> 8) & 0xff;//дельта
Kovalev_D 124:9ae09249f842 423 break;
Kovalev_D 124:9ae09249f842 424
Kovalev_D 124:9ae09249f842 425 case 19:
Kovalev_D 124:9ae09249f842 426 BuffTemp[5] = (Temp >> 0) & 0xff;
Kovalev_D 124:9ae09249f842 427 break;
Kovalev_D 124:9ae09249f842 428
Kovalev_D 124:9ae09249f842 429
Kovalev_D 124:9ae09249f842 430
Kovalev_D 124:9ae09249f842 431 //температурный канал 5
Kovalev_D 124:9ae09249f842 432 case 20:
Kovalev_D 124:9ae09249f842 433 Temp = Gyro.Termo;//0xa4=164
Kovalev_D 124:9ae09249f842 434 BuffTemp[5] =(Temp >> 8) & 0xff;//температура
Kovalev_D 124:9ae09249f842 435 break;
Kovalev_D 124:9ae09249f842 436
Kovalev_D 124:9ae09249f842 437 case 21:
Kovalev_D 124:9ae09249f842 438 BuffTemp[5] =(Temp >> 0) & 0xff;//ADC6 sesnsor 5
Kovalev_D 124:9ae09249f842 439 break;
Kovalev_D 124:9ae09249f842 440 }
Kovalev_D 162:44e4ded32c6a 441 Check(BuffTemp, CRC_N);
Kovalev_D 162:44e4ded32c6a 442 WriteConN (BuffTemp,CRC_N);
Kovalev_D 124:9ae09249f842 443 CountParam++;
Kovalev_D 124:9ae09249f842 444 if(CountParam>21)CountParam=0;//зацикливания буфера от 0 до 21
Kovalev_D 122:fbacb932a30b 445 }
Kovalev_D 124:9ae09249f842 446
Kovalev_D 121:bbae560cdd43 447 void CMD_Rate2(void)
Kovalev_D 121:bbae560cdd43 448 {
Kovalev_D 124:9ae09249f842 449 Gyro.Rate2_Event=0;
Kovalev_D 121:bbae560cdd43 450 BuffTemp[ 0] = Gyro.SOC_Out;
Kovalev_D 121:bbae560cdd43 451 BuffTemp[ 1] = Gyro.My_Addres;
Kovalev_D 121:bbae560cdd43 452
Kovalev_D 121:bbae560cdd43 453
Kovalev_D 121:bbae560cdd43 454 BuffTemp[ 2] =(Gyro.CaunPlus >> 8) & 0xff;//старший байт счетчика +.
Kovalev_D 121:bbae560cdd43 455 BuffTemp[ 3] =(Gyro.CaunPlus >> 0) & 0xff;//младший байт счетчика +.
Kovalev_D 121:bbae560cdd43 456
Kovalev_D 121:bbae560cdd43 457 BuffTemp[ 4] =(Gyro.CaunMin >> 8) & 0xff;//старший байт счетчика -.
Kovalev_D 121:bbae560cdd43 458 BuffTemp[ 5] =(Gyro.CaunMin >> 0) & 0xff;//младший байт счетчика -.
Kovalev_D 124:9ae09249f842 459
Kovalev_D 122:fbacb932a30b 460 Check(BuffTemp, 8);
Kovalev_D 122:fbacb932a30b 461 WriteConN (BuffTemp,8);
Kovalev_D 121:bbae560cdd43 462 }
Kovalev_D 124:9ae09249f842 463
igor_v 0:8ad47e2b6f00 464 void CMD_Rate(void)
igor_v 21:bc8c1cec3da6 465 {
Kovalev_D 124:9ae09249f842 466
Kovalev_D 124:9ae09249f842 467 Gyro.Rate1_Event=0;
Kovalev_D 108:030cdde08314 468 unsigned int Temp;
Kovalev_D 107:4d178bcc9d8a 469
igor_v 30:17c84ed091b3 470 Gyro.Firmware_Version=0xff; /// промежуточная затычка
Kovalev_D 122:fbacb932a30b 471
igor_v 0:8ad47e2b6f00 472
igor_v 30:17c84ed091b3 473 BuffTemp[ 0] = Gyro.SOC_Out;
igor_v 30:17c84ed091b3 474 BuffTemp[ 1] = Gyro.My_Addres;
igor_v 21:bc8c1cec3da6 475
Kovalev_D 108:030cdde08314 476
Kovalev_D 112:4a96133a1311 477 BuffTemp[ 2] =(Gyro.CaunPlus >> 8) & 0xff;//старший байт счетчика +.
Kovalev_D 112:4a96133a1311 478 BuffTemp[ 3] =(Gyro.CaunPlus >> 0) & 0xff;//младший байт счетчика +.
Kovalev_D 108:030cdde08314 479
Kovalev_D 112:4a96133a1311 480 BuffTemp[ 4] =(Gyro.CaunMin >> 8) & 0xff;//старший байт счетчика -.
Kovalev_D 112:4a96133a1311 481 BuffTemp[ 5] =(Gyro.CaunMin >> 0) & 0xff;//младший байт счетчика -.
Kovalev_D 108:030cdde08314 482
Kovalev_D 113:8be429494918 483
Kovalev_D 108:030cdde08314 484 Temp = Gyro.CuruAngle;
Kovalev_D 108:030cdde08314 485 Gyro.CuruAngle = 0;
Kovalev_D 162:44e4ded32c6a 486 //Temp = Gyro.AD_Fast >> 16;
Kovalev_D 108:030cdde08314 487 BuffTemp[ 6] =(Temp >> 8) & 0xff;//старший байт разности счетчиков
Kovalev_D 108:030cdde08314 488 BuffTemp[ 7] =(Temp >> 0) & 0xff;//младший байт разности счетчиков
Kovalev_D 108:030cdde08314 489
Kovalev_D 108:030cdde08314 490
Kovalev_D 122:fbacb932a30b 491 Temp = Gyro.F_ras;
Kovalev_D 122:fbacb932a30b 492 BuffTemp[ 8] = (Temp >> 8) & 0xff;//расщипление частота
Kovalev_D 122:fbacb932a30b 493 BuffTemp[ 9] = (Temp >> 0) & 0xff;//
igor_v 21:bc8c1cec3da6 494
Kovalev_D 108:030cdde08314 495 BuffTemp[10] = (Temp >> 8) & 0xff;//выход регулятора гвч;
Kovalev_D 122:fbacb932a30b 496 BuffTemp[11] = (Temp >> 0) & 0xff;
igor_v 21:bc8c1cec3da6 497
Kovalev_D 145:f023b2f18b82 498 Temp = (Gyro.AD_Slow >> 16)- 0x7fff;
Kovalev_D 108:030cdde08314 499 BuffTemp[12]=(Temp >> 8) & 0xff;////
Kovalev_D 108:030cdde08314 500 BuffTemp[13]=(Temp >> 0) & 0xff;////
igor_v 21:bc8c1cec3da6 501
Kovalev_D 108:030cdde08314 502
Kovalev_D 108:030cdde08314 503 Temp = (unsigned int)((7680000*16/(Gyro.Frq>>12)));
Kovalev_D 108:030cdde08314 504 BuffTemp[14] = (Temp >> 8) & 0xff;
Kovalev_D 108:030cdde08314 505 BuffTemp[15] = (Temp >> 0) & 0xff;
igor_v 21:bc8c1cec3da6 506
Kovalev_D 107:4d178bcc9d8a 507 BuffTemp[16] = 0xf;
Kovalev_D 106:250ddd8629c6 508 BuffTemp[17] = 0x02;
Kovalev_D 108:030cdde08314 509
igor_v 21:bc8c1cec3da6 510
Kovalev_D 108:030cdde08314 511 Temp = (unsigned int)(((7680000*16/200) *Gyro.AmpPer /(Gyro.Frq>>12)));
Kovalev_D 108:030cdde08314 512 BuffTemp[18] = (Temp >> 8) & 0xff;
Kovalev_D 108:030cdde08314 513 BuffTemp[19] = (Temp >> 0) & 0xff;
igor_v 21:bc8c1cec3da6 514
Kovalev_D 106:250ddd8629c6 515 BuffTemp[20] = 0x00;
Kovalev_D 106:250ddd8629c6 516 BuffTemp[21] = 0x00;
Kovalev_D 120:9f446f1495e8 517
Kovalev_D 119:4d7fcece9e8e 518
Kovalev_D 125:9400e64d0636 519
Kovalev_D 121:bbae560cdd43 520 Temp = Spi.DAC_B - 0x7fff;
Kovalev_D 108:030cdde08314 521 BuffTemp[22] = (Temp >> 8) & 0xff;
Kovalev_D 108:030cdde08314 522 BuffTemp[23] = (Temp >> 0) & 0xff;
igor_v 21:bc8c1cec3da6 523
Kovalev_D 121:bbae560cdd43 524
Kovalev_D 121:bbae560cdd43 525 Temp = Gyro.PLC_Delta >> 16;
Kovalev_D 121:bbae560cdd43 526 BuffTemp[24] = (Temp >> 8) & 0xff;
Kovalev_D 121:bbae560cdd43 527 BuffTemp[25] = (Temp >> 0) & 0xff;// ХЗ
Kovalev_D 113:8be429494918 528
Kovalev_D 125:9400e64d0636 529 Temp = 100;
Kovalev_D 125:9400e64d0636 530 Temp = Gyro.AD_Slow >> 16;
Kovalev_D 113:8be429494918 531 BuffTemp[26] = (Temp >> 8) & 0xff;
Kovalev_D 113:8be429494918 532 BuffTemp[27] = (Temp >> 0) & 0xff;
Kovalev_D 113:8be429494918 533
Kovalev_D 113:8be429494918 534 Temp = Gyro.AD_Slow >> 16;
Kovalev_D 113:8be429494918 535 BuffTemp[28] = (Temp >> 8) & 0xff;
Kovalev_D 113:8be429494918 536 BuffTemp[29] = (Temp >> 0) & 0xff;
Kovalev_D 113:8be429494918 537
Kovalev_D 113:8be429494918 538 Temp = Gyro.In1;
Kovalev_D 113:8be429494918 539 BuffTemp[30] = (Temp >> 8) & 0xff;//in1//2
Kovalev_D 113:8be429494918 540 BuffTemp[31] = (Temp >> 0) & 0xff;
Kovalev_D 113:8be429494918 541
Kovalev_D 113:8be429494918 542 Temp = Gyro.In2;
Kovalev_D 113:8be429494918 543 BuffTemp[32] = (Temp >> 8) & 0xff;
Kovalev_D 113:8be429494918 544 BuffTemp[33] = (Temp >> 0) & 0xff;//in2//3
Kovalev_D 113:8be429494918 545
Kovalev_D 113:8be429494918 546 Temp = Gyro.DeltaT;
Kovalev_D 113:8be429494918 547 BuffTemp[34] = (Temp >> 8) & 0xff;//дельта
Kovalev_D 113:8be429494918 548 BuffTemp[35] = (Temp >> 0) & 0xff;
Kovalev_D 115:e5a230e5af52 549
Kovalev_D 116:66f1f0ff2dab 550 Temp = Gyro.Termo;//0xa4=164
Kovalev_D 115:e5a230e5af52 551
Kovalev_D 113:8be429494918 552 BuffTemp[36] =(Temp >> 8) & 0xff;//температура
Kovalev_D 115:e5a230e5af52 553 BuffTemp[37] =(Temp >> 0) & 0xff;//ADC6 sesnsor 5
igor_v 21:bc8c1cec3da6 554
Kovalev_D 106:250ddd8629c6 555 BuffTemp[38] =0x00;
Kovalev_D 106:250ddd8629c6 556 BuffTemp[39] =0x00;
Kovalev_D 106:250ddd8629c6 557 BuffTemp[40] =0x00;
Kovalev_D 106:250ddd8629c6 558 BuffTemp[41] =0x00;
igor_v 21:bc8c1cec3da6 559
igor_v 21:bc8c1cec3da6 560
igor_v 21:bc8c1cec3da6 561 Check(BuffTemp, 44);
igor_v 21:bc8c1cec3da6 562 WriteConN (BuffTemp,44);
Kovalev_D 92:c892f0311aa7 563
igor_v 0:8ad47e2b6f00 564 }
igor_v 0:8ad47e2b6f00 565
igor_v 21:bc8c1cec3da6 566 void CMD_M_Control_D8()///установка\сброс регистров управления
igor_v 21:bc8c1cec3da6 567 {
Kovalev_D 104:ab1cb4ff56b2 568 unsigned int bit,NReg,Pa;
Kovalev_D 104:ab1cb4ff56b2 569 unsigned int SR,V,A,Bit_num;
Kovalev_D 104:ab1cb4ff56b2 570 SR=0;
Kovalev_D 104:ab1cb4ff56b2 571 V=0;
Kovalev_D 104:ab1cb4ff56b2 572 A=0;
Kovalev_D 104:ab1cb4ff56b2 573 Bit_num=0;
Kovalev_D 104:ab1cb4ff56b2 574
igor_v 30:17c84ed091b3 575 BuffTemp[0] = Gyro.SOC_Out; //DD
igor_v 30:17c84ed091b3 576 BuffTemp[1] = Gyro.My_Addres; //00
igor_v 30:17c84ed091b3 577 BuffTemp[2] = Gyro.CMD_In; //D8
Kovalev_D 104:ab1cb4ff56b2 578
Kovalev_D 104:ab1cb4ff56b2 579 /*
Kovalev_D 104:ab1cb4ff56b2 580
Kovalev_D 104:ab1cb4ff56b2 581 FrqON
Kovalev_D 104:ab1cb4ff56b2 582 PlcON
Kovalev_D 104:ab1cb4ff56b2 583 HFOOFF
Kovalev_D 104:ab1cb4ff56b2 584 HFOON
igor_v 21:bc8c1cec3da6 585
Kovalev_D 104:ab1cb4ff56b2 586 PlcOFF
Kovalev_D 104:ab1cb4ff56b2 587 PlcON
Kovalev_D 104:ab1cb4ff56b2 588 */
Kovalev_D 104:ab1cb4ff56b2 589 Pa = BuffTemp[3];
Kovalev_D 104:ab1cb4ff56b2 590
Kovalev_D 104:ab1cb4ff56b2 591 SR = Pa >> 0x7;
Kovalev_D 104:ab1cb4ff56b2 592
Kovalev_D 104:ab1cb4ff56b2 593 V = Pa >> 0x5;
Kovalev_D 104:ab1cb4ff56b2 594 V = V & 0x3;
Kovalev_D 104:ab1cb4ff56b2 595
Kovalev_D 104:ab1cb4ff56b2 596 A = Pa >> 0x4;
Kovalev_D 104:ab1cb4ff56b2 597 A = A & 0x1;
Kovalev_D 104:ab1cb4ff56b2 598
Kovalev_D 104:ab1cb4ff56b2 599 Bit_num = Pa & 0xf;
Kovalev_D 104:ab1cb4ff56b2 600
Kovalev_D 104:ab1cb4ff56b2 601 if(SR) {
Kovalev_D 104:ab1cb4ff56b2 602 switch (Bit_num){
Kovalev_D 105:bd01d8d20fb6 603
Kovalev_D 104:ab1cb4ff56b2 604 case 0x06:
Kovalev_D 104:ab1cb4ff56b2 605 FrqON
Kovalev_D 105:bd01d8d20fb6 606 break;
Kovalev_D 105:bd01d8d20fb6 607
Kovalev_D 104:ab1cb4ff56b2 608 case 0x03:
Kovalev_D 105:bd01d8d20fb6 609 HFOON
Kovalev_D 105:bd01d8d20fb6 610 break;
Kovalev_D 105:bd01d8d20fb6 611
Kovalev_D 105:bd01d8d20fb6 612 case 0x01:
Kovalev_D 105:bd01d8d20fb6 613 PlcON
Kovalev_D 105:bd01d8d20fb6 614 break;
Kovalev_D 104:ab1cb4ff56b2 615 }
Kovalev_D 104:ab1cb4ff56b2 616 }
Kovalev_D 104:ab1cb4ff56b2 617 else{
Kovalev_D 104:ab1cb4ff56b2 618 switch (Bit_num){
Kovalev_D 105:bd01d8d20fb6 619
Kovalev_D 105:bd01d8d20fb6 620 case 0x06:
Kovalev_D 104:ab1cb4ff56b2 621 FrqOff
Kovalev_D 105:bd01d8d20fb6 622 break;
Kovalev_D 105:bd01d8d20fb6 623
Kovalev_D 105:bd01d8d20fb6 624 case 0x03:
Kovalev_D 105:bd01d8d20fb6 625 HFOOFF
Kovalev_D 105:bd01d8d20fb6 626 break;
Kovalev_D 105:bd01d8d20fb6 627
Kovalev_D 105:bd01d8d20fb6 628 case 0x01:
Kovalev_D 105:bd01d8d20fb6 629 PlcOFF
Kovalev_D 105:bd01d8d20fb6 630 break;
Kovalev_D 104:ab1cb4ff56b2 631 }
Kovalev_D 104:ab1cb4ff56b2 632 }
Kovalev_D 129:406995a91322 633 BuffTemp[0] = Gyro.SOC_Out; //DD
Kovalev_D 129:406995a91322 634 BuffTemp[1] = Gyro.My_Addres; //00
Kovalev_D 129:406995a91322 635 BuffTemp[2] = Gyro.CMD_In; //D8
Kovalev_D 129:406995a91322 636 BuffTemp[3] = A<<4;
Kovalev_D 129:406995a91322 637 BuffTemp[4] = 0x0;
Kovalev_D 129:406995a91322 638 BuffTemp[5] = 0x0;
Kovalev_D 129:406995a91322 639 Check(BuffTemp, CRC_N);
Kovalev_D 129:406995a91322 640 WriteConN (BuffTemp,CRC_N);
igor_v 0:8ad47e2b6f00 641 }
igor_v 0:8ad47e2b6f00 642
igor_v 21:bc8c1cec3da6 643 void CMD_M_Control_D9()///чтение регистров управления
igor_v 21:bc8c1cec3da6 644 {
igor_v 21:bc8c1cec3da6 645 int bit,NReg;
igor_v 30:17c84ed091b3 646 BuffTemp[0] = Gyro.SOC_Out; //DD
igor_v 30:17c84ed091b3 647 BuffTemp[1] = Gyro.My_Addres; //00
igor_v 30:17c84ed091b3 648 BuffTemp[2] = Gyro.CMD_In; //D9
igor_v 21:bc8c1cec3da6 649 if ((Param1 & 0x10) == 0) {
igor_v 21:bc8c1cec3da6 650 BuffTemp[3]=0<<4;
igor_v 30:17c84ed091b3 651 BuffTemp[4] = (Gyro.RgConA>>8 )& 0xff;
igor_v 30:17c84ed091b3 652 BuffTemp[5] = Gyro.RgConA & 0xff;
igor_v 21:bc8c1cec3da6 653 } else {
igor_v 21:bc8c1cec3da6 654 BuffTemp[3]=1<<4;
igor_v 30:17c84ed091b3 655 BuffTemp[4] = (Gyro.RgConB>>8 ) & 0xff;
igor_v 30:17c84ed091b3 656 BuffTemp[5] = Gyro.RgConB & 0xff;
igor_v 21:bc8c1cec3da6 657 }
igor_v 21:bc8c1cec3da6 658 Check(BuffTemp, CRC_N);
igor_v 21:bc8c1cec3da6 659 WriteConN (BuffTemp,CRC_N);
igor_v 21:bc8c1cec3da6 660 }
igor_v 21:bc8c1cec3da6 661 // (номер (код) ЦАПа 0...3, старший байт требуемого ЦАПа, младший байт треб ЦАПа)
igor_v 0:8ad47e2b6f00 662 void CMD_M_Stymul()
igor_v 0:8ad47e2b6f00 663 {
igor_v 21:bc8c1cec3da6 664 int temp;
Kovalev_D 102:4270092be987 665 int HFO;
Kovalev_D 102:4270092be987 666 temp=BuffTemp[3];
Kovalev_D 102:4270092be987 667 Consol = temp&0x3;
Kovalev_D 103:e96f08947def 668 HFO = temp&0x3;// // (номер (код) ЦАПа 0...3, HFO - 3dac, PLC - 0DAC
igor_v 21:bc8c1cec3da6 669 temp =((BuffTemp[4]<<8) | BuffTemp[5]);
igor_v 21:bc8c1cec3da6 670 // temp=0;
igor_v 21:bc8c1cec3da6 671 temp=temp&0xFFFF;
Kovalev_D 102:4270092be987 672
Kovalev_D 102:4270092be987 673 if(HFO)
Kovalev_D 102:4270092be987 674 {
Kovalev_D 102:4270092be987 675 Spi.DAC_A=(unsigned int)temp;
Kovalev_D 102:4270092be987 676 }
Kovalev_D 102:4270092be987 677 else{
igor_v 21:bc8c1cec3da6 678 DACF =(temp*K_DAC)+deltaDAC;
igor_v 21:bc8c1cec3da6 679 Spi.DAC_B =(unsigned int)(DACF) /*(unsigned int)(temp*K_DAC+deltaDAC)*/; // K_DAC);
igor_v 21:bc8c1cec3da6 680 }
igor_v 0:8ad47e2b6f00 681 }
Kovalev_D 103:e96f08947def 682 void Gph_W()
Kovalev_D 103:e96f08947def 683 {
Kovalev_D 108:030cdde08314 684 Out_G_photo(BuffTemp[4],BuffTemp[5]);
Kovalev_D 103:e96f08947def 685 }
igor_v 0:8ad47e2b6f00 686
Kovalev_D 98:95b8e79f13e1 687 void CMD_M_vib()
Kovalev_D 115:e5a230e5af52 688 {
Kovalev_D 102:4270092be987 689 unsigned int temp1,temp2;
Kovalev_D 102:4270092be987 690
Kovalev_D 102:4270092be987 691 temp1 =((BuffTemp[4]<<8) | BuffTemp[5]);
Kovalev_D 102:4270092be987 692 temp1=temp1&0xFFFF;
Kovalev_D 102:4270092be987 693
Kovalev_D 102:4270092be987 694 temp2 =((BuffTemp[6]<<8) | BuffTemp[7]);
Kovalev_D 102:4270092be987 695 temp2=temp2&0xFFFF;
Kovalev_D 102:4270092be987 696 Gyro.Frq = ((unsigned int) ((7680000*16/temp1)))*16*16*16;
Kovalev_D 102:4270092be987 697 Consol=Gyro.Frq ;
Kovalev_D 98:95b8e79f13e1 698 }
igor_v 0:8ad47e2b6f00 699 unsigned int Check(char *c, unsigned int Count)
igor_v 0:8ad47e2b6f00 700 {
igor_v 21:bc8c1cec3da6 701 int i=1;
igor_v 21:bc8c1cec3da6 702 unsigned int temp,CRC;
igor_v 21:bc8c1cec3da6 703
igor_v 21:bc8c1cec3da6 704
igor_v 21:bc8c1cec3da6 705 temp=1;
igor_v 21:bc8c1cec3da6 706 CRC=0;
igor_v 21:bc8c1cec3da6 707
igor_v 21:bc8c1cec3da6 708
igor_v 21:bc8c1cec3da6 709 for(; i<Count-2; i++) {
igor_v 21:bc8c1cec3da6 710 CRC+=c[i];
igor_v 21:bc8c1cec3da6 711 }
igor_v 0:8ad47e2b6f00 712
igor_v 21:bc8c1cec3da6 713 if(c[Count-2]!=((CRC>>8)&0xFF)) {
igor_v 21:bc8c1cec3da6 714 temp=0;
igor_v 30:17c84ed091b3 715 Gyro.RsErrLine = (Gyro.RsErrLine)&=0x2;
igor_v 21:bc8c1cec3da6 716 }
igor_v 0:8ad47e2b6f00 717
igor_v 21:bc8c1cec3da6 718 if(c[Count-1]!=((CRC>>0)&0xFF)) {
igor_v 21:bc8c1cec3da6 719 temp=0;
igor_v 30:17c84ed091b3 720 // Gyro.RsErrLine= (Gyro.RsErrLine)=0x2;
igor_v 21:bc8c1cec3da6 721 }
igor_v 21:bc8c1cec3da6 722
igor_v 21:bc8c1cec3da6 723 c[Count-2]=(CRC>>8)&0xFF;
igor_v 21:bc8c1cec3da6 724 c[Count-1]=(CRC>>0)&0xFF;
igor_v 21:bc8c1cec3da6 725
igor_v 21:bc8c1cec3da6 726
igor_v 21:bc8c1cec3da6 727
igor_v 21:bc8c1cec3da6 728 return temp;
igor_v 0:8ad47e2b6f00 729 }
igor_v 0:8ad47e2b6f00 730
igor_v 0:8ad47e2b6f00 731 int Getlengf(void)
igor_v 0:8ad47e2b6f00 732 {
Kovalev_D 121:bbae560cdd43 733 unsigned int lengf;
Kovalev_D 121:bbae560cdd43 734 lengf = 1;
igor_v 30:17c84ed091b3 735 switch(Gyro.CMD_In) {
igor_v 30:17c84ed091b3 736 case 0x99://Gyrotainance
Kovalev_D 92:c892f0311aa7 737
igor_v 21:bc8c1cec3da6 738 lengf=6;
igor_v 21:bc8c1cec3da6 739 CRC_N=8;
igor_v 21:bc8c1cec3da6 740 break;
igor_v 0:8ad47e2b6f00 741
igor_v 21:bc8c1cec3da6 742 case 0x0A: //m_stymul
igor_v 21:bc8c1cec3da6 743 lengf=8;
igor_v 21:bc8c1cec3da6 744 break;
igor_v 21:bc8c1cec3da6 745
Kovalev_D 129:406995a91322 746 case 0xE9://DeviceMode
igor_v 21:bc8c1cec3da6 747
igor_v 21:bc8c1cec3da6 748 lengf=6;
igor_v 21:bc8c1cec3da6 749 CRC_N=8;
igor_v 21:bc8c1cec3da6 750 break;
Kovalev_D 129:406995a91322 751 case 0xE8://DeviceMode
igor_v 21:bc8c1cec3da6 752
Kovalev_D 129:406995a91322 753 lengf=6;
Kovalev_D 129:406995a91322 754 CRC_N=8;
Kovalev_D 129:406995a91322 755 break;
Kovalev_D 129:406995a91322 756
Kovalev_D 129:406995a91322 757 case 0xA5://DeviceMode
Kovalev_D 129:406995a91322 758
Kovalev_D 129:406995a91322 759 lengf=6;
Kovalev_D 129:406995a91322 760 CRC_N=8;
Kovalev_D 129:406995a91322 761 break;
Kovalev_D 129:406995a91322 762
igor_v 21:bc8c1cec3da6 763 case 0xDD://m_rate
igor_v 21:bc8c1cec3da6 764 lengf=6;
igor_v 21:bc8c1cec3da6 765 CRC_N=44;
igor_v 21:bc8c1cec3da6 766 break;
Kovalev_D 162:44e4ded32c6a 767
Kovalev_D 162:44e4ded32c6a 768
Kovalev_D 124:9ae09249f842 769 case 0xA0://Delta_PS
Kovalev_D 124:9ae09249f842 770 lengf=6;
Kovalev_D 124:9ae09249f842 771 CRC_N=8;
Kovalev_D 124:9ae09249f842 772 break;
Kovalev_D 124:9ae09249f842 773
Kovalev_D 124:9ae09249f842 774
igor_v 21:bc8c1cec3da6 775 case 0xB0://DeviceMode
igor_v 21:bc8c1cec3da6 776
igor_v 21:bc8c1cec3da6 777 lengf=6;
igor_v 21:bc8c1cec3da6 778 CRC_N=8;
igor_v 21:bc8c1cec3da6 779 break;
igor_v 21:bc8c1cec3da6 780
igor_v 21:bc8c1cec3da6 781 case 0xD8://m_control
igor_v 0:8ad47e2b6f00 782
igor_v 21:bc8c1cec3da6 783 lengf=6;
igor_v 21:bc8c1cec3da6 784 CRC_N=8;
igor_v 21:bc8c1cec3da6 785 break;
igor_v 21:bc8c1cec3da6 786
igor_v 21:bc8c1cec3da6 787 case 0xD9://m_control
igor_v 0:8ad47e2b6f00 788
igor_v 21:bc8c1cec3da6 789 lengf=6;
igor_v 21:bc8c1cec3da6 790 CRC_N=8;
igor_v 21:bc8c1cec3da6 791 break;
Kovalev_D 102:4270092be987 792
Kovalev_D 102:4270092be987 793 case 0xE4:
Kovalev_D 98:95b8e79f13e1 794 lengf=8;
Kovalev_D 98:95b8e79f13e1 795 break;
Kovalev_D 103:e96f08947def 796
Kovalev_D 103:e96f08947def 797
Kovalev_D 103:e96f08947def 798 case 0xE6:
Kovalev_D 103:e96f08947def 799 lengf=8;
Kovalev_D 103:e96f08947def 800 break;
Kovalev_D 103:e96f08947def 801
igor_v 21:bc8c1cec3da6 802 }
Kovalev_D 98:95b8e79f13e1 803
igor_v 21:bc8c1cec3da6 804 return lengf;
igor_v 0:8ad47e2b6f00 805 }
igor_v 0:8ad47e2b6f00 806
igor_v 0:8ad47e2b6f00 807 void Read_CMD(void)
igor_v 21:bc8c1cec3da6 808 {
Kovalev_D 147:1aed74f19a8f 809 Gyro.RsErrLine = (Gyro.RsErrLine)& 0xffff;//для сброса ошибки
Kovalev_D 147:1aed74f19a8f 810 CountBuFFIn=ReadChekCon1(BuffTemp); // чтение данных из консоли
Kovalev_D 147:1aed74f19a8f 811 if(CountBuFFIn==1) { // если есть первый байт
Kovalev_D 147:1aed74f19a8f 812 if (BuffTemp[0] != SOC_In) {
Kovalev_D 147:1aed74f19a8f 813 ReadCon1(BuffTemp);
Kovalev_D 147:1aed74f19a8f 814 Gyro.RsErrLine += 0x100;//WriteCon("\n\r ...Error.... ");
Kovalev_D 147:1aed74f19a8f 815 BuffTemp[99]=Gyro.RsErrLine;
Kovalev_D 147:1aed74f19a8f 816 }
Kovalev_D 147:1aed74f19a8f 817 }
Kovalev_D 147:1aed74f19a8f 818 else if(CountBuFFIn==2) //если второй ,fqn
Kovalev_D 147:1aed74f19a8f 819 {
Kovalev_D 147:1aed74f19a8f 820 if (BuffTemp[1] != Gyro.My_Addres) {
Kovalev_D 93:b3803774f110 821 ReadCon1(BuffTemp);
Diletant 149:abbf7663d27d 822 Gyro.RsErrLine += 0x1;WriteCon("\n\r ...Error_ADDRES.... ");
Kovalev_D 147:1aed74f19a8f 823 }
Kovalev_D 147:1aed74f19a8f 824 }
Kovalev_D 147:1aed74f19a8f 825 else if(CountBuFFIn==3) // если ьоетий байт
Kovalev_D 147:1aed74f19a8f 826 {
igor_v 30:17c84ed091b3 827 Gyro.CMD_In=BuffTemp[2];
Kovalev_D 92:c892f0311aa7 828 N=Getlengf();
Kovalev_D 92:c892f0311aa7 829 }
Kovalev_D 92:c892f0311aa7 830 else if(CountBuFFIn==4 && (N==6))
Kovalev_D 92:c892f0311aa7 831 { // N - длина посылки аскглд(для записи параметров). определяется по коду команды в Getlengf();
igor_v 21:bc8c1cec3da6 832 Param1=BuffTemp[3];
Kovalev_D 92:c892f0311aa7 833 }
Kovalev_D 92:c892f0311aa7 834 else if((CountBuFFIn==5)&&(N==7))
Kovalev_D 92:c892f0311aa7 835 {
igor_v 21:bc8c1cec3da6 836 Param1=BuffTemp[3];
igor_v 21:bc8c1cec3da6 837 Param2=BuffTemp[4];
igor_v 0:8ad47e2b6f00 838
Kovalev_D 92:c892f0311aa7 839 }
Kovalev_D 92:c892f0311aa7 840 else if((CountBuFFIn==6)&&(N==8))
Kovalev_D 147:1aed74f19a8f 841 {
igor_v 21:bc8c1cec3da6 842 Param1=BuffTemp[3];
igor_v 21:bc8c1cec3da6 843 Param2=BuffTemp[4];
igor_v 21:bc8c1cec3da6 844 Param3=BuffTemp[5];
Kovalev_D 92:c892f0311aa7 845 }
Kovalev_D 102:4270092be987 846 else if((CountBuFFIn==8)&&(N==10))
Kovalev_D 147:1aed74f19a8f 847 {
Kovalev_D 102:4270092be987 848 Param1=BuffTemp[4];
Kovalev_D 102:4270092be987 849 Param2=BuffTemp[5];
Kovalev_D 102:4270092be987 850 Param3=BuffTemp[6];
Kovalev_D 102:4270092be987 851 Param4=BuffTemp[7];
Kovalev_D 102:4270092be987 852 }
Kovalev_D 98:95b8e79f13e1 853
Kovalev_D 92:c892f0311aa7 854 else if(CountBuFFIn > (N-1))
Kovalev_D 92:c892f0311aa7 855 {
Kovalev_D 147:1aed74f19a8f 856 ReadCon1(BuffTemp);
Kovalev_D 147:1aed74f19a8f 857 switch(Gyro.CMD_In) {
Kovalev_D 147:1aed74f19a8f 858 Rate_Flag=0;
Kovalev_D 92:c892f0311aa7 859 case 0x99:
Kovalev_D 124:9ae09249f842 860 Gyro.ModeOut=0;
Diletant 149:abbf7663d27d 861 CMD_Maintenance(); WriteCon("\n\r ...CMD_Maintenance().... ");
Kovalev_D 124:9ae09249f842 862 break;
Kovalev_D 129:406995a91322 863
Kovalev_D 124:9ae09249f842 864 case 0xA0:
Kovalev_D 124:9ae09249f842 865 TempParam=(BuffTemp[3]) & 0x90;
Kovalev_D 165:b2bd0c810a4f 866 if (TempParam==Delta_500) {CMD_Delta_500Hz();}
Kovalev_D 165:b2bd0c810a4f 867 else if (TempParam==Delta_EXT) {CMD_Delta_Ext(); }
Kovalev_D 165:b2bd0c810a4f 868 else if (TempParam==PDelta_500) { UART_InitSet (1, 115200, 0x03); Gyro.ModeOut=3; Gyro.Delta500_Event=0; /*WriteCon("Delta500");*/ }
Kovalev_D 165:b2bd0c810a4f 869 else if (TempParam==PDelta_EXT) { UART_InitSet (1, 115200, 0x03); Gyro.ModeOut=4; Gyro.DeltaEXT_Event=0;/* WriteCon("deltaEXT"); */}
Kovalev_D 147:1aed74f19a8f 870 break;
Kovalev_D 129:406995a91322 871
igor_v 21:bc8c1cec3da6 872 case 0xD8:
igor_v 21:bc8c1cec3da6 873 CMD_M_Control_D8();
Kovalev_D 147:1aed74f19a8f 874 break;
Kovalev_D 129:406995a91322 875
Kovalev_D 129:406995a91322 876 case 0xE9://чтение параметров
Kovalev_D 129:406995a91322 877 CMD_M_Param_R();
Kovalev_D 147:1aed74f19a8f 878 break;
Kovalev_D 129:406995a91322 879
Kovalev_D 129:406995a91322 880 case 0xE8://запись параметра
Kovalev_D 129:406995a91322 881 CMD_M_Param_W();
Kovalev_D 147:1aed74f19a8f 882 break;
Kovalev_D 129:406995a91322 883
igor_v 21:bc8c1cec3da6 884 case 0xD9:
igor_v 21:bc8c1cec3da6 885 CMD_M_Control_D9();
Kovalev_D 147:1aed74f19a8f 886 break;
Kovalev_D 129:406995a91322 887
igor_v 21:bc8c1cec3da6 888 case 0x0A:
Kovalev_D 45:cbc955aecebe 889 CMD_M_Stymul();
Kovalev_D 147:1aed74f19a8f 890 break;
Kovalev_D 129:406995a91322 891
igor_v 21:bc8c1cec3da6 892 case 0xDD:
Kovalev_D 147:1aed74f19a8f 893 TempParam=(BuffTemp[3]) & 0x9f;
Kovalev_D 147:1aed74f19a8f 894 if (TempParam == Rate1) { CMD_Rate(); WriteCon("Rate11");}
Kovalev_D 165:b2bd0c810a4f 895 else if (TempParam == Rate2) { CMD_Rate2(); WriteCon("Rate21");}
Kovalev_D 147:1aed74f19a8f 896 else if (TempParam == PRate1) { Gyro.ModeOut=1; Gyro.Rate1_Event=0; WriteCon("Rate12");}
Kovalev_D 147:1aed74f19a8f 897 else if (TempParam == PRate2) { Gyro.ModeOut=2; Gyro.Rate2_Event=0; WriteCon("Rate22");}
Kovalev_D 147:1aed74f19a8f 898 break;
Kovalev_D 129:406995a91322 899
Kovalev_D 147:1aed74f19a8f 900 case 0xE4:
Kovalev_D 102:4270092be987 901 CMD_M_vib();
Kovalev_D 147:1aed74f19a8f 902 break;
Kovalev_D 129:406995a91322 903
Kovalev_D 103:e96f08947def 904 case 0xE6:
Kovalev_D 103:e96f08947def 905 Gph_W();
Kovalev_D 147:1aed74f19a8f 906 break;
Kovalev_D 147:1aed74f19a8f 907 Gyro.RsErrLine = 0;
Kovalev_D 147:1aed74f19a8f 908 }
Kovalev_D 102:4270092be987 909 }
Kovalev_D 147:1aed74f19a8f 910 }
Kovalev_D 147:1aed74f19a8f 911 void TechLog(void)
Kovalev_D 147:1aed74f19a8f 912 {
Kovalev_D 147:1aed74f19a8f 913 if (ReadCon (Time)) {
Kovalev_D 147:1aed74f19a8f 914 /////////////////////////////////////////////////////////////////
Kovalev_D 147:1aed74f19a8f 915 ////////////////////////////////////////////////////////////////
Kovalev_D 147:1aed74f19a8f 916 //////////////////////Выбор FlashMod///////////////////////////
Kovalev_D 147:1aed74f19a8f 917 ////////////////////////////////////////////////////////////////
Kovalev_D 121:bbae560cdd43 918
Kovalev_D 147:1aed74f19a8f 919 if (Time[0] == 'B') {Gyro.FlashMod=1;}
Kovalev_D 147:1aed74f19a8f 920 if (Time[0] == 'W') {Gyro.FlashMod=2;}
Kovalev_D 147:1aed74f19a8f 921 if (Time[0] == 'R') {Gyro.FlashMod=3;}
Kovalev_D 147:1aed74f19a8f 922 ///////////////////////////////////////////////////////////////
Kovalev_D 147:1aed74f19a8f 923 ///////////////////////////////////////////////////////////////
Kovalev_D 147:1aed74f19a8f 924 ////////////////////////////////////////////////////////////////
Kovalev_D 147:1aed74f19a8f 925 if (Time[0] == 'H') { // если ввели буквц h то выдать подсказку. сделанно через принф ОЧЕНЬ плохо в работе не использовать
Kovalev_D 147:1aed74f19a8f 926 sprintf(Time,"\r\nCompiled: %s %s.",__DATE__, __TIME__ ); //Подготовка даты и времени компиляции
Kovalev_D 147:1aed74f19a8f 927 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 928 sprintf(Time,"--%d.%3.d.%2.d.",Time1Hz,Time1K,Time100K); //Временно выдачпа временни из трех чисел
Kovalev_D 147:1aed74f19a8f 929 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 930 }
Kovalev_D 147:1aed74f19a8f 931 if (Time[0] == 'D') {
Kovalev_D 147:1aed74f19a8f 932 Gyro.Discharg = StartDischarg;
Kovalev_D 147:1aed74f19a8f 933 }
Kovalev_D 147:1aed74f19a8f 934 if (Time[0] == 'L') {
Kovalev_D 147:1aed74f19a8f 935 Gyro.BackLight = StartBackLight;
Kovalev_D 147:1aed74f19a8f 936 }
Kovalev_D 147:1aed74f19a8f 937 if (Time[0] == 'F') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 938 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 939 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 940 sprintf((Time)," Gyro.Termo = <%07d> Spi.ADC1 = <%07d> Spi.ADC1_Accum = <%07d>",Spi.ADC4,Spi.ADC4,Spi.ADC4_Accum );
Kovalev_D 147:1aed74f19a8f 941 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 942 }
Kovalev_D 147:1aed74f19a8f 943 if (Time[0] == 'q') { // внешняя защелка
Kovalev_D 147:1aed74f19a8f 944 Gyro.EXT_Latch=1;
Kovalev_D 147:1aed74f19a8f 945 }
Kovalev_D 147:1aed74f19a8f 946 if (Time[0] == '1') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 947 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 948 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 949 for (int i = 0; i < 32; i++ )sprintf((Time + i * 9)," <%05d> ",Buff_1Point[i]);
Kovalev_D 147:1aed74f19a8f 950 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 951 }
Kovalev_D 147:1aed74f19a8f 952 if (Time[0] == '2') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 953 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 954 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 955 for (int i = 0; i < 32; i++ )sprintf((Time + i * 9)," <%05d> ", Buff_8Point[i]);
Kovalev_D 147:1aed74f19a8f 956 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 957 }
Kovalev_D 147:1aed74f19a8f 958 if (Time[0] == '3') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 959 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 960 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 961 for (int i = 0; i < 32; i++ )sprintf((Time + i * 9)," <%05d> ", Buff_16Point[i]);
Kovalev_D 147:1aed74f19a8f 962 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 963 }
Kovalev_D 147:1aed74f19a8f 964 if (Time[0] == '4') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 965 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 966 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 967 for (int i = 0; i < 32; i++ )sprintf((Time + i * 9)," <%05d> ", Buff_16PointD[i]);
Kovalev_D 147:1aed74f19a8f 968 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 969 }
Kovalev_D 147:1aed74f19a8f 970 if (Time[0] == 'z'){ // выдача технологическая
Kovalev_D 147:1aed74f19a8f 971 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 972 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 973 for (int i = 0; i < 32; i++ )
Kovalev_D 147:1aed74f19a8f 974 {
Kovalev_D 147:1aed74f19a8f 975 ttemp=(Buff_16PointD[i]);
Kovalev_D 147:1aed74f19a8f 976 if (ttemp < 0) WriteCon("1"); else WriteCon("0");
Kovalev_D 147:1aed74f19a8f 977 }
Kovalev_D 147:1aed74f19a8f 978 }
Kovalev_D 147:1aed74f19a8f 979 if (Time[0] == '5'){ // выдача технологическая
Kovalev_D 147:1aed74f19a8f 980 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 981 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 982 for (int i = 0; i < 32; i++ )sprintf((Time + i * 9)," <%05d> ",Buff_32Point[i]);
Kovalev_D 147:1aed74f19a8f 983 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 984 }
Kovalev_D 147:1aed74f19a8f 985 if (Time[0] == '6') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 986 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 987 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 988 for (int i = 0; i < 32; i++ )sprintf((Time + i * 9)," <%05d> ",Buff_Restored_sin[i]);
Kovalev_D 147:1aed74f19a8f 989 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 990 }
Kovalev_D 147:1aed74f19a8f 991 if (Time[0] == '7') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 992 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 993 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 994 for (int i = 0; i < 32; i++ )sprintf((Time + i * 10)," <%07d> ",Buff_AMP64P[i]-(Buff_AMP[i]));
Kovalev_D 147:1aed74f19a8f 995 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 996 }
Kovalev_D 147:1aed74f19a8f 997 if (Time[0] == '9') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 998 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 999 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1000 for (int i = 0; i < 32; i++ )sprintf((Time)," <%07d> ",Gyro.Frq);
Kovalev_D 147:1aed74f19a8f 1001 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1002 }
Kovalev_D 147:1aed74f19a8f 1003 if (Time[0] == 'p') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 1004 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 1005 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1006 for (int i = 0; i < 32; i++ )sprintf((Time)," <%07d> ",Cur_Amp);
Kovalev_D 147:1aed74f19a8f 1007 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1008 }
Kovalev_D 147:1aed74f19a8f 1009 if (Time[0] == 'm') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 1010 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 1011 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1012 sprintf((Time),"PLC_Delta <%07d> ", Gyro.PLC_Delta); WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1013 sprintf((Time),"PLC_DeltaADD <%07d> ", Gyro.PLC_DeltaADD); WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1014 }
Kovalev_D 147:1aed74f19a8f 1015 if (Time[0] == 'V') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 1016 Spi.DAC_B += 200;
Kovalev_D 147:1aed74f19a8f 1017 }
Kovalev_D 147:1aed74f19a8f 1018 if (Time[0] == 'v') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 1019 Spi.DAC_B -= 200;
Kovalev_D 147:1aed74f19a8f 1020 }
Kovalev_D 147:1aed74f19a8f 1021 ////////////////////////////////////////////////////////////////////////////////
Kovalev_D 150:29c9f7671bac 1022 /*Запись лога регулировки частоты*/
Kovalev_D 147:1aed74f19a8f 1023 if (Time[0] == 'y') Gyro.LogHZ=1; //включит передачу
Kovalev_D 147:1aed74f19a8f 1024 if (Time[0] == 'u') Gyro.StrayHZ_flag = 1; //LPC_TIM1->MR0+1000 вносим помеху
Kovalev_D 147:1aed74f19a8f 1025 if (Time[0] == 'i') Gyro.StrayHZ_flag = 0; //LPC_TIM1->MR0 убираем помеху
Kovalev_D 147:1aed74f19a8f 1026 if (Time[0] == 'o') Gyro.LogHZ=0; //Отключить передачу
Kovalev_D 147:1aed74f19a8f 1027 ////////////////////////////////////////////////////////////////////////////////////
Kovalev_D 150:29c9f7671bac 1028 /*Запись лога регулировки периметра*/
Kovalev_D 151:d565ce4d58c8 1029 if (Time[0] == 'g') {Gyro.LogPLC=1; Gyro.PLC_Lern=0;} //включит передачу
Kovalev_D 150:29c9f7671bac 1030 if (Time[0] == 'h') Gyro.StrayPLC_flag = 1; //LPC_TIM1->MR0+1000 вносим помеху +
Kovalev_D 150:29c9f7671bac 1031 if (Time[0] == 'j') Gyro.StrayPLC_flag = 0; //LPC_TIM1->MR0 убираем помеху
Kovalev_D 150:29c9f7671bac 1032 if (Time[0] == 'b') Gyro.StrayPLC_flag = 3; //LPC_TIM1->MR0-1000 вносим помеху -
Kovalev_D 150:29c9f7671bac 1033 if (Time[0] == 'n') Gyro.StrayPLC_flag = 2; //LPC_TIM1->MR0+2500 большая помеха.
Kovalev_D 147:1aed74f19a8f 1034 if (Time[0] == 'k') Gyro.LogPLC=0; //Отключить передачу
Kovalev_D 147:1aed74f19a8f 1035 //////////////////////////////////////////////////////////////////////////////////////
Kovalev_D 147:1aed74f19a8f 1036 if (Time[0] == '8') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 1037 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 1038 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1039 for (int i = 0; i < 32; i++ )
Kovalev_D 147:1aed74f19a8f 1040 {
Kovalev_D 147:1aed74f19a8f 1041 ttemp=(Buff_AMP64P[i]-(Buff_AMP[i]));
Kovalev_D 147:1aed74f19a8f 1042 if (ttemp < 0) WriteCon("1"); else WriteCon("0");
Kovalev_D 147:1aed74f19a8f 1043 }
Kovalev_D 147:1aed74f19a8f 1044 }
Kovalev_D 147:1aed74f19a8f 1045 if (Time[0] == 'b') { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 1046 sprintf(Time,"\r\n");
Kovalev_D 147:1aed74f19a8f 1047 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1048 for (int i = 0; i < 32; i++ )
Kovalev_D 147:1aed74f19a8f 1049 {
Kovalev_D 147:1aed74f19a8f 1050 ttemp=(Buff_Restored_sin[i]);
Kovalev_D 147:1aed74f19a8f 1051 if (ttemp < 0) WriteCon("1"); else WriteCon("0");
Kovalev_D 147:1aed74f19a8f 1052 }
Kovalev_D 147:1aed74f19a8f 1053 }
Kovalev_D 147:1aed74f19a8f 1054 if (Gyro.PLC_Error2Mode) { // выдача технологическая
Kovalev_D 147:1aed74f19a8f 1055 sprintf(Time,"\r\nPLC_Error2Mode");
Kovalev_D 147:1aed74f19a8f 1056 WriteCon(Time);
Kovalev_D 147:1aed74f19a8f 1057 }
Kovalev_D 147:1aed74f19a8f 1058 }
igor_v 0:8ad47e2b6f00 1059 }
igor_v 0:8ad47e2b6f00 1060
igor_v 0:8ad47e2b6f00 1061