Dmitry Kovalev / Mbed 2 deprecated LG2

fork

Dependencies:   mbed

Fork of LG by igor Apu

SPI.c@122:fbacb932a30b, 2016-04-07 (annotated)

Committer:
Kovalev_D
Date:
Thu Apr 07 16:45:25 2016 +0000
Revision:
122:fbacb932a30b
Parent:
121:bbae560cdd43
Child:
125:9400e64d0636
???? 115  .  ???? ?????? 921600 ????? (????????? ??? ?????????)

Who changed what in which revision?

UserRevisionLine numberNew contents of line
igor_v 0:8ad47e2b6f00 1 #include "Global.h"
igor_v 0:8ad47e2b6f00 2 struct SPI Spi;
Kovalev_D 112:4a96133a1311 3 //unsigned int Temp_AMP;
Kovalev_D 96:1c8536458119 4 unsigned int Temp_AMP64P;
igor_v 31:c783288001b5 5
Kovalev_D 99:3d8f206ceac2 6 unsigned int Count_AMP, ADD_AMP, Cur_Amp;
Kovalev_D 99:3d8f206ceac2 7 int Znak_Amp;
Kovalev_D 109:ee0cff33ad3b 8 int AD_Regul = 0;
Kovalev_D 109:ee0cff33ad3b 9
Kovalev_D 109:ee0cff33ad3b 10
Kovalev_D 99:3d8f206ceac2 11
Kovalev_D 86:398da56ef751 12 unsigned int Temp_ADC_2;
Kovalev_D 86:398da56ef751 13 unsigned int Temp_ADC_3;
Kovalev_D 86:398da56ef751 14 unsigned int Temp_ADC_4;
Kovalev_D 86:398da56ef751 15 unsigned int Temp_ADC_5;
igor_v 31:c783288001b5 16
igor_v 31:c783288001b5 17
Kovalev_D 95:dd51e577e114 18 unsigned int Buff_ADC_1 [32];
Kovalev_D 95:dd51e577e114 19 unsigned int Buff_ADC_2 [32];
Kovalev_D 95:dd51e577e114 20 unsigned int Buff_ADC_3 [32];
Kovalev_D 95:dd51e577e114 21 unsigned int Buff_ADC_4 [32];
igor_v 51:81f47b817071 22
igor_v 31:c783288001b5 23 unsigned int Buff_ADC_5 [256];
igor_v 31:c783288001b5 24 unsigned int Buff_AMP [256];
Kovalev_D 96:1c8536458119 25 unsigned int Buff_AMP64P [256];
igor_v 31:c783288001b5 26 unsigned int SinPLC[64]= {1023, 1016, 1006, 993, 976, 954, 904, 874, 841, 806, 768, 728,
igor_v 31:c783288001b5 27 687, 645, 601, 557, 500, 379, 337, 296, 256, 219, 183, 150,
igor_v 31:c783288001b5 28 120, 93, 69, 48, 31, 18, 8, 0, 8, 18, 31, 48,
igor_v 31:c783288001b5 29 69, 93, 120, 150, 183, 219, 256, 296, 337, 379, 468, 512, 557,
igor_v 31:c783288001b5 30 601, 645, 687, 728, 768, 806, 841, 874, 904, 954, 976, 993, 1006,
igor_v 31:c783288001b5 31 1016, 1023
igor_v 31:c783288001b5 32 };
Kovalev_D 86:398da56ef751 33
igor_v 110:6406b7ac0442 34
igor_v 110:6406b7ac0442 35
igor_v 110:6406b7ac0442 36
igor_v 110:6406b7ac0442 37
igor_v 114:5cc38a53d8a7 38 void SPI_Exchange(void) // новая функция чтения, в нецй не должно быть ничего лишнего
igor_v 110:6406b7ac0442 39 {
igor_v 110:6406b7ac0442 40 unsigned int DummySPI;
igor_v 110:6406b7ac0442 41 Spi.ADC5_Accum += LPC_SSP0->DR; // Чтение АЦП
igor_v 110:6406b7ac0442 42 Spi.ADC4_Accum += LPC_SSP0->DR;
igor_v 110:6406b7ac0442 43 Spi.ADC3_Accum += LPC_SSP0->DR;
igor_v 110:6406b7ac0442 44 Spi.ADC2_Accum += LPC_SSP0->DR;
igor_v 110:6406b7ac0442 45 Spi.ADC1_Accum += LPC_SSP0->DR;
igor_v 110:6406b7ac0442 46 while (LPC_SSP0->SR & RX_SSP_notEMPT) {DummySPI = LPC_SSP0->DR;} //если буфер SPI не пуст.//очистить буфер.
Kovalev_D 112:4a96133a1311 47
Kovalev_D 112:4a96133a1311 48
Kovalev_D 112:4a96133a1311 49 DAC_OutPut();
Kovalev_D 112:4a96133a1311 50
igor_v 110:6406b7ac0442 51 if (CountV31 == 0) // просто фильтруем по 32 точкам.
igor_v 110:6406b7ac0442 52 {
Kovalev_D 112:4a96133a1311 53 // выставояем бит, что есть новы данные
igor_v 110:6406b7ac0442 54 Spi.ADC1 = Spi.ADC1_Accum >> 5; // подгоотавливаем данные (в той эе сетке) те ADC1 0..65535
igor_v 110:6406b7ac0442 55 Spi.ADC2 = Spi.ADC2_Accum >> 5;
igor_v 110:6406b7ac0442 56 Spi.ADC3 = Spi.ADC3_Accum >> 5;
igor_v 110:6406b7ac0442 57 Spi.ADC4 = Spi.ADC4_Accum >> 5;
igor_v 110:6406b7ac0442 58 Spi.ADC5 = Spi.ADC5_Accum >> 5;
Kovalev_D 112:4a96133a1311 59 Spi.ADC1_Accum = 0; // сбрасывкем аккамулятор
Kovalev_D 112:4a96133a1311 60 Spi.ADC2_Accum = 0;
Kovalev_D 112:4a96133a1311 61 Spi.ADC3_Accum = 0;
Kovalev_D 112:4a96133a1311 62 Spi.ADC4_Accum = 0;
Kovalev_D 112:4a96133a1311 63 Spi.ADC5_Accum = 0;
Kovalev_D 112:4a96133a1311 64 Spi.PLC_NewData = 1;
igor_v 110:6406b7ac0442 65 }
Kovalev_D 112:4a96133a1311 66 Spi.ADC_NewData = 1;
Kovalev_D 113:8be429494918 67
Kovalev_D 112:4a96133a1311 68 }
Kovalev_D 113:8be429494918 69
Kovalev_D 116:66f1f0ff2dab 70 void PlcRegul(void) //Программа расчет напряжения для модулятора
Kovalev_D 116:66f1f0ff2dab 71 {
Kovalev_D 116:66f1f0ff2dab 72 int PLC_In;
Kovalev_D 116:66f1f0ff2dab 73
Kovalev_D 116:66f1f0ff2dab 74 PLC_In = Gyro.AD_Slow;
Kovalev_D 116:66f1f0ff2dab 75 // PLC_In = Gyro.AD_Fast;
Kovalev_D 116:66f1f0ff2dab 76
Kovalev_D 116:66f1f0ff2dab 77 Gyro.PLC_Delta = Gyro.PLC_Old - PLC_In;
Kovalev_D 116:66f1f0ff2dab 78
Kovalev_D 116:66f1f0ff2dab 79
Kovalev_D 116:66f1f0ff2dab 80
Kovalev_D 116:66f1f0ff2dab 81 if(Gyro.RgConA&0x2)
Kovalev_D 116:66f1f0ff2dab 82 {
Kovalev_D 116:66f1f0ff2dab 83 if (Gyro.PLC_Znak > 1) {Gyro.PLC_Znak --;}
Kovalev_D 121:bbae560cdd43 84 else if ( Gyro.PLC_Delta > (1000 * 65536)) {Spi.DAC_B += 2500; Gyro.PLC_Znak = 5;}
Kovalev_D 121:bbae560cdd43 85 else if ( Gyro.PLC_Delta < (-1000 * 65536)) {Spi.DAC_B += 2500; Gyro.PLC_Znak = 5;}
Kovalev_D 116:66f1f0ff2dab 86 else if ((Gyro.PLC_Delta * Gyro.PLC_Znak) > 0)
Kovalev_D 116:66f1f0ff2dab 87 {
Kovalev_D 116:66f1f0ff2dab 88 Gyro.PLC_Znak = 1;
Kovalev_D 121:bbae560cdd43 89 // Gyro.PLC_Regul -= ((Gyro.PLC_Delta * Gyro.PLC_Znak)/100);
Kovalev_D 121:bbae560cdd43 90 Spi.DAC_B += (((Gyro.PLC_Delta * Gyro.PLC_Znak)/65536))*16;
Kovalev_D 116:66f1f0ff2dab 91
Kovalev_D 116:66f1f0ff2dab 92 }
Kovalev_D 116:66f1f0ff2dab 93 else
Kovalev_D 116:66f1f0ff2dab 94 {
Kovalev_D 116:66f1f0ff2dab 95 Gyro.PLC_Znak = -1;
Kovalev_D 121:bbae560cdd43 96 // Gyro.PLC_Regul -= ((Gyro.PLC_Delta * Gyro.PLC_Znak)/100);
Kovalev_D 121:bbae560cdd43 97 Spi.DAC_B -= (((Gyro.PLC_Delta * Gyro.PLC_Znak)/65536))*16;
Kovalev_D 116:66f1f0ff2dab 98 }
Kovalev_D 116:66f1f0ff2dab 99 // Spi.DAC_B = (Gyro.PLC_Regul + 0x1fffffff)/65536;
Kovalev_D 116:66f1f0ff2dab 100
Kovalev_D 116:66f1f0ff2dab 101 }
Kovalev_D 122:fbacb932a30b 102 else Spi.DAC_B += 16;
Kovalev_D 122:fbacb932a30b 103
Kovalev_D 122:fbacb932a30b 104
Kovalev_D 122:fbacb932a30b 105
Kovalev_D 122:fbacb932a30b 106
Kovalev_D 116:66f1f0ff2dab 107 Gyro.PLC_Old = PLC_In;
Kovalev_D 116:66f1f0ff2dab 108 }
Kovalev_D 116:66f1f0ff2dab 109
Kovalev_D 116:66f1f0ff2dab 110
Kovalev_D 116:66f1f0ff2dab 111
Kovalev_D 116:66f1f0ff2dab 112
Kovalev_D 116:66f1f0ff2dab 113 void PlcRegul_old(void) // на всяни й случай
Kovalev_D 112:4a96133a1311 114 {
Kovalev_D 112:4a96133a1311 115 int Delta;
Kovalev_D 112:4a96133a1311 116
Kovalev_D 112:4a96133a1311 117 ADD_AMP+=Spi.ADC5;
Kovalev_D 112:4a96133a1311 118 Count_AMP++;
Kovalev_D 112:4a96133a1311 119 if(Count_AMP>=(32*32+8))
Kovalev_D 112:4a96133a1311 120 {
Kovalev_D 112:4a96133a1311 121 Delta = ADD_AMP - Cur_Amp;
Kovalev_D 112:4a96133a1311 122
Kovalev_D 112:4a96133a1311 123 if(Gyro.RgConA&0x2)
Kovalev_D 112:4a96133a1311 124 {
Kovalev_D 112:4a96133a1311 125 if (Znak_Amp > 1) {Znak_Amp --;}
Kovalev_D 112:4a96133a1311 126 else if ( Delta > 30000000 ) {AD_Regul += 5000000; Znak_Amp = 5;}
Kovalev_D 112:4a96133a1311 127 else if ( Delta < (-3000000)) {AD_Regul += 5000000; Znak_Amp = 5;}
Kovalev_D 112:4a96133a1311 128 else if ((Delta * Znak_Amp) > 0)
Kovalev_D 112:4a96133a1311 129 {
Kovalev_D 112:4a96133a1311 130 Znak_Amp = 1;
Kovalev_D 112:4a96133a1311 131 AD_Regul -= (Delta * Znak_Amp * 10);
Kovalev_D 112:4a96133a1311 132 }
Kovalev_D 112:4a96133a1311 133 else
Kovalev_D 112:4a96133a1311 134 {
Kovalev_D 112:4a96133a1311 135 Znak_Amp = -1;
Kovalev_D 112:4a96133a1311 136 AD_Regul -= (Delta * Znak_Amp * 10);
Kovalev_D 112:4a96133a1311 137 }
Kovalev_D 112:4a96133a1311 138
Kovalev_D 112:4a96133a1311 139 Spi.DAC_B = (AD_Regul + 0x1fffffff)/65536;
Kovalev_D 112:4a96133a1311 140 }
Kovalev_D 112:4a96133a1311 141 Cur_Amp=ADD_AMP; Count_AMP=0; ADD_AMP=0;
Kovalev_D 112:4a96133a1311 142 }
Kovalev_D 112:4a96133a1311 143
igor_v 110:6406b7ac0442 144 }
igor_v 110:6406b7ac0442 145
igor_v 110:6406b7ac0442 146
Kovalev_D 116:66f1f0ff2dab 147
Kovalev_D 116:66f1f0ff2dab 148
Kovalev_D 112:4a96133a1311 149 void DAC_OutPut(void)//выдача в цапы
igor_v 0:8ad47e2b6f00 150 {
Kovalev_D 112:4a96133a1311 151 LPC_SSP0->DR=0x5555;
igor_v 31:c783288001b5 152 LPC_SSP0->DR=0x5555;
igor_v 31:c783288001b5 153 LPC_SSP0->DR=0x5555;
igor_v 0:8ad47e2b6f00 154
igor_v 110:6406b7ac0442 155 if (CountV31 & 1) { //если нечетный такт то
igor_v 31:c783288001b5 156 LPC_SSP0->DR = WRITE_DAC0; //e.команда для ЦАП_0 передавать.
igor_v 31:c783288001b5 157 LPC_SSP0->DR = (Spi.DAC_A); //e. передача 12 бит
igor_v 31:c783288001b5 158 } else { //если такт четный.
igor_v 31:c783288001b5 159 LPC_SSP0->DR = WRITE_DAC1 ; //e.команда для ЦАП_1 передавать.
igor_v 31:c783288001b5 160 LPC_SSP0->DR = (Spi.DAC_B); //e. передача 12 бит
igor_v 31:c783288001b5 161 }
Kovalev_D 112:4a96133a1311 162 }
Kovalev_D 112:4a96133a1311 163
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Kovalev_D 113:8be429494918 193 /*
Kovalev_D 112:4a96133a1311 194 void SPI_Exchange(void)
Kovalev_D 112:4a96133a1311 195 {
Kovalev_D 112:4a96133a1311 196 unsigned int DummySPI;
Kovalev_D 112:4a96133a1311 197
Kovalev_D 112:4a96133a1311 198
Kovalev_D 112:4a96133a1311 199 Spi.ADC5 = LPC_SSP0->DR;
Kovalev_D 112:4a96133a1311 200 Spi.ADC4 = LPC_SSP0->DR;
Kovalev_D 112:4a96133a1311 201 Spi.ADC3 = LPC_SSP0->DR;
Kovalev_D 112:4a96133a1311 202 Spi.ADC2 = LPC_SSP0->DR;
Kovalev_D 112:4a96133a1311 203 Spi.ADC1 = LPC_SSP0->DR;
Kovalev_D 112:4a96133a1311 204
Kovalev_D 112:4a96133a1311 205 Input.ArrayIn[2]= Spi.ADC5;
Kovalev_D 112:4a96133a1311 206
Kovalev_D 112:4a96133a1311 207 DAC_OutPut();
igor_v 0:8ad47e2b6f00 208
Kovalev_D 99:3d8f206ceac2 209 // LPC_DAC->CR = (((SinPLC[CountV64]*35/5)+24300));// модулятор
Kovalev_D 112:4a96133a1311 210
Kovalev_D 89:a0d344db227e 211 while (LPC_SSP0->SR & RX_SSP_notEMPT) //если буфер SPI не пуст.
Kovalev_D 89:a0d344db227e 212 DummySPI = LPC_SSP0->DR; //очистить буфер.
igor_v 31:c783288001b5 213
Kovalev_D 112:4a96133a1311 214 //заполнение буферов еденичных значений АЦП.
Kovalev_D 112:4a96133a1311 215 Buff_ADC_1 [CountV31] = Spi.ADC1;
Kovalev_D 112:4a96133a1311 216 Buff_ADC_2 [CountV31] = Spi.ADC2;
Kovalev_D 112:4a96133a1311 217 Buff_ADC_3 [CountV31] = Spi.ADC3;
Kovalev_D 112:4a96133a1311 218 Buff_ADC_4 [CountV31] = Spi.ADC4;
Kovalev_D 95:dd51e577e114 219 Buff_ADC_5 [CountV255] = Spi.ADC5; // ампл ацп.
igor_v 110:6406b7ac0442 220
Kovalev_D 112:4a96133a1311 221
igor_v 110:6406b7ac0442 222 Temp_AMP64P += Buff_ADC_5[CountV255];
Kovalev_D 96:1c8536458119 223 Temp_AMP64P -= Buff_ADC_5[(CountV255-64) & 0xff]; // заполнение буфера накопленых приращений за 8 тактов
Kovalev_D 96:1c8536458119 224 Buff_AMP64P[CountV255] = (unsigned int) (Temp_AMP64P);
Kovalev_D 96:1c8536458119 225
igor_v 31:c783288001b5 226
Kovalev_D 47:d902ef6f7564 227 Temp_ADC_2 += Buff_ADC_2[CountV31];
Kovalev_D 47:d902ef6f7564 228 Temp_ADC_2 -= Buff_ADC_2[(CountV31-32) & 0xff];
igor_v 31:c783288001b5 229
Kovalev_D 47:d902ef6f7564 230 Temp_ADC_3 += Buff_ADC_3[CountV31];
Kovalev_D 95:dd51e577e114 231 Temp_ADC_3 -= Buff_ADC_3[(CountV31-32) & 0xff];
igor_v 31:c783288001b5 232
Kovalev_D 47:d902ef6f7564 233 Temp_ADC_4 += Buff_ADC_4[CountV31];
Kovalev_D 47:d902ef6f7564 234 Temp_ADC_4 -= Buff_ADC_4[(CountV31-32) & 0xff];
igor_v 31:c783288001b5 235
igor_v 31:c783288001b5 236 Temp_ADC_5 += Buff_ADC_1[CountV255];
igor_v 31:c783288001b5 237 Temp_ADC_5 -= Buff_ADC_1[(CountV255-32) & 0xff];
Kovalev_D 112:4a96133a1311 238 Spi.PLC_NewData=1;
Kovalev_D 113:8be429494918 239 }*/