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1 | ingob | 1 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
2 | // + Copyright (c) 04.2007 Holger Buss |
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3 | // + only for non-profit use |
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4 | // + www.MikroKopter.com |
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5 | // + see the File "License.txt" for further Informations |
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6 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
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886 | killagreg | 7 | #include <stdlib.h> |
8 | #include <avr/io.h> |
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9 | #include <avr/interrupt.h> |
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1 | ingob | 10 | |
886 | killagreg | 11 | #include "analog.h" |
1 | ingob | 12 | #include "main.h" |
886 | killagreg | 13 | #include "timer0.h" |
14 | #include "fc.h" |
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15 | #include "printf_P.h" |
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16 | #include "eeprom.h" |
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1 | ingob | 17 | |
886 | killagreg | 18 | volatile int16_t Current_AccZ = 0; |
19 | volatile int16_t UBat = 100; |
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20 | volatile int16_t AdValueGyrPitch = 0, AdValueGyrRoll = 0, AdValueGyrYaw = 0; |
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21 | volatile int16_t AdValueAccRoll = 0, AdValueAccPitch = 0, AdValueAccTop = 0; |
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22 | volatile int32_t AirPressure = 32000; |
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23 | volatile int16_t StartAirPressure; |
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24 | volatile uint16_t ReadingAirPressure = 1023; |
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25 | uint8_t PressureSensorOffset; |
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26 | volatile int16_t HeightD = 0; |
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27 | volatile uint16_t MeasurementCounter = 0; |
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1 | ingob | 28 | |
886 | killagreg | 29 | /*****************************************************/ |
30 | /* Initialize Analog Digital Converter */ |
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31 | /*****************************************************/ |
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1 | ingob | 32 | void ADC_Init(void) |
886 | killagreg | 33 | { |
34 | uint8_t sreg = SREG; |
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35 | // disable all interrupts before reconfiguration |
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36 | cli(); |
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37 | //ADC0 ... ADC7 is connected to PortA pin 0 ... 7 |
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38 | DDRA = 0x00; |
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39 | PORTA = 0x00; |
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40 | // Digital Input Disable Register 0 |
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41 | // Disable digital input buffer for analog adc_channel pins |
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42 | DIDR0 = 0xFF; |
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43 | // external reference, adjust data to the right |
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44 | ADMUX &= ~((1 << REFS1)|(1 << REFS0)|(1 << ADLAR)); |
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45 | // set muxer to ADC adc_channel 0 (0 to 7 is a valid choice) |
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46 | ADMUX = (ADMUX & 0xE0) | 0x00; |
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47 | //Set ADC Control and Status Register A |
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48 | //Auto Trigger Enable, Prescaler Select Bits to Division Factor 128, i.e. ADC clock = SYSCKL/128 = 156.25 kHz |
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49 | ADCSRA = (1<<ADATE)|(1<<ADPS2)|(1<<ADPS1)|(1<<ADPS0); |
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50 | //Set ADC Control and Status Register B |
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51 | //Trigger Source to Free Running Mode |
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52 | ADCSRB &= ~((1 << ADTS2)|(1 << ADTS1)|(1 << ADTS0)); |
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53 | // Enable AD conversion |
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54 | ADC_Enable(); |
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55 | // restore global interrupt flags |
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56 | SREG = sreg; |
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1 | ingob | 57 | } |
58 | |||
886 | killagreg | 59 | void SearchAirPressureOffset(void) |
1 | ingob | 60 | { |
886 | killagreg | 61 | uint8_t off; |
62 | off = GetParamByte(PID_PRESSURE_OFFSET); |
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63 | if(off > 20) off -= 10; |
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64 | OCR0A = off; |
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65 | Delay_ms_Mess(100); |
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66 | if(ReadingAirPressure < 850) off = 0; |
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67 | for(; off < 250;off++) |
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68 | { |
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69 | OCR0A = off; |
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70 | Delay_ms_Mess(50); |
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71 | printf("."); |
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72 | if(ReadingAirPressure < 900) break; |
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73 | } |
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74 | SetParamByte(PID_PRESSURE_OFFSET, off); |
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75 | PressureSensorOffset = off; |
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76 | Delay_ms_Mess(300); |
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1 | ingob | 77 | } |
78 | |||
79 | |||
886 | killagreg | 80 | /*****************************************************/ |
81 | /* Interrupt Service Routine for ADC */ |
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82 | /*****************************************************/ |
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83 | // runs at 156.25 kHz or 6.4 µs |
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84 | // if after (70.4µs) all 11 states are processed the interrupt is disabled |
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85 | // and the update of further ads is stopped |
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86 | // The routine changes the ADC input muxer running |
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87 | // thru the state machine by the following order. |
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88 | // state 0: ch0 (yaw gyro) |
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89 | // state 1: ch1 (roll gyro) |
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90 | // state 2: ch2 (pitch gyro) |
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91 | // state 3: ch4 (battery voltage -> UBat) |
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92 | // state 4: ch6 (acc y -> Current_AccY) |
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93 | // state 5: ch7 (acc x -> Current_AccX) |
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94 | // state 6: ch0 (yaw gyro average with first reading -> AdValueGyrYaw) |
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95 | // state 7: ch1 (roll gyro average with first reading -> AdValueGyrRoll) |
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96 | // state 8: ch2 (pitch gyro average with first reading -> AdValueGyrPitch) |
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97 | // state 9: ch5 (acc z add also 4th part of acc x and acc y to reading) |
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98 | // state10: ch3 (air pressure averaging over 5 single readings -> tmpAirPressure) |
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99 | |||
100 | ISR(ADC_vect) |
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1 | ingob | 101 | { |
886 | killagreg | 102 | static uint8_t adc_channel = 0, state = 0; |
103 | static uint16_t yaw1, roll1, pitch1; |
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104 | static uint8_t average_pressure = 0; |
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105 | static int16_t tmpAirPressure = 0; |
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106 | // disable further AD conversion |
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107 | ADC_Disable(); |
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108 | // state machine |
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1 | ingob | 109 | switch(state++) |
110 | { |
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111 | case 0: |
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886 | killagreg | 112 | yaw1 = ADC; // get Gyro Yaw Voltage 1st sample |
113 | adc_channel = 1; // set next channel to ADC1 = ROLL GYRO |
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114 | MeasurementCounter++; // increment total measurement counter |
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1 | ingob | 115 | break; |
116 | case 1: |
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886 | killagreg | 117 | roll1 = ADC; // get Gyro Roll Voltage 1st sample |
118 | adc_channel = 2; // set next channel to ADC2 = PITCH GYRO |
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1 | ingob | 119 | break; |
120 | case 2: |
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886 | killagreg | 121 | pitch1 = ADC; // get Gyro Pitch Voltage 1st sample |
122 | adc_channel = 4; // set next channel to ADC4 = UBAT |
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1 | ingob | 123 | break; |
124 | case 3: |
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886 | killagreg | 125 | // get actual UBat (Volts*10) is ADC*30V/1024*10 = ADC/3 |
126 | UBat = (3 * UBat + ADC / 3) / 4; // low pass filter updates UBat only to 1 quater with actual ADC value |
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127 | adc_channel = 6; // set next channel to ADC6 = ACC_Y |
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1 | ingob | 128 | break; |
129 | case 4: |
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886 | killagreg | 130 | AdValueAccRoll = NeutralAccY - ADC; // get acceleration in Y direction |
131 | adc_channel = 7; // set next channel to ADC7 = ACC_X |
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1 | ingob | 132 | break; |
133 | case 5: |
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886 | killagreg | 134 | AdValueAccPitch = ADC - NeutralAccX; // get acceleration in X direction |
135 | adc_channel = 0; // set next channel to ADC7 = YAW GYRO |
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1 | ingob | 136 | break; |
137 | case 6: |
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886 | killagreg | 138 | // average over two samples to create current AdValueGyrYaw |
139 | if(BoardRelease == 10) AdValueGyrYaw = (ADC + yaw1) / 2; |
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140 | else AdValueGyrYaw = ADC + yaw1; // gain is 2 times lower on FC 1.1 |
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141 | adc_channel = 1; // set next channel to ADC7 = ROLL GYRO |
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401 | hbuss | 142 | break; |
143 | case 7: |
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886 | killagreg | 144 | // average over two samples to create current ADValueGyrRoll |
145 | if(BoardRelease == 10) AdValueGyrRoll = (ADC + roll1) / 2; |
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146 | else AdValueGyrRoll = ADC + roll1; // gain is 2 times lower on FC 1.1 |
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147 | adc_channel = 2; // set next channel to ADC2 = PITCH GYRO |
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401 | hbuss | 148 | break; |
149 | case 8: |
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886 | killagreg | 150 | // average over two samples to create current ADValuePitch |
151 | if(BoardRelease == 10) AdValueGyrPitch = (ADC + pitch1) / 2; |
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152 | else AdValueGyrPitch = ADC + pitch1; // gain is 2 times lower on FC 1.1 |
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153 | adc_channel = 5; // set next channel to ADC5 = ACC_Z |
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401 | hbuss | 154 | break; |
155 | case 9: |
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886 | killagreg | 156 | // get z acceleration |
157 | AdValueAccTop = (int16_t) ADC - NeutralAccZ; // get plain acceleration in Z direction |
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158 | AdValueAccTop += abs(AdValueAccPitch) / 4 + abs(AdValueAccRoll) / 4; |
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159 | if(AdValueAccTop > 1) |
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1 | ingob | 160 | { |
886 | killagreg | 161 | if(NeutralAccZ < 750) |
162 | { |
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163 | NeutralAccZ += 0.02; |
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164 | if(Model_Is_Flying < 500) NeutralAccZ += 0.1; |
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165 | } |
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166 | } |
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167 | else if(AdValueAccTop < -1) |
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1 | ingob | 168 | { |
886 | killagreg | 169 | if(NeutralAccZ > 550) |
170 | { |
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171 | NeutralAccZ-= 0.02; |
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172 | if(Model_Is_Flying < 500) NeutralAccZ -= 0.1; |
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173 | } |
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174 | } |
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175 | Current_AccZ = ADC; |
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176 | Reading_Integral_Top += AdValueAccTop; // Integrieren |
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177 | Reading_Integral_Top -= Reading_Integral_Top / 1024; // dämfen |
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178 | adc_channel = 3; // set next channel to ADC3 = air pressure |
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1 | ingob | 179 | break; |
401 | hbuss | 180 | case 10: |
886 | killagreg | 181 | tmpAirPressure += ADC; // sum vadc values |
182 | if(++average_pressure >= 5) // if 5 values are summerized for averaging |
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183 | { |
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184 | ReadingAirPressure = ADC; // update measured air pressure |
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185 | HeightD = (7 * HeightD + (int16_t)FCParam.Height_D * (int16_t)(StartAirPressure - tmpAirPressure - ReadingHeight))/8; // D-Part = CurrentValue - OldValue |
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186 | AirPressure = (tmpAirPressure + 3 * AirPressure) / 4; // averaging using history |
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187 | ReadingHeight = StartAirPressure - AirPressure; |
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188 | average_pressure = 0; // reset air pressure measurement counter |
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189 | tmpAirPressure = 0; |
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190 | } |
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191 | adc_channel = 0; // set next channel to ADC0 = GIER GYRO |
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192 | state = 0; // reset state machine |
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1 | ingob | 193 | break; |
886 | killagreg | 194 | default: |
195 | adc_channel = 0; |
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1 | ingob | 196 | state = 0; |
197 | break; |
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886 | killagreg | 198 | } |
199 | // set adc muxer to next adc_channel |
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200 | ADMUX = (ADMUX & 0xE0) | adc_channel; |
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201 | // after full cycle stop further interrupts |
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202 | if(state != 0) ADC_Enable(); |
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1 | ingob | 203 | } |