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- /* Example for analogRead
- * You can change the number of averages, bits of resolution and also the comparison value or range.
- */
-
-
- #include <ADC.h>
- #include <ADC_util.h>
-
- const int readPin = A9; // ADC0
- const int readPin2 = A2; // ADC1
-
- ADC *adc = new ADC(); // adc object;
-
- void setup() {
-
- pinMode(LED_BUILTIN, OUTPUT);
- pinMode(readPin, INPUT);
- pinMode(readPin2, INPUT);
-
- pinMode(A10, INPUT); //Diff Channel 0 Positive
- pinMode(A11, INPUT); //Diff Channel 0 Negative
- #ifdef ADC_DUAL_ADCS
- pinMode(A12, INPUT); //Diff Channel 3 Positive
- pinMode(A13, INPUT); //Diff Channel 3 Negative
- #endif
-
- Serial.begin(9600);
-
- Serial.println("Begin setup");
-
- ///// ADC0 ////
- // reference can be ADC_REFERENCE::REF_3V3, ADC_REFERENCE::REF_1V2 (not for Teensy LC) or ADC_REFERENCE::REF_EXT.
- //adc->adc0->setReference(ADC_REFERENCE::REF_1V2); // change all 3.3 to 1.2 if you change the reference to 1V2
-
- adc->adc0->setAveraging(16); // set number of averages
- adc->adc0->setResolution(16); // set bits of resolution
-
- // it can be any of the ADC_CONVERSION_SPEED enum: VERY_LOW_SPEED, LOW_SPEED, MED_SPEED, HIGH_SPEED_16BITS, HIGH_SPEED or VERY_HIGH_SPEED
- // see the documentation for more information
- // additionally the conversion speed can also be ADACK_2_4, ADACK_4_0, ADACK_5_2 and ADACK_6_2,
- // where the numbers are the frequency of the ADC clock in MHz and are independent on the bus speed.
- adc->adc0->setConversionSpeed(ADC_CONVERSION_SPEED::VERY_LOW_SPEED); // change the conversion speed
- // it can be any of the ADC_MED_SPEED enum: VERY_LOW_SPEED, LOW_SPEED, MED_SPEED, HIGH_SPEED or VERY_HIGH_SPEED
- adc->adc0->setSamplingSpeed(ADC_SAMPLING_SPEED::MED_SPEED); // change the sampling speed
-
- // always call the compare functions after changing the resolution!
- //adc->adc0->enableCompare(1.0/3.3*adc->adc0->getMaxValue(), 0); // measurement will be ready if value < 1.0V
- //adc->adc0->enableCompareRange(1.0*adc->adc0->getMaxValue()/3.3, 2.0*adc->adc0->getMaxValue()/3.3, 0, 1); // ready if value lies out of [1.0,2.0] V
-
- // If you enable interrupts, notice that the isr will read the result, so that isComplete() will return false (most of the time)
- //adc->adc0->enableInterrupts(adc0_isr);
-
-
- ////// ADC1 /////
- #ifdef ADC_DUAL_ADCS
- adc->adc1->setAveraging(16); // set number of averages
- adc->adc1->setResolution(16); // set bits of resolution
- adc->adc1->setConversionSpeed(ADC_CONVERSION_SPEED::MED_SPEED); // change the conversion speed
- adc->adc1->setSamplingSpeed(ADC_SAMPLING_SPEED::MED_SPEED); // change the sampling speed
-
- //adc->adc1->setReference(ADC_REFERENCE::REF_1V2);
-
- // always call the compare functions after changing the resolution!
- //adc->adc1->enableCompare(1.0/3.3*adc->adc1->getMaxValue(), 0); // measurement will be ready if value < 1.0V
- //adc->adc1->enableCompareRange(1.0*adc->adc1->getMaxValue()/3.3, 2.0*adc->adc1->getMaxValue()/3.3, 0, 1); // ready if value lies out of [1.0,2.0] V
-
-
- // If you enable interrupts, note that the isr will read the result, so that isComplete() will return false (most of the time)
- //adc->adc1->enableInterrupts(adc1_isr);
-
- #endif
-
- Serial.println("End setup");
-
- }
-
- int value;
- int value2;
-
- void loop() {
-
- // Single reads
-
- value = adc->adc0->analogRead(readPin); // read a new value, will return ADC_ERROR_VALUE if the comparison is false.
-
- Serial.print("Pin: ");
- Serial.print(readPin);
- Serial.print(", value ADC0: ");
- Serial.println(value*3.3/adc->adc0->getMaxValue(), DEC);
-
- #ifdef ADC_DUAL_ADCS
- value2 = adc->adc1->analogRead(readPin2);
-
- Serial.print("Pin: ");
- Serial.print(readPin2);
- Serial.print(", value ADC1: ");
- Serial.println(value2*3.3/adc->adc1->getMaxValue(), DEC);
- #endif
-
- // Differential reads
- #if ADC_DIFF_PAIRS > 0
- #ifdef ADC_USE_PGA
- double V_per_bit = 3.3/adc->adc0->getPGA()/adc->adc0->getMaxValue();
- #else
- double V_per_bit = 3.3/adc->adc0->getMaxValue();
- #endif
-
- value = adc->adc0->analogReadDifferential(A10, A11); // read a new value, will return ADC_ERROR_VALUE if the comparison is false.
-
- Serial.print(" Value A10-A11: ");
- // Divide by the maximum possible value and the PGA level
-
- Serial.println(value*V_per_bit, DEC);
-
- #ifdef ADC_DUAL_ADCS
- value2 = adc->adc1->analogReadDifferential(A12, A13);
-
- Serial.print(" Value A12-A13: ");
- Serial.println(value2*V_per_bit, DEC);
- #endif
- #endif
-
- // Print errors, if any.
- if(adc->adc0->fail_flag != ADC_ERROR::CLEAR) {
- Serial.print("ADC0: "); Serial.println(getStringADCError(adc->adc0->fail_flag));
- }
- #ifdef ADC_DUAL_ADCS
- if(adc->adc1->fail_flag != ADC_ERROR::CLEAR) {
- Serial.print("ADC1: "); Serial.println(getStringADCError(adc->adc1->fail_flag));
- }
- #endif
-
- digitalWriteFast(LED_BUILTIN, !digitalReadFast(LED_BUILTIN));
-
- delay(50);
- }
-
- // If you enable interrupts make sure to call readSingle() to clear the interrupt.
- void adc0_isr() {
- adc->adc0->readSingle();
- }
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