#include /* * CapitiveSense Library Demo Sketch * Paul Badger 2008 * Uses a high value resistor e.g. 10M between send pin and receive pin * Resistor effects sensitivity, experiment with values, 50K - 50M. Larger resistor values yield larger sensor values. * Receive pin is the sensor pin - try different amounts of foil/metal on this pin */ CapacitiveSensor cs_4_2 = CapacitiveSensor(4,2); // 10M resistor between pins 4 & 2, pin 2 is sensor pin, add a wire and or foil if desired CapacitiveSensor cs_4_3 = CapacitiveSensor(4,3); // 10M resistor between pins 4 & 6, pin 6 is sensor pin, add a wire and or foil CapacitiveSensor cs_4_5 = CapacitiveSensor(4,5); // 10M resistor between pins 4 & 8, pin 8 is sensor pin, add a wire and or foil void setup() { cs_4_2.set_CS_AutocaL_Millis(0xFFFFFFFF); // turn off autocalibrate on channel 1 - just as an example Serial.begin(9600); } void loop() { long start = millis(); long total1 = cs_4_2.capacitiveSensor(30); long valCons1 = constrain(total1, 10000, 225000); long mappedVal1 = map(valCons1, 10000, 225000, 0, 1024); long total2 = cs_4_3.capacitiveSensor(30); long valCons2 = constrain(total2, 10000, 225000); long mappedVal2 = map(valCons2, 10000, 225000, 0, 1024); long total3 = cs_4_5.capacitiveSensor(30); long valCons3 = constrain(total3, 10000, 225000); long mappedVal3 = map(valCons3, 10000, 225000, 0, 1024); Serial.print(millis() - start); // check on performance in milliseconds Serial.print("\t"); // tab character for debug windown spacing Serial.print(total1); // print sensor output 1 Serial.print("\t"); Serial.print(total2); // print sensor output 2 Serial.print("\t"); Serial.println(total3); // print sensor output 3 Serial.print(valCons1); Serial.print("\t"); Serial.print(valCons2); Serial.print("\t"); Serial.println(valCons3); Serial.print(mappedVal1); Serial.print("\t"); Serial.print(mappedVal2); Serial.print("\t"); Serial.println(mappedVal3); delay(300); // arbitrary delay to limit data to serial port }