/* CapacitiveSense.h v.04 - Capacitive Sensing Library for 'duino / Wiring https://github.com/PaulStoffregen/CapacitiveSensor http://www.pjrc.com/teensy/td_libs_CapacitiveSensor.html http://playground.arduino.cc/Main/CapacitiveSensor Copyright (c) 2009 Paul Bagder All right reserved. Version 05 by Paul Stoffregen - Support non-AVR board: Teensy 3.x, Arduino Due Version 04 by Paul Stoffregen - Arduino 1.0 compatibility, issue 146 fix vim: set ts=4: */ #if ARDUINO >= 100 #include "Arduino.h" #else #include "WProgram.h" #include "pins_arduino.h" #include "WConstants.h" #endif #include "CPlay_CapacitiveSensor.h" // Constructor ///////////////////////////////////////////////////////////////// // Function that handles the creation and setup of instances CPlay_CapacitiveSensor::CPlay_CapacitiveSensor(uint8_t sendPin, uint8_t receivePin) { // initialize this instance's variables // Serial.begin(9600); // for debugging error = 1; loopTimingFactor = 300; // determined empirically - a hack CS_Timeout_Millis = (2000 * (float)loopTimingFactor * (float)F_CPU) / 16000000; CS_AutocaL_Millis = 20000; // Serial.print("timwOut = "); // Serial.println(CS_Timeout_Millis); // get pin mapping and port for send Pin - from PinMode function in core #ifdef NUM_DIGITAL_PINS if (sendPin >= NUM_DIGITAL_PINS) error = -1; if (receivePin >= NUM_DIGITAL_PINS) error = -2; #endif // sendpin to OUTPUT #ifdef ARDUINO_TEEONARDU_FLORA // terrible hack! DDRD |= _BV(5); #else pinMode(sendPin, OUTPUT); #endif pinMode(receivePin, INPUT); // receivePin to INPUT #ifdef ARDUINO_TEEONARDU_FLORA // terrible hack! PORTD &= ~_BV(5); #else digitalWrite(sendPin, LOW); #endif sBit = PIN_TO_BITMASK(sendPin); // get send pin's ports and bitmask sReg = PIN_TO_BASEREG(sendPin); // get pointer to output register rBit = PIN_TO_BITMASK(receivePin); // get receive pin's ports and bitmask rReg = PIN_TO_BASEREG(receivePin); // get pin mapping and port for receive Pin - from digital pin functions in Wiring.c leastTotal = 0x0FFFFFFFL; // input large value for autocalibrate begin lastCal = millis(); // set millis for start } // Public Methods ////////////////////////////////////////////////////////////// // Functions available in Wiring sketches, this library, and other libraries long CPlay_CapacitiveSensor::capacitiveSensor(uint8_t samples) { total = 0; if (samples == 0) return 0; if (error < 0) return -1; // bad pin for (uint8_t i = 0; i < samples; i++) { // loop for samples parameter - simple lowpass filter if (SenseOneCycle() < 0) return -2; // variable over timeout } // only calibrate if time is greater than CS_AutocaL_Millis and total is less than 10% of baseline // this is an attempt to keep from calibrating when the sensor is seeing a "touched" signal if ( (millis() - lastCal > CS_AutocaL_Millis) && abs(total - leastTotal) < (int)(.10 * (float)leastTotal) ) { // Serial.println(); // debugging // Serial.println("auto-calibrate"); // Serial.println(); // delay(2000); */ leastTotal = 0x0FFFFFFFL; // reset for "autocalibrate" lastCal = millis(); } /*else{ // debugging Serial.print(" total = "); Serial.print(total); Serial.print(" leastTotal = "); Serial.println(leastTotal); Serial.print("total - leastTotal = "); x = total - leastTotal ; Serial.print(x); Serial.print(" .1 * leastTotal = "); x = (int)(.1 * (float)leastTotal); Serial.println(x); } */ // routine to subtract baseline (non-sensed capacitance) from sensor return if (total < leastTotal) leastTotal = total; // set floor value to subtract from sensed value return(total - leastTotal); } long CPlay_CapacitiveSensor::capacitiveSensorRaw(uint8_t samples) { total = 0; if (samples == 0) return 0; if (error < 0) return -1; // bad pin - this appears not to work for (uint8_t i = 0; i < samples; i++) { // loop for samples parameter - simple lowpass filter if (SenseOneCycle() < 0) return -2; // variable over timeout } return total; } void CPlay_CapacitiveSensor::reset_CS_AutoCal(void){ leastTotal = 0x0FFFFFFFL; } void CPlay_CapacitiveSensor::set_CS_AutocaL_Millis(unsigned long autoCal_millis){ CS_AutocaL_Millis = autoCal_millis; } void CPlay_CapacitiveSensor::set_CS_Timeout_Millis(unsigned long timeout_millis){ CS_Timeout_Millis = (timeout_millis * (float)loopTimingFactor * (float)F_CPU) / 16000000; // floats to deal with large numbers } // Private Methods ///////////////////////////////////////////////////////////// // Functions only available to other functions in this library int CPlay_CapacitiveSensor::SenseOneCycle(void) { noInterrupts(); DIRECT_WRITE_LOW(sReg, sBit); // sendPin Register low DIRECT_MODE_INPUT(rReg, rBit); // receivePin to input (pullups are off) DIRECT_MODE_OUTPUT(rReg, rBit); // receivePin to OUTPUT DIRECT_WRITE_LOW(rReg, rBit); // pin is now LOW AND OUTPUT delayMicroseconds(10); DIRECT_MODE_INPUT(rReg, rBit); // receivePin to input (pullups are off) DIRECT_WRITE_HIGH(sReg, sBit); // sendPin High interrupts(); while ( !DIRECT_READ(rReg, rBit) && (total < CS_Timeout_Millis) ) { // while receive pin is LOW AND total is positive value total++; } //Serial.print("SenseOneCycle(1): "); Serial.println(total); if (total > CS_Timeout_Millis) { return -2; // total variable over timeout } // set receive pin HIGH briefly to charge up fully - because the while loop above will exit when pin is ~ 2.5V noInterrupts(); DIRECT_WRITE_HIGH(rReg, rBit); DIRECT_MODE_OUTPUT(rReg, rBit); // receivePin to OUTPUT - pin is now HIGH AND OUTPUT DIRECT_WRITE_HIGH(rReg, rBit); DIRECT_MODE_INPUT(rReg, rBit); // receivePin to INPUT (pullup is off) DIRECT_WRITE_LOW(sReg, sBit); // sendPin LOW interrupts(); #ifdef FIVE_VOLT_TOLERANCE_WORKAROUND DIRECT_MODE_OUTPUT(rReg, rBit); DIRECT_WRITE_LOW(rReg, rBit); delayMicroseconds(10); DIRECT_MODE_INPUT(rReg, rBit); // receivePin to INPUT (pullup is off) #else while ( DIRECT_READ(rReg, rBit) && (total < CS_Timeout_Millis) ) { // while receive pin is HIGH AND total is less than timeout total++; } #endif //Serial.print("SenseOneCycle(2): "); //Serial.println(total); if (total >= CS_Timeout_Millis) { return -2; // total variable over timeout } else { return 1; } }