You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
BALibrary_HW/examples/BAExpansionCalibrate/BAExpansionCalibrate.ino

82 lines
3.1 KiB

/*************************************************************************
* This demo uses the BALibrary library to provide enhanced control of
* the TGA Pro board.
*
* The latest copy of the BA Guitar library can be obtained from
* https://github.com/Blackaddr/BALibrary
*
* This program can be used to find out the calibration values for each of your POTs
* on the Blackaddr Audio Expansion Control Board.
*
* USE THE ARDUINO SERIAL MONITOR TO PERFORM THE CALIBRATION
*
* When prompted turn the appropriate POT in the specified direction and
* enter any character on the terminal input line and press enter to send the character.
*/
#define TGA_PRO_REVB // Specify our hardware revision
#define TGA_PRO_EXPAND_REV2 // Specify we are using the EXPANSION CONTROL BOARD REV2
#include "BALibrary.h"
using namespace BALibrary;
// Create physical controls for Expansion Board, 2 switches, 3 pots, 0 encoders, 2 LEDs
BAPhysicalControls controls(BA_EXPAND_NUM_SW, BA_EXPAND_NUM_POT, 0, BA_EXPAND_NUM_LED);
void setup() {
delay(100);
Serial.begin(57600);
delay(500); // long delay to wait for Serial to init
// put your setup code here, to run once:
Serial.println("Calibrating POT1");
Potentiometer::Calib pot1Calib = Potentiometer::calibrate(BA_EXPAND_POT1_PIN);
if (pot1Calib.min == pot1Calib.max) { Serial.println("\n!!! The knob didn't appear to move. Are you SURE you're turning the right knob? !!!"); }
Serial.println("\nCalibrating POT2");
Potentiometer::Calib pot2Calib = Potentiometer::calibrate(BA_EXPAND_POT2_PIN);
if (pot2Calib.min == pot2Calib.max) { Serial.println("\n!!! The knob didn't appear to move. Are you SURE you're turning the right knob? !!!"); }
Serial.println("\nCalibrating POT3");
Potentiometer::Calib pot3Calib = Potentiometer::calibrate(BA_EXPAND_POT3_PIN);
if (pot3Calib.min == pot3Calib.max) { Serial.println("\n!!! The knob didn't appear to move. Are you SURE you're turning the right knob? !!!"); }
// Create the controls using the calib values
controls.addPot(BA_EXPAND_POT1_PIN, pot1Calib.min, pot1Calib.max, pot1Calib.swap);
controls.addPot(BA_EXPAND_POT2_PIN, pot2Calib.min, pot2Calib.max, pot2Calib.swap);
controls.addPot(BA_EXPAND_POT3_PIN, pot3Calib.min, pot3Calib.max, pot3Calib.swap);
// Add the pushbuttons
controls.addSwitch(BA_EXPAND_SW1_PIN);
controls.addSwitch(BA_EXPAND_SW2_PIN);
// Setup the LEDs
controls.addOutput(BA_EXPAND_LED1_PIN);
controls.setOutput(BA_EXPAND_LED1_PIN, 0);
controls.addOutput(BA_EXPAND_LED2_PIN);
controls.setOutput(BA_EXPAND_LED2_PIN, 0);
Serial.println("DONE SETUP! Try turning knobs and pushing buttons!\n");
}
void loop() {
// put your main code here, to run repeatedly:
float value;
for (unsigned i=0; i<BA_EXPAND_NUM_POT; i++) {
if (controls.checkPotValue(i, value)) {
Serial.println(String("POT") + (i+1) + String(" new value: ") + value);
}
}
// Check pushbuttons
for (unsigned i=0; i<BA_EXPAND_NUM_SW; i++) {
if (controls.isSwitchToggled(i)) {
Serial.println(String("Button") + (i+1) + String(" pushed!"));
controls.toggleOutput(i);
}
}
delay(10);
}