// Poll a read until the pin is set to HIGH/on public void PollRead() { using (GPIOController controller = new GPIOController()) // BOARD numbering by default using (GPIOPin pollPin = controller.OpenPin(7, GPIOPinMode.Input)) { pollPin.ReadWait(new TimeSpan(0, 1, 0)); } }
// Blink - Hello World in GPIO terms public void BlinkBasic() { using (GPIOController controller = new GPIOController()) // BOARD numbering by default using (GPIOPin ledPin = controller.OpenPin(7, GPIOPinMode.Output)) { while (true) { ledPin.Write(true); Thread.Sleep(500); ledPin.Write(false); Thread.Sleep(500); } } }
// Control the PWM public void PWM() { using (GPIOController controller = new GPIOController()) // BOARD numbering by default using (GPIOPin pwmPin = controller.OpenPin(12, GPIOPinMode.Output | GPIOPinMode.PWM)) { pwmPin.PWMMode = PWMMode.MARK_SPACE; pwmPin.PWMRange = 100; // Splits up the max frequency into 100 equal segments pwmPin.PWMFrequency = 10 * 1000 * 1000; // Sets the max frequency (i.e. at 100% duty cycle) to 10 mhz // Cycle from 0 to the max PWM frequency for (int i = 0; i < pwmPin.PWMRange; i++) { pwmPin.WritePWM(i); pwmPin.Sleep(100); } } }
// Use pullup/pulldown with basic reads public void PUD() { using (GPIOController controller = new GPIOController()) // BOARD numbering by default using (GPIOPin pullUpPin = controller.OpenPin(7, GPIOPinMode.Input)) { if (pullUpPin.IsPinModeSupported(GPIOPinMode.Pull_Up)) { pullUpPin.PinMode = GPIOPinMode.Pull_Up | GPIOPinMode.Input; } while (true) { Console.WriteLine(pullUpPin.Read()); Thread.Sleep(1000); } } }
void ClosePin(GPIOPin pin) { throw new NotImplementedException(); }