//go:build example // +build example // // Do not build by default. package main import ( "fmt" "time" "gobot.io/x/gobot/v2" "gobot.io/x/gobot/v2/drivers/gpio" "gobot.io/x/gobot/v2/platforms/adaptors" "gobot.io/x/gobot/v2/platforms/tinkerboard" ) // Wiring // PWR Tinkerboard: 1 (+3.3V, VCC), 2(+5V), 6, 9, 14, 20 (GND) // GPIO Tinkerboard: header pin 21 is input, pin 24 used as normal output, pin 26 used as inverted output // Button: the input pin is wired with a button to GND, an external pull up resistor is needed (e.g. 1K) // LED's: the output pins are wired to the cathode of a LED, the anode is wired with a resistor (70-130Ohm for 20mA) to VCC // Expected behavior: always one LED is on, the other in opposite state, on button press the state changes func main() { const ( inPinNum = "21" outPinNum = "24" outPinInvertedNum = "26" ) board := tinkerboard.NewAdaptor(adaptors.WithGpiosActiveLow(outPinInvertedNum)) inPin := gpio.NewDirectPinDriver(board, inPinNum) outPin := gpio.NewDirectPinDriver(board, outPinNum) outPinInverted := gpio.NewDirectPinDriver(board, outPinInvertedNum) work := func() { level := byte(1) gobot.Every(500*time.Millisecond, func() { read, err := inPin.DigitalRead() fmt.Printf("pin %s state is %d\n", inPinNum, read) if err != nil { fmt.Println(err) } else { level = byte(read) } err = outPin.DigitalWrite(level) fmt.Printf("pin %s is now %d\n", outPinNum, level) if err != nil { fmt.Println(err) } err = outPinInverted.DigitalWrite(level) fmt.Printf("pin %s is now not %d\n", outPinInvertedNum, level) if err != nil { fmt.Println(err) } if level == 1 { level = 0 } else { level = 1 } }) } robot := gobot.NewRobot("pinBot", []gobot.Connection{board}, []gobot.Device{inPin, outPin, outPinInverted}, work, ) robot.Start() }