![fritzing resistor fritzing resistor](https://ioclk.com/wp-content/uploads/2012/06/fritzing_resistor_value.png)
If you’re building for Raspberry Pi 2 or 3 or the DragonBoard, select ARM. If you’re building for MinnowBoard Max, select x86. With the application open in Visual Studio, set the architecture in the toolbar dropdown.
#Fritzing resistor code#
Here is an illustration of what your breadboard might look like with the circuit assembled:įinally, the LED_PIN variable of file of the sample code will need the following modification: private const int LED_PIN = 12 Connect the other end of the resistor to 1.8V (pin 35 on the expansion header).Note that the polarity of the LED is important (this configuration is commonly known as Active Low).Connect the shorter leg of the LED to GPIO 12 (pin 24 on the expansion header) on the DB.
![fritzing resistor fritzing resistor](https://image.slidesharecdn.com/190123-fritzingbreadboardeditor-v0p2-190123211437/95/fritzing-breadboard-editor-21-638.jpg)
Perform the following steps to create the circuit: Make sure the shorter leg (-) is connected to GPIO 5 and the longer leg (+) to the resistor or it wont light up.Īnd here is the JP1 connector on the MBM:įor reference, the functionality of the low-speed expansion connector is outlined in the following diagram Note that the polarity of the LED is important. We will connect the one end of the LED to GPIO 5 (pin 18 on the JP1 expansion header) on the MBM, the other end to the resistor, and the resistor to the 3.3 volt power supply from the MBM. Here is an example of what your breadboard might look like with the circuit assembled: (This configuration is commonly known as Active Low)Īnd here is the pinout of the RPi2 and RPi3: Note that the polarity of the LED is important.Connect the other end of the resistor to one of the 3.3V pins on the RPi2 or RPi3.Connect the longer leg of the LED to the resistor.Connect the shorter leg of the LED to GPIO 5 (pin 29 on the expansion header) on the RPi2 or RPi3.Load the project in Visual Studio Connect the LED to your Windows IoT deviceĪ 220 Ω resistor for the Raspberry Pi 2, Raspberry Pi 3 and the MinnowBoard Max or a 330 Ω resistor for the DragonBoardĪ breadboard and a couple of connector wires
#Fritzing resistor how to#
To better understand what headed mode is and how to configure your device to be headed, follow the instructions here.Īlso, be aware that the GPIO APIs are only available on Windows 10 IoT Core, so this sample cannot run on your desktop. We’ll create a simple LED blinking app and connect a LED to your Windows 10 IoT Core device.