The Arduino/Genuino 101 is a learning and development board which contains the Intel® Curie™ Module, designed to integrate the core's low power-consumption and high performance with the Arduino's ease-of-use. The 101 adds Bluetooth Low Energy capabilities and has an on-board 6-axis accelerometer/gyroscope, providing exciting opportunities for building creative projects in the connected world. More information about the technical specifications and documentation can be found on the Arduino/Genuino 101 main page.
The Arduino/Genuino 101 is programmed using the Arduino Software (IDE), our Integrated Development Environment common to all our boards and running both online and offline. For more information on how to get started with the Arduino Software visit the Getting Started page.
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All Arduino boards, including this one, work out-of-the-box on the Arduino Web Editor, no need to install anything.
The Arduino Web Editor is hosted online, therefore it will always be up-to-date with the latest features and support for all boards. Follow this simple guide to start coding on the browser and upload your sketches onto your board.
If you want to program your 101 while offline you need to install the Arduino Desktop IDE and add the Intel Curie Core to it. This simple procedure is done selecting Tools menu, then Boards and last Boards Manager, as documented in the Arduino Boards Manager page.
Here you can search Intel Curie or 101 to find the core. Click on its box and click on the install button. On the bottom bar of the window you can follow the download and install procedure, including the installation of the proper driver, needed by the operating system to use the 101 board. For more information about cores, see the guide on installing additional Arduino cores.
Now that the Curie Core is installed, you can connect the board to the computer using a standard USB cable. The very first time your computer may go through the new hardware installation process.
Whenever an user wants to install the IDE form the zip file, or the windows store and installs the 101 board from the board manager the driver isn’t installed and therefore the board is not recognized.
This issue is easily solved doing a manual installation.
Please go to your documents folder and then here: \ArduinoData\packages\Intel\hardware\arc32\2.0.2\drivers . The folder contains the dpinst-x86.exe and dpinst-amd54.exe that are the install executables. Chose the right one for your 32 or 64 bit OS and double clic on it.
After ths manual procedure the driver installation will properly happen when you connect the board.
On old Windows machines the time taken to install the driver is more than the 5 seconds allowed by the board's firmware. If the board disappears while the driver is installed, the process aborts and no driver is installed. To solve this issue please keep pressing every second the MASTER RESET until the driver installation is completed.
From Tools select the Board Arduino/Genuinio 101
and then the Port that is labeled with the same name.
Everything is now ready to upload your first sketch. Go to File on the Arduino Software (IDE) and open the Examples tree; select 01. Basic and then Blink
This sketch just flashes the built in LED connected to Digital pin 13 at one second pace for on and off, but it is very useful to practice the loading of a sketch into the Arduino Software (IDE) and the Upload to the connected board.
Press the second round icon from left on the top bar of the Arduino Software (IDE) or press Ctrl+U or select the menu Sketch and then Upload.
The sketch will be compiled and then uploaded. After a few seconds the bottom bar should show Done Uploading.
After this process the 101 board takes around 5 seconds to reset and restart, then the built in LED should start blinking.
See this tutorial for a generic guide on the Arduino IDE with a few more infos on the Preferences, the Board Manager, and the Library Manager.
You have successfully set up your 101 board and uploaded your first sketch. You are ready to move on with our tutorials and projects: choose your next destination below.
Now that you have set up and programmed your 101 board, you may find inspiration in our Project Hub tutorial platform, or learn how to use the specific features of the 101 board with the 101 library examples.
CurieIMU Orientation Visualiser
CurieIMU Step Count
CurieIMU Raw data example
CurieIMU tap detection
CurieIMU Shock detection
CurieBLE Smartphone Led interaction
CurieBLE Heart Rate Monitor
more examples on the respective library pages
All 101’s embedded peripherals have dedicated libraries, namely:
CureBLE (to control Bluetooth Low Energy module)
CurieIMU(to control the 6-axis accelerometer + gyro)
Curie Timer One (to control Timer functions)
All of these libraries contain example sketches and tutorials have been written to get you started with using and understanding the functionalities of the modules (see Tutorials at the bottom of this page). All these libraries are automatically installed with the Intel Curie core.
In this section we have collected some information that is worth reading to use your Arduino or Genuino 101 board properly. Some behaviours differ from the Uno board and if you come from a former experience with that board, it is worth spending a few minutes reading through these notes. If this is your first board, we suggest you have a look at them anyway.
The microcontroller on the 101 runs at 3.3V but all I/O pins are protected against 5V overvoltage.
This means that the output signals will be in the range 0 - 3.3V but you can apply up to 5V on a pin without damaging the board.
Applying more than 5V on any pin will damage the board.
The 101 has a number of facilities for communicating with a computer or other microcontrollers.
The USB connector exposes as a virtual serial port that can be controlled by writing and reading to the Serial object. Pins 0/1, instead, expose a Hardware serial port mapped to Serial1 object.
Opening and closing the USB Serial port at a baud rate other than 1200bps will not reset the 101. To use the serial monitor, and see what your sketch does from the beginning, you'll need to add few lines of code inside the setup().
This will ensure the Curie module will wait for the serial port to open before executing the sketch:
while (!Serial) ;
Pressing the Reset button on the 101 causes the microcontroller to reset as well as resetting the USB communication.
This interruption means that if the serial monitor is open, it's necessary to close and reopen it to restart the communication. The SoftwareSerial library allows serial communication on any of the 101's digital pins up to 57600 bps.
After a sketch is uploaded to the board, there's a delay of a few seconds before it starts to execute. This happens at powered up and when RESET M button gets pressed. The serial monitor can't be opened during this time, so the user must wait for around 10 seconds before serial communication can start. In order not to miss any serial information that is sent before you open serial monitor, you can write the same line of code as aforementioned inside setup(), which will wait until you open the monitor to start the program:
while (!Serial) ;
Linux only: some distributions need to be configured to perform the upload. After installing the core, execute
sudo ~/.arduino15/packages/Intel/tools/arduino101load/1.6.4+1.18/scripts/create_dfu_udev_rule inside a shell to gain upload permissions.
On Windows, drivers are needed to allow the board communication. These drivers will be installed automatically when adding the core.
On MacOSX and Linux no driver is needed.
For more details on the Arduino/Genuino 101, see the product page.
Note: to ensure optimal performance and protect the board during use, use a third-party plastic enclosure. Use a screw head not greater than 0.25 inch (6.35mm) in diameter to mount the board in the enclosure. If testing the board on an ungrounded metal surface, a minimum 10mm (0.393 inch) separation should be kept between the
metal surface and the board to maintain antenna performance.
Last revision 2017/01/10 by SM
The text of the Arduino getting started guide is licensed under a Creative Commons Attribution-ShareAlike 3.0 License. Code samples in the guide are released into the public domain.