This guide will walk you through setting up your Ganglion, connecting it to your computer, and then connecting it to yourself. The first tutorial is for Mac users, the second is for Windows users. Please review this guide in its entirety before starting, and consult the Ganglion Biosensing Tutorial Video. Have fun!
Note that the Ganglion is not set to be discoverable out of the box, you need the GUI or another app.
What You Need
- OpenBCI Ganglion Board
- An OpenBCI Ganglion Dongle
- 6V AA battery pack & (x4) AA batteries (batteries not included)
- (x4) plastic feet for board stabilization
- OpenBCI Gold Cup Electrodes, or your own electrodes, and Electrode Paste
- Snap Electrode Cables and Snap Electrodes
- A computer connected to the internet
1. Your Ganglion
The battery connector on the back can accept 3V to 12V DC power input. The pushbutton is a reset button. Note the removable orange stickers on the four switches (SW1, SW2, SW3, SW4). For more information on the Ganglion Hardware, visit the OpenBCI Ganglion page in the Hardware section.
2. OpenBCI Ganglion Dongle
Plug the OpenBCI Ganglion Dongle into your computer before launching the GUI. Additional dongles can be found in the OpenBCI Shop.
3. Your 6V AA Battery Pack & 4 AA Batteries
Install 4 AA batteries in your battery pack, plug in your Ganglion board and turn on the power switch. You should see the BLUE LED blink gently. Blinking means that the BLE radio is not connected or paired with any computer or phone/tablet. Once the Ganglion is connected, the LED stays steady on.
Important note If you are using a non-OpenBCI battery holder, please check the polarity (red +/black -) BEFORE powering up your OpenBCI board. A reversed polarity will burn out your board.
4. (x4) Plastic Feet
Your OpenBCI kit comes with 4 plastic feet that can be snapped into the holes of your board to provide extra stability while working.
5. Gold Cup Electrodes and Paste
- 10 passive, gold cup electrodes on a color-coded ribbon cable
- 3 2oz Jars of Ten20 conductive electrode paste
If you plan to work with your own electrodes, the Touch-Proof Adapter will come in handy. It will convert any electrode that terminates in the industry-standard touch-proof design to an electrode that can be plugged into any OpenBCI Board!
Download/Install/Run the OpenBCI GUI
Please follow the step by step guide to install the OpenBCI_GUI as a standalone application.
Come back to this guide when your GUI is running!
Start Using The OpenBCI GUI
Connect the GUI to your Ganglion board
Make sure your computer's Bluetooth feature is turned on. Select
LIVE (from Ganglion) from the first drop down.
Bluetooth (BLED112 Dongle) as the transfer protocol.
The GUI will automatically start searching for Ganglion devices.
Each Ganglion has its own unique 4 character ID (in HEX), and you will see it listed in the
BLE DEVICES window. If you don't see any Ganglions, check to make sure your Ganglion has a battery connected, is switched on, and the blue LED is blinking. If there are multiple Ganglions in the room, you can find yours by turning it off, clicking the
REFRESH LIST button, then turn on your Ganglion again. Make a note of your Ganglion's 4 character ID.
Select the desired Ganglion device from the dropdown list.
The GUI will automatically generate a recording to a file. You have an option at this point to create your own file name, in the
DATA LOG FILE window, should you choose to.
START SYSTEM when you're ready to begin streaming.
Navigating the GUI
When the GUI connects, it opens up to the default window layout. For a more in-depth guide to the GUI interface and functionality, check out the OpenBCI GUI doc. For the purposes of this introductory tutorial, You should follow the following steps to setup the GUI.
Click on the
Layout dropdown menu, and select the one outlined in red.
If the Accelerometer is off, turn on the Accelerometer by clicking the
Turn Accel. On button.
Start Data Stream to stream data from your Ganglion board.
You should see the
Time Series window scrolling some data to the left, the
FFT Plot container will show you the power level of the signals at different frequencies. The
Accelerometer window will also scroll data.
Pick up your board, and move it around. You should see the data in the
Accelerometer window also move around, and if you're touching the input pin header, you will see some noise in the other windows. Nice!
NOTE: If you're having trouble, check out the troubleshooting section at the bottom of this tutorial.
Now that you've got your computer connected to the Ganglion, it's time to connect your self!
Connect yourself to OpenBCI
To learn how to connect yourself to OpenBCI using your newly set up board, see the following tutorials: