There are two parts to Trill Flex: the base (where you’ll find the Trill chip and a high-density connector) and the flexible sensor (made from flex PCB). If you want to connect Trill Craft to a breadboard for prototyping, solder a 15-way straight pin headers to each side, and insert it into a breadboard. These are left open so you have the freedom to connect to your custom interface in the way that suits you best, whether that’s soldering it to wires, sewing it with conductive thread, or adding header pins. Trill Craft’s 30 sensing channels are broken out to pads, 15 along each side of the sensor. Solder this to the 6 pins at the bottom of the Craft sensor so you can insert it into a breadboard and connect it to your system using jumper wires. Trill Craft comes with a 6-way, 90 degree pin header. See the section for your maker platform for details and diagrams. You can use the loose wires to connect your Trill sensor to your maker board by plugging it in directly, or connecting via a breadboard. Insert the Grove connector to the port on the back of your Trill sensor, making sure it’s in tight. Trill Bar, Square, Hex and Ring each come with a Grove cable that breaks out the sensor pins to wires. If you’d like to read all the technical details in one place, download the Trill data sheet. We’ll assume that you have some jumper wires and a breadboard available to connect things up quickly. This article explains how to get started with Bela, as well as other popular maker platforms. You can download libraries and examples for Linux platforms (Raspberry Pi, Beaglebone, etc…) from this repo, and libraries for Arduino-compatible boards (including Teensy) from this repo. Trill sensors were designed by the team that brought you Bela, but they’re compatible with any microcontroller that supports the I2C communication protocol, including Arduino and Raspberry Pi.
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