Note: This repository has been moved to our GitLab page on May 2019, and will not receive any updates or be monitored. Please follow this link to go to the new repository: https://gitlab.com/electronutlabs-public/ElectronutLabs-HackaBLE
hackaBLE is a tiny (~ 18 mm x 28 mm) Open Source Nordic nRF52832 based BLE development board you can embed in your BLE projects. It's designed such that you can use it in three ways:
- On a breadboard
- On a custom PCB, hand-soldered easily using the castellated 2.54 mm pitch headers
- On a custom PCB, using a stencil and oven, making use of extra pads underneath the PCB
hackaBLE uses offers more value than just using the BLE module directly - since it incorporates the necessary passive components - including the ones for the buck converter for power saving - and adds an RGB LED and a button for convenience. It's also much easier to solder than the bare modules.
Features
- Raytac MDBT42 based on Nordic Semiconductor's nRF52832 SOC with chip antenna
- RGB LED
- Button user configurable, set as RESET by default
- SWD programming headers
- MCP1702 3.3 V LDO
- Reverse current protection.
Currently, there are two versions available in the market. Select your version of hackaBLE from below and follow the documentation.
This is the latest version of hackaBLE it uses Raytac's nRF52832 module by Nordic Semiconductors. This version uses MCP1702, a 3.3 V voltage and protection diode at the input which enables hackaBLE to consume very low current and also provides reverse current protection. It also comes with an RGB LED, user reset button and SWD programming headers.
- schematic
- datasheet
hackaBLE v2.2 is a redesigned hackaBLE that used the BLE SoC directly rather than a module. This version of hackaBLE also comes with an RGB LED, button, and SWD programming headers. It has onboard BLE antenna.
[CAUTION] hackaBLE v2.2 does not come with a regulator since it's designed for low power applications. MAX input to VDD is 3.6 V.
hackaBLE uses the Nordic nRF52832 which in turn is based on an ARM Cortex-M4 core. So you can really program it with any ARM compatible programmer. We do have a convenient solution though, in the form of our Bumpy Blackmagic probe compatible SWD debugger and our PogoProg.
As shown above, use the four SWD pins of PogoProg on hackaBLE to upload or debug hackaBLE.
Please read the bumpy documentation on using Bumpy to program hackaBLE.
For more details on nRF52 programming, please read our guide on getting started with Nordic nRF5 SDK.
hackable does not ship with a bootloader, but it is supported in Arduino. Please visit here for details (but select Hackable in the board's menu).
Here's a blog article which will help you create a BLE custom characteristic and program it to hackaBLE using Arduino IDE.
For more detailed programming guide go here
hackaBLE can be used on a breadboard. Here's a video that shows how to solder headers on to hackaBLE.
hackaBLE is available for purchase from our Tindie store. Please email us at [email protected] if you have any questions.
You can find all code and design files related to HackaBLE in this repository.
Electronut Labs is an Embedded Systems company based in Bangalore, India. More information at our website.