1. Introduction to the WiPy¶
To get the most out of your WiPy, there are a few basic things to understand about how it works.
1.1. Caring for your WiPy and expansion board¶
Because the WiPy/expansion board does not have a housing it needs a bit of care:
Be gentle when plugging/unplugging the USB cable. Whilst the USB connector is well soldered and is relatively strong, if it breaks off it can be very difficult to fix.
Static electricity can shock the components on the WiPy and destroy them. If you experience a lot of static electricity in your area (eg dry and cold climates), take extra care not to shock the WiPy. If your WiPy came in a ESD bag, then this bag is the best way to store and carry the WiPy as it will protect it against static discharges.
As long as you take care of the hardware, you should be okay. It’s almost impossible to break the software on the WiPy, so feel free to play around with writing code as much as you like. If the filesystem gets corrupt, see below on how to reset it. In the worst case you might need to do a safe boot, which is explained in detail in Boot modes and safe boot.
1.2. Plugging into the expansion board and powering on¶
The expansion board can power the WiPy via USB. The WiPy comes with a sticker on top of the RF shield that labels all pins, and this should match the label numbers on the expansion board headers. When plugging it in, the WiPy antenna will end up on top of the SD card connector of the expansion board. A video showing how to do this can be found here on YouTube.
1.3. Expansion board hardware guide¶
The document explaining the hardware details of the expansion board can be found in this PDF.
1.4. Powering by an external power source¶
The WiPy can be powered by a battery or other external power source.
Be sure to connect the positive lead of the power supply to VIN, and ground to GND. There is no polarity protection on the WiPy so you must be careful when connecting anything to VIN.
When powering via
The input voltage must be between 3.6V and 5.5V.
When powering via
The input voltage must be exactly 3V3, ripple free and from a supply capable of sourcing at least 300mA of current