The Pytrack 2.0 X shield allows you track your location using the onboard GPS and accelerometer.
upload project to device
button. This will store all necessary files on the device and allow you to import them in the example main.py
.The Pytrack has several examples:
The datasheet of the Pytrack is available as a PDF File
The PyPort connector is for a 6 lead mini ribbon cable. Part: Amphenol 20021511-00006T4LF. The external IO header power pins are labelled as follows
The Pytrack 2 can be powered through the USB port, the battery connector and the VUSB_AUX header just below the PyPort. Connecting a 5V supply to the header will result in exactly the same behaviour as powering it through the USB connector.
The pinout of the Pytrack is available as a PDF File
The Pytrack 2.0 X features a SMA connector that allows for the connection of an external active or passive GPS antenna. The SMA connector has an internal switch that switches the connection from the internal to the external antenna automatically upon connection of the external antenna.
The Pytrack 2.0 X board has an internal GPS antenna built in. You can find it on the front side near the bottom, labelled RFI1
. When you are not using the external antenna, remove the jumper labeled AON
. If you want better reception and faster fix times, you can use the external GPS antenna with the Pytrack 2.0 X. The SMA connector on the side does NOT work with the LoRa or WiFi whip antennas you might already have! You can purchase the appropiate GPS antenna from our webshop here.
The board features a single cell Li-Ion/Li-Po charger with a JST PHR‑2 connector. When the board is being powered via the micro USB connector, it will charge the battery (if connected).
Make sure you check the polarity of the battery before plugging it in! Connect the positive side to the side marked with a
+
.