SparkFun GPS-RTK Dead Reckoning ZED-F9R Hookup Guide
Contributors:
bboyho, Elias The Sparkiest
Resources and Going Further
Now that you've successfully got your GPS receiver up and running, it's time to incorporate it into your own project! For more information, check out the resources below:
- SparkFun u-Blox ZED-F9R Breakout
- u.FL Version, v1.2
- SMA Version, v1.1
- GitHub
- SparkFun u-Blox ZED-F9R pHAT
- u-blox Module Documentation
- SFE Product Showcase
Are you looking for a GPS receivers? Check out the following GPS boards from the SparkFun catalog!
Note: If you are looking for more of a packaged solution, check out the RTK Express Plus! The ZED-F9R is built in with the ESP32. Users can take advantage of the software to easily connect to a correction source via ESP32's Bluetooth.
Need some inspiration for your next project? Check out some of these related tutorials:
SparkFun GPS Breakout (ZOE-M8Q and SAM-M8Q) Hookup Guide
The SparkFun ZOE-M8Q and SAM-M8Q are two similarly powerful GPS units but with different project applications. We'll compare both chips before getting each up and running.
Getting Started with the Autonomous Kit for the Sphero RVR
Want to get started in robotics? Look no further than the SparkFun autonomous kit for the Sphero RVR! Whether you purchased the Basic or Advanced kit, this tutorial will get you rolling...
SparkFun GPS Dead Reckoning NEO-M8U Hookup Guide
The u-blox NEO-M8U is a powerful GPS units that takes advantage of untethered dead reckoning (UDR) technology for navigation. The module provides continuous positioning for vehicles in urban environments and during complete signal loss (e.g. short tunnels and parking garages). We will quickly get you set up using the Qwiic ecosystem and Arduino so that you can start reading the output!
Artemis Global Tracker Hookup Guide
The SparkFun Artemis Global Tracker combines the Artemis processor with an Iridium 9603N satellite transceiver, ZOE-M8Q GNSS transceiver, and MS8607 PHT sensor. With a clear view of the sky, this board allows you to send and receive short data messages from anywhere in the world including remote locations far beyond the reach of WiFi and GSM networks. Follow this guide to get started with the Artemis Global Tracker.
Or check out this blog post for ideas.