Are you planning to use the LightAPRS 2.0 for a launch or a model rocket recovery project? LightAPRS 2.0 APRS Tracker
Includes position, course/speed, altitude, satellite count, and battery voltage – all standard APRS compliant. lightaprs 2.0
The Automatic Packet Reporting System (APRS) has been a cornerstone of amateur radio digital communications for decades. Developed in the 1980s, APRS enables radio operators to share information about their locations, weather conditions, and other vital data with others in the amateur radio community. LightAPRS 2.0 is an innovative, lightweight implementation of the APRS protocol, designed to be highly efficient, flexible, and user-friendly. This essay explores the features, benefits, and implications of LightAPRS 2.0 for the amateur radio community. Are you planning to use the LightAPRS 2
Powered by an ARM Cortex-M0 (ATSAMD21G18) , the same chip used in the Arduino M0, providing 256 KB Flash and 32 KB RAM. Developed in the 1980s, APRS enables radio operators
| Competitor | Pros vs. LightAPRS 2.0 | Cons vs. LightAPRS 2.0 | | :--- | :--- | :--- | | | Larger community support for HAB; similar specs. | Slightly more expensive; harder to source in some regions. | | Mobilinkd TNC3 | Works with standard 2m radios; Bluetooth app config. | Requires an external radio; heavier; more expensive. | | Generic LoRa Trackers | Often cheaper; long-range LoRa modulation. | Not APRS compatible (usually proprietary protocols); harder to configure. | | APRSdroid + Phone | Uses existing hardware; easy GUI. | Not a dedicated tracker; phone battery drain; no digipeating. |
While similar, the (WSPR version) is tailored specifically for "pico" balloons intended for global circumnavigation. It is lighter ( 4.61 grams ) and adds an HF radio module for WSPR (Weak Signal Propagation Reporter) modes, allowing tracking even when the balloon is thousands of miles away from an APRS gateway. Deployment and Usage