The Airborne ADS-B receiver needs to complete tasks such as signal acquisition, demodulation, decoding, and state calculation in a very short time.
Using a multi-stage filtering structure, such as LC filtering or π-type filtering, at the signal source output can effectively filter out high-order harmonics.
By using a low-power operating system and task scheduling algorithms, critical tasks are prioritized and unnecessary computations are delayed.
In today's highly interconnected world, communication technologies are evolving rapidly—from 5G base stations to Wi-Fi 6 routers, from Bluetooth headsets to satellite navigation terminals, various devices need to operate stably in complex electromagnetic
When an aircraft traverses different weather regions, the signal propagation characteristics may change due to variations in humidity and temperature, further affecting reception.
It is not only a creator of signals but also a guardian of electromagnetic order—in the complex wireless world, it uses controllable waves to perform precise tasks, empowering testing while respecting coexistence.