The WL163 Four-channel Global Navigation Satellite System (GNSS)
Anti-jamming System is dedicated to receiving, amplifying,
down-converting, filtering, and performing anti-jamming processing
on the frequency signals of Beidou BDS_B1 and GPS_L1 in 4 channels.
It operates stably within a power voltage range of +15V to +32V and
consists of four core components: antenna array, RF component, anti-jamming processing component, and
receiver. This system can effectively counter three wideband interference
sources and still provide high-precision positioning and precise timing services under strong interference conditions. What is the advantage of the system's power supply range (+15V to
+32V)?Answer: The wide voltage power supply design can be adapted to the
power supply systems of more industrial-grade equipment, such as
special vehicles and large UAVs, improving the system's
compatibility and applicability in complex scenarios. Which scenarios is the weight design of ≤600g suitable for?Answer: This weight design can meet scenarios with relatively loose
weight requirements such as vehicle-mounted and fixed monitoring.
If a more lightweight application is needed, you can consult the
manufacturer for other material or model options. Does it support signals from satellite navigation systems other
than Beidou and GPS?Answer: Currently, the system is mainly optimized for Beidou BDS_B1
and GPS_L1 frequency bands. If you need to expand support for other
systems, you can contact the manufacturer to learn about relevant
expansion solutions. What is the function of the RF output power range?Answer: The RF output power range of -55dBm to +65dBm can flexibly
adapt to post-stage equipment with different power requirements,
ensuring the stability and flexibility of signal transmission. Can the positioning accuracy remain stable in a strong interference
environment?Answer: This system has strong anti-jamming capability. Even in
multi-interference source scenarios, it can still maintain the
positioning accuracy at ≤10m, meeting the needs of high-precision
applications.
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