Macro close-up of a multi-layer PCB navigation module, showing the shielded GPS receiver chip and gold-plated trace lines under cool clinical blue laboratory light.
Macro close-up of a multi-layer PCB navigation module, showing the shielded GPS receiver chip and gold-plated trace lines under cool clinical blue laboratory light.
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■ OEM/ODM HARDWARE

Multi-Satellite Navigation Platforms

High-precision positioning boards engineered for fleet management and automotive integration. Multi-constellation support ensures sub-meter accuracy in dense urban environments.

/ ENGINEERING DATA

Technical Specifications

Our navigation platforms integrate multi-satellite modules and vehicle telemetry interfaces to deliver robust positioning under extreme thermal and electromagnetic conditions.

SIGNAL INTEGRITY
COLD START
TELEMETRY

Multi-Satellite Receiver

Instant Positioning

CAN-Bus Integration

Simultaneous tracking of GPS, GLONASS, and BeiDou systems. High-gain patch antennas ensure stable signal lock even in deep urban canyons.

Optimized baseband architecture reduces cold-start TTFF to under 26 seconds. Hot-start recovery occurs in less than one second.

Direct transceiver interface allows real-time vehicle telemetry extraction, steering control feedback, and dead reckoning positioning during signal loss.

+ STRESS TESTING

Automotive-Grade Reliability

Every navigation board undergoes multi-stage environmental testing before leaving our Huizhou facility. We subject hardware to extreme thermal cycles and high-frequency vibration to guarantee zero-defect field operation.

Our testing protocol includes automated optical inspection and signal-to-noise ratio calibration, ensuring reliable multi-satellite tracking under the most challenging atmospheric and physical conditions.