NavIC Receiver Module
The S1216F8-GI3 is a GNSS receiver module capable of using L5 NavIC and L1 GPS / GLONASS / GAGAN signals to provide 3D navigation in a small 12mm x 16mm form factor.
GNSS Receiver Chipset
The Venus816 is a single-chip GPS receiver supporting dual RF input and automatic antenna switching in 5mm x 5mm QFN40 package.
The Venus827 is a single-chip GNSS receiver capable of supporting automotive dead-reckoning (ADR), odometerless dead-reckoning (ODR), or precision timing applications in 5mm x 5mm BGA64 package.
GNSS Receiver Module
The Venus828F is a 7mm x 7mm GNSS receiver module targeting cost-sensitive consumer / industrial applications. Concurrent mode maximum update rate is 20Hz.
The Venus838FLPx is a 10mm x 10mm GPS receiver module. It is capable of 50Hz update rate.
RTK Receiver Module
The PX1122R is a high-performance multi-band quad-GNSS RTK receiver featuring 1cm + 1ppm position accuracy, under 10sec RTK convergence, 12mm x 16mm form factor, base or rover configurable, and supporting moving base RTK for precision heading application. The PX1122R has maximum quad-GNSS RTK update rate of 10Hz, providing faster response time and more stable performance for fast moving precision guidance applications.
3D Dead Reckoning Receiver Module
The 12mm x 16mm S1216DR8P GNSS dead-reckoning receiver module combines GNSS positioning data, sensor data from 6-axis IMU, vehicle odometer signal, and barometric pressure sensor data to formulate high accuracy position solution even under poor signal environment or signal blocked area such as inside tunnels or underground parking lot. Barometric pressure sensor based altitude provides unparalleled floor level differentiation performance in multi-story car park or stacked highway.
The Venus838LPx-T is a high performance module in a chip form targeting precision timing GPS receiver application. It features 6nsec (1-sigma) timing accuracy and offers very low current consumption, high sensitivity, and best in class signal acquisition and time to first fix performance.