Specifications
Input Voltage
Dimensions
Weight
Orbit - Miniature U-blox NEO-M9N GNSS
Introducing Orbit, a compact GNSS module built around the proven u-blox NEO-M9N and paired with the precise ST LIS3MDL 3-axis magnetometer. Designed for applications where accuracy and reliability are critical, Orbit delivers robust positioning with dependable performance in dynamic and signal-challenged environments.
Measuring just 25 mm × 25 mm and weighing only 18 grams, Orbit strikes an optimal balance between performance and integration flexibility. The NEO-M9N supports concurrent reception of GPS, GLONASS, Galileo, and BeiDou, offering fast time-to-first-fix, high sensitivity, and low power consumption - ideal for unmanned systems, robotics, and embedded navigation platforms. Complementing this, the ST LIS3MDL provides accurate 3-axis magnetic field sensing, enabling reliable heading and orientation determination when GNSS alone is insufficient.
With its optimized architecture and tightly integrated compass functionality, Orbit ensures stable signal acquisition, consistent positioning accuracy, and dependable operation-delivering the precision required for advanced navigation and positioning solutions.
Specifications
Input Voltage
Dimensions
Weight
Orbit - Miniature U-blox NEO-M9N GNSS
Multi-Constellation GNSS Accuracy
Orbit is powered by the u-blox NEO-M9N, supporting concurrent GPS, GLONASS, Galileo, and BeiDou reception. It delivers fast time to first fix, high sensitivity, and reliable positioning even in dynamic or signal challenged environments while maintaining low power consumption.
Compact, Integration Ready Design
At just 25 × 25 mm and 18 g, Orbit combines high performance with a small footprint. Its optimized architecture ensures consistent signal acquisition and dependable operation in advanced navigation applications.
Integrated 3 Axis Compass
With the ST LIS3MDL magnetometer, Orbit provides accurate heading and orientation data. This ensures stable navigation performance when GNSS alone is insufficient and enhances reliability for robotics and unmanned systems.