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GNSS Antenna MT-T338

The MT-T338 is a specialized GNSS (Global Navigation Satellite System) air medium antenna engineered for mid-sized airborne platforms, including light general aviation aircraft (e.g., private planes, helicopters), industrial unmanned aerial vehicles (UAVs) for commercial use, and short-endurance aerial surveying drones. It is designed to deliver reliable, high-precision Positioning, Navigation, and Timing (PNT) data tailored to the unique demands of aerial operations—addressing challenges like dynamic attitude changes, moderate altitude environmental stress, and urban/terrain-induced signal interference.
Distinguished from ground-based GNSS antennas or heavy-duty airliner-grade antennas, the MT-T338 strikes a balance between performance, weight, and cost-effectiveness. It supports simultaneous reception of mainstream global navigation constellations, ensuring continuous positioning even in semi-constrained airspaces (e.g., low-altitude urban flight, mountainous corridors). As a core component for aerial navigation and mission execution, it directly enhances flight safety, operational accuracy, and mission efficiency for platforms where PNT reliability is critical but does not require the extreme redundancy of large commercial airliners.

GNSS Antenna T-T30TKA

Moneypro GPS beidou 4G5G Bluetooth WiFi nine in one MIMO combination V2X FABA GNSS antenna T-T30TKA

HEX Here3 GPS UAV RTK GPS Drone GNSS

The HEX Here3 is a high-performance GNSS (Global Navigation Satellite System) module specifically engineered for UAVs, with integrated RTK (Real-Time Kinematic) technology to deliver exceptional positioning accuracy.
Designed to enhance drone operational reliability, it supports multi-constellation GNSS reception—including GPS, GLONASS, Beidou, and Galileo—to ensure stable signal acquisition even in complex environments like urban canyons or remote areas. Its RTK capability enables centimeter-level positioning, making it ideal for precision tasks such as surveying, mapping, agricultural spraying, and infrastructure inspection, where exact location data is critical.

M-RTK 9P High Precision Positioning Module

The M-RTK 9P High Precision Positioning Module is a cutting-edge solution designed for applications demanding exceptional location accuracy. Leveraging advanced RTK (Real-Time Kinematic) technology, it delivers centimeter-level positioning performance, making it ideal for precision agriculture, surveying, unmanned systems, and industrial automation. Equipped with robust multi-constellation GNSS (GPS, GLONASS, BeiDou, Galileo) reception, it ensures reliable operation even in challenging environments with signal obstructions. Its compact design and low power consumption enable seamless integration into diverse devices, while real-time data transmission capabilities support dynamic, high-precision positioning needs. Whether for autonomous navigation or precise geospatial mapping, the M-RTK 9P stands as a reliable choice for professional-grade positioning tasks.

RTK GNSS Antenna MA-3920

The MA-3920 is a professional-grade RTK GNSS Antenna engineered for high-precision Positioning, Navigation, and Timing (PNT) applications—including land surveying, construction site layout, precision agriculture, and autonomous vehicle testing. It leverages Real-Time Kinematic technology to deliver centimeter-level positioning accuracy, addressing the core demands of industries where sub-meter or centimeter-scale precision is non-negotiable (e.g., engineering construction, agricultural variable-rate application).
Unlike standard GNSS antennas that only provide meter-level accuracy, the MA-3920 is optimized for RTK systems: it supports high-bandwidth signal transmission, minimizes multipath interference, and maintains stable connectivity with base stations—ensuring real-time correction data is seamlessly integrated into positioning calculations. This design makes it ideal for both static scenarios (e.g., geodetic surveying) and dynamic applications (e.g., precision farming tractors), effectively resolving pain points like positioning drift, signal latency, and environmental interference that compromise accuracy in critical operations.

RTK GNSS Antenna MA-4020

The MA-4020 is a high-performance, multi-constellation RTK (Real-Time Kinematic) GNSS (Global Navigation Satellite System) antenna designed for precision positioning scenarios that demand centimeter-level accuracy. It integrates advanced signal reception technology and robust structural design to deliver reliable performance across diverse industrial and professional applications.

RTK GNSS Antenna MA-4820

The MA-4820 is an advanced full-frequency RTK (Real-Time Kinematic) GNSS (Global Navigation Satellite System) antenna engineered to deliver centimeter-level positioning accuracy for demanding professional applications. Leveraging state-of-the-art signal reception technology and robust structural design, it excels in complex electromagnetic environments while maintaining consistent performance across diverse industrial scenarios.

RTK GNSS Antenna MA-5620C

The MA-5620C is a cutting-edge, compact-grade RTK (Real-Time Kinematic) GNSS (Global Navigation Satellite System) antenna tailored for space-constrained professional applications that demand uncompromised centimeter-level positioning accuracy. It integrates next-generation signal processing technology, miniaturized hardware design, and industrial-grade durability to deliver reliable performance in scenarios where traditional larger antennas are impractical—such as small UAVs, portable survey devices, and compact autonomous robots.

RTK GNSS Antenna MAW-5620C

The MAW-5620C is an advanced weather-hardened compact RTK (Real-Time Kinematic) GNSS (Global Navigation Satellite System) antenna engineered to deliver uncompromised centimeter-level positioning accuracy in space-constrained, extreme outdoor environments. Building on the core precision of compact RTK designs, it integrates enhanced weather resistance, anti-corrosion materials, and robust signal processing—making it ideal for applications where exposure to harsh elements (e.g., heavy rain, salt fog, or extreme temperatures) and limited installation space are critical constraints.