RTK GNSS Antenna
Showing 127–135 of 161 results
RTK GNSS Antenna MT-T076
The RTK GNSS Antenna MT-T076 is a high-performance positioning solution engineered for precision-critical applications. It supports multi-constellation reception (including GPS, GLONASS, Beidou, and Galileo), ensuring stable signal acquisition even in complex environments like urban canyons or dense foliage. Equipped with advanced RTK (Real-Time Kinematic) technology, the antenna delivers centimeter-level positioning accuracy, making it ideal for professional use cases such as surveying, mapping, precision agriculture, and unmanned aerial vehicle (UAV) operations.
RTK GNSS Antenna MT-T145
The RTK GNSS Antenna MT-T145 is a high-reliability positioning component designed for professional precision-focused scenarios. It supports full-frequency reception of multiple GNSS constellations (such as GPS, Beidou, GLONASS, and Galileo), ensuring strong signal capture ability even in semi-obstructed environments like suburban areas or near low-rise buildings. Leveraging advanced RTK technology, this antenna delivers sub-centimeter to centimeter-level positioning accuracy, laying a solid foundation for high-precision operations.
RTK GNSS Antenna MT-T150
The RTK GNSS Antenna MT-T150 is an advanced high-precision positioning device tailored for professional scenarios requiring ultra-reliable performance. It supports full-frequency reception of all major GNSS constellations—including GPS, Beidou, GLONASS, Galileo, and QZSS—ensuring exceptional signal acquisition capability even in challenging environments such as urban canyons, dense forests, or high-altitude areas. Powered by cutting-edge RTK technology, the MT-T150 delivers consistent sub-centimeter-level positioning accuracy, making it a top choice for mission-critical operations.
RTK GNSS Antenna MT-T156
The RTK GNSS Antenna MT-T156 is a high-performance precision positioning solution engineered for professional scenarios demanding reliable and accurate satellite signal reception. It supports dual-band (L1+L5) operation and is compatible with multiple global navigation constellations, including GPS, Beidou, GLONASS, Galileo, and QZSS—ensuring strong signal capture even in semi-obstructed environments like urban suburbs or coastal areas. Leveraging advanced RTK technology, this antenna delivers consistent sub-centimeter to centimeter-level positioning accuracy, meeting the strict requirements of high-precision operations.
RTK GNSS Antenna MT-T157
The RTK GNSS Antenna MT-T157 is a high-performance positioning solution engineered for precision-driven applications. It supports multi-constellation reception (including GPS, GLONASS, BeiDou, and Galileo), ensuring stable and accurate signal acquisition even in complex environments like urban canyons or remote outdoor areas. With advanced RTK (Real-Time Kinematic) technology, the antenna delivers centimeter-level positioning accuracy, making it ideal for professional fields such as surveying, mapping, construction, and precision agriculture.
RTK GNSS Antenna MT-T372
The RTK GNSS Antenna MT-T372 is a high-performance positioning component designed for precision-oriented applications, delivering exceptional signal reception and stability across diverse environments. Engineered to support multiple GNSS constellations (including GPS, GLONASS, BeiDou, and Galileo), it ensures robust connectivity even in challenging conditions such as urban canyons, dense foliage, or remote outdoor areas—making it ideal for surveying, mapping, construction, precision agriculture, and unmanned systems (UAVs).
Featuring advanced anti-interference technology and a low-noise amplifier (LNA), the MT-T372 minimizes signal distortion and enhances positioning accuracy to centimeter-level, a critical requirement for tasks demanding high precision. Its compact, durable design (with weatherproof and shock-resistant properties) allows for easy integration into various devices, while optimized impedance matching ensures efficient power usage and long-term reliability. Whether deployed in stationary setups or mobile platforms, the MT-T372 stands out as a dependable solution for elevating the performance of RTK-based positioning systems.
RTK GNSS Antenna MT-T414
The RTK GNSS Antenna MT-T414 is a high-precision positioning component tailored for demanding professional scenarios, combining exceptional signal capture capability with reliable performance to meet rigorous accuracy requirements. It supports full-frequency coverage of multiple global GNSS constellations (including GPS, BeiDou, GLONASS, Galileo, and QZSS), ensuring stable connectivity even in complex environments such as urban high-rise clusters, mountainous areas, or dense vegetation—making it a top choice for land surveying, precision construction, geospatial mapping, and autonomous vehicle positioning systems.
Equipped with a high-gain low-noise amplifier (LNA) and advanced anti-multipath interference technology, the MT-T414 effectively reduces signal distortion and maintains centimeter-level positioning accuracy, a critical factor for mission-critical tasks. Its rugged, weather-resistant housing (compliant with IP67/IP68 standards) enables long-term operation in harsh outdoor conditions, while the compact design allows for easy integration with RTK receivers, UAVs, or vehicle-mounted terminals. With optimized phase center stability and consistent impedance matching, the MT-T414 delivers consistent, high-quality performance, making it a dependable solution for professional GNSS positioning applications.
RTK GNSS Antenna MT-T415
The RTK GNSS Antenna MT-T415 is a cutting-edge high-precision positioning device engineered to excel in professional scenarios with strict performance demands, integrating superior signal acquisition capabilities and robust operational stability to fulfill rigorous accuracy standards. It provides full-frequency coverage for an extensive range of global GNSS constellations, including GPS, BeiDou, GLONASS, Galileo, and QZSS, guaranteeing unwavering connectivity even in challenging environments like dense urban canyons, remote mountainous regions, and thick forested areas—solidifying its position as an ideal choice for applications such as precision land surveying, large-scale construction projects, high-precision geospatial mapping, and advanced autonomous vehicle positioning systems.