Showing 253–261 of 267 results

RTK GNSS Board MG-518

The RTK GNSS Board MG-518 is a high-performance, compact positioning module designed for precision-oriented applications that demand exceptional location accuracy. Leveraging advanced Real-Time Kinematic (RTK) technology, this board delivers centimeter-level positioning results—outperforming standard GNSS modules by minimizing errors from atmospheric interference, satellite orbit deviations, and signal multipath effects.

RTK GNSS Board MG-540M

The RTK GNSS Board MG-540M is an advanced, next-generation positioning module engineered to meet the rigorous demands of high-precision, real-time location-based applications. Building on cutting-edge Real-Time Kinematic (RTK) technology, this board achieves sub-centimeter-level positioning accuracy—a significant upgrade from standard RTK modules—by integrating advanced signal processing algorithms that effectively mitigate errors caused by ionospheric delays, tropospheric interference, and complex urban multipath scenarios.

RTK GNSS Board MG-540U

The RTK GNSS Board MG-540U is a versatile, high-precision positioning module tailored for both professional and industrial-grade real-time location applications, where reliability and adaptability are as critical as accuracy. Powered by advanced Real-Time Kinematic (RTK) technology, this board delivers centimeter to sub-centimeter-level positioning accuracy—achieved through enhanced signal demodulation and error-correction algorithms that effectively counteract disruptions from ionospheric/tropospheric interference, urban multipath, and weak satellite signals.

RTK GNSS Board MG-550

The RTK GNSS Board MG-550 is a high-performance, next-generation positioning module engineered to meet the most demanding precision requirements of professional and mission-critical applications. Leveraging advanced Real-Time Kinematic (RTK) technology with optimized signal processing, this board delivers reliable sub-centimeter-level positioning accuracy—achieved through enhanced error-correction mechanisms that effectively mitigate disruptions from ionospheric/tropospheric delays, complex urban multipath, and weak satellite signals, even in dynamically changing environments.

RTK GNSS Board MP-250

The RTK GNSS Board MP-250 is a versatile, cost-effective high-precision positioning module designed for a broad spectrum of professional and industrial applications—where a balance of accuracy, reliability, and ease of integration is key. Powered by mature Real-Time Kinematic (RTK) technology, this board delivers consistent centimeter-level positioning accuracy, leveraging optimized signal filtering and error-correction algorithms to minimize disruptions from ionospheric/tropospheric interference, urban multipath, and weak satellite signals.

RTK GNSS Board MP-250Q

The RTK GNSS Board MP-250Q is a high-performance, compact positioning module engineered for demanding precision-location applications. Leveraging advanced Real-Time Kinematic (RTK) technology, it delivers centimeter-level positioning accuracy, outperforming standard GNSS modules by minimizing errors from atmospheric interference and satellite signal drift.
Compatible with multiple global navigation satellite systems—including GPS, GLONASS, BeiDou, and Galileo—the MP-250Q ensures reliable operation in diverse geographic regions and challenging environments, such as urban canyons or remote outdoor areas. Its streamlined design integrates a high-sensitivity receiver, low-power consumption components, and flexible interface options (e.g., UART, SPI), making it easy to integrate into devices like agricultural drones, surveying equipment, autonomous robots, and precision mapping tools.

RTK GNSS Board MP-280

The RTK GNSS Board MP-280 is an advanced, high-reliability positioning module tailored for scenarios requiring exceptional precision. Equipped with state-of-the-art Real-Time Kinematic (RTK) technology, it achieves centimeter-level positioning accuracy, effectively mitigating errors caused by factors like ionospheric interference and satellite orbit deviations—ensuring superior performance compared to conventional GNSS modules.
It boasts broad compatibility with major global navigation satellite systems, including GPS, GLONASS, BeiDou, Galileo, and QZSS, enabling stable operation across diverse geographic locations, from dense urban environments with tall buildings to remote outdoor areas with limited signal coverage. The module features a compact, integrated design that combines a high-sensitivity receiver, low-power consumption circuitry, and versatile interface options (such as UART, SPI, and I2C), facilitating seamless integration into a wide range of devices, including precision agricultural machinery, land surveying instruments, autonomous vehicles, and professional mapping drones.

RTK GNSS Board MP-280B

The RTK GNSS Board MP-280B is a high-performance, compact positioning module designed for precision location-based applications. It integrates Real-Time Kinematic (RTK) technology with multi-constellation GNSS reception—supporting GPS, GLONASS, Beidou, and Galileo—to deliver centimeter-level positioning accuracy, making it ideal for scenarios like surveying, precision agriculture, and autonomous robotics.
The board balances performance with ease of integration, featuring a streamlined form factor that fits into space-constrained designs. It also offers stable data output via standard interfaces, ensuring reliable connectivity with host systems. Additionally, its robust signal processing capability enables consistent positioning even in challenging environments, such as urban canyons or dense foliage.

RTK GNSS Board MP-280U

The RTK GNSS Board MP-280U is a versatile, high-precision positioning module engineered for demanding location-critical applications. Leveraging Real-Time Kinematic (RTK) technology, it supports multi-constellation GNSS reception—including GPS, GLONASS, Beidou, Galileo, and QZSS—delivering centimeter-level positioning accuracy to meet the needs of sectors like precision mapping, autonomous systems, and industrial automation.
Designed for seamless integration, the board features a compact footprint and flexible interface options, ensuring compatibility with diverse host systems. Its advanced signal processing algorithms enhance performance in challenging environments, such as urban jungles or areas with partial signal obstruction, while maintaining stable, low-latency data output for real-time operational efficiency.