GNSS High-precision Antenna: An Excellent Choice for Precise Positioning
In the era of rapid development of modern technology, precise positioning has become an indispensable requirement in many fields. GNSS high-precision antennas provide a reliable solution for achieving high-precision positioning due to their excellent performance characteristics.
1. Multi constellation signal reception
GNSS high-precision antennas support the tracking of satellite signals such as BDS, GPS, GLONASS, etc. With the support of multiple constellations and frequencies, more available satellites and observations can be obtained. This not only improves the data availability in occluded scenes, but also greatly enhances the fixed rate. Whether in urban canyons, mountainous areas, or other complex environments, stable signal reception can be ensured, laying a solid foundation for accurate positioning.
2. Centimeter-level positioning for more accurate positioning
This antenna supports RTK centimeter level positioning and has 96 capture and 60 tracking channels. The support of multiple differential accounts makes positioning more accurate and reliable. Whether in the fields of surveying, engineering construction, or autonomous driving, it can meet the demand for high-precision location information and provide users with accurate and error-free positioning services.
3. Strong anti-interference ability, stable and reliable signal
GNSS high-precision antennas have excellent anti-interference suppression measures and excellent signal reacquisition speed. High precision data can still be output in densely populated urban buildings, mountainous and canyon areas, and areas with severe multipath interference. Even in complex electromagnetic environments, stable signal reception can be maintained to ensure accurate and reliable positioning.
4. Compact size, making the terminal more compact
The compact size design makes it suitable for space sensitive application scenarios. Whether integrated into small devices or installed on terminals with limited space, it can be easily achieved. This provides more possibilities for expanding its application scope, allowing high-precision positioning technology to be applied to more fields.
5. Dual antenna output, positioning and orientation
The dual antenna output function achieves positioning and orientation, and the high refresh rate ensures real-time and efficient positioning. This feature effectively meets the high dynamic and high-precision application requirements, and plays an important role in fields such as aerospace, navigation, and motion monitoring.
GNSS high-precision antennas have become an ideal choice for achieving high-precision positioning due to their characteristics of multi constellation signal reception, centimeter level positioning, strong anti-interference ability, compact size, and dual antenna output. In future development, it will continue to provide strong support for precise positioning needs in various fields, promoting technological progress and social development.
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