Harxon has introduced a smart antenna series that integrates its cutting-edge antenna technology with a full-constellation, full-frequency RTK positioning module.
The new series provides precise positioning capabilities in a compact, easily integrable form, and supports accuracy at various levels, including single-point meter-level, DGPS sub-meter, and RTK centimeter/millimeter-level.
The HX-MR401A & HX-MR402A (housed version) and HX-ME403A & HX-ME404A (embedded version) are tailored for unmanned aerial vehicles (UAVs), incorporating Harxon’s advanced low-profile helix antenna.
The HX-ME401A & HX-ME402A, designed for robotic lawn mowers, utilize the cost-efficient, high-performance OEM GNSS Antenna HX-CSX231A.
OEM GNSS Antenna
Harxon has also added two new antennas to its range of OEM GNSS antennas. The HX-SE402A and HX-SE403A are full-band, full-frequency antennas integrated with a low-profile radio antenna supporting the 858-878MHz and 902-928MHz radio frequency bands, addressing the need for both navigation and communication in modern devices.
While traditional radio antennas are whip-shaped and nearly 20cm in length, Harxon’s low-profile technology delivers the same functionality with a height of just 10mm. Additionally, Harxon offers custom tuning services to optimize integration into OEM modules.
Anti-Jamming GNSS Antenna
For the first time, Harxon has introduced its Anti-Jamming Antenna Series, starting with two models and more to follow.
These GNSS antennas are specifically engineered for environments with complex electromagnetic interference, high-power disturbances, and significant multipath effects, such as low-elevation angle interference, high-power noise, and radio communication system interference.
The PT023 model employs multiple array elements along with amplitude and phase adjustments to achieve spatial radiation shaping. It also includes advanced multi-level filtering for superior suppression of out-of-band noise.
The PT024 model features both vertical and horizontal two-dimensional polarization suppressors. These effectively reduce the reception of all odd and even LHCP and RHCP signals from the rear of the antenna, as well as low elevation multipath and out-of-band noise signals.
