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Two-port 1710-2690MHz 14 dBi MINI Lens Antenna
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GUANGZHOU SIGTENNA TECHNOLOGY CO., LTD
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Established in
Domestic patents
Foreign patents
ADVANTAGE
The lens material in the antenna is made of artificial electromagnetic materials stacked in a large-scale 3D photonic crystal structure, which aggregates the low gain and wide beam electromagnetic wave signals of the antenna unit into high gain and narrow beam electromagnetic wave signals. This working principle is similar to the focusing principle of optical lenses, where electromagnetic waves pass through the lens material
High port isolation; The edge roll off of the directional pattern is steep, the horizontal sidelobes are low, and the interference between beams is small
Multi beam antenna for capacity scenarios, one lens antenna can split into multiple beams with a wider vertical wave width, which can improve capacity and coverage range.
TECHNICAL SERVICE
Technical principle
By utilizing artificial electromagnetic materials with large-scale 3D photonic crystal structures, low gain and wide beam electromagnetic wave signals from a single antenna unit are integrated into high gain and narrow beam electromagnetic wave signals. This working principle is similar to the focusing principle of optical lenses
Core Technology
Photonic crystal materials, cable free technology
Product customization
With years of experience in antenna research and production, we meet customer needs, solve customer problems, and provide highly customized product solutions
BLOG
Meteorological monitoring and forecasting serve as a vital foundation for maintaining social stability and supporting economic development. Various sectors—including daily transportation, agricultural production, transportation systems, and energy supply—all have high demands for precise meteorological information. As the core equipment in meteorological monitoring, the detection performance of weather radar directly determines the timeliness, accuracy, and comprehensiveness of meteorological data. The multi-beam antenna, a key component of next-generation weather radars, replaces traditional mechanical scanning with electronic scanning technology, enabling rapid and flexible beam control along with simultaneous multi-directional detection.
WiFi imaging technology operates on the multipath effect of wireless signal propagation. When WiFi signals propagate through environments, they interact with various objects through reflection, scattering, and diffraction, creating complex multipath propagation environments. These multipath signals carry rich environmental information including object positions, shapes, and material properties. By analyzing signal parameters such as amplitude, phase, and arrival time, WiFi imaging systems extract target-related feature information to ultimately reconstruct two-dimensional or three-dimensional images of objects.
25 Mar,2026
The practical application of the lens antenna of Guangzhou Sinan Technology Co., Ltd. (hereinafter referred to as "Guangzhou Sinan") in the 5G communication field focuses on three core innovation directions: solving the pain points of 5G and 5G-A network deployment, optimizing the adaptability of technical scenarios, and expanding the industrial application boundary.
IPV4 / IPV6