Product Features

Designed for macro base stations, micro base stations, optical transceivers, long‑distance fiber‑optic transmission devices and data‑center switching equipment. These circuits deliver high‑frequency low‑loss signal transmission, high isolation and low crosstalk, operating stably from ‑40℃ to 85℃. With excellent lightning‑surge resistance and electromagnetic suppression, they support long‑term unattended outdoor and computer‑room operation, guaranteeing low‑latency, loss‑free and stable network signal output.

Technical & Technological Advantages

Adopt high‑precision high‑frequency layout to reduce signal attenuation and transmission crosstalk; strictly separate high‑speed signal, power and ground wiring to enhance electromagnetic compatibility; integrate lightning‑protection and surge‑suppression structures for outdoor environmental adaptability; optimize high‑density heat‑dissipation design to avoid performance degradation in densely deployed computer rooms; support mainstream optical‑communication protocols for large‑capacity data interconnection.

Application Scenarios

4G/5G wireless base stations provide full‑coverage mobile‑network signals; optical‑fiber communication systems realize long‑distance high‑speed data transmission; data‑center switches and servers undertake massive data forwarding and processing; dedicated communication power modules supply stable power for base stations and core computer rooms.

Production & Application Challenges

High‑speed high‑frequency circuits require ultra‑precision wiring and strict impedance control; outdoor base stations suffer from humidity, salt fog and ultraviolet‑ray erosion that accelerate component aging; communication systems demand ultra‑high stability, where single‑point faults may cause wide‑range network failures; strict industry certification standards lead to long verification cycles and high R&D costs.