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How to install and adjust the split microwave
The installation of a split microwave system is typically divided into two main sections: the indoor unit and the outdoor unit. While the indoor installation is similar to that of a standard box-type device, the focus is mainly on setting up the outdoor part. The outdoor installation primarily involves mounting the antenna and the Outdoor Unit (ODU). There are two common methods for this: the straight-button type and the separate type.
In a straight-button installation, there is no need for a coaxial feeder cable; the ODU is directly connected to the antenna. This method is often used in compact setups where space is limited. On the other hand, the separate installation uses a feeder cable to link the ODU with the antenna, offering more flexibility in positioning and signal routing.
When adjusting the antenna's elevation or azimuth, the goal is to find the position where the received signal voltage is at its peak. This point usually corresponds to the main lobe of the antenna's radiation pattern. Once this maximum voltage is located, there’s no need for major directional adjustments—just fine-tuning the antenna to precisely align it with the maximum signal strength.
The process of adjusting both the pitch (elevation) and level (azimuth) of the antenna is essentially the same. However, if the antennas at both ends are not aligned properly, you may only detect a small voltage in one direction. In such cases, it’s necessary to perform a coarse alignment first, roughly matching the positions of the antennas at each end before proceeding with fine-tuning. This ensures that the signal path is optimized and that the system operates efficiently.
Throughout the adjustment process, it's important to monitor the signal strength continuously. By making small, incremental changes and observing the voltage readings, you can achieve a stable and high-quality connection. Proper alignment not only improves signal quality but also reduces interference and enhances overall system performance.