Setting azimuth With the elevation and polarization set to the initial values given by the installation software, follow these steps to set the antenna azimuth to the initial value specified by the installation software and then adjust it as necessary:

1.Use a compass to determine the azimuth bearing specified by the installation software.

2.Prepare to make azimuth adjustments as follows:

a.Fully loosen the three canister nuts shown in Figure 52.

b.Tighten the top nut only, just enough so you cannot rotate the Az/El assembly around the mast.

c.Loosen the top nut incrementally until you can rotate the Az/El assembly by holding and moving it.

Canister

Loosen these three nuts to rotate Az/El assembly and reflector from side to side.

View from behind reflector

Figure 52: Azimuth adjustments on the antenna

3.Stand behind the antenna, grasp the antenna reflector bracket (not the reflector), and rotate the antenna assembly about the mast until the reflector is pointed in the approximate azimuth heading.

4.Adjust the azimuth to the right about 18 inch.

5.Let go of the reflector bracket and count slowly to 5 while reading the signal strength value from the OPI or computer. You must allow the IDU enough time to track and register the signal strength.

Note: Make small adjustments (not more than 18 inch of azimuth as measured at the mast). Wait 5 sec between adjustments to give the IDU enough time to lock onto the satellite signal.

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Hughes AN6-098P installation manual Azimuth adjustments on the antenna

AN6-098P specifications

The Hughes AN6-098P is a sophisticated portable satellite communications terminal designed to provide high-capacity, secure, and reliable communication capabilities in various environments. This advanced system is an embodiment of cutting-edge technology, specifically catered for military and government use, ensuring that users can connect seamlessly, no matter the circumstances.

One of the standout features of the AN6-098P is its compact design. Weighing significantly less than traditional satellite systems, it can be easily transported and deployed in a matter of minutes. This portability does not compromise performance; rather, it enhances the system's versatility, allowing it to be utilized in remote locations, disaster recovery operations, and on-the-go military missions.

The AN6-098P incorporates advanced modulation technologies that ensure efficient bandwidth utilization. The system supports multiple frequency bands, including Ku-band and Ka-band, enabling it to connect to various satellites, each providing distinct advantages in terms of coverage and data rates. With high data throughput capabilities, users can transfer large volumes of data, stream high-definition video, or engage in high-speed internet browsing without interruptions.

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User-friendliness is a significant characteristic of the AN6-098P. Its intuitive interface allows users to quickly set up and manage connections, even in high-pressure situations. Training requirements for personnel are minimal, which is crucial for rapid deployment scenarios.

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In conclusion, the Hughes AN6-098P is a highly capable and innovative satellite communications terminal that marries portability, security, and high performance. Its state-of-the-art technology and versatile design make it an invaluable asset for military and government communication, ensuring that vital information can be shared anywhere and at any time.