Hughes AN6-098P installation manual If no signal is present

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6.After acquiring a signal, adjust the azimuth to obtain the highest signal quality.

7.Go to Peaking the signal (procedure) on page 66 and follow the instructions there.

If you cannot detect a signal Follow the steps in this section (steps 1 through 3 and/or steps 1 through 6) only if you cannot detect a signal.

If no signal is present:

1.Repeat steps 3 through 5 in Setting azimuth on page 64. (Adjust the reflector to about 18 inch to the right of the approximate azimuth.)

2.Keep moving the antenna reflector to the right a little at a time until you detect a signal.

3.If there is no signal, sweep back 1 8 inch at a time to the left until you detect a signal.

If you still cannot detect a signal, there may be an error. If there is no signal, perform the following quick checks.

1.Check the coaxial cable connections at the LNB, IDU, and all the connections in between.

2.Make sure there are no obstructions such as trees blocking the signal.

3.Make sure you recorded and properly set the azimuth, elevation, and polarization values.

4.Verify the azimuth setting by moving 15 ft in front of or behind the antenna and taking another compass reading. Metal near the compass, such as a car or even a belt buckle, can give a false reading.

5.Point the front of the antenna reflector to the left of the estimated bearing.

6.Go back to step 3 in Setting azimuth on page 64 and try again.

When you have acquired a signal and adjusted azimuth to obtain the highest signal quality, go to Peaking the signal (procedure) on page 66 and follow the instructions there.

Chapter 7 • Pointing the antenna 1037312-0001 Revision A

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Contents HN System Copyright 2007 Hughes Network Systems, LLC Types of warnings used in this manual Important safety informationSafety alert labels on the antenna assembly Antenna installation safety Important safety information 1037312-0001 Revision a Vii Viii Contents Chapter Assembling the antenna Chapter Pointing the antenna Xii Figures Xiv Tables Xvi Scope and audience Organization About this documentRelated publications Revision record Overview Hughes model AN6-098P .98 m satellite antenna with radio Model AN6-098P antennaConnect cables to the ODU Chapter Point the antenna Chapter Antenna installation summaryInstalling the antenna mount Tasks related to antenna installationSelecting the installation site DW60xx, and DW40xx Domestic Installations Overview 1037312-0001 Revision a Antenna parts and required tools Related components Antenna kit componentsAntenna kit Inspecting the antenna partsDescription of main components Antenna reflector The antenna reflector is shown in Figure Feed support tubes two types Feed horn and waveguide transition Radio assembly mounting adapter Type radio assembly Radio assembly typesSee Installing a shim for vertical transmit polarization on Cradle-like rotation of the cradle-type radio assembly Part Quantity Comments Small hardware parts listsPart Quantity Comments Tools Lists the tools required to install and point the antennaDetermining the pointing values Assembling the antennaGeneral instructions for assembling the antenna Side view Installing the Az/El and reflector bracket assemblyAz/El and reflector bracket assembly on the mast Attaching the reflector Reflector in correct position for installationMounting the reflector on the reflector bracket Attaching feed rods to the reflector Installing the feed support tubeReflector Support tube Securing the feed support tubeTightening nuts on feed rods and feed support tube Assembling the antenna 1037312-0001 Revision a Installing a J-type radio assembly Shim location next to Tria Installing a shim for vertical transmit polarizationRemove the horizontal shim and O-ring Direction of Tria rotation for vertical polarization Horizontal polarization Attaching the upper mounting bracket Installing the radio assemblyAttaching the feed horn and transition to the radio assembly Make sure the O-ring remains in the O-ring groove Securing the feed horn clamp arrow Mounting the radio assembly on the feed support tubeTighten the nuts Tighten the four bolts Installing a J-type radio assembly 1037312-0001 Revision a Installing a cradle-type radio assembly Attaching the feed horn Attaching the feed horn and radio assemblyRing in groove Tighten the bolts securely Calculating the radio polarization setting Setting polarization for the cradle-type radioRear circular bracket with polarization scale Setting the radio polarizationPrevious cabling work Cabling and connectionsRouting the cables at the ODU Transmit and receive cable configurationsGround connection Ground screw on J-type radio assembly arrowTransmit cable Connecting the transmit and receive cablesIf necessary, secure the cable with cable ties Receive connector J-type radio Pointing the antenna Antenna pointing overview OPI optional pointing tool OPI Zi m Adjusting the antennaPolarization lockdown Nuts Elevation scale Follow the instructions in the order they are presented Fine elevation adjustment Fine elevation adjustment Receive pointingPolarization adjustment on the antenna Azimuth adjustments on the antenna If no signal is present Peaking the signal procedure Manual ACP test Isolating the transmit signalPointing the antenna 1037312-0001 Revision a Final steps Check for safety labels and signsPointing the antenna 1037312-0001 Revision a Acronyms and abbreviations Acronyms and abbreviations 1037312-0001 Revision a Index Lower Index 1037312-0001 Revision a Index 1037312-0001 Revision a

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.

In terms of security, the Hughes AN6-098P employs robust encryption and secure protocols, essential for sensitive communications in military operations. This ensures that the transmission remains confidential and is safeguarded from potential eavesdropping or cyber threats. The system also supports interoperability with other communication systems, facilitating seamless integration within existing military infrastructures.

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.

Durability is another key aspect of the Hughes AN6-098P. Built to withstand harsh environmental conditions, including extreme temperatures and rugged terrain, this system can operate reliably in adverse situations. It is engineered to meet stringent military standards, ensuring that it performs consistently when it matters most.

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.