Andrew OMACS3000 User Manual

11-APR-06

Rev E

OMACS3000

35 of 51

System Screens

Figure 26 shows the base satellite as 26498 / GALAXY 4R. If the operator wishes to track a different

satellite, he must select that satellite in the satellite table screen.

The tracking mode parameters that are modifiable from this screen are the scan cycle time, the scan cycle

level, the low signal level, the beacon offset value, and the downlink frequency. The scan cycle time is the

maximum time in minutes between step tracking cycles when either Step Track mode is selected or

SmarTrack® mode is selected and is in the process of building a model using step tracking. For highly

inclined satellites the scan cycle time value may need to be less than 15 minutes. A value of 15 minutes is

sufficient for most satellites. The scan cycle level is the maximum drop allowed in beacon level prior to

mandating a new step track cycle. The low signal level is the beacon level at which step tracking is

terminated because of loss of beacon. The beacon offset is the data value added to the computed beacon

level. The offset is most often used to normalize the beacon level to zero for a peaked beacon. The

downlink frequency is the frequency to which the beacon receiver is tuned to receive the satellite signal. The

downlink frequency and the antenna size are used to compute the antenna beamwidth. The antenna

beamwidth is then used to compute the step size used in peaking. The step size is computed as 15% of the

beamwidth.

Step Track will revert to Standby if there is no beacon level data or if the beacon level falls too low.

SmarTrack® will not be able to build a model if there is no beacon or if the beacon level falls too low. If

SmarTrack® has already built a model, it will continue to use the model when the beacon goes away or the

level falls too low. The SmarTrack® model stays valid for two days.

NORAD Track does not need beacon level data to track the selected satellite. However, it does need a

current NORAD two-line element data set in the satellite table. If no NORAD data has been entered into the

satellite table for the selected satellite or if the data in the satellite table is invalid, the system will revert to

Standby mode. INTELSAT Track needs current INTELSAT data in the satellite table for the selected satellite,

but it does not need valid beacon levels. The INTELSAT data will be validated before the system will switch

to INTELSAT Track mode. If valid INTELSAT data is not available the system will revert to Standby mode.

Tracking Summary

After the base satellite has been selected, the operator may select one of the following track modes:

Step Track

SmarTrack®

NORAD Track

INTELSAT Track

If Step Track mode is to be selected, the operator must place the antenna within 3 dB of the peak position

before activating Step Track. After Step Track has peaked the antenna, it is recommended the signal be

normalized to 0 dB. For example, if the signal indicates +10 dB, an offset of -10 dB should be entered into

the beacon offset parameter. The signal should normalize to 0 dB regardless of the tracking mode selected.

The Scan Cycle time sets the minimum time between Step Track movements. The Scan Cycle Level sets

the amount the signal can fall from the previous peaked level. When this level is reached Step Track

movements will start and the antenna is repeaked. The Low Signal Level set the threshold at which Step

Track is suspended. The Low Signal Level is used to keep the system from tracking on side lobes or on a

corrupted signal.

If SmarTrack® is selected the same procedure is followed as is used for Step Track. When starting

SmarTrack® for the first time the antenna will track the target the first six hours using Step Track. After six

hours the model of the satellite movement is complete and the antenna will follow the model generated by

the SmarTrack® algorithm. The model ready message will appear in the status box. Once a model is valid,

SmarTrack® will initiate a Step Track movement every 30 minutes to add a new point into the model. The

new points continually update and refine the model. After the model is valid and the signal is lost, the

ACS3000 will move the antenna along the calculated path, thus keeping the antenna pointed at the target. A