i
SAILOR 60 Satellite TV Antenna
INSTALLATION MANUAL
ii
SAILOR Satellite TV Antenna
Installation and maintenance manual
SAILOR 60 satellite TV antenna includingAbove Deck Unit TT-3054B and Antenna Control Unit TT-3057A
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Disclaimer:Disclaimer:Disclaimer:Disclaimer:Disclaimer:Any responsibility or liability for loss or damage in connection with the use of thisproduct and the accompanying documentation is disclaimed by Thrane & Thrane. Theinformation in this manual is provided for information purposes only, is subject tochange without notice and may contain errors or inaccuracies.
Manuals issued by Thrane & Thrane are periodically revised and updated. Anyonerelying on this information should acquire the most current version e.g. from theThrane & Thrane Extranet at http://extranet.thrane.com.
Thrane & Thrane is not responsible for the content or accuracy of any translations orreproductions, in whole or in part, of this manual from any other source.
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TTTTTable of Cable of Cable of Cable of Cable of CononononontttttenenenenentttttsssssChapter 1Chapter 1Chapter 1Chapter 1Chapter 1 GenerGenerGenerGenerGeneral al al al al inininininfffffororororormmmmmatatatatatiiiiiononononon
Satellite TV reception, general information, footprints ........................... 1
Chapter 2Chapter 2Chapter 2Chapter 2Chapter 2 Functional descriptionFunctional descriptionFunctional descriptionFunctional descriptionFunctional description
Description of operation ..................................................................... 6
Calibration ........................................................................................ 6
Satellite search ................................................................................. 6
Tracking ............................................................................................ 7
Satellite identification ........................................................................ 7
Polarisation control ........................................................................... 9
Chapter 3Chapter 3Chapter 3Chapter 3Chapter 3 InstallationInstallationInstallationInstallationInstallation
Antenna location .............................................................................. 10
Mounting ......................................................................................... 12
Connections ..................................................................................... 13
SAILOR 60 pedestal mounting ........................................................... 15
Radome cable wiring ........................................................................ 17
Control unit connection .................................................................... 20
Choice of tracking and ID-receiver signals .......................................... 21
Alignment of heading indicator .......................................................... 21
Obscured sectors ............................................................................. 22
Start-up procedure ......................................................................... 22
Chapter 4Chapter 4Chapter 4Chapter 4Chapter 4 OperOperOperOperOperatatatatatiiiiiononononon
Normal use .................................................................................... 23
Menus ............................................................................................ 23
Special functions ............................................................................. 23
vi
Table of Contents
Chapter 5Chapter 5Chapter 5Chapter 5Chapter 5 PPPPPCCCCC pr pr pr pr prooooogrgrgrgrgram, mam, mam, mam, mam, maaaaaininininintatatatataininininining NID-tableing NID-tableing NID-tableing NID-tableing NID-tablesssss
PC software installation .................................................................... 27
Main menu ...................................................................................... 31
Service menu .................................................................................. 32
Calibration menu ............................................................................. 33
Conical scan menu .......................................................................... 34
Log menu ....................................................................................... 34
Satellite menu................................................................................. 35
Satellite identification menu ............................................................. 36
NID-tables ...................................................................................... 37
Antenna program update .................................................................. 41
Chapter 6Chapter 6Chapter 6Chapter 6Chapter 6 SerSerSerSerServvvvviciciciciceeeee, mec, mec, mec, mec, mechhhhhanananananicicicicical dral dral dral dral draaaaawwwwwingingingingingsssss
Service and repair ........................................................................... 43
Replacing CPU................................................................................. 44
Replacing IMU ................................................................................ 45
Replacing LNB ................................................................................ 46
Replacing elevation motor belt ......................................................... 47
Replacing elevation motor ............................................................... 48
Replacing azimuth motor belt .......................................................... 49
Replacing azimuth motor ................................................................. 49
Replacing polarisation motor ........................................................... 50
Replacing polarisation motor belt ..................................................... 50
Replacing RG179 coaxial connectors .................................................. 51
Chapter 7Chapter 7Chapter 7Chapter 7Chapter 7 TTTTTrrrrroubleoubleoubleoubleoubleshootshootshootshootshootinginginginging
Error codes ..................................................................................... 52
Troubleshooting chart ...................................................................... 53
Chapter 8Chapter 8Chapter 8Chapter 8Chapter 8 TTTTTececececechnhnhnhnhnicicicicical specifal specifal specifal specifal specificicicicicatatatatatiiiiiononononon
SAILOR 60 satellite TV antenna ........................................................ 54
Chapter 9Chapter 9Chapter 9Chapter 9Chapter 9 Approvals ....................................................................................... 56
1
Chapter 1
Syst
em U
nitsGeneral information
Satellite TV reception, general information, footprints
Satellite orbitsAll TV-satellites move in so called geostationary orbit 36.000 km above theEarth's equator. At this specific altitude their angular velocity matches theEarth's exactly and make them appear motionless in the sky.When viewed from the northern hemisphere the satellites appear along an archwith the satellite due south at the top.The necessary separation between satellites depends on the frequency and thesize of the antennas and is usually 3°. A large number of satellites can be co-located in the same position as long asthey transmit on different frequencies.Co-located satellites are allowed todeviate 0,1 degrees within their position,which equals to a cube with a side of 73km. At position 19.2 deg East (Astra 1) forinstance, there are actually 5 satelliteswithin the same position.The satellites get their signals from anuplink station. The satellite thatreceives the signal shifts thefrequency down to about 10-12 GHz, amplifies it andtransmits it back towardsearth by what is calledtransponders. The satelliteselectrical power comes from solarpanels, and the satellite is kept inposition by small jet-motors masteredby ground-control. The actual life-spanof a satellite mainly depends on fuelleft for positioning jets.
2
Chapter 1: General information
Antenna and LNB
TranspondersTV-satellites that can be viewed with Satellite antennas transmit in the Ku frequencyband on frequencies between 10.700 and 12.750 MHz. Each satellite typically hasseveral transmitters or transponders that carry a number of digital TV and/or radiochannels.
Antenna and LNBWhen the signals reach the antenna they are focused by the dish and radiated intothe feedhorn and passed along to the LNB (Low Noise Block converter). The LNBamplifies the signals and transforms them to a lower frequency within the so-calledsatellite IF-band. Satellite receivers use the IF band which covers 950-2150 MHz(2300 MHz in some areas).
Since the Ku-band covers 2050 MHz and the IF-band only 1200 MHz, it is necessaryto divide the incoming signals into a high band and a low band with separate outputson the LNB. Low-band IF-signals are shifted 9750 MHz down and high-band IF-signals 10600 MHz down.
3
PolarisationIn order to increase the number of channels in each satellite slot the signals aretransmitted with different polarisation. Two kinds of polarisation are used in TVtransmissions: linear and circular.
Linearly polarised signals propagate with their wavefronts aligned either horizontallyor vertically. The receiving LNB can then separate the two polarisations if it is alignedproperly.
Circularly polarised signals propagate with their wavefronts rotating either clockwiseor counter-clockwise
The main advantage with linear polarisation over circular is that the isolation betweenthe two modes is better. The main advantage with circular polarisation is that thefeedhorn doesn't need to be aligned.
Chapter 1: General information
Polarisation
4
FootprintsThe satellite footprint is a map showing a satellite’s fieldstrength or EIRP(Effective Isotopic Radiated Power). It's not a real unit, but more a practicalmodel you can use when you graphically view the radiated area.Every satellite has it's own footprint, and by consulting the footprints and theconversion table you can estimate the antenna size needed.One satellite can transmit several beams, where every beam has it's ownfootprint and content regarding channels and service providers.For updated information regarding footprints, frequencies, service providers etc.we recommend you to consult websites such as www.lyngsat.com,www.satbeam.com or www.kingofsat.net.
Below you can see a few typical footprints Anik F1R (W107,3), Astra 1H (E28,2)and NSS6 (E95,0)
Chapter 1: General information
Footprints
Anik F1R Ku bandEIRP(dBW)>50504948474645444342414039383736353433
5Footprints
Astra 1H
NSS 6 Ku bandEIRP(dBW)>50504948474645444342414039383736353433
6
Functional descriptionDescription of operation
After power-up, the antenna performs a self-test and calibration lasting up to fiveminutes. It then enters search mode and starts searching for a satellite. The antennaautomatically calculates the elevation of the selected satellite using a built-in GPS-receiver to determine the current position1.After locking on a satellite, the ID-receiver attempts to identify it and repositions theantenna if necessary. Polarisation is adjusted automatically when a satellite isidentified.For a more detailed explanation a satellite identification see sections satellite ID andsatellite ID menu
CalibrationPolarotor turns to counter clockwise mechanical end stop (seen from behind)Elevation goes down to mechanical end stopAzimuth turns to counter clockwise mechanical end stopElevation goes up then down (test of elevation gyro)Azimuth goes clockwise-counter clockwise (test of azimuth gyro)Elevation goes up to 90 degrees (test of inclinometer)Antenna makes a 45 degree clockwise sweepAntenna makes a counter clockwise noise sample sweep
After this it goes into search mode, trying to locate a satellite
Satellite searchTwo search patterns are used. The large pattern is used when no information is knownabout the satellite positions. The antenna then moves in full circles at differentelevation angles. The small pattern is used to reacquire a satellite after loss oftracking.If the default tracking mode (Auto) is set in the SatID-menu then the search is madewith a signal detector that receives signals from a selectable part of the satellite IF-band.
Chapter 2Fu
nctio
nal d
escr
iptio
n
1 If the antenna has been switched off for a long time, the GPS-receiver may takeup to 20 minutes to initiate. It may then be necessary to enter the ship's positionmanually in the service menu.
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In some circumstances it can be useful to carry out thesearch using the tuner - the Tuner Tracking Mode.The antenna will then only lock on a satellitetransmitting a DVB-S signal on the preset frequencywith a certain symbol rate and FEC. These settings areavailable from the PC-program only.
TrackingWhen the signal level exceeds the threshold level during a search, tracking isinitiated. The antenna then uses a combination of gyroscopes and dish scan to keepit pointed at the satellite.
The dish scan continuously rotates the antenna in a small angle around its aimingpoint to correct for gyroscope drift. The signal is monitored either with a tuner set toa specific frequency or with a signal detector via a bandpass filter. See sectionTracking mode
Signals from two of the four LNB outputs are tapped off and one fed to the tuner andthe other to the detector. Vertical low is the default LNB output for the detector andhorizontal high for the SatID.
Satellite identificationAfter locking on a satellite the ID-receiver attempts to identify it by matching thetransponder's network identifier code or NID with the antenna's internal list.If the identified satellite is another one than selected, the correct position iscalculated and the antenna automatically repositioned. When a correct match ismade, "Confirmed" is written after the satellite name in the display.Please see section Network IDs.
If the satellite remains unidentified, the antenna tries to acquire anothersatellite.
Chapter 2: Functional description
Satellite identification
8 Satellite identification
After identification polarisation is adjusted to match the satellite.The angles are calculated based on the ship's position and the satellite's longitudeassuming a 0° angle in locations on the same longitude. Compensation forship´s movements is also performed continuously.As some satellite’s polarisation is offset, a provision is made to fine-tune it in the SatIDmenu of the PC-program.
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Polarisation controlDuring initial NID-scanning, polarisation is set to 0°. If no identification is made, scansare executed on -15° and 15° as well.
If the satellite remains unidentified, the antenna tries to acquire another satellite.
Chapter 2: Functional description
Polarisation control
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Chapter 3In
stal
latio
n
Installation
Antenna locationChoose a location that has an unhindered view of the satellite at the point of lowestelevation. Ideally, a location should be chosen as close to the vessel's centre aspossible while keeping cable lengths to a minimum.If the antenna is placed on a pedestal, care must be taken that it does not flexor vibrate.
The satellite TV antenna's LNB is equipped with a radar filter but to avoid damageto the LNB it is strongly advised that it should not be placed in the path of a radar beam.
It must not be placed in the path of a VSAT antenna.
Installation
R S®
Obstacle
BOW
NOTE! VERY IMPORTANT
STERN
Drainage tube,shall be mounted facing rearend of ship/vessel (stern).
11Installation
Radar
It is difficult to give exact guidelines for the minimum distance between a radar andthe antenna because radar power, radiation pattern, frequency and pulse length/shape vary from radar to radar. Further, the antenna is typically placed in the nearfield of the radar antenna and reflections from masts, decks and other items in thevicinity of the radar are different from ship to ship.
However, it is possible to give a few guidelines:Since a radar radiates a fan beam with horizontal beam width of a few degrees andvertical beam width of up to +/- 15o, the worst interference can be avoid by mountingthe satellite TV antenna at a different level - meaning that the antenna is installedminimum 20o above or below the radar antenna. Due to near field effects the benefitof this vertical separation could be reduced at short distance (below approx. 10 m)between radar antenna and satellite TV antenna. Therefore it is recommended toensure as much vertical separation as possible when the satellite TV antenna hasto be placed close to a radar antenna.
SAILOR®
SAILOR®
The satellite TV antenna must be mounted as far away as possible from ship’sradar and high power radio transmitters (including Inmarsat based systems),because they may compromise the antenna performance. RF emission from radarsmight actually damage the satellite TV antenna.
Preferred placing
Avoid if possible
Min 20o
d
Min 20o
Chapter 3: Installation
12 Installation
MountingRigid mounting is essential for proper function and parts of the vessel subject to heavyresonant vibrations are unsuitable for satellite TV antenna installation.If pedestals higher than 1 m are used utmost care must be taken to ensure rigidity andthat the natural frequency of the pedestal/satellite TV antenna is as high as possible.Mounting bolts should be tightened with a torque of 20 Nm, and medium or permanentstrength thread-locking fluid applied.
The minimum acceptable seperation (d min.) between a radar and the satellite TVantenna is determined by the radar wavelength/frequency and the power emitted bythe radar. The tables below show some “rule of thumb” minimum separationdistances as a function of radar power at X and S band. If the d min. separation listedbelow is applied, antenna damage is normaly avoided. “d min.” is defined as theshortest distance between the radar antenna (in any position) and the surface of thesatellite TV antenna.
Radar distance
Compass Safe DistanceCompass Safe DistanceCompass Safe DistanceCompass Safe DistanceCompass Safe Distance: 1 m
Chapter 3: Installation
13
ConnectionsThree kinds of electrical connections are to be made during installation:
1. Power supply 24 V DC, min 5 A, 2 poles. Use prefabricated 25m cable enclosedin this antenna packaging (se pic 1 below).
2. Control unit, 7 poles + shield, use prefabricated 25m cable (se pic2 below).3. Four coaxial cables, cables to be marked with ”1”, ”2”, ”3” and ”4”
Chapter 3: Installation
SAILOR 60 pedestal mounting
picture 1
picture 2
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Chapter 3: Installation
SAILOR 60 pedestal mounting
F-splicer socket
Vulcanizing tape
Crimp F-connector for 7 mm coax typeTELASS 110: (KTV 1.1/4.9 CV)Crimp F-connector for 10 mm coax type RG11 or75160AF: B004, PPC-Denmark
Cable splicing
For installtions 25 metres and below between satellite TV antenna and satellitereceiver a thinner type of 7 mm:s low loss cable can be used.For example TELASS 100 or TELASS 110 (KTV1 1/4.9 CV).For more information regarding these cables please visitwww.coferro.dkwww.bedea.com/pdf/breitband/BK2004_18%2B19
For installations exceeding 25 metres between satellite TV antenna and receivera thicker low loss cable must be used.For example 75160AF or Coax 6. For more information regarding this typeof cable please visit www.belden.com
NOTE: Maximum loss between satellite TV antenna and SAT-receiver 15 dB
15
SAILOR 60 deck mounted pedestal exampleSatellite TV antenna weight including radome: 49 kg
SAILOR 60 pedestal mounting
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16
SAILOR 60 deck mounted pedestal example
SAILOR 60 pedestal mounting
O 11.0 (4x)
O 100
200.
0
200.0
45o Reinforcement(8x)
VERY IMPORTANTThe satellite TV antenna must be mounted on the pedestal using
and thread locking fluid applied.The length of the bolts must be such that they engage into the bushings of theradome with minimum 10 mm and maximum 15 mm.
all 4M10x20 hex bolts
Radomemont-60-1-A5.CDR
17
Radome cable wiring
Chapter 3: Installation
Radome cable wiring
Filterboxpower supply
Shield connection
Female F-connector bulkhead jack
Power supplyconnector
ACUconnector
18
Chapter 3: Installation
Radome cable wiring
Radome cable wiring
Drainage tube
StainlessSelf tappingscrews (4x)12x3.5 mm
1VH
2VL
3HL
4HH
123
4
Multi switch (option)Sat recieverSat reciever
Sat recieverSat reciever
19
Cable fixingCables shall be fixated with 2 pcs of 368x5 mm cable tie
Use only prescribed tools to strip andcrimp coax cable with F-connector.
TELASS KTV 1.1/4.9 CV
TELASS KTV 1.1/4.9 CV
TELASS KTV 1.1/4.9 CV
7 mm 1 mm
F-connector crimp 1.1/4.9 F-female
Use enclosed shrinking tubewith glue to make awaterproof connection
Use die cast .319” size to crimp
Chapter 3: Installation
Radome cable wiring
20
Chapter 3: Installation
Control unit connection
Control unit connectionControl unit can be mounted with M3 screws after removing rubber pads.Screws should not extend more than 6 mm inside chassis.
See next page forcable specification
200208
O4.5
61.569.5 44
163
Fixed mounting of control unitBottom view
164.5
105.
0
M3 (4x)
PowerFuse
T160 mAL
Antenna
Rear panel on control unit
8-pinNOTE! Secure all cables
inside pedestal
24V DC
25m25m
To PSU powersupply +24V DC
To Control unitPLT
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Choice of tracking and ID-receiver signalsThe default connections are horizontal high (HH) to the ID-receiver and vertical low(VL) to the signal detector. The signal detector can be connected to any LNB outputhowever (as long as it's not used by the ID-receiver). Another output than the defaultcan be used to increase the signal-to-noise ratio on a specific satellite.
If the output for the ID-receiver is changed, a corresponding NID-table must beloaded. See section Satellite identification
Alignment of heading indicatorIf the satellite TV antenna is aligned with the ship's bow direction in the CCW end-stop, the heading indicator's offset is zero.If the antenna is positioned otherwise, the offset can be entered in the service menu.See section Service menu
Chapter 3: Installation
Alignment of heading indicator
PLT
25 metres
25 metres
Shield/black shrink tube
M12 connector IP678x0.25mmBinder male cableNo: 79 5066 xxx 08
2
M12 connector IP674x0.34mmBinder male cableNo: 79 5401 xxx 04
2
Pinout
Pinout
a (+24V DC)1 (R422-)4 (T422-)6 (T422+)7 (R422+)3 (GND com)2 (GND 24V)5 (NC)Chassi
1234Chassi
RedWhiteYellowPinkBlueGreenBrownGreyShield
Brown, +24 VNCBlue, GNDNCShield
2 2
+
“ Cable CPU - ACU”
“ Cable power supply”
Pinout12345678
RedBrownPinkYellowGreenBlueWhiteGrey
+24 VGND 24VT422+T422-GNDR422+R422-NC
2
34
1
Red
Brown (+)
Black Blue (GND)
White
Front view
7
1 2
a
5
3
6
Grey
YellowGreen
Brown
PinkBlueWhite
4
NOTE: View front side
22
Obscured sectorsA fixed object that obscures the satellite TV antenna not only precludes reception butcan also cause strong reflections. To prevent the satellite TV antenna from lockingon such signals, obscured sectors can be programmed in the calibration section ofthe service menu. See chapter 5.
Start-up procedure1. If a satellite list with NID-codes is not preinstalled, see section 5.2. Power up and choose a satellite from the list.3. If GPS is not yet active, set position. SERVICE SERVICE SERVICE SERVICE SERVICE ⇒⇒⇒⇒⇒ SET POSITION SET POSITION SET POSITION SET POSITION SET POSITION4. After calibration, place satellite TV antenna in manual mode, rotate at different
elevations, and adjust tracking threshold to ensure that the antennadoesn´t lock on reflections from metal structures. SERVICE SERVICE SERVICE SERVICE SERVICE ⇒⇒⇒⇒⇒ THRESHOLD THRESHOLD THRESHOLD THRESHOLD THRESHOLD
5. Return to automatic mode.6. If the satellite TV antenna can't maintain tracking, perform a reset.
SERVICE SERVICE SERVICE SERVICE SERVICE ⇒⇒⇒⇒⇒ RESET RESET RESET RESET RESET
Chapter 3: Installation
23
Operation
Normal useIn normal operation, choosing a satellite is theonly required action.
When the satellite TV antenna has locked, themessage "Tracking" is displayed and when thesatellite is identified "Confirmed" is shown.
If the option "Adjacent ID" is activated the message"Confirmed ?" appears if the antenna is unableto positively identify the chosen satellite.
MenusThe default menu displays a pointing errorindicator, mode of operation, signal strength andchosen satellite.
To enter the main menu, press ENTER andnavigate using the arrow keys.
Special functions
Manual/AutoAllows manual control.
Oper
atio
n
Hotbird E13.O Confirmed
15 dB
Tracking
Chapter 4
24
PolarizationAllows manual polarisation control.
SatIDSwitching OFF the satellite identification functionallows locking on satellites that do not transmitNetwork Identification (NID) code.
Adjacent IDAllows the satellte TV antenna to identify asatellite that does not transmit a readable NIDcode by identifying a neighbouring satellite andcalculating the angle between it and the selectedsatellite. If the function is switched OFF an NIDis required. Default is off.
Set positionPosition can be entered manually if the GPSreceiver is inoperable.
ResetActivating the reset function causes the antennato recalibrate gyroscopes and commence a newsatellite search.
Set thresholdSets the signal level needed to initiate trackingof a satellite. A larger value may be needed tokeep the satellite TV antenna from tracking onreflections from different metal structures and asmaller to track a weak satellite.
S E T T H R E S H O L D
Threshold: dB5
Chapter 4: Operation
Special functions
25
PC-overrideMakes the USB of the control unit transparent forcommunication directly between the satellite TVantenna and a PC.
Display contrastAllows adjustment of the control-unit displaycontrast.
StatusDisplays status codes for service purposes.
RegulatorAllows control of the tracking regulatoramplification. Three settings, LOW/NORM/HIGH,are possible in both elevation and azimuth. AHIGH setting causes the satellite TV antenna toreact more aggressively to tracking errors butmay cause over-compensation.A LOW setting makes the antenna move moresmoothly but may cause a pointing error.
Chapter 4: Operation
Special functions
Program updateAllows the operator to upload new software tothe satellite TV antenna via the USB-interfaceusing a terminal program on the PC. For moredetailed information regarding theconfiguration and settings of the terminalprogram, see “Antenna program update”section in chapter 5.
26
Overview of control unit commands
Chapter 4: Operation
Overview of control unit commands
CHOOSE SATELLITE
MANUAL/AUTO
POLARIZATION
SATID
SERVICE
ASTRA-2 E28.2ASTRA-1 E19.2HOTBIRD E13.0
. .
. .
AUTO MANUAL
AUTO MANUAL
ON OFF
SET POSITION
RESET
SET THRESHOLD
PC OVERRIDE
DISPLAY CONTRAST
STATUS
ADJACENT LOCK ON OFF
N55 E013
05
10
REGULATOR
PROGRAM UPDATEWARNING!
AUTHORIZEDPERSONNEL ONLY
ELEV AZIM
LOW LOWNORM NORMHIGH HIGH
NO YES
27
PC p
rogr
am,
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ning
NID
tabl
esPC program, maintaining NID-tablesPC software installation
Insert CD - installation should start automatically. If not, run file "SatTV-ver.1.6.2.EXE".Default installation folder is C:\Program\Satellite TVInstall USB drivers by "clicking" on shortcut "SatelliteTV-USB driver" located on PCdesktop.The USB driver for the SAILOR Satellite TV system is a standard USB Driver from SiliconLaboratories Inc.After the installation of the USB driver is finished connect the USB port of the SAILORSatellite TV ACU to the USB port of the PC. Now investigate which COM port the ACUhas been allocated by MS Windows OS. This is done by going to: CONTROL PANEL- HARDWARE - DEVICE MANAGER and expand Ports (COM & LPT). See figure 1 below.
Chapter 5
Figure 1: USB Driver in Device ManagerOn figure 1 above it can be seen that the driver was installed to use COM20.
The Satellite TV PC program only supports COM ports up to COM16. If the USB driverhas chosen a COM port above COM16 it has to be changed to an unused COM portnumber below COM17. Otherwise just skip this part.Change the COM port number by Double-Clicking the Silicon Labs driver shown infigure 1 above and the window in figure 2 will appear:
Changing COM port for the USB Driver
PC software Installation
28 PC software Installation
Figure 2: USB Driver PropertiesNow click the pane Port Settings and window will look like figure 3 below.
Figure 3: USB Driver Port SettingsNow click the Advanced button to show the window in figure 4 below.
29PC software Installation
The SatTV configuration file
Figure 4: Advanced Settings for COM20Change the COM Port Number to an unused COM port below COM17.
Configure the port number in the file "SatTV.ini" located in the default directoryC:\Program\Satellite TV or the directory chosen for the installation to correspond tothe USB-port allocated to the USB driver. See figure 5 below:
[Serial]Port=1
[Controls]UserMode=1
[Month]CurrrentMonth=1
Figure 5: SatTV.ini fileIn addition to the COM port number, the configuration file "SatTV.ini" contains a settingcalled UserMode. When set to "0" some calibration features are disabled. It isrecommended that UserMode is set to "0" after satellite TV antenna installation.Save the ini-file with the new setting.Switch on the SAILOR Satellite TV Antenna Control Unit (ACU) and use the keys onthe front to set the ACU in PC Override mode. This is done by pressing OK button toenter the Main Menu, scroll down and select Service Menu and then select PCOverride. PC Override simply connects the USB interface on the ACU to the RS-422connection to the ADU.
30 PC software Installation
Start the SatTV PC Program. If the COM port and USB driver is configured correctlythe SatTV PC Program should show a screen similar to the one in figure 6 below.
Figure 6: SatTV PC Program
The SatTV PC Program is now ready to be used to configure the SAILOR Satellite TVantenna with new satellite lists etc.
31
Main menuThe main menu displays general information about the system such as signalstrength, pointing error and elevation. Some functions i.e. manual control areavailable from other menus as well.
1. Antenna elevation.2. Status window.3. Obscured sectors.4. Antenna heading indicator.5. Ship’s heading indicator. Active only after satellite has been identified.6. Satellite indicator. Active only after a satellite has been identified.7. Tracking error.8. Tracking threshold.9. Signal strength in dB above noise level.10. Polarization control.
1 2 9 105 76 83 4
Chapter 5: PC program, maintaining NID-tables
Main menu
3
32
Service menuThe service menu contains settings for calibration and setup. Some factory settingsare available only if ”User mode” is set to 1.
1. Load/save settings from/to PC.2. Restart antenna.3. Terminal window and program update.4. Ship's position.5. Tracking regulator settings.6. Tracking threshold.7. Filter mode band selector, H, M or L.8. Angle between bow and the antenna’s CCW end stop. This value affects
indicator only.9. Signal strength in dB above noise level.10. Tracking error.11. LNB offset. Difference between mechanical and electrical angle.
User mode 1User mode 1User mode 1User mode 1User mode 112. IMU calibration and obscured sectors.13. Polarization control.
Chapter 5: PC program, maintaining NID-tables
Service menu
1 2 3 65 74 9 128 10 11 13
33
Chapter 5: PC program, maintaining NID-tables
Calibration menu
Calibration menu
The calibration panel contains factory settings for the Inertial Measurement Unit.A recalibration should be performed only if the IMU is replaced.Up to three zones can be defined in the obscured sectors panel.
34
Conical scan menuThe conical scan menu displays the same tracking error indicator as in the main- andservice menus, but traces are maintained for diagnostic purposes.
Log menuThe log records the operations of the antenna such as tracking, unwinding andcalibrating. Data is recorded only when a PC is docked to the control unit.
Chapter 5: PC program, maintaining NID-tables
Log menu
35
Satellite menuThe satellite menu contains a list of available satellites with their elevations andazimuth angles. Elevations and angles for a different position can be calculated byentering it in the field "Calculate this position". The list is not editable, see sectionSatellite identification menu
Chapter 5: PC program, maintaining NID-tables
Satellite menu
36
Satellite identification menuThe satellite identification menu is where the satellite list is edited. New satellitescan be added by entering a name and orbital position. The satellite can then bescanned for NID-codes and corresponding frequencies, see below.Tracking mode is selected for each satellite.
1. Satellite name.2. Orbital position.3. Polarization offset.4. Trackable satellites.
This box should be checked ifthe satellite is within range.
5. Satellite selection. Check markedsatellites are made available in thesatellite list.
6. Tracking mode.7. Transponder frequency in MHz.
8. LNB oscillator frequency in MHz.9. Symbol rate.10. FEC, forward error correction.11. Network identification code.12. Scan selected satellites for
NID’s.13. Scan for new satellites. Use
only at standstill.14. Edit larger satellite and
transponder files.
Chapter 5: PC program, maintaining NID-tables
Satellite identification menu
107 98 11 12 136 1421 4 53
37
Tracking modesEach satellite can be assigned a single letter code for tracking mode.
Filter Mode (F)If the selected satellite is marked F in the NID-table, signal detection is made witha level detector sensitive for signals in the low/mid/high part of the IF-band. Defaultis mid-band but the setting can be changed in the tracking section of the service menu.This mode should only be used in special circumstances e.g. if a particular satellitedoes not have any transponders in the frequency band connected to the tuner input.
Tuner Mode (T)In mode T, the built-in satellite tuner is used for level detection. The tuner only lockson to signals with the correct frequency, symbol rate and FEC and is suitable if theNID table contains only one or very few satellites.
Auto Mode (A)In mode A, the Filter Mode is used during satellite searches and Tuner Mode fortracking. Provided that the NID-list contains most of the trackable satellites, this isthe preferred mode.
NID-tablesThe network identifier or NID-code is a number between 1 and 65535 embedded inthe digital data stream. Each transponder has an NID assigned to the networkprovider.The satellite TV antenna uses the NID in combination with symbol rate, frequency andFEC (Forward Error Correction) to identify satellites.
Ideally all satellites in the antenna's range should be identifiable to keep search timesto a minimum.
Keeping a database of all the world's satellites is possible but unpractical as scanningtimes would be very long. It is therefore useful to limit the number of satellites to thosethat are within range, either by using satellite lists specific to a geographical areaor by selecting appropriate satellites in the SatID menu i.e. check marking "In View".
As many satellites have beams directed at different areas, it is possible to enterseveral codes and frequencies per satellite. Using a large number increases the
Chapter 5: PC program, maintaining NID-tables
NID-tables
38
probability of a correct identification under difficult reception conditions but prolongsthe scanning time as well. It is recommended to limit the number of frequencies/NID'sto 5 per satellite.
Scanning a satellite for NID-codesAltering the satellite list can be done either by loading a new file or editing the existingin the SatID menu.
If the ID receiver is connected to a low-band LNB-output, set LNB frequency to 9750MHz. If it is connected to a high-band output, set LNB frequency to 10600 MHz.
Enter a new satellite by typing name and longitude in the fields below the satellitelist. Check "In view", "Usable" and select tracking mode "A", click "New".Select the satellite by clicking on its name and enter frequencies, symbol rates andNID's in the same manner. If no NID's are known, the satellite can be scanned asfollows:
Chapter 5: PC program, maintaining NID-tables
NID-tables
39
1. Disable the SatID function in the SatID menu.2. Select the satellite in the satellite menu and lock on it manually.3. Return to the SatID menu and click "Scan Sat".4. When scan is completed, select frequencies to be used and click "Add".5. Enable SatID again.
To assist in frequency selection the BER or bit error rate is displayed in the list. A lowervalue indicates a better signal. A BER of 1E-2 (0.01) or higher is poor and a BER of1E-3 (0.001) or lower is very good.
In most cases it is best to limit the satellite search to transponders with a symbol rategreater than 15 Msymb/s. A rate setting down to 3 Msymb/s is possible but scans willbecome slower with decreasing rates.
Satellite list editingAdditions and deletions in the satellite- and transponder list can be madedirectly in the SatID-menu. To facilitate editing of larger files an editing tool canbe accessed from the "Edit Satfile" button.
Chapter 5: PC program, maintaining NID-tables
NID-tables
40
Scan-all functionA search of the entire sky for satellites can be made using the "Scan All" function.A provision for its use is that the satellite TV antenna can track one satellite usingfilter mode and that it can be identified. The ship also has to be at standstill duringthe scan.Upon activation the satellite TV antenna first scans the original satellite for NID's andthen automatically proceeds to search for other satellites. When the scan is completedthe resulting file can be saved and edited using the editing function.
Chapter 5: PC program, maintaining NID-tables
NID-tables
41
Antenna program update
Upload new software by clicking the ”Terminal” button in the service menu.Activate the ”Program Update” function in the ACU service menu and switch poweroff and on again.Select file and click ”Program”A command line interface allows specialized diagnostics.
Chapter 5: PC program, program update
Program update
42
Chapter 5: PC program, program update
Program update
43
SerSerSerSerServvvvvicicicicice and re and re and re and re and repepepepepaaaaaiririririrIntroductionIntroductionIntroductionIntroductionIntroduction
ElectricalElectricalElectricalElectricalElectricalCheck all external cables for wearCheck for corrosion of coaxial connectors
MechanicalMechanicalMechanicalMechanicalMechanicalCheck screw tension ofCheck screw tension ofCheck screw tension ofCheck screw tension ofCheck screw tension of (tighten if necessary)CPU/motordriver boxBase plateMotor mountsSubreflectorBelt pulleysLNBElevation armAzimuth bearing nut
Check belt tension Check belt tension Check belt tension Check belt tension Check belt tension (tighten if necessary)For correct tightening of bolts and timing belts please consult section 6.0 in this manual.We do not recommend repairing the antenna control unit on board the ship. Replace thedefective unit and have it repaired at a qualified workshop on shore.Some of the modules in the SAILOR 60 satellite TV antenna can be replaced. See list below
Order no.CPU/steppermotor unit See Thrane&Thrane Extranet EshopIMU See Thrane&Thrane Extranet EshopLNB See Thrane&Thrane Extranet EshopAzimuth motor See Thrane&Thrane Extranet EshopAntenna control unit ACU See Thrane&Thrane Extranet EshopElevation motor SAILOR 60 See Thrane&Thrane Extranet EshopPolarotor motor See Thrane&Thrane Extranet Eshop
For more detailed information see chapter 6.0 in this manual.
The SAILOR 60 satellite TV antenna systems are designed to operate without preventiveroutine maintenance.
Although the system is designed and built very service friendly, we strongly recommendthat any acting service technician is trained specifically on the product. Repair or repairattempts performed by unqualified personnel may limit the warranty. The warranty on thesystem is defined and outlined by the distributor that supplied the system. For furtherinformation and downloading of manuals, you may also use the Thrane & Thrane Extranetat http://extranet.thrane.com. We recommend that your distributor who made the installa-tion makes annual checks of below items.
Serv
ice,
mec
hani
cal d
raw
ings
Chapter 6
Service and repair
44
Service, mechanical drawingsMedium strength thread-locking fluid should be applied on all screws andbolts that are not mounted with nylon locking nuts.
Replacing CPU1. Save satellite list from the SatID menu and operational settings from the
service menu.2. Disconnect cables and replace unit.3. Reload the satellite list and settings
Signal out from detector
GPS
Signal in from LNB
+ 24 V DC in
PLT-connector
CPU
Z1 Z2 Z3 Z4 Z5Elevation
AzimuthPolarrotor
Control unitIMU
HH
VH
HL
VL
Sat receiver
Cable marking
Det.
SatID
1
HL HH VL VH
4 3 2
4
22 143
3
1
Chapter 6: Service, mechanical drawings
Replacing CPU
45
Replacing IMU1. Disconnect cable and remove
lid.2. Unscrew the hexagonal socket
bolts and replace unit.3. Calibrate the new unit as per
enclosed instructions.
Chapter 6: Service, mechanical drawings
Replacing IMU
Antennas with program version 6.61 and higher can be fitted with IMU type 250.919(black label) or type 250.927 (red label). It is criticalcriticalcriticalcriticalcritical that the PCB-connector ispositioned as pictured below or the IMU will be permanently damaged.
No: 250927
IMUInertial measurement unit
XY
Z
NavSat
Naval no: 250.919
Inclinometer/gyroscope
XY
Z
46
Chapter 6: Service, mechanical drawings
Replacing LNB
*
* Medium strength thread locking fluid
*
* Low strength thread locking fluid
*
6. Unscrew LNB mountingscrews (F) and replace. Makesure the O-ring is in place.
7. Mount the LNB and bottom partof feedhorn with connectorspointing to the motor.
8. Press LNB firmly and mountlocking-ring.
9. Mount subreflector and outerpart of feed horn.
10. Tighten belt as shown inbelttension figure and tightenscrews.
11. Connect cables.
Replacing LNB1. Note the four cables (B)
mounting order and disconnect.Remove cable tie (A).
2. Loosen motor mounting platescrews (D).
3. Remove sub-reflector and outerpart of feed horn.
4. Remove locking-ring (E) onfeedhorn.
5. Pull out LNB and bottom part offeedhorn.
47
Replacing elevation motor belt1. Loosen motor screws.2. Remove belt from guide pulley
and replace.3. Tighten belt as shown in belt
tension figure and tightenscrews.
Chapter 6: Service, mechanical drawings
Replacing elevation motor belt
48
1. Disconnect cable.2. Open cable holder and remove
cable.3. Remove motor screws and
replace motor.4. Tighten belt as shown in belt
tension figure and tightenscrews.
5. Reconnect motor and snapcable into toroid plastic cover.
6. Strap cable.
Replacing elevation motor
Replacing elevation motor
Min 150 HzMax 170 HzMin 240 Hz
Max 280 Hz
Min 120 HzMax 150 Hz
Elevation beltAzimuth beltPolarotor belt
Belt tension
Acoustic belt tensionerThe appliance is immediately ready for data collection as soon as itis switched on. After the tensioned belt has been made to vibrate,either by striking it with a finger or other object, the sensor head isto be positioned above the belt that is to be measured.
Chapter 6: Service, mechanical drawings
49
Replacing azimuth motor belt1. Remove inner mounting bolts.2. Cut away old belt.3. Loosen belt tensioner.4. Loosen mounting bolts ”A”.5. Slide belt under bottom plate
and on to pulleys.
Replacing azimuth motor1. Remove inner mounting bolts.2. Disconnect cable from cable
holder and CPU-box.3. Loosen belt tensioner.4. Remove screws marked ”A”
and motor screws and replacemotor.
5. Tighten belt as shown inbelt tension figure, and tightenscrews.
6. Reconnect motor and strapcable.
Chapter 6: Service, mechanical drawings
Replacing azimuth motor
Inner mounting bolts (4x) inside radome should be tightened with a torque of not morethan 14 Nm in order to avoid damage on the radome. Tightening these bolts are notnecessary in a normal installation.
Inner mountingbolts through here (4x)
* Medium strength thread locking fluid
*
6. Tighten belt as shown inbelt tension figure, and tightenscrews.
7. Tighten inner mounting boltswith a torque of 14 Nm. A highertorque can damage the radome.
”A”(4x)Shim washerRB5.3X10.0X1.0
Shim washerRB5.3X10.0X1.0
50
Replacing polarization motor belt1. Loosen motor mounting plate
screws.2. Replace belt.3. Tighten belt as shown in belt
tension figure and tightenscrews.
Replacing polarization motor1. Disconnect cable from cable
holder and CPU-box.2. Loosen motor mounting plate
screws.3. Remove motor mounting
screws and replace motor.4. Tighten belt as shown in belt
tension figure and tightenscrews.
5. Reconnect motor and strapcable.
Chapter 6: Service, mechanical drawings
Replacing polarization motor
51
Chapter 6: Service, mechanical drawings
2. Strip cable.3. Solder centre pin.4. Slide the connector body under the shield.5. Slide the crimp ferrule over the shield.6. Crimp with a 3.25 mm (0.128 inch) crimp die.
Replacing RG179 coaxial connectors1. Slide crimp ferrule onto cable.
Replacing RG179 coaxial connectors
52
Troubleshooting
Error codesIn the control unit, error codes are presented as a four-digit hexadecimal numberrepresenting up to 11 fault conditions. I.e. 0070 = failure of all gyroscopes (codes 0010+ 0020 + 0040).
The error codes are also displayed in the PC-program service menu.
0001 Elevation motor failure0002 Elevation motor failure, belt tension0004 Azimuth motor failure0008 Azimuth motor failure, belt tension0010 Azimuth gyro failure0020 Elevation gyro failure0040 Roll gyro failure0080 Gyro offset limits exceeded0100 Inclinometer communication failure0200 Inclinometer failure0400 SatID communication failure
Chapter 7Tr
oubl
esho
otin
g
53
Troubleshooting chart
Chapter 7: Troubleshooting
Troubleshooting chart
54
Technical specification
SAILOR 60 satellite TV antenna
Physical dimensionsAntenna diameter 600 mmFocal length 250 mmRadome height 817 mmRadome diameter 687 mmWeight incl. radome 49 kg
Performance dataElevation range -10° to 120°Azimuth range 630°Azimuth angular velocity 50°/sAzimuth angular acceleration 40°/s2
Elevation angular velocity 50°/sElevation angular acceleration 40°/s2
Polarrotor range ±90°LNB frequency 10.70-12.75 GHzLNB noise figure 0.3 dBMinimum EIRP level (FEC 2/3) 46 dBWPolarization Simultaneous vertical/horizontal
Ship's motionsRoll/pitch range ±30°Roll/pitch angular velocity 40°/sRoll/pitch angular acceleration 25°/s2
Yaw/turn angular velocity 40°/sYaw/turn angular acceleration 25°/s2
Maximum antenna elevation 70° 1)
Minimum antenna elevation -10°
Chapter 8Te
chni
cal s
peci
ficat
ion
1 ) Tracking capability is progressively diminished at elevations(satellite elevation+ship´s roll/pitch) above 70o
SAILOR 60 satellite TV antenna
55
ElectricalVoltage 24 VDC +20%/-10%Current 3 AStarting current 6 ALNB osc. frequency, low bands 9750 MHzLNB osc. frequency, high bands 10600 MHz
EnvironmentalTemperature -25 to 55°CHumidity 0-100% RHWind speed 50 m/s
EMCEN60945
SafetyEN60950
Chapter 8: Technical specification
SAILOR 60 satellite TV antenna
56
Chapter 9Ap
prov
als
Approvals
viiiThrane & Thrane A/S Thrane & Thrane A/S Thrane & Thrane A/S Thrane & Thrane A/S Thrane & Thrane A/S ••••• [email protected] [email protected] [email protected] [email protected] [email protected] •••••
TT98-132056 Version 1.6