KNS supertrack S3 Installation And Operation Manual

INSTALLATION AND OPERATION MANUAL

FOR SUPERTRACK MODEL S3

Ku-BAND TV-RO ANTENNAS

KNS Inc.

Tel)+82-42-932-0351~2

Fax)+82-42-932-0353

Web) http://kns-kr.com/

02.22. 2010

i

KNS SuperTrack systems are manufactured in the

Republic of South Korea.

The KA-70 Antenna Control Unit complied with the ETSI

(European Telecommunications Standards Institute)

Standards; EN 301 843, EN 60950 and EN 302 340 (2006-

04) as of November 24, 2009.

Copyright Notice

All Rights Reserved. The information contained in this document is proprietary to KNS,

Inc. This document may not be reproduced or distributed in any form without the

consent of KNS, Inc. The information in this document is subject to change without

notice.

Copyright 2010 KNS, Inc.

ii

Revision History

Revision Date Description By Remarks

1.0 02.22. 2010 Initial Release

(PCU Ver. 1.95 & ACU Ver. S1.12)

Hong

a

Contents

1. Introduction .................................................................................. 1

1.1. Purpose ................................................................................................ 1

2. Installation .................................................................................... 2

2.1. Site Selection ....................................................................................... 2

2.2. Unpacking the Unit .............................................................................. 4

2.3. Equipment and Cable Installation ...................................................... 5

2.4. Antenna Unit Mounting ....................................................................... 6

2.5. ACU Mounting .................................................................................... 10

2.6. Cable Connection .............................................................................. 11

3. Operation .................................................................................... 19

3.1. Front Panel Functions ....................................................................... 19

3.2. ACU Display Operation ..................................................................... 21

3.3. Set-up Mode ....................................................................................... 23

4. How to O perate the SCS ........................................................... 36

4.1. Connect to PC .................................................................................... 36

4.2. Selection Area and Satellite ............................................................. 38

4.3. Skew Setting ...................................................................................... 42

4.4. Antenna State .................................................................................... 44

4.5. Installer ............................................................................................... 47

Appendix A:

Example of Setting the Satellite’s Parameters Using SCS

. 58

Append i x B: Er ror Code Definiti o n ............................................... 6 3

Appendix C: Specifications ............................................................ 66

Appendix D: Satellite Inform ation ................................................. 67

Append i x E : Radome and Antenna mo unting h o les layo u t ....... 71

1

1. Introduction

1.1. Purpose

The purpose of this manual is to provide the necessary information required by the

end user, customer and installer to successfully install the S3 antenna and controller

and to program the KA-70 for operation.

It is recommended that all personnel responsible for operating S3 systems should

know which type of system they have, read and understand the basic terms, and be

familiar with the operation of these systems.

Although installations may be completed by the customer’s preferred personnel, it is

also recommended that personnel be trained in the KNS suite of equipment installation

procedures and trained by the relevant KNS Inc. experts.

2

2. Installation

2.1. Site Selection

Determine the optimum mounting location for the antenna radome assembly. It should

be installed where:

1. The antenna has a clear line-of-sight view of as much of the sky as is practical.

Choose a location where masts or other structures do not block the satellite signal from

the dish as the boat turns.

2. The antenna is situated at least 5m away from other transmitting antennae (HF, VHF

and radar) that may generate signals that may interfere with the SuperTrack S series

antenna. The further away the SuperTrack S series antenna is from other such

antennae, the less impact their operation will have on it.

The antenna radome assembly should be rigidly mounted on the boat. If necessary,

reinforce the mounting area to ensure that it does not flex due to the boat’s motion or

vibration.

Figure 2-1 Best Location I

3

Figure 2-2 Best Location II

Figure 2-3 Antenna Blockages

4

2.2. Unpacking the Unit

Open cartoon-box using knife or scissor and remove the items of antenna equipment.

Do not turn the box on its side to tip or roll out the product, or turn the box upside down

to remove it.

Lift carton box straight up

Figure 2-4 Unpack the Antenna

5

2.3. Equipment and Cable Installation

The coax connector bracket beneath the radome is labeled. The functional assignment

of these labels is as follows:

S3 Connectors

RF1: Connect to the multi-switch (Vertical Low).

RF2: Connect to the multi-switch (Horizontal Low).

RF3: Connect to the multi-switch (Vertical High).

RF4: Connect to the multi-switch (Horizontal High).

ACU: Connect to the ACU.

NOTE

: The RF4 coax connection must be plugged into the 18VDC port of your multi-

switch. This must be the horizontal high band input of your four-ports Multi-switch when

using a Quattro LNB.

NOTE

: Unused coax connections (on the connector bracket) MUST be terminated with

a 75ohm terminator.

NOTE

: We recommend the following cable types for cable lengths:

-within 20m: RG6

-within 50m: RG11

-within 100m: LMR400

-within 200m: LMR600

Figure 2-5 RF Connector Bracket

6

2.4. Antenna Unit Mounting

Drill four bolt holes and cut out a cable access hole on the mounting site. (See reference

appendix.)

Position the foam seal on the mounting surface with the hole centered over the cable

access cut-out.

Position the base plate over the mounting holes and the cable access hole, and then

align the radome base plate’s “Bow” label (shown in Figure 2-6) with the ship’s bow.

Figure 2-6 “BOW” Label of the Radome Base

1. Connect the data/power and the RF cables from below decks to the base plate

with a 7/16” wrench, applying 30 pounds of torque. Check the label on both ends

of each RF cable to match its antenna base-plate connector. Do NOT use Teflon

gel on the cable fittings as it reduces signal strength at high frequencies.

2. Install flat washers and spring washers and a mounting bolt to each mounting hole of

the radome base from the underside of the mounting surface. Apply Loctite 241 to the

threads of the mounting bolt up near the mounting surface and tighten each of the 4

bolts to 24 in-lb (21 kg-cm) of torque [finger tight, then about 1/4 turn tighter] with a

wrench. DO NOT OVER-TIGHTEN. You have to install mounting bolts of the proper

length. If a bolt is too long, the extra length of threaded rod that extends above the

radome base should be cut off.

7

Figure 2-7 Tighten the nuts from below

8

3.

Remove the jigs and wire ties holding the Antenna.

Please refer to Figures 2-8

and 2-9 below.

Fixed Screw

for Elevation

Figure 2-8 Fixed screw for Elevation

Fixed Jig
for Cross

Figure 2-9 Fixed Jig for Cross

9

Fixed Screw

for Azimuth

Figure 2-10 Fixed Screw for Azimuth

10

2.5. ACU Mounting

The ACU may be mounted either horizontally or vertically.

1. The ACU should be placed in a dry location that is convenient for the user.

2. It must be situated in a place that is not susceptible to magnetic interference; nor

must it be situated on a level surface.

3. It should be placed so that the LCD display is visible and the buttons are easily

accessible.

Figure 2-11 KA-70 ACU

11

2.6. Cable Connection

For the SuperTrack S3 to work, you must connect the RF cables to your satellite TV

receiver(s). Each RF cable must be an RF (75 ohms) cable fitted with F-type

connectors. The RF cables should already be connected to the antenna base plate.

There should be two ~ five coax cables routed from the ACU to the Antenna unit

according to your configurations. Note that Data and Power are transmitted through a

single coax cable.

This cable should be connected to the ACU labeled “RF
connector of the antenna base plate” and the connector of the ACU labeled
“ANTENNA.”

The remaining coax cable routing depends on your configuration. Due

to the signal polarization of the satellites, it is possible for the SuperTrack S3 to

support more than two satellite TV receivers aboard a boat. To install more than two

satellite TV receivers/TV pairs, an active multi-switch is placed between the Antenna

Unit and the Satellite TV receivers. The following sections provide details for the

installation of both a single satellite TV receiver and multiple satellite TV receivers.

To connect the SuperTrack S3 to your satellite TV receiver(s), choose one of the

following configurations (based on the number of satellite TV receivers you will

connect to the antenna):

Option 1 - Connecting one satellite TV receiver for one satellite

Option 2 - Connecting one satellite TV receiver for satellite pairs with auto

switching

Option 3 - Connecting satellite TV receivers with European LNB

Option 4 - Connecting multi satellite TV receivers with auto switching

Connecting one satellite TV receiver for one satellite (Only use the ‘HH’
polarity of the satellite)

One satellite TV receiver for one satellite is the simplest type of cable installation. Only

two coaxial cables should be connected between the antenna unit and the satellite TV

receiver, as shown in Figure 2-12. One end of the RF cable should already be

connected to the connector labeled “RF4” on the base of the SuperTrack S3 antenna.

Connect the other end of the RF4 cable to the satellite TV receiver connector labeled

“LNB,” “ANT/SAT,” or “satellite IN.” And, the “ACU” connector of the antenna base plate

must also be connected to the “ANTENNA” connector of the ACU. In this configuration,

every satellite should be selected manually using the ACU.

12

NOTE

: Before you connect an RF cable to a satellite TV receiver, turn on the satellite

TV receiver and TV and verify that there is no AC voltage on the satellite TV receiver’s

input connector, as measured between the center conductor and the shield. If AC

voltage is present on the connector, DO NOT connect the RF cable until you have

corrected the problem. This is a potentially dangerous condition that will damage the

antenna’s electronics.

Figure 2-12 One Satellite TV Receiver Installation

Connecting one satellite TV receiver for satellite pairs with auto switching
(Only use the ‘HH’ polarity of the satellite)

If you want to use two satellites with one satellite TV receiver, you can use automatic

satellite switching using the DiSEqC. This versatility gives you the capability of

receiving audio and video programming from two satellites. One satellite TV receiver

for two satellites is also a simple mode of cable installation. Two coaxial cables should

be connected between the antenna unit and the ACU, as shown in Figure 2-13. And,

13

one coaxial cable and a passive splitter should be connected between the ACU and the

satellite TV receiver. The RF4 connector of the SuperTrack S3 must be connected to

the “SAT IN” connector of the satellite receiver. And, the “ACU” connector of the

Antenna unit must also be connected to the “ANTENNA” connector of the ACU. In this

configuration two satellites can be selected automatically according to the satellite TV

receiver signal. (Refer to the ‘PROGRAM SATELLITE’ section.)

Figure 2-13 One Satellite TV Receiver with Auto Switching

14

Connecting satellite TV receivers with European LNB

(Use of the all

polarity of satellite)

In European systems that come with a Quad LNB, all four RF outputs from the

SuperTrack S3 antenna should be connected to the multi-switch. Connect each of the

satellite TV receiver’s inputs to the output connectors on the multi-switch. Connect the

multi-switch unit in accordance with the manufacturer’s instructions. Figure 2-14 shows

an example of a European multi-switch (4 inputs and 4 outputs) configuration.

RF1: Low Band Vertical

RF2: Low Band Horizontal

RF3: High Band Vertical

RF4: High Band Horizontal

Figure 2-14 Four Satellites TV Receivers Installation with European LNB

If you want use more satellite TV receivers than four, you can choose 8 outputs

or 16 outputs.

Connecting satellite TV receivers signal with European LNB when auto

15

switching using the DiSEqC signal

(Use of the all polarity of satellite)

If the satellite TV receiver supports the DiSEqC function, you can automatically change

the satellite using DiSEqC. To send the DiSEqC signal to the ACU via the satellite TV

receivers, one splitter should be installed between the Master satellite TV receiver and

the ACU, as shown in Figure 2-15. As a result, the ACU will receive the signal to

change satellites when you change channels using your satellite TV receiver.

16

RF1 RF2 RF3 RF4 ACU

IRD #4IRD #3IRD #2

90~230VAC

50~60Hz

PC

Diagnostics

ANTENNA

Antenna Control Unit

(ACU)

RECEIVER

Vertical

/Low

Horizontal

/Low

Horizontal

/High

Vertical

/High

OUT1 OUT2

OUT3

OUT4

4X4

Multiswitch

*We recommend Aspen’s P7002 splitter.

Power/Data

RF RF RF RF

Passive *

Splitter

DC

Pass

Master IRD

SAT IN TV

Figure 2-15 Installation of Four Satellites’ TV Receivers with European LNB when

auto-switching the satellite using DiSEqC

17

Connecting multi satellite TV receivers with auto switching

(Use the
circular polarity of satellite)-S3 can be mounted with optional circular LNB
for option.

To connect three or four satellite TV receivers to the SuperTrack S3 antenna, you will

need to install an active multi-switch (Channel Master - model 141FD or equivalent)

between the antenna and the satellite TV receivers. Two RF cables should already be

connected to the connectors labeled “RF3” and “RF4” on the base plate of the

SuperTrack S3 antenna. Figure 2-16 shows a typical wiring arrangement for four

satellite TV receivers. Mount the multi-switch unit in accordance with the

manufacturer’s instruction sheet.

One satellite TV receiver will be connected to the ACU via a passive splitter. This

satellite TV receiver serves as the master satellite TV receiver and will control

automatic satellite switching via DiSEqC signals. But the splitter and multi-switch

should be purchased separately. The “ACU” coaxial cable should be connected

between the antenna unit and the ACU. Then, connect the RF cable labeled “RF4” to

the multi-switch input labeled “LNB LHCP +18V.” And, connect the RF cable labeled

“RF3” to the multi-switch input labeled “LNB RHCP +13V.” The outputs of the

multiswitch will then be routed to the individual satellite TV receiver input. Use an RF

cable with F-type connectors for all RF connections. Terminate all unused output

connectors with 75 ohm DC blocks. Depending on the length of the cable, you may

need to use cable clamps or wire ties (not provided) between the ACU and the Antenna

Unit.

To send the 22 KHz tone to the ACU via DIRECTV DSS Plus satellite TV receivers,

one splitter should be installed between the Master satellite TV receiver and the ACU.

As a result, the ACU will receive the signal to change satellites when you change

channels using your DIRECTV DSS Plus remote. It is also compatible with the DISH

NETWORK DISH500 service. If the DISH NETWORK satellite TV receiver sends a

command to the ACU, the ACU will decode the command for SW21 to change

satellites, emulating a simple SW21 device. As a result, DISH NETWORK subscribers

can change satellites using their remote.

18

RF1 RF2 RF3 RF4 ACU

IRD #4IRD #3IRD #2

90~230VAC

50~60Hz

PC

Diagnostics

ANTENNA

Antenna Control Unit

(ACU)

RECEIVER

13V 18V

OUT1 OUT2

OUT3

OUT4

Multiswitch

*We recommend Aspen’s P7002 splitter.

Power/Data

RF RF

Passive *

Splitter

DC

Pass

Master IRD

SAT IN TV

Figure 2-16 Multi-satellite TV receiver Installation with Auto-Switching

19

3. Operation

3.1. Front Panel Functions

1

. MENU

button – Press the MENU button for more than 3 seconds to enter the

set-up mode. When you want to escape from the set-up mode, press MENU again

for more than 3 seconds. Another function of the MENU button is that of checking

the error message when the S3 makes an error. When the error LED is on, press

the MENU button briefly. Then, you will be able to see the hexadecimal error

message. Please press the NEXT button for about 2 seconds to clear the error. If

you press MENU briefly again, you can go back to normal operation.

2.

TRACK

button – Press the TRACK button to enter the stall mode. The antenna

does not move from the position when the TRACK button is pressed. This button is

also used to scroll left (

◀

) in the menu.

3.

NEXT

button – Press the NEXT button to select your preprogrammed next

satellite. When your desired satellite is displayed, stop pressing NEXT, and then,

after 3 seconds, the antenna automatically searches for your desired satellite.

Use this button when you want to scroll right (

▶

) in the menu.

4.

M/C

button – Press M/C for more than 3 seconds to enter computer link via RS

232. When you want to escape from computer link, press M/C for more than 3

seconds. This button is also used to scroll up (▲) in the menu.

5.

SEARCH button

– Press SEARCH for more than 3 seconds to re-search for the

current satellite. This button is also used to scroll down (▼) in the menu.

6.

PWR

button (Power button) – Use this button when you want to turn on/off the

antenna unit power.

7.

TRACK LED

–

Blinking

indicates that the antenna is searching for the satellite.

ON

indicates that the antenna is tracking the satellite.

OFF

indicates that the antenna is in the stall mode or initializing.

20

8.

GPS LED

–

Blinking

indicates that the antenna has distinguished the GSP but that

the GPS data is invalid.

ON

indicates that the antenna is receiving valid GPS data.

OFF

indicates that the GPS antenna is not installed or is malfunctioning.

9.

DiSEqC LED

– ON indicates that the DiSEqC option is enabled to switch satellites

automatically. The ACU supports European the DiSEqC 1.2, 22KHz

tone.

OFF

indicates that the DiSEqC option is disabled. Press the NEXT

button to select the next satellite manually.

10

. ERROR LED

– ON indicates that one or more discrete system errors have occurred.

(Refer to Error Code)

OFF

indicates that no errors have occurred.

LCD BUTTON

LED

Figure 3-1 Antenna Control Unit Front Panel

Figure 3-2 Antenna Control Unit Back Panel

21

3.2. ACU Display Operation

If you turn on the power switch of the antenna control unit, you can view the steps

shown in Figure 3-3 below.

Figure 3-3 Display Flow on the ACU LCD

Display of the Antenna State

INITIAL (Initializing)

: The ACU displays ‘INITIAL’ on the LCD when the antenna is

initializing.

SEARCH (Searching)

: The ACU displays ‘SEARCH’ on the LCD when the antenna

is searching for the satellite.

LA:N 49 LO:E 6(GPS data: Tracking)

: In the case of the internal magnetic mode,

the ACU displays the GPS data on the LCD when the antenna is tracking the satellite.

If the PCU compass mode is gyro, the ACU displays the ship’s heading and GPS data

on the LCD when the antenna is tracking the satellite. The display of the GPS data

alternates, as shown in Fig 3-4 below.

22

HALT

: If the antenna experiences the same control error twice within 3 minutes, the

PCU isn’t supplying the torque to all motors to protect the antenna. In this case, the

ACU will display ‘HALT’ on the LCD. The antenna continues in ‘halt’ mode until the

ACU power has been reset.

Figure 3-4 Display of tracking on gyro mode

NOTE

: For the first power-on of the GPS antenna, it will take about 5 minutes to

calculate your location from the GPS satellites’ signals and configure the database.

NOTE

: Do not push any buttons during the self-diagnosis sequence.

23

3.3. Set-up Mode

Initial set-up is accomplished by the installer or operator using the SETUP Mode to

configure the system parameters.

Press and hold the “MENU” button for more than 3 seconds to enter the SETUP mode.

To navigate the menu, press the UP or DOWN button. The set-up mode has 10 sub-

menus.

Upgrade

The installer or operator can change and configure the current parameters of the S3 by

computer.

Connect the M&C port of the ACU to the serial port or the USB port of the computer with

an RS-232 cable (Female to Female), as shown in Figure 3-5.

Figure 3-5 Connection ACU with Computer

If you want to connect to the PC, follow Figure 3-6 or Figure 3-7.

Figure 3-6 Computer Link step 1

24

Figure 3-7 Computer Link step 2

Set Latitude and Longitude

In the event of invalid GPS data or GPS breakdown, you can input the desired latitude

and longitude. Refer to Figure 3-8. This data will be changed if the GPS data is valid or

if the ACU power is reset.

Figure 3-8 Set Latitude & Longitude step

25

Program Area

Before you select your satellites, you have to select the service area from among

Asia, Europe, Latin America, and North America.

Figure 3-9 Program Area Setting Step

NOTE

: The S3 has 80 satellite IDs, and each area has the parameters of 20

satellites, as shown below.

North America: Sat ID 1~20

South America: Sat ID 21~40

Europe: Sat ID 41~60

Asia: Sat ID 61~80

NOTE

: If you select a different area from your area, the ACU will display SH FAIL

(Searching Fail) on the LCD and the antenna will point toward the appointed

position after initialization.

NOTE

: All satellites share the LNB local frequency.

26

Program Satellite

The user can select up to 5 desired satellites on KA-70 ACU. The user has to

select the DiSEqC mode from among either DiSEqC off or the DiSEqC 1.2 or 22

KHz tones before selecting the satellites.

If DiSEqC off is selected, the user can change the desired satellite using the

▶

(Next) button. After selecting the satellites from A to E, the KA-70 ACU changes

the satellite when the user presses the

▶

(Next) button.

In the case of 22 KHz, firstly, the ACU commands the antenna to search for the

‘SAT_A’ and then, if the ACU receives the 22 KHz tone via the ‘receiver’ port of the

AUC back panel, the ACU commands the antenna to search for ‘SAT_B’. But this

function requires the 22 KHz tone from the satellite TV receiver.

NOTE

: If DiSEqC 1.2 or 22 KHz tone is selected, the DiSEqC LED will turn on.

Also, the satellite cannot be changed using the ‘

▶

(Next)’ button.

Press ‘MENU’& hold 2~3 seconds

Select the ‘Program Satellite’ by’▲’ or ‘▼’

Press ‘MENU’

Press ‘MENU’

& hold 2~3 seconds

Select DiSEqC Mode

by’▲’ or ‘▼’

Select Satellite by’▲’ or ‘▼’

Press ‘MENU’ or ‘▶’

Select Satellite by’▲’ or ‘▼’

Press ‘MENU’ or ‘▶’

Press ‘MENU’

Select Satellite by’▲’ or ‘▼’

Press ‘MENU’ or ‘▶’

Select Satellite by’▲’ or ‘▼’

Press ‘MENU’ or ‘▶’

Press ‘MENU’

Figure 3-10 Program Satellite Setting Step

27

Skew Angle Setting

The S3 calculates the skew angle automatically. However, if the user wants to

change the skew angle, he/she can change the skew angle using the ‘Manual

Mode’. The user can also readjust the skew zero position when replacing the PCU,

skew assembly or potentiometer.

Press MENU’& hold 2~3 seconds

Select the ‘Skew Angle Setting’

by’▲’ or ‘▼’

Press ‘MENU’

Press ‘MENU’

& hold 2~3seconds

Press ‘MENU’

Select Mode

by’▲’ or ‘▼’

Press ‘MENU’

’

’

’

Figure 3-11 Setting the Skew Mode

28

a. Auto Mode

In the Auto mode, the ACU displays the skew angle calculated by the PCU. The

S3’s default skew mode is auto. The S3 automatically changes the skew angle

when the satellite is changed.

b. Manual Mode

The Installer or Operator can change the skew angle to the desired skew angle,

as shown below.

Figure 3-12 Setting the Skew Angle in Manual Mode

NOTE

: ‘C:’ refers to the current skew angle. ‘A:’ refers to signal strength. ‘S:’

refers to the user setting the skew angle.

29

c. Reset

After replacing the PCU board or the skew assembly, you have to re-adjust the

skew zero position. Otherwise, the SuperTrack S3 cannot search for the desired

satellite. Also, correction of the skew angle is important because the signal level

is influenced by the skew angle.

If ‘RESET’ is selected and ‘MENU’ is pressed at the desired skew angle, the

skew angle will be set to ‘0’ degrees. The skew angle affects signal strength, so

we recommend that the user should correct the skew ‘0’ degrees position, as

shown in Figure 3-13 below.

Figure 3-13 Skew ‘0’ degrees

d. Save

If you want to save the changed ‘0’ degrees position, press ‘MENU’ after selecting

the ‘SAVE’ mode.

e. Exit

If you want to escape, press ‘MENU’ after selecting the ‘EXIT’ mode.

30

Demo Mode

The S3 points toward the desired position when using the ‘Demo Mode’. It is very

useful when the dealer requires a demonstration inside a building. Elevation is

changed every 5° by one click of ‘▲’ or ‘▼’. Azimuth is changed every 10° by one

click of ‘

▶

’ or ‘◀’.

Press “MENU’

Press ‘MENU’

& hold 2~3 seconds

Set Azimuth Angle by ‘◀’ or ‘▶’
Set Elevation Angle ‘▼’ or ‘▲’
Press “MENU’ to Escape

Press ‘MENU’& hold 2~3 seconds

Select the ‘Demo Mode’ by ‘◀’ or ‘▶’

Figure 3-14 Setting the Skew Angle in Manual Mode

31

Selecting the Compass Mode

You can select the compass mode according to the condition of your ship’s gyro.

The S3 has s compass modes.

a. Internal Magnetic Mode

If your ship is not made of magnetic metal (ex: aluminum, FRP), you can use the

internal magnetic mode. However, the internal magnetic compass value will be

incorrect if ship is made of metal, because the internal magnetic compass will be

affected by the magnetic field of a metal-based ship.

NOTE

: We do not recommend use of the ‘Internal Magnetic Mode’ on metal ships.

b. Magnetic Fail Mode

Use this mode when an internal magnetic compass is not available. The S3

receives the internal magnetic compass value as a reference angle when satellite

selection or searching or researching after searching fail. And, the S3 uses the gyro

rate sensor value during searching and tracking.

32

Figure 3-15 Selecting the Compass Mode

NOTE

: When using the magnetic fail modes, the ship must not rotate during

initializing. If the ship’s gyro rotates, the S3 will not be able to track the satellite due

to the incorrect heading angle.

33

Contrast

You can set the contrast of the characters on the LCD of the ACU, if you select

‘Contrast’.

Figure 3-16 Contrast Setting

34

Satellite Edit

The S3 has 3 satellites that can be set by the users (Users 1~3) in each area. If

you select ‘Satellite Edit’, you can change the 3-user satellite’s name. Another

satellite’s name is not allowed of change.

Press ‘MENU’

Press ‘MENU’

& hold 2~3 seconds

Press ‘MENU’& hold 2~3 seconds

Select the ‘Satellite Edit’ by ‘▼’ or ‘▲’

Change the Name by ‘▼’ or ‘▲’

Press ‘MENU’

Change the Name by ‘▼’ or ‘▲’

Press ‘MENU’

Change the Name by ‘▼’ or ‘▲’

Press ‘MENU’

Press ‘MENU’

Figure 3-17 Edit User-Settable Satellite Name

35

Back Light

If you select ‘Back Light’, you can set the brightness of the back light on the LCD.

Press ‘MENU’

& hold 2~3 seconds

Select Brightness by ‘▼’ or ‘▲’

Press “MENU’

Press ‘MENU’& hold 2~3 seconds

Select the ‘Back Light’ by ‘▼’ or ‘▲’

Press ‘MENU’

Figure 3-18 Edit the Brightness of the Back Light

36

4. How to Operate the SCS

The installer or operator can change the parameters using SCS (SuperTrack

Control Software) Version 1.6.1. Also, SCS can show the current status of the S3.

4.1. Connect to PC

After connecting to a PC, as shown in Figure 3-5, run the SCS. Press M/C and

hold for 3 seconds or select ‘Upgrade’ in the set-up mode.

Then, select the COM port of your computer, and select the baud rate of 19200.

Lastly, click ‘DISCONNECT’, whereupon the S3 will be connected with the computer.

1. Select the COM port 2. Select the Baudrate

3. Click the ‘DISCONNECT’

Figure 4-1 Connecting the S3 with a PC

37

You will be able to see that the ‘CONNECT’ LED of the status panel is on, as

shown in Figure 4-2. Also, you can see the current state of the antenna, which is

one of ‘Initialize’, ‘Searching’ ‘Searching Fail’, ‘Tracking’, and ‘HALT’.

Figure 4-2 Connection Status of S3 with PC

38

4.2. Selection Area and Satellite

You can select the area and satellite using SCS. Refer to the steps outlined below

and to Figure 4-3.

a. Click ‘Sat Select’ (F3) or press F3.

b. Select the area in ‘Zone Select’.

c. Select the satellite in ‘Satellite Select’.

d. Press ‘Send’ to upload to the PCU.

1. Select the Area

2. Select the S:59 23.5E
Astra2ConHigh/User1

3. Click to upload

Figure 4-3 Select Area and Satellite Step

NOTE

: The S3 has 4 areas (Europe, Asia, North America, and South America).

NOTE

: The S3 has 80 satellites.

Sat ID 1~20: North America

Sat ID 21~40: South America

Sat ID 41~60: Europe

Sat ID 61~80: Asia

39

Edit the Satellite Parameters

If you select the user-settable satellite or if the desired satellite’s parameters are

incorrect, you can change the selected satellite’s parameters. Refer to the steps

outlined below and to Figure 4-4.

a. Click ‘Sat Setting’ (F4) or press F4 after selecting the desired satellite.

b. Click ‘Zone Info Request’ and ‘Sat Info Request’ to update from the PCU. Then,

the target satellite’s parameters and the LNB local frequency will be uploaded

to the satellite setting panel from the PCU.

c. If you want to change the LNB local frequency, input the new local frequency

and click the ‘OK’ button to upload to the PCU.

d. Change the satellite’s parameters and click each ‘OK’ button to upload to the

PCU. (If you do not click after changing the parameters, the changed

parameters will not be uploaded to the PCU.)

e. Press ‘Save’ to save the changed parameters.

1.Click

2.LNB Local
Frequency

3. Satellite

Parameters

4. ‘OK’

Buttons

5. Click to Save

2.Click

Antenna

Return

Message

Figure 4-4 Edit the Satellite’s Parameters

40

NOTE: The LNB local frequency is the same in the same area.

SAT ID refers to the satellite index, as shown below.

ID 1~13: North America

ID 21~26: South America

ID 41~60: Europe

ID 61~74: Asia

Search Ref refers to the S3 search reference that was used as a reference during

the search for the satellite.

AGC THD: Search at a higher AGC level than the preset AGC level in the PCU.

C/N THD: Search at a higher C/N level than the preset C/N level in the PCU.

CLock: Search for the target DVB Carrier lock (Default).
NLock: Search for the satellite until the NID is locked. There is no function.

Track Ref refers to the S3 tracking reference that was used as a reference during

the tracking of the satellite.

AGC: Track the highest AGC level (Default).

C/N: Track the highest C/N level.

RSSD (Receive Signal Detector): Track the highest RSSD value. There is no
function.

RX Polarity refers to the RX polarity of the satellite.

Horizontal/Vertical

Network ID: If you know the correct network ID, input the correct value. Otherwise,

input ‘0’.

FEC mode: Select the FEC mode (DVB QPSK, DVB BPSK, DSS QPSK) according

to the target satellite’s FEC mode.

THRD Level refers to the threshold level if the searching reference is AGC THD or

C/N THD. The S3 searches for a higher signal than the threshold level.

Polarity refers to the voltage and tone of the LNB. The S3’s preset satellites are

‘HH’.

41

Linear LNB (Horizontal/Vertical, High/Low)

HH (18V, 22 KHz)

HL (18V, 0 KHz)

VH (13V, 22 KHz)

VL (13V, 0 KHz)

Circular LNB (Left Handed/Right Handed, High/Low)

LH (18V, 22 KHz)

LL (18V, 0 KHz)

RH (13V, 22 KHz)

RL (13V, 0 KHz)

LNB Freq refers to the RX frequency of the satellite.

Symbol refers to the symbol rate of the satellite.

42

4.3. Skew Setting

You can select the skew mode (‘Auto’ or ‘Manual’) by SCS. Also, you can change

the skew angle to the desired skew angle.

Change the skew angle by manual mode

a. Input the desired skew angle in ‘Desired Manual Angle’.

b. Click ‘Skew Manual’, then the skew will move to the desired angle.

Skew Mode Setting

Input The Desired

Skew Angle

Figure 4-5 Changing the Skew Angle by Manual Mode

NOTE: If the S3’s skew is in manual mode, the S3’s skew will not be changed

when switching the satellite or changing the ship’s position (longitude, latitude).

The skew mode is automatically changed to ‘Auto’ mode when the ACU power is

turned on.

43

Set the peak trim

The skew angle is automatically calculated by the PCU, but sometimes the satellite

has an offset skew angle. In such a case, you have to set the peak to track a higher

quality of carrier. Refer to the steps outlined below and to Figure 4-6.

a. Change the skew angle using the skew manual mode after selecting the

desired satellite whose skew is offset.

b. Look at Quality, then search for higher quality while changing the skew angle.

c. Click ‘Set To Peak’, after searching for higher quality.

d. Click “Peak Save’ to save the changed peak.

e. Then, the S3’s skew will move to the changed skew angle upon selecting this

satellite.

Current Skew Angle

Current Signal Level(Quality)

Figure 4-6 Setting the Peak Trim

NOTE: If you want reset the peak, click ‘Peak Reset’ and then click ‘Peak Save’,

whereupon all peaks will be reset to the default skew angle.

44

4.4. Antenna State

You can see the current state of the S3 by SCS, as shown below. Click ‘Antenna State’

or press F6.

Antenna State

Figure 4-7 Antenna State

45

Calculating the Skew Angle, Elevation and Azimuth of the Antenna

You can use SCS to calculate the skew angle, elevation and azimuth of the

antenna, if you know the longitude of the satellite and the latitude and longitude of

the current position. Refer to the steps outlined below.

a. Input the

longitude of the satellite, and the latitude and longitude of the

current position.

b. Click ‘CALCULATE’ to calculate.

c. You can see the calculated value in ‘CALCULATE’ below.

1. Input Data

2.Click to calculate

3. Calculated Value

Figure 4-8 Calculating the Skew Angle, Elevation and Azimuth of the Antenna

46

C/N Graph

You can see the C/N graph under ‘Antenna State’.

3. Calculated Value

Graph of C/N

Figure 4-9 C/N Graph

47

4.5. Installer

The installer or operator can change the initial parameters (tilt offset, heading

offset, skew zero setting, compass mode) when replacing the PCU, skew block or

sensor board.

Click ‘Installer’ or press F7.

NOTE: After changing the initial values (tilt offset, heading offset, skew ‘0’degree

position), you must click ‘SAVE’ to save to the PCU.

Figure 4-10 Saving the Initial Values

48

Setting Tilt Offset

You have to re-configure the tilt offset after replacing the PCU or sensor board.

When setting the tilt offset, use the bubble inclinometer, as shown in Figure 4-11.

Figure 4-11 Bubble Inclinometer

49

Refer to the steps outlined below.

a. Click ‘Tilt Initial OFF’, then the button changes to ‘Tilt Initial ON’ and the sensor

cage initializes. Then, the antenna points toward the current position, but the

yaw axis is free.

Click

Sensor cage is initializing

Figure 4-12 Starting Adjustment of Tilt Offset

50

b. Click ‘Command’ to request the current tilt sensor offset from the PCU after

inputting the ‘Ibd’.

1. Input the ‘Ibd’

2. Click

Figure 4-13 Requesting the Current Tilt Offset

NOTE: ‘Ibd’ refers to the command current tilt offset requested from the PCU. ‘I’ is

capital letter.

51

c. Change the tilt offset of level and cross axis to place the bubble of the bubble

inclinometer in the center

d. Click ‘Tilt Offset’ to upload to the PCU.

Figure 4-14 Edit the Tilt Offset

e. If the tilt offset is correct, click ‘Tilt Initial OFF’, whereupon the antenna will start

initializing.

Figure 4-15 Request the Current Tilt Offset Using the ‘Ibd’ Command

52

Skew Setting

After replacing the PCU or skew assembly, you must reset the skew ‘0’ degrees

position. Refer to the steps outlined below.

a. Input the desired new skew angle in the manual value box.

b. Click ‘Skew Manual’, whereupon the skew will move to the desired position.

c. Confirm the new skew ‘0’ degrees position.

d. If it is correct, click ‘Reset to Zero’, or, if it is incorrect, re-try the steps outlined

above.

Figure 4-16 Setting the New Skew ‘0’degrees Position

NOTE: The ‘0’ degrees position should be aligned with the top side of the LNB using a

cross pulley.

53

Figure 4-17 Setting the New Heading Offset

NOTE: The skew angle range of the S3 is within ±50°. If the skew angle is out of range,

the skew will not move. In this case, click ‘Reset to Zero’ to change the current position

to ‘0’ degrees, whereupon the skew will be able to move.

54

Compass Mode

When a change of compass mode is required, you can select the compass mode

by SCS. First, input ‘Zb’ at the bottom of the ‘Command’ button and click

‘Command’ to request the current compass mode from the PCU. Then, you can

check the current compass mode. The S3 has the following s compass modes:

(Internal Magnetic (Zbb), Internal Magnetic Fail (Zbd). Second, select the compass

mode after clicking ‘▼’, whereupon the changed compass mode will be uploaded

to the PCU. The S3 will initialize and the compass mode will be changed upon

selecting the compass mode.

Figure 4-18 Requesting the Current Compass Mode

55

1. Click and Select

2. Antenna is initializing

Figure 4-19 Setting the Compass Mode

56

Set GPS

SCS sets the GPS data when the GPS data is invalid or when GPS fails.

A. Input the latitude and longitude.

B. If changing ‘North’ or ‘South’ and ‘East’ or ‘West’, click ‘ North’ or

‘South’ and ‘East’ or ‘West’

C. Click ‘Set GPS’

Figure 4-20 Setting the GPS Data

57

Graph

You can see the graph showing the antenna’s parameters by SCS. Refer to the

steps outlined below.

a. Select an item (‘Reference’, ‘CurSate’, ‘Error’, ‘Voltage’).

b. Select from the sub-menus(1~9), and then click the ‘on’ button of the selected

sub-menus.

c. Click “Axis Set’ to set the axis, and then change the maximum and minimum

values of the graph.

d. Click ‘Data OFF’ to see the graph.

e. Click ‘Data ON’ to stop display of the graph.

1. Select the
Desired Item

2. Click the ON

to Select the Submenus

3. Set th Max and

Min Value of Graph

4. Click the Data OFF
to Run the Graph

Figure 4-21 View of the Graph

NOTE: Click the ‘HELP’ button to see the index of the graph.

58

Appendix A: Example of Setting the
Satellite’s Parameters Using SCS

The S3 has 80 satellite parameters. You can input or change the satellite parameters if

there is no desired satellite.

If you want to input the desired satellite parameters in User 1, please follow the steps

outlined below.

Satellite Longitude RF Frequency Symbol Rate Polarity

User1 E23.5 10,803MHz 22,000KHz Horizontal

Table A-1 Default Satellite Parameters in User 1

Satellite Longitude RF Frequency Symbol Rate Polarity

Astra2Connect E13 12,437MHz 27,500KHz Horizontal

Table A-2 Desired Satellite Parameters

1. Connect the ACU with the PC, and press and hold ‘M/C’ on the front panel of

the ACU for 2~3 seconds.

2. Run SCS Ver. 1.6.1.

3. Click ‘DISCONNECT’.

Click

3. Click

4. Click

4. Click ‘Sat Select’ or press F3.

5. Select EUROPE in ‘Zone Select’.

6. Select ‘(S:59)023.5E Astra2ConHigh/User1’ in ‘Satellite Select’.

7. Click ‘Send’ to upload to the PCU.

59

5. Select the Area

6. Select the S:59 23.5E
Astra2ConHigh/User1

7. Click to upload

60

8. Click ‘Sat Setting’ or press F4.

9. Click ‘Zone Info Request’ and ‘Sat Info Request’ to request the default satellite’s

parameters, then the Sat ID 58 satellite parameters can be updated in the

‘Satellite Setting’ panel.

10. Change ‘Longitude’, ‘LNB Freq’ and ‘Symbol’, as shown in the Figure below.

11. Click ‘OK’ on the right-hand side of the changed parameters to upload to the

PCU.

61

12. Click ‘SAVE’ to save to the PCU. Then you will be able to see the return

message from the PCU.

62

13. Click ‘Auto Search’ to search for the satellite.

Click to Start

the Searching

Then, the S3 will search for and track the desired satellite.

63

Appendix B: Error Code Definition

If there is a problem with the antenna, you can check the error code on the ACU

and SCS. Press the ‘MENU’ button on the front panel of the ACU when the error

LED is on. Then, you will see the hexadecimal error code, as shown in Fig C-1

below.

Figure B-1 Error Code on ACU

You will also be able to see the hexadecimal error code on the SCS V 1.7.1, as

shown in Figure C-2 below.

Error CodeError LED

Figure B-2 Error Code on SCS

64

Table C-1 shows the error code definition, but this is a binary code. Thus, you

must convert the hexadecimal code to a binary code to confirm the error.

EX 1) Hexadecimal error code: ‘0X 18 08 00 00’

Convert to binary error code: 0X 00011000 00001000 00000000 00000000

Ö 15 error of

FF

(1)

means that the satellite information is not acceptable (i.e.

the satellite longitude or current antenna latitude and longitude information

is not acceptable).

Ö 14 error of

FF

(1)

refers to indicate that GPS fails in receiving in time (when

GPS normally receives the signal, the error message disappears)

Ö 14 error of

FF

(2)

means that there is

no gyro input.

EX 2) The hexadecimal error code: ‘0X 20 00 00 07’

Convert to the binary error code: 0X 00100000 00000000 00000000

00000111

Ö

Error refers to the 7th error of the DBS tuner error.

Error Code Define

PCU Version: after 1.94

Syntax: 0x: FF

(1)

FF

(2)

FF

(3)

FF

(4)

0x FF

(1)

=18171615 14131211

1

1

: Level motor driving error (clear if it returns to normal state in time)

1

2

: Cross motor driving error (clear if it returns to normal state in time)

1

3

: Yaw motor driving error (clear if it returns to normal state in time)

1

4

: GPS non valid error in time (clear if it returns to valid)

1

5

: Satellite information is not acceptable (satellite longitude or current antenna

latitude, longitude information)(clear if in normal state)

1

6

: DBS tuner error

1

7

: The stopper is not recognized during initialization

1

8

: Not used

0x FF

(2)

=18171615 14131211

1

1

: Home Index during initialization

65

1

2

: There is an unknown satellite (when the NID lock is used for searching)

1

3

: Searching fail (clear if in normal state)

1

4

: No gyro input (refers to a communication error)(clear if in normal state)

1

5

: PCU DSP flash writing error

1

6

: PCU DSP EEPROM writing error

1

7

: Not used

1

8

: Not used

0x FF

(3)

=18171615 14131211

1

1

: Not used

1

2

: Not used

1

3

: Not used

1

4

: Not used

1

5

: Not used

1

6

: Not used

1

7

: Not used

1

8

: Not used

0x FF

(4)

0x01: System has restarted

0x02: Unknown RS232 error has occurred

0x03: Unknown or invalid command has been received

0x04: Unknown or invalid data has been received.

0x05: The 'TS:' command must be sent prior to the command.

This is for programming the transponder/satellite data.

0x06: A tuner I2C bus failure has occurred. This could indicate that the tuner is

defective.

0x07: The LNB polarity voltage is not within the LNB polarity range. This could indicate

that the LNB voltage does not change or that the LNB voltage has shorted.

0x08: The LNB signal level is below the valid range. This could indicate that the LNB is

not connected.

0x09: The E2Ram has failed

Table C-1 Error Code Definition

NOTE

: To clear the error by perforce after checking the error, press the ‘NEXT’

button on the ACU. If using the SCS, click the ‘ERR’ LED.

66

Appendix C: Specifications

Above Deck

Antenna Dish Diameter 39 cm Antenna Dimensions 56.5cm(H) x 44.6cm(D)

Antenna Weight 14Kg Radome Material Plastic

Minimum EIRP 48 dBW Azimuth Range 640°

Skew Control

Automatic
(-50° ~ +50° )

LNB Quad / Quattro

Cross Angle +/- 25° Tracking Speed More than 90°/ sec

Platform 3-axis Elevation Angle -10° to +100°

GPS Yes Vibration Damper Rubber Damper

DiSEqC DiSEqC 1.2 Temperature -25°C to +55°C

Humidity Up to 100% @ 40°C

Below Deck

ACU Size 218 x 153 x 50mm External I/O RS232C

Input Power 110/220 VAC Output Power 24VDC 60W

Packing

Size 48 x 48 x 81cm Gross Weight 18kg

Packed by Paper carton

67

Appendix D: Satellite Information

Satellite Information for North America

Sat

ID

Satellite

Longitude

Name Xpndr

Polarity

/LO-Band

Network

ID

FEC

MODE

FEC

Rate

Transponder

Frequency

Symbol

Rate

Beam

1 061.5-W EchoStar3 25 RL 0 DVBQ AUTO 12574000 21500000

2 072.5-W DirecTV 1 2 LL 0 DSSQ AUTO 12239000 20000000

3 082.0-W Nimiq 2 15 RL 0 DVBQ AUTO 12428000 20000000

4 091.0-W Nimiq 1 9 RL 0 DVBQ AUTO 12341000 20000000

5 101.0-W DirecTV 1R 1 RL 0 DSSQ AUTO 12224000 20000000

6 110.0-W Echo810/Direc 5 19 RL 0 DVBQ AUTO 12486000 20000000

7 119.0-W Echo7/Direc 7S 11 RL 0 DVBQ AUTO 12370000 20000000

8 148.0-W Echostar 1 15 RL 0 DVBQ AUTO 12428000 20000000

9 129.0-W Echostar 5 17 RL 0 DVBQ AUTO 12457000 20000000

10 072.0-W AMC-6 17 RL 0 DVBQ AUTO 4040000l 20000000

11 101.0-W User 1 1 RL 0 DSSQ AUTO 12224000 20000000

12 101.0-W User 2 1 RL 0 DSSQ AUTO 12224000 20000000

13 101.0-W User 3 1 RL 0 DSSQ AUTO 12224000 20000000

Available but not programmed with default positions.

14 101.0-W User 4 1 RH 0 DSSQ AUTO 12224000 20000000

through

20 101.0-W User 10 1 RH 0 DSSQ AUTO 12224000 20000000

68

Satellite information for Latin America

TS

Satellite

Longitude

Name Xpndr

Polarity

LO-Band

Network

ID

FEC

MODE

FEC

Rate

Transponder

Frequency

Symbol

Rate

Beam

21 095.0-W Galaxy3CN ? LL 0 DSSQ AUTO 11685000 20000000 Latin

Amer

22 095.0-W Galaxy3CS ? LL 0 DSSQ AUTO 11685000 20000000 Latin

Amer

23 058.0-W PAS_9(Sky

Mex)

13 HH 0 DVBQ AUTO 11960000 30000000 Mexico

24 058.0-W User 1 13 HH 0 DVBQ AUTO 11960000 30000000 Mexico

25 058.0-W User 2 13 HH 0 DVBQ AUTO 11960000 30000000 Mexico

26 058.0-W User 3 13 HH 0 DVBQ AUTO 11960000 30000000 Mexico

Available but not programmed with default positions.

27 058.0-W User 4 13 HH 0 DVBQ AUTO 11960000 30000000 Mexico

through

40 058.0-W User 17 13 HH 0 DVBQ AUTO 11960000 30000000 Mexico

69

Satellite Information for Europe

TS

Satellite

Longitude

Name Xpndr

Polarity

LO-Band

Network

ID

FEC

MODE

FEC

Rate

Transponder

Frequency

Symbol

Rate

Beam

41 019.2-E Astra 1(H) 117 HH 0 DVBQ AUTO 12692000 22000000 1H

42 028.2-E Astra 2A 11 HH 0 DVBQ AUTO 11914000 27500000 2A North

43 028.2-E Astra 2S(B) 17 HH 0 DVBQ AUTO 12032000 27500000 2B South

44 030.0-W HispaSat(1C) 46 HH 0 DVBQ AUTO 11931000 27500000 Europe

45 013.0-E Hotbird 9 97 HH 0 DVBQ AUTO 12654000 27500000 Europe

46 013.0-E Hotbird 8 57 HH 0 DVBQ AUTO 11862000 27500000 Europe

47 005.0-E SiriuS3 B5 HH 0 DVBQ AUTO 11804000 27500000 Nordic SS

48 000.8-W Thor(3) 32 HH 0 DVBQ AUTO 12322000 27800000 N&C&E

49 026.0-E Badr 6 7 HH 0 DVBQ AUTO 11843000 27500000 BSS

50 007.0-W NileSat(102) 15 HH 0 DVBQ AUTO 11996000 27500000

Middle East

51 042.0-E TurkSat(2A) 16 HH 0 DVBQ AUTO 12015000 27500000 East

52 007.0-E Eutel_W3A D11 HL 0 DVBQ AUTO 11678000 30000000 Europe B

53 016.0-E Eutel_W2 F5 HH 0 DVBQ AUTO 12683000 2894000 Wide

54 010.0-E Eutel_W1 F3 HH 0 DVBQ AUTO 12611000 9259000 Wide

55 039.0-E HellaSat2 19 HH 0 DVBQ AUTO 12524000 30000000 F1

56 005.0-W Atlantic Bird 3 KA7 HH 0 DVBQ AUTO 12543000 27500000 Super

57 004.0-W Amos2 27 HL 0 DVBQ AUTO 11650000 21350000 Europe

58 023.5-E User1 55 HL 0 DVBQ AUTO 10803000 22000000 1E H FSS

59 039.0-E User2 1 HL 0 DVBQ AUTO 10983600 8052000 F2

60 039.0-E User3 5 HL 0 DVBQ AUTO 11151400 3000000 F2

70

Satellite Information for Asia

TS

Satellite

Longitude

Name Xpndr

Polarity

LO-Band

Network

ID

FEC

MODE

FEC

Rate

Transponder

Frequency

Symbol

Rate

Beam

61 116.0-E KoreaSat 3 2 LL 0 DVBQ AUTO 11747000 21300000 South Kor

62 110.0-E N-Sat110(SBir

D)

15 LH 0 DVBQ AUTO 12551000 29915000 Japan

63 75.0-E ABS1 11S HH 0 DVBQ AUTO 12579000 22000000 South

64 128.0-E JCSAT3 14 HH 0 DVBQ AUTO 12368000 21096000 Japan

65 124.0-E JCSAT 4A 18 HH 0 DVBQ AUTO 12523000 21096000 Japan

66 166.0-E Intelsat8 17 HH 0 DVBQ AUTO 12462000 2222000 NE Asia

67 144.0-E SuperBird C 5 HH 0 DVBQ AUTO 12523000 21096000 Japan H

68 095.0-E NSS3 INHC3 HH 0 DVBQ AUTO 12647000 27500000 India

69 156.0-E Optus_C1 20 HH 0 DVBQ AUTO 12689000 27800000 NB

70 160.0-E Optus_D1 14 HH 0 DVBQ AUTO 12613000 14294000 NB

71 152.0-E Optus_D2 15L HH 0 DVBQ AUTO 12644000 22500000 NANZ

72 116.0-E User 1 2 LL 0 DVBQ AUTO 11747000 21300000 South Kor

73 116.0-E User 2 2 LL 0 DVBQ AUTO 11747000 21300000 South Kor

74 116.0-E User 3 2 LL 0 DVBQ AUTO 11747000 21300000 South Kor

Available but not programmed with default positions.

75 116.0-E User 4 2 LL 0 DVBQ AUTO 11747000 21300000 South Kor

through

80 116.0-E User 9 2 LL 0 DVBQ AUTO 11747000 21300000 South Kor

71

Appendix E: Radome and Antenna mounting holes layout

Figure E-1 S3 Plastic Radome Layout