SAILOR 6110 mini-C GMDSS - Electrotech Australia · 2020. 1. 28. · The SAILOR 3027 communicates...

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SAILOR 6110 mini-C GMDSS Installation manual

Transcript of SAILOR 6110 mini-C GMDSS - Electrotech Australia · 2020. 1. 28. · The SAILOR 3027 communicates...

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SAILOR 6110 mini-C GMDSSInstallation manual

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SAILOR 6110 mini-C GMDSS

Installation manual

Document number: 98-154173-A

Release date: December 23, 2016

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Disclaimer

Any responsibility or liability for loss or damage in connection with the use of this product and the accompanying documentation is disclaimed by Thrane & Thrane A/S. The information in this manual is provided for information purposes only, is subject to change without notice and may contain errors or inaccuracies. Manuals issued by Thrane & Thrane A/S are periodically revised and updated. Anyone relying on this information should acquire the most current version e.g. from www.cobham.com/satcom, Cobham SYNC Partner Portal, or from the distributor. Thrane & Thrane A/S is not responsible for the content or accuracy of any translations or reproductions, in whole or in part, of this manual from any other source. In the event of any discrepancies, the English version shall be the governing text.

Thrane & Thrane A/S is trading as Cobham SATCOM.

Copyright

© 2016 Thrane & Thrane A/S. All rights reserved.

Trademark Acknowledgements• Inmarsat is a registered trademark of the International Maritime Satellite

Organisation (IMSO) and is licensed by IMSO to Inmarsat Limited and Inmarsat Ventures plc.

• SAILOR is a registered trademark of Thrane & Thrane A/S in the European Union, the United States and other countries.

• Other product and company names mentioned in this manual may be trademarks or trade names of their respective owners.

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Safety summary

The following general safety precautions must be observed during all phases of operation, service and repair of this equipment. Failure to comply with these precautions or with specific warnings elsewhere in this manual violates safety standards of design, manufacture and intended use of the equipment. Thrane & Thrane A/S assumes no liability for the customer's failure to comply with these requirements.

Observe marked areasUnder extreme heat conditions do not touch areas of units that are marked with this symbol, as it may result in injury.

Microwave radiation hazardsDuring transmission the antenna in this system radiates Microwave Power.This radiation may be hazardous to humans close to the antenna. When the system is powered, make sure that nobody gets closer than the recommended minimum safety distance of 0.3 m (1 ft.).

Dangers de rayonnements micro-ondesLors de transmissions, l'antenne émet des rayons micro-ondes puissants. Ce rayonnement peut être dangereux pour les personnes à proximité de l'antenne. Lorsque le système est sous tension, assurez-vous que personne ne s’approche à moins de 0,3 m (1 pi.) de l’antenne, la distance de sécurité minimale recommandée.

Keep away from live circuitsOperating personnel must not remove equipment covers. Only qualified maintenance personal must make component replacement and internal adjustment. Under certain conditions, dangerous voltages may exist even with the cable removed. To avoid injuries, always disconnect power and discharge circuits before touching them.

Compass safe distanceMinimum safety distance: 5 m from the SAILOR 3027 GMDSS Terminal.

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About the manual

Naming conventions

The following naming conventions are used in this manual:

Intended readers

This manual is an installation manual for the SAILOR 6110 mini-C GMDSS. The manual is intended for installers of the system and service personnel. Personnel installing or servicing the system must be properly trained and authorized by Cobham SATCOM. It is important that you observe all safety requirements listed in the beginning of this manual, and install the system according to the guidelines in this manual.

Manual overview

Note that this manual does not cover how to use the system. For information on usage refer to the user manual [1].

This manual covers the SAILOR 6110 with the SAILOR 6018 Message Terminal. For information specific to the SAILOR 6006 Message Terminal, refer to the manuals [7], [8] and [9].

Part numbers for related manuals are listed in the next section.

This manual has the following chapters:

• Introduction contains an overview of the system.

• Install the system explains how to mount the units.

Short name Used for

SAILOR 6110 SAILOR 6110 mini-C GMDSS

SAILOR 3027 SAILOR 3027 GMDSS Terminal

SAILOR 6018 SAILOR 6018 Message Terminal

terminal SAILOR 3027 GMDSS Terminal, orgenerally for mini-C terminals

Table 1: Naming conventions for terminal and system

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• Connect the system explains how to connect the units in the system and shows wiring, pin-out and cable requirements.

• Configuration describes the tools available and explains the initial configuration of the system.

• Installation check and test contains a check list for verifying the physical installation and guidelines for testing the installation.

• Service and maintenance contains guidelines for handling, maintaining and repacking the SAILOR 6110.

Related documents

The below list shows the documents related to this manual and to the SAILOR 6110 mini-C GMDSS.

Ref Title and description Document number

[1] SAILOR 6110 mini-C GMDSS, User manual(with SAILOR 6018 Message Terminal)

98-154172

[2] SAILOR 6018 Message Terminal, Installation manual

98-150478

[3] SAILOR 6101 and 6103 Alarm Panel, Installation and user manual

98-130981

[4] SAILOR 6081 PSU and Charger, Installation and user manual

98-130980

[5] SAILOR 6000 GMDSS Console system, Installation manual

98-131571

[6] SAILOR 6194 Terminal Control Unit,Installation and user manual

98-131593

[7] SAILOR 6110 mini-C GMDSS, User manual(with SAILOR 6006 Message Terminal)

98-130753

[8] SAILOR 6110 mini-C GMDSS, Installation manual(with SAILOR 6006 Message Terminal)

98-130752

Table 2: Related documents

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Typography

In this manual, typography is used as indicated below:

Bold is used for the following purposes:

• To emphasize words. Example: “Do not touch the antenna”.

• To indicate what the user should select in the user interface. Example: “Select SETTINGS > LAN”.

Italic is used to emphasize the paragraph title in cross-references.Example: “For further information, see Connecting Cables on page...”.

COURIER is used to indicate low level commands or text in the display. Example: “The display shows Distress”.

Online training for Cobham SATCOM partners

As a Cobham SATCOM Partner you have access to free of charge technical training in this SAILOR product covering installation, commissioning and repair.

For details on available training classes please consult the Training Academy. If the above link does not work, go to cobham.com/satcom. Select Cobham SYNC Partner Portal. Then select Training. Enter email and password and log into the Cobham SATCOM Training Academy.

To learn more on CAN-bus as used with this product you may take the eLearning course “Introduction to CAN-bus” available at the Training Academy.

[9] SAILOR 6006/6007 Message Terminal,Installation manual

98-130088

[10] Software Interface Reference Manual for the TT-3027C/D/M/LT/SSA mini-C transceivera

98-147405

a. Only available for certified partners.

Ref Title and description Document number

Table 2: Related documents

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Table of contents

Chapter 1 Introduction

1.1 SAILOR 6110 system overview.................................................2

1.2 Units in the system ................................................................... 3

1.3 SSA option .................................................................................... 8

Chapter 2 Install the system

2.1 Unpack ......................................................................................... 10

2.2 General installation requirements .................................. 11

2.3 Install the SAILOR 3027..............................................................13

2.4 Mount the SAILOR 1252 printer ...........................................20

Chapter 3 Connect the system

3.1 Connect the units ............................................................................23

3.2 Ground the units ..............................................................................26

3.3 The CAN backbone ................................................................ 29

3.4 Connect power ........................................................................ 30

3.5 Connectors and pinout ........................................................ 36

Chapter 4 Configuration

4.1 Register your SAILOR 3027 ......................................................48

4.2 Configuration using SAILOR 6018.......................................50

4.3 Configuration using commands ...................................... 61

4.4 SSA buttons configuration (optional) .......................... 62

4.5 SAILOR 1252 printer configuration ............................... 70

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Table of contents

Chapter 5 Installation check and test

5.1 Installation check list ............................................................ 72

5.2 Test the system ................................................................................73

Chapter 6 Service and maintenance

6.1 Update the software ............................................................. 80

6.2 Generate a diagnostic report...................................................83

6.3 Maintenance guidelines ...................................................... 84

6.4 Service and repair ................................................................... 85

6.5 Available parts .......................................................................... 86

App. A Technical specifications

A.1 SAILOR 6110 specifications ....................................................89

A.2 SAILOR 3027 specifications ....................................................89

Glossary ..................................................................................................................................93

Index ..................................................................................................................................97

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List of tables

Table 1: Naming conventions for terminal and system ....................................iv

Table 2: Related documents ............................................................................................v

Chapter 1 Introduction

Chapter 2 Install the system

Table 3: Power consumption of system units......................................................12

Table 4: Replaceable fuses in the system...............................................................12

Chapter 3 Connect the system

Table 5: Cables in the system ......................................................................................25

Table 6: Power cable connections.............................................................................31

Table 7: Max. cable length in meters for 29 VDC operation ........................33

Table 8: SAILOR 3027 CAN connector pinout ....................................................36

Table 9: SAILOR 6018, USB connector pinout....................................................38

Table 10: SAILOR 6018, Ethernet connector pinout...........................................39

Table 11: SAILOR 6018, CAN connector pinout ...................................................40

Table 12: SAILOR 6018, Power connector pinout................................................40

Table 13: Alarm Panel, DC connector pinout..........................................................42

Table 14: Alarm Panel, Ethernet connector pinout ..............................................42

Chapter 4 Configuration

Table 15: Supported LESes...............................................................................................67

Chapter 5 Installation check and test

Table 16: Installation check list .....................................................................................72

Chapter 6 Service and maintenance

Table 17: Cables and connectors, part numbers ...................................................86

Table 18: Adjustable pole/railing mount kit, part number ................................87

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List of tables

Table 19: Plate washer for SAILOR 3027, part number .....................................87

App. A Technical specifications

Table 20: SAILOR 6110 mini-C GMDSS specifications......................................89

Table 21: SAILOR 3027 GMDSS Terminal specifications .................................89

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Introduction 1

This chapter introduces the SAILOR 6110 mini-C GMDSS and briefly describes each unit in the system. It has the following sections:

• SAILOR 6110 system overview

• Units in the system

• SSA option

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Chapter 1: Introduction

1.1 SAILOR 6110 system overview

The drawing below shows an example of a SAILOR 6110 mini-C GMDSS.

The SAILOR 6110 is a Global Maritime Distress and Safety System (GMDSS) used for sending and receiving messages and Distress alerts through the Inmarsat C satellite network.

Each unit is briefly described in the following sections. For a description of the services supported by the Inmarsat C system and the SAILOR 6110, see the user manual for the SAILOR 6110 mini-C GMDSS [1].

Inline micro

SAILOR 6110 GMDSS (example)

termination

CAN

CAN

LAN

LAN

LAN USBUSB

SAILOR 3027

SAILOR 6197

SAILOR 6081

SAILOR 6018

SAILOR 6001

SAILOR 6101/6103

SAILOR 1252

2 SAILOR 6110 system overview

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1.2 Units in the system

The SAILOR 6110 mini-C GMDSS comes with the following units:

• SAILOR 3027 GMDSS Terminal

• SAILOR 6018 Message Terminal

In addition to these two system units, you need a power supply and a printer as a minimum. Cobham SATCOM offers the following units for use with the SAILOR 6110.

• SAILOR 6081 PSU and Charger

• SAILOR 1252 Printer

• SAILOR 6197 Ethernet switch

• SAILOR 6101/6103 Alarm Panel

• SSA option

The next sections describe each of these units and options.

1.2.1 SAILOR 3027 GMDSS Terminal

The SAILOR 3027 is a GMDSS approved Inmarsat GMDSS Terminal for the SAILOR 6110 system. It has a built-in LNA/HPA and an omni-directional antenna designed to operate on vessels. The housing is sealed and contains no user serviceable parts.

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Chapter 1: Introduction

The SAILOR 3027 is very compact and is designed to operate in extreme weather conditions. It has a highly sensitive built-in GPS module with 50 channels. The elevation angle of the antenna goes down to -15°, ensuring optimum communication even in rough weather.

The SAILOR 3027 communicates locally using a CAN bus interface, capable of carrying power as well as bi-directional communication.

For information on how to install the SAILOR 3027, see Install the SAILOR 3027 on page 13.

1.2.2 SAILOR 6018 Message Terminal

The SAILOR 6018 Message Terminal is a GMDSS approved message terminal for the SAILOR 6110. With the SAILOR 6018 you can send Distress alerts, read and write messages, monitor system status, change the configuration and test the system. The SAILOR 6018 has a Distress button for sending Distress alerts, and buttons for Mute, Dim and Power.

The SAILOR 6018 has a touch-screen interface and can be operated without a keyboard. However, a keyboard is mandatory in a GMDSS system and is included with the SAILOR 6110.

4 Units in the system

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A CAN interface connects to the SAILOR 3027 and an Ethernet interface connects to other equipment, such as alarm panels or a SAILOR 6081 power supply.

For information on how to install the SAILOR 6018, see SAILOR 6018 Message Terminal, Installation manual [2].

1.2.3 SAILOR 6081 PSU and Charger

The SAILOR 6081 PSU and Charger is not included with the SAILOR 6110.

The SAILOR 6081 is used to supply power to the units in the SAILOR 6110 system. It has five DC outputs of 24 V DC to 31.5 V DC (nominal 29 V DC) each and provides 300 W continuous (370 W peak).

The SAILOR 6081 PSU and Charger provides automatic switch-over to a connected backup battery if 115/230 VAC is not available. It also has a charger function for charging the battery when 115/230 VAC is available. Note that a backup battery is mandatory in the SAILOR 6110.

On the SAILOR 6018 you can read status information such as AC alarm, backup battery status and other status information from the SAILOR 6081, through the Ethernet connection.

For further information on the SAILOR 6081, see SAILOR 6081 PSU and Charger, Installation and user manual [4].

Note If you are using a different type of power supply than the SAILOR 6081, you must install a voltage monitor.

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Chapter 1: Introduction

1.2.4 SAILOR 1252 Printer

The SAILOR 1252 printer is not included with the SAILOR 6110.

The SAILOR 1252 is a standard matrix printer which connects to one of the USB connectors on the SAILOR 6018. In the SAILOR 6110 system it is primarily used to print SafetyNet EGCs with Distress priority.

1.2.5 SAILOR 6197 Ethernet switch

The SAILOR 6197 Ethernet switch is not included with the SAILOR 6110.

The SAILOR 6197 connects the system units that have an Ethernet interface.

In the SAILOR 6110 system, the local network is primarily used for monitoring purposes, alarm reporting and service.

6 Units in the system

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1.2.6 SAILOR 6101/6103 Alarm Panel

The SAILOR 6101/6103 Alarm Panel is not included with the SAILOR 6110.

In addition to the Distress button on the SAILOR 6018, you may have a second Distress button (mandatory in most installations, check with the GMDSS regulations). For this purpose you can use an alarm panel. Two types of alarm panel are available from Cobham SATCOM:

• SAILOR 6101 Alarm PanelThis SAILOR 6101 has one Distress button, used for initiation of Distress alert transmissions and for indication of incoming Distress and urgency messages on Inmarsat-C GMDSS systems.

• SAILOR 6103 Multi Alarm PanelLike the SAILOR 6101, the SAILOR 6103 is used for initiation of Distress alert transmissions and for indication of incoming Distress and urgency messages, but the SAILOR 6103 is designed for use with both VHF, MF/HF and Inmarsat-C GMDSS systems and has 3 Distress buttons, one for each system.

For further information on the SAILOR 6101/6103, see SAILOR 6101 and 6103 Alarm Panel, Installation and user manual [3].

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Chapter 1: Introduction

1.3 SSA option

The Ship Security Alert System provides ships with alarm buttons, which can be activated in case of a piracy or terrorist attack. The alarm is a covert signal with no sound nor flashing lights, so it is not seen nor heard by any intruders on board the ship. The SSA option consists of three SSA buttons (two alarm buttons and one test button). It connects to the SAILOR 6110 through the SAILOR 6194 Terminal Control Unit. The CAN interface, which connects the SAILOR 6110 to the SAILOR 6194, also provides the power for the SSA option.

The SAILOR 3027 must be configured with the recipient(s) of the SSA, see SSA buttons configuration (optional) on page 62. For details on the SSA option, refer to SAILOR 6194 Terminal Control Unit, Installation and user manual [6].

SAILOR 6110 GMDSS with SSA (example)

29 V DC

LAN

LAN

LAN

LANCAN

CAN

CAN

USBUSB

SAILOR 3027 SAILOR 6194

SAILOR 6197

SAILOR 6081

SAILOR 6101/6103

SAILOR 1252

SAILOR 6001

SAILOR 6018

SAILOR 6100-913 SSA Kit/SAILOR 6100-916 SSA US Kit

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Install the system 2

This chapter describes the mechanical installation of the units in the SAILOR 6110 system.

Cables and wiring of the system: see Connect the system on page 23.

How to configure and use the system: see SAILOR 6110 mini-C GMDSS, User manual (with SAILOR 6018 Message Terminal) [1].

The following sections describe

• Unpack

• General installation requirements

• Install the SAILOR 3027

• Mount the SAILOR 1252 printer

Mechanical installation of all other units in the system is described in the individual installation manuals for the units. The names and numbers of the manuals are listed in Related documents on page v in the beginning of this manual.

Note Installation of SSA buttons is described in the SAILOR 6194 manual [6].

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Chapter 2: Install the system

2.1 Unpack

2.1.1 Initial inspection

Inspect the shipping carton immediately upon receipt for evidence of damage during transport. If the shipping carton is severely damaged or water stained, request that the carrier's agent be present when opening the carton. Save the carton packing material for future use.

After unpacking the system, inspect it thoroughly for hidden damage and loose components or fittings. If the contents are incomplete, if there is mechanical damage or defect, or if the system does not work properly, notify your dealer.

2.1.2 What’s in the delivery

The following items are included in the delivery:

• SAILOR 3027 GMDSS Terminal

• Pole mount kit for SAILOR 3027.

• SAILOR 6018 Message Terminal

• SAILOR 6001 Operator keyboard (for SAILOR 6018)

• Accessories kit including cables and connectors. For details, see Cables and connectors on page 25.

• Manuals:

• SAILOR 6110 mini-C GMDSS, Installation manual (this manual) and

• SAILOR 6110 mini-C GMDSS, User manual

Warning! To avoid electric shock, do not apply power to the system if there is any sign of shipping damage to any part of the front or rear panel or the outer cover. Read the safety summary at the front of this manual before installing or operating the system.

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2.2 General installation requirements

The SAILOR 6110 can be installed separately or in a dedicated console. For information on how to install the system in the console, see SAILOR 6000 GMDSS Console system, Installation manual [5].

2.2.1 Painting the radome

Customers may wish to paint the radome in order to match the vessel’s color. Cobham SATCOM’s recommendation is that the radome should NOT be painted because it may impact RF performance and may lead to over-heating, causing the antenna to go in safe mode (switch off). However, painting the radome will not void the general warranty regarding material and workmanship etc. It is only the performance that cannot be guaranteed. Any paint used must be non-metallic based.

2.2.2 Power requirements

2.2.2.1 Power consumption

The total power consumption varies primarily due to system activities. Make sure the backup battery is capable of providing the required power, and also consider the power consumption in the power supply.

Important Only the SAILOR 3027 GMDSS Terminal must be placed outdoors. Place all other units in the system indoors! For information on environmental requirements to the units, refer to Technical specifications on page 89 or the individual installation manuals for the units.

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Chapter 2: Install the system

As a guideline, note the power consumption of the following equipment:

2.2.2.2 Fuses

Before exchanging a fuse, check that the unit has not been damaged.

The units in the SAILOR 6110 have the following replaceable fuses:

Unit Idle power Max. power

SAILOR 3027 GMDSS Terminal 1.85 W 30 W

SAILOR 6018 Message Terminal(12 V DC - 24 V DC nominal)

20 W (typical) 60 W (peak)

SAILOR 6081 PSU and charger 8 W 30 W

SAILOR 6101 Alarm Panel 1 W 2 W

SAILOR 6103 Multi Alarm Panel 1 W 4 W

SAILOR 1252 Printer 3 W 30 W

Table 3: Power consumption of system units

Note Only units with a replaceable fuse are listed in the table below.

Unit Location Fuse type

SAILOR 6081PSU and Charger.

AC input: Externally accessed, next to Power switch.

For other fuses, see SAILOR 6081 PSU and Charger, Installation and user manual [4]

6.3 AT, 5x20 mm

SAILOR 1252 Printer Internally accessed, remove top cover

6.3 AT, 5x20 mm

Table 4: Replaceable fuses in the system

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2.2.3 Grounding availability

Use a suitable location as close as possible to the SAILOR 6081 for connecting the units to ship ground (hull).

2.3 Install the SAILOR 3027

2.3.1 Location of the SAILOR 3027 GMDSS Terminal

Place the terminal outdoors on the ship. Before mounting the terminal, consider the following:

• Safety distance: 1 ft. (0.3 m).Place the terminal so that no person can accidently get closer to the terminal than the safety distance 1 ft. (0.3 m).

• Distance to exhaust fumes.Do not place the terminal close to the funnel directly exposed to exhaust fumes.

• Distance to heat.Do not place the terminal close to any heat source.

• Distance to other equipment.Keep the following distances between the terminal and other equipment:

• Compass safe distance: > 5 m (distance to magnetic compass)

• HF antennas: > 5 m

• VHF antennas: > 4 m

• Other Inmarsat C terminals: > 0.5 m

• Line of sight.Place the terminal in an area as free from obstructions as possible in all directions down to 15° below the horizon.

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Chapter 2: Install the system

If obstructions cannot be avoided, place the receiver so that the obstruction covers no more than 2° of the view from the terminal. To obtain this, the distance between the obstruction and the terminal must be minimum 29 x diameter of the obstruction.

Example: The obstruction is a pole of 0.1 m diameter. This means the terminal must be placed 29 x 0.1 m = 2.9 m from the obstruction.

• Power source available.The power source must be placed as close as possible to the terminal.

Zenith

Horizon

15°

Horizon

15°

Obstructions should be below these lines

14 Install the SAILOR 3027

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• Grounding available.Make sure that the shield of the CAN cable is connected to a proper ground, i.e. the ship’s structure/hull. This is very important in order to protect persons and equipment from lightning and safely bypass interference from Radar, VHF/MF/HF radio equipment and other environmental sources of interference.

Important Do not make the ground connection at the SAILOR 3027 end of the CAN cable. Instead, connect the shield of the CAN cable to the terminal marked in the DC output on the SAILOR 6081.

Install the SAILOR 3027 15

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2.3.2 Mount the SAILOR 3027 GMDSS Terminal

The SAILOR 3027 has one CAN connector and is designed primarily for pole mounting.

• For mechanical drawings, see Mechanical outline drawing, SAILOR 3027 on page 19.

• For information on wiring, see Connect the system on page 23.

• For part numbers of the mounting accessories, see Available parts on page 86.

2.3.2.1 Pole mount 1”

The pole mount kit is included with your SAILOR 3027. Follow the instructions included with the pole mount kit.

1. Lead the cable through the pole and pole mount adapter.

2. Connect the CAN cable to the terminal.

3. Mount cable relief for the CAN cable.

4. Mount the adapter on the terminal using screws.

5. Tighten the adapter to the pole.

Important Do not tighten the screws more than max. torque 2.5 Nm when you mount the SAILOR 3027. Tightening the screws too much may cause damage to the housing of the SAILOR 3027 and thus impair the protection against water intrusion. If you are mounting the terminal directly on a plain surface, use a large spacer (order no. 403027-921) between the mounting surface and the SAILOR 3027 and tighten the screws to torque 1.5 - 2.5 Nm.

Note The connector is waterproof. Do not attempt to seal the connection any further.

16 Install the SAILOR 3027

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You may use the adjustable pole/railing mount as an alternative to the pole mount. See the next section for details.

2.3.2.2 Adjustable pole/railing mount 1” and 1½” (optional)

The adjustable pole/railing mount kit is available from Cobham SATCOM (see Available parts on page 86). When mounting the adjustable pole/railing mount follow the instructions included with the kit. The adjustable pole/railing mount fits 1” and 1½” poles and can be mounted on a vertical or horizontal pole.

Do as follows:

1. Attach the pole/railing mount to the pole using the included nuts and spacers. The drawings on the next page show the vertical and the horizontal assembly.

2. Tighten the nuts.

3. Place the large spacer between the SAILOR 3027 and the pole/railing mount.

4. Fasten the SAILOR 3027 to the pole/railing mount using the 3 screws and spacers.

5. Tighten the screws to torque 1.5 - 2.5 Nm.

6. Connect the CAN cable to the connector in the bottom of the SAILOR 3027.

7. Mount cable relief for the CAN cable.

Note You cannot access the CAN connector when the pole mount adapter is mounted on the SAILOR 3027. If at a later stage you need to disconnect/connect the cable, the pole mount adapter must first be removed from the terminal.

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Vertical pole:

Horizontal pole:

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2.3.2.3 Mechanical outline drawing, SAILOR 3027

ø170.5

ø1

64.

6

M4 x 3Length of thread: 6 mm

120°

157 14

5

Connector housingConec

ø64

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2.4 Mount the SAILOR 1252 printer

2.4.1 Location of the printer

The printer must be placed indoors in a dry location, close to the SAILOR 6018 Message Terminal. The SAILOR 6018 and the printer are connected with a USB cable, which means the maximum distance between the two units is 5 m.

If your printer is to be installed in a System 6000 Console, see SAILOR 6000 GMDSS Console system, Installation manual [5].

20 Mount the SAILOR 1252 printer

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2.4.2 Mounting the printer

To mount the SAILOR 1252 with the included mounting kit H1250, do as follows:

1. Fasten the plate to the printer with the 3 M4 x 20 screws included in the kit.

2. Fasten the plate with printer to the mounting surface using the 4 self-cutting screws M4.2 x 25 and washers included in the kit.

Mount the SAILOR 1252 printer 21

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2.4.2.1 Mechanical outline drawing, SAILOR 1252 Printer

22 Mount the SAILOR 1252 printer

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Connect the system 3

This chapter explains how to connect the units in the SAILOR 6110 system and describes connectors, pin-out and cable requirements. It has the following sections:

• Connect the units

• Ground the units

• The CAN backbone

• Connect power

• Connectors and pinout

3.1 Connect the units

Before connecting the units, read all sections in this chapter.

Connect the units according to the Wiring overview on the next page and the requirements in this chapter.

Important Do not connect and switch on the SAILOR 6081 PSU and Charger until all other units are connected!

Caution! Do not connect 3rd party equipment to the CAN bus unless it is specified to run at the supplied power. It may not be designed to operate at the suggested 29 VDC power supply. All Cobham SATCOM equipment mentioned in this manual is designed to operate within a range of 10.8-32 VDC.

23

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3.1.1 Wiring overview

The drawing below shows the wiring of a basic SAILOR 6110 system.

The cables and connectors marked with W and C in the drawing are listed in the table in Cables and connectors on page 25.

24 Connect the units

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3.1.2 Cables and connectors

To see where the cables (W) and connectors (C) are located, refer to the drawing on the previous page. The below table lists the cables and connectors from the drawing.

Cable Type Included/not included

W1 NMEA 2000 Mini Device Cable Included (30 m) with SAILOR 6110

W2 NMEA 2000 Micro Device Cable Included (6 m) with SAILOR 6110

W3 NMEA 2000 Mini Device Cable Included (6 m) with SAILOR 6110

W4 W5 W6

Power cables to SAILOR 6018, Alarm Panel and printer

Included with each unit

W7 USB cable Included (1 m) with printer

W8 Cat. 5E LAN cables, shielded Not included, must be purchased separately

W9 DC power cable to Ethernet switch, shielded

Not included, must be purchased separately

W10 DC cable to battery Not included, must be purchased separately

W11 AC Power cable with ground wire to SAILOR 6081 PSU and Charger

Not included, must be purchased separately

C1 Mini/Micro NMEA 2000 T-connector

Included (1 pcs.) with SAILOR 6110

Table 5: Cables in the system

Connect the units 25

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As an alternative to the NMEA connectors you may use a CAN connection box, (part number 406208A).

If you are going to use the SSA option, you must also acquire

• a SAILOR 6194 Terminal Control Unit

• an SSAS kit including cable SAILOR 6100-913 SSA Kit or SAILOR 6100-916 SSA US Kit

For a list of additional cables and connectors available from Cobham SATCOM, see Available parts on page 86.

If you are using a SAILOR 6194 Terminal Control Unit, refer also to the manual SAILOR 6194 Terminal Control Unit, Installation and user manual [6].

3.2 Ground the units

Make sure you have a suitable grounding location for grounding the units, preferably close to the power supply. See page 15 in the section Location of the SAILOR 3027 GMDSS Terminal.

C2 Micro NMEA 2000 T-connector Included (1 pcs.) with SAILOR 6110

C3 Inline Micro termination Connector, or termination in last unit in CAN backbone.

Included (1 pcs.) with SAILOR 6110

Cable Type Included/not included

Table 5: Cables in the system (Continued)

26 Ground the units

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3.2.1 SAILOR 3027 GMDSS Terminal

You may use a special CAN cable, containing only the power wires and shield, to connect to the power supply. Using a T-connector, this cable can be connected to the full CAN bus (and thus to the SAILOR 3027).

If you are using the SAILOR 6081 PSU and Charger, connect the shield of the CAN cable to the spring-loaded terminal marked next to the DC output used to supply power for the SAILOR 3027.

Important The shield of the CAN cable from the terminal must be grounded at the power supply, not at the terminal. This is to ensure that any lightning strike at the terminal will be directed straight to the ship ground, and away from equipment operated by personnel.

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3.2.2 SAILOR 6018 Message Terminal

Connect a ground wire between the ground stud on the SAILOR 6018 and ship ground.

3.2.3 SAILOR 6081 PSU and Charger

For further information on how to install the SAILOR 6081 PSU and Charger, see SAILOR 6081 PSU and Charger, Installation and user manual [4].

Ground planeconnected to ship hullGround stud

ImportantWhen installing the power supply, make sure you connect the chassis of the power supply to ship ground. This is to ensure that any lightning strike at the terminal will be directed straight to the ship ground, and away from equipment operated by personnel.

28 Ground the units

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3.3 The CAN backbone

When connecting the CAN backbone, be aware of the following requirements:

• The CAN bus is already terminated with 120 Ohm inside the SAILOR 3027. You must provide the CAN bus with a termination resistance of 120 Ohm at the other end of the CAN backbone, either with a separate termination resistance or inside the last device on the CAN backbone.

• The cable length from each device to the CAN T-connector must be maximum 6 m.

• The total length of the backbone must be maximum 200 m.

• Make the ground connection to ship ground (hull) at the power supply - and only there.

• Connect the shield of the CAN cable to the connectors throughout the system, but only connect to ship ground at the power supply.

Max.6 m

Max.6 m

Max.6 m

Max. 200 m120 Ohm

120 Ohmhere orhere

GND(ship hull)

Max.6 m

The CAN backbone 29

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3.4 Connect power

3.4.1 Power source

The power source for the SAILOR 6110 mini-C GMDSS must comply with GMDSS regulations, e.g. there must be a main power source and a battery backup system.

A suitable power supply, the SAILOR 6081 PSU and Charger, is available from Cobham SATCOM.

If you are using the SAILOR 6081, connect the power wires in the CAN bus from the SAILOR 3027 to the 29 V DC output from the SAILOR 6081 PSU and Charger. For power requirements from the other units in the system, refer to the specifications in their respective installation manuals.

3.4.2 Connect the power cables

3.4.2.1 SAILOR 3027

The SAILOR 3027 has one CAN connector, which is also used for power input.

1. Connect the red wire to DC+ and the black wire to DC- in the power supply.

2. Connect the shield of the CAN cable to chassis on the power supply, which must be connected to ship ground. See Ground the units on page 26.

Note If you are not using the SAILOR 6081 you must provide a voltage monitor for your power supply.

30 Connect power

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If you are using the SAILOR 6081 PSU and Charger, connect the following wires from the CAN cable:

3.4.3 Calculate power cables for the SAILOR 3027

If possible, use the cables included with your SAILOR 6110 system.

If you want to use other cables or extend the included cables, use the guidelines in this section to calculate the maximum length of your power cables.

• When extending the power cable, positive and negative supply wires must be installed closely together side by side to keep cable inductance low.

• Ensure that cable inductance for the selected cable at the desired length is below the 50 uH requirement. Refer to the data sheet for the cable you are using.

3.4.3.1 Source impedance

The length of the power cable depends on the type of cable used and the source impedance of the ship’s DC power source.

The maximum allowed source impedance depends on the utilization of the power range of the DC input (9 - 32 V DC for the SAILOR 3027).

The total impedance is made up of the source impedance of the power supply plus the impedance of connected cables including connectors and joints where cables might be extended.

WireTerminal on X10, X11, X12, X13 or X14 connector (29 VDC output in SAILOR 6081 PSU and Charger)

DC+, red wire +

DC-, black wire -

Shield

Table 6: Power cable connections

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3.4.3.2 Calculate the maximum power cable length

Max. total impedance:

• 29 VDC operation: max. 2.7 ohm including the source impedance of the ship installation.

To calculate the maximum cable length, do as follows:

1. If you are using the SAILOR 6081 PSU go to step 2. If you are using another DC power source or want to extend the included cable then measure the source impedance as shown in Measure the ship source impedance on page 34.

2. Find the resistance per m for the cable type you are going to use.Table 7 shows typical cable resistance - note that your cable type may differ from this. Refer to the data sheet for the cable you are using.

3. Calculate the maximum cable length as follows:

0.5 x (max. total impedance1 - measured source impedance)Max. cable length = cable impedance per meter

1. Max. total impedance:29 VDC operation: max. 2.7 ohm including the source impedance of the ship installation.

Important The max. cable length is 200 m if the cable is also carrying the communication interface and not just power.

32 Connect power

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29 VDC operation: Examples of max. cable lengths in meters for different cable types and source impedance.

Note Remember that the total max. cable length from the mini-C to the last unit on the CAN bus must never exceed 200 m! See The CAN backbone on page 29.

Supply Voltage 29 Volt

Source imp. in mOhm > 0 50 100 200

mOhm/m

AWG 11 4.13 200a 200a 200a 200a

AWG 12 5.21 200a 200a 200a 200a

AWG 13 6.57 200a

a. This is not the calculated length, but the max. CAN cable length from the mini-C to the last unit on the CAN bus. You must take into consideration the length of the cable from the T-connector to the power supply (max. 6 m), and the length of cables from the mini-C to the last unit on the CAN bus (max. 200 m).

199 195 188

AWG 14 8.29 161 158 155 149

AWG 15 10.45 128 125 123 118

AWG 16 13.17 101 99 97 94

AWG 17 16.61 80 79 77 74

AWG 18 20.95 64 62 61 59

AWG 19 26.42 50 50 49 47

AWG 20 33.31 40 39 39 37

Table 7: Max. cable length in meters for 29 VDC operation

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3.4.4 Measure the ship source impedance

3.4.4.1 Without supplied cable

If you want to use another cable instead of the supplied cable, measure the source impedance without the cable as follows:

1. Measure the voltage without load (R.var disconnected).

2. Set the current to e.g. 1 A by adjusting R.var.

3. Measure the corresponding voltage change.

4. Calculate the source impedance from the voltage and the current.

Example: 1 A and 100 mV. Source impedance: 100 mV/1 Amp = 100 mOhm.

You can use this source impedance to calculate the maximum length of the cable between the power outlet and the SAILOR 3027.

Power outletfor terminal

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3.4.4.2 With the supplied cable

If you want to extend the supplied cable, measure the source impedance including the supplied cable, as follows:

1. Connect the supplied power cable to the DC power source.

2. Connect the other end of the power cable to the Mini part of the Mini/Micro T-connector.

3. Connect the cable for the SAILOR 3027 to the T-connector, but do not connect the other end to the terminal.

4. At the unconnected end of the CAN cable, measure the source impedance as described in the next steps.

5. Measure the voltage without load (R.var disconnected).

6. Set the current to e.g. 1 A by adjusting R.var.

7. Measure the corresponding voltage change.

8. Calculate the source impedance from the voltage and the current.

Example: 1 A and 950 mV. Source impedance: 950 mV/1 Amp = 950 mOhm.

You can use this source impedance to calculate the maximum length of the extension cable.

Power outletfor terminal

End of cable at SAILOR 3027 end

6 m power cable plus 30 m Mini Device cable

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3.5 Connectors and pinout

3.5.1 SAILOR 3027 GMDSS Terminal

The SAILOR 3027 has one male CAN socket for connecting to power as well as communication interfaces. The table and drawing below show the pin-out for the connector.

Important Secure the CAN cable at the SAILOR 3027 to avoid stressing the CAN connector and the housing of the terminal.

Pin Function Wire color

1 Not connected None

2 + Power Red

3 - Power Black

4 CAN H White

5 CAN L Blue

Table 8: SAILOR 3027 CAN connector pinout

1

23

4

5

Front view on SAILOR 3027

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3.5.2 SAILOR 6018 Message Terminal

3.5.2.1 Overview

The drawing below shows the connector panel of the SAILOR 6018.

In the SAILOR 6110 system, the following connectors on the SAILOR 6018 are used:

• USB interface.Connects to the SAILOR 1252 Printer and to the keyboard. You may also connect a USB memory stick.

• LAN/ Ethernet interface.Connects to the SAILOR 6197 Ethernet Switch.

• ground stud.Connects to ship ground.

• SYS (CAN) interface.Connects to the SAILOR 3027 and optionally other equipment using the CAN interface.

• DC Power input. Connects to the SAILOR 6081 PSU and Charger.

The next sub-sections show the pin-out for these connectors.The connectors OPT, ACC and AUX are not used in the SAILOR 6110. For a

2 x LAN/Ethernet

4 x USB Option SYS(CAN)

Auxiliary,Speakerand Alarm

Accessories,Handset or SpeakerMicrophones

Ground stud

Power and Remote on12 - 24 VDC

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complete description and pin-out for all connectors, see SAILOR 6018 Message Terminal, Installation manual [2].

3.5.2.2 USB interface

The USB connectors are USB Type A. The figure and table below show the connector outline, wire colours and pin assignments.

Pin Pin function Wire color

1 5 V Red

2 D- White

3 D+ Green

4 GND Black

Table 9: SAILOR 6018, USB connector pinout

USB Type A socket

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3.5.2.3 Ethernet

The figure and table below show the connector outline and pin assignments.

Pin Pin function Wire color

1 Tx+ white/orange

2 Tx- orange

3 Rx+ white/green

4 Not connected blue

5 Not connected white/blue

6 Rx- green

7 Not connected white/brown

8 Not connected brown

Table 10: SAILOR 6018, Ethernet connector pinout

RJ-45 female

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3.5.2.4 SYS (CAN) interface

The figure and table below show the connector outline and pin assignments.

3.5.2.5 Power input

The figure and table below show the connector outline and pin assignments.

Pin Pin function Wire color

1 Not connected None

2 CAN_S Red

3 CAN_C Black

4 CAN_H White

5 CAN_L Blue

Table 11: SAILOR 6018, CAN connector pinout

M12 Panel screw connector5 pin male

Pin Pin functionWire color

1 DC+ (10.8 - 31.2 VDC) Red

2 DC- (0 VDC) Black

3 ON_IN White

4 NC Blue

Table 12: SAILOR 6018, Power connector pinout

Panel lock, 4 pin male

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3.5.3 SAILOR 6101/6103 Alarm Panel

3.5.3.1 Overview

If you need a Distress function for the Inmarsat-C GMDSS system only, you can use the SAILOR 6101 Alarm Panel (one Distress button).

If, however, you need to use the Distress function for VHF or MF/HF as well, you should use the SAILOR 6103 Multi Alarm Panel, which has 3 Distress buttons, one for each system.

Both alarm panels have the following connectors:

• DC input.Connects to the SAILOR 6081 PSU and Charger

• Ethernet interface.Connects to the SAILOR 6197 Ethernet Switch

The drawing below shows the connectors on the SAILOR 6101/6103.

The next sub-sections show the pin-out for these 2 connectors.

For a complete description of the SAILOR 6101/SAILOR 6103 Alarm Panel, see SAILOR 6101 and 6103 Alarm Panel, Installation and user manual [3].

Note The alarm panel is not included as a part of the delivery.

Ethernet DC input

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3.5.3.2 DC input

The figure and table below show the connector outline and pin assignments.

3.5.3.3 Ethernet interface

The figure and table below show the connector outline and pin assignments.

Pin Pin function

1 DC+

2 DC-

3 ON_IN

4 NC

Table 13: Alarm Panel, DC connector pinout

Panel lock, 4 pin male

Pin Pin function Wire color

1 Tx+ white/orange

2 Tx- orange

3 Rx+ white/green

4 Not connected blue

5 Not connected white/blue

6 Rx- green

7 Not connected white/brown

8 Not connected brown

Table 14: Alarm Panel, Ethernet connector pinout

RJ-45 female

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3.5.4 SAILOR 6197 Ethernet Switch

The Ethernet switch has the following interfaces:

• Ethernet connectors connect to:

• SAILOR 6081 PSU and Charger, LAN connector

• SAILOR 6101 or SAILOR 6103 Alarm Panel, LAN connector

• SAILOR 6018 Message Terminal, LAN connector

• VHF Radio, LAN connector

• MF/HF Radio, LAN connector

• DC input connects to:SAILOR 6081 PSU and Charger, DC output X10, X11, X12, X13 or X14.

3.5.5 SAILOR 6081 PSU and Charger

The SAILOR 6081 PSU and Charger has a number of spring-loaded terminals. In the SAILOR 6110 system, connect the spring-loaded terminals as follows:

• MAINS AC.Connects to Mains 115/230 V AC.

• X2: 15 VDC output.Not used in this system.

• X10, X11, X12, X13 or X14: DC outputsConnect to:

• the SAILOR 3027 CAN bus

• the DC power input on the SAILOR 6018 Message Terminal

• the DC power input on the SAILOR 1252 Printer

• the DC power input on the SAILOR 6101/6103 Alarm Panel

Note The Ethernet Switch is not included as a part of the delivery.

Note The SAILOR 6081 PSU and Charger is not included as a part of the delivery.

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• the DC power input on the SAILOR 6197 Ethernet Switch

• BATTERY.Connects to a 24 V DC emergency battery used for backup when Mains AC is not available.

For further information on requirements to the battery, refer to COMSAR/Circ.32 from the Committee on Radio communications and Search and Rescue.

• LAN.Connects to one of the LAN interfaces on the SAILOR 6197 Ethernet Switch.

For a complete description and pin-out for all connectors, see SAILOR 6081 PSU and Charger, Installation and user manual [4].

3.5.6 SAILOR 1252 Printer

The following interfaces on the SAILOR 1252 Printer are used in the SAILOR 6110 system:

• USB Type A connector.Connects to the USB interface in the SAILOR 6018 Message Terminal.

• DC input connector.Connects to the SAILOR 6081 PSU and Charger.

Note The SAILOR 6081 has a charger function so that you can charge the battery while Mains AC is available, If you are using another power supply without the charger function, the battery must have a separate charger.

Note The SAILOR 1252 Printer is not included as a part of the delivery.

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3.5.7 SSA option

The SSA option consists of the SSA buttons and a SAILOR 6194 Terminal Control Unit (shown below).

In the SSA option, the following interfaces on the SAILOR 6194 are used:

• CAN spring-loaded terminals (X2).Connect to the CAN bus in the SAILOR 6110 system. This interface is also used for connecting power.

• RS-232 connector (X5):Connects to a computer, e.g. for entering commands.

• Ethernet connector (X6).Connects to the SAILOR 6197 Ethernet switch in the SAILOR 6110 system.

Important Do not connect the shield of the CAN cable on the SAILOR 6194! The CAN shield must only be connected to ship ground at the power supply. This is to ensure that any lightning strike at the terminal will be directed straight to the ship ground, and away from equipment operated by personnel.

X5 X6

X1

X2 X3

X7 X9 X11 X13

X14X12X10X8

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• Spring-loaded terminals X7 to X14: Connect to the SSA buttons, if installed.

X3 and X13 are for future use. X1 (Power control) is disabled by default, but may be configured using a command. For further information, see SAILOR 6194 Terminal Control Unit, Installation and user manual [6].

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Configuration 4

This chapter explains the initial registration and configuration that may be necessary before using your SAILOR 6110 mini-C GMDSS. For further information on configuration and daily use of the system, refer to the user manual for the SAILOR 6110 mini-C GMDSS.

This chapter has the following sections:

• Register your SAILOR 3027

• Configuration using SAILOR 6018

• Configuration using commands

• SSA buttons configuration (optional)

• SAILOR 1252 printer configuration

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4.1 Register your SAILOR 3027

4.1.1 Service Activation Registration Form

Before using the SAILOR 3027 GMDSS Terminal on the Inmarsat C system you must register the terminal.

Use the Service Activation Registration Form (SARF) supplied with the SAILOR 3027. A copy of page 1 of the SARF is shown in the next page. As a guide, some of the most important fields are filled in with red color.

The SARF for registration of Maritime MES (in this case the SAILOR 3027) can also be found on www.inmarsat.com/Support under Activation, including notes on how to complete the maritime form.

The SARF contains different abbreviations that are explained here.

The SAILOR 3027 must be registered at either a PSA company or directly to the ISP. A PSA is a company handling the activation of Inmarsat mobiles and is short for Point of Service Activation. ISP is the company that provides the Inmarsat service and is short for Inmarsat Service Provider. In many cases the PSA and ISP is the same company that also operates a Land Earth Station (LES). The local PSA or ISP can be obtained by following the guidelines in the registration form.

The SARF also includes billing information for the Inmarsat C service. The payment will be made directly to the Accounting Authority (AA). In many cases the AA is also the same company as the ISP.

In addition to the general information such as name and address, the Inmarsat Serial Number (ISN) of the SAILOR 3027 must be specified. The ISN is found on the Delivery Note and on the label in the bottom of the SAILOR 3027 GMDSS Terminal.

Note In most cases the distributor registers the system for the customer.

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Registration for service activation of Maritime Mobile Earth Station PSA use only code Sections 1-4, 6 and 8 are to be completed by all customers Application number Tick Boxes as appropriate. Please write in block capitals Date Day Month Year Customer’s reference number Your name or the name of your organisation: Address: Town/city: State/province: Post/ZIP code: Country: Telephone + Country code ( ) Area code ( ) Telephone number ( ) Facsimile + Country Code ( ) Area code ( ) Facsimile number ( ) Email address: Contact person: Title: Department: What is their telephone number and/or extension? + Country code ( ) Area code ( ) Telephone number ( ) Note: ALL MARITIME MESs that are part of GMDSS installations MUST have an Accounting Authority as the billing entity, Apart from the FLEET F77 MES which may use either an ISP or an AA as the billing entity.

Is the MES part of a GMDSS installation? Yes No If YES, enter the Accounting Authority Code (AAIC): If Fleet F77 please see the Note above. If the Code is unknown, enter the name of the AA: If NO, have you arranged payment of calls for this MES through (tick one) (a) Accounting Authority (AA) (b) Inmarsat Service Provider (ISP) Enter ISP or AA Code: If the Code is unknown enter the name of the ISP or AA: NOTE: If the terminal is activated as Maritime Fixed and placed on a vessel, you could be Endangering Lives At Sea. Environment usage The System What will be the primary use of the MES? Maritime Inmarsat-B Trading Yachts Maritime Fixed Inmarsat-C/mini C Passenger/Cruise Other (IMO Number Mandatory) Inmarsat-M Offshore Other (IMO Number NOT Mandatory) Inmarsat mini-M Government please specify Inmarsat Fleet Fishing What will be the country of registry of this MES? Mobile Earth Station (MES) manufacturer Mobile Earth Station (MES) model

1.Your details (See note A) PLEASE NOTIFY YOUR PSA IF ANY OF THESE DETAILS CHANGE OR YOU ARE NO LONGER THE OWNER OF THE INMARSAT EQUIPMENT. (THIS IS A LEGAL REQUIREMENT AS STATED IN THE INMARSAT TERMS AND CONDITIONS WHICH ARE ATTACHED TO THE BACK OF THIS SARF)

2. Paying the bill (See note B) PLEASE NOTIFY YOUR PSA URGENTLY IF YOU CHANGE YOUR BILLING ENTITY (AA or ISP.) (THIS IS A LEGAL REQUIREMENT AS STATED IN THE INMARSAT TERMS AND CONDITIONS WHICH ARE ATTACHED TO THE SARF)

3. What type of Mobile Earth Station (MES) are you registering? (See note C)

Thrane & Thrane A/S SAILOR 3027 GMDSS Terminal

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4.1.2 Mobile number for the SAILOR 3027

When the SAILOR 3027 is registered at the ISP, the ISP returns a mobile number for the SAILOR 3027. This mobile number must be entered in the SAILOR 3027 using the SAILOR 6018 Message Terminal. For details, see the next section.

4.2 Configuration using SAILOR 6018

To set up the SAILOR 6110 using the SAILOR 6018, you must connect the SAILOR 6018 to the SAILOR 3027, using the CAN interface. When the system including the SAILOR 6018 is powered, you can access the system settings from the SAILOR 6018.

Settings not available in the graphical user interface can be accessed with the Mini-C terminal mode in the SAILOR 6018, where you can enter commands. See Configuration using commands on page 61 for information on the Mini-C terminal mode in the SAILOR 6018.

Note This section only describes initial configuration and a few important settings. The entire SAILOR 6018 user interface is described in the User manual [1].

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4.2.1 Initial configuration

4.2.1.1 To select the Inmarsat C application

The first time the SAILOR 6018 is switched on, you must select the Message Terminal application to use. The SAILOR 6018 can run Radiotelex or Inmarsat C.

1. The SAILOR 6018 starts up on the Select application page.

2. Select Inmarsat C and tap Store.

When you have selected and stored the Inmarsat-C application, the SAILOR 6018 automatically restarts with the Inmarsat C application.

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If, at a later stage, you want to switch between the Radiotelex and Inmarsat C applications, do as follows:

1. During startup of the SAILOR 6018 and before the main screen appears, push the Mute button. The CONFIGURATION page opens.

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2. Select Select application.

3. Select the application you want to use and tap Store.

4. If you want to configure a duplicated system, select Select GMDSS system and continue as described in the next section. If not, select Exit configuration.

4.2.1.2 To configure a duplicated SAILOR 6110

If you have a duplicated system, you have to set up which is the primary and which is the duplicated SAILOR 6110. On the SAILOR 6018 in the primary system, do as follows:

1. During startup of the SAILOR 6018 and before the main screen appears, push the Mute button.

2. To configure a duplicated system, select Select GMDSS system.

3. Type in the password if you are prompted. The password is 1234.

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4. Select Primary and tap Store.

5. On the SAILOR 6018 of the duplicated system, repeat steps 1 through 4, but select Duplicated instead of Primary in step 4.

In the SAILOR 6018, under System > About, you can see whether the system is a Primary or Duplicated system.

If you have an Alarm Panel in the system, the primary and duplicated systems will appear in the Alarm Panel as Inm-C 1 and Inm-C 2 respectively.

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4.2.1.3 To enter the mobile number

To enter the mobile number in the SAILOR 3027, do as follows:

1. In the SAILOR 6018 display, select Network > Settings > Network ID.

2. Enter the mobile number from your ISP and select OK.

The mobile number is loaded into the SAILOR 3027. When the mobile number has been successfully loaded, the SAILOR 3027 can be used on the Inmarsat C network.

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4.2.2 To configure power limits

1. Select System from the main menu.

2. Select Power at the bottom of the page.

The Power page shows details of both power supply and backup battery.

3. Select Settings.

Important The default battery settings are suitable for most installations. Do not change these settings unless you have a special battery type or installation that requires different settings. Only skilled personnel should change the power settings.

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4. To edit the settings, select Battery settings.

5. Change the charge settings.

The charge current depends mostly on the capacity of the battery (larger battery > higher charge current). It must be high enough to charge the battery from empty to required capacity in 10 hours (COMSAR/Circ.32).

6. Change the limits for alarms.

Set the voltage limits that must result in an alarm when exceeded.Set the temperature limits that must result in an alarm when exceeded.

7. Select OK.

Note You must enter the password 1234 to access these settings.

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4.2.3 To set up use of Cyrillic characters

4.2.3.1 To enable Cyrillic characters

1. Select System from the main page.

2. Select Settings from the bottom of the page.

3. Select Regional settings.

4. Select Cyrillic and then OK.

Note You must also set up the encoding format as shown in the next section.

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4.2.4 To select the encoding format

When Cyrillic characters are enabled, you can change your keyboard to a Cyrillic keyboard for use in the message editor.

1. First select the encoding you need. You can do this either

• when you start a new message (Message > New message)

• from the message editor (Options > New message)

• from the message editor under the encoding format in the top right corner, as shown below.

There are currently three encoding formats for Cyrillic characters.

2. After selecting the encoding, touch the screen and then touch the keyboard symbol that appears in the message editor. To toggle between Cyrillic and latin characters, touch [CY] in the bottom left corner of the on-screen keyboard.

{

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Note If you are going to print Cyrillic characters you must set up the printer as well. See To set up Cyrillic character set in the printer on page 70.

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4.3 Configuration using commands

To open the terminal mode text editor in the SAILOR 6018 Message Terminal, do as follows:

1. From the main menu in the SAILOR 6018, select System.

2. Select Advanced at the bottom of the page.

3. Select Mini-C terminal mode.A text editor opens.

4. Type your commands as you would in any terminal program.

5. When you have finished, close the editor window.

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4.4 SSA buttons configuration (optional)

For an introduction to SSA buttons, see SSA option on page 8. Before using SSA buttons, you have to configure:

• SSA recipients

• SSA button type

• SSA message repeat rate

This section describes SSAS configuration using commands with a command interface as described in the previous section.

4.4.1 To configure the SSA recipients

If your system uses SSA buttons, the SAILOR 3027 must be configured with the recipient(s) of the Ship Security Alert. The recipients must be selected according to the Flag Administration under which the vessel is sailing. The recipients can be:

• e-mail addresses

• phone numbers (SMS)

• fax numbers

• telex numbers.

Specifications of the SSA routing requirements are found in IMO SOLAS Regulation XI-2/6 and in IMO Circulars MSC/Circ.1072 and MSC/Circ.1073.

Note You can also use LocPoint for configuring your SSAS. LocPoint is a VMS and tracking solution available from Cobham SATCOM. It has a web based user interface and can be used for remote configuration of your SSA system.

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To configure the SSA recipients in the connected SAILOR 3027, do as follows:

1. When the prompt in your terminal program shows Can0:/$, entersu sysadm to log on as system administrator.

2. Enter the details for the fax, telex, email or SMS that the alert message should be sent to. See syntax and examples in the following subsections.

4.4.1.1 Syntax for SSA recipient command

Syntax: se –am (entry),(type),(address),(param)

• entry: 0...5

• type:

0: Telex

1: Fax (add t30 at the end, see example for fax below)

6: SMS (add the LES use code at the end, see example for SMS in the following sections)

254: Email

• address: Telex number, phone/fax number or email address of the recipient (Max. 127 characters).

• param: additional parameters such as LES SMS code, depending on the recipient type.

See examples for each recipient type in the following sections.

Note By default the password is sysadm. To change the password, type password sysadm and then enter and confirm the new password.

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4.4.1.2 Example for telex

To select a telex recipient with the telex number 5519298 and the answerback string TATJH, enter the following command line:

: se –am 0,0,5519298+/TATJH

• entry = 0 (for the first entry)

• type = 0 (for telex)

• address = 5519298+/TATJH (telex number followed by “+/” and the answerback string)

4.4.1.3 Example for fax

To select a fax recipient with the fax number 4539558888, enter the following command line:

: se –am 0,1,4539558888,t30

• entry = 0 (for the first entry)

• type = 1 (for fax)

• address = 4539558888 (fax number)

• param = t30 (fax numbers must always have this parameter at the end)

4.4.1.4 Example for SMS

To select an SMS recipient with the mobile number 4525414111, using EIK LES, enter the following command line:

: se –am 0,6,4525414111,66

• entry = 0 (for the first entry)

• type = 6 (for SMS)

• address = 4525414111 (mobile number)

Note The LES use codes in this section are only examples of use codes at the time of writing and may not be correct for you. Contact your LES Operator or ISP for the correct LES use codes.

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• param = 66 (EIK LES use code, see below)

Examples of LES SMS codes:

• EIK LES use code (66)

• Stratos LES use code (696)

• Aussagel LES use code (29)

• Singtel LES use code (65)

Remember to lock the SAILOR 3027 to the LES you want to use for the SMS service with the command: se -m , described in To select the preferred LES on page 66.

4.4.1.5 Example for email

To select an email recipient with the email address [email protected], enter the following command line:

: se –am 0,254,[email protected]

• entry = 0 (for the first entry)

• type = 254 (for email)

• address = [email protected] (email address)

4.4.1.6 Multiple addressing

For the email and fax services you can add more addresses to the command line (max. 127 characters), separating them with semicolon:

Example of multiple email addresses:

: se –am 0,254,[email protected];[email protected]

Example of multiple fax numbers:

: se –am 0,1,4539558888;4539550000,t30

Note The “address” field for Aussagel must contain “SMS+” before the mobile number.

Example: se –am 0,6,SMS+4525414111,29

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4.4.1.7 To route covert alert messages and test messages

To configure to which addresses the alert messages and test messages should be routed, use the following command:

Syntax: se -ame (entry),(usage)[,(cfg)]

• entry: 0...5

• usage: 1: Message (message only)2: Test (test only)3: Message + test (both message and test)

• Cfg (Optional): Used to determine whether or not a configuration change message should be sent to the address of this entry, that is to inform the recipient that a SSAS configuration change has been made.0: Do not send configuration change message1: Send a configuration change message to the address configured for this entry.

Example:

: se -ame 0,1,1

• entry = 0 (for the first entry)

• usage = 1 (for message only)

• cfg = 1 (send configuration change message to the address for this entry)

4.4.1.8 To select the preferred LES

Enter the preferred LESes for all ocean regions with the following command:

: se -m <LES ID for AORW>, <LES ID for AORE>, <LES ID for POR>, <LES ID for IOR>.

Note • The first address (entry=0) can receive alert messages only.

• The second address (entry=1) can receive both alert and test messages.

• The third address (entry=2) can receive test messages only.

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Example: To use Stratos LESes (C-email 12), enter the following command: : se -m 12, 112, 212, 312

List of currently supported LESes

The table below shows the LESes supported by the service providers at the time of writing. Note that the list is dynamic, so it may not be completely up to date.

Service ProviderLES no.AOR-W

LES no.AOR-E

LES no.POR

LES no.IOR

CTTC China - - 211 311

KDDI SatMail-C Japan 003 103 203 303

Morsviazsputnik Russia - - 217 317

Stratos Global C-email 02 002 102 202 302

Stratos Global C-email 12 012 112 212 312

VISHIPEL - - - 330

Vizada SkyFile C 01 001 101 201 301

Vizada SkyFile C 04 004 104 204 304

Vizada SkyFile C 21 021 121 221 321

Fucino - 105 - 335

Tata Comm - - - 306

Table 15: Supported LESes

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4.4.2 To configure SSA button type

You can use an instant activation button or a standard activation button. For details on the SSA button types, see [6] SAILOR 6194 Terminal Control Unit, Installation and user manual. The selected button type must be configured in the SAILOR 3027.

To configure the SSA button type to instant activation, enter

: cfg -c 3

To configure the SSA button type to standard operational mode, enter

: cfg -c 0

4.4.3 To change the SSA message repeat rate

The repeat rate is the time between two SSA messages until the alert is cancelled. In standard operational mode SSA messages will repeatedly be sent while the SSA button is activated. In instant operational mode SSA messages will repeatedly be sent until cancelled by sending an SSA Test Message.

The default is standard activation mode with a repeat value of 30 minutes.

It is possible to change the SSA message repeat rate to a value between 20-60 minutes.

Example of setting the repeat rate to 40 minutes:

: se –ap 40

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4.4.4 Remote SSAS reconfiguration

You can reconfigure your SSA system from a remote location. To define whether or not you have to push the test button on board to access the configuration, use the following command:

: se -ab 0 (you can change settings without pushing the test button on board)

: se -ab 1 (you must push and hold the test button for min. 60 seconds before you can make SSAS configuration changes within 60 minutes after pushing the button)

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4.5 SAILOR 1252 printer configuration

4.5.1 To set up Cyrillic character set in the printer

If you need to print Cyrillic characters, you must first set up the printer as follows:

1. Insert printer paper in the printer.

2. Push and hold the Select button while switching on the printer. LED pitch 12 and LED Utility are flashing, to indicate that the printer is in MENU mode.

3. Push Line Feed several times, until the printer prints:

• Symbol Sets Character Set (old character set).

4. Push Form Feed several times, until the printer prints:

• Symbol Sets Code Page (old character set).

5. Push TOF Set several times, until the printer prints:

• Symbol Sets Code Page Windows Cyrillic1, or

• Symbol Sets Code Page Cyrillic II-8662.

6. Push Pitch and Mode simultaneously to store the settings.

7. Switch the printer off and then on again.

1. Use code page Windows Cyrillic if the SAILOR 6018 message/EGC is code page Windows-1251 or CYR-7 (proprietary) encoded.

2. Use code page Cyrillic II-866 if the SAILOR 6018 message/EGC is code page IBM/DOS-866 encoded.

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This chapter provides a check list to verify that the installation was made correctly, and shows how to make an initial test of the system.

This chapter has the following sections:

• Installation check list

• Test the system

Note The SAILOR 6110 must be registered with the Service Activation Registration Form before you can test the system. Refer to Register your SAILOR 3027 on page 48 for details.

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Chapter 5: Installation check and test

5.1 Installation check list

Use this check list to make sure you have installed the system correctly.

Installation check list

Important Check the installation before applying power to the system!

Check item Reference OK

Is the SAILOR 3027 placed correctly?

No blocking objects Location of the SAILOR 3027 GMDSS Terminal on page 13Away from exhaust fumes

Minimum safety distance to people

Minimum distance to other equipment

Are all cables connected correctly?

Power cables Wiring overview on page 24 and Connect power on page 30

CAN cables Wiring overview on page 24 and The CAN backbone on page 29

USB cable from SAILOR 6018 to printer Wiring overview on page 24

Ethernet cables

Do all cables meet the requirements in this manual?

Power cables Connectors and pinout on page 36

CAN cables

USB cable

Ethernet cables

Table 16: Installation check list

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5.2 Test the system

5.2.1 Basic system verification

After powering the system, check that the upper right corner of the SAILOR 6018 display shows that the system is logged in and ready for use.

The system is logged in and ready when there is a green check mark at the satellite icon and the display shows the current position and the Ocean Region to which the system is logged on.

If the system is not ready, the status field may show one of the following:

The SAILOR 3027 is logged out of the Inmarsat C network, but is synchronized with the satellite.

The SAILOR 3027 is not synchronized with a satellite, but is scanning for the best signal.

There is no connection between the SAILOR 3027 and the SAILOR 6018.

Is the shield of the CAN cable connected correctly to the ship ground (hull)?

Wiring overview on page 24

Is the polarity of power connections correct? Red wire = DC+, Black wire = DC-

Wiring overview on page 24

Check item Reference OK

Table 16: Installation check list (Continued)

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Chapter 5: Installation check and test

5.2.2 Distress button test

When the SAILOR 6110 is fully installed, we recommend making a Distress button test.

The SAILOR 6018 Message Terminal has a test function that allows test of the Inmarsat C Distress Buttons, Distress LEDs and wiring.

To test the Inmarsat C Distress buttons in the system, do as follows:

1. In the SAILOR 6018 display, select Distress.

2. Select Status at the bottom of the page.

3. Select Test Distress buttons.

Important Never test the installation by sending an alert on-air!

If an alert is sent by mistake, inform the relevant authorities immediately.

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The test is initiated.

Wait until the following window appears.

As long as the Test in progress window is showing, you can use Distress buttons connected to the system under test, without sending a real Distress Alert.

Important Before pushing any Distress buttons, make sure the display of the SAILOR 6018 shows Test in progress. Otherwise you may accidently send a real Distress alert!

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Chapter 5: Installation check and test

4. Test the Inmarsat C Distress buttons on the connected units and on the SAILOR 6018 by pushing them as you would in a real Distress situation.

The light and buzzer in the Distress buttons should work the same way as in a real Distress situation. For details on the Distress buttons, see SAILOR 6110 mini-C GMDSS, User manual (with SAILOR 6018 Message Terminal) [1].

5. When you have finished testing, or you need to send a real Distress alert, click Cancel in the Test in progress window.

Note Before pushing any Distress buttons, check the units as follows:

• On the alarm panel, make sure the display shows “Test” next to the Inm C unit that is active (marked with a bullet), before pushing the Inm-C Distress button.

• On the SAILOR 6018, make sure the display shows “Test in progress” before pushing the Distress button on the SAILOR 6018.

Important Only Inmarsat C Distress buttons connected to the system under test are included in this test. Do not push any other Distress buttons, unless it is a Distress situation!

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5.2.3 Testing the SAILOR 6101/6103 Alarm Panel

When the system is connected and started up, check that the Alarm Panel display shows all connected units.

• SAILOR 6101 may show Inm-C 1 and/or Inm-C 2

• SAILOR 6103 may show Inm-C 1, Inm-C 2, VHF 1, VHF 2, MF/HF 1 and/or MF/HF 2

To test the light and sound indicators in the Alarm Panel, do as follows:

1. Push and hold the Test button on the Alarm Panel.

Verify that all light indicators and alarm buttons are flashing.

2. While holding the Test button, push any other button on the Alarm Panel, including the Distress button.

The buzzer sounds to indicate that the pushed button and the buzzer are working.

5.2.4 Backup battery test

With the system connected and switched on, switch off or remove the AC input to the SAILOR 6081 PSU and Charger. The system should continue to work uninterrupted from the 24 V DC backup battery.

You can check the status of the backup battery in the bottom left corner on the SAILOR 6018.

For detailed Power status, Select System > Power.

Note This test only verifies the function of the Alarm Panel itself, not of any connected equipment nor the total system.

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Chapter 5: Installation check and test

5.2.5 Link test

Using the SAILOR 6018 Message Terminal you can test the satellite link from the SAILOR 3027 to the Land Earth Station.

If you want to run a link test, first make sure the SAILOR 3027 is properly commissioned and logged in. The top right corner of the SAILOR 6018 display shows the status.

To run a link test using the SAILOR 6018, do as follows:

1. In the SAILOR 6018 display, select Network.

2. Select Status.

3. Select Link test...

The Link test window shows the result of the latest link test if any.

4. Select Perform link test.

5. Select Yes.

A window shows Link test in progress. When the test is complete, the window shows the results of the test.

6. Select OK to exit the Link test window.

Important When you perform a link test, the SAILOR 6018 has limited functionality. Because of low priority in the network, the link test can take several minutes.

As an alternative, you can send a message to yourself to check the connection.

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Service and maintenance 6

This chapter describes how to maintain and handle the units in the system and how to update software. This chapter has the following sections:

• Update the software

• Generate a diagnostic report

• Maintenance guidelines

• Service and repair

• Available parts

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Chapter 6: Service and maintenance

6.1 Update the software

6.1.1 Before you update the software

6.1.1.1 Tool for software update

To update software in the SAILOR 6110 system units (e.g. the SAILOR 3027, SAILOR 6101/03 and SAILOR 6194), use the TMA (ThraneLINK Management Application). For information on how to install the TMA, see the next sections.

6.1.1.2 The ThraneLINK Management Application

The ThraneLINK Management Application (TMA) is a Windows program that provides monitoring and software update of connected Cobham SATCOM devices with ThraneLINK support. The devices must be on the same LAN.

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6.1.1.3 Install the TMA

PC requirements

• Standard PC with Windows 7, 8, 10, Vista or XP, and Ethernet connection.

• Make sure that you have administrator rights for the PC.

Installation

To install the TMA, do as follows:

1. Go to www.cobham.com/satcom.

2. Select Cobham SYNC Partner Portal.

3. Select Downloads > Product software > Maritime.

4. Locate the ThraneLINK Management Application software package and download it to your PC.

5. Extract the files from the zip file.

6. Click setup.exe to start the installation wizard.

On Windows Vista/7/8/10, when prompted, select Yes to allow the installation to make changes to the computer.

7. Follow the instructions in the wizard.

When the wizard is complete an icon appears on your PC desktop. You can also find the TMA under Programs > Thrane > TMA.

If you have problems with your Firewall settings, please refer to the TMA quick guide, available on the Self Service Center under Downloads > Manuals > Maritime.

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Chapter 6: Service and maintenance

6.1.2 Update software with the TMA

To update software in a ThraneLINK product, do as follows:

1. Connect the PC to the LAN with the ThraneLINK products for which you want to update software.

2. Click the TMA icon on the PC’s desktop. The program starts and displays the ThraneLINK products found on the network.

If a Windows Security Alert pops up click Allow access (Windows 7) or Unblock (Windows XP).

3. Insert a USB memory stick with the new software version (placed in the root) into a USB connector in the PC. 1

The TMA automatically discovers the new software version(s) and a software update icon flashes next to the unit(s) for which the software can be installed.

4. From the main page of the TMA, select the product you want to update.

5. Select Software update at the bottom of the product page. Check that the new software version is correct.

1. If the new software is not automatically found, you can point to the location of the software. Select the tool icon in the Software update page, select Search for software and enter the location of the software.

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6. Select Update.

The progress of the software update is shown in percent under the product icon. When installation is completed, a check mark appears instead.

6.2 Generate a diagnostic report

If the system is not working properly, the diagnostic report may help service personnel troubleshooting the system.

To generate a diagnostic report, do as follows:

1. Select System from the main menu of the Message Terminal.

2. Select Advanced at the bottom of the page.

3. Connect a USB memory stick to your SAILOR 6018.

4. Select Generate diagnostic report.

5. Choose the location on the USB memory stick where you want to save the file.

Note The installation is not complete until the SAILOR 3027 has rebooted. Check the new software version after reboot to verify that the installation is successfully completed.

Note Do not save the file on the SAILOR 6018 itself; the file format is not supported. Use a USB memory stick instead.

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Chapter 6: Service and maintenance

6.3 Maintenance guidelines

When properly installed the system needs no maintenance.

The life time of the clock battery in the SAILOR 6018 Message Terminal is 10 years. If the battery is no longer functional, the SAILOR 6018 is not able to keep the correct time when power is disconnected.

The clock battery in the SAILOR 6018 Message Terminal must be replaced by qualified personnel.

6.3.1 Precautions for handling the SAILOR 3027

• Do not expose the joints of the SAILOR 3027 GMDSS Terminal or the connector to high-pressure water jets.

• Do not expose the connector on the terminal to mechanical stress. Secure the cable with cable relief.

• Do not expose the terminal to chemicals containing alkalis. It may result in physical degradation of the terminal.

• Do not expose the terminal to acid curing silicone.

• Avoid contact with solvents.

• Painting the radome may result in degradation of the terminal. See Painting the radome on page 11.

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6.4 Service and repair

Should your Cobham SATCOM product fail, please contact your dealer or installer, or the nearest Cobham SATCOM partner. You will find the Technical Service Partner list on www.cobham.com/satcom where you also find the Cobham SYNC Partner Portal, which may help you solve the problem. Your dealer, installer or Cobham SATCOM partner will assist you whether the need is user training, technical support, arranging on-site repair or sending the product for repair. Your dealer, installer or Cobham SATCOM partner will also take care of any warranty issue.

6.4.1 Repack for shipment

Should you need to send the product for repair, please read the below information before packing the product.

The shipping cartons for the SAILOR 6110 system units have been carefully designed to protect the equipment during shipment. The cartons and their associated packing material should be used when repacking for shipment. Attach a tag indicating the type of service required, return address, model number and full serial number. Mark the carton “FRAGILE” to ensure careful handling.

Note Correct shipment is the customer’s own responsibility.

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Chapter 6: Service and maintenance

6.5 Available parts

6.5.1 Cables and connectors

Part number Item

406100-930 Mini/Micro NMEA 2000 T-Connector

406100-931 Micro NMEA 2000 T-Connector

406100-932 Inline Micro termination Connector

406100-933 Male Mini NMEA 2000 Field Connector

406100-934 Male Micro NMEA 2000 Field Connector

406100-940 6 m NMEA 2000 Micro Device Cable

406100-941 20 m NMEA 2000 Micro Device Cable

406100-943 6 m NMEA 2000 Power Cable

406100-944 30 m NMEA 2000 Mini Device Cable

406100-945 50 m NMEA 2000 Mini Device Cable

406208A SAILOR 6208 Control Unit Connection Box

Table 17: Cables and connectors, part numbers

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6.5.2 Adjustable pole/railing mount kit

6.5.3 Plate washer for SAILOR 3027

Part number Item

403027-103 Adjustable pole/railing mount kit for SAILOR 3027

Table 18: Adjustable pole/railing mount kit, part number

Part number Item

403027-921 Plate washer for SAILOR 3027

Table 19: Plate washer for SAILOR 3027, part number

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Appendix AAAAA

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Technical specifications A

This appendix holds the specifications for the SAILOR 6110 mini-C GMDSS and the SAILOR 3027 GMDSS Terminal.

For specifications for other units in the SAILOR 6110, refer to the installation manuals for the individual units.

A.1 SAILOR 6110 specifications

For further information on compliance and certificates, refer to the Cobham SATCOM partner site Cobham SYNC.

A.2 SAILOR 3027 specifications

Item Specification

Compliance Inmarsat C GMDSS type approved/Wheelmark approved

Table 20: SAILOR 6110 mini-C GMDSS specifications

Item Specification

Type SAILOR 3027 GMDSS Terminal

Compliance Inmarsat C GMDSS type approved/Wheelmark approved

Table 21: SAILOR 3027 GMDSS Terminal specifications

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Appendix A: Technical specifications

Rx Frequency Band

Tx Frequency Band

1525- 1545 MHz

1626.5 - 1646.5 MHz

G/T -23,7 dBk at 5 degree elevation

EIRP Min. EIRP: 7 dBW at 5 degrees elevation

Datum format WGS84

Inmarsat Protocol services

Message transmission and reception with IA-5, ITA-2 and binary transfer to/from:

• Telex PSTN (telephone modems and fax modems)

• EGC message reception with automatic geographical area selection

• E-mail

Polling and data reporting with automatic transmission of position reports down to a recommended minimum of 1 per 5 minutes. Change note 142 supported.

Special Access Codes

DNID Messaging

Program Unreserved Data reporting

Receive storage: up to 32 kbyte

Global services

Data: 1200 symbols/s BPSK.

Data rate: 600 bit/s

Multithreading Supported

Item Specification

Table 21: SAILOR 3027 GMDSS Terminal specifications (Continued)

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Max. Transmission size 10 kbyte

Interface in SAILOR 3027 NMEA 2000 DeviceNet Mini-style, Male

Power input 9 V - 32 V DC from CAN compliant power supply.

29 V DC nominal input power

Max. power: 30 W

Max. continuous current: 2.8 A

Max. peak current: 4 A (startup)

Standby power, Rx mode < 2 W

Sleep Mode power < 10 mW

Compass safe distance 5 m

Weight 1.10 kg (without pole mount)

Dimensions Diameter: 170.5 mm, Height: 145 mm (without pole mount)

Water and dust Approved for IP66 Tested for IP68 by Cobham SATCOM

Ambient Temperature Operating range -35°C to 55°C

Storage -40°C to 80°C

Operation humidity 100%, condensing

Precipitation Up to 100 mm/hour, droplet size 0.5 to 4.5 mm

Ice, survival Up to 25 mm

Velocity Max 140 km/hour (87 mph)

Item Specification

Table 21: SAILOR 3027 GMDSS Terminal specifications (Continued)

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Appendix A: Technical specifications

Wind Wind speed up to 200 km/hour (124 mph)

Vibrations, operational • Random 5-20 Hz: 0.005 g2/Hz

• 20-150 Hz: -3dB/oct. (0.5g RMS)

Vibrations, survival • Random 5-20 Hz: 0.05 g2/Hz

• 20-150 Hz: -3 dB/oct. (1.7 g RMS)

Shock Half sine 20 g/11 ms

Solar radiation Max. flux density 1200 W/m2

Equipment category IEC 60945 Environmental test

Item Specification

Table 21: SAILOR 3027 GMDSS Terminal specifications (Continued)

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Glossary22

2

Glossary 2

2

Glo

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A

AC Alternating Current

C

CAN Controller–Area Network (CAN) is a message based protocol designed to allow microcontrollers and devices to communicate with each other within a vehicle without a host computer.

D

DC Direct Current

DNID Data Network Identifier. An address code to an electronic mailbox at the Land Earth Station.

E

EGC Enhanced Group Call. A type of broadcast data for ships.

EIRP Effective Isotropically-Radiated Power. The amount of power that would have to be emitted by an isotropic antenna (that evenly distributes power in all directions) to produce the peak power density observed in the direction of maximum antenna gain.

G

GMDSS Global Maritime Distress Safety System. GMDSS consists of several systems, some of which are new, but many of which have been in operation for many years. The system is intended to perform the following functions: alerting (including position determination of the unit in distress), search and rescue coordination, locating (homing), maritime safety information

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Glossary

broadcasts, general communications, and bridge-to-bridge communications.

GPS Global Positioning System. A system of satellites, computers, and receivers that is able to determine the latitude and longitude of a receiver on Earth by calculating the time difference for signals from different satellites to reach the receiver.

H

HF High Frequency. Radio frequencies between 3 and 30 MHz. Used for direct, long-distance (often inter-continental) communications.

HPA High Power Amplifier

I

IEC International Electrotechnical Commission. The international standards and conformity assessment body for all fields of electrotechnology.

IMSO International Mobile Satellite Organisation. An intergovernmental organisation that oversees certain public satellite safety and security communication services provided via the Inmarsat satellites.

ISN Inmarsat Serial Number. A unique number assigned by a terminal manufacturer to each newly manufactured terminal for Inmarsat’s satellite networks.

ISP Inmarsat Service Provider. The company providing the Inmarsat services.

L

LAN Local Area Network. A computer network covering a small

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Glossary2

22

2

Glo

ssar

y

physical area, like a home, office, school or airport.

LNA Low Noise Amplifier

M

MES Mobile Earth Station. An Earth station in the mobile-satellite service intended to be used while in motion or during halts at unspecified points. The SAILOR 3027 is the MES in the mini-C system.

MF Medium Frequency. Radio frequencies (RF) in the range of 300 kHz to 3 MHz. Navtex, which is part of the current Global Maritime Distress Safety System occupies 518 kHz and 490 kHz for important digital text broadcasts.

N

NMEA National Marine Electronics Association (standard). A combined electrical and data specification for communication between marine electronic devices such as echo sounder, sonars, anemometer (wind speed and direction), gyrocompass, autopilot, GPS receivers and many other types of instruments. It has been defined by, and is controlled by, the U.S.-based National Marine Electronics Association.

P

PSA Point of Service Activation. A company handling the activation of Inmarsat mobiles.

PSTN Public Switched Telephone Network. The network of the world’s public circuit-switched telephone networks. It consists of telephone lines, fibre-optic cables, microwave transmission links, cellular networks, communications satellites, and undersea telephone cables all inter-connected by switching centres which allows any telephone in the world to communicate with any other.

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Glossary

S

SARF Service Activation Registration Form. A form used to register your mobile equipment for activation of the services you are going to use.

SMS Short Message Service

SOLAS (International Convention for the) Safety Of Life At Sea. Generally regarded as the most important of all international treaties concerning the safety of merchant ships.

SSA Ship Security Alert

T

TMA ThraneLINK Management Application. An application used to monitor and control products connected in a ThraneLINK network.

U

USB Universal Serial Bus. A specification to establish communication between devices and a host controller (usually personal computers). USB is intended to replace many varieties of serial and parallel ports. USB can connect computer peripherals such as mice, keyboards, digital cameras, printers, personal media players, flash drives, and external hard drives.

V

VHF Very High Frequency. The radio frequency range from 30 MHz to 300 MHz. Ideal for short-distance terrestrial communication.

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Index33

Index 3

33

Inde

x

A

activation of service, 48Alarm Panel

connectors and pin-out, 41description, 7

B

batteryrequirements, 44

Battery power settings, 56

C

cablescalculating max length (power), 31table with max. lengths, 32

cables and connectorslist of, 25

CAN backbonedescription and requirements, 29

commandsusing, 61

configuration, 47SSA buttons, 62with commands, 61

connectorsAlarm Panel, 41Message Terminal, 37PSU and Charger, 43SAILOR 3027, 36SAILOR 6018, 37SAILOR 6081, 43SAILOR 6101/6103, 41

Cyrillic characterskeyboard, 59set up in Message Terminal, 58set up in printer, 70

D

diagnostic report, 83distance

compass, 13safety, 13to other equipment, 13

document numberthis manual, i

documents, related, v

F

fuses, 12

H

handling, 84

I

initial inspection, 10

K

keyboardCyrillic characters, 59

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Index

L

LES numberlist of supported, 67

line of sight, 13

M

maintenance, 84manual

document number, imanuals, related, vMessage Terminal

Cyrillic characters, 58description, 4

Message Terminal, connectors, 37mobile number

entering (Message Terminal), 55

O

overview of system, 2

P

pin-outAlarm Panel, 41Message Terminal, 37PSU and Charger, 43SAILOR 3027, 36SAILOR 6018, 37SAILOR 6081, 43SAILOR 6101/6103, 41

pole mount, 16power cable

calculating max. length, 31table with max. lengths, 32

power consumption, 11

98

power limitsconfiguring, 56

power requirements, 11printer

Cyrillic characters, 70description, 6mounting, 20

PSU and Chargerconnectors and pin-out, 43description, 5

R

registration, 48repacking for shipment, 85returning units, 85

S

safety distance, SAILOR 3027, 13safety summary, iiiSAILOR 1252

description, 6mounting, 20

SAILOR 3027connector and pin-out, 36description, 3mounting on pole, 16outline drawing, 19placing, 13specifications, 89

SAILOR 6018connectors and pin-out, 37description, 4

SAILOR 6081connectors and pin-out, 43description, 5

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Index 33

33

Inde

x

SAILOR 6101/6103connectors and pin-out, 41description, 7

service activation, 48shipment

repacking, 85specifications

SAILOR 3027, 89system, 89

SSA buttonsconfiguration, 62

SSA option, 8system overview, 2system specifications, 89

T

ThraneLINK Management Application,80TMA, 80

installing, 81typography used in this manual, vi

W

warranty, 85wiring of the system, 24wiring of the units, 24

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