SAILOR 150 FleetBroadband
Contents
1. n G 2 yp oO o js D Q N w 2 e ie g Recommended distance to SAILOR FleetBroadband antenna 98 129218 B Appendix B Technical specifications B 5 SAILOR 150 FleetBroadband terminal B 4 SAILOR 150 FleetBroadband terminal B 4 1 General specifications Item Specification Weight 2 2 kg 4 9 Ibs Dimensions 231 mmx 278 mmx 41 m 9 1 x 10 9 x 1 6 Global services Voice 4 kbps AMBE 2 Data Up to 150 kbps Standard data SMS Up to 160 characters 2 wire telephone interface One connector RJ 11 female 600 ITU T Rec G 473 standard DTMF telephone Supported cable length up to 100 meters LAN interface Two connectors RJ 45 female Conforms with IEEE 802 3 af 10 100 Mbps Supported cable length up to 100 m PoE max 15 4 W on each port Total PoE power 32 W I O interface Closed switch One connector with 5 configurable inputs outputs Output Open collector Short circuit protected at 1 5 A and reverse polarization protected Open switch hold max 32 V off voltage Open circuit min 130KQ resistance max 1 VDCat50mA voltage Input Input resistance min 130KQ Voltage Max 32 V Voltage High Min 2 2 V Voltage Low Max 1 2 V Table B 3 SAILOR FleetBroadband terminal Appendix B Technical specifications 98 129218 B SAILOR 150 Fle2. Table B 2 SAILOR 150 FleetBroadband antenna Environmental Appendix B Technical specifications 98 129218 B SAILOR 150 FleetBroadband antenna Item Specification Vibration non Random spectrum 1 7 g rms 2h x 3 axes 6h operational total 5 to 20 Hz 0 05 g Hz 20 to 150 Hz 3 dB octave 5 t Vibration life test At least 1 7 g rms for 2 hours per axis U Spectrum a 5 to 20 Hz 0 05 g2 Hz g 20 to 150 Hz 3 dB octave E Shock Half sine 20 g 11 ms Solar radiation 1120 W m according to MIL STD 810F 505 4 Air Pressure 1500 m AMSL operational Air Pressure 4572 m AMSL MIL SPEC 810E 500 4 transport Ship motions MAX Roll 30 period 4 sec 0 7 g tangential Pitch 15 period 3 sec 0 6 g tangential Yaw 10 period 5 sec 0 3 g tangential Surge 0 5 g Sway 0 5 g Heave 0 7 g Turning rate 36 s 12 s Headway 22 m s 42 knots Table B 2 SAILOR 150 FleetBroadband antenna Environmental Continued 98 129218 B Appendix B Technical specifications B 3 SAILOR 150 FleetBroadband antenna B 2 3 Antenna outline Weight 3 94 kg 8 7 Ibs Dimensions are in mm B 4 Appendix B Technical specifications 98 129218 B Minimum distance to transmitters B 3 Minimum distance to transmitters The table below shows the minimum recommended distance to transmitters in the frequency range below 1000 MHz
3. The terminal supplies 18 29 V DC to the antenna through a single coaxial cable The DC input for the terminal is designed for both 24 V DC and 12 V DC power supply 98 129218 B SAILOR 150 FleetBroadband antenna 1 3 SAILOR 150 FleetBroadband antenna The SAILOR 150 FleetBroadband antenna is a BGAN mechanical tracking antenna All communication between the antenna and terminal passes through a single coaxial cable The antenna unit is protected by a thermo plastic radome Chapter 1 System units 98 129218 B Thrane IP Handset amp Cradle 1 4 Thrane IP Handset amp Cradle 1 4 1 Thrane IP Handset n had Cc E oO o gt 72 Besides the normal functions of an IP handset the Thrane IP handset also provides a user interface for the SAILOR FleetBroadband system The IP handset connects to the LAN interface of the terminal and is power supplied with Power over Ethernet PoE through the LAN interface For further information on the IP handset refer to the user manual for the Thrane IP Handset 1 4 2 Thrane IP Cradle The IP cradle serves as a holder for the IP handset It is power supplied from the terminal using Power over Ethernet PoE The cradle connects to the handset with a coil cord and to the terminal with a standard LAN cable 98 129218 B Chapter 1 System units 1 3 Thrane IP Handset amp Cradle 1 4 Chapter 1 System units 98 129218 B Chapter 2 Installing the sys
4. E N S Ground stud To ensure that the terminal is grounded also if the cable is disconnected from the terminal connect an extra ground wire to the ground stud on the terminal This ground wire must be a heavy wire or braid cable with a larger diameter than the coax cable The ground stud is located next to the power switch Ground stud 98 129218 B Chapter 2 Installing the system 2 13 Installing the terminal 2 5 2 Mounting the Basic cable support The Basic cable support is available from the eShop as Accessories kit F Terminal For details on how to access the eShop see Spare parts on page A 1 When mounted on the terminal the Basic cable support offers a number of holders to which you can secure the cables from the terminal using cable strips To mount the Basic cable support do as follows 1 Remove the two rubber washers from the bottom of the terminal at the connector panel end The threaded bushings underneath the rubber washers are used for mounting the cable support 2 Fasten the Basic cable support to the terminal using two M4 x 6 mm countersunk screws 3 Install the terminal as described in Installing the terminal on a bulkhead on page 2 15 or Installing the terminal on a desktop on page 2 15 Chapter 2 Installing the system 98 129218 B Installing the terminal 2 5 3 Installing the terminal on a bulkhead Terminal with no cable support Do as follows to mount the termina
5. Part numbers Part numbers A 1 System units A 1 1 TT 3744A SAILOR 150 FleetBroadband system Item Part number SAILOR 150 FleetBroadband antenna 403050C SAILOR 150 FleetBroadband terminal 403739A Table A 1 Part numbers SAILOR 150 FleetBroadband system A 1 2 TT 3670A Thrane IP Handset amp Cradle wired Item Part number Thrane IP Handset wired 403672A Thrane IP Cradle wired 403674A Table A 2 Part numbers Thrane IP Handset amp Cradle Wired A 2 Spare parts For information on available spare parts contact your distributor 98 129218 B A 1 Spare parts A 2 Appendix A Part numbers 98 129218 B Technical specifications B 1 B 2 B 2 1 98 129218 B Overview Appendix B This chapter contains specifications for the SAILOR 150 FleetBroadband system including the terminal and antenna gt For specifications and outline drawings for the Thrane IP Handset refer to the manual for the IP handset SAILOR 150 FleetBroadband antenna General specifications Item Frequencies Inmarsat I 4 Specification Transmit 1626 5 1660 5 MHz Receive 1525 0 1559 0 MHz Inmarsat Alphasat Extended L Band XL Transmit 1626 5 1660 5 MHz and 1668 0 1675 0 MHz Receive 1518 0 1559 0 MHz Channel spacing 1 25 kHz Antenna element 11 0 dB min gain Rx G T gt 15 5 dB K EIRP Min EIRP 3 1 dBW Max EIRP 16 1 dBW Return loss lt
6. Technical specifications B 7 val S oO o U D Q n T Y g SAILOR 150 FleetBroadband terminal B 4 2 Outline SAILOR 150 FleetBroadband terminal Connector panel top view and end view se Ci B 8 Appendix B Technical specifications 98 129218 B SAILOR 150 FleetBroadband terminal Side view and bottom view Nn Cc S G O U Q a Nn T Cc JE Weight 2 2 kg Dimensions are in mm 98 129218 B Appendix B Technical specifications B 9 Satellite coverage B 5 Satellite coverage The SAILOR FleetBroadband uses the Inmarsat I 4 satellites and the Alphasat satellite for satellite communication The drawings below show the coverage areas for these satellites B 5 1 Inmarsat I 4 coverage B 5 2 Inmarsat Alphasat coverage Alphasat usess extended L band For frequency range see General specifications on page B 1 E Alphasat coverage B 10 Appendix B Technical specifications 98 129218 B Appendix C Grounding and RF protection C 1 Why is grounding required C 1 1 Reasons for grounding Grounding the SAILOR FleetBroadband system is required for two reasons e Safety Lightning protection of persons and equipment e Protection ESD ElectroStatic Discharge protection of equipment C 1 2 Safety s zo o0 E zo o e First of all grounding of the system is required for safety reasons In the event
7. connection to ground When the call is answered or the caller gives up and releases the call the switch is closed again e Normally Open The internal switch at pin 1 is normally open no connection to ground When the terminal is notified of an incoming call from the satellite interface the switch is closed pin 1 is connected to ground When the call is answered or the caller gives up and releases the call the switch is opened again Pin 2 Warning Error output Pin 2 acts as a built in switch in the terminal Pin 2 can be used to provide an external signal that indicates active warning error condition s You can configure pin 2 to be Normally closed or Normally open Nn D D i z e an e Normally Closed default The internal switch at pin 2 is normally closed pin 2 is connected to ground When an alarm occurs the switch opens no connection to ground The switch is closed again when all warnings errors are cleared e Normally Open The internal switch at pin 2 is normally open no connection to ground When an alarm occurs the switch is closed connected to ground The switch is opened again when all warnings errors are cleared Pin 3 Mute output Pin 3 acts as a built in switch in the terminal Pin 3 can be used to provide an external signal that is active during a phone call The signal can be used to mute external equipment You can configure pin 3 to Normally closed or Normally
8. 15 dB reflection loss lt 0 15 dB Table B 1 SAILOR 150 FleetBroadband antenna General 1 The extended frequency range Extended L Band or XL is only available within Alphasat coverage For coverage area see Satellite coverage on page B 10 B 1 val S S oO O 3 Q n G 2 jeg de SAILOR 150 FleetBroadband antenna B 2 2 B 2 Item Specification Cable losses RF attenuation max 20 dB DC resistance loop max 1 Q Max cable length between terminal and antenna e RG223 D 25 meter e RG214 U 50 meter e 07272B 05 95 meter Antenna input 22 7V voltage Antenna power Maximum 39 W operational Total antenna weight 3 94 kg 8 7 Ibs Antenna dimensions Table B 1 SAILOR 1 291 9 mm x 275 6 mm 50 FleetBroadband antenna General Continued Environmental specifications Item Specification Water and dust IPX6 spray proof in all directions no dust test Ambient Operational 25 to 55 C Temperature Storage 40 to 85 C Operating humidity 100 condensing Ice survival Up to 25 mm of ice Wind load max Normal operation with relative average wind velocity up to 200 km h 56 m s 108 knots Vibration operational Random spectrum 1 05 g rms x 3 axes 5 to 20 Hz 0 02 g Hz 20 to 150 Hz 3 dB octave Sine 2 to 13 2 Hz 1 mm 13 2 to 100 Hz 7 m s 2 h dwell at resonances
9. 2 0m Table 2 2 Min distance radar X band and FleetBroadband antenna S band 10 cm 3 GHz damage distance Radar power d min at 30 vertical d min at 75 vertical separation separation 0 10 kW 0 4m 0 2m 30 kw 1 0m 0 5m 50 kw 2 0 m 1 0 m Table 2 3 Min distance radar S band and FleetBroadband antenna The separation distance for C band 4 8 GHz radars should generally be the same as for X band radars Radar interference 2 4 Even at distances greater than d min in the previous section the radar might still be able to degrade the performance of the SAILOR FleetBroadband system The presence of one or more X band radars within a radius up to 100 m could cause a minor degradation of the signal to noise ratio during high speed and data calls The degradation will be most significant at high radar pulse repetition rates As long as receiving conditions are favourable this limited degradation is without importance However if receiving conditions are poor e g due to objects blocking the signal path heavy rainfall or icing low satellite elevation and violent ship movements the small extra degradation due to the radar s could cause poor call quality A voice call might become noisy or fail while a data connection might decrease in speed and performance The presence of S band radar s is unlikely to cause any performance degradation as long as the minimum dis
10. 3 beeps etc This means you have to enter the PUK PIN Unblocking Key provided with your SIM card After entering the PUK you must enter a new PIN of your own choice 4 to 8 digits long Chapter 5 Starting up the system 98 129218 B 5 3 3 98 129218 B Entering the SIM PIN for the terminal Dial the following lt PUK gt lt New PIN gt lt New PIN gt followed by or off hook key Example If the PUK is 87654321 and the new PIN is 1234 dial 87654321 1234 1234 followed by or off hook key If you enter 10 wrong PUKs the SIM card will no longer be functional Contact your Airtime Provider for a new SIM card IP handset After having entered the user name and password for the terminal you have 3 attempts to enter the terminal PIN before you are asked to enter the PUK Pin Unblocking Key The PUK is supplied with your terminal SIM card Enter the PUK followed by a new PIN of your own choice The PIN must be from 4 to 8 digits long If you enter a wrong PUK 10 times the SIM card will no longer be functional and you have to contact your BGAN Airtime Provider for a new SIM card Entering the PIN using the web interface If your SIM card requires a PIN and the PIN has not yet been entered when you start up the web interface the start up page will be the PIN page Enter the PIN and click OK For further information on the web interface see the user manual for your SAILOR FleetBroadband Chapter 5 Starting up
11. A means of specifying wire diameters Compact Disc Continuous Monitoring Glossary Dual Tone Multi Frequency The keypad signalling technology that generates two distinct tones when each key is pressed This system allows navigation of voice menus and other advanced calling services All wireless phones use DTMF dialing ElectroStatic Discharge General Purpose Input Output High Frequency The frequency band between 3 and 30 MHz Used for medium and long range terrestrial radio communication Input Output International Maritime Satellite Organisation An intergovernmental body established to ensure that Inmarsat continues to meet its public service obligations including obligations relating to the GMDSS Internet Protocol The method or protocol by which data is sent from one computer to another on the Internet Glossary 1 Glossary LAN PAST PC PIN PoE POST PUK RF RFI SIM SSB TFTP Glossary 2 Local Area Network Person Activated Self Test A test similar to the POST test but activated by the user The PAST causes the system to reset Personal Computer Personal Identification Number A secret numeric password shared between a user and a system used to authenticate the user to the system Power over Ethernet A standard for combining power supply with transmission of data over the Ethernet The source unit injects power into the Ethernet cable and the power is picked up at th
12. Chapter 3 Table 3 1 Chapter 4 Table 4 1 Table 4 2 Table 4 3 Table 4 4 Table 4 5 Chapter 5 Chapter 6 Table 6 1 Table 6 2 App A Table A 1 Table A 2 App B Table B 1 Table B 2 Table B 3 App C Table C 1 98 129218 B List of Tables Related sd OCUMENTS z eho eee a AAA A O AAAA W vi System units Installing the system Distance and maximum size of blocking ODjEcts cecssssssssssssssesesesesesesesesesesesesesesesessmuseemesnes Min distance radar X band and FleetBroadband antenna 1 s s nsssssseseese Min distance radar S band and FleetBroadband antenna ss s ssssssseseeeeeee Antenna Mast length 2 eee eee eee aae away aaa aaa aaa Recommended antenna cable types and max cable lengths Connecting power Power cable pin out and wire colours csssssccsssssssssssssscsssssssesssscsssssssssssecssesssssnscesscsssssnsesescessessssessceess 3 2 Hardware interfaces Power connector PINOUL sesssssssssssssesssssssssssessssssssssssssssssesssssssesesesesesececcceeeceecssssssssssesssessutsnsnsnensesnsnsssnsees DC input connector pinout eeeeeess e eseeeee aaa aaa aaa aaa aaa aa aaa aaa aaa aaa aaa aaa Phone connector PINOUL cesssessscssssssssseeccscssssssssessccssssssssnseesseesss LAN connector pinout essei ak dA initia ae dA AREA cee Discrete I O connector pinout Starting up
13. Connect pin 5 permanently to Ground Connect pin 8 to positive DC voltage 10 5 32 V DC when the ignition is on To switch off disconnect pin 8 from the positive DC voltage e Active low Connect pin 8 permanently to positive DC voltage 10 5 32 V DC Connect pin 5 to Ground lt 1 2 V DC when the ignition is on To switch off disconnect pin 5 from ground Pin 6 Ground Non configurable Pin 6 can be used as an external connection to ground Pin 6 is connected to Ground inside the terminal Pin 7 DC output Non configurable Pin 7 can be used as a DC output The voltage on pin 7 is 9 15 V and the output can supply up to 50 mA Pin 7 can be used as power supply to a relay ringer or similar For information on how to configure the I O pins see the user manual for the SAILOR 150 FleetBroadband system 4 10 Chapter 4 Hardware interfaces 98 129218 B Chapter 5 Starting up the system 5 1 Using the SIM card 5 1 1 Inserting the SIM card The SIM card is provided by your Airtime Provider Insert the SIM card as follows 1 Open the SIM cover in the left side of the connector panel 2 Insert the SIM card into the SIM slot Place the card with the chip side facing up as shown Starting up the system 3 Press gently until it clicks 4 Slide the lock in front of the SIM card 5 Close the cover for the SIM slot 98 129218 B 5 1 Using the SIM card 5 1 2 Removing the SIM card DA When the SIM c
14. can detect events during e POST Power On Self Test a self test performed at every power up e PAST Person Activated Self Test a self test performed when you click the Self test button under Help desk in the web interface or e CM Continuous Monitoring continuous monitoring while the system is in operation When the terminal detects an event that requires your action it issues an event message You can see the active event messages in the web interface by clicking the warning symbol in the icon bar at the top in the web interface All events are logged in the event log For information on the event log see Event log on page 6 4 Logging of events Diagnostic report The diagnostic report contains information relevant for the service personnel during troubleshooting When contacting Cobham SATCOM for support please include a diagnostic report To generate the diagnostic report access the web interface and select Help Desk Then click Generate report Event log The event log holds information of all registered events in the terminal or antenna The log includes the time of the occurrence a short description location of the error etc This information can help troubleshooting errors in the system You can see the event log in the web interface For further information on the web interface see the user manual for the SAILOR 150 FleetBroadband system Chapter 6 Troubleshooting 98 129218 B Appendix A
15. design 2 6 obstructions 2 2 outline B 4 radiation 2 2 ATC resilience 2 5 C cable support 2 14 cables antenna 2 9 ground C 11 power 3 1 condensation in antenna 2 10 coverage area Alphasat satellite B 10 extended L band B 10 I 4 satellites B 10 D delivery items included 2 1 diagnostic report 6 4 dimensions antenna B 4 terminal B 8 discrete I O interface 4 8 98 129218 B distance antenna to GPS receiver 2 5 antenna to radar 2 3 antenna to transmitters B 5 between Inmarsat antennas 2 5 drainage of antenna 2 10 E electrostatic discharge recommendations C 14 error messages 6 4 events logging 6 4 extended L band coverage area B 10 F fibreglass hulls grounding C 9 Index G GPS receiver distance from antenna 2 5 grounding C 1 access 2 12 aluminium hulls C 8 antenna 2 9 C 5 cable C 11 fibreglass hulls C 9 recommendations C 5 steel hulls C 6 terminal C 5 timber hulls C 10 grounding the terminal 2 13 H handset description 1 3 hardware interfaces 4 1 humidity in antenna 2 10 Index 1 Index I I O interface 4 8 1 4 coverage area B 10 ignition function 5 3 indicators function 6 3 installation antenna 2 9 terminal 2 13 interfaces on terminal analogue phone interface 4 5 antenna 4 2 DC power input 4 3 discrete I O 4 8 LAN 4 6 overview 4 1 interference 2 3 RF C 14 IP handset connecting 4 7 entering PIN
16. functions of the SAILOR 150 FleetBroadband system Thrane IP Handset User Manual 98 126059 Explains the features and functions of the Thrane IP Handset The IP handset works as a standard IP handset but also serves as a user interface for the SAILOR 150 FleetBroadband system Table 1 Related documents Typography In this manual typography is used as indicated below Bold is used for the following purposes e To emphasize words Example Do not touch the antenna e To indicate what the user should select in the user interface Example Select SETTINGS gt LAN Italic is used to emphasize the paragraph title in cross references Example For further information see Connecting Cables on page vi 98 129218 B Chapter 1 Chapter 2 Chapter 3 Chapter 4 Chapter 5 Chapter 6 98 129218 B Table of contents System units 1 1 Introd cti n sa AO AAA AGA 1 1 1 2 SAILOR 150 FleetBroadband terminal 1 1 13 SAILOR 150 FleetBroadband antenna 1 2 1 4 Thrane IP Handset 8 Cradle seeeeeeeeeeeeoa ooo 1 3 Installing the system 2 1 Unpacking 2 2 Placing the antenna ee eeeeeeeeeeeeeeee eau aaa aaa aa aa anet arta 2 2 2 3 Installing the antenna eeeeeeeeee eee a
17. of a lightning strike at the antenna a proper grounding of the system will provide a low resistance path to divert the strike discharge to seawater C 1 3 ESD Protection The ESD protection circuits in the terminal rely on proper grounding of the system in order to work properly Otherwise sensitive circuits within the terminal might be damaged due to ESD when you are handling the equipment 98 129218 B C 1 About marine DC systems C2 C 2 1 C 2 2 C 2 About marine DC systems Wiring systems Two basic wiring topologies are used for marine DC system grounding Two Wire Return System and One Pole Grounded Return System Two wire Return System This configuration implies that no part of the circuit in particular the battery negative is connected to any ground potential or equipment The system is totally isolated and includes engine sensors starter motors etc This arrangement is preferred for steel and aluminium vessels BATTERY BATTERY SWITCH _ _ 8 STARTER RELAY ON OFF ON OFF GAUGES STARTER MOTOR 5 tsotator SWITCHBOARD LE OUTGOING CIRCUITS PZ TI DIN gt ENGINE SENSORS Appendix C Grounding and RF protection 98 129218 B About marine DC systems c 2 3 One Pole Grounded Return System This configuration implies that the battery negative is bonded to a ground potential typically at the engine negative
18. terminal This is done in order to polarize the DC electrical system BATTERY BATTERY LL SWITCH STARTER __ _ 5 ONO ee fi ON OFF S pe GAUGES E 2 STARTER MOTOR o ENGINE SENSORS SWITCHBOARD 2 OUTGOING CIRCUITS gt HULL KEEL ENGINE VESSEL GROUND DAB This arrangement is not suitable for steel and aluminium vessels as this might cause electrolytic corrosion of the hull 98 129218 B Appendix C Grounding and RF protection C 3 About marine grounding C3 C 4 About marine grounding There is great confusion about the different Ground terms used when dealing with marine electrical installations The various terms are listed below for reference Term Definition DC Negative Actually not a ground but a current carrying conductor which carries the same current that flows in the positive conductor The DC Negative may be electrically connected to seawater at one point only via the engine negative terminal though the shaft and the propeller or left completely floating Lightning Ground potential immersed in seawater Provides a path to ground lightning Ground strike energy Please note that this is not a functional part of any other electrical system Corrosion Bonding arrangement that ensures equal electrical potential for all System dissimilar underwater metal parts and provides galvanic protection by Ground means of sacr
19. the system Troubleshooting Reset button functions one eeccceeescscssssssssssssscssssssssssssssssecessssssessesssssecesssusecscsssssecessssssseessssssessssnssessssssssssssnees 6 2 LED indicator functions Power 2 eee ea eaten 6 3 Part numbers Part numbers SAILOR 150 FleetBroadband system qu sssssssssssssssssssssssssssssesseesesssessesesnsnseneesees A 1 Part numbers Thrane IP Handset 8 Cradle Wired e ee eee aanaaaaaan nana A 1 Technical specifications SAILOR 150 FleetBroadband antenna General ee sseseeeeeeesaaa aaa za azaaaeaaeaeae SAILOR 150 FleetBroadband antenna Environmental SAILOR FleetBroadband terminal e esseseeeeeeeeeaa aaa aaa aaa aaa aaa aranz azadaa aaa Grounding and RF protection Terms for marine SrOUNCING ccccsssssssssssesesessessssesesssssssssmsssssssssssnssssssssssnsssessesssesssesesssesssesesessssesseees C 4 98 129218 B Chapter 1 System units System units 1 1 Introduction The basic system consists of three units The terminal the antenna and the IP handset with cradle The SAILOR 150 FleetBroadband terminal only works with a SAILOR 150 FleetBroadband antenna 1 2 SAILOR 150 FleetBroadband terminal The terminal is the central unit in the system It contains all user interfaces and handles all communication between the BGAN antenna and the local communication units phones computers etc
20. the system 5 5 z a v E 2 5 DO amp ie sS nv Operating the system 5 4 5 4 1 5 4 2 Overview Operating the system General use The user manual for the SAILOR FleetBroadband system describes general use of the system and all the functions of the web interface It also contains a brief description of how to use the Thrane IP Handset with the terminal User interfaces The main user interfaces for operation of the system are e the built in web interface using a computer with an Internet browser e the Thrane IP Handset Built in web interface The built in web interface is used for easy configuration and daily use You access the web interface from a computer connected to the terminal using an Internet browser No installation of software is needed An Administrator password is required to access advanced configuration of the system From factory the Administrator User name is admin and the Administrator password is 1234 For further information on the web interface refer to the user manual for the SAILOR FleetBroadband system IP handset 5 6 Apart from the standard functions of an IP handset the Thrane IP Handset contains a display menu for the SAILOR FleetBroadband system For further information on the Thrane IP Handset refer to the user manual for the IP handset Chapter 5 Starting up the system 98 129218 B Chapter 6 Troubleshooting 6 1 Reset button 6 1 1 How to access t
21. 12 installing 2 13 introduction 1 1 outline and dimensions B 8 timber hulls grounding C 10 tools for operation 5 6 troubleshooting 6 1 typography used in this manual vi U unpacking 2 1 user interfaces 5 6 98 129218 B Index Index 3 Index Index Index 4 98 129218 B
22. Alternative grounding for timber hulls Grounding the terminal The terminal must be grounded with the short antenna cable and the Grounding kit accessories Further the terminal must be grounded at its grounding stud in order to ensure a proper grounding if the short antenna cable is disconnected The ground connection must be established at a dedicated RF ground either capacitive or electrical coupled Bear in mind that the antenna ground connection is to be made at the same electrical ground potential as the terminal see Grounding the antenna Grounding the antenna If the mounting base of the antenna is electrically connected to any other ground potential than the terminal e g Lightning Ground the antenna must be isolated at its mounting bolts by means of shoulder bushings and washers see page C 13 However a ground connection must be established via one of the mounting bolts using a separate ground cable The ground cable must be routed parallel and in close proximity to the shielded coax cable hence connecting the antenna to the terminal Grounding kit A tinned heavy gauge wire min 6 mm can be used for this purpose see page C 10 Alternative grounding for timber hulls RF Ground Terminal Appendix C Grounding and RF protection 98 129218 B C9 C 9 1 98 129218 B Separate ground cable Separate ground cable Ground cable construction When dealing wit
23. SAILOR 150 FleetBroadband Installation manual SAILOR 150 FleetBroadband Document number 98 129218 B Release date February 5 2014 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 amp 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 amp 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 or from the distributor Thrane amp 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 Thrane amp Thrane A S is trading as Cobham SATCOM Copyright 2014 Thrane amp Thrane A S All rights reserved Trademark acknowledgements e SAILOR is a registered trademark of Thrane amp Thrane A S in the European Union the United States and other countries e Windows and Outlook are registered trademarks of Microsoft Corporation in the United States and other countries e Inmarsat is a registered trademark of International Maritime Satellite Organisation IMSO and is licensed by IMSO to Inmarsat Limited and Inmarsat Ventures plc e Inmarsat s product names are trademarks or registered trad
24. a aaa aaa 2 9 2 4 Placing the terminal eeeeeeeeeee eee aaa aaa aaa aaaaaaaaa 2 12 2 5 Installing the terminal 0 0 0 0 i eenen na e EE 2 13 Connecting power 3 1 POWER SGUFEE cnain zaa ki A OOOO EO AAAA 3 2 Power cable selection 33 Connecting power dawida hc AAA Hardware interfaces 4 11 The connector panel een 4 1 4 2 Antenna interface on terminal ce eesssssssesssssssssessesecseeesnsseseeeessnseeeeeseeee 4 2 4 3 DE power iNPU e aa ko bO O YA 4 3 AA Ground stud ay O ARA R A AAAA 4 4 4 5 Analogue Phone interface oc ccccssssssssssssssssssssssssunssssssssssscessssunussssssseeeeesees 4 5 40 EAN intefa Cesna KR AGOCZ 4 7 Discrete I O interface Starting up the system 54 Usi g the SIM card uwaa A RR AG dO AAAA ORG 5 1 5 2 Powering the system e eee aaa aaa nana 5 3 5 3 Entering the SIM PIN for the terminal 1 1 5 4 5 4 Operating the system Troubleshooting 6 1 Reset button aa Aen b bw W 6 1 vii Table of contents Appendix A Appendix B Appendix C Glossary Index viii 6 2 Status signalling uu asza ee a b A A A 6 3 6 3 Logging of events adi i a CLARA UG RARE 6 4 Part numbers A 1 System units A 2 Spare paris da A SES A GE ada aka e Technical specifications B T OVEMVIEWE a R O R Z da B 2 SAILOR 150 FleetBroadb
25. adband antenna radiates 16 1 dBW EIRP This translates to a minimum safety distance of 0 6 m from the antenna while it is transmitting based on a radiation level of 10 mW cm2 LULLED ah T yd fis MICROWAV ION b No personnel wit istance AR Safety distance e 0 6 m 10 W m 0 2 m 100 W m 2 2 Chapter 2 Installing the system 98 129218 B Placing the antenna 2 2 3 Interference Overview The antenna must be mounted as far away as possible from the ship s radar and high power radio transmitters including other Inmarsat based systems because they may compromise the antenna performance RF emission from radars might actually damage the antenna The SAILOR FleetBroadband antenna itself may also interfere with other radio systems Especially other Inmarsat systems and GPS receivers with poor frequency discrimination are vulnerable to the radiation generated by the SAILOR FleetBroadband antennas o S n v ie BO E N S Radar It is difficult to give exact guidelines for the minimum distance between a radar and the antenna because radar power radiation pattern frequency and pulse length shape vary from radar to radar Further the antenna is typically placed in the near field of the radar antenna and reflections from masts decks and other items in the vicinity of the radar are different from ship to ship However it is possible to give a few guidelines Since a radar radiates a f
26. age 4 3 For specifications of the DC input on the terminal see SAILOR 150 FleetBroadband terminal on page B 6 Connecting to the ignition The terminal has an ignition function When this function is used the terminal switches on off when you start stop the engine of your vessel provided the power switch on the terminal is on You must set up the ignition function in the terminal For details see the user manual for your SAILOR 150 FleetBroadband system To implement the ignition function connect the appropriate pin in the I O connector to the ignition key switch e Active high default Connect pin 5 to Ground Connect pin 8 to high 10 5 32 V DC when the ignition is on Chapter 3 Connecting power 98 129218 B Connecting power e Active low Connect pin 8 to positive DC voltage 10 5 32 V DC Connect pin 5 to Ground lt 1 2 V DC when the ignition is on For pinout and default functions see Discrete I O interface on page 4 8 For information on the standby current when the ignition power is off see Standby current on page B 7 in the general specifications 3 3 3 Connecting a Remote on off switch The terminal has a remote on off function When the terminal power switch is in the on position you can remote control the power function By installing a switch that can short circuit the Remote on off pin 5 pins 2 and 5 in the power connector you can power the terminal on or off with this remote sw
27. an beam with a horizontal beam width of a few degrees and a vertical beam width of up to 15 the worst interference can be avoided by mounting the antenna at a different level meaning that the antenna is installed minimum 15 above or below the radar antenna Due to near field effects the benefit of this vertical separation could be reduced at short distances below approximately 10 m between radar antenna and the SAILOR FleetBroadband antenna Therefore it is recommended to ensure as much vertical separation as possible when the SAILOR FleetBroadband antenna has to be placed close to a radar antenna d Min 15 RADAR ae Min 15 98 129218 B Chapter 2 Installing the system 2 3 Placing the antenna Radar distance The minimum acceptable separation d min between a radar and the antenna is determined by the radar wavelength frequency and the power emitted by the radar The tables below show some rule of thumb minimum separation distances as a function of radar power at X and S band If the d min separation listed below is applied antenna damage is normally avoided d min is defined as the shortest distance between the radar antenna in any position and the surface of the SAILOR FleetBroadband antenna X band 3 cm 10 GHz damage distance Radar power d min at 15 vertical d min at 60 vertical separation separation 0 10 kW 0 8m 0 4m 30 kw 2 4m 1 2m 50 kw 4 0m
28. and antenna B 3 Minimum distance to transmitters e e e eneoonneneneewezezeweaa B 4 SAILOR 150 FleetBroadband terminal B 5 Satellite coverage ooo aaa aaa Grounding and RF protection C1 Why is grounding required ou sssssssssssssssssssssssssssssssssssessssssssssssssssssssssssssesse C 1 C 2 About marine DC systems ou sssssssssssssssssssssssssesesssssssssssessssssssssesesessssssseses C 2 C 3 About marine grounding ou ssssssssssssssssssssssssssssssssssssssssssssssssssssesesssssssessse C 4 C 4 Grounding Recommendations 0 eesesssssssssssssesssssssssessssssssssssssssesssssssesssesssessse C 5 C5 Alternative grounding for steel hulls oc sssssssssssssssesssssssssssesesessesseees C 6 C 6 Alternative grounding for aluminium hulls e e C 8 C 7 Alternative grounding for fibreglass hulls 22 C 9 C 8 Alternative grounding for timber hulls 1 C 10 C 9 Separate ground Cable ou sesssssssssssssssssssssssssssssscsssssssesssesssesssessesssssseseseseees C 11 C10 REAIMGere rence yc c GW Wi C 14 C 11 Electrostatic Discharge ou sessssssssssssssssssssssssssssssssssssssssssssssssssessssssssesseseseseseses C 14 CRO Glossary 1 OE ZZO Index 1 98 129218 B Table 1 Chapter 1 Chapter 2 Table 2 1 Table 2 2 Table 2 3 Table 2 4 Table 2 5
29. and is used for grounding the terminal For information on how to ensure proper grounding of the terminal see Grounding the terminal on page 2 13 and Grounding and RF protection on page C 1 Chapter 4 Hardware interfaces 98 129218 B Analogue Phone interface 4 5 Analogue Phone interface 4 5 1 Overview The terminal has one RJ 11 port which can be used for connection of an analogue phone 4 5 2 Pinout wn o 0 es w 5 oO pe a The Phone connector is an RJ 11 6 4 female connector The table and figure below show the connector outline and pin assignments Pin number Pin function RJ 11 female connector EE mi 2 not connected 3 Tip 4 Ring 5 not connected 6 a Table 4 3 Phone connector pinout 98 129218 B Chapter 4 Hardware interfaces 4 5 LAN interface 4 6 4 6 1 4 6 2 4 6 LAN interface Overview The terminal has two Ethernet LAN ports with Power over Ethernet PoE The standard for the Ethernet ports is IEEE 802 3af and the connectors are RJ 45 connectors Power over Ethernet PoE One power supply powers both interfaces with a floating 48 V DC supply 44 57 V DC Therefore the interfaces are not galvanically separated from each other Both Tx signals are DC connected to the Positive PoE Voltage and both Rx signals to the Negative PoE Voltage The total output power from t
30. ard is removed you cannot use the BGAN menu of the IP handset nor make calls or start data sessions Only emergency calls are allowed and only if permitted by the network However if you have an administrator user name and password you can upload software using the web interface without having a SIM card For further information see the user manual for the SAILOR 150 FleetBroadband system Remove the SIM card as follows 1 Open the SIM cover in the left side of the connector panel 2 Slide the lock aside 3 Gently push the SIM card and let it pop out 4 Remove the SIM card and close the cover for the SIM slot 5 2 Chapter 5 Starting up the system 98 129218 B Powering the system 5 2 Powering the system 5 2 1 Switching the terminal on Using the power switch To switch on the terminal use the On Off switch in the connector panel It normally takes one or two seconds for the terminal to switch on Using the ignition system Normally the ignition function is not used in maritime installations Instead you may want to use the remote on off function described in the next section If you have connected the ignition system of your vessel to the I O connector you may leave the power switch in the on position and the terminal will switch on off when you start stop the engine of your vessel E v u gt a ov pe a 00 2 e re 72 When the engine is stopped the terminal is in s
31. at is no part of the circuit in particular the battery negative is connected to any ground potential or equipment Grounding the terminal The terminal must be grounded to the ship with the short antenna cable and a grounding kit available from Cobham SATCOM Further the terminal must be grounded at its grounding stud in order to ensure a proper grounding if the short antenna cable is disconnected The ground connection can be established either at the hull recommended or at a dedicated RF ground if available alternative However bear in mind that the antenna ground connection is to be made at the same electrical ground potential as the terminal see Grounding the antenna The terminal provides galvanic isolation as required from its input power terminals to the chassis grounding stud This way the isolated grounding arrangement is maintained Grounding the antenna Terminal grounded at the hull recommended C 6 In this case the antenna is grounded to the ship via one or more of its mounting bolts Make sure to remove painting dirt grease etc at the mounting holes in order to make good electrical contact to the hull Use serrated washers when securing the mounting bolts and seal the joint with protective coating to avoid corrosion Appendix C Grounding and RF protection 98 129218 B Alternative grounding for steel hulls Terminal grounded at a dedicated RF ground alternative In this case the antenna is grounded
32. at the maximum allowed source impedance is much lower for a 12 V DC supply than for a 24 V DC supply e A230 V AC supply provides power through an AC DC power supply Be aware of high start up peak current 20 A at 24 V 5 ms The terminal is equipped with an internal 20 A Fuse so no external fuse is necessary in order to protect the terminal However in order to avoid short circuit in the power cable connector the ship s DC outlet should be protected by a 30 A fuse or circuit breaker Connecting power 3 2 Power cable selection 3 2 1 Source impedance The length of the power cable depends on the type of cable used and the source impedance of the DC power installation in the ship The maximum allowed source impedance depends on the usage of the power range of the terminal DC input 10 5 32 VDC 11 5 A 4 A Select a power outlet from the DC system and measure the source impedance of the ship installation as described in the next section gt If the total impedance is higher than the limits stated in this section the terminal may become unstable and start to on off oscillate The total impedance is made up of the source impedance of the ship power supply plus the impedance of connected cables including connectors and joints where cables are extended For further recommendations on power cable selection see Power cable recommendations on page 3 2 98 129218 B 3 1 Power cable selection 3 2 2 Measuring the s
33. by magnetic fields However try to avoid running cables parallel to AC wiring as it might cause malfunction of the equipment Power supply The voltage range is 10 5 32 V DC 11 5 A 4A It is recommended that the voltage is provided by the 24 V DC bus on the ship Be aware of high start up peak current 20 A 24 V 5 ms If a 24 V DC power bus is not available an external 115 230 VAC to 24 V DC power supply can be used Do not operate in an explosive atmosphere Do not operate the equipment in the presence of flammable gases or fumes Operation of any electrical equipment in such an environment constitutes a definite safety hazard Keep away from live circuits Operating personnel must not remove equipment covers Do not replace components with the power cable connected Under certain conditions dangerous voltages may exist even with the power cable removed To avoid injuries always disconnect power and discharge circuits before touching them Failure to comply with the rules above will void the warranty iv 98 129218 B About the manual Intended readers This is an installation manual for the SAILOR 150 FleetBroadband system 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 accordin
34. d directly to the mounting surface you can use a separate grounding cable to make the connection between the antenna and the common ground to which the terminal is also connected For example you can connect a separate grounding cable when vibration isolators are used at the mounting bolts oO Pus S n 5 do poj o0 E N To obtain a good ground connection the metal underneath the head of at least one bolt must be clean of insulating protective coating and a serrated washer should be used After tightening the bolts we recommend that you seal the area suitably in order to avoid corrosion of the grounding point Use stainless steel bolts and washers For further grounding information read Appendix C Grounding and RF protection on page C 1 2 3 2 Antenna cables Guidelines A coaxial cable for connection between the antenna and terminal is delivered with the system If you need a different cable make sure that the cable meets the requirements Preferably choose one of the cable types in Recommended antenna cables below Select a suitable area for installation of the terminal antenna and cradle Where the cables are exposed to mechanical wear on deck through bulkheads etc protect the cables with steel pipes Otherwise follow standard procedures for cabling in ship installations The maximum allowed RF loss in the antenna cable is 20 dB at 1660 MHz This is to ensure the performance of the system Recommend
35. e connected device Power On Self Test A test sequence that runs every time the system is powered up or reset Pin Unblocking Key Radio Frequency Electromagnetic wave frequencies between about 3 kilohertz and about 300 gigahertz including the frequencies used for communications signals radio television cell phone and satellite transmissions or radar signals Radio Frequency Interference A non desired radio signal which creates noise or dropouts in the wireless system or noise in a sound system Subscriber Identity Module The SIM provides secure storing of the key identifying a mobile phone service subscriber but also subscription information preferences and storage of text messages Single Side Band A means of communications at sea The range of SSB is up to several thousand miles and calls between yachts are free Some stations allow telephone calls email and some basic Internet services over SSB radio Trivial File Transfer Protocol A very simple file transfer protocol with the functionality of a very basic form of FTP Since it is so simple it is easy to implement in a very small amount of memory 98 129218 B A alarms 6 4 Alphasat coverage area B 10 aluminium hulls grounding C 8 analogue phone interface 4 5 antenna cables 2 9 dimensions B 4 drainage 2 10 grounding 2 9 grounding recommendations C 5 installation location 2 2 installing 2 9 interference 2 3 isolation from mounting base C 13 mast
36. ed antenna cables The table below shows recommended cable types and maximum cable lengths for SAILOR 150 FleetBroadband Cable Type Absolute maximum length G02232 D 6m RG223 D 25m RG214 U 50m S 07272B 05 95m Table 2 5 Recommended antenna cable types and max cable lengths 98 129218 B Chapter 2 Installing the system 2 9 Installing the antenna 2 3 3 Check in the data sheet from the cable supplier that both the RF attenuation and the DC resistance are kept within the maximum specified values e Antenna cable RF attenuation at 1660 MHz max 20 dB incl connector e Antenna cable modem attenuation at 54 MHz max 4 dB Antenna cable modem attenuation at 36 MHz max 3 dB e Antenna cable loop DC resistance max 1 Q Also ensure that the specified minimum bending radius is respected If this is not the case the loss in the cable will increase Check the instructions from the cable supplier Important mounting notes Line of sight Place the antenna with free line of sight in all directions to ensure proper reception of the satellite signal Do not place the antenna close to large objects that may block the signal Water intrusion After having connected the antenna cable to the antenna ensure that the connector assembly is properly protected against seawater and corrosion As a minimum use self amalgamating rubber If possible install the radome such that direct spray of sea water is avo
37. ed distance to transmitters in the frequency range below 1000 MHz Other precautions Do not place the antenna close to a funnel as smoke deposits are corrosive Furthermore deposits on the radome can degrade performance 98 129218 B Chapter 2 Installing the system 2 5 Placing the antenna 2 2 4 Antenna mast design Overview The antenna mast must be designed to carry the weight of the antenna unit which is approximately 3 9 kg 1 1 kg for the mast mount kit The mast must also be able to withstand onboard vibrations and wind forces up to 108 knots on the radome even in icing conditions Antenna mast mounting Mast mount kit The top of the SAILOR 150 FleetBroadband antenna mast should be fitted with the dedicated mounting kit available from Cobham SATCOM Assemble the mast mount kit according to the assembly instruction included with the kit The mast mount kit interfaces to a 11 pipe OD 48 3 mm If the supplied plastic sleeve is omitted a maximum diameter OD of 52 mm can be used Custom mast mounting For a custom mast mounting use 4 M6 bolts A4 in the threaded bushings on the 175 4 mm diameter circle in the bottom of the antenna The length of the bolts must be such that they engage into the bushings of the radome with min 6 mm and max 12 mm Do not block the drainage hole in the centre bottom of the antenna Drill a hole for the cable in the mast flange or use an angled connector Mast length and dia
38. emarks of Inmarsat e Other product and company names mentioned in this manual may be trademarks or trade names of their respective owners Company web site Cobham com SATCOM i 98 129218 B 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 amp Thrane A S assumes no liability for the customer s failure to comply with these requirements Observe marked areas Under extreme heat conditions do not touch areas of the terminal or antenna that are marked with this symbol as it may result in injury Microwave radiation hazards During transmission the antenna in this system radiates Microwave Power This radiation may be hazardous to humans close to the antenna During transmission make sure that nobody gets closer than the recommended minimum safety distance On the SAILOR 150 FleetBroadband the minimum safety distance to the antenna panel on the focal line is 0 6 m based on a radiation level of 10 W m The radiation level is 100 W m at a distance of 0 2 m from the antenna panel Refer to the drawing below Pour une antenne SAILOR 150 FleetBroadband la distance de s curit minimale avec le panneau de l antenne sur l axe focal est de 0 6 m sur la base d u
39. etBroadband terminal Item Specification Antenna interface One connector TNC female Inmarsat I 4 power 1525 to 1559 MHz 94 dBm to 64 dBm 1626 5 to 1660 5 MHz 9 dBm to 11 dBm Inmarsat Alphasat power 1518 to 1559 MHz 94 dBm to 64 dBm 1626 5 to 1660 5 MHz and 1668 0 1675 0 MHz 9 dBm to 11 dBm Power supply 18 29 V DC Power Input Power consumption Idle no waves Idle w waves FTP transfer w waves Connector Mixed D Sub 7W2 Nominal 12 24 VDC 10 5 32 VDC 11 5 A 4A Max source impedance 85 mQ at 12 V 500 mQ at 24V Maximum 20 A at 24 V 5 ms start up Maximum power consumption 120 W Measured with wave simulator No peripherals connected 15 67 W IP handset phone and PC connected 16 82 W Phone connected 18 75 W IP handset phone and PC connected 20 2 W Download Standard background data 21 4 W Upload Standard data 31 09 W Standby current Ignition function off max 15 mA Remote on off in DC connector off max 2 mA Ambient Operational 25 to 55 C temperature Storage 40 to 80 C Relative Humidity 95 non condensing at 40 C Equipment category Protected from the weather IEC 60945 Table B 3 SAILOR FleetBroadband terminal Continued a The extended frequency range Extended L Band or XL is only available within Alphasat coverage For coverage area see Satellite coverage on page B 10 Appendix B
40. g to the guidelines in this manual Manual overview Note that this manual does not cover general use of the system nor does it cover how to use the IP handset that comes with the system For this information refer to the user manual for this system and the user manual for the IP handset both listed in the next section This manual has the following chapters 98 129218 B System units contains a short description of each main unit in the system Installing the system describes where to place the system units how to mount them distance to other equipment etc Connecting power explains how to connect the terminal to power and gives recommendations for cables Hardware interfaces describes each interface on the terminal and shows pinout for the connectors Starting up the system explains how to insert the SIM card power up the system and enter the PIN It also gives a short overview of how to use the system Troubleshooting describes the function of the Reset button and the light indicator on the terminal It also describes event messages that may appear in the web interface Related documents The below list shows the documents related to this manual and to the system Document Title and description number SAILOR 150 FleetBroadband User Manual 98 129217 Explains how to set up and use the SAILOR 150 FleetBroadband systems SAILOR 150 FleetBroadband Quick Guide 98 129219 A short guide to the most important
41. h electrical installations in a marine environment all wiring must be done with double insulated tinned high quality and if exposed also UV resistant cables This shall also apply to the separate ground cable mentioned in the previous paragraphs The ground cable is constructed using an appropriate cable with a cross section area of at least 6 mm AWG9 and terminated with insulated ring crimp terminals see illustration below The crimp terminals must be a marine approved type e g the DuraSeal series from Raychem Antenna M10 Insulated Ring Terminal Raychem DuraSeal Series WLW me keo E pe o Oo i Terminal M4 Insulated Ring Terminal Raychem DuraSeal Series Appendix C Grounding and RF protection C 11 Separate ground cable C 9 2 Ground cable connection The ground cable must be mounted close to and parallel to the shielded coax cable thus minimizing ground loop problems If possible route the coax cable and the ground cable in metal conduits bonded to the hull or within a mast depending on the actual installation The ground cable must be connected at one of the mounting grounding bolts on the antenna Use bolts and washers of stainless steel and seal the joint with protective coating to avoid corrosion If the antenna is to be isolated from the mounting base shoulder bushings and washers must be used see page C 13 In the below drawing vibration i
42. he Reset button The terminal has a Reset button placed next to the SIM slot behind the SIM cover The functions of this button is described in the next section To press the Reset button use a pointed device 98 129218 B 6 1 00 f 5 e e T N a a Z o H Functions of the Reset button The Reset button on the terminal has the following functions Action Function With the terminal running press the Reset button normally The terminal IP address and IP netmask are temporarily set to the default value default IP address 192 168 0 1 With this function even if the IP address has been changed and you do not remember the new IP address you can still access the web interface and see your current configuration The default value is not saved in the configuration but is only valid until next reboot With the terminal running press and hold the Reset button for 30 seconds until the Power indicator on the terminal is flashing orange The terminal restores factory settings and reboots the system While the terminal is booting press and hold the Reset button For service use only The bootloader initiates software upload This firmware upload procedure is only to be used if the other procedures fail due to missing or corrupted firmware This setup uploads software to the terminal from a TFTP server via the LAN connection The procedure is as follows 1 Activate or install a TFTP
43. he interfaces is 32 W Both interfaces can support devices of power class 1 2 and 3 4 7 and 15 4 Watt as long as the total power consumption does not exceed the above limits In case of power hold up failure on input power PoE will be turned off Chapter 4 Hardware interfaces 98 129218 B LAN interface 4 6 3 Pinout The figure and table below show the connector outline and pin assignments Pin number Pin function R 45 female connector 1 TxD input 12345678 positive PoE 2 TxD input positive PoE 3 RxD output negative PoE 4 not connected 5 not connected 6 RxD output negative PoE E 7 not connected 2 z 8 not connected E ak Table 4 4 LAN connector pinout 4 6 4 Connecting the Thrane IP handset To connect the Thrane IP Handset to the terminal do as follows Connect the cable from the IP cradle to one of the LAN connectors on the terminal preferably port 1 In case of insufficient power to the LAN PoE the LAN ports are prioritized so that port 1 is the last to be shut down Note that the handset and terminal must be set up to be able to communicate with each other For further information refer to the user manual for the handset The maximum length of the cable between IP cradle and terminal is 80 m M If you insert a switch or similar between the cradle and the terminal make sure that it conforms to the industry standard IEEE 802 3 af using data
44. hip source impedance Select a power outlet from the ship 24 V DC or 12 V DC system and measure the source impedance of the ship installation as described below 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 Example 1 A and 50 mV Source impedance 50 mV 1 Amp 50 mQ Power outle for terminal Battery 24 VDC I FT Ship Installations A R var NM 3 2 3 Power cable recommendations Overview The terminal is delivered with a power cable which can be extended according to the recommendations in this section When extending the power cable positive and negative supply wires must be installed closely together side by side to keep cable inductance low e Ensure that cable inductance for the selected cable at the desired length is below the 50 uH requirement The power cable contains the following wires Pin number in connector Colour of wire in Function power cable Red Al Vin Black A2 Vin 3 2 Black not connected Green Remote on off Brown not connected Red 4 not connected Orange 5 Remote on off Table 3 1 Power cable pin out and wire colours Chapter 3 Connecting power 98 129218 B Power cable selection Calculating the maximum powe
45. ided It is recommended not to use pneumatic tools for cleaning the radome especially at a short distance and directly at the split between top and bottom Note that the SAILOR 150 FleetBroadband antenna is drained for condensation through the gasket in the bottom centre Make sure the requirements to drainage are met See the next section Condensation Condensation In some cases there will be condensation inside the radome The gasket in the bottom centre of the SAILOR 150 FleetBroadband antenna is designed to lead any water away from the radome Gasket with drainage Chapter 2 Installing the system 98 129218 B Installing the antenna 2 3 4 Mounting the antenna The radome can now be installed on the ship with 4 stainless steel bolts fastened to the hull or to a mast For information on mast mounting see Antenna mast design on page 2 6 Mounting the antenna on the hull Make sure the antenna has line of sight to the satellites When the antenna is mounted directly on the hull it may be difficult to obtain line of sight especially down to 60 which is the maximum rotation angle pitch and roll for the SAILOR 150 FleetBroadband antenna o S n v ie Em bO E N S Use M6 bolts for mounting the antenna The bolt thread must not penetrate more than 12 mm or 8 turns of the bolt and not less than 6 mm or 4 turns of the bolt into the threaded part of the bushings in the radome Fasten the bolt
46. ificial anodes AC Ground Ground potential immersed in seawater typically the hull for steel and Protective aluminium vessels Serves as safety ground protective earth thus Earth preventing shocks or electrocution in the event of a fault situation RF Ground Underwater ground potential that is capacitively coupled to seawater Capacitive ground Typically numerous pieces of bonded underwater metal parts such as keel isolated water tank engine block etc will act as a capacitive RF ground that is no DC connection to seawater Often referred to as counterpoise for the SSB HF aerial system RF Ground Underwater ground potential that is electrically coupled to seawater Electrical ground by means of a separate ground plate e g Dynaplate Also referred to as counterpoise for the SSB HF aerial system Table C 1 Terms for marine grounding Appendix C Grounding and RF protection 98 129218 B Grounding Recommendations C4 Grounding Recommendations C 4 1 Grounding the terminal The terminal should be grounded to the ship hull For this purpose you may use a short antenna cable and a grounding kit A suitable grounding kit is available from Cobham SATCOM Further the terminal must be grounded at its grounding stud in order to ensure proper grounding if the short antenna cable is disconnected For further information see Grounding the terminal on page 2 13 C 4 2 Grounding the antenna You can gr
47. inal is a TNC female connector placed in the connector panel For information on cables and how to install and connect the antenna see Installing the antenna on page 2 9 4 2 2 Pinout The below drawing shows the TNC female connector in the terminal Signal GND 4 2 Chapter 4 Hardware interfaces 98 129218 B DC power input 4 3 DC power input 4 3 1 Overview The DC power input for the terminal is a 10 5 32 VDC 11 5 A 4A input with a remote on off function The input is protected against reverse polarity The power connector is a D sub connector placed in the connector panel For information on power recommendations and how to connect see Connecting power on page 3 1 4 3 2 Pinout wn o 0 w 5 oO E The power connector is a Mixed D Sub connector 7W2 control pin male power pin male The below table shows the pinout for the connector and the colours of the corresponding wires Pin number Pin function AW ip Al Vin Red A2 Vin Black 1 not connected Black 2 Remote on off Green 3 not connected Brown 4 not connected Red 5 Remote on off Orange 98 129218 B Chapter 4 Hardware interfaces Table 4 2 DC input connector pinout Mixed D Sub connector 7W2 male A2 543 A1 4 3 Ground stud 4 4 4 4 Ground stud The terminal has a ground stud with a wing nut The ground stud is located in the connector panel
48. itch When pins 2 and 5 are not short circuited and valid input power is present the terminal is powered on provided the Power switch is in the on position D e a bO G 0 D o U For pinout for the power connector and a description of the wire pin 2 colours in the power cable see Pinout on page 4 3 For information on the standby current when the remote on off switch is off refer to Standby current on page B 7 in the General specifications 98 129218 B Chapter 3 Connecting power 3 5 Connecting power 3 6 Chapter 3 Connecting power 98 129218 B Chapter 4 Hardware interfaces 4 1 The connector panel The connector panel is placed at one end of the terminal and has the following connectors wn o 0 w 5 oO e 1 Antenna connector TNC e 1 Phone connector e 2 LAN connectors with Power over Ethernet PoE e DC power input connector for connection to 10 5 32 V DC with optional remote on off e 1 Input Output connector with 5 inputs outputs for external control or signalling e 1 ground stud with wing nut For information on how to connect to a specific interface see the next sections 98 129218 B 4 1 Antenna interface on terminal 4 2 Antenna interface on terminal 4 2 1 Overview The antenna interface on the terminal connects to the TT 3050C antenna in the SAILOR 150 FleetBroadband system The antenna connector on the term
49. l on a bulkhead 1 Insert four screws through the mounting holes and into the mounting surface If the mounting surface is used for grounding make sure that you have a good electrical connection to the surface D u a 0 E p tele E E N S 2 Connect all cables Terminal with Basic cable support First mount the Basic cable support on the terminal as described in Mounting the Basic cable support on page 2 14 1 Mount the terminal with the Basic cable support on the bulkhead by inserting four screws through the holes in the mounting bracket and into the mounting surface 2 Connect all cables 3 Secure the cables to the cable support using cable strips 2 5 4 Installing the terminal on a desktop Four rubber feet make the terminal well suited for desktop installation Simply place the terminal on a desktop and connect all cables If required fasten the terminal to the desktop with four screws as described in the previous section Installing the terminal on a bulkhead Make sure that the grounding requirements are met See Grounding and RF protection on page C 1 98 129218 B Chapter 2 Installing the system 2 15 Installing the terminal 2 16 Chapter 2 Installing the system 98 129218 B Chapter 3 Connecting power 3 1 Power source There are different options for the power supply e The 24 V DC ship supply provides power for the terminal e A12 V DC supply provides power for the terminal Note th
50. leave the On Off switch in the connector panel in the On position and turn off the ignition Entering the SIM PIN for the terminal Overview If your SIM card requires a PIN you have to enter a PIN to use the system You can enter the PIN using a standard phone the IP handset or the web interface For information on how to connect the handset or computer you are going to use refer to the user manual Entering the PIN using a phone or IP handset To enter the PIN If you have a phone connected to the terminal you can use it to enter the PIN at start up Do as follows e For an analogue phone Pick up the phone When the terminal is waiting for a PIN you will hear 2 beeps pause 2 beeps etc Dial lt PIN gt followed by When you hear a busy tone or a dialing tone the PIN has been accepted and you can hang up or dial a number e For an IP handset Select the BGAN menu select ENTER PIN and enter the user name and password for the terminal Then enter the PIN for the terminal The ENTER PIN menu item is only available if your SIM card requires a PIN and the PIN has not yet been entered and accepted in the terminal Wrong PIN 5 4 Analogue phone If instead of the busy tone or dialing tone you continue to hear 2 beeps pause 2 beeps etc it means the PIN was not accepted Check that you have the correct PIN and try again If a wrong PIN has been entered three times you will hear 3 beeps pause
51. m failures and in extreme cases permanent damage to the SAILOR FleetBroadband equipment If there are problems with interference from HF transmitters it is advisable to mount ferrite clamps on the coax cable in order to provide suppression of induced RF The ferrites will have no effect on the differential mode signals but increases the impedance in relation to common mode RFI Recommendations Use 1 5 pcs hinged clamp cores e g the RFC or SFC series from Kitagawa mounted on the antenna cable near the antenna Electrostatic Discharge In addition to the RFI attenuation mounting ferrite clamps on the antenna cable will also slow the fast rate of rise of an electrostatic discharge current pulse This might be an issue during installation antenna cable disconnected where different electrical potentials have had the chance to build up between the terminal and antenna We recommend mounting 1 5 pcs hinged clamp cores e g the RFC or SFC series from Kitagawa on the antenna cable near the antenna Appendix C Grounding and RF protection 98 129218 B ATC AWG CD CM DTMF ESD GPIO HF I O IMSO 98 129218 B Glossary Auxiliary Terrestrial Component Hybrid satellite terrestrial systems that use terrestrial repeaters to combine the wide area coverage capabilities of geostationary or low earth orbit satellites with urban coverage and in building penetration provided from terrestrial networks American Wire Gauge
52. meter The placement of the antenna must ensure a rigid structural connection to the hull or structure of the ship Parts of the ship with heavy resonant vibrations are not suitable places for the antenna A small platform or short mast shall provide rigid support for the antenna fastening bolts and a rigid interface to the ship If it is necessary to use a tall mast use the table on page 2 8 to obtain the maximum free length of the mast Note that these values depend on rigid antenna ship interfaces The cross sectional properties and the corresponding maximum free length give a natural frequency above 30 Hz It is recommended to shorten the mast length as much as possible to obtain higher frequencies Alternatively mount stays or wires to stabilize the mast further 2 6 Chapter 2 Installing the system 98 129218 B Placing the antenna o S n v ie Em bO E N S Free mast length m OD mm r O y AN The table in the next section lists the values for steel masts For aluminium masts the free mast length is reduced to 75 of the values for steel High masts or installations on ships with high vibration levels should be further stabilized by stays or wires from the mast flange Also mount vibration isolators between the flange and the radome For SAILOR 150 FleetBroadband the vibration isolators are included in the Mast mount kit Stays and rigid masts can still n
53. mpedance meter from step 2 The length is multiplied by 0 5 above because there are two conductors in the cable Example Ship supply voltage 12 V DC Ship source impedance measured 50 mQ Extension cable type 4 mm AWG 11 S5mQ 50mQ 10mQ _ 15 Max cable extension 0 5 ROZ In this case the power cable can be extended with up to 3 12 m If you need a longer cable you can double the maximum allowed length by connecting two cables instead of one or you can use a cable with a larger diameter Chapter 3 Connecting power 3 3 D e a bO G 0 D o U Connecting power 3 3 3 3 1 Connecting power Connecting the power cable To connect the power cable 3 3 2 3 4 Do as follows to connect the power cable 1 Connect the red and black wires of the power cable to the ship s 24 VDC supply according to the recommendations in the previous sections 2 Connect the D sub connector on the power cable to the DC input connector on the terminal If you need a remote on off function you may use one of the following options e Connect the Remote on off wires in the power cable to a remote switch For further information see Connecting a Remote on off switch on page 3 5 e Connect the ignition pins in the I O connector to the ignition of your vessel For further information see Connecting to the ignition on page 3 4 For information on pinout see DC power input on p
54. n niveau de radiation mis de 10 W m L appareil g n re un niveau de radiation de 100 W m a une distance de 0 2 m de l avant du panneau de l antenne Veuillez consulter le sch ma au dessous Safety distance ZA 0 6 m 10 Wim 0 2 m 100 Wim Distance to other equipment Do not move the antenna closer to radars than the min safe distance specified in the installation manual it may cause damage to the antenna 98 129218 B iii Compass Safe Distance SAILOR 150 FleetBroadband Terminal min 0 3 m SAILOR 150 FleetBroadband Antenna min 1 2 m Service User access to the interior of the system units is prohibited Only a technician authorized by Cobham SATCOM may perform service failure to comply with this rule will void the warranty Do not service or adjust alone Do not attempt internal service or adjustments unless another person capable of rendering first aid resuscitation is present Grounding cables and connections To minimize shock hazard the equipment chassis and cabinet must be connected to an electrical ground The terminal must be grounded to the ship For further grounding information refer to the Installation manual Do not extend the cables beyond the lengths specified for the equipment The cable between the terminal and antenna can be extended if it complies with the specified data concerning cable losses etc All cables for the SAILOR FleetBroadband system are shielded and should not be affected
55. ng the terminal The terminal must be grounded with the short antenna cable and a grounding kit available from Cobham SATCOM Further the terminal must be grounded at its grounding stud in order to ensure a proper grounding if the short antenna cable is disconnected The ground connection must be established at a dedicated RF ground either capacitive or electrical coupled Bear in mind that the antenna ground connection is to be made at the same electrical ground potential as the terminal see Grounding the antenna C 7 2 Grounding the antenna If the mounting base of the antenna is electrically connected to any other ground potential than the terminal e g Lightning Ground the antenna must be isolated at its mounting bolts by means of shoulder bushings and washers see page C 13 LL ge 00 fe mo Cc e O However a ground connection must be established via one of the mounting bolts using a separate ground cable The ground cable must be routed parallel and in close proximity to the shielded coax cable hence connecting the antenna to the terminal Grounding kit A tinned heavy gauge wire min 6 mm2 can be used for this purpose see page C 9 Alternative grounding for fibreglass hulls Heavy Gauge Wire Terminal Grounding Kit 98 129218 B Appendix C Grounding and RF protection C 9 Alternative grounding for timber hulls C8 C 8 1 C 8 2 C 10
56. nna cable is disconnected The ground connection must be established at a dedicated RF ground either capacitively or electrically coupled Remember to make the antenna ground connection at the same electrical ground potential as the terminal see Grounding the antenna The terminal provides galvanic isolation as required from its input power terminals to the chassis grounding stud This way the isolated grounding arrangement is maintained Grounding the antenna If the mounting base of the antenna is electrically connected to the hull or any other ground potential than the terminal the antenna must be isolated at its mounting bolts by means of shoulder bushings and washers see page C 13 This is done in order to prevent DC currents flowing in the hull thus causing electrolytic corrosion However a ground connection must be established via one of the mounting bolts using a separate ground cable The ground cable must be routed parallel and in close proximity to the shielded coax cable hence connecting the antenna to the terminal Grounding kit A tinned heavy gauge wire min 6 mm can be used for this purpose see page C 8 Alternative grounding for aluminium hulls RF Ground F Capacitive OR rn Seperate ground plate Appendix C Grounding and RF protection 98 129218 B Alternative grounding for fibreglass hulls C 7 Alternative grounding for fibreglass hulls C 7 1 Groundi
57. open e Normally Closed default The internal switch at pin 3 is normally closed pin 3 is connected to ground During phone calls the switch opens no connection to ground When the call is ended the switch is closed again connected to ground e Normally Open The internal switch at pin 3 is normally open no connection to ground The switch is closed connected to ground during phone calls When the call is ended the switch opens again no connection to ground Pin 4 Radio silence input Activation of this pin causes the system to assume radio silence i e to stop all transmission from the system The terminal gracefully closes all open connections and deregisters from the BGAN network No transmission is allowed until the pin is deactivated You can configure pin 4 to Active low or Active high Chapter 4 Hardware interfaces 4 9 Discrete I O interface e Active low default Connect pin 4 to ground lt 1 2 V DC when it should be activated e Active high Connect pin 4 to ground lt 1 2 V DC When it should be activated disconnect it from ground Pin 5 8 Ignition input The ignition function can be used to turn on off the terminal by means of an external signal The external signal that triggers the ignition function can be either positive DC voltage or ground The ignition function uses pin 5 together with pin 8 DC in Connect the appropriate pin to the ignition switch as follows e Active high default
58. ot prevent vertical vibration if the mast is attached to a deck plate that is not rigid Make every effort to mount the mast on a surface that is well supported by ribs If this is not possible provide extra deck plate propping 98 129218 B Chapter 2 Installing the system 2 7 Placing the antenna Antenna mast length 2 8 The below table shows the values for a SAILOR 150 FleetBroadband antenna mast without stays or wires Note that these values are only guidelines always consider the environment and characteristics of the ship before deciding on the mast dimensions The mast mount kit interfaces to a 11 2 tube OD 48 3 mm absolute maximum OD 52 mm Masts with larger diameters must be tapered and the upper part of the tube approximately 50 mm must have a diameter of 1 2 OD PZA Weight Ingra Max free mast length mm a kg m X10 mm steel m 48 3 3 25 3 61 0 117 lt 0 6 48 3 4 05 4 43 0 139 50 3 00 3 48 0 123 60 3 3 65 5 10 0 262 lt 0 8 60 3 4 50 6 17 0 309 76 1 3 65 6 80 0 547 lt 1 0 76 1 4 50 7 90 0 651 88 9 4 05 8 47 0 974 lt 1 1 88 9 485 10 10 1 140 Table 2 4 Antenna mast length Chapter 2 Installing the system 98 129218 B Installing the antenna 2 3 Installing the antenna 2 3 1 Antenna grounding You may ground the antenna using the mounting bolts If the antenna cannot or should not be electrically connecte
59. ound the antenna to the ship hull via one or more of its mounting bolts Make sure to remove painting dirt grease etc at the mounting holes in order to make good electrical contact to the hull Use serrated washers when securing the mounting bolts and seal the joint with protective coating to avoid corrosion s ad AE S P Zz U zo 00 E 5 e D Antenna bottom kN a Serrated washer M10 Mounting bolt Mounting base Stainless steel Stainless steel If you are using vibration isolators at the bolts the grounding connection between the mounting surface and the bolts is not sufficient In that case mount a separate grounding wire See Separate ground cable on page C 11 It is always recommended to establish the shortest grounding path as possible e g on steel hulls the antenna should be grounded directly to the hull 2 However due to the fact that this is not possible on e g fibreglass hulls nor is it preferable on aluminium hulls a number of alternative grounding methods are suggested in the following paragraphs 2 Please note that the antenna ground connection is made at the same electrical ground potential as the terminal 98 129218 B Appendix C Grounding and RF protection C 5 Alternative grounding for steel hulls C5 C 5 1 C 5 2 Alternative grounding for steel hulls The following guidelines assume a two wire isolated grounding arrangement th
60. pairs 98 129218 B Chapter 4 Hardware interfaces 4 7 Discrete I O interface 4 7 4 7 1 4 7 2 4 8 Discrete I O interface Overview The terminal has an I O connector with 5 configurable inputs outputs The connector is a WieCon Type 8513S connector Pinout The figure and table below show the connector outline and pin assignments WieCon Type 8513S connector TLD 1 2 3 4 5 6 7 8 Pin number Connection Default configuration 1 GPIO 1 Ringer output 2 GPIO 2 Warning Error output 3 GPIO 3 Mute output 4 GPIO 4 Radio silence input 5 GPIO 5 Ignition input 6 Chassis GND Chassis GND 7 DC out 9 15 VDC 50 mA 8 DC in ignition input Table 4 5 Discrete I O connector pinout a The default functions of the I O pins are described in the next section Chapter 4 Hardware interfaces 98 129218 B 4 7 3 98 129218 B Discrete I O interface Default configuration of I O pins The built in web interface of the terminal offers a page for configuring the I O pins The functions of the I O pins are as follows Pin 1 Ringer output Pin 1 acts as a built in switch in the terminal You can configure Pin 1 to be Normally closed or Normally open e Normally closed default The internal switch at pin 1 is normally closed pin 1 is connected to ground When the terminal is notified of an incoming call from the satellite interface the switch opens no
61. r cable extension 98 129218 B For 24 V DC operation the total impedance must be max 500 mQ including the source impedance in the ship installation For 12 V DC operation the total impedance must be max 85 mQ including the source impedance in the ship installation The total impedance is made up of the following e the source impedance in the ship installation e the cable impedance of the supplied power cable including the impedance in the joint of the two cables In the following example the impedance of the cable and joint is set to 10 mQ 1 m power cable Note that if the cable length or type is changed the impedance will change accordingly e the extension cable impedance To calculate the maximum cable extension do as follows 1 First measure the source impedance in the ship installation as shown in Measuring the ship source impedance on page 3 2 2 Then find the resistance per meter for the cable type you are going to use For 4 mm AWG 11 the value is 4 mQ m at 20 C For 1 5 mm AWG 15 the value is 10 mQ m at 20 C For other cable types refer to the data sheet for the cable 3 Calculate the maximum allowed impedance in the extension cable as follows Max allowed impedance in extension cable max total impedance measured source impedance impedance of the supplied cable 4 Then calculate the max extension cable length as follows Max impedance in extension cable from step 3 Max length 0 5 x i
62. s with 7 8 Nm torque The only electrical connector is a single TNC connector in the bottom of the radome Do not block the drainage hole in the centre bottom of the antenna 98 129218 B Chapter 2 Installing the system 2 11 Placing the terminal 2 4 Placing the terminal 2 4 1 Where to place the terminal Temperature conditions The terminal must be placed in a ventilated area with free space around all sides of the unit except the bottom side Ambient temperature range is 25 C to 55 C If the terminal is installed in a location where the ambient temperature may exceed 45 C we recommend placing the terminal where unintentional contact is avoided If the maximum ambient temperature does not exceed 45 C the terminal can be placed in a public area Grounding access The terminal is designed with a case for bulkhead or desktop installation The case is equipped with mounting brackets making it possible to secure the unit on a bulkhead The terminal must be placed in an area where access to the hull or equivalent grounding can be reached within 0 5 m 2 12 Chapter 2 Installing the system 98 129218 B Installing the terminal 2 5 Installing the terminal 2 5 1 Grounding the terminal Antenna cable The antenna is connected to the terminal by means of a coax cable with a TNC connector at both ends For information on antenna grounding see Antenna grounding on page 2 9 D 8 S n 0 E 5 tele E
63. server on a PC 2 Locate the correct software image xxx dl for the terminal and place it in the TFTP server directory 3 Rename the image to ttexp dl R Reconfigure the PC LAN interface to use the static address 192 168 0 2 255 255 255 0 Power off the terminal Connect the PC LAN Interface to the terminal Press and hold down the Reset button O N O UT Keep the Reset button pressed while powering on the terminal and through the next step 9 Monitor the TFTP server window When the upload starts you can release the Reset button When the TFTP upload finishes the terminal boots up using the new image Chapter 6 Troubleshooting Table 6 1 Reset button functions 98 129218 B Status signalling 6 2 Status signalling 6 2 1 Overview The SAILOR FleetBroadband system uses event messages and a light indicator for Power to display the status of the system 6 2 2 Power indicator The Power indicator is placed above the SIM slot in the connector panel The Power indicator has the following functions Behaviour Meaning Steady green Power OK 5 Flashing green The terminal is powering up 5 Flashing orange The terminal is shutting down E Off No power Table 6 2 LED indicator functions Power 98 129218 B Chapter 6 Troubleshooting 6 3 Logging of events 6 2 3 Event messages Display of event messages 6 3 6 3 1 6 3 2 6 4 The terminal
64. solators are mounted Vibration isolator Plain washer stainless steel Ground cable Serrated washer stainless steel Plain washer stainless steel Spring washer stainless steel At the other end connect the ground cable at the terminal grounding kit as described in Grounding the terminal on page C 5 Appendix C Grounding and RF protection 98 129218 B Separate ground cable C 9 3 Isolation of the antenna from the mounting base In cases where the antenna is to be isolated from the mounting base shoulder bushings and washers accessories must be used as illustrated below Please note that the isolation has to be implemented on all four mounting bolts including the bolt securing the ground cable Plain washer stainless steel Isolating shoulder bush WL zo je E 5 e _ v Spring washer stainless steel The ground cable must be connected at one of the mounting grounding bolts on the antenna as illustrated below Remember to seal the joint with protective coating to avoid corrosion Isolating shoulder bush Plain washer stainless steel LL PPLE Ground cable Ea gt Serrated washer stainless steel Plain washer stainless steel Spring washer stainless steel 98 129218 B Appendix C Grounding and RF protection C 13 RF interference C 10 C 10 1 C 11 C 14 RF interference Interference induced from nearby RF transmitters might cause syste
65. tances d min listed in the previous section are applied Chapter 2 Installing the system 98 129218 B Placing the antenna It is strongly recommended that interference free operation is verified experimentally before the installation is finalized CAUTION The antenna must never be installed closer to a radar than d A min even if experiments show that interference free operation can be obtained at shorter distances than d min in the previous section Other Inmarsat systems Recommended minimum safe distance to other Inmarsat antennas is 10 m D 8 z n 0 E 5 bO E E N S GPS receivers Good quality GPS receivers will work properly very close to the antenna typically down to one meter outside the main beam and down to a few meters inside the main beam However simple GPS receivers with poor frequency discrimination could be affected at longer range typically 10 m It is always recommended to test the GPS performance before the installation is finalized VSAT systems For optimum performance we recommend a minimum distance of 3 meters from the BGAN antenna to VSAT antennas Auxiliary Terrestrial Component ATC The SAILOR FleetBroadband system is resilient to ATC base stations future terrestrial mobile systems that operate inside the Inmarsat band and that may be located near the coast Other transmitters See Minimum distance to transmitters on page B 5 in Appendix B for minimum recommend
66. tandby mode meaning that only the primary parts of the system are kept alive The standby current is max 15 mA when the ignition is off For information on how to connect to the ignition refer to Connecting to the ignition on page 3 4 You must set up the ignition function in the web interface For further information see the user manual for the SAILOR FleetBroadband system In some cases the system may reboot after power on because of the high start up current Using a remote on off switch If an external switch is connected to the remote on off pins in the DC connector you may leave the power switch in the connector panel in the on position and use the remote switch to turn the terminal on and off When the remote switch is off the terminal is off However if you leave the power switch on the terminal in the on position you can always switch the terminal back on with the remote switch The standby current when the remote switch is off is max 2 mA For further information on how to connect a remote on off switch see Connecting a Remote on off switch on page 3 5 98 129218 B Chapter 5 Starting up the system 5 3 Entering the SIM PIN for the terminal 5 2 2 5 3 5 3 1 5 3 2 Switching the terminal off To switch off the terminal change the position of the power switch again M Wait at least 5 seconds after power off before trying to power on the system again To switch off using the Ignition function
67. tem 2 1 Unpacking Unpack your SAILOR FleetBroadband system and check that the following items are present TT 3739A SAILOR 150 FleetBroadband terminal TT 3050C SAILOR 150 FleetBroadband antenna TT 3670A Thrane IP Handset amp Cradle wired Power cable Antenna cable LAN cable Getting Started kit including e Quick Guide e SAILOR 150 FleetBroadband CD Installing the system including electronic versions of User manual Installation manual and Quick Guide Inspect all units and parts for possible transport damage gt lFor information on how to install the IP handset and cradle refer to the user 98 129218 B manual for the handset 2 1 Placing the antenna 2 2 Placing the antenna 2 2 1 Obstructions The antenna rotates 360 and down to 60 in pitch and roll to allow for continuous pointing even in heavy sea conditions Any objects within this field can cause signal degradation The amount of degradation depends on the size of the object and the distance from the antenna As a rule of thumb any object that covers an angle of less than 3 at the antenna has limited effect The table below gives a guideline for the distance and maximum size of blocking objects in order to avoid degradation Distance of object Maximum size of object 3m 16 cm 5m 26 cm 10m 52 cm 20m 104 cm Table 2 1 Distance and maximum size of blocking objects 2 2 2 Radiation hazard The SAILOR 150 FleetBro
68. with 5 4 short description 1 3 items included in delivery 2 1 L LAN interface 4 6 light indicators function 6 3 M mast for antenna 2 6 measuring source impedance 3 2 microwave radiation iii O obstructions distance and size 2 2 outline antenna B 4 terminal B 8 P part numbers A 1 Index 2 Phone interface 4 5 PIN entering in the web interface 5 5 entering with a phone 5 4 entering with IP handset 5 4 pinout analogue phone interface 4 5 antenna interface 4 2 DC power input 4 3 discrete I O interface 4 8 LAN interface 4 7 placing the antenna 2 2 placing the terminal 2 12 PoE 4 6 pole mount 2 6 power cable 3 1 cable extension 3 3 connecting 3 4 connecting remote on off 3 5 sources 3 1 switching on 5 3 using remote on off 5 3 power input on terminal 4 3 Power over Ethernet 4 6 PUK code 5 4 R radar distance from antenna 2 3 radiation iii radiation level 2 2 remote on off connecting 3 5 using 5 3 reset button accessing 6 1 functions 6 2 RF interference recommendations C 14 S safety summary iii SIM card inserting 5 1 removing 5 2 98 129218 B source impedance measuring 3 2 specifications B 1 steel hulls grounding C 6 system units IP handset 1 3 terminal 1 1 T technical specifications B 1 terminal B 6 temperature 2 12 terminal cable support 2 14 grounding 2 13 grounding recommendations C 5 installation location 2
69. with a separate ground cable The ground cable must be routed parallel and close to the shielded coax cable connecting the antenna to the terminal grounding kit A tinned heavy gauge wire min 6 mm2 can be used for this purpose see page C 10 The antenna must be electrically isolated at its mounting bolts by means of shoulder bushes and washers ensuring the isolated RF ground see page C 13 Recommended Alternative WW A ge 00 fe mo Cc e O Base Plate Base Plate electrically bonded to Er kai the hull though the mast rom the the hull Antenna grounded with mounting bolts Antenna grounded with separate cable Mast electrically bonded to the steel hull Mast electrically bonded to the steel hull 98 129218 B Appendix C Grounding and RF protection C 7 Alternative grounding for aluminium hulls C 6 C 6 1 C 6 2 C 8 Heavy Gauge Wire Alternative grounding for aluminium hulls The following guidelines assume a two wire isolated grounding arrangement that is no part of the circuit in particular the battery negative is connected to any ground potential or equipment Grounding the terminal The terminal must be grounded with the short antenna cable and a grounding kit available from Cobham SATCOM Further the terminal must be grounded at its grounding stud to ensure a proper grounding if the short ante
Download Pdf Manuals
Related Search