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TracPhone FB150 Installation Manual

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TracPhone
FB150
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Installation Guide

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  • Page 1 TracPhone FB150 ® Installation Guide...
  • Page 2 ® The KVH Industries’ TracPhone FB150 system, manufactured by Thrane & Thrane, delivers high-speed data and voice communications via satellite through Inmarsat’s Broadband Global Area Network (BGAN). This installation guide provides all of the information you need to install or service the system. For detailed operation information, please refer to the User’s Guides.
  • Page 3 Trademark Information TracPhone, TracVision, KVH, and the unique light-colored dome with contrasting baseplate are registered trademarks of KVH Industries. Thrane & Thrane is a registered trademark of Thrane & Thrane A/S in the European Union and the United States. SAILOR is a registered trademark of Thrane & Thrane A/S in the European Union, the United States, and other countries.
  • Page 4 During transmission, make sure that nobody gets closer than the recommended minimum safety distance. On the TracPhone FB150, the minimum safety distance on the focal line to the antenna panel is 0.6 m, based on a radiation level of 10 W/m .
  • Page 5 All cables for your TracPhone system are shielded and should not be affected by magnetic fields. However, try to avoid running cables parallel to AC wiring as it might cause malfunction of the equipment.
  • Page 6 About the manual Intended readers This is an installation manual for the TracPhone FB150 system. The readers of the manual include installers of the system and service personnel. Personnel installing or servicing the system must be properly trained and authorized by KVH.
  • Page 7 TracPhone FB150 system. TracPhone FB150 Quick Reference 54-0642 Guide A short guide to the most important functions of the TracPhone FB150 system. TracPhone IP Handset, User Manual 34-126059 Explains the features and functions of the TracPhone IP Handset. The TracPhone IP...

  • Page 8: Table Of Contents

    Chapter 1 System units Introduction ......................1 TracPhone FB150 terminal ................... 1 TracPhone FB150 antenna ................... 2 TracPhone IP Handset & Cradle ................3 Chapter 2 Installing the system Unpacking ......................4 Placing the antenna ..................... 5 Installing the antenna ..................
  • Page 9 Table of contents Appendix B Technical specifications Overview ......................45 TracPhone FB150 antenna ................. 45 TracPhone FB150 terminal ................. 51 Measuring the ship source impedance ..............55 Appendix C Grounding and RF protection Why is grounding required? ................56 About marine DC systems ..................

  • Page 10: Chapter 1 System Units

    System units Introduction The basic system consists of three units: The terminal, the antenna and the IP handset with cradle. The TracPhone FB150 terminal only works with a TracPhone FB150 Note antenna. TracPhone FB150 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.).

  • Page 11: Tracphone Fb150 Antenna

    The antenna unit is protected by a thermo-plastic radome. The TracPhone FB150 antenna is housed in either of the following dome sizes: • 10.8" (27.6 cm) compact dome ®...

  • Page 12: Tracphone Ip Handset & Cradle

    Besides the normal functions of an IP handset, it also provides a user interface for the TracPhone 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.

  • Page 13: Chapter 2 Installing The System

    Chapter 2 Installing the system Unpacking Unpack your TracPhone system and check that the following items are present: • TracPhone FB150 terminal • TracPhone FB150 antenna • TracPhone IP handset & cradle, wired • Power cable • Antenna cable •...

  • Page 14: Placing The Antenna

    20 m 104 cm Radiation hazard The TracPhone FB150 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/cm MICROWAVE RADIATION...
  • Page 15 RF emission from radars might actually damage the antenna. The TracPhone 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 TracPhone antennas.
  • Page 16 Even at distances greater than “d min.” in the previous section the radar might still be able to degrade the performance of the TracPhone 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.
  • Page 17 Chapter 2: Installing the system 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 and perhaps fail while a data connection might decrease in speed and performance.
  • Page 18 108 knots on the radome, even in icing conditions. Antenna mast mounting Mast mount kit: The top of the TracPhone FB150 antenna mast should be fitted with the dedicated mounting kit available from KVH Industries. Assemble the mast mount kit according to the assembly instructions included with the kit.
  • Page 19 Chapter 2: Installing the system Mast length and diameter 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.
  • Page 20 Chapter 2: Installing the system Antenna mast length The below table shows the values for a TracPhone FB150 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.

  • Page 21: Installing The Antenna

    Chapter 2: Installing the system Installing the antenna Antenna grounding You may ground the antenna using the mounting bolts. If the antenna cannot or should not be electrically connected 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.
  • Page 22 Chapter 2: Installing the system Recommended antenna cables The table below shows recommended cable types and maximum cable lengths for TracPhone FB150. Cable Type Absolute maximum length G02232-D RG223-D 25 m RG214/U 50 m S 07272B-05 95 m 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: •...
  • Page 23 Chapter 2: Installing the system Mounting the antenna Overview The antenna can now be installed on the ship with 4 stainless steel bolts fastened to the hull or to a mast. Make sure that you have chosen a suitable mounting location based upon the guidelines provided in the previous sections, and taking into account the antenna dimensions shown in 10.8 "...

  • Page 24: Placing The Terminal

    Chapter 2: Installing the system Placing the terminal 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 50°C, we recommend placing the terminal where unintentional contact is avoided.

  • Page 25: Installing The Terminal

    Chapter 2: Installing the system Installing the terminal 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 12. Ground stud To ensure that the terminal is grounded –...
  • Page 26 Chapter 2: Installing the system Mounting the basic cable support The basic cable support is available from KVH. 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 tie-wraps. To mount the basic cable support, do as follows: 1.
  • Page 27 Chapter 2: Installing the system Installing the terminal on a bulkhead Terminal with no cable support Do as follows to mount the terminal on a bulkhead: 1. Insert four screws through the holes in the mounting bracket and into the mounting surface.

  • Page 28: Chapter 3 Connecting Power

    Chapter 3 Connecting power Power source There are different options for the power supply: • The 24 V DC ship supply provides power for the terminal. • A 12 V DC supply provides power for the terminal. Note that the maximum allowed source impedance is much lower for a 12 V DC supply than for a 24 V DC supply.
  • Page 29 Chapter 3: Connecting power 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.
  • Page 30 Chapter 3: Connecting power Calculating the maximum power cable extension For 24 V DC operation, the total impedance must be max. 500 m, including the source impedance in the ship installation. For 12 V DC operation, the total impedance must be max. 85 m, including the source impedance in the ship installation.

  • Page 31: Connecting Power

    “Active high” or “Active low” and set up a delay determining how long the terminal will stay on after switching the ignition off. For further information on the web interface, see the user manual for the TracPhone system. Connecting power...
  • Page 32 Chapter 3: Connecting power To implement the ignition function, connect the appropriate pin in the I/O connector to the ignition key switch: • Active high (default): Connect pin 5 to Ground. Connect pin 8 to “high” (10.5- 32 V DC when the ignition is on). •...

  • Page 33: Chapter 4 Hardware Interfaces

    Chapter 4 Hardware interfaces The connector panel The connector panel is placed at one end of the terminal and has the following connectors: Reset SIM Card Power Button Slot Input Switch Antenna Phone 2 x LAN w/PoE Ground Stud • 1 Antenna connector (TNC) •...

  • Page 34: Antenna Interface On Terminal

    Chapter 4: Hardware interfaces Antenna interface on terminal Overview The antenna interface on the terminal connects to the TracPhone FB150 antenna. The antenna connector on the terminal is a TNC female connector placed in the connector panel. Antenna TNC Connector For information on cables and how to install and connect the antenna, see Installing the antenna on page 12.

  • Page 35: Dc Power Input

    Chapter 4: Hardware interfaces DC power input Overview The DC power input for the terminal is a 10.5 - 32 V DC; 14 - 5.5 A 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. DC Input D-Sub Connector For information on power recommendations and how to connect, see Connecting...

  • Page 36: Ground Stud

    Chapter 4: Hardware interfaces Ground stud The terminal has a ground stud with a wing nut. The ground stud is located in the connector panel and is used for grounding the terminal. Ground Stud For information on how to ensure proper grounding of the terminal, see Grounding the terminal on page 16 and Grounding and RF protection on page 56.

  • Page 37: Analog Phone Interface

    Chapter 4: Hardware interfaces Analog Phone interface Overview The terminal has one RJ-11 port, which can be used for connection of an analog phone. Phone RJ11 Connector Pin-out The Phone connector is an RJ-11, 6/4 female connector. The table and figure below show the connector outline and pin assignments.

  • Page 38: Lan Interface

    Chapter 4: Hardware interfaces LAN interface Overview The terminal has two Ethernet LAN ports with Power over Ethernet (PoE). The Ethernet ports are standard IEEE 802.3 af ports using RJ-45 connectors. 2 x LAN w/PoE Ethernet Ports Power over Ethernet (PoE) One power supply powers both interfaces with a floating 48 V DC supply (44 - 57 V DC).
  • Page 39 Chapter 4: Hardware interfaces Pin-out The figure and table below show the connector outline and pin assignments. RJ-45 female connector Pin function number TxD+ input (positive PoE) TxD-input (positive PoE) RxD+ output (negative PoE) not connected not connected RxD- output (negative PoE) not connected not connected...

  • Page 40: Discrete I/O Interface

    Chapter 4: Hardware interfaces Discrete I/O interface Overview The terminal has an I/O connector with 5 configurable inputs/outputs. WieCon 8513S I/O Connector The connector is a WieCon Type 8513S connector. A mating I/O connector is included in the kit. Pin-out The figure and table below show the connector outline and pin assignments.
  • Page 41 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 TracPhone FB150 system. Discrete I/O interface...

  • Page 42: Chapter 5 Starting Up The System

    Chapter 5 Starting up the system Using the SIM card 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.
  • Page 43 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 TracPhone FB150 system. Remove the SIM card as follows: 1.

  • Page 44: Powering The System

    For information on how to connect to the ignition, refer to Connecting to the ignition on page 22. You must set up the ignition function in the web interface. For further information, see the user manual for the TracPhone system. In some cases, the system may reboot after power-on Note because of the high start-up current.
  • Page 45 Chapter 5: Starting up the system Switching the terminal off To switch off the terminal, change the position of the power switch again. Wait at least 5 seconds after power off, before trying Note to power on the system again. To switch off using the Ignition function, leave the On/Off switch in the connector panel in the On position and turn off the ignition.

  • Page 46: Entering The Sim Pin For The Terminal

    Chapter 5: Starting up the system 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.
  • Page 47 Chapter 5: Starting up the system 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).

  • Page 48: Operating The System

    Operating the system General use The user manual for the TracPhone system describes general use of the system and goes through all the functions of the web interface. It also contains a brief description of how to use the IP handset with the terminal.

  • Page 49: Chapter 6 Troubleshooting

    Chapter 6 Troubleshooting Reset button How to access the 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. Reset button...
  • Page 50 Chapter 6: Troubleshooting Functions of the Reset button The Reset button on the terminal has the following functions: Action Function With the terminal The terminal IP address and IP netmask are running, press the Reset temporarily set to the default value (default IP button normally.

  • Page 51: Status Signaling

    Chapter 6: Troubleshooting Status signaling Overview The TracPhone system uses event messages and a light indicator for Power to display the status of the system. Power indicator The Power indicator is placed above the SIM slot in the connector panel.

  • Page 52: Logging Of Events

    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 TracPhone FB150 system. Logging of events...

  • Page 53: Appendix A Part Numbers

    Appendix A Part numbers System units TracPhone FB150 system with 10.8" (27.6 cm) dome (part number 34-403744A) Item Part number Antenna 34-403050C Terminal 34-403739A TracPhone FB150 system with 13.5" (34.3 cm) dome (part number 01-0320) Item Part number Antenna 02-1747...

  • Page 54: Appendix B Technical Specifications

    Appendix B Technical specifications Overview This chapter contains specifications for the TracPhone FB150 system including the terminal and antenna. For specifications and outline drawings for the IP Note handset, refer to the manual for the IP handset. TracPhone FB150 antenna...
  • Page 55 13.2 to 100 Hz: 7 m/s 2 h dwell at resonances Vibration, non- Random spectrum 1.7 g rms 2 h x 3 operational axes 6 h total): 5 to 20 Hz: 0.05 g 20 to 150 Hz: -3 dB/octave TracPhone FB150 antenna...
  • Page 56 Roll: 30°, period 4 sec., 0.7 g tangential (MAX) 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) TracPhone FB150 antenna...
  • Page 57 Antenna outline dimensions 10.8" (27.6 cm) Dome Ø5.9" (150 mm) TNC Connector Ø6.9" (175.4 mm) 11.49" (291.9 mm) 5.18" 10.85" (131 mm) 2.28" (275.6 mm) (58 mm) Weight: 8.7 lbs (3.94 kg) Dimensions are in inches (mm) TracPhone FB150 antenna...
  • Page 58 Appendix B: Technical specifications 13.5" (34.3 cm) Dome Ø6.906" (175.4 mm) Ø8.25" (209.55 mm) TNC Connector Weight: 11.5 lbs (5.2 kg) Dimensions are in inches (mm) 13.06" (331.7 mm) 13.48" (342.4 mm) TracPhone FB150 antenna...
  • Page 59 Appendix B: Technical specifications Minimum distance to transmitters The table below shows the minimum recommended distance to transmitters in the frequency range below 1000 MHz. Recommended distance to TracPhone antenna. TracPhone FB150 antenna...

  • Page 60: Tracphone Fb150 Terminal

    Appendix B: Technical specifications TracPhone FB150 terminal General specifications Item Specification Weight 2.2 kg (4.9 lbs) Dimensions 231 mm x 278 mm x 41 m (9.1" x 10.9" x 1.6") Global services Voice 4 kbps AMBE+2 Data UP to 150 kbps Standard data...
  • Page 61 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 95% non-condensing at +40°C Humidity Equipment Protected from the weather - IEC-60945 category TracPhone FB150 terminal...
  • Page 62 Appendix B: Technical specifications Outline dimensions, TracPhone FB150 terminal Connector panel, top view and end view. 1.6" (41 mm) 10.4" (264 mm) 9.1" (231 mm) 10.9" (278 mm) TracPhone FB150 terminal...
  • Page 63 Side view and bottom view. 9.9" (252 mm) 7.5" (191.5 mm) 7.9" (200 mm) 6.3" (160 mm) 4 x Ø0.22" (5.5 mm) 4 x M4 (6 mm) Threaded Hole Weight: 4.8 lbs (2.2 kg) Dimensions are in inches (mm) TracPhone FB150 terminal...

  • Page 64: Measuring The Ship Source Impedance

    Chapter B: Technical specifications Measuring the ship 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.

  • Page 65: Appendix C Grounding And Rf Protection

    Appendix C Grounding and RF protection Why is grounding required? Reasons for grounding Grounding the TracPhone system is required for two reasons: • Safety: Lightning protection of persons and equipment. • Protection: ESD (ElectroStatic Discharge) protection of equipment. Safety First of all grounding of the system is required for safety reasons. In the event 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.

  • Page 66: About Marine Dc Systems

    Appendix C: Grounding and RF protection 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.
  • Page 67 Appendix C: Grounding and RF protection One Pole Grounded Return System This configuration implies that the battery negative is bonded to a ground potential, typically at the engine negative terminal. This is done in order to polarize the DC electrical system. BATTERY BATTERY STARTER...

  • Page 68: About Marine Grounding

    Appendix C: Grounding and RF protection 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.

  • Page 69: Grounding Recommendations

    Appendix C: Grounding and RF protection Grounding Recommendations Grounding the terminal The terminal should be grounded to the ship/hull by means of a short antenna cable and the grounding kit (accessory). Further, the terminal must be grounded at its grounding stud in order to ensure proper grounding if the short antenna cable is disconnected.

  • Page 70: Alternative Grounding For Steel Hulls

    Appendix C: Grounding and RF protection Alternative grounding for steel 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 to the ship with the short antenna cable and the grounding kit (accessory).
  • Page 71 Appendix C: Grounding and RF protection Terminal grounded at a dedicated RF ground (alternative) In this case the antenna is grounded 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.

  • Page 72: Alternative Grounding For Aluminum Hulls

    Appendix C: Grounding and RF protection Alternative grounding for aluminum 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 the grounding kit (accessory).

  • Page 73: Alternative Grounding For Fiberglass Hulls

    Appendix C: Grounding and RF protection Alternative grounding for fiberglass hulls Grounding the terminal The terminal must be grounded with the short antenna cable and the grounding kit (accessory). Further, the terminal must be grounded at its grounding stud in order to ensure a proper grounding if the short antenna cable is disconnected.

  • Page 74: Alternative Grounding For Timber Hulls

    Appendix C: Grounding and RF protection Alternative grounding for timber hulls Grounding the terminal The terminal must be grounded with the short antenna cable and the grounding kit (accessory). Further, the terminal must be grounded at its grounding stud in order to ensure a proper grounding if the short antenna cable is disconnected.

  • Page 75: Separate Ground Cable

    Appendix C: Grounding and RF protection Separate ground cable Ground cable - construction When dealing with 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.
  • Page 76 Appendix C: Grounding and RF protection In the below drawing, vibration isolators 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. Separate ground cable...
  • Page 77 Appendix C: Grounding and RF protection 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).

  • Page 78: Rf Interference

    RF interference Interference induced from nearby RF transmitters might cause system failures and in extreme cases permanent damage to the TracPhone 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.

  • Page 79: Glossary

    Glossary Glossary American Wire Gauge. A means of specifying wire diameters. Compact Disc Continuous Monitoring DTMF Dual Tone Multi Frequency. The keypad signaling 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.
  • Page 80 Glossary Local Area Network PAST 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.
  • Page 81 Glossary TFTP 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. Threaded Neill-Concelman. A type of RF connector used for terminating coaxial cables.

  • Page 82: Index

    Index Index alarms electrostatic discharge aluminum hulls recommendations grounding error messages analog phone interface events antenna logging cables dimensions grounding grounding recommendations fiberglass hulls installation location grounding installing interference isolation from mounting base mast design obstructions GPS receiver outline distance from antenna radiation grounding access...
  • Page 83 Index interfaces on terminal placing the terminal analog phone interface antenna pole mount DC power input power discrete I/O cable cable extension overview connecting interference connecting remote on/off sources IP handset switching on connecting using remote on/off entering PIN with power input on terminal items included in delivery Power over Ethernet...
  • Page 84 Index terminal cable support grounding grounding recommendations installation location installing introduction outline and dimensions timber hulls grounding tools for operation troubleshooting typography used in this manual user interfaces...
  • Page 85 KVH Industries, Inc. KVH Europe A/S 50 Enterprise Center • Middletown, RI 02842-5279 • U.S.A. Kokkedal Industripark 2B • 2980 Kokkedal • Denmark Phone: +1 401 847-3327 • Fax: +1 401 849-0045 Phone: +45 45 160 180 • Fax: +45 45 160 181 E-mail: info@kvh.com E-mail: info@kvh.dk www.kvh.com...

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