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Related Manuals for Furuno FV-110GX
Summary of Contents for Furuno FV-110GX
- Page 1 OPERATOR'S MANUAL GX TERMINAL FV-110GX Model www.furuno.com...
- Page 2 ・FURUNO Authorized Distributor/Dealer 9-52 Ashihara-cho, Nishinomiya, 662-8580, JAPAN A : MAY 2017 Printed in Japan All rights reserved. D : MAR . 05, 2019 Pub. No. OME-57030-D (YOTA ) FV-110GX 0 0 0 1 9 4 0 6 0 1 3...
- Page 3 Local administration, followed by the event text: 0807F-0 WARNING Local administration enable. This gives you temporary administrator access for 1 hour or until next restart. 3. Open an Internet Browser and type the default IP address of the FV-110GX: http://192.168.0.1 to access the web interface. Configuration...
- Page 4 How to discard a used battery Some FURUNO products have a battery(ies). To see if your product has a battery, see the chapter on Maintenance. If a battery is used, tape the + and - terminals of the battery before disposal to prevent fire, heat generation caused by short circuit.
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Page 5: Safety Instructions
Refer any repair switchboard and contact a work to a qualified technician. FURUNO service technician. If water leaks into the equip- Do not disassemble or modify ment or something is the equipment. - Page 6 WARNING WARNING Do not place liquid-filled Do not approach the FV-110GX containers on or near the antenna unit when it is trans- equipment. mitting. Fire or electrical shock can The radome emits radio waves result if a liquid spills into the that can be harmful to the human equipment.
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Page 7: Table Of Contents
Satellite type approvals ................. 1-7 1.1.6 Service activation ................. 1-7 Part numbers and options ..............1-8 1.2.1 Applicable FURUNO model and part numbers ........1-8 1.2.2 Options for FV-110GX ................. 1-8 Chapter 2 Installation What’s in the box .................. 2-1 2.1.1... - Page 8 I/O connector for Tx Mute and Rx Lock ..........3-8 Chapter 4 Power and startup Power cables ..................4-1 Power up ....................4-1 4.2.1 To connect the power cable to the ACU and GMU ......4-1 4.2.2 Power-up procedure ................4-1 4.2.3 Initialisation steps in daily use ..............4-2 4.2.4 FV-110GX operational .................4-2...
- Page 9 Table of contents Chapter 5 Configuration Introduction to the built-in web interface .......... 5-1 5.1.1 Overview ....................5-1 5.1.2 Connecting to the web interface ............5-1 Heading input and position system ............. 5-4 Calibration .................... 5-7 5.3.1 Azimuth calibration ................5-7 5.3.2 Service profile for calibration .............
- Page 10 Table of contents Chapter 7 Service To get support ..................7-2 7.1.1 Options for support ................7-2 7.1.2 Reset to factory default ................7-5 7.1.3 Reset to factory default - GMU .............7-6 7.1.4 Line up procedure ..................7-6 7.1.5 Self test ....................7-8 Software update ..................7-9 7.2.1 Prerequisites ..................7-9 7.2.2...
- Page 11 Table of contents Alternative ground for fibre glass hulls ..........A-8 A.5.1 To ground the ACU ................A-8 A.5.2 To ground the ADU ................A-8 Separate ground cable ................. A-9 A.6.1 To construct a ground cable ..............A-9 A.6.2 Ground cable - connection ..............A-10 A.6.3 Isolation of the ADU from the mounting base ........
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Page 12: Foreword
Foreword A word to the owner of the FV-110GX Congratulations on your choice of the FURUNO FV-110GX. We are confident you will see why the FURUNO name has become synonymous with quality and reliability. Since 1948, FURUNO Electric Company has enjoyed an enviable reputation for innovative and dependable marine electronics equipment. -
Page 13: System Configuration
System configuration The figure below shows an example system configuration. Antenna Unit 407009C-FUR Antenna Control Unit Gyrocompass 407016C-F19 GX Modem Unit 407023A-F19 Network Equipment Analog Telephone Cisco 2911 ISR E11A102B001UJ/ Inmarsat FBB E11A102B002UJ 19” Rack Console 100-240V AC, 1ø, 50-60Hz Equipment category Unit Category... -
Page 14: Equipment List
Equipment list Standard supply Name Model Code No. Remarks Antenna Unit (ADU: 407009C-FUR-01 Installation materials included (See PL-1 / OD-1 Above Deck Unit) for current antenna, PL-2 / OD-2 for new antenna.) Antenna Control Unit 407016C-F19-GX Installation materials (ACU) included (See PL-3.) GX Modem Unit 407023A-F19 Installation materials... - Page 15 Optional supply Name Model Code No. Remarks E11A102B001UJ For 100/110/115/120 E11A102B002UJ For 200/220/230/240 Jumper Cable 407090A-925 001-423-890 xiii...
- Page 16 This page is intentionally left blank.
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Page 17: Chapter 1 Introduction
1.1.1 Overview The FV-110GX is a unique stabilized maritime GX antenna system operating in the Ka- band (19.2 to 30 GHz). It is used with the Global Xpress service from Inmarsat, delivering consistent high-performance download speeds of up to 50 Mbps and 5 Mbps over the uplink. -
Page 18: Above Deck Unit (Adu)
1.1.2 Above Deck Unit (ADU) The FV-110GX ADU is a 103 cm stabilized tracking antenna, consisting of a suspended antenna with a standard global RF configuration. It is stabilized by heavy duty vibration dampers in 3-axis (plus skew) and can be used in environments with elevations of -25° to + 125°. - Page 19 FV-110GX system Modules in the FV-110GX ADU Figure 1-4: Above Deck Unit modules 1/2 1. GNSS module. 2. VSAT Interface Module (VIM3). 3. Pedestal Control Module (PCM2). 4. Service switch. 5. Single Motor Driver Module for cross elevation (SMD (used “DDM” in log)).
- Page 20 FV-110GX system 8. Single Motor Driver Module for elevation (on the bottom) (SMD (used “DDM” in log)). 9. Elevation motor and encoder (not visible). 10.BUC Control Module (BCM). 11.Block Up Converter (BUC). 12.Low Noise Block downconverter (LNB), 13.Polariser. 14.Inertial Sensor Module (ISM).
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Page 21: Antenna Control Unit (Acu)
FV-110GX system 20.Feed horn. Four lifting brackets (included in the delivery) and reuse of packing material help getting the ADU safely into place. Satellite profile parameters are entered in the built-in web server of the ACU, using a PC. The system configuration is saved in two modules, there is no loss of data at repair. The large service hatch of the radome gives easy access to the ADU on site. - Page 22 FV-110GX system You can make a software update with a connected PC and the built-in web interface of the ACU. The ACU has the following interfaces and switch: Figure 1-7: ACU (connector panel) • N-connector for ADU cable (50 Ohm).
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Page 23: Gx Modem Unit (Gmu)
Satellite type approvals For a list of satellite type approvals see Appendix E, Approvals. 1.1.6 Service activation Before you can start using the FV-110GX, you need to activate the system for the GX service. Contact your service provider for activation. -
Page 24: Part Numbers And Options
Part numbers and options Part numbers and options 1.2.1 Applicable FURUNO model and part numbers The following model and part numbers are available for the FV-110GX system: Part number Description 407009C-FUR-01 Above Deck Unit (ADU) 407016C-F19 Antenna Control Unit (ACU) -
Page 25: Installation
To unpack Unpack the ADU, ACU and GMU and check that the following items are present: • FV-110GX ADU with 4 lifting brackets (already mounted) • Accessory kit for FV-110GX ADU: • Package with bolts, washers and cable glands (2 sizes) •... -
Page 26: Initial Inspection
What’s in the box 2.1.2 Initial inspection Inspect the shipping cartons and wooden box immediately upon receipt for evidence of damage during transport. If the shipping material is severely damaged or water stained, request that the carrier's agent be present when opening the cartons and wooden box. Save all box packing material for future use. -
Page 27: Site Preparation
1. Mount the ADU on stiffened structures with a minimum of exposure to vibrations. You do not have to align the ADU with the bow-to-stern line of the ship. When configuring the FV-110GX the azimuth calibration provides the correct azimuth of the ADU. -
Page 28: Obstructions (Adu Shadowing)
Site preparation 2.2.2 Obstructions (ADU shadowing) The ADU is stabilized in 3-axis (plus skew) and can be used in environments with elevations of -25° to + 125° to allow for continuous pointing even in heavy sea conditions. The ADU beam is approximately 1 m in diameter for the first 30 m from the ADU. -
Page 29: Blocking Zones With Azimuth And Elevation
Site preparation 2.2.3 Blocking zones with azimuth and elevation Your installation may require that you set up blocking zones for the ADU, i.e. areas where the ADU will not transmit and areas where transmit power is potentially dangerous for persons frequently being in these zones. You can set up 8 blocking zones. Each blocking zone is set up with azimuth start and stop, and elevation angle. -
Page 30: Safe Access To The Adu (Radiation Hazard)
Site preparation 2.2.4 Safe access to the ADU (radiation hazard) The ADU radiates up to 54.5 dBW EIRP. This translates to a minimum safety distance of 30 m from the ADU while it is transmitting, based on a radiation level of 10 W/m MICROWAVE RADIATION NO PERSONNEL within safety distance of 30 m, based on 10 W/m... -
Page 31: Ship Motion And Offset From The Ship's Motion Centre
Site preparation 2.2.5 Ship motion and offset from the ship’s motion centre When installing the ADU you must consider the mounting height carefully. The higher up the ADU is mounted, the higher is the linear g force applied to the ADU. The g force also depends on the roll period of the ship, see Table 2-1. -
Page 32: Mast Foundation And Height
Site preparation 2.2.6 Mast foundation and height The ADU mast must be designed to carry the weight of the ADU (126 kg), plus the weight of the mast flange. The mast must also be able to withstand on-board vibrations and wind speeds up to 110 knots on the radome, even in icing conditions. Follow the guidelines in the sections: •... - Page 33 Site preparation CAUTION! Avoid sharp edges where the flange is in direct contact with the radome. Round all edges as much as possible to avoid damaging the surface of the radome. 3. Allow sufficient space so the nut is free of the welded seam and there is room for tools (min.
- Page 34 Site preparation Mast length and diameter The placement of the ADU 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 ADU. A small platform or short mast shall provide rigid support for the ADU fastening bolts and a rigid interface to the ship.
- Page 35 Site preparation Mast Wall Max. free mast Outer Weight without Thickness length (steel), (m) Diameter (mm) (kg/m) braces (mm) 24.0 26.5 30.2 32.7 Table 2-2: Mast dimensions without braces a. The height of 0.4 m is not recommended to be used as it will make access through the ADU’s service hatch difficult.
- Page 36 Site preparation Thicknes Outer Max. free mast Outer Wall Diameter Mast with 2 braces length (steel), Diameter Thickness for brace (mm) (mm) brace (mm) (mm) Table 2-4: Mast dimensions with 2 braces Make sure that there is sufficient space underneath the ADU to open the service hatch. Through this hatch you access the ADU modules for service and maintenance.
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Page 37: Interference From Radar, Gps, L-Band And Other Transmitters
ADU 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 FV-110GX ADU. Therefore it is recommended to ensure as much vertical separation as possible when the FV-110GX ADU has to be placed close to a radar antenna. - Page 38 Even at distances greater than “d min.” in the previous section the radar might still be able to degrade the performance of the FV-110GX system. The presence of one or more S or X-band radars within a radius up to 100 m may cause a minor degradation of the Ka-band connection.
- Page 39 L-band antennas If L-band antennas are installed on the same vessel, keep a minimum distance of 3 metres from the FV-110GX ADU to the L-band antenna. Other transmitters See the following figure for minimum recommended distance to transmitters in the frequency range below 1000 MHz.
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Page 40: Condensation, Water Intrusion And Deposits
Site preparation 2.2.8 Condensation, water intrusion and deposits In some weather conditions there may occur condensation inside the radome. The drain tube is designed to lead any water away from inside the radome. Observe the following guidelines for condensation and water intrusion: 1. -
Page 41: Installation Of The Adu
Installation of the ADU Installation of the ADU The following sections describe the installation and grounding of the ACU. The ADU is shipped fully assembled. You have to install it on the mast and attach the ADU cable. WARNING! Use a strong webbed sling with a belt to lift the ADU without damaging the radome. -
Page 42: To Install The Adu
Installation of the ADU 2.3.1 To install the ADU Prerequisites • Check for potential interference, read more in Interference from radar, GPS, L-band and other transmitters on page 2-13. • Install the ADU at a location where vibrations are limited to a minimum. •... - Page 43 Installation of the ADU 8. Remove the 4 lifting brackets. For safekeeping fasten the lifting brackets inside the bottom of the radome. Figure 2-17: Mounting the ADU on the mast flange For the current antenna, go to step 9. For the new antenna, go to step 14. 9.
- Page 44 Installation of the ADU 10.Select a suitable size for the cable gland: 16—20 mm diameter or 19–23 mm diameter. See also N-connector interface on the ADU on page 2-22 for a more detailed drawing how to connect the N-connector on the ADU. Protection plate Protection plate N connector...
- Page 45 Installation of the ADU 14.Attach the N connector of the ADU cable to the ADU and fasten it with 2.5 Nm. N connector Figure 2-19: Connecting the ADU cable (for the new antenna) 15.Ensure that the connector assembly is properly protected against seawater and corrosion.
- Page 46 Installation of the ADU N-connector interface on the ADU 2-22...
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Page 47: To Open And Remove The Service Hatch
Installation of the ADU 2.3.2 To open and remove the service hatch Through the service hatch you can access the antenna modules. You can remove the hatch for better mobility when servicing the antenna. To open the service hatch in order to access the antenna modules do as follows: For the current antenna 1. - Page 48 Installation of the ADU For the new antenna 1. With a Torx TX 30 screw driver loosen the 8 screws that keep the hatch in place. 2. Lower the service hatch and let it hang in the 2 strips. Figure 2-22: To open the service hatch 3.
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Page 49: To Ground The Adu
Installation of the ADU 2.3.3 To ground the ADU The ADU must be grounded using the mounting bolts. To ground the ADU do as follows: 1. Clean the metal underneath the head of at least one bolt of insulating protective coating and use a serrated washer to obtain a good ground connection 2. -
Page 50: Alternative Adu Cable
Installation of the ADU 2.3.4 Alternative ADU cable The allowed RF loss in the antenna cable must be maximum 20 dB RF loss @ 1950 MHz and maximum 35 dB RF loss @ 4450 MHz. You can verify the cable attenuation margin with the cable calibration, see Cable calibration on page 5-11 for more details. -
Page 51: Installation Of The Acu
Installation of the ACU Installation of the ACU The following sections describe the installation and grounding of the ACU. When selecting a mounting location, keep in mind the following points: • Locate the 19” rack where maintenance can easily be done. •... -
Page 52: Installation Of The Gmu
Installation of the GMU Installation of the GMU The following sections describe the installation and grounding of the GMU. When selecting a mounting location, keep in mind the following points: • Locate the 19” rack where maintenance can easily be done. •... -
Page 53: Provisioning Key And Terminal Type
To connect the ADU, ACU and GMU 2.5.3 Provisioning key and terminal type You need the Terminal Provisioning Key (TPK) and the Terminal Type to activate the modem during commissioning with Inmarsat or other GX service providers. The TPK is printed on the box label and the type label of the modem. - Page 54 To connect the ADU, ACU and GMU This page is intentionally left blank. 2-30...
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Page 55: Chapter 3 Interfaces
Chapter 3 Interfaces This chapter has in the following sections: • Interfaces of the ACU • Interfaces of the GMU Interfaces of the ACU 3.1.1 LEDs, display, keypad and connectors The following figure shows the LEDs, display and the keypad of the ACU. For an explanation of the texts in the display see ACU display and keypad on page 5-36. -
Page 56: Ac Input Connector
Interfaces of the ACU 3.1.2 AC input connector Connect the power cable to the AC power connector. Outline (on the ACU) Voltage range 100–240 VAC Earth Table 3-1: AC power connector 3.1.3 ADU connector There is just one cable from the ACU to the ADU. This is used to power the ADU, supply a reference clock, handle all communication between ACU and ADU, and deliver the GX Rx and Tx signals. -
Page 57: Nmea 0183 Connector
Interfaces of the ACU 3.1.5 NMEA 0183 connector The ACU has an NMEA 0183 connector for the ship’s gyro. Wire Outline (on the ACU) Pin function color Not connected – NET-H (NMEA 2000) White NET-L (NMEA 2000) Blue NET-S (NMEA 2000) NET-C (NMEA 2000) Black Not connected... -
Page 58: And Rs-422 Connectors
Interfaces of the ACU • Characteristic impedance: 95 - 140 Ohm • Propagation delay: 5 nanoseconds per meter, maximum • 15 Twists (minimum) per meter 3.1.6 RS-232 and RS-422 connectors The ACU has an RS-232 and RS-422 connector for modem control. Use these connectors to connect the ACU to the GMU. -
Page 59: Lan1 - 4 Connectors
LAN connector of the ACU for system control. 4. Use Port 4 (network 3) to connect the FV-110GX to the vessel’s LAN For more details about the LAN networks see To configure the LAN network on page 5-... -
Page 60: Interfaces Of The Gmu
Interfaces of the GMU Interfaces of the GMU The following sections describe the connectors of the GMU and how to connect to the ACU, power and other equipment. 3.2.1 Connector panel The following figure shows the connector panel of the GMU. Tx Mute &... -
Page 61: And Rs-422 Connectors
Interfaces of the GMU 3.2.3 RS-232 and RS-422 connectors The GMU has two RS-232 and one RS-422 connector for control information to and from the ACU. See section To connect the ADU, ACU and GMU on page 2-29 for details how to connect the ACU to the GMU. -
Page 62: Lan Connectors (8 + 2)
Interfaces of the GMU 3.2.4 LAN connectors (8 + 2) The GMU has 8 Ethernet connectors (type RJ45). Port 1 connects to the ACU and is used for modem control. The other ports are not used. The maximum cable length per connection is 100 m. -
Page 63: Power And Startup
• Antenna Initializing • Antenna POST • READY This may take some time (up to a couple of minutes). 2. The FV-110GX is ready to be calibrated (for first time power up) or receive data from the GMU (when in normal operation). -
Page 64: Initialisation Steps In Daily Use
• Antenna POST • READY • POINTING ANTENNA • ACQUIRING SIGNAL • TRACKING 4.2.4 FV-110GX operational When the display shows TRACKING. MDM: NETOK and the LED Logon is steady green the system is operational. Figure 4-3: ACU display, system operational... -
Page 65: Chapter 5 Configuration
Overview Use the built-in web interface (installation of software is not necessary) of the FV-110GX ACU to make a full configuration of the FV-110GX. You can use a standard Internet browser. For quick start instructions see Calibration on page 5-7. - Page 66 Introduction to the built-in web interface Figure 5-1: LAN 3 connector used for configuring the FV-110GX If you want to use another LAN port to access the web interface you must configure it as described in To configure the LAN network on page 5-23.
- Page 67 Introduction to the built-in web interface The web interface shows the DASHBOARD page. Figure 5-3: Dashboard For a detailed introduction to the web interface see Overview and dashboard on page 5-...
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Page 68: Heading Input And Position System
Make sure that the modem is switched off at this point. Switch on the Important modem after the cable calibration. Before the FV-110GX can be used you must select the heading input and the positioning system. You must be logged on as an administrator. See Import a configuration from Important file, see section above. - Page 69 4. In the section Position, Mode select GNSS or Manual. The Manual mode is used for fixed installations (fixed heading). 5. For GNSS System, select from GPS, BEIDOU, GPS+BEIDOU, GLONASS, GPS +GLONASS. The FV-110GX uses GPS by default 6. For Manual enter the latitude, longitude and altitude. 7. Click Apply.
- Page 70 Heading input and position system Background information on the acquisition process and search pattern With heading input or fixed heading 1. The antenna starts the acquisition and searches for 10 seconds at the expected position. If RX lock is detected the antenna goes to Tracking. 2.
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Page 71: Calibration
Important after the cable calibration. Before the FV-110GX can be used you must make an azimuth and cable calibration. The azimuth calibration is required in order to determine the offset of the ADU zero direction to the bow-to-stern line of the ship. This procedure is fully automatic. The satellite data for calibration can be entered directly on the calibration page or you can define a Service profile to be used for the azimuth calibration. - Page 72 Calibration 2. Type in the longitude of the satellite. Satellite Position Frequency Satellite identifier 62.6 E 19.707 GHz GSC 180 W 19.707 GHz GSC 55 W 19.707 GHz GSC Table 5-3: Inmarsat GSC satellite information The calibration function is not able to verify the correctness or precision Important of the supplied longitude.
- Page 73 Calibration Automatic azimuth calibration with an active satellite profile You can enable automatic azimuth calibration, even if there is no line of sight to an azimuth calibration satellite or GX service satellite from the place of installation. To be able to use this feature you must have made a valid satellite profile and activate it. When the vessel leaves the harbour and gets line of sight to the GX satellite, the system automatically finds and tracks the satellite and makes the azimuth calibration.
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Page 74: Service Profile For Calibration
Calibration Azimuth calibration with a service profile 1. Click SERVICE > Calibration. 2. Select the service profile in the drop down list Satellite. All profiles with the modem Service modem are displayed in the list. If there is no profile in the list, you must set up one, see Service profile for calibration on page 5-10. -
Page 75: Cable Calibration
Calibration Satellite identifier: GSC, NID, Orbital position (DVB-S, DVB-S2) . See also Table 5- 3 on page 5-8. 6. Click Apply to save the settings for this satellite profile for calibration. The system is ready for the azimuth calibration. 7. Click Start to start the azimuth calibration. 5.3.3 Cable calibration Make sure that the modem is not switched on at this point. -
Page 76: Manual One Touch Commissioning (Buc Calibration)
Calibration 5.3.4 Manual One Touch Commissioning (BUC calibration) When the modem starts up for the first time it will automatically register with the BUC and perform P1dB compression on multiple frequencies and thereafter register with the Inmarsat network. During the P1dB compression the antenna will point away from the satellite and transmit on 950 MHz to 1950 MHz in 50 MHz steps. -
Page 77: Operation In Gyro-Free Mode
(software upgrades, if available). 8. The web interface of the iDirect core module will indicate the modem in the network as well as the modem status in the display in the menu MODEM of the FV-110GX web interface. -
Page 78: Fixed Tx If Principle
5.3.6 Fixed TX IF principle The FV-110GX uses a TX IF gain concept. After calibration it provides a fixed average gain from the TX-port of the ACU to the input of the BUC. Advantages of the fixed TX IF gain principle are: •... -
Page 79: Configuration With The Web Interface
Configuration with the web interface Configuration with the web interface 5.4.1 Overview and dashboard Topics in the web interface Use the site map to get an overview over the existing menus, submenus and topics. You can click on each menu in the site map to go directly to the page or display the respective submenu. - Page 80 Configuration with the web interface Figure 5-13: Web interface: DASHBOARD 1. The navigation pane holds the main menu. Clicking an item in the menu opens a submenu in the navigation pane or a new page in the contents section. 2. The top bar shows the signal strength, current status and icons for events, if any, and the host name.
- Page 81 Configuration with the web interface Icon Explanation An event is active. Click the icon to see a list of active events. For explanations of the event messages, see Event messages – overview on page B-1. Note that this icon will remain in the icon bar as long as the event is active.
- Page 82 Configuration with the web interface • Service switch (service switch in ADU activated) • Ready (waiting for data from the modem or no satellite profile selected) • Pointing antenna (locating the satellite) • Acquiring signal (acquiring the satellite signal) • Tracking (tracks the current satellite) •...
- Page 83 Table 5-8: Web interface, DASHBOARD, POINTING section Description BUC TX On or Off. Shows if the FV-110GX has enabled the BUC or not. It is the same TX ON/TX OFF as shown in the display of the ACU, see ACU display and keypad on page 5-36.
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Page 84: To Set Up Blocking Zones (Rx And Tx)
Configuration with the web interface 5.4.2 To set up blocking zones (RX and TX) On this page you define blocking zones, i.e. NO TX and RX zones, enter azimuth values and elevation angles for each blocking zone. Azimuth values and elevation angles for each blocking zone can be entered. - Page 85 Configuration with the web interface 3. Enter start and stop azimuth value in degrees for the blocking zone. Values allowed: 0 to 360 degrees. Enter clockwise. Figure 5-15: Blocking zone, example: 315 - 45 degrees Figure 5-16: Blocking zone, example: 45 - 315 degrees 4.
- Page 86 Configuration with the web interface If not selected, the system also transmits when pointing through areas with blocking objects. The modem will shut off for TX if no signal is received. If a blocking zone is defined with TX allowed (No TX not checked), the Note modem is not informed about the blocking zone.
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Page 87: To Configure The Lan Network
5.4.3 To configure the LAN network On this page you can enter a host name. The host name helps identifying the FV-110GX system when sending e-mail reports through an external Internet connection. The ACU has four 10/100 Mbit Ethernet ports labelled LAN port 1, 2, 3 and 4. The ports are divided in three groups, each group operating in its own network. - Page 88 Configuration with the web interface Make sure that the networks do not use IP address ranges that overlap. Important Make the necessary changes on this page and click Apply. Sections Preferred use NETWORK The host name is used for identifying the ACU in local networks and Host in e-mail reports.
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Page 89: E-Mail Setup
Configuration with the web interface Alternatively, if your DHCP server can provide a DNS address and you have selected DHCP client above, then select the same LAN as your DNS source. Gateway setup If the ACU needs to communicate with network units outside the specified sub-nets, you must specify a default gateway (typically a router). -
Page 90: Setup Of Reports, Syslog And Snmp Traps
Configuration with the web interface 5.4.5 Setup of reports, syslog and SNMP traps The antenna can send the following reports and messages: • Diagnostics report • Statistics report • Remote syslog • SNMP traps Figure 5-19: Web interface: SETTINGS, Reporting Diagnostics report The antenna can send automatically generated diagnostic reports at fixed intervals. - Page 91 7-3. Statistics report FV-110GX can send a statistics report at fixed intervals through an external Internet connection. This report contains historical information from the FV-110GX up to 1 month. It contains statistics data for the selected intervals. The report is sent as a zipped attachment to an e-mail address.
- Page 92 Configuration with the web interface Parameter recorded Description UTC. (s) UTC in seconds and date format for the data set. UTC (YYYY-MM-DD hh:mm) RSSI.Av Received signal strength (average, maximum and RSSI.Max minimum value) for the sampling interval. RSSI.Min POS.Lat (degree) Latitude value of position.
- Page 93 Configuration with the web interface Figure 5-20: Statistics . how to read data for a range To import the statistics report into spreadsheet applications, e.g. Microsoft Excel, do as follows: 1. Save the zipped file to your computer and extract the text file. The file name contains the identification of the system (example: adu-acu3_stat_20111021110901_day.csv).
- Page 94 Configuration with the web interface The following figure shows an example of a statistics report. Figure 5-21: Statistics report (example, MS Excel 2007) Remote syslog You can set up the antenna to send each syslog message to a syslog server to advise the system administrator of the current status of the antenna.
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Page 95: Administration
Configuration with the web interface 4. Enter the Community name. This is the name of the SNMP trap receiver/manager. This is needed for authentication of the SNMP trap request. 5. Click Apply. 5.4.6 Administration In this section of the web interface you can configure the following administrative settings: •... - Page 96 Configuration with the web interface To change the password and log off ADMINISTRATION On the page and User login you can change the password for the currently logged in user (admin or guest) or you can log off. Figure 5-23: Web interface: ADMINISTRATION, change administrator logon and password To change the current password, do as follows 1.
- Page 97 Configuration with the web interface To set up user permissions for guest login You can manage user access to certain functions of the FV-110GX. You can allow or deny users that are not administrators (user name: guest, password: guest) to access certain functions and make these pages read-only.
- Page 98 To import and export a system configuration If you need to reuse a configuration in another FV-110GX system, you can save the current configuration to a configuration file. This file can then be loaded into another FV- 110GX or be used as backup.
- Page 99 Configuration with the web interface To save a configuration to a file, do as follows: 1. Select ADMINISTRATION > Export/import config. 2. Click the button Export. Follow the download instructions on the screen. To load a configuration from a file, do as follows: 1.
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Page 100: Keypad And Menus Of The Acu
(warnings, errors and information) and how the system has been configured. Use the keypad to navigate through the menu tree. Signal strength Figure 5-27: Display and keypad of the ACU (example) 1. Current status of the FV-110GX: NOT READY (waiting for input from GNSS, e.g. GPS) ANATENNA INITIALIZING ANTENNA SW UPLOAD... -
Page 101: Navigating The Menus
Keypad and menus of the ACU 3. NAV: Navigational information First letter: G (Valid GPS signal received from the GNSS module) or - (No valid GPS fix) Second letter: H (Valid ship heading data received from the ship’s gyro) or - (No valid heading data). -
Page 102: The Menu Tree
Description menu MAIN View with current status of the FV-110GX. Example when logged on to the satellite: This view is displayed after a time out of 10 minutes. Press any key (except left arrow) to enter the menu at MAIN. - Page 103 Keypad and menus of the ACU Top-level Description menu SATELLITE Current satellite information. This information is selected using the web interface. EVENTS View system events. Active events are shown as: X ACTIVE EVENTS in the MAIN display. Press OK to update the list.
- Page 104 Current IP address for LAN 1 MASK 1 Current netmask for LAN 1 PORT 3 IP (LAN 3) Current IP address of the FV-110GX web interface (default: http://192.168.0.1) MASK 3 (LAN 3) Current netmask of the FV-110GX web interface (default: 255.255.255.0)
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Page 105: Brightness Of The Display
Keypad and menus of the ACU SATELLITE menu Description BUC LO 28.05 GHz, system hardware Table 5-19: SATELLITE menu of the ACU (Continued) EVENT Description menu ▼ ▲ to go <EVENT> In this menu all active events are listed. Use through the active events. -
Page 106: Snmp Support
SNMP is always enabled on all Ethernet interfaces. The SNMP community string is public. The FV-110GX offers via SNMP most of the data that are available from the DASHBOARD web pages. Detailed documentation about supported OIDs can be found in the FV-110GX MIB file. -
Page 107: Installation Check
Chapter 6 Installation check Now that you have installed the system, you can test it to verify it is ready for customer delivery. Follow the check lists below to test the system for proper operation. • Installation check list: Antenna •... -
Page 108: Installation Check List: Acu And Gmu, Connectors And Wiring
Installation check list: ACU and GMU, connectors and wiring Installation check list: ACU and GMU, connectors and wiring Step Task Verification and further information Done Check that the ACU is grounded correctly, See To ground the ACU on page 2-27 using the mounting bolts and washers. -
Page 109: Installation Check List: Functional Test In Harbor
Installation check list: Functional test in harbor Installation check list: Functional test in harbor Step Task Further information Done Check that the antenna is The logon LED in the ACU display tracking the satellite must be steady green and the display shows: TRACKING. - Page 110 Installation check list: Functional test in harbor This page is intentionally left blank.
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Page 111: Chapter 7 Service
Chapter 7 Service This chapter has the following sections: • To get support • Software update • Satellite profiles and VSAT modem profiles • Status signalling with LEDs and status messages • Removal and replacement of the ACU and GMU •... -
Page 112: To Get Support
2. Click the link to enter support contact information and click Apply. 3. To download the MIB file click the link. 4. Click the link Legal notices to see the licence text for the source code of the parts of the FV-110GX software that falls under free and open source software. - Page 113 To get support To download diagnostic and statistics reports Diagnostic report: You can download a diagnostic report. The Diagnostics report contains information relevant for the service personnel during troubleshooting. It is also useful documentation of the current setup. It contains all parameters set during configuration: The main sections are: •...
- Page 114 To get support Event list When an event is registered, the web interface shows an event icon in the icon bar as long as the event is active. The ACU display shows also active events. To view the event list with active events, click the event icon from the icon bar at the top of the web interface, or select HELPDESK >...
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Page 115: Reset To Factory Default
To get support 7.1.2 Reset to factory default You can reset the FV-110GX ADU and ACU to factory default. Warning! Reset to factory default will delete all settings, including Important satellite and VSAT modem profiles, blocking zones, network setup, user permissions and ACU display brightness settings. -
Page 116: Reset To Factory Default - Gmu
The ship must not move during the line-up procedure. Note The FV-110GX has been tested at the factory and online on a live satellite link. You can also make a line up and adjust the azimuth and elevation manually. Do as follows: 1. - Page 117 To get support 3. Go to the page SERVICE > Line up. 4. Wait until the text next to Status shows: Ready for lineup. Figure 7-4: Web interface: SERVICE, Line up: Ready for lineup 5. Click the button Activate lineup and wait until the Status text shows Antenna ready. Follow the instructions from your service provider.
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Page 118: Self Test
The extended post will have to be manually enabled it in the Self test menu. When Extended antenna POST is enabled, each axis is tested and calibrated, one by one. The extended POST will be run after every reboot / power up of the FV-110GX, until it is disabled again. -
Page 119: Software Update
This is shown in the ACU display as ANTENNA SW UPLOAD. To make a software update, do as follows: 1. Power up the FV-110GX system, i.e. switch on the ACU. Wait until the ACU has finished initializing. 2. Connect a PC to LAN interface 3 (Service port, standard Ethernet) of the ACU or to the front LAN connector of the ACU. - Page 120 Software update Browse... X.XX X.XX Figure 7-8: Software update with the web interface 6. Click Browse... and locate the new software file. 7. Click Upload. Do not browse away from the upload page. This will Important terminate the upload process. Wait for the browser to reload automatically.
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Page 121: Software Update (Gmu)
Software update To verify the software update (ADU and ACU) The software version can be viewed in the DASHBOARD window of the web interface. After completing the software update procedure, the ACU will perform a POST (Power On Self Test). When the POST has finished, the green Pass/Fail LED on the front of the ACU must become steadily green. -
Page 122: Satellite Profiles And Vsat Modem Profiles
Satellite profiles and VSAT modem profiles Satellite profiles and VSAT modem profiles 7.3.1 Satellite profiles A satellite profile with the GX Modem is already set up at the factory. You may add a satellite profile with the generic modem for troubleshooting purposes. This is done on the page Satellite profiles. -
Page 123: Modem Profiles
Satellite profiles and VSAT modem profiles 3. Select a VSAT modem profile. The page automatically displays the parameters available for the selected VSAT modem profile. For instructions how to add a VSAT modem profile see Modem profile – New entry and Edit on page 7-13. 4. - Page 124 Satellite profiles and VSAT modem profiles 3. Select one of the supported modems from the drop down list. Generic modem: If you have a modem that is not included in the list, select the generic modem. This is mainly used for troubleshooting purposes. 4.
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Page 125: Status Signalling With Leds And Status Messages
For details on error messages after a POST or a self test see Event list on page 7-4. Means of signalling The FV-110GX provides various methods for signalling the system status. LEDs on the front panel of the ACU are used to signal: •... -
Page 126: Leds In The Acu
Status signalling with LEDs and status messages 7.4.2 LEDs in the ACU The ACU has 3 LEDs: on the front panel: Power, Logon and Fail/Pass LED. Behaviour Description Power Steady green Power supply OK Steady red Power supply failure No power Logon Flashing green Current status is displayed: •... -
Page 127: Removal And Replacement Of The Acu And Gmu
There are no parts in the ACU and GMU that you can remove or replace. Removal and replacement of ADU modules All replacement of modules must be carried out by FURUNO. The figure below shows the modules and their position. Some modules are equipped with LEDs for status information and troubleshooting. - Page 128 Removal and replacement of ADU modules 1. GNSS module. 2. VSAT Interface Module (VIM3). 3. Pedestal Control Module (PCM2). 4. Service switch. In switch-off position the Motor Driver modules (DDM/SMD), the Polarisation Motor Module (PMM) and the BUC are turned off for safe conditions during service and repair.
- Page 129 Removal and replacement of ADU modules Figure 7-16: Above Deck Unit modules 2/2 16.Motor Driver Module for Azimuth (DDM/SMD). 17.As in item 3 above. 18.Azimuth motor. 19.Azimuth encoder. 20.Rotary joint. The cable signals for the ADU (DC power, internal modem communication, TX IF, RX and L-band TX) to and from the ACU have to be ported from the stationary platform to the azimuth rotating part of the ADU.
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Page 130: Troubleshooting
7.7.1 Overview This section describes an initial check of the primary functions of the FV-110GX system, and provides some guidelines for troubleshooting. Generally, if a fault occurs without any obvious reason, it is always recommended to observe the LEDs and the ACU display showing the active events. -
Page 131: Why Is And Ground Connection Required
• RF interference • Jumper cable for grounding Why is a ground connection required? You must grounding the FV-110GX system for at least two reasons: • Safety: Lightning protection of persons and equipment. • Protection: ESD (ElectroStatic Discharge) protection of equipment. -
Page 132: To Ground The Acu
Recommendations 2. Further, the ACU must be grounded at its grounding stud in order to ensure proper grounding if the short ADU cable is disconnected. For further information, see To ground the ACU on page 2-27. If you use the Extended cable support, make the ground connections through the cable support. -
Page 133: To Ground The Adu
Alternative ground for steel hulls A.2.2 To ground the ADU To ground the ADU do as follows: 1. Ground the ADU to the ship/hull via one or more of its mounting bolts. 2. Make sure to remove painting, dirt, grease etc. at the mounting holes in order to make good electrical contact to the hull. -
Page 134: To Ground The Acu
Alternative ground for steel hulls 3. Establish the ground connection either at the hull (recommended) or at a dedicated RF ground if available (alternative). However, bear in mind that the ADU ground Important connection must be made at the same electrical ground potential as the ACU (see To ground the ADU on page A-4). - Page 135 Alternative ground for steel hulls Figure A-3: Grounding at a dedicated RF ground (alternative)
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Page 136: Alternative Ground For Aluminum Hulls
Alternative ground for aluminum hulls Alternative ground 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. A.4.1 To ground the ACU To ground the ACU do as follows: 1. - Page 137 Alternative ground for aluminum hulls 3. Route the ground cable parallel and in close proximity to the shielded coax cable hence connecting the ADU to the ACU Grounding kit. Use a heavy gauge wire with tinned strands (min. 6 mm ) for this purpose.
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Page 138: Alternative Ground For Fibre Glass Hulls
To ground the ACU do as follows: 1. Preferably ground the ACU with the short ADU cable and a grounding kit (available from FURUNO). 2. Ground the ACU at its grounding stud in order to ensure a proper grounding if the short ADU cable is disconnected. -
Page 139: Separate Ground Cable
Separate ground cable Separate ground cable A.6.1 To construct a ground cable When dealing with electrical installations in a marine environment, all wiring must be done with double insulated, tinned strands, high quality and if exposed also UV resistant cables. This shall also apply to the separate ground cable mentioned in the previous paragraphs. -
Page 140: Ground Cable - Connection
Separate ground cable A.6.2 Ground cable - connection To mount the ground cable do as follows: 1. Mount the ground cable 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). -
Page 141: Rf Interference
RF interference Interference induced from nearby high-power RF transmitters might cause system failures and in extreme cases permanent damage to the FV-110GX equipment. If there are problems with interference from HF transmitters, do as follows: 1. Mount ferrite clamps on the coax cable in order to provide suppression of induced RF. -
Page 142: Jumper Cable For Grounding
Jumper cable for grounding Jumper cable for grounding Figure A-9: Jumper cable for grounding (specifications) A-12... -
Page 143: Appendix B System Messages
• CM (Continuous Monitoring) – automatically performed while the system is in operation. When the FV-110GX detects an event that requires your action, it issues an event message and the red Fail/Pass LED in the LED panel of the ACU is lit. As long as an event is active, it is shown in the ACU display, the Control Panel and the web interface (in HELPDESK >... -
Page 144: List Of Adu Events
List of ADU events List of ADU events Error Unit Severity Description Explanation code (ID) 0A001-0 Antenna ERROR Production data Production data is invalid. 0A002-0 Antenna ERROR XIM internal Antenna configuration data stored in the PCM module is invalid. 0A003-0 Antenna ERROR XIM external Antenna configuration data stored in the... - Page 145 List of ADU events Error Unit Severity Description Explanation code (ID) 0A018-0 Antenna ERROR ISM ABS Cannot initialise the ISM Info: device 0x00000000: Device not found (possible cabling problem) 0x000cbbaa: Device internal error (replace device) aa=status, bb=state, c=calibration data error. 0A019-0 Antenna ERROR PMM ABS...
- Page 146 List of ADU events Error Unit Severity Description Explanation code (ID) 0A02B-0 Antenna ERROR ABS software The ABS software version in the antenna is too version old to match the hardware requirements. Upgrade the software. 0A02D-0 Antenna ERROR BUC reference The BUC reference switches do not work.
- Page 147 List of ADU events Error Unit Severity Description Explanation code (ID) 0A040-0 Antenna WARNING VIM cable attn The output power cannot be controlled correctly. Check the Tx chain. 0A043-0 Antenna WARNING LNB voltage The voltage for the LNB is too low probably caused by a malfunctioning VIM/TIM or LNB.
- Page 148 List of ADU events Error Unit Severity Description Explanation code (ID) 0A053-0 Antenna ERROR Communication error between PCM and ISM. communication Check SUB-D connectors and cables. 0A054-0 Antenna ERROR Communication error between PCM and communication PMM. Check SUB-D connectors and cables. 0A055-0 Antenna WARNING Azi DDM The azimuth motor controller has temporarily...
- Page 149 List of ADU events Error Unit Severity Description Explanation code (ID) 0A05B-0 Antenna WARNING Ele cal. limits Elevation axis calibration result check limits exceeded. Pointing performance may be degraded. Info: See 0A059-0. 0A05D-0 Antenna WARNING ISM warning The ISM has temporarily observed an unusual situation with regards to temperature or voltage.
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Page 150: List Of Acu Events
List of ACU events List of ACU events Error code Severity Description Explanation (ID) 08060-0 ADM WARNING Antenna modem ACU/Antenna communication error detected (framing and parity). If the situation is persistent, check if cable specifications comply (length and attenuation). 08063-0 ADM ERROR Antenna connection The ACU has lost connection with the antenna. - Page 151 List of ACU events Error code Severity Description Explanation (ID) 0806F-0 ADM WARNING ROSS The ACU has become out of sync with the ROSS synchronization device, most likely because the ACU has been replaced, or the ROSS satellite profile is new. A manual (forced) handoff sequence must be initiated from the ROSS, refer to the ROSS manual.
- Page 152 List of ACU events Error code Severity Description Explanation (ID) 08101-0 ADM ERROR PSM high voltage The ADM measures a different antenna voltage (48 V) than expected. Check for short circuit of the antenna coax connector. If the problem is not solved by a restart, and the PSM is not reporting any errors, the ADM is probably defective.
- Page 153 List of ACU events Error code Severity Description Explanation (ID) 08840-0 ADM WARNING Master PLL lock The master PLL has lost lock. Check the input reference signal. 08841-0 ADM ERROR Tuner lock The internal tuner PLL was unable to lock. 08842-0 ADM WARNING GSC demodulator The GSC demodulator has reported an error.
- Page 154 List of ACU events Error code Severity Description Explanation (ID) 09000-0 KDM ERROR KDM 3V3 supply Internal 3V3 voltage supply error in the KDM. 09001-0 KDM ERROR KDM 12V supply Internal 12V voltage supply error in the KDM. 09002-0 KDM ERROR KDM display Display hardware error in the KDM.
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Page 155: Appendix C Command Line Interface
Telnet connection You can access the command line interface via Telnet. Access to the FV-110GX system is protected by a user name and password. This is the same user name and password that is used in the web interface under ADMINISTRATION. -
Page 156: Help
Supported commands C.1.2 Help If you enter help directly at the prompt UCLI:/$ all available commands are listed. Additionally any command will take help as first argument and display detailed information of the specific command. C.1.3 Conventions The command description below uses the following special typography: Convention Description Information that is displayed on the screen. -
Page 157: Help
Resets the antenna to angle 0. demo reset Table C-3: UCLI command: demo C.2.3 exit Command Description Exits the connection to the FV-110GX system. exit Table C-4: UCLI command: exit C.2.4 help Command Description Shows a list of commands available, including a short help description. -
Page 158: Modem
Supported commands Command Description Shows the sub commands and a short description for the help modem command modem. Shows the sub commands and description for the command help track track. Shows the sub commands and description for the command help status status. - Page 159 • r (right) Shows or sets the elevation referenced to earth satellite ele_cut_off where the FV-110GX system must shut off for transmission. This is an FCC requirement. The satellite ele_cut_off 5 elevation cut off depends on how much power is transmitted and which coding is used.
- Page 160 RF frequency: 10.7 – 12.75 GHz. 12.123456 9.75 LNB Lo frequency: 9.6 GHz – 11.3 GHz. The FV-110GX system supports any LNB Lo. • Ka band: RF frequency: 19.2 – 20.2 GHz. LNB Lo frequency: 18.25 GHz. Note: Setting the Ku-band Rx frequency and...
- Page 161 Command Description Shows the sub commands available, including a short status description. Shows the current status of the FV-110GX. status system Shows the current values for all tracking parameters: status track_all • vessel heading • azimuth relative • elevation relative •...
- Page 162 Shows or sets the receiver bandwidth or mode, the way track mode the FV-110GX tracks the satellite: • narrow (recommended, uses the built-in 300 kHz track mode dvb filter of the FV-110GX) • rssi (uses the RSSI signal from the VSAT modem) •...
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Page 163: Zone
Supported commands C.2.10 zone Command Description Shows the sub commands, unit and zone description for the command zone. Sets the azimuth angles of the blocking zone zone <id> azimuth <start for one zone. angle> <end angle> • Valid zones: 0 to 7 •... - Page 164 Supported commands This page is intentionally left blank. C-10...
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Page 165: Appendix D Approvals
Appendix D Approvals This appendix lists the approvals for FV-110GX: • OEM declaration... -
Page 166: Oem Declaration
OEM declaration OEM declaration... -
Page 167: Specifications
FURUNO FV-110GX SPECIFICATIONS OF GX TERMINAL FV-110GX ANTENNA UNIT (ADU) Antenna type Ring focus Gregorian Antenna pedestal 3-axis (plus skew) stabilized tracking antenna with integrated GPS Reflector size 1.03 m Polarization Circular cross-pol Frequency band Ka-band (Inmarsat GX) Transmission 29.0 to 30.0 GHz Reception 19.2 to 20.2 GHz... - Page 168 FURUNO FV-110GX Output: 100 VAC, 700/1000VA E11A102B002UJ Input: 200/220/230/240 VAC, 1 phase, 50/60Hz Output: 230 VAC, 700/1000VA Back-up period: 5 min (700 W), Charge time: 12 hr typical ENVIRONMENTAL CONDITIONS Ambient temperature Antenna unit -25°C to +55°C (storage: -40°C to +85°C) ACU/GMU -25°C to +55°C (storage: -40°C to +85°C)
- Page 173 OD-1 30/Jul/2018 H.MAKI...
- Page 174 OD-2 30/Jul/2018 H.MAKI...
- Page 175 OD-3 2/Oct/2018 H.MAKI...
- Page 176 OD-4 2/Oct/2018 H.MAKI...
- Page 177 ID-1...
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Page 179: Index
Index Index antenna , 2-16 drainage , 4-2 AC connector , A-3 grounding recommendations access , 2-3 installation location , 5-33 limit , A-10 isolation from mounting base acquisition , 2-8 mast design , 5-6 gyro-free , 2-4 obstructions , 5-6 search pattern , 2-23, 2-24 opening... - Page 180 Index cable type connector , 3-5, 3-8 , 3-2 , 3-2 calibration , 5-7 , 3-2 azimuth AC Input , 5-7, 5-11 , 3-5, 3-8 cable , 5-11 , 3-8 elevation requirements management PC , 5-8 , 3-3 error codes NMEA 0183/2000 , 7-13 , 3-4, 3-7...
- Page 181 Index elevation angle gain , 7-13 , 5-14 minimum fixed TX , 7-13 , 5-25 elevation cutoff gateway setup , 5-25 E-mail setup , B-1 , 7-6 error codes reset , 5-8 calibration GPS receiver , 7-4, B-1 , 2-15 error messages distance from antenna , B-8...
- Page 182 Index , 2-13 interference logon , 2-13 , C-1 from radar administrator, command line interface L-band antenna 2-15 , 5-32 administrator, web interface , A-11 5-24 Internet access, IP address , 5-2, 5-10, 7-6, 7-9 for web interface , 5-24 static mail server , 5-25...
- Page 183 Index NMEA , 3-3 cable requirements radar , 3-3 connector , 2-13 distance from antenna , 3-3 , 2-14 signal degradation , 3-3 supported string , 2-6 radiation level NMEA 0183 remove , 3-3 baud rate , 2-23 service hatch none report , 5-5...
- Page 184 Index service hatch syslog , 2-23 , 5-30 lock setup , 2-23 remove system , 5-41 service port ACU reset, keys to press , 3-1 , C-7 rack version command line interface service profile system configuration , 5-10 , 5-34 calibration copy , B-1...
- Page 185 Index , B-1 warning messages , 7-4 warnings , 7-20 warranty web interface , 7-4 browser settings , 5-1 connect , 3-8 LAN connector , 5-17 navigating , 7-9 software update web mmi , 3-8 LAN connector weight , 1-2, 2-8 , 2-11 mast , 3-1, 4-1...
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Page 187: Declaration Of Conformity
Цялостният текст на ЕС декларацията за съответствие може да се намери на следния интернет адрес: Spanish Por la presente, Furuno Electric Co., Ltd. declara que el tipo de equipo (ES) radioeléctrico arriba mencionado es conforme con la Directiva 2014/53/UE. El texto completo de la declaración UE de conformidad está disponible en la dirección Internet siguiente:... - Page 188 O texto integral da declaração de conformidade está disponível no seguinte endereço de Internet: Romanian Prin prezenta, Furuno Electric Co., Ltd. declară că menționat mai sus tipul de (RO) echipamente radio este în conformitate cu Directiva 2014/53/UE. Textul integral al declarației UE de conformitate este disponibil la următoarea adresă...