Furuno MFD8/12/BB manual

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Table of contents for the manual

  • Page 1

      Installation Guide v1.0 MFD8/12/BB  READ ME FIRST! Please read this document before installing and powering ON your NavNet Display INSTALLATION TOOLS YOU WILL NEED: An ordinary USB MOUSE AND USB KEYBOARD for the MFDBB Insta llation! These are also helpful with the MFD8/12 Installation. www.furunousa.com[...]

  • Page 2

    2 Contents 1.  Mountin g ................................................................................................................ 11  1.1.  MFD8/12 M ounting ........................................................................................... 11  1.1.1.  MFD8/12 Flush Mounti ng .........................................[...]

  • Page 3

    3 2.9.2.  Audio ......................................................................................................... 39  2.10.  MFD8/12 Video, USB and Audio Connec tion ............................................... 39  2.10.1.  Waterproof C onnection .......................................................................... 39[...]

  • Page 4

    4[...]

  • Page 5

    5 Standard supply (MFD8/12) Name Type Part Number (PN) Qty Remarks Multi Function Display MFD8 - 1 Choose one. MFD12 - Installation materials CP19-00900 000- 011-780 1 set For MFD8, CP19-00901*, cables CP19-01000 000- 011-781 For MFD12, CP19-01001*, cables Spare Parts SP19-00701 001-028- 020 1 set For MFD8, fuses SP19-00801 001-028- 030 For MFD12, [...]

  • Page 6

    6 M12-05BFFM-060 000-167- 967 φ 6, 6 m, NMEA2000, w/micro connector Cable Assemblies Ethernet Network MOD-Z072-020+ 000- 167-175 LAN cross, 4-pair, 2 m MOD-Z072-050+ 000- 167-176 LAN cross, 4-pair, 5 m MOD-Z072-100+ 000- 167-177 LAN cross, 4-pair, 10 m MOD-Z073-030+ 000- 167-171 LAN straight, 2-pair, 3 m MJ-A6SPF0016-005C 000-159-689 For FAX-30, E[...]

  • Page 7

    7 RJ45 Junction Box RJ45-to-RJ45 Straight RJ4-5CN-STR For Mast-Step or LAN cable extension Connector Boot OP19-7 001-028- 090 Waterproofing Kit for MFD8/12 exposed connection points Operator’s Manual OME-4440 000-167- 802 NMEA 2000 Interface Unit IF-NMEA2K1 - Use where NMEA2000-to- AD10/0183 Data conversion is required for legacy products[...]

  • Page 8

    8 Standard supply (MFDBB) Name Type Code No. Qty Remarks Processor Unit MPU-001 - 1 Control Unit MCU-001 - 1 Choose one. Display Control Unit DCU12 - 1 Installation Materials CP19-00600 000- 011-664 1 set For MPU-001, Cable, CP19- 00601* CP19-00700 000- 011-663 1 set For MCU-001, cable, CP19- 00701* Choose one. CP19-00800 000- 011-662 For DCU12, ca[...]

  • Page 9

    9 Rectifier RU-1746B-2 - Network Hub HUB-101 - Joint Box TL-CAT-012 000-167-140-10 For LAN cable extension Junction Box FI-5002 000-010-765 For NMEA 2000 Control Unit MCU-001 - Display Control Unit DCU12 - Cable Assy MJ-A7SPF0007-050C 000-154-028 -10 5 m, NMEA0183, w/7P connector MJ-A6SPF0016-005C 000-159-689 -11 For FAX-30, ETR6N/10N connection MO[...]

  • Page 10

    10 CB-05PM+05BF-020 000-167-969 -10 φ 10, 2 m, NMEA 2000 CB-05PM+05BF-060 000-167-970 -10 φ 10, 6 m, NMEA 2000 CB-05BFFM-010 000-167-971 -10 φ 10, 1 m, NMEA 2000 CB-05BFFM-020 000-167-972 -10 φ 10, 2 m, NMEA 2000 CB-05BFFM-060 000-167-973 -10 φ 10, 6 m, NMEA 2000 NMEA connector LTWSS-050505-FMF- TS001 000-168-603-10 NMEA 2000 distributor (micr[...]

  • Page 11

    11 1. Mounting 1.1. MFD8/12 Mounting MFD8 MFD12 When selecting a mounting location for the NN3D MFD8/12, keep the following in mind: • The temperature and humidity of the mounting location should be moderate and stable. • Install the unit away from exhaust pipes and ventilators. • The mounting location s hould be well ventilated. • Mount th[...]

  • Page 12

    12 1.1.1. MFD8/12 Flush Mounting 1. Prepare a cutout in the mounting location us ing the template sheet (supplied) for the MFD8 or 12. 2. Remove the front panel fr om the MFD by grasping it at its sides and pulling it towards you. 3. Attach the mounting gasket (sponge) to the display unit. 4. Fix the display unit by using four self-tapping screws ([...]

  • Page 13

    13 How to detach the front cover when flush mounted . To detach the front panel when the unit is fl ush mounted, use the sp ecial tool (supplied) as below. Note that the front cover may be damaged if this proce dure is not followed! 1. Insert the tool in the not ch on the lower side of the unit 2. Pull the tool to raise the panel slightly . Repeat [...]

  • Page 14

    14 4. Use your hands to detach the front panel from the lower side. 1.1.2. MFD 8/12 Desktop and Overhead Mounting Follow the procedure below to mount the MFD8 or 12 on a desktop or overhead. 1. For MFD12, attach the liner to each side of the display unit. (Reverse the MFD12 Liners for overhead mounting.) 2. Fix the bracket (Hanger) by us ing self-t[...]

  • Page 15

    15 1.2. MFDBB Processor Mounting The unit can be mounted on the deck, a desktop or on a bulkhead. Take special note that the MFDBB IS NOT WATERPROOF. Select a mounting location considering the points below: • Select a location where temperature and humidity are m oderate and stable. • Consider the lengths of t he cables connected among the proc[...]

  • Page 16

    16 1.2.2. MFDBB Processor Bulkhead Mounting Mark four fixing holes positions on the bul khead. Screw in two 6x30 self-tapping screws at upper fixing positions, leaving 5 mm protru ding. Set the processor unit to the screws and screw in two self-tapping screws at lower positions. Tighten all screws. 1.2.3. MDBBB Keyboard Mounting The BlackBox keyboa[...]

  • Page 17

    17 How to detach the front panel when flush mounted To detach the front panel when the unit is flush mounted, use the tool (supplied) as below. Do not attempt to remo ve it by any other method, to prevent damage to the unit. 1. Insert the tool to the left-si de notch at the bottom of the unit[...]

  • Page 18

    18 2. Pull the tool to raise the panel slightly 3. Similarly use the tool to rais e the panel at the right-side notch. 4. Insert the tool to the space at the one end of the unit, and pull it to raise the panel slightly. Repeat this procedure for the opposite side 5. Use the tool to raise the panel at the two notches on the upper side of the unit. 6[...]

  • Page 19

    19 2. Wiring 2.1. Overview 2.1.1. MFD8/12 Overview[...]

  • Page 20

    20 2.1.2. MFDBB Overview 2.2. Power Connections 2.2.1. MFD8/12 The MFD8/12 can be powered directly using nominal 12V or 24V DC. Only use the power cable supplied with t he unit and connect it to the Power Connector at the rear of the unit. 2.2.2. MFDBB The MCU001 - MFDBB processor unit can be powered using 12V or 24V. Make the power cable as shown [...]

  • Page 21

    21 To connect the power cable, remove the Po wer Terminal cover. Unfasten the four pan head screws and connect the power cable to t he power terminal (upper: +, lower: -). Reattach the cover. Note that the recommended maximum cable length is 5 m.[...]

  • Page 22

    22 2.3. DATA Ports (NMEA0183) 2.3.1. Overview Every MFD8/12 and MFD BB has THREE full NMEA0183 I/O Data Ports. One is available on the DATA1 7-Pin Connector and is pin compatible with Navnet 1/vx2 DATA1 Connector. Two additional NMEA Po rts are available on the DATA2 18-Pin connector. These NMEA connections can accept a baud rate of 4800 or 38.4K. [...]

  • Page 23

    23 Wiring Information Pin No. Color Function 7 Shield Shield 6 Black GND 5 Red 12V_OUT 4 Green RD1-C 3 Yellow RD1-H 2 Blue TD1-B 1 White TD1-A 2.3.3. DATA 2 Description DATA2 can be used to connect additional NMEA 0183 instruments. Use the included cable assembly FRUDD-18AFFM-L180 (FUSA P/N 000-164-608). This included Pig- Tail Cable has an 18-Pin [...]

  • Page 24

    24 Wiring Information Pin No. Color Function Remark (Port No.) 18 Light green NET-C IN (0V) NMEA 2000 Power IN. When 12V DC power is applied on these pins, the N2K port will be powered (up to 1 ampere) 17 Pink NET-S IN (+12V IN) 16 Purple Shield 15 White BUZZER or EVENT IN External Buzzer Output or MOB/Event Input (Contact Closure) 14 Gray SPEED-AL[...]

  • Page 25

    25 2.4. NMEA2000 Description and Information 2.4.1. MFD Every MFD has one NMEA2000 port (Standard “D eviceNet Micro” style connector). This port is not powered unless External Power is applied on Pin 18 and 17 of DATA2 and must be connected to a properly configured NMEA2000 network. IMPORTANT: Each MFD is designed to connect to separate NMEA200[...]

  • Page 26

    26 2.4.3. NMEA2000-0183 Data Con version and NMEA2000 Bridging NMEA0183 to NMEA2000 conversion NMEA0183 sentences and NMEA2000 PGNs, whic h are used and accepted in the MFD network can be converted and output in either/both NMEA0183/NMEA2000 formats. Note that only one type of data can be conver ted and output at a time (one position, one depth, on[...]

  • Page 27

    27 2.5. DRS (Radar) Connection Up to two DRS (Digital R adar Sensors) can be connected to a NavNet3D network. Every DRS comes with a supplied 15 Mete r cable (FUSA P/N 000-167-636). Other cable lengths may be purchased if necessary (Note that the part numbers for the DRS25A are different): - 10 Meter Cable (FUSA P/N 000-167-635) - 20 Meter Cable (F[...]

  • Page 28

    28 2.5.1. Connecting the DRS to MFD8/12 Standalone Installation: When the MFD8/12 and the Radar are the only Ethernet sensors, you can connect the Radar Ethernet connection directly to the back of the MFD8/12. Network Installation: As soon as multiple MFD8/12 or other Ether net sensors (i.e. DFF1 Fish Finder, BBWX1 Sirius receiver, etc.) are used, [...]

  • Page 29

    29 Example of straight Ethernet Co upler (FUSA P/N= RJ4-5CN-STR): Note: This Ethernet coupler is not waterproof . Ethernet Cables that can be used to extend the Ethernet Radar Connection: - 2 Meter RJ45 to RJ45 Ethernet Cable (P/N 000-167-175) - 5 Meter RJ45 to RJ45 Ethernet Cable (P/N 000-167-176) - 10 Meter RJ45 to RJ45 Ethernet Cable (P/N 000-16[...]

  • Page 30

    30 2.6. Network 2.6.1. Introduction NavNet3D (just like NavNet1 and VX2) us es standard TCP/IP Ethernet to share radar/sounder images and other nav igation information from devices connected within a networked system. In any single NavNet 3D network, a combination of up to ten NavNet3D MFDs may be connected to each other. All NavNet3D Network Compo[...]

  • Page 31

    31 two ports are NOT standard POE (Power over Ethernet) and POE devices cannot be connected to these two ports. 2.6.2. Power Synchronization A NN3D network is a system in which al l components share information (navigation data, settings, points, rout es, etc) with each other. Furu no developed special Power Synchronization features to allow proper[...]

  • Page 32

    32 Why use the Furuno HUB (HUB101): The Furuno HUB101 allows the Power Synchr onization signal to reach the MFDs and other Power Synchronization compatible devic es. Here is a list of all devices that support Power Synchronization: - All NN3D Displays: MFD8, MFD12, MFDBB - All NN3D Radar Power Supplies: PSU012 and PSU013 - Sounders: DFF1 and DFF3 -[...]

  • Page 33

    33 The MFDBB processor unit has an Internal Hub that is compatible with Power Synchronization. DIP switches inside the processor unit c an be turned ON or OFF to enable/disable the Power Synchronization feature. The number on each DIP switch corresponds to the port number. Additionally, to allow the Power Synchroni zation to work, a setting in the [...]

  • Page 34

    34 be viewed only on the MFD where the source is connected. Additionally some IP Camera can be controlled from NavNet3D (Pan-Tilt–Zoom ((PTZ)) IP Cameras only) 2.7.1. Analog Video MFD8/12 The MFD8/12 units have 2 Analog Video inputs (PAL/NTSC) on 2 mm RCA (cinch) type connectors located on the rear of the display MFDBB The MFDBB unit has 4 Analog[...]

  • Page 35

    35 The IP cameras need to have a specific assigned IP address (from 172.31.200.003 through 006). Please refer to the Appendix “How to c onfigure the AXIS IP Camera” for more Information[...]

  • Page 36

    36 2.8. External Monitors 2.8.1. MFD8/12 A DVI monitor can be connected to the MFD8 /12 to repeat the screen at a remote location. The plug is DVI-D format and only a DVI monitor can be connected. The MFD8 has a 640x480 (VGA) DVI-D outpu t. The MFD12 has an 800x600 (SVGA) DVI-D output. Furuno offers the following DVI cable: - 5 Meter DVI Cable (FUS[...]

  • Page 37

    37 When Extended Mode is used the two screens need to be located in close proximity to each other. The two monitors show independ ent screen displays that can be configured independently. Only one Keyboard is used to control both monito rs (the cursor will “jump” back and forth from monitor to monitor). When the two monitors are installed for r[...]

  • Page 38

    38 mouse software is permitted. However, the standard Mouse HI D drivers will load automatically, allowing most mice and wireless mice to work fine. Generic USB keyboards may be used to ent er Name and Numerical Position. The Keyboard can also emulate the key of NavNet3D: USB Keyboard Action ESC CANCEL F2 SAVE/MOB F3 DISP F4 MENU F5 GAIN/TX F6 CTRL[...]

  • Page 39

    39 2.9.2. Audio Audio In and Audio out are rese rved for future Development Note: If Sirius Satellite Radio control and functi onality is desired in the future, be sure to use the Audio Outputs on the Sirius Receiv er (BBWX1) itself and not from an MFD! 2.10. MFD8/12 Video, USB and Audio Connection The DVI, USB, Analog Video Input and Audio In/Out [...]

  • Page 40

    40 2. Pass DVI-D, VIDEO, AUDIO and/or U SB cables through the fixing plate (supplied). 3. Attach each connector to the appropriate location at the rear of the display unit. 4. Pass cables through the slit on the boot cover. 5. Install the rubber stopper to each cable. The largest hole is fo r the DVI-D cable.[...]

  • Page 41

    41 6. Use the four plate screws (M3x10, supp lied) to fasten the fixing plate and boot cover to the display unit. 7. Slide the rubber stopper in to the hole of the rubber boot, and fasten the cable tie to hold the rubber boot and stopper. Note: When only the Ethernet, Power, DRS, DATA1, DATA2 and NMEA2000 connection are used the Waterproof Connecto[...]

  • Page 42

    42 2.10.2. Non Waterproof connection When you do not need waterproofing, use the cable fixing plate (supplied in standard installation materials). 1. Unfasten the four screws to detach the c onnector cover at the re ar of the display unit. 2. Attach the cable fixing plate by using the binding screw (M3x10, supplied as the installation materials). 3[...]

  • Page 43

    43 3. Configuration 3.1. Introduction NavNet3D (just like NavNetVX2) uses Et hernet to share radar/sounder images and other navigation information from devices connected within a networked system. In any single NN3D network, a combinat ion of up to ten NavNet3D MFDs may be connected to each other via Ethernet. All NavNet3D Netw ork Components have [...]

  • Page 44

    44 3.1.1. Selecting a Master When multiple MFDs are connected in a net work, one MFD (and only one) needs to be designated as the “Master”. The MFD set as Master will act as a “DHCP server” and automatically performs the netwo rk configuration of all the other MFDs in the network. (The Master sets up the Hostnames, IP addresses etc…). Not[...]

  • Page 45

    45 “Own Setting” Tab This Tab configures the local ports of the MFD (NMEA0183 I nput/Output, NMEA2000 Output) on which the Installation Wizard is currently used. This is also where the Master can be designated (DHCP Server turned ON) “Global” Tab This Tab contains configuration information that is global to the system and shared among MFDs.[...]

  • Page 46

    46 -The system will search for sensors on the net work. Allow the system to fully perform the search (which takes about 30 seconds ). Do not click the Skip button. -After the detection, the language selection screen appear s. The default language is English. Use the Cursor Pad and the center click (or the mouse for the MFDBB) then click on “Next:[...]

  • Page 47

    47 Note: Power Synchronization requires a HUB101 and proper hardware configuration. Please refer to 2.6.2 Power Synchronization paragraph for more Information Note: On the MFDBB, the same page allows y ou to select the monitor resolution and the Dual Screen mode configurati on (when two monitors are used). Leave the DVI Resolution to “AUTO” (th[...]

  • Page 48

    48 External Monitor for more information on Clone and Extended mode when two monitors are connected to a single MFDBB processor. After enabling the DHCP server click on “Exit” to validate the setting. The MFD will Power OFF automatically! Power ON the “Master” MFD. Wait a few mi nutes until the Installation Wizard appears on the Master then[...]

  • Page 49

    49 Click on the “Next” button to continue the configuration. 3.2.3. NMEA0183 The three “NMEA0183 Port” tabs are used to configure the Input and Output of the individual MFD’s own NMEA0183 ports. It is important to understand that it is not possible to filter any received NMEA0183 Da ta at any of these ports on individual MFDs. And unlike [...]

  • Page 50

    50 IMPORTANT!: After configuring any NMEA 0183 Input Port Sensor s on the Master MFD, you must REPEAT THIS PROCEDURE at any other Slave MFDs in the network where you have connected NMEA 0183 Input Sensors!! If this is not done, the sensors will not be available for selection as a Pr imary System Data Source in the Global Settings Tab. Example: If y[...]

  • Page 51

    51 the raw GPS fixes. A setting between 000 to 999 is available. The higher setting the more smoothed the raw data, however too high a setting slows response time to change in latitude and longitude. This is especially noticeable at high ship’s speeds. Increase the setting if the GPS fix changes. SOG/COG Smoothing During position fixing, ship’s[...]

  • Page 52

    52 is available again or the alarm is acknowledged (by key operation). Off: Alarm sounds three times. -After completing the NMEA0183 Configurat ion Procedures on the Master and Slave MFDs, return to the Master MFD to complete the installation process. -Click “Next” at the Master MF D to continue the configuration 3.3. Installation Wizard Global[...]

  • Page 53

    53 Note: The currently accepted engine data is as follows: - Engine Parameters (PGN 127488) Engine Speed Engine Boost Pressure - Engine Parameters (PGN 127489) Engine Oil Pressure Engine Temp Engine Temperature Status Engine Warning Status Click on “Next” to continue the configuration 3.3.2. Assigning Nicknames You can assign Nicknames to ev er[...]

  • Page 54

    54 Note : This page will display the NMEA0183 Input Ports of every MFD connected to the network as “Port1”, “Port2” and “Port3”. Each port refers to the MFD listed just above. Click on “Next” to continue the configuration[...]

  • Page 55

    55 3.3.3. Camera Names You can assign names to each connected Analog and IP Camera. These names will be used by the RotoKey and for the Vide o ID in the main interface. The IP Camera names are Global and only need to be configured at the Master MFD. However, the Analog cameras must be named at each MFD where t hey are connected. Please refer to the[...]

  • Page 56

    56 “Own” settings for each MFD(s) before being able to select the corresponding instruments as a data source. Select the “Data Source” Tab. This tab allo ws you to select the Primary System Data Source for various data types used by the Navnet 3D Network. Name Description Example Position & SOG/COG Choos e the position-fixing sensor to [...]

  • Page 57

    57 Water Depth Choose the depth sensor to use. Smart sensor (NMEA 0183), Speed sensor (ETR), Smart sensor (NMEA 2000), Other (NMEA 0183) Water Temperature Choose the temperature sensor to use. Smart sensor (NMEA 0183), Speed sensor (ETR), Smart sensor (NMEA 2000), Other (NMEA0183) Wind Choose the wind sensor to use. FI-501/502, PB-100, WS- 200, PB-[...]

  • Page 58

    58 3.3.5. Sounder Configuration Up to 2 Network sounders can be connected on the NavNet3D network. DFF1 and DFF3 Select the Sounder Source: a) Click the Transducer Setup pull-down menu, and choose Model Number, TD-ID or Manual, according to t he transducer connected. Model Number: Furuno’s transducer TD-ID: Airmar’s transducer w/TD-ID Manual: O[...]

  • Page 59

    59 Up-down: Set the distance from the transducer to the antenna unit in the vertical direction. Port-starboard: Set the distance fr om antenna unit to the transducer in port-starboard direction. When the tr ansducer is located on the starboard side, set a positive value. e) Click the Motion Sensor pull-down m enu, and choose SC-30 or SC-50/110 if c[...]

  • Page 60

    60 3.3.6. DRS (Radar) Configuration Up to two DRS can be connected on the NavNet3D network. - Select the Radar Source you want to configure - Click the Antenna Height pull-down menu, and choose the height of the antenna above the waterline, among under 10ft, 10ft-30ft or over 30ft. - Perform the heading adj ustment as follows. - Steer towards a sui[...]

  • Page 61

    61 - Click the Push STBY button to stop the transmission. Click on “Exit”. This will close the Installation Wizard and launch NN3D When the Agreement appears on the di splay, push RotoKey to agree. Important: If you are using a MFDBB, the Key board will not work until it is properly “Linked” to a processor unit. Please refer to 3.4[...]

  • Page 62

    62 MFDBB Keyboard/Processor Linking then continue to the next paragraph to finish the Radar Installation. When the MFD displays the main interface, push the [MENU] key. Use the RotoKey to scroll to the “Radar” page. Use the Curs or Pad or the mouse and click on “Radar Source” to select the DRS you want to use. Press the [MENU] key to close [...]

  • Page 63

    63 3.4. MFDBB Keyboard/Processor Linking MFDBB Keyboards are Ethernet network devices that need to be assigned (linked) to a specific MFDBB processor unit during insta llation. A special “key-push” sequence is used to cycle through the “Linking Codes” for all the MFDBB processor unit(s). If only one MFDBB processor unit is on the Network: S[...]

  • Page 64

    64 4. Registering the System 4.1. SystemID Description The Navnet 3D SystemID is a unique num ber assigned to a complete NN3D networked system with one or more MFDs. On the same boat, al l networked MFDs have the same SystemID. This number will not change if a MFD or other NavNet Component is added to the system. The SystemID is used to i dentify t[...]

  • Page 65

    65 5. Appendix 5.1. Example NN3D System Configurations 5.1.1. Basic Plotter/Fis h Finder Installation The Furuno GPS (FUSA P/N BBWGPS) is dire ctly connected to 7-Pin Port DATA1 of the MFD. The DFF1 Fish Finder (FUSA P/N D FF1) is directly connected to the Ethernet port of the MFD using the st andard supply cable (3Meter). If the Ethernet connectio[...]

  • Page 66

    66 5.1.2. Basic Plotter/Radar/Fish Finder Installation This is a single station Plotte r/Radar/Fish Finder installation. The Furuno GPS (FUSA P/N BBWGPS) is dire ctly connected to 7-Pin Port DATA1 of the MFD. Since two Ethernet sensor are on the network (DRS Radar and Fish Finder), a network switch (FUSA P/N HUB101) is nec essary. In this case the [...]

  • Page 67

    67 Additional Furuno Network Sensors can also be plugged directly to the HUB (using a regular Ethernet cable): - FA30 AIS Receiver/FA50 AIS Class B Transponder - BBWX1 Sirius Satellite Weather Receiver - FAX30 - Weather Fax Receiver[...]

  • Page 68

    68 5.1.3. Dual MFD Installation Example This installation is a dual MFD installati on with Radar Overlay and ARPA functionality (PG500 Heading Sensor included). The Furu no GPS (FUSA P/N BBWGPS) is directly connected to 7-Pin Port DATA1 of the MF D. The Furuno Heading Compass (FUSA P/N PG500) is connected to port DATA2 of the MFD. Note that in this[...]

  • Page 69

    69 5.1.4. Dual Screen MFDBB Installation with Pilot Integration Navpilot 500 Series Integration with NN3D MFDs is similar to Navnet vx2 integration. One difference is that NN3D MFDs no long er have an AD10 Heading Port. However, NN3D MFDs do require high speed NMEA0 183 heading information (10Hz) for ARPA functionality. Heading Interface to MFD: To[...]

  • Page 70

    70 In this example, the MFDBB is configured for Extended Mode. The two monitors show independent screen displays that can be c onfigured independently. Only one Keyboard is used to control both monitors (the cursor will “jump” back and fo rth from monitor to monitor). The two screens need to be locat ed in close proximity to each other. Optiona[...]

  • Page 71

    71 5.2. Configuring AXIS IP Cameras 5.2.1. Introduction: In order to view and control Axis IP Cameras from an MFD in a Navnet 3D network, it is first necessary to assign the IP Address of a MPEG-4 capable AXIS IP Camera. This procedure will require a Windows PC connected vi a Ethernet to the AXIS IP Camera(s). Pre-wiring and installi ng the cameras[...]

  • Page 72

    72 Right Click on “Local Area Conne ction” and select “Properties” Select “Internet Protocol (T CP/IP)” and click on “Properties” Fill the IP fields as shown below. Click on OK to confirm and close the 2 windows.[...]

  • Page 73

    73 Note that the new IP can take up to 20 seconds to be recognized. A pop-up in the lower right corner should show when the IP is correc tly set. Turn OFF any Firewall that could prevent data to be exchanged between NavNet and the PC. You may also have to restart your computer. 5.2.3. Set up the IP address of the camera To work with NavNet3D, the I[...]

  • Page 74

    74 Click on “Copy to PC” The following window should appear. Just d ouble click on “IPUtilit y” to launch the configuration software Note: If the Windows Firewall appears, click on “Unblock” to allow the software to configure correctly the IP Camera[...]

  • Page 75

    75 The AXIS IP utility will detect all the IP cameras connected on the network Note: If you use the same camera models in multiple locations, BE SURE to W RITE DOWN the IP Camera serial number (that can be found on the back of the camera) with the intended location to help correctly assign the IP camera’s name. In this example, we will assign a m[...]

  • Page 76

    76 You will need to restart (power OFF and ON ) the camera after the address is changed. (Just unplug and plug back the Ethernet c able if you are using the POE). It can take a while before t he confirmation box appears. Click the “Close” button. The first IP camera has been correctly assigned Repeat the process with the other cameras[...]

  • Page 77

    77 5.2.4. Configure the camera The cameras need to be configured using a Internet Explorer. Enter the IP address of the first IP camera: Set the password of the IP came ra to “pass” and click “OK” Important: You cannot use another passw ord and must use the word “pass”. When you press OK, a dialog box asking for a login/password will ap[...]

  • Page 78

    78 When the webpage loads, pay attention to the top of the page to authorize the installation of the ActiveX. Click on t he yellow bar and choose “Install ActiveX” At this point a camera image should appear Now, click on Setup[...]

  • Page 79

    79 1) In “Basic Configuration -> Users” select “Enable anonymous viewer…” and click on “Save” 2) In “Basic Configuration -> Date and Time” select “Synchronize with computer time” and click on “Save” 3) In “Live View Config -> Layout” select “MPEG4” as the default video format and click on save 4) Optional:[...]

  • Page 80

    80 When the view is correctly set up, type “Hom e” for the Current position and select “Use current position as Home”. Click on “Add” to validate. If you don’t want the camera to return to t he “Home” position automatically after 30 sec, just put 0 and validate.[...]

  • Page 81

    NAME OUTLINE Q'TY DESCRIPTION/CODE № PACKING LIST 19BA-X-9851 -4 MFD8-J/E 1/1 NAME OUTLINE Q'TY DESCRIPTION/CODE № ユニット UNIT マルチファンクションディスプレイ MULTI FUNCTI ON DI SPLAY 1 ** MFD8 -J/E 000-011-776-00 予備品 SPARE PARTS 予備品 SPARE PARTS 1 SP19 -00701 001-028-020[...]

  • Page 82

    NAME OUTLINE Q'TY DESCRIPTION/CODE № PACKING LIST 19BA-X-9852 -5 MFD12-J/E 1/1 NAME OUTLINE Q'TY DESCRIPTION/CODE № ユニット UNIT マルチファンクションディスプレイ MULTI FUNCTI ON DI SPLAY 1 ** MFD1 2-J/E 000-011-778-00 予備品 SPARE PARTS 予備品 SPARE PARTS 1 SP19 -00801 001-028-0[...]

  • Page 83

    %1&'01  6;2' %2 ⇛ޓޓ࿑ 176.+0' ฬޓޓ⒓ 0#/' ᢙ㊂ 36; ↪ㅜ㧛஻⠨ 4'/#4-5 ⇟ภ 01 ဳฬ㧛ⷙᩰ &'5%4+2 6+105   +056#.. #6+10/ #6'4+#.5 Ꮏ੐᧚ᢱ⴫ $#: [...]

  • Page 84

    %1&'01  6;2' 52 +6'/ 01 0#/'1( 2#46 176.+0' &9)01 14 2'4 5'6 2'4 8'5 52#4' 914-+ 0) 37#06 +6; 4'/#4 -5%1& '01 $1:012 5*+2 01 52#4&apos[...]

  • Page 85

    %1&'01  6;2' 52 +6'/ 01 0#/'1( 2#46 176.+0' &9)01 14 2'4 5'6 2'4 8'5 52#4' 914-+ 0) 37#06 +6; 4'/#4 -5%1& '01 $1:012 5*+2 01 52#4&apos[...]

  • Page 86

    Oct.22'07 R.Esumi D-1[...]

  • Page 87

    Oct.22'07 R.Esumi D-2[...]

  • Page 88

    Oct.23'07 R.Esumi D-3[...]

  • Page 89

    Oct.23'07 R.Esumi D-4[...]

  • Page 90

    12 3 B A D C NAME 名称 TITLE kg MASS DWG No. SCALE APPROVED CHECKED DRAWN REF.No. T.YAMASAKI T.TAKENO INTERCONN ECTION DIAGRAM 相互結線図 マルチファンクションディスプレイ MULTI-FUN CTION DISPLAY MFD8/12 *2: OPTION. *1: SHIPYARD SUPPLY. NOTE *3: CONNECTOR PLUG FITTED AT FACTORY. 注記 *1)造船所手配。 *2)オ?[...]

  • Page 91

    㧼㧭㧯㧷㧵㧺㧳ޓ㧸㧵㧿㨀 #;:  /27', 0#/' 176.+0' &'5%4+26+10%1&'ͳ 36;  ࡙࠾࠶࠻ 70+6 ೙ᓮㇱ 241%'551470+6 /27',     ੍?[...]

  • Page 92

    㧼㧭㧯㧷㧵㧺㧳ޓ㧸㧵㧿㨀 #;:  /%7 0#/' 176.+0' &'5%4+26+10%1&'ͳ 36;  ࡙࠾࠶࠻ 70+6 ᠲ૞ㇱ %10641.70+6 /%7    ઃዻຠ #%%'551 4+'5 ઃዻຠ #[...]

  • Page 93

    %1&'01  6;2' %2 ⇛ޓޓ࿑ 176.+0' ฬޓޓ⒓ 0#/' ᢙ㊂ 36; ↪ㅜ㧛஻⠨ 4'/#4-5 ⇟ภ 01 ဳฬ㧛ⷙᩰ &'5%4+2 6+105   +056#..#6+10/#6'4+#.5 Ꮏ੐᧚ᢱ⴫ #;: /%[...]

  • Page 94

    %1&'01  6;2' (2 ⇛ޓޓ࿑ 176.+0' ฬޓޓ⒓ 0#/' ᢙ㊂ 36; ↪ㅜ㧛஻⠨ 4'/#4-5 ⇟ภ 01 ဳฬ㧛ⷙᩰ &'5%4+2 6+105   #%%'5514+'5 ઃዻຠ⴫ #;: /%7?[...]

  • Page 95

    %1&'01  6;2' 52 +6'/ 01 0#/'1( 2#46 176.+0' &9)01 14 2'4 5'6 2'4 8'5 52#4' 914-+ 0) 37#06 +6; 4'/#4 -5%1& '01 $1:012 5*+2 01 52#4&apos[...]

  • Page 96

    Jun.27'07 R.Esumi D-1[...]

  • Page 97

    Jun.27'07 R.Esumi D-2[...]

  • Page 98

    Oct.22'07 R.Esumi D-3[...]

  • Page 99

    Oct.22'07 R.Esumi D-4[...]

  • Page 100

        $ # & % 0#/' ฬ⒓ 6+6.' MI /#55 &9) 0Q 5%#.' #22418'& %*'%-'& &4#90 4'(0Q 6;#/#5#-+ 66#-'01      0/'# 0'65 0'6% 0'6* 0'6. 5*+'.&    )0&     &#6# ?[...]

  • Page 101

    The paper used in this manual is elemental chlorine free. ・FURUNO Authorized Distributor/Dealer 9-52 Ashihara-cho, Nishinomiya, 662-8580, JAPAN Telephone : +81-(0)798-65-2111 Fax : +81-(0)798-65-4200 A : APR 2008 . Printed in Japan All rights reserved. Pub. No. IME-44460-A *00016722210* *00016722210* ( HIMA ) MFDBB * 00016722210 * * 00016722210 *[...]