Furuno MFD8-12-BB User Manual

5 (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 Installation! These are also helpful with the MFD8/12 Installation.

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Contents

1.

Mounting ................................................................................................................

11

 

1.1.

MFD8/12 Mounting...........................................................................................

11

 

1.1.1.

MFD8/12 Flush Mounting ..........................................................................

12

 

1.1.2. MFD 8/12 Desktop and Overhead Mounting .............................................

14

 

1.2.

MFDBB Processor Mounting............................................................................

15

 

1.2.1. MFDBB Processor Desktop or Deck Mounting..........................................

15

 

1.2.2. MFDBB Processor Bulkhead Mounting .....................................................

16

 

1.2.3.

MDBBB Keyboard Mounting ......................................................................

16

2.

Wiring

.....................................................................................................................

19

 

2.1.

Overview ..........................................................................................................

19

 

2.1.1. ....................................................................................

MFD8/12 Overview

19

 

2.1.2. ......................................................................................

MFDBB Overview

20

 

2.2.

Power ..........................................................................................Connections

20

 

2.2.1. ....................................................................................................

MFD8/12

20

 

2.2.2. ......................................................................................................

MFDBB

20

 

2.3.

DATA .................................................................................Ports (NMEA0183)

22

 

2.3.1. ....................................................................................................

Overview

22

 

2.3.2. ....................................................................................

DATA 1 description

22

 

2.3.3. ...................................................................................

DATA 2 Description

23

 

2.4. NMEA2000 ..........................................................Description and Information

25

 

2.4.1. ...........................................................................................................

MFD

25

 

2.4.2. ................................................................................................

DRS Radar

25

 

2.4.3. ...................NMEA2000-0183 Data Conversion and NMEA2000 Bridging

26

 

2.5.

DRS .................................................................................(Radar) Connection

27

 

2.5.1. ..............................................................Connecting the DRS to MFD8/12

28

 

2.5.1. ................................................................Connecting the DRS to MFDBB

29

 

2.6.

Network............................................................................................................

30

 

2.6.1. ................................................................................................

Introduction

30

 

2.6.2. ..............................................................................

Power Synchronization

31

 

2.7.

Video .....................................................................................................Inputs

33

 

2.7.1. .............................................................................................

Analog Video

34

 

2.7.2. .................................................................................................

IP Camera

34

 

2.8.

External .............................................................................................Monitors

36

 

2.8.1. ....................................................................................................

MFD8/12

36

 

2.8.2. ......................................................................................................

MFDBB

36

 

2.9. USB ..............................................................................and Audio Connection

37

 

2.9.1. ..................................................................................................

USB Ports

37

 

 

 

2

 

 

2.9.2.

Audio .........................................................................................................

39

 

2.10. MFD8/12 Video, USB and Audio Connection ...............................................

39

 

2.10.1.

Waterproof Connection ..........................................................................

39

 

2.10.2.

Non Waterproof connection....................................................................

42

3.

Configuration..........................................................................................................

43

 

3.1.

Introduction ......................................................................................................

43

 

3.1.1.

Selecting a Master.....................................................................................

44

 

3.1.2.

Data Source Selection...............................................................................

44

 

3.1.3. Installation Wizard Conceptual Description ...............................................

44

 

3.2. Installation Wizard Own Settings......................................................................

45

 

3.2.1. Own Settings (Master, Power Synchronization, Monitor)...........................

46

 

3.2.2.

NMEA2000 Data Configuration .................................................................

47

 

3.2.3.

NMEA0183 ................................................................................................

48

 

3.3. Installation Wizard Global Settings...................................................................

51

 

3.3.1.

Boat Parameter Settings............................................................................

51

 

3.3.1. Engine Parameters (Analog Display).........................................................

52

 

3.3.2.

Assigning Nicknames ................................................................................

53

 

3.3.3.

Camera Names .........................................................................................

54

 

3.3.4. Primary Data Source selection ..................................................................

54

 

3.3.5.

Sounder Configuration...............................................................................

57

 

3.3.6.

DRS (Radar) Configuration........................................................................

59

 

3.4.

MFDBB Keyboard/Processor Linking...............................................................

61

4.

Registering the System ..........................................................................................

62

 

4.1.

SystemID Description.......................................................................................

62

 

4.2.

Registration Card .............................................................................................

62

5.

Appendix ................................................................................................................

63

 

5.1. Example NN3D System Configurations ...........................................................

63

 

5.1.1. Basic Plotter/Fish Finder Installation .........................................................

63

 

5.1.2. Basic Plotter/Radar/Fish Finder Installation...............................................

64

 

5.1.3. Dual MFD Installation Example .................................................................

66

 

5.1.4. Dual Screen MFDBB Installation with Pilot Integration ..............................

67

 

5.2. Configuring AXIS IP Cameras..........................................................................

69

 

5.2.1.

Introduction:...............................................................................................

69

 

5.2.2. Setting the IP of the computer ...................................................................

69

 

5.2.3. Set up the IP address of the camera .........................................................

71

 

5.2.4.

Configure the camera ................................................................................

75

3

Furuno MFD8-12-BB User Manual

4

Standard supply (MFD8/12)

Name

Type

Part Number

Qty

Remarks

(PN)

 

 

 

 

 

 

 

 

 

Multi Function

MFD8

-

1

Choose one.

Display

 

 

 

 

MFD12

-

 

 

 

 

 

 

 

 

 

 

Installation

CP19-00900

000-011-780

1 set

For MFD8, CP19-00901*, cables

materials

 

 

 

 

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, fuses

 

 

 

 

 

Accessories

FP19-01101

001-023-060

1 set

Panel/Bezel Removal tool

 

 

 

 

 

*See the lists at the end of this manual.

Optional supply (MFD8/12)

Name

Types

Part Number (PN)

Remarks

 

 

 

 

Cable Assemblies

MJ-A7SPF0007-050C

000-154-028

5 m, NMEA0183, w/7 pin

NMEA0183 and

 

 

Female connector(DATA1)

M12-05BM+05BF-010

000-167-962

φ6, 1 m, NMEA2000, w/M-F

NMEA2000 Micro-

Cables

 

 

micro connectors

 

 

 

 

 

M12-05BM+05BF-020

000-167-963

φ6, 2 m, NMEA2000, w/M-F

 

 

 

micro connectors

 

 

 

 

 

M12-05BM+05BF-060

000-167-964

φ6, 6 m, NMEA2000, w/M-F

 

 

 

micro connectors

 

 

 

 

 

M12-05BFFM-010

000-167-965

φ6, 1 m, NMEA2000, w/micro

 

 

 

connector

 

 

 

 

 

M12-05BFFM-020

000-167-966

φ6, 2 m, NMEA2000, w/micro

 

 

 

connector

 

 

 

 

5

 

M12-05BFFM-060

000-167-967

φ6, 6 m, NMEA2000, w/micro

 

 

 

connector

 

 

 

 

Cable Assemblies

MOD-Z072-020+

000-167-175

LAN cross, 4-pair, 2 m

Ethernet Network

 

 

 

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, ETR6N/10N

 

 

 

connection

 

 

 

 

NMEA 2000

LTWSS050505FMF-

000-168-603

NMEA 2000 “T” Connector,

Terminators and

TS001

 

micro

“T” Connectors

 

 

 

 

LTWMC-05BMMT-

000-168-604

NMEA 2000 terminator, male,

 

SL8001

 

micro

 

 

 

 

 

LTWMC-05BFFT-

000-168-605

NMEA 2000 terminator,

 

SL8001

 

female, micro

 

 

 

 

DVI-D Cable

DVI-D/D SINGLELINK

000-149-054

5 m, for Multi-purpose LCD

 

 

 

connection

 

 

 

 

 

DVI-D/D S-LINK

000-150-200

10 m, for Multi-purpose LCD

 

 

 

connection

 

 

 

 

External Buzzer

OP03-136

000-086-443

Suggest Radio-Shack 273-070

 

 

 

or equivalent

 

 

 

 

Junction Box

FI-5002

000-010-765

For FI-50 series/NMEA2000

 

 

 

Terminal Strip Connections

Rectifiers

RU-3423

000-030-443

w/o PSU-012

Furuno AC-to-DC

 

 

 

PR-62

000-013-484

100VAC, w/PSU-012

Power Supplies

 

 

 

 

 

000-013-485

110VAC, w/PSU-012

 

 

 

 

 

 

000-013-486

220VAC, w/PSU-012

 

 

 

 

 

 

000-013-487

230VAC, w/PSU-012

 

 

 

 

Network Hub

HUB-101

-

NN3D Hub with Sleep Mode

 

 

 

Signal Compatibility

 

 

 

 

6

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

IF-NMEA2K1

-

Use where NMEA2000-to-

Interface Unit

 

 

AD10/0183 Data conversion is

 

 

 

required for legacy products

 

 

 

 

7

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,

Choose one.

 

 

 

 

cable, CP19-

 

 

 

 

 

00701*

 

 

 

 

 

 

 

 

CP19-00800

000-011-662

 

For DCU12,

 

 

 

 

 

cables, CP19-

 

 

 

 

 

00801*

 

 

 

 

 

 

 

Spare Parts

SP19-00501

001-023-090

1 set

For MPU-001, fuses

 

 

 

 

 

 

SP19-00601

001-023-040

1 set

For DCU-001, fuses

 

 

 

 

 

Accessories

FP19-01201

001-033-760

1

For MCU-001, panel remover

 

 

 

 

 

 

FP19-01101

001-023-060

 

For DCU12, panel remover

 

 

 

 

 

 

*See the lists at the end of this manual.

Optional supply (MFDBB)

Name

Types

Code No.

Remarks

 

 

 

 

DVI-D Cable

DVI-D/D SINGLELINK

000-149-054-10

5 m

 

 

 

 

 

DVI-D/D S-LINK

000-150-200-10

10 m

 

 

 

 

External Buzzer

OP03-136

000-086-443

 

 

 

 

 

8

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

DCU12

-

 

Unit

 

 

 

 

 

 

 

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

 

 

 

 

 

MOD-Z072-020+

000-167-175-10

2 m, LAN

 

 

 

 

 

MOD-Z072-050+

000-167-176-10

5 m, LAN

 

 

 

 

 

MOD-Z072-100+

000-167-177-10

10 m, LAN

 

 

 

 

 

MOD-Z073-030+

000-167-171-10

3 m, for PC connection

 

 

 

 

 

M12-05BM+05BF-010

000-167-962-10

φ6, 1 m, NMEA 2000

 

 

 

 

 

M12-05BM+05BF-020

000-167-963-10

φ6, 2 m, NMEA 2000

 

 

 

 

 

M12-05BM+05BF-060

000-167-964-10

φ6, 6 m, NMEA 2000

 

 

 

 

 

M12-05BFFM-010

000-167-965-10

φ6, 1 m, NMEA 2000

 

 

 

 

 

M12-05BFFM-020

000-167-966-10

φ6, 2 m, NMEA 2000

 

 

 

 

 

M12-05BFFM-060

000-167-967-10

φ6, 6 m, NMEA 2000

 

 

 

 

 

CB-05PM+05BF-010

000-167-968-10

φ10, 1 m, NMEA 2000

 

 

 

 

9

 

CB-05PM+05BF-020

000-167-969-10

φ10, 2 m, NMEA 2000

 

 

 

 

 

CB-05PM+05BF-060

000-167-970-10

φ10, 6 m, NMEA 2000

 

 

 

 

 

CB-05BFFM-010

000-167-971-10

φ10, 1 m, NMEA 2000

 

 

 

 

 

CB-05BFFM-020

000-167-972-10

φ10, 2 m, NMEA 2000

 

 

 

 

 

CB-05BFFM-060

000-167-973-10

φ10, 6 m, NMEA 2000

 

 

 

 

NMEA connector

LTWSS-050505-FMF-

000-168-603-10

NMEA 2000 distributor

 

TS001

 

(micro style)

 

 

 

 

 

LTWMC-05BMMT-

000-168-604-10

NMEA 2000 terminator,

 

SL8001

 

male (micro style)

 

 

 

 

 

LTWMC-05BFFT-

000-168-605-10

NMEA 2000 terminator,

 

SL8001

 

female (micro style)

 

 

 

 

 

LTWNC050505FMF-

000-160-507-10

NMEA 2000 distributor

 

TS001

 

(mini style)

 

 

 

 

 

LTWMN-05AMMT-

000-160-508-10

NMEA 2000 terminator,

 

SL8001

 

male (mini style)

 

 

 

 

 

LTWMN-05AFFT-

000-160-509-10

NMEA 2000 terminator,

 

SL8001

 

female (mini style)

 

 

 

 

Operator’s Manual

OME-44460

-

 

 

 

 

 

NMEA 2000

IF-NMEA2K1

-

 

Interface Unit

 

 

 

 

 

 

 

10

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 should be well ventilated.

Mount the unit where shock and vibration are minimal.

Keep the unit away from electromagnetic field generating equipment such as motors and generators.

For maintenance and checking purposes, leave sufficient space from the sides and the rear of the unit and leave slack in cables. Minimum recommended space is shown the outline drawing for the display units.

•Test and Confirm that the Operator LCD Viewing Angle, which is fixed, is acceptable before permanent MFD8/12 installation. This is very important for Flush Mount

Installations!

A magnetic compass will be affected if the display unit is placed too close to it. Observe the compass safe distances shown in the SAFETY INSTRUCTIONS to prevent disturbances to the magnetic compass.

The MFD8/12 can be flush or bracket mounted in a variety of ways.

11

1.1.1.MFD8/12 Flush Mounting

1.Prepare a cutout in the mounting location using the template sheet (supplied) for the

MFD8 or 12.

2.Remove the front panel from 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 (supplied).

5.Attach the front panel to the display

12

How to detach the front cover when flush mounted.

To detach the front panel when the unit is flush mounted, use the special tool (supplied) as below. Note that the front cover may be damaged if this procedure is not followed!

1. Insert the tool in the notch on the lower side of the unit

2.Pull the tool to raise the panel slightly. Repeat this action for all notches on the lower side of the unit

3.Insert the tool into the small notches located on the sides of the panel, and pull the tool to raise the panel slightly

13

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 using self-tapping screws (supplied).

3.Screw knob bolts into the display unit, set it to the bracket (Hanger), and tighten the knob

14

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 moderate and stable.

Consider the lengths of the cables connected among the processor unit, radar sensor and control unit.

For mounting on a bulkhead, be sure the mounting location is strong enough to support the unit under the pitching and rolling normally encountered on the vessel.

Leave sufficient space around the unit for maintenance and servicing. Recommended maintenance space appears in the outline drawing at the back of this manual.

A magnetic compass will be affected if the processor unit is placed too close to the magnetic compass. Observe the compass safe distances in SAFETY INSTRUCTIONS to prevent disturbance to the magnetic compass.

1.2.1.MFDBB Processor Desktop or Deck Mounting

Fasten with four self-tapping screws.

15

1.2.2.MFDBB Processor Bulkhead Mounting

Mark four fixing holes positions on the bulkhead. Screw in two 6x30 self-tapping screws at upper fixing positions, leaving 5 mm protruding. 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 keyboard (control unit MCU-001) is designed to be flush mounted in a console or panel.

1.Prepare a cutout in the mounting location using the template sheet (supplied) for the MCU-001.

2.Remove the front panel from the MCU-001 by grasping it at its sides and pulling it towards you.

3.Attach the mounting gasket (sponge) to the MCU-001.

4.Fix the MCU-001 by using four self-tapping screws (supplied).

5.Attach the front panel to the MCU001

16

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 remove it by any other method, to prevent damage to the unit.

1. Insert the tool to the left-side notch at the bottom of the unit

17

2. Pull the tool to raise the panel slightly

3.Similarly use the tool to raise 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.Use your hands to detach the front panel at both sides of it

18

2.Wiring

2.1.Overview

2.1.1.MFD8/12 Overview

19

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 the 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 below.

20

To connect the power cable, remove the Power Terminal cover. Unfasten the four pan head screws and connect the power cable to the power terminal (upper: +, lower: -).

Reattach the cover. Note that the recommended maximum cable length is 5 m.

21

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 Ports are available on the DATA2 18-Pin connector.

These NMEA connections can accept a baud rate of 4800 or 38.4K. Any instrument

(GPS, AIS, Smart Sensor, etc…) can be connected to any port.

Heading input to NavNet 3D will allow functions such as Radar Overlay and course stabilization (North Up, Course Up, etc.) in Radar operating modes. The NMEA 0183 heading refresh rate needs to be 100ms (or faster) in order for the Radar ARPA function to work properly. If ARPA is not used, the refresh rate of heading information can be 200ms (5 times per second) to support radar overlay on the plotter. NavNet 3D will not accept heading if the refresh rate is only set to 1 sec. NMEA0183 heading can be accepted on any NMEA port at a baud rate up to 38.4kbps. Note that changing the baud rate on any of the three NMEA0183 Data ports will affect both the receive and transmit baud rate. In other words, data sent and received must use the same baud rate for each individual data port.

Please refer to the Appendix for installation example with the Furuno Pilot or Magnetic Compass PG500R

Note: - Heading data from a NMEA2000 source/sensor will always be at the correct refresh speed for the DRS ARPA function

2.3.2.DATA 1 description

DATA1 uses a 7 Pin round plug. Usually, DATA1 will be used to directly connect a

Furuno GPS GP320B (BBWGPS).

Other NMEA0183 compatible device (Compass, AIS, Sounder, Smart Sensor…) can be connected by using a 7pin connector-to-pigtail cable (P/N 000-154-028).

22

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 PigTail Cable has an 18-Pin connector. DATA2 also provides additional Inputs/Outputs (Buzzer, Event …). For example, a MOB contact closure input may be connected to PIN 15 and 11*.

*Note that any MFD will interface to virtually any MOB System or Event switch (Point Save) contact closure signal using these pins.

23

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

17

Pink

NET-S IN (+12V IN)

N2K port will be powered

(up to 1 ampere)

 

 

 

 

 

 

 

16

Purple

Shield

 

 

 

 

 

15

White

BUZZER or EVENT IN

External Buzzer Output or

 

 

 

MOB/Event Input (Contact

 

 

 

Closure)

 

 

 

 

14

Gray

SPEED-ALARM C

Speed alarm contact.

 

 

 

Can trigger and external

13

Yellow

SPEED-ALARM H

alarm or device when

speed reaches a setup limit

 

 

 

 

 

 

 

12

Black/White

+12V

External buzzer power

 

 

 

ONLY (100mA Max)

 

 

 

 

11

Black

GND

GND for Event/MOB Input

 

 

 

 

10

Blue/White

RD3-C

Port 3

 

 

 

 

9

Blue

RD3-H

 

 

 

 

 

8

Green/White

TD3-B

 

 

 

 

 

7

Green

TD3-A

 

 

 

 

 

6

Orange/White

GND

 

 

 

 

 

5

Orange

GND

 

 

 

 

 

4

Brown/White

RD2-C

Port 2

 

 

 

 

3

Brown

RD2-H

 

 

 

 

 

2

Red/White

TD2-B

 

 

 

 

 

1

Red

TD2-A

 

 

 

 

 

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2.4.NMEA2000 Description and Information

2.4.1.MFD

Every MFD has one NMEA2000 port (Standard “DeviceNet 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 NMEA2000

Networks/Backbones! All MFD and DRS use “Ethernet Bridging” to link separate

NMEA2000 networks/backbones. NEVER connect NMEA2000 ports between MFDs and/or DRS products.

2.4.2.DRS Radar

In addition to the NMEA2000 port found on the MFD processor, all DRS radar sensors have one powered NMEA2000 port (Terminal Strip connector). You may directly connect various Furuno NMEA2000 sensors to the DRS radar sensor without having to run a separate NMEA2000 cable up the mast. The total number of sensors that can be connected to the NMEA2000 DRS port without external power connection depends on power consumption. The DRS can supply up to 1 amp (20 LEN) to the DRS NMEA2000 network.

Please note that the NMEA2000 network connected to the DRS is its own independent NMEA2000 Backbone and needs to be terminated at both ends by a Terminating Resistor. A 120 Ohm resistor is standard supply with the DRS to terminate the NMEA. For example, if you install a SC30, WS200, or GP330 with the DRS NMEA2000 Port, you must have two terminators in the backbone. One can be at the sensor and the other located inside the DRS as shown below:

Please refer to the DRS Installation Guide for more information about connection

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2.4.3.NMEA2000-0183 Data Conversion and NMEA2000 Bridging

NMEA0183 to NMEA2000 conversion

NMEA0183 sentences and NMEA2000 PGNs, which 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 converted and output at a time (one position, one depth, one heading…). In case of multiple GPS, the position output is the one currently selected in an MFD network. This NN3D prioritizing function allows NMEA2000 products to utilize older NMEA0183 sensors and vice-versa. For example, you can connect a NMEA0183 Wind Instrument such as the Furuno PB100 to NavNet3D, and have the corresponding information output on one (or several) MFD NMEA2000 ports to feed a NMEA2000 display such as the Furuno FI50. The opposite is also true.

Ethernet Bridging of Individual NMEA2000 Networks/Backbones

You may ONLY connect one MFD or DRS to the same NMEA2000 Network. Some NN3D vessels may contain several smaller NMEA2000 Networks where data from each NMEA2000 network is linked via the High-Bandwidth NN3D Ethernet Network. In these cases, each separate NMEA2000 network will be “Bridged” together via the NN3D Ethernet Network. NN3D MFD and DRS NMEA2000 ports shall also not be connected together. In the case where NMEA2000 engine data, or other ship’s data, is introduced to the NN3D Network, the connection is made to only one MFD, and this MFD will bridge the data to other MFDs in the network.

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2.5.DRS (Radar) Connection

Up to two DRS (Digital Radar Sensors) can be connected to a NavNet3D network.

Every DRS comes with a supplied 15 Meter 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 (FUSA P/N 000-167-637)

-30 Meter Cable (FUSA P/N 000-167-638)

The Radar cable is a “Siamese” type cable that carries power (48V) and Data (Ethernet). All MFD have a dedicated Power Port (48V) used to connect the Radar Power Cable. Some combinations require an additional Power Supply Unit (PSU) in order to provide enough power for the DRS. Please refer to the following table:

DRS2D

DRS4D

DRS4A

DRS6A

DRS12A

DRS25A

MFD8

 

PSU-012

PSU-012

PSU-012

PSU-013

MFD12

 

 

 

PSU-012

PSU-013

MFDBB

 

 

 

 

PSU-013

Note: DRS25A antenna includes PSU-013 as standard supply

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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 Ethernet sensors (i.e. DFF1 Fish Finder, BBWX1 Sirius receiver, etc.) are used, the Radar Ethernet connection must be connected to an

Ethernet Hub. In this case an Ethernet coupler can be used to extend the Ethernet part of the Siamese Cable

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Example of straight Ethernet Coupler (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 000-167-177)

Please refer to the DRS Installation Guide for more information on connections inside the antenna

2.5.1.Connecting the DRS to MFDBB

The MFDBB has an integrated HUB that allows simultaneous connection of the DRS

Ethernet cable and other Ethernet devices (HUB101 for example).

Note: Ethernet Ports 1 and 2 are dedicated for connection of the MCU001Keyboard.

Connect the DRS Ethernet Cable to Ethernet Port 3. Ethernet Port 4 will be available to connect the HUB 101 or other Ethernet sensor

29

2.6.Network

2.6.1.Introduction

NavNet3D (just like NavNet1 and VX2) uses standard TCP/IP Ethernet to share radar/sounder images and other navigation 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 Components have one integrated regular RJ45 Ethernet port (with the exception of the MFDBB which has an integrated hub). Legacy NavNet components such as the ETR-6/10N (FUSA

P/N BBFF1) or ETR-30N (FUSA P/N BBFF3) network sounder will need to be connected using the Hub Adapter Cable 6 Pin to RJ45 (FUSA P/N = 000-144-463).

MFD8/12

The MFD8/12 has one Waterproof Ethernet Port on the rear of the unit. It comes with standard supply of a 3 meter Ethernet Cable (FUSA P/N =000-164-809) terminated at one end with a Waterproof connector and at the other end with a regular RJ45.

This cable can be extended using a coupler (FUSA P/N= RJ4-5CN-STR) and a regular

Ethernet Cable. Please note that the coupler is not waterproof and thus need to be installed accordingly.

MFDBB

The MFDBB Processor Unit contains an integrated hub that provides 4x Ethernet ports. Two of these ports are exclusively dedicated to the keyboard (control unit MCU001) connection. The MFDBB keyboard must be directly connected to one of the dedicated Ethernet ports on the BB (the MCU001 Control Unit cannot be connected to an Ethernet Hub/Switch). The Keyboard comes standard with a 5 meter Ethernet cable, but other lengths may be used:

Ethernet Cable that can be used to connect the MFDBB Keyboard:

-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 000-167-177)

Note: The Keyboard uses the Ethernet cable for both Power and Data. Do not plug anything else beside the Keyboard in Ethernet Port 1 and Port 2 on the MFDBB. These

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