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FURUNO RADAR far2xx7_installation SERVICE_manual.pdf | Screw | Electronics
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Furuno FAR 2827 Magnetron Replacement
ABB Price Book 451
IS-GE1723
Comply with MSC.
192(79)
TABLE OF CONTENTS 3.6 Suppressing Main Bang.................. 3-8
3.7 Other Settings............................. 3-9
SAFETY IINSTRUCTIONS......................i
3.8 Dual Radar Display
EQUIPMENT LISTS .............................. iii (non IMO-type only) ..................3-17
SYSTEM CONFIGURATION ................. vi 4. INSTALLING OPTIONAL
1. MOUNTING .................................... 1-1 EQUIPMENT................................ 4-1
4.1 Gyro Converter GC-10 ................ 4-1
1.1 Antenna Unit................................ 1-1
4.2 Memory Card Interface Unit............. 4-9
1.2 Monitor Unit................................. 1-6
1.3 Control Unit ............................... 1-10
1.4 Processor Unit........................... 1-15
2. WIRING ....................................... 2-1
2.1 Interconnection............................ 2-1
4.6 Junction Box ..............................4-18
2.2 Antenna Unit................................ 2-2
2.3 Monitor Unit................................. 2-6 5. INPUT/OUTPUT DATA................. 5-1
2.4 Processor Unit............................. 2-7
ACCESSORIES,SPARE PARTS ........A-1
Processor Unit.......................... 2-12
OUTLINE DRAWINGS ..................... D-1
3. SETTING AND ADJUSTMENT .... 3-1
3.1 DIP Switch Setting....................... 3-1
INTERCONNECTION DIAGRAMS ...S-1
3.2 Monitor Unit (MU-190/MU-231)
Setting......................................... 3-2
3.3 Initializing Tuning......................... 3-3
3.4 Heading Alignment ...................... 3-4
3.5 Adjustment Sweep Timing ........... 3-7
All rights reserved. Printed in Japan A : JAN . 2004
M3 : JUL . 10, 2013
Pub. No. IME-35190-M3
( GREG ) FAR-2117/27/2817/27
0 0 0 1 7 5 3 2 3 1 0
The operator and installer must read the applicable safety instructions before attempting to
install or operate the equipment.
DANGER will result in death or serious injury.
WARNING could result in death or serious injury.
CAUTION can result in minor or moderate injury.
Warning, Caution Prohibitive Action Mandatory Action
Wear a safety belt and hard hat when working on the antenna unit.
Serious injury or death can result if someone falls from the radar antenna
particularly to your eyes. Never look directly into the antenna aperture from a close distance
while the radar ius in operation or eexpose yourself to the transmitting antenna at a close
distance. Distances at which RF radiation level of 100, 50 and 10 W/m 2 are given in the table
Note: If the antenna unit is installed at a close distance in front of the wheel house, your
administration may require halt of transmission within a certain sector of antenna revolution.
This is possible. Ask your FURUNO representive or dealer to provide this feature.
Model Transceiver Magnetron Antenna * 100W/m 50W/m 10W/m
RTR-078A XN-12AF 0.3 m 1.2m 3.7 m
FAR-2817/2117 MAF1565N XN-20AF 0.1 m 0.7 m 2.2 m
(X-12 kw)
XN-24AF 0.1 m 0.4 m 1.5 m
RTR-079A XN-12AF 0.9 m 2.6 m 9.0 m
FAR-2827/2127 MG5436 XN-20AF 0.5 m 1.7 m 4.6 m
(X-25 kw)
XN-24AF 0.2 m 1.0 m 3.3 m
* : XN12AF: 4 ft, XN20AF: 6.5 ft, XN24AF: 8 ft
Do not open the equipment Observe the following compass safe
unless totally familiar with distances to prevent deviation of a
electrical circuits and magnetic compass:
ELECTRICAL Only qualified personnel
should work inside the Antenna Unit
SHOCK (12 kw) 2.15 m 1.40 m
HAZARD equipment.
(25 kw) 2.05 m 1.30 m
Construct a suitable service platform Monitor Unit
(MU-201CR) 1.55 m 1.00 m
from which to install the antenna unit.
(MU-231CR) 1.85 m 1.20 m
Serious injury or death can result if some- Processor
one falls from the radar antenna mast. Unit (RPU-013) 1.35 m 0.85 m
Turn off the power at the mains switch- (RCU-014)
board before beginning the installation. Control Unit
0.95 m 0.60 m
(RCU-015)
Fire, electrical shock or serious injury can Control Unit
(RCU-016) 0.65 m 0.45 m
result if the power is left on or is applied
while the equipment is being installed. Interface Unit 0.90 m 0.60 m
(CU-200)
Be sure that the power supply is Junction Box
1.10 m 0.70 m
compatible with the voltage rating of (RJB-001)
the equipment. Switching Hub
Connection of an incorrect power supply (HUB-100)
can cause fire or damage the equipment . Monitor Unit
(MU-190) 1.65 m 1.05 m
Use only the specified power cable. Monitor Unit
0.85 m 0.55 m
Fire or damage to the equipment can result (MU-231)
if a different cable is used.
Do not install the monitor unit,
processor unit or control unit where
they may get wet from rain or
Water in the units can result in fire,
electrical shock, or damage the equipment.
Attach securely protective
earth to the ship's body.
The protective earth
(grounding) is required to the
AC power supply to prevent
FAR-2117/2117-BB/2817, 24 rpm,
XN12AF-RSB096-078A -
1200 mm, W/CP03-24201
FAR-2117/2117-BB/2817, 42 rpm,
XN12AF-RSB097-078A -
XN20AF-RSB096-078A -
2000 mm, W/CP03-19101
XN20AF-RSB097-078A -
XN24AF-RSB096-078A -
2400 mm, W/CP03-19101
XN24AF-RSB097-078A -
FAR-2127/2127-BB/2827, 24 rpm,
XN12AF-RSB096-079A -
FAR-2127/2127-BB/2827, 42 rpm,
XN12AF-RSB097-079A -
XN20AF-RSB096-079A -
XN20AF-RSB097-079A -
XN24AF-RSB096-079A -
XN24AF-RSB097-079A -
MU-201CR For FAR-2117/2127
MU-231CR For FAR-2817/2827
Monitor Unit - 1
MU-190 For FAR-2117/2127
MU-231 For FAR-2817/2827
Processor Unit RPU-013 - 1
RCU-014 Standard type
Control Unit - 1
RCU-015 Trackball type
CP03-25601 008-535-550 1 For antenna unit
CP03-25700 000-080-435 15 m signal cable RW-9600
CP03-25710 000-080-436 30 m signal cable RW-9600
CP03-25720 000-080-437 50 m signal cable RW-9600
CP03-25730 000-082-191 40 m signal cable RW-9600
CP03-25800 000-080-434 1 Cable assy. for monitor unit
CP03-25602 008-535-940 For RPU-013, AC set
CP03-25603 008-535-950 For RPU-013, DC set
FP03-09810 008-536-010 1 For monitor unit
Accessories FP03-09850 008-535-610 For RCU-014
FP03-09860 008-535-690 For RCU-015/016
SP03-12501 008-485-360 1 For antenna unit
SP03-14404 008-535-910 For processor unit 100 VAC set
SP03-14405 008-535-920 1 For processor unit 220 VAC set
SP03-14406 008-535-930 For processor unit 24 VDC set
Spare Parts SP03-14401 008-535-990 For monitor unit AC set
For monitor unit, DC set,
SP03-03900 000-081-063
1 MU-201CR
SP03-14402 008-536-000
Gyro Converter GC-10-2 000-080-440 See chapter 4.
Performance Monitor PM-31 000-080-438 Mandatory for IMO radar
Converts 440 VAC to 100 VAC,
RU-1803 -
for processor unit
Converts 110/115/220/230 VAC
RU-3305 -
to 100 VAC, for de-icer
115/230 VAC to 24 VDC, for
RU-3424 -
processor unit (25 kW)
Rectifier RU-1746B-2 -
processor unit (12 kW)
100/110/115/220/230 VAC to 24
RU-3423 -
VDC, for monitor unit
Memory Card Interface Unit CU-200-FAR 000-081-568 W/CP03-27430, See chapter 4.
External Buzzer OP03-21 000-030-097
Control Unit RCU-016 - Remote type, W/FP03-09860
RAM Card 00RAM08MC-005 004-376-740 8 MB
OP03-180-1 008-545-590 Mounted at factory
OP03-180-2 008-536-070 Mounted in field. See chapter 4.
DVI-RGB Conversion Kit
OP03-180-3 008-545-610 Mounted in console at factory.
OP03-180-4 008-545-600 Mounted in console in field.
XH10P-W-6P L=20M 000-149-748 20 m Between control &
XH10P-W-6P L=30M 000-149-749 30 m processor unit
XH10P-W-5P-A
000-149-050 10 m
XH10P-W-5P-A Between control
000-149-051 20 m
Cable Assy. L=20M units
000-149-052 30 m
DVI-D/D S-LINK 10M 000-150-200 10 m Monitor-Processor
S03-9-5 008-206-640 For external radar, 5 m, 8-8P
S03-9-10 008-206-650 For external radar, 10 m, 8-8P
S03-9-15 008-209-160 For external radar, 15 m, 8-8P
FR-FTPC-CY
OP03-28900 000-082-658
10 m Modular
FR-FTPC-CY connection
LAN Cable Kit (with armor) OP03-28910 000-082-629
20 m MPS588-C,
FR-FTPC-CY 2 pcs.
OP03-28920 000-082-660
FP03-09820 008-535-560 Hanger assy. for MU-201CR
FP03-09830 008-536-020 Hanger assy. for MU-231CR
Hand Grip FP03-09840 008-535-570 For monitor unit
03-163-1201 100-307-260 For MU-201CR
03-163-2101 100-307-270 For MU-231CR
FP03-11500 001-020-090 For MU-201CR
FP03-11000 008-571-680 For MU-231CR
Clamp Plate OP03-182 008-535-620 For RCU-014
FP03-09870 008-535-630 For control unit
OP03-198 001-008-050 RCU-016/014/015
OP03-183 008-535-640 For RCU-014&MU-201CR
Coupling Pedestal OP03-184 008-535-650 For RCU-014& MU-231CR
OP03-185 008-535-660 For RCU-014
BNC Connector Converter DSUB-BNC-1 000-148-528 For VDR
For more than 100m
Junction Box RJB-001 -
Desktop Mount Kit FP03-10201 008-539-530 For CU-200
Console Mount Kit FP03-10202 008-539-540 For CU-200
Switching Hub HUB-100 - See manual of HUB-100.
Slim Hood FP03-11010 001-033-140 For MU-231CR display unit
FP03-11510 001-034-390 For MU-201CR display unit
About the category sticker
This radar meets the requirements in IEC62388 (Marine navigation and
radiocommunication equipment and systems – Shipborne radar – Performance
requirements, method of testing and required test results)
Check the appropriate box on the sticker which is pre-attached on the processor unit,
according to your radar’s specification. Refer to the table shown below to confirm your
Category Radar type ANT. rotation speed
FAR-2817, FAR-2827, FAR-2837S, Normal speed
FAR-2827W, FAR-2837SW
CAT 1H FAR-2817, FAR-2827, FAR-2837S HSC
FAR-2117/BB, FAR-2127/BB, Normal speed
FAR-2137S/BB
FAR-2117/BB, FAR-2127/BB, HSC
CAT 2H
ANTENNA UNIT MU-201CR,
JB ** MU-190
FAR-2117/2817: XN12AF-RSB-096-078A (2117/2127)
XN12AF-RSB-097-078A or
XN20AF-RSB-096-078A MU-231CR,
MU-231 24 VDC
XN20AF-RSB-097-078A (2817/2827)
XN24AF-RSB-096-078A RU-3423
XN24AF-RSB-097-078A
FAR-2127/2827: XN12AF-RSB-096-079A CONTROL UNIT
XN12AF-RSB-097-079A RCU-014 100/110/115
XN20AF-RSB-096-079A (Standard) 220/230 VAC
XN20AF-RSB-097-079A or
XN24AF-RSB-096-079A RCU-015 24 VDC
XN24AF-RSB-097-079A JB** (Trackball) or
EPFS 1) Control Unit
IEC-61162 Serial Data PROCESSOR UNIT RCU-016
(Navigator) (Remote)
(Input/Output) RPU-013
SDME 2)
(Speed Log) IEC-61162 Serial Data
(Input) Sub Display
Gyro Converter Alarm***
AIS Switching HUB
MEMORY CARD AC spec
INTERFACE UNIT DC spec
CU- 200-FAR
RU-3424 Transformer Unit
: Standard RU-1746B-2 RU-1803
: Dockyard supply
1) Connect the EPFS which is approved in accordance with the requirements of the IMO in
resolution MSC.112(73) is used.
2) Connect the SDME which is approved in accordance with the requirements of IMO in
resolution MSC.96(72) is used.
3) Use the gyrocompass having an update rate that is adequate for the ship’s rate of turn.
*: For FAR-2117-BB/2127-BB a monitor unit is prepared by user. See page 1-6.
These monitors have been approved by the IMO, MU-201CR for CAT 2, MU-231CR for
CAT 1. If a different monitor is to be used, its effective diameter must meet the applicable
Category requirements: CAT 1: effective diameter 320 mm or higher, CAT 2: effective
diameter 250 mm or higher. Refer to their operator’s manuals for details.
**: Junction boxes are required for more than 100 m antenna cable.
***: Contact output for Alarm
(Load current) 120 mA (Polarity) No.1, 2: Normally Close, No.3, 4: Normally Open
Serial I/O for alarm is also possible, which complies with IEC 61162-1.
1.1 Antenna Unit
• The antenna unit is generally installed either on top of the wheelhouse or on the radar
mast, on a suitable platform. Locate the antenna unit in an elevated position to permit
maximum target visibility.
• A line of sight from the antenna unit to the bow of the ship should hit the surface of the
sea in not more than 500 m or twice the ship’s length, depending which value is smaller,
for all load and trim conditions.
less than 500 m or twice the ship’s length
• Mount the antenna unit so that any blind sectors caused by objects (mast, etc.) are kept
to a minimum. No blind sector should exist in arc of the horizon from right ahead to 22.5°
aft of the beam to either side (see Figure 1 below). Also, individual blind sectors of more
than 5°, or the total arc of both blind sectors of more than 20°, should not occur in the
remaining arc (Figure 2). Note that any two blind sectors separated by 3° or less are
regarded as one sector.
a, b, c: less than 5 respectively
22.5 22.5 a+b+c+... : less than 20
• Install the antenna unit away from interfering high-power energy sources and other
transmitting radio antenna.
• Keep the lower edge of the antenna unit above the safety rail by 500 mm or more.
• Two antenna units should be mounted as below:
than 1 m
• No funnel, mast or derrick should be within the vertical beamwidth of the antenna unit in
the bow direction, especially zero degrees ±5°, to prevent blind sectors and false echoes
on the radar picture.
• It is rarely possible to place the antenna unit where a completely clear view in all
directions is available. Thus, you should determine the angular width and relative bearing
of any shadow sectors for their influence on the radar at the first opportunity after fitting.
• Locate a direction finder antenna clear of the antenna unit to prevent interference to the
direction finder. A separation of more than two meters is recommended.
• A magnetic compass will be affected if the antenna unit is placed too close to the
magnetic compass. Observe the compass safe distances on page ii to prevent deviation
of the magnetic compass.
• Do not paint the radiator aperture, to ensure proper emission of the radar waves.
• The antenna base is made of cast aluminum. To prevent electrolytic corrosion of the
antenna base, use the seal washers and corrosion-proof rubber mat and ground the unit
with the ground wire (supplied).
• Deposits and fumes from a funnel or other exhaust vent can adversely affect the aerial
performance and hot gases may distort the radiator portion. The antenna unit must not be
mounted where the temperature is more than 55°C.
• Leave sufficient space around the unit for maintenance and servicing. See the antenna
unit outline drawing for recommended maintenance space.
Assembling the antenna unit
The antenna unit consists of the antenna radiator and the antenna unit chassis, and they
are packed separately. Fasten the antenna radiator to the antenna unit chassis as follows:
1. For the XN20AF, XN24AF, attach two guide pins to the underside of the antenna
2. Remove the waveguide cap from the radiator bracket. The cap may be discarded.
3. Coat the waveguide flange with anticorrosive sealant as shown below.
10 mm O-ring Waveguide cap
Hole for Hole for
a guide pin a guide pin
Anticorrosive sealant
Coating the waveguide flange with anticorrosive sealant
4. Coat fixing holes for the antenna radiator with anticorrosive sealant.
5. Grease the O-ring and set it to the O-ring groove of the radiator flange.
6. Set the antenna radiator to the radiator bracket.
7. Coat hex bolts M8x40 (for XN-20AF or XN-24AF) or hex bolt M8x35/ flat washer/spring
washer (for XN-12AF) with anticorrosive sealant and use them to loosely fasten the
antenna radiator to the antenna unit chassis.
8. Remove two guide pins (inserted at step 1), and then tighten fixing bolts.
Be sure to remove the guide pins.
Injury may result if the guide pins loosen
(XN20AF,
XN24AF Hex bolt (M8x40), 8 pcs.
only) (XN20AF, XN24AF)
Hex. bolt (M8x35), 8 pcs.
O-ring Spring washer (XN12AF)
Fastening the radiator to the radiator bracket
Fastening the antenna unit to the mounting platform
The antenna unit may be assembled before hoisting it to the mounting platform. However,
do not lift the antenna unit by the radiator. Always hold the unit by its housing. When using a
crane or hoist, lift the unit by the hoist rings which should be fastened to the bolt fixing
covers of the antenna housing.
- To hoist antenna unit aboard vessel, attach ropes to lifting fixtures and hoist unit with crane.
- To remove load from radiator when hoisting, the length of the rope between the radiator base
and the hook on the should be at least 130 cm.
- To keep the rope away from the radiator, turn the radiator and chassis approx. 30 degrees as
- Be sure to remove the lfiting fixtures after hoisting is completed.
Lifting NO! NO!
1. Construct a suitable mounting platform referring to the outline drawing at the end of this
2. Drill four mounting holes of 15 mm diameter and one cable entry hole of about 50 mm
diameter in the mounting platform.
3. Lay the rubber mat (supplied) on the mounting platform.
4. Place the antenna unit on the rubber mat, orienting the unit so the bow mark on its base
is facing the ship’s bow.
Antenna unit, front view
5. Fasten the antenna unit to the mounting platform with M12x60 hex bolts, nuts, flat
washers and seal washers.
6. Using hex bolt (M6x25), nut (M6) and flat washer (M6), establish the ground system on
the mounting platform as shown below. The location should be within 340 mm of the
ground terminal on the antenna unit. Connect the ground wire (RW-4747, 340 mm,
supplied) between the grounding point and ground terminal on the antenna unit. Coat
the entire ground system with silicone sealant (supplied).
Ground wire Hex bolt
Anticorrosive sealant Spring washer
Anticorrosive Hex nut
Anticorrosive sealant OR
Ground wire Hex nut
Hex bolt welded to
How to mount the antenna unit
1.2 Monitor Unit
The monitor unit can be flush mounted in a console panel, or mounted on a desktop using
the optional accessories. For MU-190/231, see the applicable Operator’s Manual(s).
Note: FAR-2117-BB/2127-BB have no monitor unit. Prepare a suitable monitor locally.
Recommended monitor: SXGA (1280x1024), aspect ratio 5:4
When selecting a mounting location, keep in mind the following points:
• Select a location where the display unit can be viewed conveniently and where the
screen can be viewed while facing towards the bow.
• The optimal viewing distances for the radar display units are: MU-170C: 920 mm,
MU-201CR: 1080 mm, MU-231CR: 1200 mm. Select a suitable mounting location
considering the applicable distance.
• Locate the unit out of direct sunlight and away from heat sources because of heat that
can build up inside the cabinet.
• Locate the equipment away from places subject to water splash and rain.
• Leave sufficient space on the sides and rear of the unit to facilitate maintenance.
• A magnetic compass will be affected if the monitor unit is placed too close to the magnetic
compass. Observe the compass safe distances on page ii to prevent deviation of a
Follow the procedure below to mount the monitor unit in a console panel.
1. Make cutout in mounting location referring to the outline drawing shown below.
2. Insert the monitor unit to the hole and fix it with four tapping screws (6x30).
3. Attach panel hooks near the fixing holes (upper part). See next page. These are used to
pull out the monitor unit from a console panel for servicing.
4. Attach four panel covers to the fixing holes.
506±1 4-FIXING HOLES
490 506±1 4-φ8
534 FIXING HOLES
Monitor unit MU-201CR
(For FAR-2117/2127)
570±1 4-φ8 FIXING HOLES
4-FIXING HOLES
313±1
554 570 ±1
Monitor unit MU-231CR
(For FAR-2817/2827)
Flush mounting of monitor unit
Attaching panel hook and panel cover
Note: If you need to remove the monitor unit from the mounting panel, remove the four
panel covers with your fingernail and use two panel hooks supplied as accessories to
lift the monitor unit.
Use the optional accessories to mount the monitor unit on a desktop.
• For FAR-2117/2127: FP03-09820 (Code No.: 008-535-560)
• For FAR-2817/2827: FP03-09830 (Code No.: 008-536-020)
Contents of FP03-09820/09830
Hanger L 03-163-1111 100-305-141 1
Hanger R 03-163-1112 100-305-181 1
03-163-1113 100-305-191 For FAR-2117/2127
Hanger stay 1
03-163-2071 100-305-371 For FAR-2817/2827
Hole plug CP-30-HP-13 000-160-074-10 2
Plastic rivet KB-13 Rivet Black 000-570-276-10 4
Hex. bolt M6x25 000-162-949-10 4
Hex. bolt M10x30 000-162-884-10 2
Spring washer M10 000-864-261 2
Flat washer M10 000-864-131 2
1. Assemble two hangers and hanger stay with two hex bolts (M10x30), flat washers and
spring washers and cover each hex bolt with hole plug.
2. Fix the above assembly to the mounting location with four hex bolts (M12, dockyard
3. Fasten the monitor unit to the mounting hanger assembly with four hex bolt (M6x25,
4. Cover each hex bolts with panel cover.
5. Cover each holes for hand grip on the hangers with plastic rivets (4 pcs).
M12 bolts for fixing
(Dockyard supply)
Hanger stay Hanger (R)
Hex bolt Flat Washer M10
(M6x25) Spring Washer M10
To remove this, insert fingernail in groove.
The hand grip is optionally available for the desktop mounting monitor unit.
Hood (option)
When it is too bright in the daytime, use the optional hood to shade the screen.
• For FAR-2117/2127: FP03-11500 (Code No.: 001-020-090)
• For FAR-2817/2827: FP03-11000 (Code No.: 008-571-680)
Contents of hood
Name Type Code No. Qty. Remarks
Hood (21) FP03-11501 001-020-120 1 For FAR-2117/2127
Hood (23) FP03-11001 008-571-700 1 For FAR-2817/2827
Fixing plate 03-163-2202-0 100-335-560-10 4
Screw M4x10 D=13 US304 000-862-543 4
1. Desktop mounting: Fasten the fixing plates to the fixing holes with the hex head bolts
Flush mounting: Fasten the display unit to the mounting location, and then attach the
fixing plates with four self-tapping screws.
2. Attach the hood to the display unit (the hood is outside of the fixing plates).
3. Fasten the hood to the fixing plates with four screws supplied (M4x10).
The control unit may be mounted on a desktop, with or without the KB fixing metal
(supplied), which mounts the control unit at an angle.
• Select a location where the control unit can be operated conveniently.
• Locate the unit away from heat sources because of heat that can build up inside the
• Determine the mounting location considering the length of the signal cable between the
control unit and the processor unit. (The 10m signal cable is attached to the control unit).
• A magnetic compass will be affected if the control unit is placed too close to the magnetic
Fixing with KB fixing plate
1. Fix the KB fixing plate to the bottom of the control unit.
2. Attach cushions (three for RCU-014, two for RCU-015/016) to the bottom of the control
unit as shown below.
3. Fix it to a desired location with self-tapping screws (local supply).
KB fixing plate Cushion
Side view for RCU-014/015/016
Fixing without KB fixing metal
1. Drill four mounting holes of 5 mm diameter referring to the outline drawing at the back of
2. Fix the control unit with four screws (M4) from under side of the desktop. (The M4
screws with a sufficient length for the thickness of the desktop should be provided
4-M4 (Fixing holes)
308±1 (bottom)
Control Unit RCU-014
110±1 4-M4 (Fixing holes)
RCU-015/016
Use the optional flush mount kit FP03-09870 to mount the control unit RCU-014, RCU-015
and/or RCU016 to a console panel.
Name: Flush mount kit
Type: FP03-09870
Code No.: 008-535-630
No. Name Type Code No. Qty
1 Mount plate 03-163-7531 100-306-261 4
2 Hex nut M5 000-863-108 4
3 Wing screw M5x40 000-162-682-10 4
4 Pan head screw M4x12 000-163-192-10 4
1. Prepare a cutout in the mounting location as shown in the figure below.
170±2 176±2
388 ±2 150±2
For RCU-014 For RCU-015 and RCU-016
2. Set the control unit to the cutout.
3. Attach the mounting plate to the control unit with four screws from the rear side.
4. Screw the wing screw to each mounting plate and then insert hex bolt to each wing
5. Fasten each wing screw and then fasten the hex nuts as shown in the figure below.
Note: P <
RCU-014 RCU-015/RCU-016
To connect RCU-016 in series with RCU-014
1. Pass the cable derived from RCU-016.
2. Connect the connector
of the cable to J502.
3. Clamp the copper part of the cable with the cable clamp.
Inside of RCU-014
To change the cable entry
To change the cable entry from the side (default) to the bottom, modify the unit as shown
Screw Bottom of the unit
2. Pull out the cable.
3. Pass the cable from this hole. Cable clamp
03-163-7804
4. In here, clamp the copper part
of the cable with the cable
clamp removed at step1. 1. Remove the
J522: If you connect RCU-016 in series with RCU-015, plug in here.
RCU-015/016: Changing cable entry
1.4 Processor Unit
• Locate the processor unit away from heat sources because of heat that can build up
• Leave sufficient space at the sides and rear of the unit to facilitate maintenance.
• A magnetic compass will be affected if the processor unit is placed too close to the
of a magnetic compass.
1. Fix the unit with four M6 bolts, or self-tapping screws.
2-φ7 FIXING HOLES
370±1
350±1 2-FIXING NOTCH
Floor mounting or bulkhead mounting
Note: If you fix the unit, cable entry upside, never remove the screw M3x10 that joints
the upper case assy. and lower case assy. of the processor unit.
Lower case assy.
Never remove this screw.
Wiring consideration
• To lessen the chance of picking up electrical interference, avoid where possible routing
the signal cable near other onboard electrical equipment (radars, transmitting radio
antennas, etc.) Also avoid running the cable in parallel with power cables. When crossing
with other cable, the angle should be 90°to minimize the magnetic field coupling.
• The signal cable run between the antenna and processor units is available in lengths of
15 m (standard), 30 m and 50 m. Whatever length is used it must be unbroken; namely,
no splicing allowed. Use the signal cable as short as possible to minimize attenuation of
• The radar should be connected to an emergency power source, as required by SOLAS
2.1 Interconnection
RJB-001*
RW-9600
15/30/40/50 m
(Max.100 m)
DVI-D/D SINGLE LINK 5M, 5/10 m
DPYC-2.5
Processor unit Control unit
(RCU-014 or RCU-015)
CU-200-FAR
24 VDC or XH10P-W-5P-A
100-230 VAC L=10/20/30m
Junction Box Control unit
XH10P-W-6P L=1.5/10/20/30m*
RJB-001* (RCU-016)
DPYC-2.5 for AC set
DPYC-6 for DC set
24 VDC or F2
100-115 VAC/220-230 VAC
*: If the length of the antenna cable is more than 100m,
use Junction box RJB-001. However, the maximum length is 300m.
: Cable requires fabrication
2.2 Antenna Unit
The magnetron in the transceiver module will de-
magnetize if it contacts ferrous material. When
dismounting the transceiver module, lay it on its
side or on top of non-ferrous material as shown
(magnetron inside)
Height more
1. Open the rear cover of the antenna unit
2. Disconnect plugs P823, P803, P831 and P921. If the PM-31 is installed, also disconnect
plug P911.
3. Unfasten two bolts and remove the transceiver module.
Antenna unit, rear view
4. Unfasten the four fixing bolts from the cable gland at the base of the antenna unit.
Remove clamping ring, rubber gasket and washers.
5. Pass the signal cable through the cable entry hole in the antenna unit mounting platform.
Trim the cable so about 80 cm of it protrudes past the cable gland.
Antenna unit, front view, cover removed
6. Fabricate the signal cable RW-9600
as shown below. Vinyl sheath
a) Remove the outer vinyl sheath, by
about 500 mm, then armor and 30mm
inner sheath by about 470mm.
b) Unravel the shield to expose the
core wires.
c) Trim each core wire (except Armor sheath Shield
coaxial wire) considering its
location on the terminal board.
d) Trim the shield leaving about 500
mm and attach crimp-on lug
FV5.5-4 (yellow, I4).
e) Remove insulation of each wire by
about 6 mm. 6
7. Slide a washer, and fold back armor.
Slide a washer, rubber gasket, 14 5 9
washer, and clamping ring in order.
Cut the armor around the washer so Conductor
it is level with the washer. Fold back shield.
8. Nip the armor between two washers, and trim the excess armor from around washers.
And then pass the shield between the clamping ring and the washer as shown below.
Fasten the clamping ring with the screws.
4-M4x16
Rubber gasket (25B)
Signal cable entrance
9. Connect the signal cable to the terminal board TB801 and TB802 on the RFTB board
03P9349 by referring to the interconnection diagram. Keep “slack” in the coaxial wire to
prevent breakage. Insert the cores (except coaxial wire) to the connector with the opener.
1. Insert opener.
2. Push opener.
3. Insert a core.
4. Release opener.
Clamp the coaxial wire with cable clamp on the board 03P9349 as shown below.
Clamp shield with bracket.
Tighten conductor with screw.
10. Bind cable cores with cable ties.
11. Set the transceiver module to the antenna unit, push it in until it stops, and then tighten
fixing bolts (4 pcs.). Connect plugs P823, P803, P831, P921 and J911 (if installed).
Fasten the shield wire to the wing nut on the transceiver module.
Push in transceiver unit until it stops.
Failure to do so may cause leakage of
03P9349
Connect coaxial cable here.
Connector Signal cable
Connect shield wire to with wing
Cable clamp for Bow mark nut at the opposite side of the
antenna cable transceiver module.
12. Confirm that all screws are tightened and all wiring is properly made. Confirm that
waterproofing gasket, bolts and tapping holes of antenna unit are coated with silicone
grease. Close the antenna unit cover (torque: 2.5 N·m).
2.3 Monitor Unit
Two cables are terminated at the display unit: the signal cable from the processor unit (5 m
or 10 m cable) and the power cable from the ship’s mains. The signal cable comes with a
connector preattached to it for connection to the monitor unit. Fabricate the power cable as
below. Use DPYC-2.5 (Japan Industry Standard) cable or the equivalent.
For MU-190/231, see the applicable Operator’s Manual(s).
Fabricating the power cable
1. Cut armor of the cable by 40 mm.
2. Cut vinyl sheath by 35 mm.
3. Remove insulation of wires by about 10 mm. Fix crimp-on lugs to the cores.
4. Peel paint of the armor by 40 mm.
5. Cover the end of armor with vinyl tape.
(a) DPYC-2.5
40 mm: Peel paint. Conductor
(d) φ = 2.01 mm
Taping (sectional view)
Fabricating power cable DPYC-2.5
MU-201CR MU-231CR
Cable entrance for signal cable
(The connector with no EMI core
should be connected to the monitor unit.)
Cable entrance for power cable
Monitor unit (rear panel)
2.4 Processor Unit
Four cables are terminated at the processor unit: the antenna unit cable, display unit cable,
control unit cable and the power cable. Cables other than the power cable come with a
connector preattached to them for connection to the processor unit. Fabricate the power
cable as below. For the power cable, use DPYC-2.5 (Japan Industry Standard) cable for AC
unit or DPYC-6 for DC unit, or the equivalent.
Note: For AC unit
Pass the AC line through a double-contact breaker (shipyard supply).
40 mm: Peel paint.
Conductor of DPYC-2.5
S = 2.5 mm 2
φ = 2.01 mm
Conductor of DPYC-6
S = 6.0 mm
φ = 3.12 mm
Fabricating power cable DPYC
The power cable is connected to the terminal board on the rear panel and the signal cable
from the monitor unit is connected to the DVI-D connector. Other cables are connected to
the printed circuit board 03P9342.
Monitor unit Power cable clamp
* Power cable terminal board
Network DVI-D monitor
DC/AC F1
Control unit**
Heading senor
Power cable Speed log
21 2 3 4 5 6 18 19 20
9 14 17 HDG RSD
24 24’ 26
1 7 8 28 φ7.4
VDR OUT
GYRO PSU004
AIS AD100
Memory Card IF unit
Cable clamp Antenna unit VDR OUT
*: The connector with EMI core should be connected to the processor unit.
**: The configuration of optional cable between the processor unit and the
control unit is as follows. Note that the cable fabrication for each end is
Control unit Processor unit
150 mm 1.5/20/30 m 300 mm
Cable XH10P-W-6P L=20/30M
When the RCU-016 is installed, optional cable (XH10P-W-5P-A, L=10/20/30M) is required.
Cable fabrication for each end is the same.
150 mm 10/20/30 m 150 mm
XH10P-W-5P-A L=10/20/30M
Open the processor unit as follows and the 03P9342 board appears.
03P9342
J621 J612 J608
Gyro converter board
J607 or AD-100
External alarm Speed log
Track control J611 Navigator
J619 J605 J603
J604 Heading sensor
To Sub display * J618 J610 J602
(SEMI-LOG) PSU
J617 Cable from the
To Sub display * control unit
(FULL-LOG) J616
From Master radar Cable from antenna unit
J614 J615 J601
+12V for card I/F
J613 J609 PC
Tx HV line
*: See page 2-11 for details.
Cable fabrication for the cables connected to the 03P9342 board
x Signal cable RW-9600 (Between antenna unit and processor unit)
Vinyl sheath Armor Shield
Vinyl tape After exposing cores,
wind shield around the armor.
Fold back shield.
Clamp here by cable clamp.
x Other cables for optional units
Use TTYCS-1 or TTYCS-4 (Japan standard cable) or equivalent.
Armor φ = 16.3 mm
φ = 10.1 mm
S = 0.75 mm 2 S = 0.75 mm 2
φ = 1.11 mm φ = 1.11 mm
TTYCS-1 TTYCS-4
Armor 60: Peel paint.
L= Depends on equipment
L connected. Measure at
the processor unit.
After exposing cores,
Wiring for WAGO connector Wiring for Coaxial cable
Press downward. Clamp shied with bracket.
Terminal opener
WAGO connector Tighten conductor with screw.
1. Twist the conductor. CAUTION
2. Press the terminal opener downward.
3. Insert the wire to hole. Do not use crimp-on lug to prevent
4. Remove the terminal opener. contact resistance from increasing.
5. Pull the wire to confirm that it is ecure.
Connection of Sub-display
A conventional remote display and/or FAR-2107 series radar can be connected to J617 and
J618 in the processor unit as a sub-display. However, the control for GAIN and STC are
different depending on J617 and J618. Refer to the table to connect sub-displays.
Port Conventional remote FAR-2107 series radar
J617 Overall gain Even if input video level is The gain is 8 dB lower than
adjusted to 4 Vp-p, the that on the master radar.
(FULL-LOG)
gain is 8 db lower than
that on the master radar.
GAIN control The GAIN control is The GAIN control has no
effective. effect.
STC control The STC control is The STC control has no
J618 Overall gain When input video level is The gain is almost same as
gain becomes the same
as that on the master
effective, however this effect.
control is added on the
signal adjusted by the
master radar. So this port
is not recommended to
2.5 Changing AC Power Specification of Processor
To change AC power specification between 100 VAC and 220 VAC, add or remove jumper
connector P108 on the PWR board 03P9339 and change the fuse on the processor unit
according to ship’s mains as shown in the table below. The figures below and on the next
page show the location of the fuse and the jumper connector on the PWR board. Also,
adjustment of the overvoltage detection circuit is required.
Note: To change from 200 VAC to 100 VAC, locally prepare the jumper connector, referring
to the figure shown on the next page (VH8P connector housing is fitted at J108).
Power supply Fuse Jumper connector
100 VAC 10A Added
220 VAC 5A Removed
Cover of PWR board
Upper part of processor unit
(SPU assembly omitted)
J105 J106 (P)HV
PWR board J104
P108/J108
AC FIL
(VH8P)
How to adjust the overvoltage detection circuit:
1. Add or remove the jumper connector P108 and change the fuse.
2. Rotate R21 fully clockwise on the PWR board.
3. Connect a variable transformer between ship's mains and the input power terminal board
TB-1 of the processor unit.
4. Adjust the variable transformer output (i.e., input voltage to the processor unit) as follows.
For 100 VAC set: 144 VAC
For 220 VAC set: 288 VAC
5. Turn on the radar and rotate the R21 counterclockwise gradually until the overvoltage
detection circuit functions (i.e., power supply cuts off).
6. Lower the output voltage of the variable transformer and confirm that the radar
automatically turn on with a voltage lower than 142VAC or 284VAC.
7. Gradually increase the output voltage of the variable transformer and confirm that the
overvoltage detection circuit functions at 144V or 288VAC of the variable transformer
8. Assemble and connect the processor unit.
3. SETTING AND ADJUSTMENT
3.1 DIP Switch Setting
The processor unit is shipped for model FAR-2117 or FAR-2127. If your model is
FAR-2817/2827/2117-BB/2127-BB, change the DIP switch setting as follows.
1. Remove the top cover of the processor unit.
2. Open the SPU assembly block.
SPU assembly block
SPU board 03P9337
3. Set the DIP switch S1 as follows.
S1 Monitor SXGA for Monitor UXGA for FAR-2117-BB
OFF FAR-2117, 2127 FAR2817, 2827
ON FAR-2127-BB
1 (Default) (MU-231CR
S. No. 0269 or later*)
3 2 OFF OFF ON
4 3 OFF
S1 4 OFF
Default setting : ALL OFF
Note: Set #1 and #2 of S1 to OFF for MU-231CR S. No. 0268 and earlier.
Connecting the processor unit to FMD-3200/3200-BB/3300 or FCR-2xx9
If your program version is 03.50 or higher, it is possible to connect your unit to one of the
above units. Once connected, adjust the DIP switches and set the RADAR number as
1. Turn DIP switch S1’s 4th pin to ON.
2. Press the [MENU] key to show the main menu.
3. While pressing and holding down the [HL OFF] key, press the [MENU] key five times.
The [INITIALIZE] menu will appear.
4. Press the [4] key to show the [INSTALLATION] menu.
5. Choose the radar number on the [4 RADAR NO] menu and press the [ENTER/MARK]
3.2 Monitor Unit (MU-190/MU-231) Setting
The [INSTALLATION SETTING] menu appears only when the power is turned on for the
first time after installation of the monitor unit.
INSTALLATION SETTING Menu
EXT BRILL CTRL RS-485 (OFF/DVI1/DVI2/RS-232C/RS-485/USB)
SERIAL BAUDRATE 4800bps (4800/9600/19200/38400)
COLOR CALIBRATION ON (OFF/ON)
KEY LOCK ON (OFF/ON)
SAVE AND EXIT YES (NO/YES)
Adjust the settings referring to the following table.
EXT BRILL SERIAL COLOR KEY LOCK DVI PWR
CTRL BAUDRATE CALIBRATION SYNC*2
DVI*1 - OFF ON ON
*1: To connect to the processor unit of a radar, connect the video signal cable to the DVI-D1
port. Then, select DVI1 to display the radar picture.
*2: "DVI PWR SYNC" is the slide switch at the bottom rear of the monitor unit. Confirm that
this switch is set to "ON" (default setting). See "Slide switch" below for details.
Set the slide switch to "ON" (default setting). This setting automatically powers the monitor
unit on or off according to the DVI signal input. The power switch of the monitor unit is
Note: The OFF position provides control of the monitor unit power with the power switch of
the monitor unit.
How to open the [INSTALLATION SETTING] menu
Turn off the monitor unit. While you hold the [DISP] key, press the [ /BRILL] key to turn on
the monitor unit. Press and hold the [DISP] key for more than five seconds.
Note: When the "DVI PWR SYNC" slide switch is ON, turn on the connected external
equipment while you press the [DISP] key to turn on the monitor unit.
3.3 Initializing Tuning
1. Transmit the radar on 48 nm range and rotate the GAIN knob to show 70-80 of the gain
2. Roll the trackball to choose the MENU box at the right side of the screen and then push
3. Roll the wheel to choose 1 ECHO and then push the wheel.
2 2ND ECHO REJ
3 TUNE INITIALIZE
OFF/ON Bold: Default settings
6 WIPER (Same for all menu illustrations)
OFF/1/2
7 ECHO AREA*
CIRCLE/WIDE/ALL
*: non IMO-type only
8 [PICTURE SELECT]
9 STC RANGE
4. Roll the wheel to choose 3 TUNE INITIALIZE.
5. Push the wheel to initialize automatic tuning.
After a while, echoes appear on the screen. The message “TUNE INITIALIZE” appears in
yellow during automatic tuning. When this message disappears, the tuning is completed. If
necessary adjust the GAIN to show echoes clearly.
6. Push the right button twice to close the menu.
3.4 Heading Alignment
You have mounted the antenna unit facing straight ahead in the direction of the bow.
Therefore, a small but conspicuous target dead ahead visually should appear on the
heading line (zero degrees).
In practice, you will probably observe some small bearing error on the display because of
the difficulty in achieving accurate initial positioning of the antenna unit. The following
adjustment will compensate for this error.
Correct bearing α
relative to heading
350 000 010
α Target 320
260 100 Apparent
Antenna mounted error Picture appears
to port (HDG SW deviated clockwise.
Apparent position β
Target 320
260 100 Correct
to starboard (HDG deviated counterclockwise.
SW delayed)
1. Select a stationary target echo at a range between 0.125 and 0.25 nm, preferably near
the heading line.
2. Operate the EBL control to bisect the target echo.
3. Read the target bearing.
4. Measure the bearing of the stationary target on the navigation chart and calculate the
difference between actual bearing and apparent bearing on the radar screen.
5. Press the [MENU] key to show the main menu.
6. While pressing and holding down the [HL OFF] key, press the [MENU] key five times.
7. Press the [0] key to show the [INITIALIZE] menu.
2 [ECHO ADJ]
3 [SCANNER]
4 [INSTALLATION]
5 [OWN SHIP INFO]
6 [TT PRESET]
7 [NETWORK]
8 [OTHER]
9 [FACTORY]
Note: See next page to access the INITIALIZE menu with the trackball style control unit
RCU-015.
8. Press the [2] key to open the [ECHO ADJ] menu.
[ECHO ADJ]
2 CABLE ATT ADJ
3 HD ALIGN
000.0°
4 TIMING ADJ
6 DEFAULT ANT HEIGHT
5/7.5/10/15/20/
25/30/35/40/45/
7 NEAR STC CURVE
2/2.5/3/3.5/4.2
8 MID STC CURVE
9 FAR STC CURVE
0 RING SUPPRESSION
ECHO ADJ menu
9. Press the [3] key to choose the HD ALIGN option.
10. Key in the bearing difference. The setting range is 0 to 359.9°.
11. Confirm that the target echo is displayed at correct bearing on the screen.
12. Press the [MENU] key to finish.
How to Access the Installation Mode with the RCU-015 Trackball Style
1. By using the trackball,
move the pointer until
it highlights the MENU
box as shown. DO
NOT CLICK the menu
box, just leave the
arrow over the menu.
the F1 key. Keep it
held down during the
3. Then, click on the right
controller button 5 times.
You should hear a “triple
Beep” on the fifth press.
The INITIALIZE menu will
INSTALLATION to access
the installation menus.
3.5 Adjustment Sweep Timing
Sweep timing differs with respect to the length of the signal cable between the antenna unit
and the processor unit. Adjust sweep timing at installation to prevent the following
• The echo of a “straight” target (for example, pier), on the 0.25 m range, will appear on the
display as being pulled inward or pushed outward. See Figure below.
• The range of target echoes will also be incorrectly shown.
(1) Correct (2) Target pushed (3) Target pushed
Examples of correct and incorrect sweep timings
1. Transmit on the 0.25 nm range.
2. Adjust radar picture controls to display picture properly.
3. Select a target echo which should be displayed straightly.
4. Press the [4] key to choose the [TIMING ADJ] on the [ECHO ADJ] menu.
5. Rotate the wheel to set a suitable value which causes the target to be displayed
straightly. The setting range is 0 to 4095.
6. Press the [MENU] key to finish.
3.6 Suppressing Main Bang
If main bang appears at the screen center, suppress it as follows.
1. Transmit the radar on a long range and then wait ten minutes.
2. Adjust gain to show a slight amount of noise on the display.
3. Select the 0.25 nm range. Adjust sea clutter control to suppress sea clutter.
4. Press [5] key to choose the MBS on the [ECHO ADJ] menu.
0 RING SUPPSSION
5. Rotate the wheel to set a suitable value so that the main bang disappears.
The setting range is 0 to 255.
ECHO menu setting
Open the ECHO ADJ menu as described on pages 3-4 and 3-5.
To close the menu, press the [MENU] key.
CABLE ATT ADJ
Before adjusting, set the radar as follows:
IR: 2, ES: off, EAV: off, 24nm range, long pulse
(Same as default setting of PICTURE1)
To adjust the cable attenuation manually, choose MANUAL by pressing [2] and the [ENTER]
key, and then rotate the wheel so that noise just appears on the screen when the gain is set
to 80. Default setting is 30 for the antenna cable length of 15m. The setting range is 0 to 73.
To adjust automatically, choose AUTO and press the [ENTER] key. The message “CABLE
ATT ADJ” appears in yellow at the bottom of the screen. It takes about five minutes to
complete the adjustment, after which the radar goes into stand-by.
DEFAULT ANT HEIGHT
Select height (m) of the radar antenna unit from the sea surface among 5, 7.5, 10, 15, 20,
25, 30, 35, 40, 45 and “more 50 m”.
NEAR STC CURVE, MID STC CURVE AND FAR STC CURVE
Use the default setting. Change the setting if desired according to sea condition.
This is mainly used to removes “ring” noise which appears in the waveguide-type radar.
Adjust so the rings disappear at the range of 0.125 nm. The setting range is 0 to 255.
1. Open the INITIALIZE menu described on page 3-3.
2. Press [3] key to open the SCANNER menu.
2 BLIND SECTOR 1
START 000°
ANGLE 000°
3 BLIND SECTOR 2
4 ANT REVOLUTION
LO/HI/AUTO
5 ANT SW
OFF/ON/EXT
6 ANT STOPPED
7 M SPEC
Note 1: Set the blind sector as minimum as possible.
8 BB TYPE
Note 2: Do not set the blind sector in the bow direction.
NORMAL/BB
9 [DUAL RADAR]*
*non IMO-type only
BLIND SECTOR 1 and BLIND SECTOR 2
Set area (up to 2) where no radar pulses will be transmitted, and heading should be
adjusted before setting any blind sector. For example, set the area where an interfering
object at the rear of the scanner would produce a dead sector (area where no echoes
appear) on the display. To enter an area, enter start bearing relative the heading and dead
sector angle. To erase the area, enter 0 for both the START and ANGLE sections. The
setting range of START is 0 to 359° and ANGLE is 0 to 180°.
This menu item is used for 42 rpm antenna unit. The default is AUTO, where antenna
revolution speed is high for short range setting and low speed for long range setting. When
LO is selected, the antenna always rotate in 36 rpm, and HI, 42 rpm.
ANT SW and ANT STOPPED
This is used for antenna maintenance by serviceman.
Note: Choose OFF at ANT SW to prevent the antenna rotation. As for ANT STOPPED,
choose STBY to prevent transmission while the antenna is stopped.
M SPEC and BB TYPE
INSTALLATION menu setting
Open the INSTALLATION menu by pressing [4] key on the INITIALIZE menu.
2 RADAR*
*: Cannot be selected.
3 RANGE UNIT ** **: non IMO-type only.
NM/SM/km/kyd
4 RADAR NO*** ***: No.1-4: with antenna unit
1/2/3/4/5/6/7/8 No.5-8: without antenna unit
5 RADAR POSN
FORE/MAIN TOP/
MAIN 2ND/MAIN 3RD/
AFT/PORT/
6/12/25 UP/25 DOWN/
50/30 UP/30 DOWN/60
IMO/A/B/C/W
XXXXXXX.X H
9 TX TIME
0 PM GAIN ADJ
Choose main radar or sub radar.
Choose NM, SM, km or kyd (kilo yard) as appropriate, however-IMO type radar is “NM”
RADAR NO and RADAR POSN
For multiple radar system using the network hub, set number (name) and antenna position
for each system to easily distinguish the radar configuration.
Confirm the model of your radar. If the setting of this item is different from your model
(combination of the antenna unit), the radar functions abnormally.
12: for FAR-2117/FAR-2817/ FAR-2117-BB
25UP: for FAR-2127/FAR-2827/ FAR-2127-BB
Choose type of radar: IMO, A, B, C, or W.
ON TIME and TX TIME
These items show number of hours the radar has been turned on and transmitted,
respectively. Value can be changed; for example, after replacing magnetron TX Time can be
PM GAIN ADJ
Note: If you install the Performance Monitor PM-31 at field, see section 4.4 on page 4-16.
When you choose this item, the radar setting changes as follows.
PULSE: LONG
BLIND SECTOR: OFF
STC: OFF by Manual
RAIN: OFF by Manual
ECHO AVERAGE: OFF
VIDEO CONTRAST: 2-B
1. Adjust the GAIN control so that a slight amount of white noise appears on the screen.
Arcs for performance monitor appear on the screen (Fig.1).
2. Adjust PM GAIN ADJ so that outer arc just disappears (Fig.2). The setting range is 0 to
13.5 - 18.5 nm 13.5 - 18.5 nm
Approx. 0.6 nm
OWN SHIP INFO menu setting
Open the OWN SHIP INFO menu by pressing the [5] key on the INITIALIZE menu.
[OWN SHIP INFO]
2 LENGTH/WIDTH
3 SCANNER POSN
BOW 0 m
4 GPS1 ANT POSN
5 GPS2 ANT POSN
6 CONNING POSN
LENGTH/WIDTH and SCANNER POSN
To inscribe own ship shape on the screen when you choose it on the menu, enter length
and width of the ship and antenna position from the bow and left sides.
The setting ranges are as follows.
LENGTH: 0 to 999 m
WIDTH: 0 to 999 m
BOW: 0 to 999 m
PORT: 0 to 999 m
GPS 1 ANT POSN and GPS 2 ANT POSN
These items are needed for AIS information. Enter the GPS antenna position from the bow
and left sides. The setting ranges are the same as above.
CONNING POSN
Enter the conning position in the wheelhouse, from the bow and left sides. The setting
ranges are the same as above.
When you set the display reference point to the conning position, these values are used to
correct the radar antenna position.
Note: If two or more radars are installed, items other than 3 SCANNER should be the same
on each radar.
TT PRESET menu setting
Open the TT PRESET menu by pressing [6] key on the INITIALIZE menu.
[TT PRESET] [TRACK PRESET]
2 TT DATA OUTPUT 2 GATE SIZE
[TT PRESET] S/ M /L/LL
OFF/TTM/TTD
1 BACK 3 FILTER RESPONSE
REL/TRUE
2 LAND SIZE 1/ 2 /3/4
4800/9600/
1600 M 4 LOST COUNT
3 ANT SELECT 9 SCAN
3 MAX RANGE
XN12AF/XN20AF/ 5 MAX SPEED
XN24AF/XN4A/XN5A 150 KTS
4 ECHO LEVEL
SN30AF/SN36AF/ 6 TRACKING MODE
SN4A/SN5A 1 /2/3/4
5 QV DISPLAY
4 AUTO ACQ CORRE 7 START TIME TGT VECT
5 SCAN TIME /SCAN
6 TT W/O GYRO*
5 AUTO ACQ WEED 50 SEC
1 SCAN 20 SCAN
7 [TT PRESET]
6 [TT DETAIL DATA]
8 [TRACK PRESET]
9 [TT SENSOR DATA]
*: Not on IMO radar
TT DATA OUTPUT
Set the output format from J619 (sentence, bearing and baud rate) of tracked targets.
Sentence: (OFF: No output, TTM: Tracked target information, TTD: Tracked target data)
Bearing: REL: Target bearing from own ship, degree relative,
target course, degree relative.
TRUE: Target bearing, degree true, target course, degree true.
Baud rate: (4800, 9600, 19200 or 38400 bps)
NOTE: The TT DATA OUTPUT port changes according to the setting for INS as described
on page 3-16.
INS-OFF: Output from J619 port only
INS-SERIAL: Output from J619 and J620 (TTM only) ports
INS-LAN: Output from J619 and NETWORK (TTM only) ports
Choose the target tracking range, 24 or 32 nm.
Set the detection level of echoes. The setting range is 1 to 31.
QV DISPLAY
OFF: Normal picture
ON: Quantized picture; always off at power on
TT W/O GYRO (Not on IMO radar)
If a gyrocompass is not connected, choose the TT function, ON(working) or OFF (no
Set the land size in units of 100 m. The setting range is 100 to 3000 m.
ANT SELECT
Set the antenna radiator type of your radar.
AUTO ACQ CORRE
Set the correlation count of automatic acquisition. The setting range is 3 to 10.
AUTO ACQ WEED
Set the cancel count of automatic acquisition. The setting range is 1 to 5.
Set the gate size among S, M, L, or LL.
Set the filter response function. The setting range is 1 to 4.
Set the lost count. The setting range is 1 to 20.
This function is inactive. Do not change the setting.
Set the tracking mode among 1 to 4.
START TIME TGT VECT
Choose time which a vector appears after acquisition, TIME or SCAN and set seconds or
scan counts.
OTHER menu setting
Open the OTHER menu by pressing [8] key on the INITIALIZE menu.
2 DEMO ECHO
OFF/EG/TT-TEST/PC
3 EAV W/O GYRO
4 TT CATEGORY SELECT
CAT1/CAT2 3
OFF/SERIAL/LAN
EAV w/o GYRO
If a gyrocompass is not connected, choose the echo average function, ON (working) or OFF
(no working).
TT CATEGORY SELECT
Choose CAT1 or CAT2•3 depending on your ship’s size.
CAT1: All ships over than 10,000 GT
CAT2: All ships between 500 and 10,000 GT
CAT3: All ships less than 500 GT
Choose appropriate item according to the ECDIS connected.
SERIAL: When connecting FEA-2105 series ECDIS.
LAN: When connecting FEA-2107 series ECDIS.
3.8 Dual Radar Display (non IMO-type only)
The image from two or more radars may be shown together on one radar display. This
allows you to take advantage of the best characteristics radars has to offer.
Image from main radar
Separate internal and external
images ("COMBINE" setting)
The following should be done in order to enable the dual radar display:
• Set antenna position correctly on both the main radar and the external radar.
• Select external radar to use, from the DUAL RADAR menu. (See paragraph
3.8.3.)
3.8.1 Enabling/Disabling the Dual Radar Display
Enable or disable the dual radar display as shown in this section.
Note 1: The Tx blanking sector boundary lines are not shown when the dual radar display is
active. Further, neither the internal or external image is shown in the Tx blanking
Tx blanking sector is not shown.
Tx blanking sector No image in Tx blanking sector.
Tx blanking sector Dual radar display with
Tx blanking sector
Note 2: In the dual radar display, a guard zone set on the main radar is also accommodated on
the external radar. When the position of the antennas for the main and external radars
is different and the No. 2 guard zone is set on a close-in range, the on-screen guard
zone may be shifted slightly from both the main radar antenna reference and external
radar antenna reference. Accordingly, on the dual radar display, the actual guard zone
area may be shifted slightly. For example, the guard alarm sounds against a target
which has almost entered the guard zone. The further the range the smaller the shift;
however, there is little shift with the No.1 guard zone (3-6 mile range, fixed). Further, do
not set a guard zone such that it straddles a boundary line of the dual radar sector.
A guard zone cannot be set while the dual radar display is active. Set a zone before activating
the dual radar display.
1. Open the INITIALIZE menu. See page 3-5.
2. Press the [3] key to show the SCANNER menu.
3. Select 9 [DUAL RADAR] and push the left button.
[DUAL RADAR]
2 DUAL RADAR
OFF/ COMBINE
3 COMBINE MODE
OWN/EXT
4 COMBINE SECTOR
5 COMBINE RANGE
START 00.00NM
LENGTH 00.00NM
6 EXT RADAR
4. Select 2 [DUAL RADAR] and push the left button.
5. Select OFF or COMBINE as appropriate and push the left button. For COMBINE, the
ANTENNA box at the top left-hand side becomes gray.
OFF: Turn off the dual radar display.
COMBINE: Display a part of the external radar image in the window on the main radar.
Push the right button four times to close the menu.
Note 1: The dual radar function becomes inoperative when the external radar is turned off, set
to stand-by, or set as sub display. When this happens, the buzzer sounds and the
message "EXT RADAR STBY" (power off, stand-by only) appears.
Note 2: The dual radar display is inoperative on the stern-up and shuttle ferry modes.
Note 3: Some functions of the external radar image, listed below, may be adjusted from the
main radar.
1) Left-click the radar selection indication "CTRL OWN" at the top-left side of the screen to
switch control to the external radar. The indication then shows "CTRL EXT". Each click of
the indication switches control between the main and external radar alternately.
2) The external image may be adjusted from the main radar. The following functions may be
• Transmit/stand-by switching
• PICTURE box setting
• A/C SEA
• A/C RAIN
• ECHO menu setting (2nd trace echo rejector, performance monitor)
• Range scale
• TT functions.
• CPA/TCPA box settings
3.8.2 Specifying Sector Width and Length
When 2 DUAL RADAR in the DUAL RADAR menu is set for "COMBINE", specify
the width and length of the sector from the external radar to display on own radar.
1. Open the INITIALIZE menu.
4. Select 3 COMBINE MODE and push the left button.
5. Select OWN or EXT and push the left button.
OWN: Set own radar’s antenna as reference point and set display area of own
radar. The area outside that set here is where the image from the
external radar will be displayed.
EXT: Set external radar’s antenna as reference point and set display area of
external radar. The area outside that set here is where the image from
own radar will be displayed.
Radar selected for COMBINE: External Radar selected for COMBINE: Own
START: 315 degrees START: 45 degrees
ANGLE: 90 degrees ANGLE: 270 degrees
START: 00.00 nm START: 00.00 nm
LENGTH: 99.99 nm LENGTH: 99.99 nm
for external radar
for own radar
own radar
6. Select 4 COMBINE SECTOR and push the left button.
7. Use the scrollwheel to set START and ANGLE, referring to the description and
example below. Spin the scrollwheel to set and push it to confirm.
A solid green line marks the dual radar display area.
• START: Start point of the sector (in degrees, 000-359)
• ANGLE: Width of the sector (in degrees, 000-359)
In the example below, START is 130° and ANGLE is 100°.
Width of sector
ANGLE (Example: 130°)
(Example: 100°)
8. Select 5 COMBINE RANGE and push the left button.
9. Use the scrollwheel to set START and LENGTH, referring to the example below.
Spin the scrollwheel to set and push it to confirm.
• START: Set range start point.
• LENGTH: Set length of sector.
START: 01.00 nm
LENGTH: 02.00 nm
3.8.3 Choosing External Radar (image source)
Select the external radar to use in the dual radar display.
4. Select 6 EXT RADAR and push the left button.
5. Select desired radar no. and push the left button.
Only the numbers of connected radars are valid. Radar no. is set on the Installation Setting
6. Press the [MENU] key to close the menu.
4.1 Gyro Converter GC-10
The Gyro Converter GC-10, incorporated inside the processor unit, converts analog
gyrocompass reading into digital coded bearing data for display on the radar screen.
This section explains how to install the GC-10 (mainly consisting of the GYRO
CONVERTER board) and set it up according to gyrocompass connected.
Installing the GYRO CONVERTER board
Necessary Parts: GC-10-2 (Code number 000-080-440)
See packing list for details at the back of this manual.
1. Open the processor unit.
Processor unit (Opened)
4. INSTALLING OPTIONAL EQUIPMENT
2. Fasten the GYRO CONVERTER board in the processor unit with five washer head
screws and male connector 231-607/019-FUR (called J602) with two screws.
M3x8 5 pcs
64P1106A
M2.6x10 2 pcs
Connector (231)
231-107/026-FUR
231-607/019-FUR
Attaching GYRO CONVERTER board in the processor unit
3. Connect the GYRO CONVERTER board and the 03P9342 board with connector
assemblies 03-2088 and 03-2091.
4. Connect the GYRO CONVERTER board and J602 with two connector assemblies
03-2089 and 03-2090.
Wiring for WAGO connector
Press downward.
2 Connection for J602
J602 1 Connection for P608
PPL P608
From J4 BLU YEL
GRN ORG
From J5 RED
1. Twist the cores
2 VH connector assy. 3. Insert the wire to hole. 1 NH connector assy.
03-2089 (5P) 4. Remove the terminal opener.
03-2091 (5P)
5. Pull the wire to confirm that it is
2 VH connector assy.
To J602 XH-PH connector assy.
03-2090 (3P)
03-2088 (6-14P)
P5 To P608
J5 GYRO CONVERTER J1
J4 64P1106A
Connecting connector assemblies
5. Confirm gyrocompass specifications and set up the DIP switches and jumper wires on
the GYRO CONVERTER board according to gyrocompass connected:
x Setting jumper wires and DIP switches by gyrocompass specifications: page 4-5
x Setting jumper wires and DIP switches by make and model of gyrocompass: page 4-7
x Location of jumper wires and DIP switches: page 4-8
6. Pass gyrocompass cable through the cable clamp and connect it to connector J602 as
shown in the figure on page 4-3.
7. Attach the clamps on the plastic cover and then attach the cover to the GYRO
CONVERTER board as shown in the figure below. Insert cables to the clamp ED-1,
Plastic cover M4x8 3 pcs
Clamp CKS-10-L
Clamp EDS-1
Insert cables to these
Clamp CKS-13-L
Attaching plastic cover for GYRO CONVERTER board
8. Close the processor unit.
An external power supply is necessary when the repeater signal is step-by-step type and
the step voltage is below 20 V or output voltage is less than 5 W.
1. Cut jumper wire JP1 on the GYRO CONVERTER board when an external power supply
2. Connect gyro cable and power cable as shown below.
[A] 64P1106
External Power Supply J5
20 - 135 VAC 1 > R2
20 - 100 VDC 2 > R1/COM
Either connection
in case of DC
1 > S1
Gyrocompass S2 2 > S2
(Step type) S3 3 > S3
F.G. 5 > F.G.
Connection of external power supply to GYRO CONVERTER board
DIP switch, jumper wire settings
The gyro converter GC-10 is set at the factory for connection with the gyrocompass
AC synchronous signal: 50/60 Hz
Rotor voltage: 60 V to 135 V AC
Stator voltage: 60 V to 135 V AC
Gear ratio: 360x
Supply voltage: 30 V to 135 V AC
If the specifications of the gyrocompass differ from those mentioned above, change jumper
wire and DIP switch settings on the GYRO CONVERTER board. Settings may be changed
according to gyrocompass specifications (see page 4-6) or make and model of
gyrocompass (see page 4-7). For the location of DIP switches and jumper wires, see page
Note: If you change the setting with power supplied, set #8 of SW2 from OFF to ON, then
Setting method 1: DIP switch settings and gyrocompass specifications
1) Gyrocompass type 2) Frequency
Gyrocompass SW SW SW SW SW
type 1-4 1-5 1-6 JP1 Frequency 1-7 1-8 Remarks
AC #1, #2, AC synchronous
synchronous OFF OFF OFF #3 50/60 Hz OFF OFF pulsating current
DC #2, #3, AC synchronous
synchronous OFF OFF OFF #4 400 Hz ON OFF pulsating current
#4, #5, AC synchronous
DC step ON OFF OFF #6 500 Hz OFF ON pulsating current
Full-wave #4, #5, DC synchronous
pulsating current OFF ON OFF #6 DC ON ON DC step
Half-wave #4, #5,
pulsating current #6
3) Rotor Voltage (between R1 & R2) 4) Stator Voltage (between S1 & S2)
SW Stator SW SW
Rotor Voltage JP3 JP2
2-1 Voltage 2-2 2-3
20 to 45 VAC, or
20 to 45 VAC ON #2 ON OFF #2
30 to 70 VAC, or
30 to 70 VAC OFF #2 OFF OFF #2
40 to 100 VDC
40 to 90 VAC ON #1 40 to 90 VAC ON OFF #1
60 to 135 VAC OFF #1 60 to 135 VAC OFF OFF #1
5) Ratio 6) Supply Voltage
SW SW SW Stator
Ratio 1-1 1-2 1-3 Voltage JP4 JP5
360X OFF OFF OFF 20 to 45 VAC, or 20 to 60 VDC #2 #2
180X ON OFF OFF 30 to 70 VAC, or 40 to 100 VDC #1 #1
90X OFF ON OFF
36X ON ON OFF
7) AD-10 format data 8) NMEA-0183
Tx interval Tx interval and Output sentence
Select data transmitting interval for ports 1 to 6 with jumper Tx SW SW Output
wires JP6 and JP7: #25 for 25 ms, #200 for 200 ms. interval 2-5 2-6 sentence
Note: The Tx interval is available in 25 msec or 200 msec. 1s OFF OFF HDT+VHW
Use 25 msec for radar. 200 ms ON OFF HDT
100 ms OFF ON HDT
25 ms ON ON HDT
9) NMEA-0183 10) NMEA-0183 11) Power fail 12) Stator signal
Version no. Baud rate detection breaking detection
Version no. SW3-1 Baud rate SW3-2 Talker SW3-3 Detection SW2-7
1.5 OFF 4860bps OFF Disable OFF Execute OFF
2.0 ON 38400bps ON Enable ON No execute ON
(Use OFF for radar.) SW2-4: factory use only
SW3-4: not used
Setting method 2: by make and model of gyrocompass
Maker Models Specification SW SW SW SW SW SW SW SW SW SW SW JP 1 JP 2 JP 3 JP 4 JP 5
1-1 1-2 1-3 1-4 1-5 1-6 1-7 1-8 2-1 2-2 2-3
Anschutz Standard 2,3 AC synchronous OFF OFF OFF OFF OFF OFF OFF OFF OFF ON OFF #1, #2 #2 #1
50/60Hz #2,#3
Rotor voltage: 50/60V
Stator voltage: 22V
Standard 4,6 AC synchronous OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #2 #1 #1
Stator voltage: 90V
Standard 20 DC step ON OFF OFF ON OFF OFF ON ON - ON OFF #4, #2 - #2
35V 180x #5,#6
COM(-) ,3-wire(+)
Yokogawa C-1/1A/2/3 AC synchronous OFF OFF OFF OFF OFF OFF OFF OFF OFF ON OFF #1, #2 #2 #1
Navtec A-55, B-55 50/60Hz #2,#3
(Pla th Rotor voltage: 50/60V
type) Stator voltage: 22V
CMZ-700 DC step ON OFF OFF ON OFF OFF ON ON - ON OFF Remo- #2 -
24V 180x
COM(+), 3-wire(-)
ve * *
C MZ-250X/ DC synchronous 360x OFF OFF OFF OFF OFF OFF ON ON - ON OFF Remo- #2 -
300X/500 ve * *
DC step ON OFF OFF ON OFF OFF ON ON - ON OFF #4, #2 - #2 #2
COM(+),3-wire(-)
CMZ-100/200/ AC synchronous OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #1 #1 #1 #1
300 50/60Hz #2,#3
C-1Jr,D-1Z/1/3 Rotor voltage: 100V
IPS-2/3 Stator voltage: 90V
CMZ-50 step ON OFF OFF ON OFF OFF ON ON - ON OFF Remo- #2 -
35V 180x
See note below. COM(+),3-wire(-)
Plath NAVGAT II/III AC synchronous OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #2 #2 #1 #1
Stator voltage: 68V
Tokimec ES-1/2/11 AC synchronous ON ON OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #1 #1 #1 #1
(Sperry GLT-101/102/ 50/60Hz #2,#3
type) 103/106K/107 Rotor voltage: 100/110V
ES-11A/110 AC synchronous OFF ON OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #1 #1 #1 #1
TG-200 50/60Hz #2,#3
PR222R/2000 Rotor voltage: 100/110V
PR237L/H Stator voltage: 22V
GM 21 90x
MK-14 DC step ON OFF OFF ON OFF OFF ON ON - OFF OFF #4, #2 - #1 #1
MOD-1/2/T 70V 180x #5,#6
NK-EN,NK-EI COM(-), 3-wire(+)
SR-130/140 DC step ON OFF OFF OFF ON OFF OFF OFF - OFF OFF #4, #2 - #1 #1
70V 180x #5,#6
5-wire, open collector
TG-100/5000 DC step ON OFF OFF ON OFF OFF ON ON - OFF OFF #4, #2 - #1 #1
PR-357/130/ 70V 180x #5,#6
140, ES-17 COM(+), 3-wire(-)
GLT-201/202
TG-6000 DC step ON OFF OFF ON OFF OFF ON ON - ON OFF #4, #2 - #2 #2
24V 180x #5,#6
GM-11 AC synchronous OFF ON OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #1 #1 #1 #1
Rotor voltage: 100V
SR-120,ES-16 DC step ON OFF OFF ON OFF OFF ON ON - ON OFF #4, #2 - #2 #2
MK-10/20/30 35V 180x #5,#6
Kawasaki GX-81 AC synchronous OFF ON OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #1 #1 #1 #1
Rotor voltage: 100/110V
Armabrown MK-10,MKL-1 DC step ON OFF OFF ON OFF OFF ON ON - OFF OFF #4, #2 - #1 #1
SERIES1351, 50V 180x #5,#6
MOD-4 COM(+), 3-wire(-)
Robertson SKR-80 DC step ON OFF OFF ON OFF OFF ON ON - ON OFF #4, #2 - #2 #2
COM(-), 3-wire(+)
*: Set JP4 and JP5 according to the voltage of the external power supply.
Note: If CMZ-50 has 35VDC, set JP1 to #4, #5, #6.
Location of DIP switches, jumper wires on the GYRO CONVERTER board
JP5, JP4
(Stator voltage)
(Rotor voltage)
JP1 64P1106 J12
(Gyro type) (Data output
port #6)
(Data output
port #5)
port #4)
JP6, JP7
(AD format
Fuse SW1 data Tx interval)
(2A) J4 J9
(Stator signal input) (Data output port #3)
J5 J6 J8
(Rotor signal input, (IEC-61162-1 output port) (Data output port #2)
external power input) J7
(Data output port #1)
Setting the heading readout on the radar display
Confirm that the gyrocompass is giving a reliable readout. Then, set the heading readout on
the radar display with the gyrocompass readout as follows:
1. Roll the trackball to place the arrow in the HDG box at the top right corner of the screen.
2. Push the right button on the trackball module to open the HDG menu.
[HDG MENU]
1 HDG SOURCE
AD-10/SERIAL
2 GC-10 SETTING
000.0˚
HDG menu
3. Press the [1] key to choose the HDG SOURCE and choose AD-10.
4. Press the [2] key to choose the GC-10 SETTING option.
5. Roll the wheel to set gyrocompass reading.
4.2 Memory Card Interface Unit
x Locate the memory card interface unit away from heat sources because of heat that can
x Locate the unit away from places subject to water splash and rain.
x Leave sufficient space at the sides and rear of the unit to facilitate maintenance.
x A magnetic compass will be affected if the unit is placed too close to the magnetic
This unit can be flush-mounted in a panel with the standard installation materials.
1. Prepare a cutout in the mounting location, referring to the outline drawing at the end of
2. Screw in the threaded rods to the flange of the front panel of the unit securely by hands.
3. Set the unit to the cutout.
4. Insert the flat washer, spring washer and nut in that order for each rod and fasten the
For desktop mount, the optional desktop mount kit FP03-10201 is required. Refer to the end
1. Fix the mounting bracket 19-023-3081 on the unit with four screws.
2. Mount the above assembly on a desktop with four tapping screws.
For console mount, the optional console mount kit FP03-10202 is required. Refer to the end
1. Fix the mounting bracket 19-023-3091 on the unit with four screws.
2. Mount the above assembly to the console with four sets of nut, spring washer and flat
1) Connection between one processor unit and one memory card IF unit
Connect as shown in the figure below.
Processor unit MJ-A3SPF0015-100 (10 m)
J614 12 VDC
two mini-cards
PSE-4PTX-BL (10 m)
2) Connection between one memory card IF unit and multiple processor units
Prepare optional LAN cable kit and switching hub HUB-100. Connect as shown in the next
page. Set the radar number on the INSTALLATION menu (see page 3-11), and then turn the
LAN cable kit
Type Code No. Contents
OP03-28900 000-082-658 Cable FR-FTPC-CY (10 m), Modular connector 2 pcs.
OP03-28910 000-082-689 Cable FR-FTPC-CY (20 m), Modular connector 2 pcs.
OP03-28920 000-082-660 Cable FR-FTPC-CY (30 m), Modular connector 2 pcs.
No.1 MJ-A3SPF0015-100 (10 m)
Processor two mini-cards
unit FR-FTPC-CY (10/20/30 m)
(straight) NETWORK
FR-FTPC-CY (10/20/30 m)
No.2 (10/20/30 m)
Processor (straight)
No.3 (option)
unit FR-FTPC-CY (10/20/30 m) (straight)
No.4 FR-FTPC-CY (10/20/30 m) (straight)
Note 1: When connecting a secondary memory card interface unit, the following procedure is used to
change ID of the secondary unit.
1. Remove the cover of the memory card interface unit.
2. Adjust the DIP switches on the CARDCPU board (03P9333) referring to the table below.
IP0 bit OFF ON
IP1 bit OFF OFF
3. Adjust the INIT bit setting for S1 to ON.
4. Turn the radar on.
5. Wait till CR2 starts blinking, then turn the radar off.
6. Change the INIT bit setting for S1 to OFF.
J314 IP0
(Not used)IP2
(Default: all OFF)
CARDCPU board 03P9333
Note 2: If your radar is connected to one of the units below, use the following procedure to
connect the memory card interface unit(s).
z FMD-3200/3200-BB/3300
z FCR-2xx9
2. Adjust the DIP switches on the CARDCPU board (03P9333) referring to the table
IP1 bit ON ON
4. Turn the radar on
5. Wait until CR2 starts blinking, then turn the radar off.
4.3 DVI-RGB Conversion Kit (for VDR connection)
This information provides the procedure necessary for the installation of the DVI-RGB
conversion kit. This kit is installed in the processor unit to enable connection of a VDR
(Voyage Data Recorder) or RGB monitor to record radar pictures into a VDR. When
changing the D-sub 15P of the RGB cable to the BNC connector, use the BNC connector
converter described on page 4-17. This RGB output complies with the image test defined in
the VDR test standard, IEC 61996.
Name: DVI-RGB conversion kit
Type: OP03-180-2
Code no.: 008-536-070
Resolution: Outputs RGB with the resolution of DVI input.
Display unit Resolution DIP switch setting (S-1#1)
MU-201CR 1024x1280 OFF
MU-231CR 1024x1365 ON
Output signal specification: Video; 0.7Vp-p, 75Ω termination, positive polarity
Horizontal sync signal; TTL level, negative polarity
Vertical sync signal; TTL level, negative polarity
See packing list for contents. Refer to the figure on the next page for modification.
DVI-RGB Conversion board
M3x8 (SLB-FRN4-A)
6 pcs DVI video input
J9 J3
(10 pin)
03-2094
03-2092 03P9342 board
03-2093 RGB-BUFF board*
(03P9229B) D-sub 15P
SQ-35 M3x8 Female
Spacer J2
4 pcs J3
6 pcs J1 (3 pin)
(User supply)
RGB video output Clamp copper tape
section by cable clamp.
To external RGB monitor or
BNC connector converter
for VDR connection (see
page 4-17).
Ferrite core side: Connect to DVI-D port on
the upper part of the processor unit.
*Indepent of the MAIN board.
1. Remove the top cover and open the upper part of the processor unit.
(Connect DVI cable at step 13)
2. Fix the 03P9229B board (RGB-BUFF) with four screws. (See the figure below.)
3. Attach the connector assemblies to J1 and J3 on the 03P9229B board as follows.
J1：13-pin connector of the connector assembly 03-2094
J3：3-pin connector of the connector assembly 03-2093
4. Attach six sets of spring washers and spacers to the positions shown on the next page.
Spring washer, spacer 03P9229B board
J2 (Connect RGB Cable at step 11.)
03P9342 board
J615 (Connect connector assemblies at step 9.)
Processor unit (Lower part)
5. Attach the DVI-RGB conversion board to the location shown in the figure on the next
J9 J3 (Connect DVI cable at step 10.)
Fixing the DVI-RGB conversion board
6. Attach the 10-pin connector from J1 on the 03P9229B board to J9 on the DVI-RGB
7. Attach the connector assembly 03-2092 to J4 on the DVI-RGB conversion board.
8. Remove connector housing J615 from the 03P9342 board. Connect the cable from J3
on the 03P9229B board and the cable from J4 on the DVI-RGB conversion board to
J615. After connection, attach J615 to the 03P9342 board.
To connect wires to the connector housing, use the terminal opener (supplied as installation
materials) as shown below.
J615 Housing
1 Press downward
2 Insert core
Connecting wires to the housing
9. Connect the DVI cable to J3 on the DVI-RGB conversion board. Connect the end which
does not have the ferrite core.
10. Pass an RGB cable (local supply) through the cable clamp and connect it to J2 on the
03P9229B board.
11. Pass the DVI cable through the cable clamp, laying the section with copper tape in the
12. Assemble the processor unit and connect the other end of the DVI cable to DVI-D port.
4.4 Performance Monitor PM-31
This kit is installed in the antenna unit of the FAR-2107/2807 series X-band radar to monitor
radar performance.
Name: Performance monitor
Type: PM-31
Code no.: 008-080-438
Name Type Code number Qty
① SCANNER COVER ASSY. PM-31 008-539-430 1
② GREASE GASKET GREASE #2 000-149-704 1
③ SM-XH CONNECTOR 03-2108（6P-6P) 008-534-840 1
④ LIFTING FIXTURE 03-001-3264 300-132-640 1
⑤ GASKET 03-001-3263 300-132-631 1
To hoist the scanner cover assy. to the radar mast, by using rope, attach the lifting fixture ④
to the scanner cover assy.①.
1. Remove the bolt and chain at the bottom of the stern-side cover, and then remove the
2. Coat the bolt hole on the scanner cover assy.① with silicone sealant (Adhesive 1211)
and secure the chain with the bolt.
3. Remove the cover at the bow side also.
4. Insert the XH connector of the SM-XH connector ③ assy. to J911 on TB board 03P9349
and the SM connector of the SM-XH connector assy. to the relay plate.
5. Coat the gasket ⑤ with the gasket grease #2 50G ② and attach it to the scanner cover
assy.①.
6. Connect the cable assembly coming from the scanner cover assy.① to the SM connector
attached at step 4 above.
7. Attach the scanner cover assy. to the stern side of the antenna unit.
8. Reattach the bow-side cover.
How to fix lifting fixture
Relay plate 1.Insert the lifting fixture
Stern side
Scanner cover assy 2. Fix the lifting fixture
Upside down the fixture
from step 1 and pull it
in arrow mark direction.
Note:Fix flat side of the fixture to
the coating face.
Lifting fixture Lifting fixture
Coating face
* TB board
Scanner cover assy
TB board 03P9349
Change the chain here.
J911 is on rear side.
4.5 BNC Connector Converter
To connect the VR-5000 (FURUNO Voyage Data Recorder) to this radar, the DVI-RGB
conversion kit (mentioned at previous paragraph) and the BNC connector converter are
required. Also VGA cable (between the processor unit and the BNC connector converter)
and five 75 ohms coaxial cables (between the BNC connector converter and VR-5000) are
FAR-2107 VR-5000
Processor Unit VD1 Data collecting unit
BNC connector 75 W coax. cable
converter R R
DSUB-BNC-1 G G
VGA cable H HS
DVI-RGB D-sub 15P D-sub 15P
Conversion kit Female V VS
4.6 Junction Box
If the length of the antenna cable is more than 100 m, the optional junction boxes are
required. These boxes should be mounted at the location protected because its
waterproofing is IPX3.
Antenna unit Processor unit
RW-9600 RW-9600
(Max 15 m) (Max 15 m)
DPYCY-6 (3 pcs.)
Junction box TTYCY-4 (1 pc.) Junction box
RJB-001 RG-12/UY (1 pc.) (Max 270 m) RJB-001
Fasten the junction boxes to the mounting location with four sets of M8 bolt and nut.
60 FIXING HOLES
20 approx. 450 Units: mm
Pull out inner cables from here.
Crimp on lug for M8
DPYC-6 and TTYC-4
DPYC-6: approx. 130 DPYCY-6 TTYCY-4 (Four twisted pairs)
TTYCY-4: approx. 150
20 φ = 13.9 mm φ = 17.7 mm
Armor Taper for unused wires.
Vinyl sheath S = 6 mm 2 S = 0.75 mm 2
φ = 3.12 mm φ = 1.11 mm
RG-12/UY
20 60 14 5 9
Vinyl sheath Armor Outer conductor
Insert each cable to the cable gland as follows.
Clamping gland
Cut and trim armor.
Connect each cable cores to the terminal board, referring to the interconnection diagram on
Clamp outer conductor of coaxial cables. Fix wires with cable-tie.
RG12/UY
RG-12/UY TTYCY-4 DPYCY-6 RW-9600
Connect inner conductors. M8 screw for grounding
Antenna unit Junction box Junction box Processor unit
03P9349 RW-9600
DPYCY-6 RW-9600 J613
TB801 BRN
TX-HV 1 BRN 1 1 1 TX-HV
N.C. 2 2 2 2 N.C.
RED[B] 3 J610
3 DPYCY-6 ORG[B]
ORG[B] 1 24V_PLUS
24V_PLUS 3 4 4 YEL[B]
24V_MINUS 4 YEL[B] 5 2 24V_MINUS
BLU[B] DPYCY-6 BLU[B] 3 MOTOR(+)
MOTOR(+) 5 6 6
GLY[B] GLY[B]
MOTOR(+) 6 4 MOTOR(+)
PPL[B] PPL[B] 5 MOTOR(-)
MOTOR(-) 7 7 7 WHT[B]
WHT[B]
MOTOR(-) 8 6 MOTOR(-)
8 N.C. 8 N.C.
9 N.C. TTYCY-4 9 N.C. RED 7
SPU_RF_D_A 9 RED 10 10 SPU_RF_D_A
pair GRN
SPU_RF_D_B 10 GRN 11 11 8 SPU_RF_D_B
BRK BRK 9
RF_SPU_D_A 11 12 pair
12 RF_SPU_D_A
WHT WHT 10
RF_SPU_D_B 12 13 13 RF_SPU_D_B
GRN[B] GRN[B]
SIG-GND 13 14 14 11 SIG-GND
15 N.C. RED[B]
GND 14 15 N.C. 12 GND
COAX COAX 1 IF_VIDEO
IF_VIDEO 1 1 1
GND 2 2 RG-12/UY 2 2 GND
Clamp with cable-clamp
5. INPUT/OUTPUT DATA
Input and output data are shown in the table below.
Note: This radar accepts position data fixed by WGS-84 geodetic datum only. Set the
datum to WGS-84 on the EPFS (GPS, etc.) connected to this radar. If other type of datum is
input, the error message "DATUM" appears and the AIS feature is inoperative. Baud rate for
the serial input is automatically set to 4800, 9600, 19200 or 38400 as appropriate.
Data Specifications Contents Remarks
Heading signal synchro or step GC-10 required AD-10 and
IEC 61162 are switched by
AD-10 format External AD-100 menu setting.
IEC 61162-2**
Speed signal IEC 61162-1
Navaid data IEC 61162-1 Position, course, For IMO spec, IEC-61162-1
speed, waypoint, Edition 2 is required.
route, time, wind data,
current data, depth,
temperature, roll, pitch
External radar Heading, No STC control Operate as remote display
signal Bearing, Trigger,
Alarm ACK input Contact closure Input from alarm system
IEC61162-1 ACK Input from alarm system
Track Control unit RS-422 Option
Radar system data RS-232C RSD, OSD, TLL, For PC plotter
TT data* IEC 61162-1 TTD, TTM, TLB For ECDIS
ALARM data IEC 61162-1 ALR For ALARM system
Remote display HD, BP Trigger, 2 ports
External LCD DVI Same as main display 2 systems in total
monitor signal unit
External CRT R, G, B, H, V Same as main display Option
Alarm signal Contact closure Output to alarm system 4 systems, Output contents
by using photo-relay are selected by menu.
*The output sentence, mode and baud rate can be set at the TT Preset menu.
**Data cycle should be input with more than 40 Hz (HSC) or 20 Hz (normal speed).
IEC 61162 input sentence and priority
Contents Sentence and priority
Speed (STW) VBW>VHW
Speed (SOG) VBW
Speed (position) VTG>RMC
Heading (True) THS*>HDT*
Position GNS>GGA>RMC>GLL
Waypoint BWR, BWC, RMB
Route WPL, RTE
Date, Time ZDA
Depth DPT >DBT>DBS>DBK
Temperature MTW
Wind MWV>VWT>VWR
Set and Drift VDR
ALARM ACK ACK
*: THS and HDT are IEC61162-2
Others: IEC61162-1 ed2.
IEC 61162 output sentence
Contents Sentence
Target L/L TLL *
Radar system data RSD
Own ship data OSD
TT target data TTD, TLB, TTM
ALARM data ALR
*non IMO-type only.
%1&'01  ).:  %1&'01  ).: 
6;2' %2  6;2' %2 
Ꮏ੐᧚ᢱ⴫ Ꮏ੐᧚ᢱ⴫
+056#..#6+10/#6'4+#.5 +056#..#6+10/#6'4+#.5
⇟ภ ฬ‫ޓޓ‬⒓ ⇛‫ޓޓ‬࿑ ဳฬ㧛ⷙᩰ ᢙ㊂ ↪ㅜ㧛஻⠨ ⇟ภ ฬ‫ޓޓ‬⒓ ⇛‫ޓޓ‬࿑ ဳฬ㧛ⷙᩰ ᢙ㊂ ↪ㅜ㧛஻⠨
01 0#/' 176.+0' &'5%4+26+105 3	6; 4'/#4-5 01 0#/' 176.+0' &'5%4+26+105 3	6; 4'/#4-5
㒐ⲁࠧࡓ 㩔㩨㩒ᐳ㊄
 41*5   /575 
%14415+102411(47$$'4 524+0)9#5*'4
%1&'01 %1&'01
 
㩆㨺㩣㩦㨹㩆㨶㨺 ౐ⷺ㩘㩨㩣㩎
 41*5   /:575 
5'#.9#5*'4 *':#)10#.*'#&$1.6
 
ᠲ૞㩤㩔㩨㨺  㩃㨺㩖㩨㩣⚵ຠ 49
    49 
6'4/+0#.12'0'4 %#$.'#55;
%1&'01  %1&'01 
 
࿶⌕┵ሶ
 (8
.(;'. 
%4+/210.7)
%1&'01

౐ⷺ㩏㨹㩎㩆㨷
 /575 
*':#)10#.076

㩚㩀㩨㩁㩙㩣ᐔᐳ㊄
 /575 
(.#69#5*'4

㩔㩨㩒ᐳ㊄
 /575 
524+0)9#5*'4

౐ⷺ㩘㩨㩣㩎ో㩒㩆㩨
 /:575 
*':#)10*'#&5%4'9

 /575 

㩚㩀㩨㩁ᐔᐳ㊄
 /575 

ဳᑼ㩄㨺㩎㩨⇟ภ߇㧞Ბߩ႐ว‫ޔ‬ਅᲑࠃࠅ਄Ბߦઍࠊࠆㆊᷰᦼຠߢ޽ࠅ‫ޔ߅ߥޓޕߔ߹޿ߡߞ౉߇߆ࠄߜߤޔ‬ຠ⾰ߪᄌࠊࠅ߹ߖࠎ‫ޕ‬
6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6
37#.+6;+56*'5#/'
㧔⇛࿑ߩኸᴺߪ‫ޔ‬ෳ⠨୯ߢߔ‫&ޓޕ‬+/'05+105+0&4#9+0)(144'('4'0%'10.;㧕 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6
㧔⇛࿑ߩኸᴺߪ‫ޔ‬ෳ⠨୯ߢߔ‫&ޓޕ‬+/'05+105+0&4#9+0)(144'('4'0%'10.;㧕
㧲㨁㧾㨁㧺㧻‫ޓ‬㧱㧸㧱㧯㨀㧾㧵㧯‫ޓ‬㧯㧻‫ޓ‬㧚㧘㧸㨀㧰
%/-
㧲㨁㧾㨁㧺㧻‫ޓ‬㧱㧸㧱㧯㨀㧾㧵㧯‫ޓ‬㧯㧻‫ޓ‬㧚㧘㧸㨀㧰 %/-
%1&'01  (5:  %1&'01  (5: 
6;2' %2  6;2' %2 
1㩢㩧㩂㩨 㩕㩩㩧
 ,$2   41*5 
14+0) 2+0
 
ࡃࡀᐳ㊄ 1㩢㩧㩂㩨
 /575   ,$2 
524+0)9#5*'4 14+0)
 
㩚㩀㩨㩁ਣᐔᐳ㊄ ౐ⷺ㩇㩢㩦㩢㩈㩛㩇$
 /575   /:575 
(.#69#5*'4 *':*'#&5.16$1.6$
%1&'01 9#5*'4 %1&'01
 
౐ⷺ㩇㩢㩦㩢㩘㩨㩣㩎 㩃㩚㩆㨺㩣
 /:575   59㨻㩣㩚㩋㨷㨺㩖㩨) 
*':#)10#.*'#&5.16 5+.+%1047$$'4
$1.6 %1&'01 %1&'01
 
㩃㩚㩆㨺㩣 59㨻㩣㩚㩋㨷㨺㩖㩨)‫ޓ‬
 59㨻㩣㩚㩋㨷㨺㩖㩨) 
5+.+%1047$$'4
%1&'01 

6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 㧔⇛࿑ߩኸᴺߪ‫ޔ‬ෳ⠨୯ߢߔ‫&ޓޕ‬+/'05+105+0&4#9+0)(144'('4'0%'10.;㧕
㧔⇛࿑ߩኸᴺߪ‫ޔ‬ෳ⠨୯ߢߔ‫&ޓޕ‬+/'05+105+0&4#9+0)(144'('4'0%'10.;㧕 㧲㨁㧾㨁㧺㧻‫ޓ‬㧱㧸㧱㧯㨀㧾㧵㧯‫ޓ‬㧯㧻‫ޓ‬㧚㧘㧸㨀㧰
㧲㨁㧾㨁㧺㧻‫ޓ‬㧱㧸㧱㧯㨀㧾㧵㧯‫ޓ‬㧯㧻‫ޓ‬㧚㧘㧸㨀㧰 %/& %/)
).:  
㧼㧭㧯㧷㧵㧺㧳‫ޓ‬㧸㧵㧿㨀
/7%4
%1&'01 ).: 
6;2' 
0#/' 176.+0' &'5%4+26+10%1&'ͳ 3	6;
࡙࠾࠶࠻ 70+6
Ꮏ੐᧚ᢱ⴫ ⴫␜ㇱ
(#4(%4/7%45*-#6 
+056#..#6+10/#6'4+#.5 &+52.#;70+6

⇟ภ ฬ‫ޓޓ‬⒓ ⇛‫ޓޓ‬࿑ ဳฬ㧛ⷙᩰ ᢙ㊂ ↪ㅜ㧛஻⠨
176.+0' 3	6; ੍஻ຠ 52#4'2#465
01 0#/' &'5%4+26+105 4'/#4-5
੍஻ຠ
㩃㨺㩖㩨㩣
%ㆬᛯ‫ޓ‬61$'5'.'%6'&
‫ޓޓޓޓޓޓޓޓޓޓ‬ 
 49/ ାภ㩃㨺㩖㩨㩣‫ޓޓޓޓ‬ 52
%14'%#$.' 52#4'2#465
5+)0#.%#$.'
%1&'01 &%↪
 
੍஻ຠ 52#4'2#465
‫ޓޓޓޓޓޓޓޓޓޓ‬ ੍஻ຠ
 49/ ାภ㩃㨺㩖㩨㩣‫ޓޓޓޓ‬
%14'%#$.'
5+)0#.%#$.' 52 
52#4'2#465

#%↪
%ㆬᛯ‫ޓ‬61$'5'.'%6'& 
‫ޓޓޓޓޓޓޓޓޓޓ‬ ઃዻຠ #%%'5514+'5
 49/ ାภ㩃㨺㩖㩨㩣‫ޓޓޓޓ‬
5+)0#.%#$.' ઃዻຠ
 (2 
%ㆬᛯ‫ޓ‬61$'5'.'%6'& #%%'5514+'5
‫ޓޓޓޓޓޓޓޓޓޓ‬
 49/ ାภ㩃㨺㩖㩨㩣‫ޓޓޓޓ‬ 
%14'%#$.' Ꮏ੐᧚ᢱ +056#..#6+10/#6'4+#.5
 㩃㨺㩖㩨㩣⚵ຠ
&8+&&5.+0-/ 
%#$.'#55'/$.;

㪈㪅䍘䍎䍢䍼ᧃየ䈮㪲㪁㪁㪴䈱ઃ䈇䈢䍳䍤䍍䍢䈲ઍ⴫䈱ဳᑼ㪆䍘䍎䍢䍼䉕⴫␜䈚䈩䈇䉁䈜䇯
㪛㪦㪬㪙㪣㪜㩷㪘㪪㪫㪜㪩㪠㪪㪢㩷㪛㪜㪥㪦㪫㪜㪪㩷㪚㪦㪤㪤㪦㪥㪣㪰㩷㪬㪪㪜㪛㩷㪜㪨㪬㪠㪧㪤㪜㪥㪫㪅
㪉㪅੍஻ຠ䈲䇮㪘㪚↪㪃㪛㪚↪䈪ㆬᛯ㗿䈇䉁䈜䇯
㪚㪟㪦㪦㪪㪜㩷㪪㪧㪘㪩㪜㩷㪧㪘㪩㪫㪪㩷㪛㪜㪧㪜㪥㪛㪠㪥㪞㩷㪦㪥㩷㪘㪚㩷㪦㪩㩷㪛㪚㩷㪧㪦㪮㪜㪩㪅
ဳᑼ㪆䍘䍎䍢䍼⇟ภ䈏䋲Ბ䈱႐ว䇮ਅᲑ䉋䉍਄Ბ䈮ઍ䉒䉎ㆊᷰᦼຠ䈪䈅䉍䇮䈬䈤䉌䈎䈏౉䈦䈩䈇䉁䈜䇯䇭䈭䈍䇮ຠ⾰䈲ᄌ䉒䉍䉁䈞䉖䇯
37#.+6;+56*'5#/' 㪫㪮㪦㩷㪫㪰㪧㪜㪪㩷㪘㪥㪛㩷㪚㪦㪛㪜㪪㩷㪤㪘㪰㩷㪙㪜㩷㪣㪠㪪㪫㪜㪛㩷㪝㪦㪩㩷㪘㪥㩷㪠㪫㪜㪤㪅㩷㩷㪫㪟㪜㩷㪣㪦㪮㪜㪩㩷㪧㪩㪦㪛㪬㪚㪫㩷㪤㪘㪰㩷㪙㪜㩷㪪㪟㪠㪧㪧㪜㪛㩷㪠㪥㩷㪧㪣㪘㪚㪜㩷㪦㪝㩷㪫㪟㪜㩷㪬㪧㪧㪜㪩㩷
㧔⇛࿑ߩኸᴺߪ‫ޔ‬ෳ⠨୯ߢߔ‫&ޓޕ‬+/'05+105+0&4#9+0)(144'('4'0%'10.;㧕 㪧㪩㪦㪛㪬㪚㪫㪅㩷㪨㪬㪘㪣㪠㪫㪰㩷㪠㪪㩷㪫㪟㪜㩷㪪㪘㪤㪜㪅
㧲㨁㧾㨁㧺㧻‫ޓ‬㧱㧸㧱㧯㨀㧾㧵㧯‫ޓ‬㧯㧻‫ޓ‬㧚㧘㧸㨀㧰 䋨⇛࿑䈱ኸᴺ䈲䇮ෳ⠨୯䈪䈜䇯㩷㩷㪛㪠㪤㪜㪥㪪㪠㪦㪥㪪㩷㪠㪥㩷㪛㪩㪘㪮㪠㪥㪞㩷㪝㪦㪩㩷㪩㪜㪝㪜㪩㪜㪥㪚㪜㩷㪦㪥㪣㪰㪅䋩
%/) %<(
)/:  
/7%4
%1&'01  ).: 
(2
ઃዻຠ⴫ ⴫␜ㇱ
/7%45*-#4 
#%%'5514+'5 &+52.#;70+6

⴫␜ㇱ↪‫ޓޓޓޓޓ‬
㩔㩩㩒㩣㩀㩔㩨㨺
‫(ޓ‬14&+52.#;70+6 
 41*5 52
2#0'.%18'4  52#4'2#465
%1&'01 #%↪
 
41*5 ੍஻ຠ 52#4'2#465
㩔㩩㩒㩣㩖㨹㩂 ⴫␜ㇱ↪‫ޓޓޓޓޓ‬
‫(ޓ‬14&+52.#;70+6 ੍஻ຠ
 
2#0'.*11- 
52 
%1&'01 

&%↪
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‫(ޓ‬14&+52.#;70+6 ઃዻຠ #%%'5514+'5
 :575
5'.(6#22+0)5%4'9 
ઃዻຠ
 (2 

Ꮏ੐᧚ᢱ +056#..#6+10/#6'4+#.5
㩃㨺㩖㩨㩣⚵ຠ
㪉㪅੍஻ຠ䈲䍂㪘㪚㪃㪛㪚䈪ㆬᛯ㗿䈇䉁䈜䇯
%(' %<&
%/&
).: 
↪ㅜ㧛஻⠨
‫(ޓޓޓޓޓޓ‬14
4'/#4-5
241%'551470+6
೙ᓮㇱ↪
3	6;
ᢙ㊂

%1&'01 

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%2
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ဳฬ㧛ⷙᩰ
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
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⇛‫ޓޓ‬࿑
176.+0'
+056#..#6+10/#6'4+#.5
Ꮏ੐᧚ᢱ⴫
6'4/+0#.12'0'4
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0#/' 176.+0' &'5%4+26+10%1&'ͳ 3	6; 0#/' 176.+0' &'5%4+26+10%1&'ͳ 3	6;
ขᛒ⺑᣿ᦠ
࡙࠾࠶࠻ 70+6 1/
12'4#614	5/#07#.
㩿㪁㪊㪀
೙ᓮㇱ ⵝ஻ⷐ㗔ᦠ
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241%'551470+6 +056#..#6+10/#07#.

㩿㪁㪊㪀
੍஻ຠ 52#4'2#465 ⵝ஻ⷐ㗔ᦠ +/
+056#..#6+10/#07#.
㩿㪁㪊㪀
੍஻ຠ 52#% ⵝ஻ⷐ㗔ᦠ
52#4'2#465 +/

㩿㪁㪈㪀 +056#..#6+10/#07#.
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੍஻ຠ 52  ⵝ஻ⷐ㗔ᦠ
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੍஻ຠ 52  ⵝ஻ⷐ㗔ᦠ
52#4'2#465 +/
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Ꮏ੐᧚ᢱ +056#..#6+10/#6'4+#.5 ⵝ஻ⷐ㗔ᦠ +/
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+056#..#6+10/#6'4+#.5 ᠲ૞ⷐ㗔ᦠ
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࿑ᦠ &1%7/'06
ขᛒ⺑᣿ᦠ 1/
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㩿㪁㪊㪀
㪈㪅䍘㪄䍢䍼⇟ภᧃየ䈱㪲㪁㪁㪴䈲䇮ㆬᛯຠ䈱ઍ⴫䍘䍎䍢䍼䉕⴫䈚䉁䈜䇯
㪚㪦㪛㪜㩷㪥㪬㪤㪙㪜㪩㩷㪜㪥㪛㪠㪥㪞㩷㪮㪠㪫㪟㩷㩹㪁㪁㩹㩷㪠㪥㪛㪠㪚㪘㪫㪜㪪㩷㪫㪟㪜㩷㪚㪦㪛㪜㩷㪥㪬㪤㪙㪜㪩㩷㪦㪝㩷㪩㪜㪧㪩㪜㪪㪜㪥㪫㪘㪫㪠㪭㪜㩷㪤㪘㪫㪜㪩㪠㪘㪣㪅
㪉㪅䋨㪁㪈䋩䋨㪁㪉䋩䋨㪁㪊䋩䈲䇮䈠䉏䈡䉏઀᭽ㆬᛯຠ䉕⴫䈚䉁䈜䇯
ဳᑼ䎒䱤䱚䱮䲈⇟ภ䬛䯾Ბ䬽႐ว䫺ਅᲑ䭗䭙਄Ბ䬺ઍ䭞䭚ㆊᷰᦼຠ䬶䬑䭙䫺䬸䬰䭘䬚䬛౉䬲䬵䬓䭍䬨䫻䫹䬹䬙䫺ຠ⾰䬾ᄌ䭞䭙䭍䬪䭢䫻
䋨㪁㪈䋩䋨㪁㪉䋩䋨㪁㪊䋩㪠㪥㪛㪠㪚㪘㪫㪜㩷㪪㪧㪜㪚㪠㪝㪠㪚㪘㪫㪠㪦㪥㩷㪪㪜㪣㪜㪚㪫㪠㪭㪜㩷㪠㪫㪜㪤㪅
䎷䎺䎲䎃䎷䎼䎳䎨䎶䎃䎤䎱䎧䎃䎦䎲䎧䎨䎶䎃䎰䎤䎼䎃䎥䎨䎃䎯䎬䎶䎷䎨䎧䎃䎩䎲䎵䎃䎤䎱䎃䎬䎷䎨䎰䎑䎃䎃䎷䎫䎨䎃䎯䎲䎺䎨䎵䎃䎳䎵䎲䎧䎸䎦䎷䎃䎰䎤䎼䎃䎥䎨䎃䎶䎫䎬䎳䎳䎨䎧䎃䎬䎱䎃
䎳䎯䎤䎦䎨䎃䎲䎩䎃䎷䎫䎨䎃䎸䎳䎳䎨䎵䎃䎳䎵䎲䎧䎸䎦䎷䎑䎃䎴䎸䎤䎯䎬䎷䎼䎃䎬䎶䎃䎷䎫䎨䎃䎶䎤䎰䎨䎑
㧔⇛࿑ߩኸᴺߪ‫ޔ‬ෳ⠨୯ߢߔ‫&ޕ‬+/'05+105+0&4#9+0)(144'('4'0%'10.;㧕
%<.
%1&'01  ).:  %1&'01  ).: 
6;2' %2  6;2' (2 
Ꮏ੐᧚ᢱ⴫ ઃዻຠ⴫
+056#..#6+10/#6'4+#.5 #%%'5514+'5
ᠲ૞㩤㩔㩨㨺  ೙ᓮㇱ↪ -$⋥ઃ㊄ౕ ᠲ૞ㇱ↪‫ޓޓޓ‬
‫(ޓޓޓޓޓޓ‬14 ‫(ޓ‬14%10641.70+6
   241%'551470+6  41*5
6'4/+0#.12'0'4 -$(+:+0)/'6#. 
%1&'01  %1&'
 01 
ᠲ૞㩤㩔㩨㨺 ೙ᓮㇱ↪ 㩂㩨㩥㩜㨹㩎 ᠲ૞ㇱ↪‫ޓޓޓ‬
   241%'551470+6  )
6'4/+0#.12'0'4 )41//'6 
%1&'01 %1&'
 01 
࿶⌕┵ሶ ೙ᓮㇱ↪ 㩏㩗㩨㩈㩛㩇$ ᠲ૞ㇱ↪‫ޓޓޓ‬
 (8
.(;'.  241%'551470+6  /:%9/$0+
%4+/210.7) 9#5*'4*'#&5&4'9$
 01 
㩂㩢㨻㩔㩨㩧㩘㩩㩧 ᠲ૞ㇱ↪‫ޓޓޓ‬
‫(ޓ‬14%10641.70+6
 6/
%75*+10 
%1&'
01 
ဳᑼ㩄㨺㩎㩨⇟ภ߇㧞Ბߩ႐ว‫ޔ‬ਅᲑࠃࠅ਄Ბߦઍࠊࠆㆊᷰᦼຠߢ޽ࠅ‫ޔ߅ߥޓޕߔ߹޿ߡߞ౉߇߆ࠄߜߤޔ‬ຠ⾰ߪᄌࠊࠅ߹ߖࠎ‫ޕ‬ ဳᑼ㩄㨺㩎㩨⇟ภ߇㧞Ბߩ႐ว‫ޔ‬ਅᲑࠃࠅ਄Ბߦઍࠊࠆㆊᷰᦼຠߢ޽ࠅ‫ޔ߅ߥޓޕߔ߹޿ߡߞ౉߇߆ࠄߜߤޔ‬ຠ⾰ߪᄌࠊࠅ߹ߖ
ࠎ‫ޕ‬
6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4
37#.+6;+56*'5#/' 241&7%637#.+6;+56*'5#/'
㧔⇛࿑ߩኸᴺߪ‫ޔ‬ෳ⠨୯ߢߔ‫&ޓޕ‬+/'05+105+0&4#9+0)(144'('4'0%'10.;㧕 㧔⇛࿑ߩኸᴺߪ‫ޔ‬ෳ⠨୯ߢߔ‫&ޓޕ‬+/'05+105+0&4#9+0)(144'('4'0%'10.;㧕
㧲㨁㧾㨁㧺㧻‫ޓ‬㧱㧸㧱㧯㨀㧾㧵㧯‫ޓ‬㧯㧻‫ޓ‬㧚㧘㧸㨀㧰 㧲㨁㧾㨁㧺㧻‫ޓ‬㧱㧸㧱㧯㨀㧾㧵㧯‫ޓ‬㧯㧻‫ޓ‬㧚㧘㧸㨀㧰
%/& %()
A-13 A-14
%1&'01  ).:  %1&'01  ).: 
6;2' (2  6;2' (2 
ઃዻຠ⴫ ઃዻຠ⴫
#%%'5514+'5 #%%'5514+'5
-$⋥ઃ㊄ౕ
6ᠲ૞ㇱ↪‫ޓޓޓ‬ 㩖㩡㨹㩆㨷㩙㨽㩧㩎㊄ౕ
 41*5  41*5
-';$1#4&(+:674'  (.75*/1706+0)2.#6' 
%1&' %1&'
01  01 
㩖㩨㩡㨼㩧㩎㩨㩆㨺㩣 ᠲ૞ㇱ↪‫ޓޓޓ‬ 㩏㩗㩨㩈㩛㩇$
 41*5  /:%9/$0+
$.+0&5'#.  9#5*'4*'#&5&4'9$
01  01 
㩂㩨㩥㩜㨹㩎 ᠲ૞ㇱ↪‫ޓޓޓ‬ ౐ⷺ㩏㨹㩎‫ޓ‬㧝⒳
 )  /575
)41//'6  *':076 
01  01 
㩏㩗㩨㩈㩛㩇$ ᠲ૞ㇱ↪‫ޓޓޓ‬ Ⲕ㩘㩨㩣㩎
 /:%9/$0+  /:575
9#5*'4*'#&5&4'9$ 9+0)5%4'9 
01  01 
 6/
47$$'4(116 
ဳᑼ㩄㨺㩎㩨⇟ภ߇㧞Ბߩ႐ว‫ޔ‬ਅᲑࠃࠅ਄Ბߦઍࠊࠆㆊᷰᦼຠߢ޽ࠅ‫ޔ߅ߥޓޕߔ߹޿ߡߞ౉߇߆ࠄߜߤޔ‬ຠ⾰ߪᄌࠊࠅ߹ߖ ဳᑼ㩄㨺㩎㩨⇟ภ߇㧞Ბߩ႐ว‫ޔ‬ਅᲑࠃࠅ਄Ბߦઍࠊࠆㆊᷰᦼຠߢ޽ࠅ‫ޔ߅ߥޓޕߔ߹޿ߡߞ౉߇߆ࠄߜߤޔ‬ຠ⾰ߪᄌࠊࠅ߹ߖ
ࠎ‫ޕ‬ ࠎ‫ޕ‬
6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4
241&7%637#.+6;+56*'5#/' 241&7%637#.+6;+56*'5#/'
%() %((
)1:  
%7(#4
%1&'01  ).: 
(2
ઃዻຠ⴫ 㩜㩝㩢㨺㩀㨺㩎㩨㨼㩧㩊㨺㩖㨴㨼㩇
%7 
#%%'5514+'5 /'/14;%#4&+06'4(#%'
⇟ภ ฬ‫ޓޓ‬⒓ ⇛‫ޓޓ‬࿑ ဳฬ㧛ⷙᩰ ᢙ㊂

176.+0' 3	6; Ꮏ੐᧚ᢱ +056#..#6+10/#6'4+#.5
Ꮏ੐᧚ᢱ
ขᚻ
41*5 %2 
*#0&.'  +056#..#6+10/#6'4+#.5
01  
/%9㩘㩩㩢㩆㨺㩣 ߘߩઁᎿ᧚ 16*'4+056#..#6+10/#6'4+#.5
㩥㨺㩈㩨㨹㩎ᐳ㊄
㩃㨺㩖㩨㩣⚵ຠ 2'26:$.
 /%9㩘㩩㩢㩆㨺㩣
415'66'9#5*'4 
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01 %#$.'#55;
 
ਣ⋁ዊ㩒㩆㩨 
 /:%9㩘㩩㩢㩆㨺㩣 㩃㨺㩖㩨㩣⚵ຠ/,
18#.*'#&5%4'9 
%1&' /,#52(% 
01  %#$.'#55;
ᵄᐳ㊄ 
 99575
9#8'9#5*'4 
01 
ဳᑼ㩄㨺㩎㩨⇟ภ߇㧞Ბߩ႐ว‫ޔ‬ਅᲑࠃࠅ਄Ბߦઍࠊࠆㆊᷰᦼຠߢ޽ࠅ‫ޔ߅ߥޓޕߔ߹޿ߡߞ౉߇߆ࠄߜߤޔ‬ຠ⾰ߪᄌࠊࠅ߹ߖ
6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4
241&7%637#.+6;+56*'5#/' 㪫㪮㪦㩷㪫㪰㪧㪜㪪㩷㪘㪥㪛㩷㪚㪦㪛㪜㪪㩷㪤㪘㪰㩷㪙㪜㩷㪣㪠㪪㪫㪜㪛㩷㪝㪦㪩㩷㪘㪥㩷㪠㪫㪜㪤㪅㩷㩷㪫㪟㪜㩷㪣㪦㪮㪜㪩㩷㪧㪩㪦㪛㪬㪚㪫㩷㪤㪘㪰㩷㪙㪜㩷㪪㪟㪠㪧㪧㪜㪛㩷㪠㪥㩷㪧㪣㪘㪚㪜㩷㪦㪝㩷㪫㪟㪜㩷㪬㪧㪧㪜㪩㩷
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Ꮏ੐᧚ᢱ +056#..#6+10/#6'4+#.5 12 176.+0' 3	6;
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 12 
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For antenna unit motor
%1&'01  ).: 
6;2' %2 
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 /25% 
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For display unit (MU-201CR/231CR, AC set)
For display unit (MU-201CR, DC set)
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%/'
A-27 A-28
For display unit (MU-231CR, DC set) For processor unit (24 VDC set)
For processor unit (100 VAC set) For GC-10
For processor unit (220 VAC set)
A-29 A-30
%1&'01  ).:  %1&'01  )/: 
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㩔㩧㩀㩨㨺㩅㩅㨾
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 
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 
㩇㩏㨹㩖㩩㩘㩨㩊㩧 㩇㩏㨹㩖㩩㩘㩨㩊㩧
 -$㩠㨽‫ޓ‬㩘㩨㩊㩧㩂㩥   -$㩠㨽‫ޓ‬㩘㩨㩊㩧㩂㩥 
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 
㩚㩀㩨㩁ᐔᐳ㊄ 㩚㩀㩨㩁ᐔᐳ㊄
 /575   /575 
(.#69#5*'4 (.#69#5*'4
 
㩔㩨㩒ᐳ㊄ 㩔㩨㩒ᐳ㊄
 /575‫ޓ‬   /575‫ޓ‬ 
524+0)9#5*'4 524+0)9#5*'4
 
౐ⷺ㩇㩢㩦㩢‫ޓ‬㩘㩨㩣㩎 ౐ⷺ㩇㩢㩦㩢‫ޓ‬㩘㩨㩣㩎
 /:575   /:575 
*':$1.6 *':$1.6
 
౐ⷺ㩇㩢㩦㩢㩈㩛㩇$ ౐ⷺ㩇㩢㩦㩢㩈㩛㩇$
 /:575   /:575 
*':$1.6 *':$1.6
5.166'&9#5*'4*'#&%1&'01
 
ဳᑼ㩄㨺㩎㩨⇟ภ߇㧞Ბߩ႐ว‫ޔ‬ਅᲑࠃࠅ਄Ბߦઍࠊࠆㆊᷰᦼຠߢ޽ࠅ‫ޔ߅ߥޓޕߔ߹޿ߡߞ౉߇߆ࠄߜߤޔ‬ຠ⾰ߪᄌࠊࠅ߹ߖࠎ‫ޕ‬ ဳᑼ㩄㨺㩎㩨⇟ภ߇㧞Ბߩ႐ว‫ޔ‬ਅᲑࠃࠅ਄Ბߦઍࠊࠆㆊᷰᦼຠߢ޽ࠅ‫ޔ߅ߥޓޕߔ߹޿ߡߞ౉߇߆ࠄߜߤޔ‬ຠ⾰ߪᄌࠊࠅ߹ߖࠎ‫ޕ‬
6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6
37#.+6;+56*'5#/' 37#.+6;+56*'5#/'
%(( %((
Jun.11'08 R.Esumi
/C[	4'UWOK
esumi 電子署名者 : esumi
DN: cn=esumi, c=JP - 日本, o=kisou, ou=toukatu, email=ryosuke.esumi@furuno.co.jp
日付 : 2007.12.26 17:43:45 +09'00'
1/Sep/2010 Y.NISHIYAMA
#RT	4'UWOK
電子署名者 : esumi
日付 : 2007.12.26 17:44:45 +09'00'
日付 : 2007.12.26 17:45:10 +09'00'
日付 : 2007.12.26 17:44:02 +09'00'
日付 : 2007.12.26 17:44:16 +09'00'
日付 : 2007.12.26 17:44:31 +09'00'
21/Jul/2011 Y.NISHIYAMA
20/May/2011 Y.NISHIYAMA
Apr. 05 '04
18/Feb/09 R.Esumi
110/115/ *1 *2
220/230VAC, DPYC-1.5
RU-3305
1φ,50-60Hz TB901
100VAC,1φ, DPYCY-1.5 *1 1 100VAC-H
IV-8sq. *1 *5
保護アース PE
50-60Hz 2 100VAC-C
氷結防止用 3 NC
造船所手配
保護ｱｰｽ
PE *1 *5
440VAC DPYC-1.5 FOR DE-ICER *4
IV-3.5sq.
RSB-096/097
1φ,50-60Hz
J1 J603(XH) J613 *3
RU-1803 *2
100-120/ TB1 9 03-2088(6-14P) 1 GC_LED TX_HV 1 RW-9600,15/30/40/50m,φ22 TB-801
RW-4747
DPYC-2.5 10 2 GC_HOLD チャ 1
200-240VAC 1 H NC 2 BRN TX_HV
1φ,50-60Hz 2 C 03-2090(3P) J5(VH) 11 3 GC_UP J610 2 NC
RSB-109(FAR-2127-5A)
1 GYRO_R2 12 4 GC_DOWN 24V_PLUS 1 ダイ(太) ORG[B] 3 24V_PLUS
空中線部 ANTENNA UNIT
J602 2 GYRO_R1 13 5 GC_0V 24V_MINUS 2 キ(太) YEL[B] 4 24V_MINUS
64P1106A *2
MPYC-7 1 チャ BRN 3 14 6 アオ(太) 5
GYROCOMPASS NC GC_5V MOTOR(+) 3 BLU[B] MOTOR(+)
2 アカ RED J4(VH) J7(NH) 03-2091(5P) J608 MOTOR(+) 4 ハイ(太) GRY[B] 6 MOTOR(+)
3 ダイ ORG 1 GYRO_S1 DATA1-H 1 チャ BRN 1 AD_DATA-H MOTOR(-) 5 ﾑﾗｻｷ(太) PPL[B] 7 MOTOR(-)
4 キ YEL 2 GYRO_S2 DATA1-C 2 アカ RED 2 AD_DATA-C MOTOR(-) 6 シロ(太) WHT[B] 8 MOTOR(-)
船内配電盤では3Aのブレーカを使用。
5 ﾐﾄﾞﾘ GRN 3 GYRO_S3 SHIFT1-H 3 ダイ ORG 3 AD_CLK-H SPU_RF_D-A 7 アカ RED 9 SPU_RF_D-A
6 アオ BLU 4 GYRO_T SHIFT1-C 4 キ YEL 4 AD_CLK-C SPU_RF_D-B 8 ﾐﾄﾞﾘ GRN 10 SPU_RF_D-B
7 ﾑﾗｻｷ PPL 5 GYRO_FG FG 5 RF_SPU_D-A 9 クロ BLK 11 RF_SPU_D-A
03-2089(5P) RF_SPU_D-B 10 シロ WHT 12 RF_SPU_D-B
*1 ﾐﾄﾞﾘ(太) 13
SG 11 GRN[B] SG
A-D CONVERTER TTYCS-4 GND 12 アカ(太) RED[B] 14 GND
最長 100m (延長するときは接続箱RJB-001が必要 )
J609 TB-802
IF_VIDEO IF_VIDEO
保護アース用ケーブルは緑／黄の絶縁線を使用のこと。
J2 J1 J9 J3
VGA CABLE 1 R_VIDEO R_VIDEO 1 5 R 1
RGB EXT. MONITOR 合計：31.5m以下 TOTAL: UP TO 31.5m
2 G_VIDEO GND 2 6 GND 2
3 B_VIDEO G_VIDEO 3 7 G XH10P-W-6P XH10P-W-5P-A
4 NC GND 4 8 GND
2.3/10/20/30m,φ9 1.5/10/20/30m,φ9
5 NC B_VIDEO 5 9 B
SLB-FRN4-A
*1 6 GND GND 6 10 GND J602 J501/J521 J502/J522 J501
COAX.(75Ω)ｘ5
VDR 7 GND H_SYNC 7 3 HS KEY_TXD-B 1 1 KEY_TXD-B KEY_TXD-B 1 1 KEY_TXD-B
03P9229A
DVI-RGB変換基板
8 GND GND 8 4 GND KEY_TXD-A 2 2 KEY_TXD-A KEY_TXD-A 2 2 KEY_TXD-A
DSUB-BNC-1
9 NC V_SYNC 9 1 VS 23 KEY_RXD-B 3 3 KEY_RXD-B KEY_RXD-B 3 3 KEY_RXD-B
CONVERTER *2
10 GND GND 10 2 GND 24 KEY_RXD-A 4 4 KEY_RXD-A KEY_RXD-A 4 4 KEY_RXD-A
RGB BUFFER PCB
RGB ﾊﾞｯﾌｧ 基板
BNCｺﾈｸﾀｺﾝﾊﾞｰﾀ
11 GND VCC 11 PWR_SW 5 5 PWR_SW PWR_SW 5 5 PWR_SW
12 NC GND 12 GND 6 6 GND GND 6 6 GND
13 H_SYNC -5/-12V 13 +12V 7 7 +12V +12V 7 7 +12V
*1: SHIPYARD SUPPLY
14 Y_SYNC GND 8 8 GND GND 8 8 GND
15 NC SYS_FAIL-H 9 9 SYS_FAIL-H NC 9 9 NC
-5/-12V
SYS_FAIL-C 10 10 SYS_FAIL-C NC 10 10 NC
DVI-RGB-1 *2
J507/J527
RGBﾋﾞﾃﾞｵｺﾝﾊﾞｰﾀ
RCU-016
RGB VIDEO CONVERTOR
1 SYS_FAIL-H
J615 J622 2 SYS_FAIL-C
チャ BRN 1 +12V SYS_ACK-H 1 3 SYS_ACK-H
RCU-014/015
アカ RED GND SYS_ACK-C 4 SYS_ACK-C
ダイ ORG 3 +5V
キ YEL 4 GND
ﾐﾄﾞﾘ GRN -12V J601
100-230VAC DPYC-2.5
*5: USE GRN/YEL WIRE FOR PROTECTIVE EARTH.
*4: USE 3A BREAKER IN SHIP'S MAINS SWITCH BOX.
DVI-D MONITOR NC 4
RS-232C CABLE *1
J3 J204 GND 5 PC
DVI-D/DSINGLELINK5M/10M,
TMDS_DATA2(-) 1 1 DVI0TX2_N NC 6
TMDS_DATA2(+) 2 5/10m,φ7 2 DVI0TX2_P NC 7
TMDS_DATA2/4_SHIELD 3 3 A_GND NC 8
NC 4 4 NC NC 9
NC 5 5 NC *1
FAR-2817/2827
FAR-2117/2127
DDC_CLOCK 6 6 NC J605
DDC_DATA 7 7 HDG-A 1
TTYCS-1Q HDG SENSOR
*3: MAX. 100m (JUNCTION BOX RJB-001 IS REQUIRED FOR EXTENSION)
P (IEC-61162-2)
NC 8 8 NC HDG-B 2
TMDS_DATA(-) 9 9 DVI0TX1_N HDG_GND 3
TMDS_DATA(+) 10 10 DVI0TX1_P *1
RPU-013
TMDS_DATA1/3_SHIELD 11 11 A_GND J606
12 12 NAV-A 1
TTYCS-1
NC NC NAVIGATOR
NC 13 13 NC NAV-B 2
MU-231/231CR
MU-190/201CR
(IEC-61162-1)
+5V_POWER 14 14 VCC NC 3
表示部 MONITOR UNIT
HOT_PLUG_DETECT NC
17 17 LOG-A 1
TMDS_DATAB(-) DVI0TXD_N SPEED LOG
MU-190/201CR/231/231CR
TMDS_DATAB(+) 18 18 DVI0TXD_P LOG-B 2 (IEC-61162-1)
TMDS_DATA0/5_SHIELD 19 19 A_GND NC 3
NC 20 20 NC
NC NC J619
22 22 ARPA-A 1
TMDS_CLOCK_SHIELD A_GND ECDIS
TMDS_CLOCK(+) 23 23 DVI0TXC_P ARPA-B 2 (IEC-61162-1)
TMDS_CLOCK(-) 24 24 DVI0TXC_N NC 3
TRK_TD-A 1
TTYCS-4
P TRACK_CONTROL
DVI-D MONITOR TRK_TD-B 2
*2 TRK_RD-A 3 (IEC-61162-1)
外部モニター J205
DVI CABLE P
1 SAME AS AVOBE TRK_RD-B 4
EXT. MONITOR 2 GND 5
24 RSV1_TD-A 1
RSV1_TD-B 2 NOT USED
RSV2_TD-A 4
RSV2_TD-B 5
DRAWN GND 6
J1 MJ-A3SPF MJ-A3SPF0015,10m,φ6 J614
+12V 1 シロ WHT 1 +12V
GND 2 クロ BLK J611
AIS_TD-A 1
FG 3 P AIS
AIS_TD-B 2 (IEC-61162-2)
MPS588-C NETWORK AIS_RD-A 3
P5E-4PTX-BL,10m,φ6.3 P
TXP 1 1 TXP AIS_RD-B 4
2 2 AIS_GND 5
TXN TXN
RXP 3 3 RXP *1
防水型ｶｰﾄﾞｲﾝﾀｰﾌｪｲｽ
NC 4 4 NC J612
P TTYCS-7
C3519-C01- T
MEMORY CARD I/F UNIT
NC 5 5 NC ALARM1_0 1 ALARM SYSTEM
RXN 6 6 RXN ALARM1_1 2
7 7 ALARM2_0 3
NC 8 8 NC ALARM2_1 4
ALARM3_0 5
LAN CABLE(CAT5) OR ALARM3_1 6
MPS588-C FR-FTPC-CY,10/20/30m,φ13 OPERATOR_FITNESS_0 7
TXP 1 シロ/ﾐﾄﾞﾘ WHT/GRN OPERATOR_FITNESS_1 8
TXN 2 ミドリ GRN EXT_ALM_ACK_N 9
RXP 3 シロ/ダイ WHT/ORG GND 10
NC 4 アオ BLU SYS_FAIL-H 11
NC 5 シロ/アオ WHT/BLU SYS_FAIL-C 12
RXN 6 ダイ ORG
ｽｲｯﾁﾝｸﾞ ﾊﾌﾞ
NC 7 シロ/チャ WHT/BRN J616(NH)
RW-4864,φ9.5
NC 8 チャ BRN GND 1
IV-1.25sq.*1 *5
03-163-6001-7
OP_HD_IN 2
HUB-100 (8 PORTS)
NR203PF-VVS1.25
AC 1 100-230VAC GND 3
3.5m, φ8.6
AC 2 1φ,50/60Hz OP_BP_IN 4
GND 3 GND 5
OP_TRIG_IN 6
OP_VIDEO_IN 8
J1 *1 J662
03P9485
1 1 MOTOR_DO J617(NH)
2 2 MOTOR_C GND 1 SUB DISPLAY1
OP_HD_1 2
BRU-001/002
BRAKE UNIT *2
OP_BP_1 4
J105 J652 GND 5
1 1 OP_TRIG_1 6
2 2 GND 7
03P9339
3 3 OP_VIDEO_1 8
5 5 J618(NH)
6 6 GND 1 SUB DISPLAY2
OP_HD_2 2
船舶用レーダー/ARPA
10 10 GND 3
OP_BP_2 4
OP_TRIG_2 6
OP_VIDEO_2 8
FAR-2117/2127/2817/2827 (AC SET)
FOR DE-ICER *4
200/220/230VAC DPYC-2.5
造船所手配。
RU-3424 *2
*1 9 03-2088(6-14P) 1 GC_LED
TB1 TX_HV 1 RW-9600,15/30/40/50m,φ22 TB-801
DPYC-6 10 2 GC_HOLD チャ 1
12-24VDC 1 (+) NC 2 BRN TX_HV
2 (-) 03-2090(3P) J5(VH) 11 3 GC_UP J610 2 NC
*1 2 13 5 GC_0V キ(太) 4
J602 GYRO_R1 24V_MINUS 2 YEL[B] 24V_MINUS
最長 100m (延長するときは接続箱RJB-001が必要 )。
RGB EXT. MONITOR VGA CABLE 1 R_VIDEO R_VIDEO 1 5 R 1 合計：31.5m以下 TOTAL: UP TO 31.5m
4 NC GND 4 8 GND 1.5/10/20/30m,φ9
2.3/10/20/30m,φ9
NC SYS_FAIL-H 9 9 SYS_FAIL-H NC NC
IV-8sq.
ﾐﾄﾞﾘ GRN 5 -12V J601
200-230VAC DPYC-1.5 RECTIFIER
RU-3423 *2
DVI-D MONITOR GND 5 PC
J3 J204 NC 6
DVI-D/DSINGLELINK5M/10M, 1
TMDS_DATA2(-) DVI0TX2_N NC 7
TMDS_DATA2(+) 2 5/10m,φ7 2 DVI0TX2_P NC 8
TMDS_DATA2/4_SHIELD 3 3 A_GND NC 9
NC 4 4 NC
NC NC J605
同上 DITTO
24 DDC_CLOCK 6 6 NC HDG-A 1
*3: MAX. 100m. (JUNCTION BOX RJB-001 IS REQUIRED FOR EXTENSION)
DDC_DATA 7 7 NC HDG-B 2
MU-190/231
NC 8 8 NC HDG_GND 3
TMDS_DATA(-) 9 9 DVI0TX1_N
TMDS_DATA(+) DVI0TX1_P J606
MU-201CR/231CR
11 11 NAV-A 1
TMDS_DATA1/3_SHIELD A_GND NAVIGATOR
NC 12 12 NC NAV-B 2 (IEC-61162-1)
NC 13 13 NC NC 3
+5V_POWER VCC *1
GND 15 15 GND J607
16 16 LOG-A 1
TMDS_DATAB(-) 17 17 DVI0TXD_N LOG-B 2 (IEC-61162-1)
TMDS_DATAB(+) 18 18 DVI0TXD_P NC 3
TMDS_DATA0/5_SHIELD 19 19 A_GND
21 21 ARPA-A 1
NC NC ECDIS
TMDS_CLOCK_SHIELD 22 22 A_GND ARPA-B 2 (IEC-61162-1)
TMDS_CLOCK(+) 23 23 DVI0TXC_P NC 3
TMDS_CLOCK(-) 24 24 DVI0TXC_N
J1 MJ-A3SPF J614 GND 3
MJ-A3SPF0015,10m,φ6
+12V 1 シロ WHT 1 +12V RSV2_TD-A 4
GND 2 クロ BLK 2 GND RSV2_TD-B 5
J302 MPS588-C P5E-4PTX-BL,10m,φ6.3 J611
1 1 AIS_TD-A 1
TXP TXP AIS
TXN 2 2 TXN AIS_TD-B 2 (IEC-61162-2)
RXP 3 3 RXP AIS_RD-A 3
NC 4 4 NC AIS_RD-B 4
5 5 AIS_GND 5
RXN 6 6 RXN
NC NC TTYCS-7
NC 8 8 NC ALARM1_0 1
C3519-C02- S
*1 ALARM1_1 2
LAN CABLE(CAT5) OR ALARM2_0 3
MPS588-C FR-FTPC-CY,10/20/30m,φ13 ALARM2_1 4
TXP 1 シロ/ﾐﾄﾞﾘ WHT/GRN ALARM3_0 5
TXN 2 ミドリ GRN ALARM3_1 6
RXP 3 シロ/ダイ WHT/ORG OPERATOR_FITNESS_0 7
NC 4 アオ BLU OPERATOR_FITNESS_1 8
NC 5 シロ/アオ WHT/BLU EXT_ALM_ACK_N 9
RXN 6 ダイ ORG GND 10
NC 7 シロ/チャ WHT/BRN SYS_FAIL-H 11
NC 8 チャ BRN SYS_FAIL-C 12
IV-1.25sq. *1 *5
AC 1 100-230VAC J616(NH)
3.5m, φ8.6 RW-4864,φ9.5
AC 2 1φ,50/60Hz GND 1 MASTER RADAR
GND 3 OP_HD_IN 2
OP_BP_IN 4
FAR-2117/2127/2817/2827 (DC SET)
  
ᵈ⸥
8#% &2;% 47
Ǿ*\ 6$
+8US
8#%Ǿ &2;%;   8#%A*
଻⼔ࠕ࡯ࠬ
*\  8#%A%
 0%
2' 
ⓨਛ✢ㇱ
  ᳖⚿㒐ᱛ↪
଻⼔㨻㨺㩇
8#% &2;% (14 &'+%'4 
+8US
ࠝࡊ࡚ࠪࡦ‫ޕ‬
ㅧ⦁ᚲᚻ㈩‫ޕ‬
45$
Ǿ*\
#06'00# 70+6
࠻࡜ࡦࠬ
,
:*, 
47 
 ,
64#05(14/'4
  6$  
2 )%A.'& 6:A*8  49OǾ 6$
49
&2;%
$1#4&
8#%  *   )%A*1.& 0%  ࠴ࡖ $40  6:A*8
Ǿ*\  % 
2,
8*  )%A72 ,  0%
 );41A4   )%A&190 8A2.75  ࠳ࠗ
ᄥ14)=$?  8A2.75
    )%A8 ࠠ
ᄥ
, );41A4 8A/+075  ;'.=$? 8A/+075
2# 
/2;%  ࠴ࡖ $40    ࠕࠝ
ᄥ
);41%1/2#55 0% )%A8 /1614
 $.7=$? /1614
);41 %108'46'4
 ࠕࠞ 4'& ,
8*,
0*
2, /1614
 ࡂࠗ
ᄥ)4;=$?  /1614
 ࠳ࠗ 14)  );41A5 &#6#*  ࠴ࡖ $40  #&A&#6#* /1614
 㩛㩡㩅㩁
ᄥ22.=$?  /1614
 ࠠ ;'.  );41A5 &#6#%  ࠕࠞ 4'&  #&A&#6#% /1614
 ࠪࡠ
ᄥ9*6=$?  /1614
⦁ౝ㈩㔚⋚ߢߪ#ߩࡉ࡟࡯ࠞࠍ૶↪‫ޕ‬
 㩚㩎㩨㩢 )40  );41A5 5*+(6*  ࠳ࠗ 14)  #&A%.-* 527A4(A&#  ࠕࠞ 4'&  527A4(A&A#
 ࠕࠝ $.7  );41A6 5*+(6%  ࠠ ;'.  #&A%.-% 527A4(A&$  㩚㩎㩨㩢 )40  527A4(A&A$
 㩛㩡㩅㩁 22.  );41A() ()  4(A527A&#  ࠢࡠ $.-  4(A527A&A#
24(A527A&$  ࠪࡠ 9*6  4(A527A&A$
 㩚㩎㩨㩢
ᄥ
5)  )40=$? 5)
#& %108'46'4 66;%5 )0&  ࠕࠞ
ᄥ4'&=$?  )0&
2'4(14/#0%' /10+614
, 6$
ᦨ㐳 O
ᑧ㐳ߔࠆߣ߈ߪធ⛯▫4,$߇ᔅⷐ ‫ޕ‬
+(A8+&'1 +(A8+&'1
ࡄࡈࠜ࡯ࡑࡦࠬࡕ࠾࠲࡯
଻⼔ࠕ࡯ࠬ↪ࠤ࡯ࡉ࡞ߪ✛㧛㤛ߩ⛘✼✢ࠍ૶↪ߩߎߣ‫ޕ‬
2
)0& )0&
6$ $1#4&
੤ᵹߪਔᭂಾࠅࡉ࡟࡯ࠞ㧔ㅧ⦁ᚲᚻ㈩㧕ࠍ⚻↱ߔࠆߎߣ‫ޕ‬
, , , ,
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 0% )0&   )0& OǾ
OǾ
 0% $A8+&'1   $
5.$(40#
  )0& )0&   )0& , ,, ,, ,
%1#:
ǡ㨤  )0& *A5;0%   *5  
8&4 -';A6:&$   -';A6:&$ -';A6:&$ -';A6:&A$
2#
&8+4)$ᄌ឵ၮ᧼
 )0& )0&   )0& -';A6:&#   -';A6:&# -';A6:&#   -';A6:&A#
&57$$0%
 0% 8A5;0%   85  -';A4:&$   -';A4:&$ -';A4:&$   -';A4:&A$
126+10
%108'46'4 
 )0& )0&   )0&  -';A4:&#   -';A4:&# -';A4:&#   -';A4:&A#
4)$ $7(('4 2%$
4)$ 㩔㩨㨹㩖㨱 ၮ᧼
$0% %100'%614
$0%㩄㩒㩂㩊㩄㩧㩔㩨㨺㩊
 )0& 8%%  294A59   294A59 294A59   294A59
 0% )0&  )0&   )0& )0&   )0&
&8+4)$ %108'45+10 $1#4&
 *A5;0% 8  8   8 8   8
 ;A5;0% )0&   )0& )0&   )0&
5*+2;#4& 5722.;
 0% 5;5A(#+.*   5;5A(#+.* 0%   0%
8
5;5A(#+.%   5;5A(#+.% 0%   0%
&8+4)$ 
,,
4)$㩕㩨㩍㩨㨿㩄㩧㩔㩨㨺㩊
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ᠲ૞ㇱ
%10641. 70+6
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 5;5A(#+.*
, ,  5;5A(#+.%
࠴ࡖ $40  8 5;5A#%-*   5;5A#%-*
ࠕࠞ 4'&  )0& 5;5A#%-%   5;5A#%-%
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