Furuno USA 9ZWRTR110 Marine Radar User Manual

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Date Submitted	2012-04-10 00:00:00
Date Available	2012-10-25 00:00:00
Creation Date	2012-03-13 10:06:01
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Installation Manual
MARINE RADAR
FAR-1467DS/1467DS-BB
SAFETY INSTRUCTIONS.................................................................................................................... i
SYSTEM CONFIGURATION .............................................................................................................. iii
EQUIPMENT LISTS ........................................................................................................................... iv
1. MOUNTING .....................................................................................................................................1
1.1 Antenna Unit ............................................................................................................................8
1.2 Control Unit..............................................................................................................................8
1.3 Processor Unit .......................................................................................................................10
1.4 Power Supply Unit ................................................................................................................. 11
2. WIRING .........................................................................................................................................12
2.1 Interconnection ......................................................................................................................12
2.2 Antenna Unit ..........................................................................................................................13
2.3 Processor Unit .......................................................................................................................18
2.4 Power Supply Unit .................................................................................................................23
2.5 Changing AC Power Specification of Processor Unit .............................................................25
2.5.1 Processor Unit......................................................................................................25
2.5.2 Power Supply Unit ................................................................................................26
2.6 Interswitch..............................................................................................................................27
2.7 Connection to CAN bus Network ...........................................................................................28
3. SETTING AND ADJUSTMENT......................................................................................................29
3.1 Setting Initial Setting Wizard ..................................................................................................29
3.2 Initializing Tuning ...................................................................................................................43
3.3 Adjustment of Video Level .....................................................................................................44
3.4 Heading Alignment.................................................................................................................45
3.5 Adjustment of Sweep Timing..................................................................................................46
3.6 Suppressing Main Bang.........................................................................................................47
3.7 Gyrocompass Signals ............................................................................................................48
4. Input Signal....................................................................................................................................54
4.1 NMEA Input Sentence............................................................................................................54
4.2 NMEA Output Sentence.........................................................................................................56
4.3 CAN bus port Input/output .....................................................................................................57
PACKING LISTS.............................................................................................................................. A-1
OUTLINE DRAWINGS .................................................................................................................... D-1
INTERCONNECTION DIAGRAMS.................................................................................................. S-1
www.furuno.com
All brand and product names are trademarks, registered trademarks or service marks of their respective holders.
The paper used in this manual
is elemental chlorine free.
ポFURUNO Authorized Distributor/Dealer
9-52 Ashihara-cho,
Nishinomiya, 662-8580, JAPAN
All rights reserved.
Printed in Japan
A :
0000
Z : MAR . 27, 2012
Pub. No. IME-36120-Z
(HIMA )
FAR-1467DS/1467DS-BB
*00017580810*
*00017580810*
* 0 0 0 1 7 5 8 0 8 1 0 *
SAFETY INSTRUCTIONS
The installer must read and follow all the safety instructions before attempting to install
theequipment.
DANGER
Indicates a potentially hazardous situation which, if not avoided,
will result in death ot serious injury.
WARING
Indicates a potentially hazardous situation which, if not avoided,
could result in death or serious injury.
CAUTION
Indicates a potentially hazardous situation which, if not avoided,
may result in minor or moderate injury.
Warning, Caution
Prohibitive Action
Mandatory Action
DANGER
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
mast.
WARNING
Radio Frequency Radiation Hazard
The radar antenna emits electromagnetic radio frequency (RF) energy which can
be harmful, particularly to your eyes. Never look directly into the antenna aperture
from a close distance while the radar is in operation or expose yourself to the
transmitting antenna at a close distance.
Distances at which RF radiation levels of 100 W/m2 and 10 W/m2 exist are given in
the table below.
Note: If the antenna unit is installed at a close distance in front of the wheel house,
it may be necessary to halt transmission within a certain sector of antenna
revolution. This can be done from the SCANNER menu.
Radiator type
Distance to Distance to
100 W/m2
10 W/m2
point
point
SN24AF
0.6 m
8.5 m
SN30AF
0.6 m
7.7 m
CAUTION
WARNING
Construct a suitable service platform
from which to install the antenna unit.
A proper license is necessary to
installa radar.
Serious injury or death can result
ifsomeone falls from the radar
antennamast.
See your dealer for details.
Observe the following compass
safedistances to prevent interference
to amagnetic compass:
Turn off the power at the
switchboardbefore beginning the
installation.
Standard Steering
compass compass
Fire, electrical shock or injury can result
ifthe power is on during the installation.
Do not install units other than the
antenna unit in a place subject to
rainor water splash.
Fire, electrical shock or injury can result
ifwater leaks into those units.
Do not open the equipment
unlesstotally familiar with electrical
circuitsand service manual.
Only qualified personnel should
workinside the equipment.
Use only the specified power cables.
Use of power cables that are thinner
thanthose specified can cause fire.
Securely attach protective earth to
theship's body.
The protective earth is required to
preventelectrical shock.
ii
Antenna Unit
(60 kw)
4.10 m
2.65 m
Processor Unit
(RPU-021)
2.35 m
1.50 m
Control Unit
(RCU-021)
0.30 m
0.30 m
Monitor Unit
(MU-190HD)
1.05 m
0.65 m
SYSTEM CONFIGURATION
ANTENNA UNIT
RADIATOR
SN24AF
SN30AF
CHASSIS
RSB-132
POWER SUPPLY UNIT
PSU-006
200 VAC, 3φ, 50 Hz
220 VAC, 3φ, 60 Hz
(For antenna motor)
110 VAC, 3φ, 60 Hz
TRANSFORMER
RU-5693
220 VAC, 3φ, 60 Hz
TRANSFORMER
RU-6522
100-115V/220-230 VAC,
1φ, 50/60 Hz
MONITOR UNIT
MU-190HD
or
MU-231*
*: Future use
(For high voltage)
GPS Navigator
12-24 VDC
(For MU-190HD)
100-230 VAC,
1φ, 50/60 Hz
(For MU-231)
CONTROL UNIT
RCU-021
PROCESSOR UNIT
PRU-021
Radar Remote Display
Speed Log
Gyrocompass
GIRO CONVERTER
GC-100
NMEA reading signal
FURUNO CAN bus
100-115 VAC/
220-230 VAC
1φ, 50/60 Hz
Equipment category
Antenna
Alarm
BRAKE UNIT BRU-001/002
AIS
Unit
SWITCHING HUB
HUB-100
Category
Exposed to weather
Other units Protected from weather
iii
EQUIPMENT LISTS
Standard Supply
Name
Antenna Unit
Processor Unit
Monitor Unit
Control Unit
Power Supply Unit
Installation
Materials
Spare Parts
Accessories
Type
SN24AF-RSB-132-110
SN30AF-RSB-132-110
RPU-021
MU-190HD
MU-231
RCU-021
PSU-006
CP03-33300
Code No.
000-017-041
CP03-33310
000-017-042
CP03-33320
000-017-043
CP03-31501
CP03-34301
CP03-31401
CP03-33330
CP03-33200
SP03-15501
000-573-780
001-169-300
008-572-750
000-017-053
000-017-258
008-572-730
SP03-15502
008-572-740
SP03-16301
001-104-910
SP03-16302
001-104-920
FP03-10101
008-538-730
iv
Qty
Remarks
1 2400 mm
3000 mm
Future use
1 15 m signal cable
RW-0013
20 m signal cable
RW-0013
30 m signal cable
RW-0013
For antenna unit
For antenna unit
For power supply unit
For processor unit
For control unit
1 For power supply unit,
100 VAC
For power supply unit,
220 VAC
For power supply unit,
100 VAC
For power supply unit,
220 VAC
1 For antenna unit
Optional Equipment
Name
Gyro Converter
Transformer Unit
Cable Assy.
Type
GC-100-2
RU-1803
RW-4864 1M
RW-4864 5M
RW-4864 10M
RW-4864 15M
DVI-D/D
SINGLELINK 5M
DVI-D/D
S-LINK 10M
RNS-08-132
Switching Hub
HUB-100
F Mount Fixture
Attachment Base
For 2165DS
OP03-212
OP03-219
Code No.
000-017-044
001-103-620-10
001-103-630-10
001-103-640-10
001-103-650-10
000-149-054-10
Remarks
Shipped separately
440 to 100 VAC, for processor unit
Radar signal cable, 1m
Radar signal cable, 5m
Radar signal cable, 10m
Radar signal cable, 15m
DVI cable for monitor, 5m
000-150-200-11
DVI cable for monitor, 10m,
MU-190H only
To adjust the brilliance of the display
unit. USB cable 5m
See the operator’s manual for
HUB-100.
For control unit (flash mount)
For retrofit from FR-2165DS/
1460DS/1760DS/2160DS
000-174-105-10
001-115-440
001-163-800
1. MOUNTING
This chapter explains installation of the antenna unit, the control unit and the processor unit and
the power supply unit. For installation of the monitor unit, please refer to the installation manual
attached to the monitor unit.
NOTICE
Do not apply paint, anti-corrosive sealant
or contact spray to coating or plastic
parts of the equipment.
Those items contain organic solvents that
can damage coating and plastic parts,
especially plastic connectors.
1.1 Antenna Unit
Mounting considerations
Please note the following when mounting the antenna unit.
•
•
Install the antenna unit either on top of the wheelhouse or on the radar mast, on a suitable
platform clear of any structures to avoid beam interferences. Install the platform horizontally.
Install safety measures such as handrail to safely perform maintenance.
A line of sight from the antenna unit to the bow of the ship should be the shorter of the
following two distances.
- Under 500m
- Not more than twice the ship’s length
Less than 500m or twice the ship’s length
Mount the antenna unit as high position as possible to detect targets as far as possible.
• Mount the antenna unit so that any blind sectors caused by objects (funnel, mast, etc.) are
kept to a minimum. Note the following considerations;
- No blind sectors should exist in the gray areas shown below.
- Any individual blind sector should be no more than 5 ̊ . Should multiple blind sectors occur,
the total of such blind sectors should not exceed 20 ̊ . Any two blind sectors separated
by 3 ̊ or less are regarded as one sector. (Fig. 2)
Heading
Heading
22.5°
22.5°
Less than 3°
a, b, c: Less than 5° respectivety.
a+b+c+...: Less than 20°
Fig. 1
•
•
•
Fig. 2
Install the antenna unit away from interfering high-power energy sources and other
transmitting radio antennas.
Keep the lower edge of the antenna unit above the safety rail by 500mm or more.
Two antenna units should be mounted as below:
more than 20
more than 1 m
•
•
•
•
•
•
No funnel, mast or derrick should be within the vertical beam width of the antenna unit in the
bow direction, especially zero degrees ±5 ̊m to prevent blind sectors and false echoes on the
radar picture.
Do not install the antenna unit near a magnetic compass. Secure the safety distance shown
on page ii to prevent errors in the magnetic compass.
Do not paint the radiator aperture.
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).
No funnel or other exhaust vent shall exist near the antenna unit. The antenna unit must not
be mounted where the temperature is more than 55 ̊C. Deposits and fumes from a funnel or
other exhaust vent can adversely affect the aerial performance and hot gases may distort
the radiator portion.
Leave sufficient space around the unit for maintenance and servicing. See the antenna unit
outline drawing for recommended maintenance space.
Installation precaution for S-band antenna unit
If an S-band antenna unit is mounted near the end of a platform to provide sufficient rotation
clearance for the radiator, the antenna unit, because of its weight, will swing up and down by
ship's vibration and rolling. This exerts excessive levels of stress at the base of the radiator,
which can damage the radiator. To prevent this, relocate the antenna unit, or if relocation is not
possible reinforce the platform.
Mast fro
DF, etc.
Remarkable vibration
(pitching)
Mounting
position
EXAMPLE
Mast for DF
Mount antenna unit directly
on mast or ona platform, as
near aspossible to center of
mast.
Mounting precaution for S-band antenna unit
Assembling the antenna unit
The antenna unit should be assembled before mounting it. Follow the procedure below to
assemble the antenna unit.
1. Screw the guide pins (2 pcs.) in the radiator.
2. Remove the protective cap from the choke guide and radiator.
3. Grease the O-ring and set it to the groove on the choke guide.
4. Place the radiator on the radiator bracket. (Radiator direction is shown by the logo on the
bracket. If reversely oriented the radiator cannot be set to the bracket.)
5. Loosely fix the radiator to the radiator bracket with hex bolts (M10x25), spring washers and
flat washers.
6. Remove the guide pins and tighten the hex bolts.
NOTICE
Antenna radiator
Do not remove teflon tube
from the center conductor.
Spring washer,
flat washer,
10 pcs. each,
M10x25
Protective cap
Radiator bracket
Choke guide
Radiator front
O-ring
Guide pin (2 pcs.)
Arrow mark for the radiator front.
CAUTION
Be sure to remove the guide pins
after fixing the radiator.
Injury may result if the guide pins loosen
and fall from antenna radar platform.
Assembling the antenna unit
How to hoist the antenna unit
1) Fix the antenna radiator to the antenna unit chassis as shown on page 1-3.
2) Attach the lifting fixtures and collars as shown below.
3) Position the radiator as shown below and arrange the ropes A and B.
Lifting fixture
Supplied as accessories.
Remove after installation.
Collar
Spring washer
Flat washer (M12)
Lifting hook (2 pcs.)
Hex bolt (M12x20)
(Torque: 63.5 Nm)
Remove lifting fixture, coat threads of
hex bolts with silicone grease, andthen
insert bolts in antenna chassis.
1.8m
2m
* 2. Place protective
material (cardboard,
foam, etc.) betweenrope
and radiator at the
asterisk-marked
locations, to prevent
Attachment of lifting fixtures, collar and ropes
Fastening the antenna unit to the mounting platform
WARNIN
Wear a hard hat and safety belt
when mounting the antenna unit.
Serious injury or death can result if
someone falls from the radar
antenna mast.
Construct a suitable service
platformfrom which to install the
antenna unit.
Serious injury or death can result if
someone falls from the radar
antennamast.
Do not open the equipment
unlesstotally familiar with
electrical circuitsand service
manual.
Only qualified personnel
shouldwork inside the equipment.
Note: The antenna is made of cast aluminum, which is subject to electrolytic corrosion if the
mounting platform is steel or iron. To prevent electrolytic corrosion, use the supplied seal
washers and corrosion-proof rubber mat.
Fix the antenna unit to the mounting location, referring to the procedure below and the
illustration on the next page.
1. Referring to the antenna outline drawing, prepare a mounting platform. Drill eight fixing
holes of 15 mm in diameter in the mounting platform or the deck.
• The diameter of the mast for the mounting platform must be over 250 mm.
• The thickness of the platform must be over 15 mm.
• The thickness of the platform must be over 15 mm.
Over 15 mm
Use two nuts.
At least 250 mm in
diameter,Thickness at least 6 mm.
Install the reinforcement
rib diagonally.
Ship’s bow
Bottom view
The thickness of the platform must be over 15 mm.
2. Lay the corrosion-proof rubber mat (supplied) on the mounting platform, aligning the holes
on the rubber mat with the fixing holes on the mounting platform.
3. Lay the antenna unit on the rubber mat, orienting it so the cable gland is directed toward
ship's bow. Remove the lifting fixtures and collars.
4. Fix the antenna base to the mounting platform with four M12?70 hex bolts, nuts, washers
and seal washers (supplied).
5. Arrange the ground point at a location on the mounting platform that is within 300 mm from
the ground terminal on the antenna unit. Fasten the ground wire (RW-4747, 340 mm) there,
using the M6?25 hex bolt, nut and washers.
6. Connect the other end of the ground wire to the ground terminal on the antenna unit.
7. Coat the ground terminal, ground point on the mounting platform and fixing bolts on the
antenna unit with anticorrosive sealant (supplied).
Seal
washer
Corrosionproof
rubber
mat
Use two nuts.
(Torque: 63.5 Nm)
Ground terminal
G1_1/4-A
Lay corrosion-proof rubber mat,
bolt antenna unit to mounting
location, and coat exposed
hardware with anticorrosive sealant.
Hex bolt
Flat washer
Flat washer
Spring washer
Hex nut
Ground wire
Coat with
anticorrosive
sealant.
Fasten ground wire and then
coat with anitcorrosive sealant.
OR
Ground wire
Hex nut
Spring washer
Flat washer
Hex bolt
Ground wire
Welding
Antenna chassis
Arrange ground terminal as close
as possible to antenna unit.
Ground terminal provided on antenna base.
Mounting the antenna unit
1.2 Control Unit
Please note the following when mounting the control unit.
•
•
•
•
•
Select a location where the control unit can be operated conveniently.
Locate the unit out of direct sunlight.
Locate the unit away from places subject to water splash and rain.
Determine the mounting location considering the length of the signal cable between the
control unit and the processor unit. The signal cable is shipped already attached to the
control unit.
Distance between the control unit and a magnetic compass should be more than the
compass safe distance (See page ii.)
Desktop mounting using KB mounting metal
1. Fasten the KB mounting metal with four tapping screws (5x20) to the mounting location.
Note the correct orientation. The cutout is on the rear side.
The citout is on
the rear side.
KB mounting metal
2. Place the control unit on the KB mounting metal and fix it with small binding screws (M5x12)
and 4- wave washers.
Control unit on top of KB mounting metal
Note: Connect the grounding wire before installation because the grounding terminal of the
control unit is located on the bottom of the unit.
3. Fit the screw cap supplied into mounting holes.
1.3 Processor Unit
Mounting location
Note the following when selecting a mounting location.
•
•
•
•
Locate the unit away from heat sources.
Locate the unit away from places subject to water splash and rain.
Leave sufficient space around the unit for maintenance and servicing. See the outline
drawing for recommended maintenance space.
Distance between the unit and a magnetic compass should be more than the safety distance
shown on page ii.
Mounting procedure
Fasten the processor unit with N6 bolts or tapping screws. Refer to the outline drawing at the
end of this manual.
1. When mounting the unit on a wall with tapping screws, prepare holes matching the screw
size.
2. Insert the tapping screws (6x30) into the two prepared holes on the upper side and loosely
screw in the tapping screws.
3. Tighten the tapping screws completely after hooking the unit on the upper tapping screws.
4. Tighten the tapping screws completely in the prepared holes on the lower side.
Mounting hole
2-R3.5
Mounting hole
2-φ8
10
1.4 Power Supply Unit
Mounting considerations
The power supply unit may be mounted on a bulkhead or a deck. Because it has no operation
requirements it can be located almost anywhere, provided the location is well ventilated.
Mounting procedure
Fix the unit to the mounting location with four 6?20 self-tapping screws (local supply). For
mounting on a bulkhead, do the following:
1. Mark location for mounting holes.
2. Screw in the self-tapping screws at the location for the bottom fixing holes, leaving a gap of
about 5 mm between the bottom of the screw head and bulkhead.
3. Set the unit to the screws inserted at step 1.
4. Fasten the self-tapping screws at the top of the unit.
5. Tighten all self-tapping screws.
2-φ7
420Âą1
FIXING
HOLE
WINDOW
LED
440
#50
240Âą1
TERMINAL
TERMINAL
R3
240Âą1
#: MAINTENANCE SPACE
Mounting dimensions for power supply unit
11
(11)
#250
.5
GND
TERMINAL
2. WIRING
Please note the following when wiring.
•
•
•
•
To lessen the chance of picking up electrical interference, avoid where possible routing the
signal cable near other onboard electrical equipment, especially other 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 should be unbroken; namely
no splicing allowed.
When connecting to analog signals (synchronous or step signals) of Gyrocompass, read
Chapter 3.7 “Setting Gyrocompass signals) prior to wiring.
2.1 Interconnection
AC100-115V/220-230V,
1ł, 50/60Hz
RNS-08-132, 5m
AC100-230V, 50/60Hz MU-231
MJ-A3SPF0018-050ZC, 5m (MU-190HD)
MPYC-7
RU-6522
RW-0013
15/20/30m
(Max. 50m)
PROCESSOR
UNIT
RU-5693
DPYC-2.5
AC110V, 3ł,
60Hz
AC220V, 3ł,
50Hz
TB801
TB802
TB805
TB901
DVI-D/D
SINGLELINK5M, 5m
AC200V, 3ł , 60Hz
AC220V, 3ł , 50Hz
TPYC-2.5
POWER
SUPLLY
UNIT
TPYCY-2.5
TPYCY-1.5
ANTENNA
UNIT
MONITOR UNIT
(MU-190HD/MU-231*)
Future use
DC12-24V
03S0017, 5m
: Fabrication required
DPYC-2.5
AC100-115V/AC220-230V
12
CONTROL UNIT
(RCU-021)
2.2 Antenna Unit
Antenna safety switch
Gland for HV cable (TYPCY-1.5)
Cover (right side)
Gland for power cable
(TPYCY-2.5)
Gland for signal cable (RW-9600)
Ground terminal
Antenna unit, front view
Fabricating signal cable RW-9600 and HV cable TYPCY-1.5
1. Use a ratchet or box wrench (diagonal 13 mm) to open port- and starboard-side covers on
the antenna unit.
2. Unfasten the gland nut for the signal cable and remove the gasket, flat washers (3 pcs.) and
gland cap. (The gland cap may be discarded.)
3. Fabricate the signal cable RW0-013 as shown below.
a) Remove the outer vinyl sheath by about 320mm.
320 mm
b) Unravel the exterior shield to expose the core
wires.
Vinyl sheath
c) Similarly, unravel the interior shield to expose the
core wires.
d) Combine the exterior and interior shields and
attach crimp-on lug (FV5.5-4 yellow, 4) at the
end of the shields.
e) Trim each wire matching to the position of the
terminal block. See the wiring diagram at the
back of this manual.
Interior shield
f) Remove insulation of each wire by about 6mm.
Exterior shield
Fabricate the coaxial cable as shown in the
diagram below.
4. In the order shown in the figure below, pass the gland nut, flat washers (3 pcs.) and gasket
onto the signal cable.
Armor
Gasket
Flat washer
(2)
Flat washer
(1)
13
Signal cable
Gland nut
5. As shown in the figure below, fold back the armor onto flat washer (2) and insert remaining
armor through flat washer (3). Cut off the part of the armor that protrudes past the flat
washers (2) and (3).
Fold back armor
Flat washer
(3) (2) (1)
Flat washer (2)
Cut off armor that protrudespast
flat washer.
6. Lead the signal cable through its cable gland and then into the chassis. Coat the threaded
part of gland nut with sealant (supplied) and then tighten the nut.
Gland for HV
cable
(TPYCY-1.5)
TB Board
Gland for
signal cable
(RW-9600)
TB801
Connect shield of signal cable here.
TB803
Coaxial
cable
TB802
Fastening coaxial cable
Antenna unit, front view
7. Using the terminal opener provided, connect cores (except coaxial cable) to their appropriate
locations on TB801 on the TB Board. Refer to the interconnection diagram for wiring details.
14
8. Connect the coaxial cable to TB802, referring to the right-hand illustration below..
Wiring WAGO connector
Push down.
Fastening coaxial cable
Fasten shield
by clamp.
Terminal opener
Taping
Wire
Twist
Fasten conductor with screw.
WAGO connector
NOTICE
Procedure
1. Twist core.
2. Insert terminal opener as shown and push
down.
3. Insert core into hole.
4. Release terminal opener.
5. Pull wire to confirm that it is firmly in place.
Fasten BARE conductor. Do not use
crimp-on lug, to prevent increased
contact resistance.
How to wire WAGO connector
9. Attach crimp-on lug (FV5.5-4) to the shield of the signal cable and fasten it with the screw at
the location specified in the illustration on the preceding page.
10. Process unused cores as follows:
a) Slip shrink tubing onto cores and heat.
b) Bind unused cores with cable tie.
11. Unfasten the gland nut for the HV cable and remove gasket, flat washers (3 pcs.) and gland
cap. (The gland cap may be discarded.)
12. Fabricate the HV cable as shown below.
20 mm
5 mm
Sheath
Armor
Sheath
Armor
Vinyl
sheath
L: 300 mm (red)
L: 370 mm (black, white)
Conductor
S = 1.50 mm2
φ = 1.56 mm
SECTIONAL VIEW
How to fabricate HV cable TYPCY-1.5
13. In the order shown in the figure below, pass the gland nut, flat washers (3 pcs.) and gasket
onto the HV cable.
15
14. As shown in the figure below, fold back the armor onto the flat washer and insert it thru the
other flat washer. Cut off the part of the armor that protrudes past the washer.
Flat washer
(1) (2) (3)
HV cable
Cut off armor that
protrudes past washer.
Gland nut
Gasket
15. Pass the HV cable through its cable gland and tighten gland nut.
16. Using the terminal opener, connect wiring to TB901, referring to the interconnection diagram.
CAUTION
High voltage is present at the No. 1 pin
of TB801. Miswiring at this pin can
damage the antenna unit.
17. Close the cover.
18. Seal the cable gland for the HV cable with putty.
Fabricating the power cable TYPCY-2.5
1. Use a ratchet or box wrench to open the port-side cover on the antenna unit.
2. Unfasten the gland nut for the signal cable and remove the gasket, flat washers (3 pcs.) and
gland cap. (The gland cap may be discarded.)
3. Fabricate the power cable as shown below. Unravel the armor. Wrap sheath with vinyl tape
to fix base of vinyl wire.
Armor
Sheath
25 mm
5 mm
Sheath
FV2-4
Conductor
S = 2.50 mm2
φ = 2.01 mm
230 mm
Vinyl sheath
Armor
SECTIONAL VIEW
How to fabricate power cable TYPCY-2.5
4. In the order shown in the figure below, pass the gland nut, flat washers (3 pcs.) and gasket
onto the power cable.
16
5. As shown in the figure below, fold back armor onto flat washer and insert it thru the other flat
washer. Cut off part of armor that protrudes past flat washer.
Flat washer
(1) (2) (3)
Power cable
Cut off armor that
protrudes past washer.
Gland nut
Gasket
Passing flat washer, etc. onto HV cable
6. Pass the power cable though its cable gland and then tighten the gland nut.
7. Pass the power cable to the rear of the antenna unit.
Terminal for power cable
Cable gland for power cable
(TPYCY-2.5)
Antenna unit, left-side view
8. Connect the power cable to its terminal, referring to the interconnection diagram.
9. Close the cover.
10. Seal the cable gland for the power cable with putty.
17
2.3 Processor Unit
Six cables are terminated at the processor unit in the basic structure; the antenna unit cable,
two display unit cables, power supply unit cable, control unit cable and the power supply cable.
Cables other than the power cable are connected to the processor unit with a connector.
Fabricate the power supply cable (DPYC-2.5) as below. Connect LAN cable (50cm) supplied
between the ports NETOWRK1 and NETWORK2 of the processor unit for installation of a single
unit. (See page 2-8)
Note: Pass the AC power supply line through a double-contact breaker (shipyard supply) to
connect to this unit.
Fabricating the power cable
1. Cut armor of the cable by 40mm.
2. Cut vinyl sheath by 35mm.
3. Remove insulation of the core wire by about 10mm. Fix crimp-on lugs (FV5.5-4, yellow
supplied) to the cores.
4. Peel paint of the armor by 40mm for making grounding connection.
5. Cover the end of armor with vinyl tape. Put the section where paint was peeled through the
cable cramp on the rear panel of the processor unit and fasten it.
6. Fasten the crimp-on lugs on the terminal block.
2.5
18
Cable clamp
Power suplly terminal base
Connecting cables to the rear panel of the processor unit
Cables between control units and cables between monitor units are connected to ports on the
real panel of the processor unit. Connect LAN cables of the installation material as shown below.
No.1
Mount unit
No.2
Mount unit
(Option)
LAN cable must be
connected when
interswitch function is
mot used.
Control
unit
Note 1) Monitor unit 1 and 2 must have the same resolution.
Note 2) USB ports USB1 and USB2 are not used.
Note 3) Mothing will be displayed on the monitor units are not
connected before the power is turned ON.
Fix USB cable to the metal
fixture with binding ties.
19
Connecting cables inside of the processor unit
Connect cables from the antenna unit, power supply unit and optional equipment are connected
to the TB board (03P9491) etc. inside of the processor unit. Open the cover of the processor
unit to find the TB board.
J301
Coaxial cable inside of antenna
cable
TB101
Gyro compass
(Syncho/Step signal)
J611 AIS
J620 AIS
J605 Heading
J606 GPS
J604 Power supp;y unit
Control lever for WAGO
connector is inlayed here.
J607
Ship
speed
log
J621
CAN bus
J619
ECDIS
J601
RS232C J624 J610
Antenna cable
J608
AD-100
J612 Alarm system
Contact point output power
supply load 100 mA
20
Cable fabrication for cables connected to the TB board (03P9491)
See the wiring diagram below for connecting the core cable.
Signal cable RW-0013
Fold back exterior shield over the vinyl sheath.
Vinyl sheath
250
Pull out a signal wire from the interior shield.
Interior shield
Vinyl sheath
Wind the interior shiled around the exterior shiled.
Connect to WAGO connector (next page)
14 5 9
Coaxial cable
Conductor
Fold back shield.
Clamp here by cable clamp
Optional cable: TTYCS-1/TTYCS-4/TTYCS-7/TTYCS-1T
Armor
60: Peed paint
Shield
L: Depends on a
equipment connected.
Vinyl tape
After exposing cores, wind shield around the armor.
Connect to WAGO connector,
Clamp here by cable clamp.
21
Wiring WAGO connector
Push down.
Fastening coaxial cable
Fasten shield
by clamp.
Terminal opener
Taping
Wire
Twist
Fasten conductor with screw.
WAGO connector
NOTICE
Procedure
1. Twist core.
2. Insert terminal opener as shown and push
down.
3. Insert core into hole.
4. Release terminal opener.
5. Pull wire to confirm that it is firmly in place.
Fasten BARE conductor. Do not use
crimp-on lug, to prevent increased
contact resistance.
Connection for main radar, sub-radar and track target displays
To use the equipment as main radar and connect to a sub-radar, connect to J617 (SLAVE1) or
J618 (SLAVE2) using the optional cable RW-4864. Up to two sub-radars can be connected.
To use the equipment as sub-radar and connect to a main radar, connect to J616 (MASTER)
using RW-4864.
To connect the equipment to a track target display unit, connect to J615 using RW-4864.
22
2.4 Power Supply Unit
Wire the power supply unit referring to the interconnection diagram. Be sure to ground the unit,
with IV-8sq wire (local supply).
Note 1: Motor specification cannot be changed in the field.
Note 2: Pass the AC line through a double-contact breaker (shipyard supply). Further, for
vessels where the power line is grounded, connect one end of the line to the C (common)
terminal and the other end to the H terminal.
CAUTION
High voltage is present at the
No. 6 pin of TB3. Miswiring at
this pin can damage the unit.
TB3: Power output line, control line
Ground
Cable clamp: Locate armor of cables in clamp.
TB1, TB2: Power input line
Power supply unit, inside view
Fabricating cable connected to terminal TB1, TB2, TB3
Terminal TB1: cable DPYC-2.5
See page 2-8 for sectional view of cable if using equivalent cable.
Armor
30: Remove paint.
FV2-4
120
Terminal TB2: cable TPYC-2.5 (for antenna motor)
Terminal TB3: #11-#13, cable TYPC-1.5 (between power control section and processor)
See page 2-5 for sectional views of these cables if using equivalent cables.
23
Armor
30: Peel paint
FV2-4
L: 100 (For TPYC-2.5)
150 (For TPYC-1.5)
Terminal TB3: #1-#3 TPYCY-2.5 (between power control section and antenna)
Terminal TB3: #6, #8, #9 TPYCY-1.5 (between power control section and antenna)
Vinyl sheath
Armor
FV2-4
30
L: 80 (For TPYC Y-2.5)
120 (For TPYC Y-1.5)
Armor
φ= TYPC Y-1.5: 14.5 mm
TYPC Y-2.5: 15.5 mm
Sheath
Conductor
S= TPYC Y-1.5 : 1.5 mm, TPYC Y-2.5 : 2.5 mm
φ= TPYC Y-1.5 : 1.56mm, TPYC Y-2.5 : 2.01mm
24
2.5 Changing AC Power Specification of Processor
Unit
To change AC power specification from AC100V to AC220V or vice versa, change the fuse and
add or remove jumper connector on the processor unit and power supply unit.
2.5.1 Processor Unit
Refer to the table and figures below to make changes. Adjust the overvoltage detection circuit
after the change. (a variable auto transformer is required.)
Note: To change from AC220V to AC100V, locally prepare the jumper connector, referring to
the figure shown below. (VH6P connector housing is fitted in J111.)
Power Supply
AC100V
AC220V
Fuse
7A
3A
Jumper connector P111
Necessary (between 1-2, 4-6)
Not necessary (no jumper wire needed.)
Processor unit
AC-PWR board
03P9494
Processor unit (Cover is removed)
Jumper wire for AC100 V
between 1-2, 1-6 short-circuit
25
How to adjust the overvoltage detection circuit:
1. Add or remove the jumper connector P111 and change the fuse.
2. Rotate R39 fully counterclockwise on the AC-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 AC100V specification: AC156V
- For AC220V specification: AC301V
5. Turn on the processor unit and rotate the R39 clockwise gradually until the overvoltage
detection circuit functions and the power supply cuts off.
6. Lower the output voltage of the variable transformer and confirm that the radar automatically
turns on with a voltage lower than AC155V or AC297V.
7. Gradually increase the output voltage of the variable transformer and confirm that the
overvoltage detection circuit functions at AC 156V or AC301V and the power supply is cut
off.
8. Assemble and connect the processor unit correctly.
2.5.2 Power Supply Unit
Refer to the illustration and table below to add (or remove) jumper connector P8 from the TX-HV
Board (03P9350) and change fuse.
After completing jumper and fuse arrangements, adjust the overvoltage detection circuit, using a
variable transformer.
Note: When switching from 220 VAC to 100 VAC, construct a jumper connector locally,
referring to the illustration below. (VH6 connector housing is to be plugged into J8.)
Power Supply
AC100V
AC220V
Fuse
5A
3A
Jumper connector P8
Required
Unnecessary
P8/J8
654321
Unfasten four screws and remove
cover for TX-HV Board.
Jumper connector
(VH6P)
CR23
R21
TX-HV Board
Fuse
TB1
26
How to adjust the overvoltage detection circuit:
1. Add or remove the jumper connector P8 as appropriate and change the fuse, referring to the
table above for details.
2. On the PWR board, set R21 fully clockwise.
3. Connect a variable transformer between ship's mains and the input power terminal board
TB-1 in 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 R21 counterclockwise gradually until the overvoltage detection
circuit activates (i.e., power supply cuts off).
6. Lower the output voltage of the variable transformer and confirm that the radar automatically
turns on with a voltage lower than 142 VAC or 284 VAC.
7. Gradually increase the output voltage of the variable transformer and confirm that the
overvoltage detection circuit activates at 144 V or 288 VAC of the variable transformer
output.
8. Assemble and connect the power supply unit.
2.6 Interswitch
Switching hub HUB-100 (optional) is necessary to switch between two processor units. Four
LAN cables are necessary. The following diagram shows the connection between the processor
units.
PROCESSOR UNIT
PROCESSOR UNIT
NETWORK1 NETWORK2
NETWORK1 NETWORK2
4 LAN cables
LAN port on
the reat panel
Swtiching
HUB-100
AC100-230V
Note: See the installation manual for HUB-100.
Either straight or cross LAN cables cab
be used.
NR203PF-VSS1.25
27
2.7 Connection to CAN bus Network
When connecting to CAN bus network through J621 (CAN bus port) of the processor unit, a
terminator may need to be connected. See the diagram below. For details of CAN bus network,
refer to “FURUNO can bus Network Design Guide” published by FURUNO for service
technicians.
TB board
JP103
J621
CAN bus
Jumper connector
between 1-2: With terminal resistance
between 3-4: No terminal resistance
28
3. SETTING AND ADJUSTMENT
This chapter contains sections 3.1 through 3.7. Please set the equipment in the order of the
sections.
Note 1: The processor unit with AC specification has a power supply switch at the rear panel.
Keep the switch ON at all times.
Note 2: Every unit has the same IP address set as the factory default. Therefore when
connecting the unit by inter-switching, turn on the power for each unit to set IP address.
(See pages 3-2 and 3-3). After setting IP address for all units, set “Common 1/Own
ship’s information” on page 3-3 while power is turned on for each unit.
3.1 Setting Initial Setting Wizard
After installing equipment and wiring, turn on the power and initialize the system according to
the initialization wizard.
1. Press the power switch
on in the operation unit.
2. Press the [Delete heading line] key and immediately press [Delete target] key five times.
SYSTEM SETUP MENU appears.
3. Select “Initialization Wizard” and click the left button. Initialization wizard appears after a few
seconds.
4. Do the setting on the first page and then press the [Next page] button.
5. After setting necessary items, go to the next page using the [Next page].
6. After all the settings are done, press the [Save settings/Finish] button. The system restarts
automatically and “Preparing” is displayed. Settings in each wizard page are explained in the
following pages.
29
UIP (User Interface Processor) page
Server: It means the chart server and normally YES remains as it is.
IP address: Set IP address of the processor unit UIP. For single installation, no change is
necessary. IP address needs to be changed for inter-switch connection (2-13 page). Change
only “xxx” parts of 172.031.003.xxx. xxx is an arbitrary number from 020 to 253. Set IP address
that is different from other IP addresses.
Note: Do not set the same IP address on UIP and FRP pages.
How to input numbers: Put the cursor on numbers and the background of the number changes
to green. Rotate the wheel or right click/left click to change the number. Press the [Set] button.
Pop-up menu appears to restart the system. Press [Yes] to restart the system after about 30
second to 1 min. After the restart, repeat the process.
Screen size: When the display unit is MU-231, select [XGA] and the monitor unit is MU-190HD,
select [SXGA] then press the [Set] button.
Cursor speed: Adjust the speed of cursor on the screen when moving the cursor with the
trackball. Adjust the cursor speed in accordance with user’s convenience.
30
FRP (Radar Processor) page
Partner: Set FRP which is paired with UIP. (See the next diagram.) It is set when two sets of
FAR-14x7 series radars are connected through the switching hub. Normally, the factory default
(FRP inside of the same processor unit) remains unchanged.
IP address: Factory default is shown. In case of inter-switch connection, set a value different
from other values and press the [Set] button. Restart begins and the above screen remains for
about 30 seconds.
Output power: Select 60kW.
Antenna unit
(Primary)
Antenna unit
(Secondary)
Processor unit
FRP
UIP
UIP
FRP
Processor unit
LAN
LAN
LAN
LAN
FRP
UIP
UIP
FRP
Hub
Monitor unit
Monitor unit
31
Common 1/Own Ship Data
Ship length: Input total length of ship. (tip of heading to end of stern)
Width of hull: Input width of hull
Steering position/Heading: Input distance from tip of ship to steering position.
Steering position/ Port (Starboard): Input distance from the center line of the ship to the steering
position toward port or starboard.
Center line
Steering position
L1: Ship length
W1: Width of hull
L2: Steering position/Heading
W2: Steering position/Port (Starboard)
Unit Composition Box: When changing unit name displayed on the screen, select the name to
be changed and press the [Change nickname] button. Input name from the keyboard displayed
on the screen.
32
FRP/Installation Setting
When interswitch is
connected, set all
FRP in the processor
unit.
Position of antenna unit (primary), antenna unit (secondary)
• Heading: Input distance from the tip of the ship to the antenna unit.
• Port (Starboard): Set the position of antenna unit from the center line of the ship toward port
or starboard direction.
Primary/Secondary: Set processor unit to function as primary radar or secondary radar.
33
Antenna unit
Processor
unit
Antenna unit
Processor
unit
J616
Processor
unit
Monitor unit
Monitor unit
Set as primary
Monitor unit
Procossor of this equipment is
set as secondary. (function as
a secondary instruction unit.)
Antenna height: Set antenna height from the sea surface from 5/7.5/10/15/20/25/30/35/40/50ｍ
/50ｍ.
FRP/Antenna Unit
Transmission Stop Area 1, Transmission Stop Area 2: To secure safety of crew, set the two
radar transmission stop areas in the start bearing (angle measured from the heading line) and in
the setup angle (area to stop transmission). Two areas can be set.
34
Heading
Start
bearing
Set
angle
Stop transmission sector
Antenna Rotation Switch: Set the switch by service technician when performing maintenance.
• OFF:
Antenna does not rotate at preparation and transmission (at maintenance).
• ON: Antenna rotates at transmission (Normal setting).
• EXT: Do not use.
When antenna rotation is at stop: Set it at maintenance time by service technician.
• Preparation: When antenna stops during transmission, the transmission is at STAND-BY
state.
• Transmission: Transmission continues when antenna stops during the transmission.
FRP/TT/Track PRESET
Set various parameters to be used in the target track function (TT: old name ARPA). Do not
change default settings unless you are familiar with details of TT. The picture below shows
default settings.
LAND SIZE: The minimum value determined to be land echo.
ANT SELECT: Type of antenna radiator used in the antenna unit.
AUTO ACQ CORRE: Update time of target that can be acquired automatically.
AUTO ACQ WEED: Time to the next automatic acquisition when there is some reserve of the
automatic acquisition point.
35
MIN X ERROR: The minimum error between predicted target position and measured position to
detect veering of target.
X ERROR 15NM: Threshold to detect veering of target which is over 15NM away.
MAG FE MIN OUT (Minimum echo width adjustment coefficient): The minimum echo width is
detected from the ratio of antenna beam width. The minimum echo width to be detected can be
adjusted by changing the ratio with this coefficient.
MAX RANGE: Select the maximum rage of track target from 24NM or 32 NM. When 32 NM is
selected, the repetition of transmission frequency of S1/S2 pulses becomes the 2nd trace.
Gate Size: Allowable error size between the predicted position of echo matching
Track filter:
Responsiveness to changes of movements of target
Lost count:
Number of scans until “lost” is determined
Maximum speed:
Maximum speed of tracked target (not valid for this system)
Track mode: Track target mode
Vector Display Start: Time elapsed from acquisition of target until display of vector.
FRP/SIO baud rate
Set communication baud rate corresponding to the equipment connected to NMEA port inside
of the processor unit. Set 4800 bps or 38400 bps depending on the communication speed of the
other party.
36
FRP/Others
Set signal type to display on radar screen. Normally set TRUE ECHO. Set EG for demonstration.
Do not use TT TEST.
FRP/FACTORY
It is not necessary to setup this page at installation.
Sensor/AIS
It is not necessary to setup parameters in this page at installation.
37
Sensor/GPS
Set parameters related to GPS navigation equipment connected.
Position of GPS antenna:
When reading data from multiple GPS’s, select GPS to use.
Heading: Set the distance from the tip of ship’s bow to GPS antenna.
Port (Starboard): Set the position of GPS toward port or starboard from the center line of the
ship.
Common 2/Alarm External Output 1,2,3,4
Set types of alarm signals to output from this equipment to alarm units such as FURUNO Bridge
Alarm System BR-1000, etc.
Alarm External Output 1/2/3/4 pages correspond to connections of pin No.1/2, No.3/4, No.5/6
and No.7/8 of the TB board J612/P612 inside of the processor unit.
38
Contact point output: Select among Alarm Output, Operation Report and Alarm Acknowledge as
shown below. The wiring diagram at the end of this manual shows the default condition. i.e.
Alarm External Output 1, 2 and 3 are for Alarm Output and Alarm External Output 4 is for
Operation Report.
Alarm Output: Output contact point signal to the alarm unit connected when problems occur in
this equipment. Types of problems are set in the check box on the right side on the screen.
Click the check box twice to enter check mark.
No trigger: No trigger signals
No video: No image signal
No turn signal: No bearing signals
Gyro: No gyrocompass bearing
Log: No speed signals from ship speed meter
EPFS: No positioning signals
TT collision alarm: Alarm for collision by the track target function
AIS collision alarm: Alarm for collision by AIS
CPA/TCPA unable to measure: Alarm for CPA/TCPA not set for AIS
Watch alarm: Alarm for watch
Depth alarm: Alarm for depth
XTE alarm: Alarm for course error
Anchor watch alarm: Alarm for anchor watch
Watch alarm: Alarm for target
Water temperature alarm: Alarm for water temperature
TT ship speed alarm: Alarm for ship speed by the track target function.
Border Alarm: Not used in this equipment
Arrival to Final Waypoint: Alarm for arrival at final waypoint
Grounding Warning: Not used in this equipment
AIS Active Full: Alarm for AIS active target full
Ship speed alarm: No ship speed signals from GPS
•
•
Control Report: Output contact signals. For example, it can be used as reset signals for
Watch Alarm by connecting to the alarm unit.
Alarm Acknowledge: Press the [Cancel Alarm] key in the control unit when alarm is
generated to stop the alarm and the contact signals are outputted to the alarm unit.
Alarm Output Polarity: Set polarity of output signals according to the equipment connected. Set
STANDARD when the other party is Normal Close and set REVERSE when the other party is
Normal Open.
39
Common 2/Demo Mode
This mode can be used at exhibitions, etc.
Demo mode: Set OFF in normal condition. Set INTERNAL DEMO when displaying data for
demonstration inside of the equipment. Set EXTERNAL DEMO when displaying data for
demonstration from external unit connected.
Note: Turn OFF signals from external sensors such as GPS when using Demo mode to display
the Demo mode correctly.
Select Internal Demo File: Specify data file for demonstration to display on the screen when the
Demo mode is set at INTERNAL DEMO.
40
Common 2/Source Selection ½
Set sources of various data to be displayed on the radar screen. LAN is displayed when no
equipment of corresponding signals is connected.
Depending on with/without [Priority order] button, settings are deferent.
• Items with [Priority order]: Click the [Priority] button to set data source. (Setting from the list
box is unavailable.)
• Items without [Priority order]: Set data source from the list box.
Using the [Priority order] button
Click the [Priority order] button to display the list of input signals. Reverse the display of the
desired selections then using the UP/DOWN arrow button, set the priority order. Click the [OK]
button.
Note: When there are no input signals, data sources up to the upper three data sources are
switched. In the below case, NAVIGATOR, HEADING and ARPA are switched in that order.
41
Own ship position: Set data source for own ship position. Set DEAD RECKON when GPS
navigation equipment is unavailable to predict own ship position from heading data and ship
speed data.
When GPS is selected, set data source from OWN SHIP POSITION and DATUM immediately
below GPS. When DEAD RECKON is selected, set data source from DEADREC.
Similarly, set data source for ground speed, water speed, date and time and heading.
In data source selection page 2, set data source for wind direction/speed, tide, water
temperature, water depth, AIS and external waypoint.
Click the [Save setting/Finish] button when all the settings are done. Wizard disappears and
radar restarts. Refer to the corresponding section to adjust radar image.
42
3.2 Initializing Tuning
Note: “Click” in the following explanations means to click the left button on the trackball.
1. Set the range at 48 NM.
2. Roll the trackball and put the cursor on TUNING on upper right side of the screen then click
the right button on the trackball
INITIALIZE TUNING appears at the center of the screen.
3. Click INITIALIZE TUNING
Automatic tuning starts and echo appears on the screen. Blinking message “Other alarm
Initializing tuning” appears in yellow during the automatic adjustment. Press the [Cancel Alarm]
key. Blinking changes to lighting. Initialization is completed when this message disappears.
Rotate the GAIN knob to adjust visibility of the screen.
4. Select RETURN and press the wheel to close the menu.
43
3.3 Adjustment of Video Level
After initializing tuning, adjust video level. Set the pulse width at LONG and do the following
after tuning bar is stable.
1. Press the [Delete target] key five times immediately after pressing the [Delete heading line].
The environment setting menu appears.
2. Click INSTALLATION SETTING. The INSTALLATION SETTING menu appears.
3. Select VIDEO LEVEL ADJUSTMENT and click the button.
4. Select MANUAL in VIDEO LEVEL ADJUSTMENT and then click the button.
5. Input adjustment value according to the length of Antenna Cable (RW-0013).
• Less than 20 m: 23
• 20 to 30 m: 25
• 30 to 50 m: 26 (Currently not used)
44
3.4 Heading Alignment
Some error may occur when installing the antenna unit. This installation error (timing error of the
heading switch) can be rectified in the processor unit.
Target
Correct
bearing
relative to
heading
Antenna mounting error toward port
(fast timing of heading switch)
Displayed
position
Image appears deviated clockwise
(Positive error)
Target
Displayed
position
Correct
bearing
relative to
heading
1. Set a range between 0.12t and 0.25 NM and select a target echo ahead near the heading
line.
2. Roll the EBL knob to bisect the target echo.
3. Read the target bearing.
4. Measure bearing of the target on the chart to calculate the difference between the actual
bearing and apparent bearing on the radar screen.
5. Click HEADING ALIGNMENT on the INSTALLATION SETTING menu.
45
6. Roll the wheel to input the bearing error. Setting range is 0~359.9 ̊. Initially only integer part
is selected. Roll the wheel to set a value. Press the wheel to select the decimal part then roll
the wheel to set the value.
7. Confirm that target echo is displayed at the correct position on the screen.
3.5 Adjustment of Sweep Timing
Sweep timing differs with respect to the length of the signal cable between the processor unit
and the antenna unit. Adjust sweep timing at installation to prevent the symptoms such as the
echo of a “straight” target (i.e. pier, jetty), on the 0.25 NM range, appearing on the display as
being pulled inward or pushed outward, or the range of target echoes near the center of the
screen appearing incorrectly.
(1) Correct
(2) Target pushed inward
(3) Target pushed outward
Image of a straight pier at different sweep timings
46
Method of adjustment
1.
2.
3.
4.
Transmit on the 0.25NM range
Adjust gain and sea clutter, etc. to display the radar image properly.
Display a straight target such as pier and jetty.
Click TIMING ADJUSTMENT on the INSTALLATION SETTING menu.
5. Roll the wheel to set the values so that pier and jetty appear straight and then press the
wheel. Setting range is 0~4095.
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 0.25NM range. Adjust sea clutter control to suppress sea clutter to show the
clearest image.
4. Click MAIN BANG on the INSTALLATION SETTING menu.
47
5. Rotate the wheel to set a suitable value so that the main bang disappears. The setting range
is 0 to 255.
6. Press RETURN after adjustment is completed.
7. Press the power supply switch
after all the adjustments are completed. The message
“Shutting down…” appears. Release the power supply switch immediately. The power is
turned off in about 15 seconds.
3.7 Gyrocompass Signals
Optional Gyro interface board (GC board) 64P1166 is necessary to connect to synchronous
signals or step signals of gyrocompass. Do the following in accordance with the specifications of
gyrocompass.
DIP Switch, Jumper Setting
Check the following items prior to DIP switch and jumper setting.
Gyrocompass
• AC synchronous
• DC synchronous
• DC step
• Full-wave pulsating current
• Have-wave pulsating current
AC synchronous
• Excitation frequency: 50/60Hz、400Hz、500Hz
• Rotor voltage: AC_____V
• Stator voltage: AC_____V
• Speed up ratio: 360x, 180x, 90x, 36x
DC synchronous
• Rotor voltage: DC_____V
• Stator voltage: DC_____V
• Speed up ratio: 360x, 180x, 90x, 36x
DC step
• Operating voltage: DC_____V
• Speed up ratio: 360x, 180x, 90x, 36x
Full-wave/Half-wave pulsation current step
• Excitation frequency: 50/60Hz、400Hz、500Hz
• Operating voltage: DC_____V
• Speed up ratio: 360x, 180x, 90x, 36x
Full-wave pulsation current
Half-wave pulsation current
48
Factory Default Setting
DIP switch and jumper connector on the GC board are ready to be connected to gyrocompass
of the following specifications:
•
•
•
•
•
•
Gyrocompass: AC synchronous
Frequency: 50/60 Hz
Rotor voltage: AC60V ~ AC135V
Stator voltage: AC60V ~ AC135V
Speed up ratio: 360x
Operating voltage: AC30V ~ AC135V
Setting Order
If the specifications of gyrocompass are different from the above specifications, change the DIP
switch and jumper settings on the GC board in the following order. (When the GC board is
installed at factory, the board needs to be removed first. See page 3-24.)
1. Gyrocompass
Gyro method
AC synchro
DC synchro
Full-wave pulsation current step
Half-wave pulsation current step
2. Excitation Frequency
Excitation frequency
50/60 Hz
400 Hz
500 Hz
DC
SW1-7
OFF
ON
OFF
ON
SW-1-4
OFF
OFF
ON
OFF
ON
SW1-5
OFF
OFF
OFF
ON
ON
SW1-6
OFF
OFF
OFF
OFF
OFF
JP1
#1, #2, #3
#2, #3, #4
#4, #5, #6
#4, #5, #6
#4, #5, #6
SW1-8
OFF
OFF
ON
ON
Notes
AC synchro, Pulsation current step
AC synchro, Pulsation current step
AC synchro, Pulsation current step
DC synchro, DC step
3. Rotor Voltage (between R1 and R2)
Gyrocompass requiring SW2-1 and JP3 settings is only AC synchronous. Rotor voltage of DC
synchronous is set at Step 6 Operating Voltage (JP4, JP5).
Rotor voltage
AC20 V to AC45 V
AC30 V to AC70 V
AC40 V to AC90 V
AC60 V to AC135 V
SW2-1
ON
OFF
ON
OFF
JP3
#2
#2
#1
#1
4. Stator Voltage (between S1 and S2)
Stator voltage
AC20 V to AC45 V or DC20 V to DC60 V
AC30 V to AC70 V or DC40 V to DC100 V
AC40 V to AC90 V
AC60 V to AC135 V
49
SW2-2
ON
OFF
ON
OFF
SW2-3
OFF
OFF
OFF
OFF
JP2
5. Speed up ratio
Speed increase ratio
360x
180x
90x
36x
SW1-1
OFF
ON
OFF
ON
SW1-2
OFF
OFF
ON
ON
SW1-3
OFF
OFF
OFF
OFF
6. Operating Voltage
Operating voltage
AC20 V to AC45 V or DC20 V to DC60 V
AC20 V to AC135 V or DC4 V to DC100 V
JP4
#2
#1
JP5
#2
#1
7. Transmission frequency of IEC61162 data, Version, Baud rate. (Not used for FAR1417/1427) Set according to addressee’s of data.]
Transmission frequency SW2-5
SW2-6
Output sentence
1 second
OFF
OFF
HDT+VHW
200mil. Sec.
ON
OFF
HDT
100mil. Sec.
OFF
ON
HDT
25mil. Sec.
ON
ON
HDT
Version
1.5
2.0
SW3-1
OFF
ON
Baud rate
4.800 bps
38.400 bps
SW3-2
OFF
ON
Turn OFF the DIP switch SW2-8 from ON and reset CPU.
SW1
SW2
J1
J6
JP2
JP3
J4
J7
SW3
J8
J3
JP4
50
JP5
JP1
Installing GC board
Follow the following steps when installing the GC board on site. When the GC board is preinstalled and shipped at factory and the DIP switch and jumper wire need to be changed, refer
to the following description to remove the GC board first. After the setting, reinstall the GC board.
Gyro converter GC-100-2, Code No.000-017-044
Name
GC board
NH connector
PH-XH connector
Connector
Type
64P1166
03-2290
03-2328 (P14-6P)
231-308/026-FUR
Code No.
001-103-040-00
001-105-020-00
001-105-010-00
000-150-114-11
Q’ty
1. Open the lid of the processor unit.
2. Remove the five connectors on the TB board/VIDEO AMP board. The connectors at five
locations need to be removed. See the picture below.
3. Remove four screws fastening the mounting base of the TB board/VIDEO AMP board and
loosen one screw to remove the mounting base.
Loosen screw (1 lacation)
J603
Remove screws at
two locations.
J608
(AD-10)
Remove
connection at
five locations.
Remove screws at two locations
from the rear panel
51
TB board/VIDEO AMP
board mounting base
4. Loosen two screws in the processor unit and remove the GC mounting base. (Screws only
need to be loosened.)
2 screws (botton of the processor unit)
GC mounting
5. Attach the GC board to the GC mounting base (The GC board is fastened with five screws at
five locations). Install the NH connector (cable assembly) and PH-XH connector (cable
assembly) to J7 and J1 accordingly.
J7
J1
6. Reinstall the GC mounting base.
GS mounting base
GS board
After GC board is mounted
52
7. Reinstall the mounting base of the TB board/VIDEO AMP board and fasten the connectors
removed at step 2.
8. Connect the six pin connectors of the cable assembly on the GC board to J603 on the TB
board. (See the illustration at step 3 above.)
9. Connect the other cable assembly on the GC board to 231-308/026-FUR to connect to J608
on the TB board. See page 2-11 for installation of the 231-308/026 –FUR connector.
Setting Bearing
Read heading of gyrocompass. Check the heading displayed on the radar screen with the
gyrocompass reading.
1. Click the MENU at about middle on the right side of the screen to display the main menu.
2. Click ECHO to display the echo menu.
3. Click [GC-10] to read the gyrocompass reading.
4. Right click several times to close the menu.
5. Confirm that the heading tracks with the movement of the gyrocompass.
53
4. Input Signal
This equipment inputs and outputs signals in NMEA0183 format and CAN bus format. The table
below shows the details. There are six NMEA signal ports and each has different input/output
sentences. Equipment and signals to be connected are as follows.
Signal Port Name
NMEA1
NMEA2
NMEA3
NMEA4
NMEA5
NMEA6
Connecting equipment
GPS navigation equipment
ECDIS
Ship speed meter
Heading bearing signal
AIS
INS
Port No.
J606
J619
J607
J605
J611
J620
Absolute maximum
Input: Current 50 mA, Voltage 6 V
Output:Voltage supply 16 V
Out voltage (Higt): 16V
Output corrent (Low): 50 mA
4.1 NMEA Input Sentence
•
•
•
Talker is arbitrary.
Baud rate 4800 ~ 38400 bps
NMEA0183, Ver.1.5, 2.0, 3.0
BWC
BWR
CUR
DBK
DBS
DBT
DPT
DTM
GBS
GGA
GLL
GNS
HDG
HDT
MTW
MWV
RMA
RMB
RMC
THS
VBW
VDR
VHW
Range and bearing to waypoint (Great circle route)
Range and bearing to waypoint (Rhumb line)
Current data
Water depth from keel
Water depth from sea surface
Water depth from transceiver
Water depth
Datum
Detection of GPS error
GPS positioning data
Latitude/longitude, UTC positioning
GNSS positioning data
Heading (Magnetic bearing), variation data
Heading (True bearing)
Water temperature
Wind direction/Wind speed
Navigation data
Navigation data
Navigation data
True bearing
Dual-axis ground/water ship speed
Drift speed (Set, Drift)
Water speed, Heading bearing
54
VTG
VWR
VWT
ZDA
True course, Ground speed
Relative wind direction/wind speed
True wind direction/wind speed
Current UTC time
NMEA5 (AIS)
• Talker is AI
• Baud rate 4800~38400 bps
• NMEA0183, Ver.1.5, 2.0, 3.0
ABK
ALR
VDM
VDO
Specify addressee/Broadcast acknowledge data
Alarm setting status
VHF data link message
VHF data link Own ship report
NMEA6 (INS)
ACK
PFEC. pireq
PFEC. pidat
Acknowledge (Talker is arbitrary.)
Type name, Transmissible NMEA data
Type name, Transmissible NMEA data
55
4.2 NMEA Output Sentence
NMEA2 (ECDIS)
•
•
•
Talker is RA
Baud rate 4800/38400 bps
NMEA0183, Ver.3.0
AAM
Arrival alarm
ALR
Alarm setting status
APB
Data for auto pilot
BOD
Bearing from start point to waypoint
OSD
Own ship data
RMB
Navigation information
RSD
Radar system data
TLL
Target latitude/longitude
TTM
Track target information
NMEA5 (AIS)
•
•
•
Talker is RA
Baud rate 4800/38400 bps
NMEA0183, Ver.3.0
ABM
Address specified binary safety related message
ACK
Acknowdge
BBM
Broadcast binary message
VSD
Voyage static data
NMEA6 (INS)
ALR
OSD
RSD
TTL
PFEC. pidat
PEEC. prireq
Alarm setting status
Own ship data
Radar system data
Target latitude/longitude
Data of specified property
Output request for specified property
56
4.3 CAN bus port Input/output
Input PGN
059392
059904
060928
061184
126208
126208
126208
126720
126720
126992
126996
126250
127259
128267
129025
129026
129029
129033
129044
129545
130306
130310
130511
130577
130816
130822
130823
ISO Acknowledgement
ISO Request
ISO Address Claim
Self Test Group Function
NMEA - Request group function
NMEA - Command group function
NMEA - Acknowledge group
Memory Clear Group Function
Reset Group Function
System Time
Product Information
Vessel Heading
Speed, Water referenced
Water, Depth
Position, Rapid Update
COG & SOG Rapid Up date
GNSS Position Data
Time & Date
Datum
GNSS RAIM Output
Wind Data
Environmental Parameters
Environmental Parameters
Direction Data
Self Test Report
Unit Division Code
Browser Control Status.
Output PGN
059392
059904
060928
061184
126208
126208
126208
126464
126464
126996
130821
130822
130823
ISO Acknowledgement
ISO Request
ISO Address Claim
Self Test Group Function
NMEA - Request group function
NMEA - Command group function
NMEA – Acknowledge group function
PGN List – Received PGN7s group function
PGN List – Received PGN7s group function
Product Information
NAV Source Select
Unit Division Code
Browser Control Status
57
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17/Nov/2011
Y.NISHIYAMA
D-1
17/Nov/2011
Y.NISHIYAMA
D-2
D-3
17/Nov/2011
Y.NISHIYAMA
17/Nov/2011
Y.NISHIYAMA
D-4
17/Nov/2011
Y.NISHIYAMA
D-5
NOTE
*1: SHIPYARD SUPPLY.
*2: OPTION.
*3: USE YEL/GRN WIRE FOR PROTECTIVE EARTH.
注記
＊１）造船所手配。
＊２）オプション。
＊３）保護アース用ケーブルは黄/緑の絶縁線を使用のこと。
12-24VDC
100-230VAC
1φ,50/60Hz
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7A:24V
MJ-A3SPF0018-050ZC 15A:12V
シロ WHT
5m
クロ BLK
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または OR
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2 AC
襨示部
MONITOR UNIT
MU-231
カラーLCD表示器
MARINE DISPLAY
MU-190HD
*1
IV-8sq.
DRAWN
19/Dec/2011
CHECKED
19/Dec/2011
APPROVED
SCALE
20/Dec/2011
DWG No.
C3612-C01- B
MOUSE
T.YAMASAKI
H.MAKI
MASS
Y.NISHIYAMA
kg
REF.No.
03-180-6001-4
SUB RADAR
SUB RADAR
TTYC-4
J626
+12V
GND
+5V
GND
-12V
EXT. TT(ARPA)
J615
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DITTO
J618
同上
DITTO
J617
GND
OP_HD_OUT
GND
OP_BP_OUT
GND
OP_TRIG_OUT
GND
OP_VIDEO_OUT
J616
GND
EXT_HD_IN
GND
EXT_BP_IN
GND
EXT_TRIG_IN
GND
EXT_VIDEO_IN
USB A
USB A
MONITOR 2
P621
SHIELD 1
NET-S 2
NET-C 3
NET-H 4
NET-L 5
EXT_NET-S 6
EXT_NET-C 7
FG 8
NC 9
P620
INS-TD-A 1
INS-TD-B 2
INS-RD-A 3
INS-RD-B 4
INS-COMMON 5
P619
ECDIS-TD-A 1
ECDIS-TD-B 2
ECDIS-RD-A 3
ECDIS-RD-B 4
NC 5
P612
ALARM1-0 1
ALARM1-1 2
ALARM2-0 3
ALARM2-1 4
ALARM3-0 5
ALARM3-1 6
OPERATOR-FITNESS-0 7
OPERATOR-FITNESS-1 8
EXT-ALARM-ACK-N 9
GND 10
SYS_FAIL-H 11
SYS_FAIL-L 12
NC 13
P611
AIS-TD-A 1
AIS-TD-B 2
AIS-RD-A 3
AIS-RD-B 4
AIS-COMMON 5
P607
LOG-RD-A 1
LOG-RD-B 2
NC 3
*1
TTYCS-4
*1
TTYCS-4
*1
TTYCS-4
*1
TTYCS-7
*1
TTYCS-4
*1
TTYCS-1
*1
TTYCS-1
*1
TTYCS-1T
(FURUNO CAN bus)
NAVNET EQUIPMENT
(IEC61162-2)
INS
FEA-2107ser.
ECDIS
ALARM SYSTEM
(IEC61162-2)
AIS
SPEED LOG
GPS NAVIGATOR
(IEC61162-2)
HEADING SENSOR
パソコン
（保守用）
PC FOR MAINTENANCE
RS-232C CABLE
RW-4747
外部機器（保守用）
EXT. EQUIPMENT
(FOR MAINTENANCE)
DVI 2
MONITOR 1
P606
NAV-RD-A 1
NAV-RD-B 2
NC 3
P605
HDG-RD-A 1
HDG-RD-B 2
HDG-COMMON 3
P601
NC 1
RXD 2
TXD 3
NC 4
GND 5
NC 6
NC 7
NC 8
NC 9
ﾄﾞｳｼﾞｸ COAX.CABLE
*2
RW-4864
*2
RW-4864
*2
RW-4864
*2
RW-4864
24
DVI 1
NETWORK1
E_TD-P
E_TD-N
E_RD-P
NC
NC
E_RD-N
NC
NC
GYRO CONVERTER
GC-100 *2
MASTER RADAR
USB CABLE
USB CABLE
*2
RNS-08-132,5m
*2
DVI-D/D SINGLELINK5M,5m
24
NETWORK2
E_TD-P
E_TD-N
E_RD-P
SW-P
SW-N
E_RD-N
NC
NC
P801/TB801
1 GND
2 GND
3 TX-TRIG
4 PL-A
5 PL-B
6 PL-C
7 TUNE-GATE
8 MAG-CUR-LVL
9 HEATER-H
10 HEATER-C
11 TUNING-IND
12 TUNING-CONT
13 MBS-L
14 LNA-MON
TB805
EXTERNAL EQUIPMENT
BRILL CTRL
24
RNS-08-132,5m
KEYBOARD
POWER
(+)
(-)
SHIELD
表示器
DISPLAY/MONITOR DVI
MU-190HD *2
MU-231
スイッチングハブ
SWITCHING HUB
HUB-100 *2
DVI-D/D SINGLELINK5M,5m
RJ45
RJ45
TB101
GYRO-R2
GYRO-R1-COM
GYRO-FG
GYRO-S1
GYRO-S2
GYRO-S3
GYRO-T
GYRO-FG
RED2
YEL4
BRN1
RED22
GRN5
PPL7
WHT9
ORG13
YEL[B]14
RED[B]12
PPL17
BLU6
ORG3
GRY18
BRILL CTRL
3.5m
18S1181,0.5m
または OR
STP(CAT5)
DVI
24
100-230VAC
1φ,50/60Hz
BRILL CTRL
操作部 CONTROL UNIT
RCU-021
刜垥部
PROCESSOR UNIT
RPU-021
*1
MPYC-7
アカ2
キ4
チャ1
アカ22
ﾐﾄﾞﾘ5
ﾑﾗｻｷ7
シロ9
ダイ13
キ(太)14
アカ(太)12
ﾑﾗｻｷ17
アオ6
ダイ3
ハイ18
P802/TB802
1 TX_HV_MONI_SEL
2 GND
3 GND
4 +12V
5 -12V
6 HD
7 BP
8 TX_SIG
9 GND
10 NC
11 TX_HV
空中線部
ANTENNA UNIT
RSB-132
GYROCOMPASS
*1
TTYC-4
J901
NC
USB1_P
USB1_N
GND
PWR_SW_P
PWR_SW_N
P12V
GND
GND
NC
P608
1 AD-DATA-H
2 AD-DATA-C
3 AD-CLK-H
4 AD-CLK-C
RW-0013,15/20/30m,
MAX.50m,φ18.4
クロ27
BLK27
クロ28
BLK28
クロ29
BLK29
ﾐﾄﾞﾘ(太)15 GRN[B]15
クロ(太)20 BLK[B]20
シロ(太)19 WHT[B]19
アオ(太)26 BLU[B]26
チャ21
BRN21
ハイ8
GRY8
ダイ(太)23 ORG[B]23
アオ(太)16 BLU[B]16
キ(太)24 YEL[B]24
ﾐﾄﾞﾘ(太)25 GRN[B]25
*1
TPYCY-1.5
*1
TPYCY-2.5
DVI
*1
IV-8sq.
TX_SIG
GND
+12V
PUS_ANT_ON
GND
NC
AD-100
10
*1 *3
PE
IV-8sq.
MJ-A10SPF
03S0017,5m
電源制御部
POWER SUPPLY UNIT
PSU-006
TB3
J1(PH10P)
NC
USB1_P
USB1_N
GND
PWR_SW_P
PWR_SW_N
P12V
GND
GND
10
NC
P624
PM-TRIG 1
PM-ARK 2
PM-EMB 3
PM-LVL 4
GND 5
GND 6
+12V 7
-12V 8
HD 9
BP 10
MOTOR-H 11
MOTOR-H 12
MOTOR-C 13
MOTOR-C 14
15
P610
GND 1
GND 2
TX-TRIG 3
PL-A 4
PL-B 5
PL-C 6
TUNE-GATE 7
MAG-CUR-LVL 8
HEATER-H 9
HEATER-C 10
TUNING-IND 11
TUNING-CONT 12
MBS-L 13
LNA-MON 14
J301
TB901
1 U
2 W
3 V
RADAR
TB1
MPYC-7 *1
10
11
12
13
14
*1
DPYC-2.5
トランス
TRANSFORMER
RU-1803 *2
TB1
1 U
2 V
TB3
NC
NC
TX-HV
NC
TX-SIG
GND
アカ RED
シロ WHT
クロ BLK
100-115/220-230VAC
1φ,50/60Hz
DPYC-1.5 *1
RU-6522 *2
TB2
1 U
2 V
3 W
NC
+12V
ANT_ON
GND
NC
440VAC,1φ,50/60Hz
100-115/220-230VAC
1φ,50/60Hz
DPYC-2.5 *1
DPYC-1.5 *1
RU-5693 *2
DPYC-1.5 *1
DPYC-2.5 *1
220VAC,3φ,50Hz
200VAC,3φ,50Hz
220VAC,3φ,60Hz
110VAC,3φ,60Hz
S-1
PE *1 *3
IV-8sq.
*1
IV-8sq.
TITLE
FAR-1467DS
名称
船舶用レーダー
相互結線図
NAME
MARINE RADAR
INTERCONNECTION DIAGRAM

---

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Metadata Date                   : 2012:03:27 16:17:21+09:00
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