JRC JMA-9832-SA, JMA-9833-SA, JMA-9822-6XA, JMA-9823-7XA, JMA-9822-9XA Instruction Manual
...Page 1
MARINE RADAR
EQUIPMENT
INSTRUCTION
MANUAL
Page 2
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PREFACE
Thank you very much for purchasing the JRC marine radar equipment, JMA-9800 ARPA series.
This equipment is a marine radar equipment designed to obtain safe operation of marine ships.
This equipment consists of a radar signal transmitter-receiver unit, a CRT display unit and a scanner
unit as its main units.
● Before operating the equipment, be sure to read this instruction manual carefully for correct
operation.
● Maintain this instruction manual so that operators can refer to it at anytime.
● Refer to this manual when any inconvenience or diffect occur.
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●
Before Operation
●
Pictorial Indication
Various pictorial indications are included in this manual and are shown on these equipment so that you
can operate them safely and correctly and prevent any danger to you and/or to other persons and any
damage to your property during operation. Such indications and their meanings are as follows.
Please understand them before you read this manual:
Examples of Pictorial Indication
The mark represents CAUTION (including DANGER and
WARNING).
Datailed contents of CAUTION (“Electric Shock” in the example on
the left.) is shown in the mark.
The mark represents prohibition.
Datailed contents of the prohibited action (“Disassembling
Prohibited” in the example on the left.) is shown in the mark.
The ● mark represents instruction.
Datailed contents of the instruction (“Disconnect the power plug” in
the example on the left.) is shown in the mark.
Warning Label
There is a warning label on the top cover of the equipment.
Do not try to remove, break or modify the label.
WARNING
This indication is shown where any person is supposed to be in danger
of being killed or seriously injured if this indication is neglected and
these equipment are not operated correctly.
This indication is shown where any person is supposed to be injured or
any property damage is supposed to occur if this indication is
neglected and these equipment are not operated correctly.
CAUTION
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●
Cautions to be Used during Operation
●
Do not touch the insides of the scanner, transmitterreceiver and display unit.
Touching any high voltage area, you will get an electric shock. For maintenance,
inspection and adjustment of internal parts of these equipment, consult with our
sales office or distributor in your district.
Since the scanner radiator rotates, do not approach it.
The scanner may start rotating suddenly, and consequently any person may be
struck and be injured. We recommend you to install the scanner radiator on the
roof of the wheel house, flying bridge, trestle, radar mast or any other high position
so that no person can approach it. When servicing the scanner, set the scanner
safety switch to the “OFF” position.
SCANNER RADIATION HAZARD
Never look up the antenna from which radiation is being
output from a distance less than the following.
Injury may result from exposure to radiation produced by the antenna (particularly
effects to the eyes) at a distance from the central front face of the antenna less than:
0.6 meter for NKE-1059/1052 (Radiation power density of 10 W/m2)
1.1 meter for NKE-1079/1075 (Radiation power density of 10 W/m2)
25 cm for NKE-1079/1075 (Radiation power density of 100 W/m2)
Install the scanner at any place higher than any person.
If being exposed directly to electric wave at close range, you may suffer adverse
influence.
When approaching the scanner for maintenance or
inspection, set the power switch of the display unit to the
“OFF” or “STBY” position.
If being exposed directly to electric wave to close range, you may suffer adverse
influence.
WARNING
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Use these radar only as assisting devices for navigation.
Also, the officer should make the final decision for
maneuvering by himself.
Use ARPA only as assisting device for navigation. Also,
the officer should make the final decision for maneuvering
by himself.
ARPA’s information such as vector, target value data, alarm, etc. may contain
some errors. Also, targets which cannot be detected with these radar cannot be
tracked at their acquisition points.
CAUTION
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◆◆◆◆
PRECAUTIONS BEFORE OPERATION
◆◆◆◆
■ Cautions for high voltage
High voltages from hundreds volts to tens of thousands volts are to be applied to the electronic
equipment such radio and radar devices. You do not face any danger during normal operation, but
sufficient cares are required for maintenance, inspection and adjustment of their internal
components. (Maintenance, check-up and adjustment of the inside of the equipment are prohibited
except by maintenance specialists.)
High voltages of tens of thousands volts are so dangerous as to bring an instantaneous death from
electric shock, but even voltages of hundred volts may sometimes lead to a death from electric
shock. To prevent such an accident, make it a rule to turn off the power switch, discharge capacitors
with a wire surely earthed on an end and make sure that internal parts are no longer charged before
you touch any parts inside these devices. At the time, wearing dry cotton gloves ensures you further
to prevent such danger. It is also a necessary caution to put one of your hands in the pocket and not
to use your both hands at the same time.
It is also important to select a stable foothold always to prevent additional injuries once you were
shocked by electricity. If you were injured from electric shock, disinfect the burn sufficiently and
get it taken care of promptly.
■ What to do in case of electric shock
When finding a victim of electric shock, turn off the power source and earth the circuit immediately.
If it is impossible to turn off the circuit, move the victim away promptly using insulators such as dry
wood plate and cloth without touching the victim directly.
In case of electric shock, breathing may stop suddenly if current flows to the respiration center in
the brain. If the shock is not so strong, artificial respiration may recover breathing. When shocked
by electricity, the victim will come to look very bad with weak pulse or without beating, resulting in
unconsciousness and rigidity.
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◆◆◆◆◆◆◆◆◆
FIRST-AID TREATMENTS
◆◆◆◆◆◆◆◆◆
First-aid treatments
As far as the victim of electric shock is not in dangerous condition, do not move him and practice
artificial respiration on him immediately. Once started, it should be continued rhythmically.
(1) Do not touch the victim confusedly as a result of the accident, but the rescuer may also get an
electric shock.
(2) Turn off the power source calmly and move the victim away quietly from the electric line.
(3) Call a physician or ambulance immediately or ask someone to call a doctor.
(4) Lay the victim on his back and loosen his necktie, clothes, belt, etc.
(5) a. Examine the victim’s pulse.
b. Examine his heartbeat bringing your ear close to his heart.
c. Examine his breathing bringing the back of your hand or your face close to his face.
d. Check the size of the pupils of his eyes.
(6) Open the victim’s mouth and take out artificial teeth, cigarette or chewing gum if any. Keep
his mouth open, stretch his tongue and insert a towel or the like in his mouth to prevent the
tongue from suffocating. (If it is hard to open his mouth due to set teeth, open it with a
screwdriver and insert a towel in this mouth.)
(7) Then, close his mouth so that foaming mucus does not accumulate inside.
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When pulse is beating but breathing has stopped
(Mouth-to-mouth respiration) Fig.1
(1) Tilt the victim’s head back as far as this face looks back. (A pillow may be inserted his neck.)
(2) Push his jaw upward to open his throat wide (to spread his airway).
(3) Pinch the victim’s nostrils and take a deep breath, block his mouth completely with yours and
blow into his mouth strongly. Take a deep breath again and blow into his mouth. Continue
this 10 to 15 times a minute (blocking his nostrils).
(4) Carefully watch that he has recovered his natural breathing and stop practicing artificial
respiration.
(5) If it is difficult to open the victim’s mouth, insert a rubber or vinyl tube into one of his
nostrils and blow into it blocking the other nostril and his mouth completely.
(6) When the victim recovers consciousness, he may try to stand up suddenly, but let him lie
calmly and serve him with a cup of hot coffee or tea and keep him warm and quiet. (Never
give him alcoholic drinks.)
Method of mouth-to-mouth respiration by raising head
(1) Raise the victim’s head. Support
his forehead with one of your
hand and his neck with the other
hand. / q
When you tilt his head
backward, the victim, in most
cases, opens his mouth to the
air. This makes mouth-to-mouth
respiration easy.
(2) Cover his mouth as widely as
possible with yours and press
your cheek against his nose /
w
or, pinch his nostrils with your
fingers to prevent air from
leaking. / e
(3) Blow into his lungs. Continue
blowing into his mouth until his
breast swells. Blow into his
mouth as quickly as possible for
the first 10 times.
Fig.1 Mouth-to-mouth respiration
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When both pulse and breathing have stopped
Perform the (Cardiac massage) Fig.2 and (Mouth-to-mouth respiration) Fig.1
When no pulse has come not to be felt, his pupils are open and no heartbeat is heard, cardiac arrest
is supposed to have occurred and artificial respiration must be performed.
(1) Place your both hands, one hand on the other, on the lower one third area of his breastbone
and compress his breast with your elbows applying your weight on his breast so that it is
dented about 2 cm (Repeat compressing his breast 50 times or so a minute). (Cardiac
massage)
(2) In case of one rescuer,
Repeat cardiac massages about 15 times and blow into his mouth 2 times quickly, and repeat
this combination.
In case of two rescuers,
One person repeats cardiac massages 5 times while the other person blow into his mouth
once, and they shall repeat this combination. (Perform the cardiac massage and mouth-tomouth respiration)
(3) Examine his pupils and his pulse sometimes. When the both have returned to normal, stop
the artificial respiration, serve him with a cup of hot coffee or tea and keep him warm and
calm while watching him carefully. Commit the victim to a medical specialist depending on
his condition. (Never give him alcoholic drinks.) To let him recover from the mental shock, it
is necessary for persons concerned to understand his situations and the necessary treatments.
Fig.2 Cardiac massage
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EQUIPMENT APPEARANCE
Scanner Unit Type NKE-1079 (12 feet)
Transmitter-receiver Unit Type NTG-3037
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Scanner Unit Type NKE-1075 (12 feet)
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Transmitter-receiver Unit Type NTG-3027
Scanner Unit Type NKE-1059-9 (9 feet)
Scanner Unit Type NKE-1059-7 (7 feet)
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Scanner Unit Type NKE-1052-9 (9 feet)
Scanner Unit Type NKE-1052-6 (6 feet)
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Display Unit Type NCD-4111 (Self-standing Type)
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Display Unit Type NCD-4111-T (Desktop Type) (Option)
Monitor Unit Type NWU-228 (Desktop Type) (Option)
Control Unit Type NDC-1097 (Desktop Type) (Option)
Keyboard Unit Type NCE-7292 (Desktop Type) (Option)
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PREFACE .....................................................................................i
Before Operation........................................................................ii
Cautions to be Used during Operation...................................iii
PRECAUTIONS BEFORE OPERATION
■ Cautions for high voltage ................................................................................................v
■ What to do in case of electric shock................................................................................v
FIRST-AID TREATMENTS
First-aid treatments.........................................................................................................vi
When pulse is beating but breathing has stopped .........................................................vii
When both pulse and breathing have stopped..............................................................viii
EQUIPMENT APPEARANCE ....................................................ix
GLOSSARY.............................................................................xxii
1. GENERAL AND EQUIPMENT
COMPOSITION
1.1 FUNCTIONS ..................................................................................1-1
1.2 FEATURES ....................................................................................1-3
1.3 CONFIGURATION .........................................................................1-5
1.4 EXTERIOR DRAWING...................................................................1-7
1.5 GENERAL SYSTEM DIAGRAM ..................................................1-20
1.6 COLLISION AVOIDANCE ............................................................1-27
2. NAME AND FUNCTION OF
CONTROL PANEL SWITCHES
AND FUNCTION OF
SOFTWARE BUTTONS
2.1 NAME AND FUNCTION OF CONTROL PANEL SWITCHES........2-1
2.2 FUNCTION OF SOFTWARE BUTTONS .......................................2-6
CONTENTS
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3. BASIC OPERATION
3.1 FLOW OF OPERATION
■ Power ON and Start the System...................................................................................3-2
■ Observe and Adjust Video ...........................................................................................3-4
■ Tuning Operations........................................................................................................3-6
■ Acquire and Measurement Data...................................................................................3-7
■ End the Operation and Stop the System.......................................................................3-7
3.2 MENU COMPOSITION..................................................................3-8
3.3 PREPARATION
■ Tuning ........................................................................................................................3-11
■ Sensitivity Control .....................................................................................................3-11
■ Display Brilliance Control .........................................................................................3-11
■ Contrast Control.........................................................................................................3-12
■ Sea Clutter Suppresion...............................................................................................3-12
■ Rain/Snow Clutter Suppression .................................................................................3-13
■ Brilliance Control.......................................................................................................3-13
■ Day/Night Mode Selection.........................................................................................3-19
■ Color Setting ..............................................................................................................3-20
■ Degaussing.................................................................................................................3-31
■ Radar Interference Rejection......................................................................................3-31
3.4 BASIC OPERATIONS
■ Move Cross Cursor Mark [ + ] by Trackball ............................................................3-33
■ Methods for Setting Menu Item with the Trackball...................................................3-34
■ Use EBLs (Electronic Bearing Lines)........................................................................3-40
■ Set Floating EBL........................................................................................................3-43
■ Select Range...............................................................................................................3-45
■ Set Maximum Range..................................................................................................3-45
■ Select Pulse Length....................................................................................................3-46
■ Select Bearing Display Mode.....................................................................................3-46
■ Cancel Ship’s Heading Line.......................................................................................3-47
■ Cancel All Display Items Except HL and Cross Cursor Mark [ + ] ..........................3-47
■ Display PI (Parallel Index Lines)...............................................................................3-48
■ Select True/Relative Motion Display Mode .............................................................3-50
■ Move Own Ship’s Display Position...........................................................................3-51
■ Display Other Ships’ Trails........................................................................................3-52
■ Display Own Ship’s Track.........................................................................................3-53
■ Marking......................................................................................................................3-56
■ Display Range Rings..................................................................................................3-57
■ Display Variable Range Markers ..............................................................................3-57
■ Set Guard Zones.........................................................................................................3-59
■ Reset Alarm Buzzer ...................................................................................................3-61
■ Set Alarm Sound Level..............................................................................................3-62
■ Check Operational Status...........................................................................................3-63
■ FUNCTION ...............................................................................................................3-72
■ Expand Targets...........................................................................................................3-73
■ Display Processed Videos..........................................................................................3-74
■ Reduce Radar Interference.........................................................................................3-75
■ Personal Information..................................................................................................3-76
■ Display of Navigational Information .........................................................................3-79
■ Function of OPTION Switch .....................................................................................3-96
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■ Operation of Performance Monitor............................................................................3-97
■ EBL Maneuvering....................................................................................................3-103
4. MEASUREMENT OF RANGE
AND BEARING
■ Measurement by Trackball...........................................................................................4-1
■ Measurement by Range Rings .....................................................................................4-2
■ Measurement by EBLs and VRMs ..............................................................................4-2
■ Measurement between Two Optional Points ...............................................................4-4
5. OPERATION OF ARPA
5.1 INITIAL SETTING
■ Setting Collision Decision Criteria ..............................................................................5-2
■ Automatic Setting Mode (System Start) ......................................................................5-4
■ Setting Range Scale......................................................................................................5-4
■ Setting Own Ship’s Speed............................................................................................5-5
5.2 DISPLAY MODE SETTING
■ Setting Motion Display Mode......................................................................................5-7
■ Setting Bearing Display Mode.....................................................................................5-7
5.3 TARGET ID No. DISPLAY ..............................................................5-8
5.4 TARGET ACQUISITION
■ Automatic Acquisition .................................................................................................5-9
■ Manual Acquisition....................................................................................................5-11
■ Use of Automatic and Manual Acquisition Modes....................................................5-13
5.5 ARPA DATA DISPLAY
■ Display of Vectors......................................................................................................5-14
■ Display of Past Positions............................................................................................5-17
5.6 DATA DISPLAY
■ Types of Data Display................................................................................................5-20
■ Method of Displaying Target Data ............................................................................5-20
■ Clearing Data Display................................................................................................5-22
5.7 ALARM DISPLAY
■ Dangerous Target Alarm............................................................................................5-23
■ Guard Zone Alarm .....................................................................................................5-24
■ Lost Target Alarm......................................................................................................5-25
■ System Function Alarm .............................................................................................5-26
■ Gyro Set Alarm ..........................................................................................................5-26
5.8 TRIAL MANEUVERING
■ Trial Maneuvering in the True Vector Mode.............................................................5-27
■ Trial Maneuvering in the Relative Vector Mode .......................................................5-28
■ Executing the TRIAL Function..................................................................................5-29
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5.9 DELETING UNWANTED TARGETS
■ Deleting Targets.........................................................................................................5-30
5.10 ARPA SETTING
■ Simulation ..................................................................................................................5-33
■ Gate Size ....................................................................................................................5-35
■ Test Video..................................................................................................................5-37
6. TRUE AND FALSE ECHOES ON
DISPLAY
■ Radar Wave with the Holizon......................................................................................6-1
■ Strength of Reflection from the Targets.......................................................................6-3
■ Sea Clutters ..................................................................................................................6-3
■ False Echoes.................................................................................................................6-3
■ Display of Radar Transponder (SART) .......................................................................6-6
7. MAINTENANCE
7.1 ROUTINE MAINTENANCE............................................................7-1
7.2 MAINTENANCE ON EACH UNIT
■ Scanner NKE-1079/1075/1059/1052...........................................................................7-2
■ Transmitter-receiver Unit NTG-3037/3027 .................................................................7-4
■ Display Unit NCD-4111 ..............................................................................................7-5
■ Coaxial Cable (JMA-9833-SA)....................................................................................7-5
■ Wave Guide (JMA-9823-7XA/9XA)...........................................................................7-6
8. COUNTERMEASURES FOR
TROUBLE AND ADJUSTMENT
8.1 FUNCTION CHECK.......................................................................8-1
8.2 TROUBLESHOOTING .................................................................8-16
8.3 COUNTERMEASURES TO TROUBLE .......................................8-17
8.4 REPLACEMENT OF MAJOR PARTS
■ Replacement of Magnetron (V1/V101/V201) ...........................................................8-24
■ Replacement of TRHPL (A202/A303) (JMA-9833-SA/9832-SA) ...........................8-24
■ Replacement of Diode Limiter (A203/A303)
(JMA-9823-7XA/9XA, JMA-9822-6XA/9XA) ........................................................8-24
■ Replacement of PIN Attenuator (A302)
(JMA-9823-7XA/9XA, JMA-9822-6XA/9XA) ........................................................8-24
■ Replacement of CRT (V1) .........................................................................................8-25
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8.5 ADJUSTMENTS
■ Tuning Adjustment ....................................................................................................8-27
■ Bearing Adjustment ...................................................................................................8-28
■ Range Adjustment......................................................................................................8-29
■ Antenna Height Setting..............................................................................................8-30
■ Vector Constant..........................................................................................................8-31
■ Quantization Level.....................................................................................................8-32
■ Adjustment of NSK Unit to Gyro Compass and Log ................................................8-33
■ Main Bang Suppression Adjustment..........................................................................8-36
8.6 SETTING
■ True Bearing Setting ..................................................................................................8-38
■ Ship Speed Setting .....................................................................................................8-39
■ Navigation Equipment Setting...................................................................................8-41
■ Current Correction (SET/DRIFT) Setting..................................................................8-43
■ Time/Day Display Setting..........................................................................................8-45
■ Adjustment of Performance Monitor (NJU-63/64)....................................................8-47
■ Adjustment of Interswitch..........................................................................................8-49
9. AFTER-SALES SERVICE
■ When you Request for Repair......................................................................................9-1
■ Recommended Maintenance ........................................................................................9-1
10. DISPOSAL
10.1 DISPOSAL OF THE UNIT .........................................................10-1
10.2 DISPOSAL OF USED BATTERIES ...........................................10-1
10.3 DISPOSAL OF USED MAGNETRON........................................10-1
11. SPECIFICATION
11.1 JMA-9833-SA TYPE RADAR.....................................................11-1
11.2 JMA-9832-SA TYPE RADAR.....................................................11-2
11.3 JMA-9823-7XA/9XA TYPE RADAR...........................................11-3
11.4 JMA-9822-6XA/9XA TYPE RADAR...........................................11-4
11.5 SCANNER (NKE-1079) .............................................................11-5
11.6 SCANNER (NKE-1075) .............................................................11-6
11.7 SCANNER (NKE-1059-7/9) .......................................................11-7
11.8 SCANNER (NKE-1052-6/9) .......................................................11-7
11.9 TRANSMITTER-RECEIVER UNIT (NTG-3037) ........................11-9
11.10 TRANSMITTER-RECEIVER UNIT (NTG-3027) .....................11-10
11.11 DISPLAY UNIT (NCD-4111) ...................................................11-11
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11.12 ARPA.......................................................................................11-12
11.13 PERFORMANCE MONITOR (NJU-63) ..................................11-13
11.14 PERFORMANCE MONITOR (NJU-64) ..................................11-13
APPENDIX
JMA-9800 ARPA Series Radar System Composition...........................A-1
JMA-9800 ARPA Series Radar System Circuit Block...........................A-3
INTERSWITCH KIT (NQE-3015J) OPERATION MANUAL ..................A-8
Fig.101 Block Diagram of Radar, Type JMA-9833-SA and JMA-9823-7XA/9XA
Fig.102 Block Diagram of Radar, Type JMA-9832-SA and JMA-9822-6XA/9XA
Fig.103 Terminal Board Connection Diagram of Radar, Type JMA-9833-SA
Fig.104 Terminal Board Connection Diagram of Radar, Type JMA-9832-SA
Fig.105 Terminal Board Connection Diagram of Radar,
Type JMA-9823-7XA/9XA
Fig.106 Terminal Board Connection Diagram of Radar,
Type JMA-9822-6XA/9XA
Fig.107 Primary Power Supply Block Diagram of Radar, Type JMA-9833-SA
Fig.108 Primary Power Supply Block Diagram of Radar, Type JMA-9832-SA
Fig.109 Primary Power Supply Block Diagram of Radar,
Type JMA-9823-7XA/9XA
Fig.110 Primary Power Supply Block Diagram of Radar,
Type JMA-9822-6XA/9XA
Fig.111 Internal Connection Diagram of Scanner Unit, Type NKE-1079
Fig.112 Internal Connection Diagram of Scanner Unit, Type NKE-1079-D
Fig.113 Internal Connection Diagram of Scanner Unit, Type NKE-1075
(100 V AC, 1-phase)
Fig.114 Internal Connection Diagram of Scanner Unit, Type NKE-1075
(220 V AC, 3-phase)
Fig.115 Internal Connection Diagram of Scanner Unit, Type NKE-1075
(220 V AC, 1-phase)
Fig.116 Internal Connection Diagram of Scanner Unit, Type NKE-1059-7/9
(1-phase)
Fig.117 Internal Connection Diagram of Scanner Unit, Type NKE-1059-7/9
(3-phase)
Fig.118 Internal Connection Diagram of Scanner Unit, Type NKE-1052-6/9
(1-phase)
Fig.119 Internal Connection Diagram of Scanner Unit, Type NKE-1052-6/9
(3-phase)
Fig.120 Internal Connection Diagram of Transmitter-receiver Unit,
Type NTG-3037
Fig.121 Internal Connection Diagram of Transmitter-receiver Unit,
Type NTG-3027
Fig.122 Internal Connection Diagram of Display Unit, Type NCD-4111
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Fig.123 Internal Connection Diagram of CRT Monitor of Display Unit,
Type NCD-4111
Fig.124 Internal Connection Diagram of Power Supply of Display Unit,
Type NCD-4111
Fig.125 List of NSK and LOG Select Switches of Display Unit, Type NCD-4111
Fig.126 Setting Table of Speed LOG Select Switches of Display Unit,
Type NCD-4111
Fig.127 Setting Table of Gyro Compass and Gyro Select Switches of Display
Unit, Type NCD-4111
Fig.128 Terminal Board Connection Diagram of 2-unit Interswitches System,
Type NQE-3015N
Fig.129 Terminal Board Connection Diagram of 3-unit Interswitches System,
Type NQE-3015N
Fig.130 Internal Connection Diagram of Interswitch, Type NQE-3015N
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GLOSSARY
This section describes the main terms used for this equipment and general related maritime terms.
ARPA:
Automatic Radar Plotting Aid
AZI MODE (Azimuth Stabilization MODE):
Bearing display mode
Anti-clutter rain (FTC):
Rain/snow clutter suppression
Anti-clutter sea (STC):
Sea clutter suppression
BCR (Bow Cross Range):
Bow crossing range
BCT (Bow Cross Time):
Bow crossing time
BRG (Bearing):
Bearing
CPA (Closest Point of Approach):
The closest point of approach from own ship, which
can be set by the observer.
COG (Course Over Ground):
Course relative to the ground.
CUP (Course-Up):
Own ship’s course is pointed to the top center of the
radar display.
DRIFT:
The current velocity for manual correction or the
current speed on the horizontal axis of the 2-axis log
is displayed.
EBL (Electronic Bearing Line):
An electronic bearing line originated from own
ship’s position.
ENH (Enhance):
A target can be enlarged.
Floating EBL (Floating Electronic Bearing Line):
Floating electronic bearing line originated from an
arbitrary point.
GND:
Stabilization relative to the ground.
GPS (Global Positioning System):
The position of a GPS receiver can be determined by
the signals from GPS satellites.
Guard Zone:
Alarm ring against intrusion
HDG (Heading):
Own ship’s heading bearing.
The display ranges from 000 to 360 degrees as
scanned clockwise.
HL (Heading Line):
Ship’s heading line
HUP (Head-Up):
Own ship’s heading line is always pointed to the top
center of the radar display.
IMO:
International Maritime Organization
Interswitch:
A device to switch over two or more radar display
units and two or more antennas.
IR (Interference Reflector):
Radar interference reflector
MRK (Mark):
Reflection plot
NM (Nautical Mile):
1 NM = 1852 m
NSK (North Stabilization Kit):
True bearing unit
NUP (North-Up):
The north is always pointed to the top center of the
radar display.
OWN TRACK:
Display function of own ship’s track
Performance Monitor:
An additional unit to monitor the transmitted power
and the receiving sensitivity of radar equipment.
PI (Parallel Index Line):
Parallel index line
PIN (Personal Access Code):
Information set by the user (personal code)
PROC (Process):
Target processing function
Relative Vector:
A target’s movement predicted relative to own ship.
RR (Range Rings):
Fixed range ring
RM (Relative Motion):
Relative motion presentation
Own ship’s position is fixed and other targets move
relative to own ship.
S/X Band:
Radio frequency bands
S: 3 GHz band, X: 9 GHz band
SCANNER:
Antenna
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SEA:
Sea clutter suppression
SET:
The current direction for manual correction or the
current speed on the horizontal axis of the 2-axis log
is displayed.
SOG (Speed Over Ground):
Speed relative to the ground.
STAB (Stabilization):
Stabilization
TCPA (Time to Closest Point of Approach):
The time to approach the closest point from own
ship.
TM (True Motion):
True motion presentation
A presentation in which own ship and any other
target move depending on their individual
movements.
TRAILS:
Function of displaying tracks of other ships.
TRIAL:
Trial maneuvering
True Vector:
A target’s true movement predicted as the result of
entering own ship’s direction and speed.
VRM (Variable Range Marker):
Variable range marker
WATER
Stabilization relative to the water
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GENERAL AND EQUIPMENT
COMPOSITION
NAME AND FUNCTION OF CONTROL PANEL SWITCHES
AND FUNCTION OF SOFTWARE BUTTONS
BASIC OPERATION
MEASUREMENT OF RANGE AND BEARING
OPERATION OF ARPA
TRUE AND FALSE ECHOES
ON DISPLAY
MAINTENANCE
COUNTERMEASURES FOR
TROUBLE AND ADJUSTMENT
AFTER-SALES SERVICE
DISPOSAL
SPECIFICATION
APPENDIX
1
2
3
4
6
7
8
9
10
APPENDIX
5
11
1
2
3
4
5
6
7
8
9
10
11
Page 28
Page 29
SECTION 1
GENERAL AND EQUIPMENT
COMPOSITION
1.1 FUNCTIONS
....................................................
1-1
1.2 FEATURES
......................................................
1-3
1.3 CONFIGURATION
...........................................
1-5
1.4 EXTERIOR DRAWING
....................................
1-7
1.5 GENERAL SYSTEM DIAGRAM
...................
1-20
1.6 COLLISION AVOIDANCE
■ Problems of Collision Avoidance in Navigation
.........
1-27
■ Marine Accidents and Collisions
...............................
1-27
■ Basic Concept of Collision Avoidance
......................
1-28
■ Relative Vector and True Vector
...............................
1-29
■ Radar and Collision Avoidance
.................................
1-29
Page 30
1 – 1
1.1 FUNCTIONS
This equipment is a high-performance radar equipment consisting of a scanner unit, a transmitterreceiver unit and a 29-inch color raster-scan CRT display unit.
This radar complies with the current performance standards of the IMO.
1.1.1 Functions of This System
The JMA-9800 ARPA series is a color radar system designed to comply with the international standards
of the IMO. The main functions include; sea clutter and rain/snow clutter suppression, sensitivity
adjustment, interference reflector, bearing and range measurement using a trackball, fixed/variable range
markers, and electronic bearing line, and ARPA functions (automatic/manual target acquisition and
tracking, vector and trail displays, alarm displays and trial maneuvering).
In addition, the equipment has the functions of color display setting (4 views), own track display, NAV
line and marker displays, TM (True Motion) presentation, Self-diagnostic facilities, and radar
performance monitoring (Performance Monitor). As an option, the radar of 3-units switchover function
(Interswitch) is also available.
1.1.2 ARPA Functions
The ARPA functions that the JMA-9800 series incorporates will be outlined below.
[!!] First Stage: Target Detection from Radar Information
This work corresponds to plotting targets by hand on the radar display. Assume that a ship is
approaching the own ship. You can catch the ship on the radar. Signals from the ship are processed with
the data processor and are transferred to the computer as signals of bearing and range related to the own
ship. In this stage, the system has the functions to quantize radar information, to reject noises, to
eliminate any information other than ship information and to transfer necessary position data of ships to
the computer.
[@@] Second Stage: Target Tracking
Targets are plotted at intervals of 3 to 6 minutes with the radar, but tracking on this system is to plot
them electrically at intervals of fixed times. This means to compare target position data to be detected
every moment with those detected previously so as to check if they are of the same target and also to
save data of the target in its file so as to calculate changes of position data of the target.
[##] Third Stage: Judgment of Existence of Ship in Danger of Collision
In this stage, the system calculates speeds and courses of a target ship from ever-changing position data
of the target ship obtained in the previous stage so as to judge existence of any danger of collision.
After the calculation, the system can easily calculate the Closest Point of Approach (CPA) to the own
ship and the time required to reach the CPA (TCPA = Time to CPA). Both the CPA and the TCPA are
compared with the preset values previously set according to the situations of the own ship so as to judge
existence of any danger of collision.
Page 31
1 – 2
1
1.1 FUNCTIONS
.
[$$] Fourth Stage: Indication
The above information must be informed to the officer maneuvering the own ship. A variety of
indicating methods are available including CRT display and numerical indicator, and various data are
available.
This system indicates unprocessed video, vectors (to be selected from true vector and relative vector) of
other ships and identification marks of danger ship or safe ship for these ships on the usual radar scope.
When the target ship is a danger one, the system will sound an alarm and turns on the alarm lamp to
alert the officer.
Page 32
1 – 3
1.2 FEATURES
Target Detection by Latest Signal Processing Technology
The system employs the latest adaptive clutter suppression technology to eliminate undesired clutter
from the radar video signals that are obtained from the receiver with a wide dynamic range, thus
improving the target detection.
Key Arrangement for Higher Operability
The basic and main functions of the radar can be operated with the minimum necessary keys, ensuring
quick action even in case of emergency. Other various useful functions are also available by the use of
the simple keys behind a cover and the menu selection on the display.
In the case that two or more operators operate the radar equipment, each operator can register the
operating conditions that are most favorable to him/her and can be recalled and set momentarily
(Personal code function is built-in).
Advanced Technology Based ARPA Functions Provided as Standard
The ARPA target acquisition and tracking performance is enhanced by the use of the most advanced
radar signal processing and tracking technologies, ensuring stable operation in target tracking under
clutter.
● Acquisition and tracking of 50 targets
● Hazardous conditions are represented by shapes and colors of symbols as well as sounds.
● Trial maneuvering functions provided
● Simultaneous indication of other ships’ data
Improved Day/Night Mode
Two types of background colors are available in each Day/Night mode (total 4 background colors).
Each background color can be reproduced to be suited for the user’s operating environment by simple
key operation. The radar echoes and a variety of graphics can also be represented in different colors,
ensuring easy-to-see displays.
Various Functions
● TRAILS (Other ship’s track display)
● NAV lines
● TM (True Motion display)
● Head-up/North-up/Course-up display
● Own ship’s track display
● Guard Zone function
Page 33
1 – 4
1
1.2 FEATURES
.
Compact Design and Low Power Consumption
The radiator structure making the most of wind power contributes to the substantial reduction in size and
power consumption of the S band scanner unit.
Self-diagnostic Program Incorporated
The Self-diagnostic program always monitors all the functions of the system. If any function
deteriorates, an alarm message will appear on the radar display and an alarm sounds at the same time.
Even when the system is operating, the functionality test can be carried out. (except on some functions)
Performance Monitor
The radar performance (transmitted output power and receiving sensitivity) can appear on the radar
display.
Easy Interswitch Operation (Option)
By additionally installing an interswitch PC board, up to 3-units of the JMA-9800 series radar
equipment can be combined and switched over by simple operation.
Page 34
1 – 5
1.3 CONFIGURATION
Scanners and Transmitted Output Powers
Radar Configuration and Ship’s Mains
Note: JMA-9833-SA, 220 V AC, 50/60 Hz, 1Ø ··· MED only
Radar Model Scanner Type Transmitted Output Power Band
JMA-9833-SA 12 ft slot antenna 30 kW S
JMA-9832-SA 12 ft slot antenna 30 kW S
JMA-9823-7XA 7 ft slot antenna 25 kW X
JMA-9823-9XA 9 ft slot antenna 25 kW X
JMA-9822-6XA 6 ft slot antenna 25 kW X
JMA-9822-9XA 9 ft slot antenna 25 kW X
Radar Model Scanner Unit
Performance
Monitor
Transmitter-
receiver
Unit
Display Unit
Ship’s Mains
JMA-9833-SA NKE-1079 (*) NJU-63 NTG-3037
NCD-4111
220 V AC, 50/60 Hz, 3ø
110/220 V AC, 50/60 Hz, 1ø
JMA-9832-SA NKE-1075 (*) NJU-63
JMA-9823-7XA
NKE-1059-7
(*)
NJU-64 NTG-3027
JMA-9823-9XA
NKE-1059-9
(*)
JMA-9822-6XA
NKE-1052-6
(*)
NJU-64
JMA-9822-9XA
NKE-1052-9 (*)
Page 35
1 – 6
1
1.3 CONFIGURATION
.
Notes:
1. The drive motor for the scanner unit is available in 220 V AC (three-phase) type and
100/110/220 V AC (single-phase) type.
2. The scanner unit can be equipped with a deicing heater as an option marked with (*), in stead of
which “-D” shall be suffixed to the type name.
3. When using the ship’s mains of 440 V AC as the radar power source, a step-down transformer
shall be used.
4. The name plates for the radar components indicate as follows:
Scanner Unit: SCANNER UNIT
Transmitter-receiver Unit: TRANSMITTER-RECEIVER UNIT
Display Unit: DISPLAY UNIT
Page 36
1 – 7
1.4 EXTERIOR DRAWING
Fig.1.1 EXTERIOR DRAWING OF SCANNER UNIT, TYPE NKE-1079
Fig.1.2 EXTERIOR DRAWING OF SCANNER UNIT, TYPE NKE-1075
Fig.1.3 EXTERIOR DRAWING OF SCANNER UNIT, TYPE NKE-1059-7
Fig.1.4 EXTERIOR DRAWING OF SCANNER UNIT, TYPE NKE-1059-9
Fig.1.5 EXTERIOR DRAWING OF SCANNER UNIT, TYPE NKE-1052-6
Fig.1.6 EXTERIOR DRAWING OF SCANNER UNIT, TYPE NKE-1052-9
Fig.1.7
EXTERIOR DRAWING OF TRANSMITTER-RECEIVER UNIT, TYPE NTG-3037
Fig.1.8
EXTERIOR DRAWING OF TRANSMITTER-RECEIVER UNIT, TYPE NTG-3027
Fig.1.9 EXTERIOR DRAWING OF DISPLAY UNIT, TYPE NCD-4111
(SELF-STANDING TYPE)
Fig.1.10 EXTERIOR DRAWING OF MONITOR UNIT, TYPE NWU-228
(DESKTOP TYPE) (OPTION)
Fig.1.11 EXTERIOR DRAWING OF CONTROL UNIT, TYPE NDC-1097
(DESKTOP TYPE) (OPTION)
Fig.1.12 EXTERIOR DRAWING OF KEYBOARD UNIT, TYPE NCE-7292
(DESKTOP TYPE) (OPTION)
Page 37
1 – 8
1
1.4 EXTERIOR DRAWING
.
Fig.1.1 EXTERIOR DRAWING OF
SCANNER UNIT, TYPE NKE-1079
Page 38
1 – 9
Fig.1.2 EXTERIOR DRAWING OF
SCANNER UNIT, TYPE NKE-1075
(Unit: mm)
Page 39
1 – 10
1
1.4 EXTERIOR DRAWING
.
Fig.1.3 EXTERIOR DRAWING OF
SCANNER UNIT, TYPE NKE-1059-7
Page 40
1 – 11
Fig.1.4 EXTERIOR DRAWING OF
SCANNER UNIT, TYPE NKE-1059-9
Page 41
1 – 12
1
1.4 EXTERIOR DRAWING
.
Fig.1.5 EXTERIOR DRAWING OF
SCANNER UNIT, TYPE NKE-1052-6
Page 42
1 – 13
Fig.1.6 EXTERIOR DRAWING OF
SCANNER UNIT, TYPE NKE-1052-9
Page 43
1 – 14
1
1.4 EXTERIOR DRAWING
.
Fig.1.7 EXTERIOR DRAWING OF
TRANSMITTER-RECEIVER UNIT, TYPE NTG-3037
Page 44
1 – 15
Fig.1.8 EXTERIOR DRAWING OF
TRANSMITTER-RECEIVER UNIT, TYPE NTG-3027
Page 45
1 – 16
1
1.4 EXTERIOR DRAWING
.
Fig.1.9 EXTERIOR DRAWING OF DISPLAY UNIT,
TYPE NCD-4111 (SELF-STANDING TYPE)
(Unit: mm)
Page 46
1 – 17
Fig.1.10 EXTERIOR DRAWING OF MONITOR UNIT,
TYPE NWU-228 (DESKTOP TYPE) (OPTION)
(Unit: mm)
Page 47
1 – 18
1
1.4 EXTERIOR DRAWING
.
Fig.1.11 EXTERIOR DRAWING OF CONTROL UNIT,
TYPE NDC-1097 (DESKTOP TYPE) (OPTION)
(Unit: mm)
Page 48
1 – 19
Fig.1.12 EXTERIOR DRAWING OF KEYBOARD UNIT,
TYPE NCE-7292 (DESKTOP TYPE) (OPTION)
(Unit: mm)
Page 49
1 – 20
1
1.5 GENERAL SYSTEM DIAGRAM
Fig.1.13 GENERAL SYSTEM DIAGRAM OF RADAR, TYPE JMA-9833-SA
Fig.1.14 GENERAL SYSTEM DIAGRAM OF RADAR, TYPE JMA-9832-SA
Fig.1.15 GENERAL SYSTEM DIAGRAM OF RADAR, TYPE JMA-9823-7XA
Fig.1.16 GENERAL SYSTEM DIAGRAM OF RADAR, TYPE JMA-9823-9XA
Fig.1.17 GENERAL SYSTEM DIAGRAM OF RADAR, TYPE JMA-9822-6XA
Fig.1.18 GENERAL SYSTEM DIAGRAM OF RADAR, TYPE JMA-9822-9XA
Page 50
1 – 21
Note: Eliminating the interference on frequencies used for marine communications and
navigation due to operation of the radar.
All cables of the radar are to be run away from the cables of radio equipment.
(Ex. Radiotelephone. Communications receiver and dirrection finder. etc.)
Especially inter-wiring cables between scanner unit and display unit of the radar
should not be run parallel with the cables of radio equipment.
Fig.1.13 GENERAL SYSTEM DIAGRAM OF
RADAR, TYPE JMA-9833-SA
Page 51
1 – 22
1
1.5 GENERAL SYSTEM DIAGRAM
.
Note: Eliminating the interference on frequencies used for marine communications and
navigation due to operation of the radar.
All cables of the radar are to be run away from the cables of radio equipment.
(Ex. Radiotelephone. Communications receiver and dirrection finder. etc.)
Especially inter-wiring cables between scanner unit and display unit of the radar
should not be run parallel with the cables of radio equipment.
Fig.1.14 GENERAL SYSTEM DIAGRAM OF
RADAR, TYPE JMA-9832-SA
Page 52
1 – 23
Note: Eliminating the interference on frequencies used for marine communications and
navigation due to operation of the radar.
All cables of the radar are to be run away from the cables of radio equipment.
(Ex. Radiotelephone. Communications receiver and dirrection finder. etc.)
Especially inter-wiring cables between scanner unit and display unit of the radar
should not be run parallel with the cables of radio equipment.
Fig.1.15 GENERAL SYSTEM DIAGRAM OF
RADAR, TYPE JMA-9823-7XA
Page 53
1 – 24
1
1.5 GENERAL SYSTEM DIAGRAM
.
Note: Eliminating the interference on frequencies used for marine communications and
navigation due to operation of the radar.
All cables of the radar are to be run away from the cables of radio equipment.
(Ex. Radiotelephone. Communications receiver and dirrection finder. etc.)
Especially inter-wiring cables between scanner unit and display unit of the radar
should not be run parallel with the cables of radio equipment.
Fig.1.16 GENERAL SYSTEM DIAGRAM OF
RADAR, TYPE JMA-9823-9XA
Page 54
1 – 25
Note: Eliminating the interference on frequencies used for marine communications and
navigation due to operation of the radar.
All cables of the radar are to be run away from the cables of radio equipment.
(Ex. Radiotelephone. Communications receiver and dirrection finder. etc.)
Especially inter-wiring cables between scanner unit and display unit of the radar
should not be run parallel with the cables of radio equipment.
Fig.1.17 GENERAL SYSTEM DIAGRAM OF
RADAR, TYPE JMA-9822-6XA
Page 55
1 – 26
1
1.5 GENERAL SYSTEM DIAGRAM
.
Note: Eliminating the interference on frequencies used for marine communications and
navigation due to operation of the radar.
All cables of the radar are to be run away from the cables of radio equipment.
(Ex. Radiotelephone. Communications receiver and dirrection finder. etc.)
Especially inter-wiring cables between scanner unit and display unit of the radar
should not be run parallel with the cables of radio equipment.
Fig.1.18 GENERAL SYSTEM DIAGRAM OF
RADAR, TYPE JMA-9822-9XA
Page 56
1 – 27
1.6 COLLISION AVOIDANCE
……Problems of Collision Avoidance in Navigation …………………
Marine collision avoidance is one of the problems that have been recognized from of old. Now, it will
be described briefly who the collision avoidance is positioned among the navigational aid problems.
The navigation pattern of all mobile craft constitues a system with some closed loops regardless of the
media through which the mobile craft travels, whether air, water, the boundary between air and water, or
space. This pattern consists of two closed loops in principle, one of which is a collision with another
mobile craft and the other is a loop of finding a right and safe way to reach a predeterminate destination.
Fig.1.19 shows the conceptual diagram of navigation pattern by MR. E.W. Anderson. The closed loop
of collision avoidance is shown on the left side and the closed loop of finding a right course on the right
side.
Fig.1.19 Navigation Pattern
……Marine Accidents and Collisions …………………………………
Among marine accidents, collision accidents have been highlighted as the tonnages and speeds of ships
become higher along with the increase in traffic at sea. If a tanker carrying dangerous articles such as
crude oil collides with any other vessel, then not only the vessels involved with the accident but other
vessels in the vicinity, port facilities, inhabitants in the coastal area as well as marine resources may also
suffer immeasurable damages and troubles. Collision accidents have a high percentage of the marine
accidents that have occurred in recent years. To cope with these problems, any effective measures are
needed and some equipment to achieve collision avoidance requirements have been developed at rapid
strides.
Destination
Course
Course and speed
Maneuver
Ship traveling in controlled condition
Collision avoidance Decision of course
Vessel’s spacing loop
Guide loop
Traffic rule
Fixing by radio
wave, visual and
celstial
observation
Calculation
Dead reckoning
Compass
and log
Instrument
or
judgment
Control loop
Collision avoidance loop
Visual
and
radio watch
Judgment
Page 57
1 – 28
1
1.6 COLLISION AVOIDANCE
.
……Basic Concept of Collision Avoidance ……………………………
There are two aspects in collision avoidance: collision prediction and avoidance. Collision prediction is
to predict that two or more vessels will happen to occupy the same point at the same time, while
collision avoidance is to maneuver vessels not to occupy the same point at the same time.
In practical operation of vessels, a spot of collision has to be deemed to be a single point but a closed
zone. This closed zone is conceptually defined as a CPA (Closest Point of Approach). In collision
prediction, the time to be taken until a ship reaches the CPA is defined as a TCPA (Time to CPA).
Fig.1.20 shows a diagram called “Collision Triangle”.
Fig.1.20 Collision Triangle
Target vessel
TCPA (Time to CPA)
CPA
Collision triangle
Relative vector
CPA RING
Own ship
Page 58
1 – 29
……Relative Vector and True Vector ……………………………………
From two points of view, collision prediction and avoidance, it is necessary to obtain the relative vector
of other ship for prediction and the true vector of other ship for collision avoidance in order to grasp
other ship’s aspect. The relationship between the relative vector and true vector is shown in Fig.1.21.
Both rough CPA and TCPA can be obtained easily from the relative speed vector of other ship. This
method has an advantage that the risks of collision with all other ships within the radar range can be
seen at a glance. On the other hand, the course and speed of other ship can easily be obtained from its
true speed vector, enabling other ship’s aspect to be seen at a glance. Thus, the aspects of other ships
(transverse, outsail, parallel run, reverse run, etc.) as described in the Act of Prevention of Collision at
Sea can be readily grasped. If there is a risk of collision with other ship, the operator can determine
which rule to be applied and how to operate own ship.
Fig.1.21 Relative Vector and True Vector
……Radar and Collision Avoidance ……………………………………
Radar is still playing an important roll for collision prevention and positioning. A plotter is used to
further enhance the radar functionality. The plotter is capable of plotting other positions of other ships in
3 to 6 minute intervals to monitor their movements. The plots of other ships represent their tracks
relative to own ship, and it is shown whether there is a risk of collision, namely CPA and TCPA can be
obtained. This method using a plotter is fairly effective, but the number of target ships, which are
manually plotted, is limited and it takes several minutes to measure those.
Own ship
CPA
C
0
V
O
V
T
V
R
NN
Target ship
True vector
Relative vector
A
Page 59
SECTION 2
NAME AND FUNCTION OF
CONTROL PANEL SWITCHES
AND FUNCTION OF
SOFTWARE BUTTONS
2.1 NAME AND FUNCTION OF
CONTROL PANEL SWITCHES
.......
2-1
2.2 FUNCTION OF
SOFTWARE BUTTONS
...................
2-6
Page 60
2 – 1
2.1
NAME AND FUNCTION OF CONTROL PANEL SWITCHES
Example of Display
OS STAB GND
DISPLAY INFO
No Alarm
OFF
CENTER
CPA
RING
OFF
HDG
SPEED
COG
SOG
SET
DRIFT
BRG
RANGE
COURSE
SPEED
CPA
TCPA
BCR
BCT
BRG
RANGE
TOKYONAV
PIN
OWN
COURSE
SPEED
CPA
TCPA
BCR
BCT
Current correction
operation mode
AUTO
EBL1 bearing
T: True bearing indication R: Relative bearing indication
Target
ship ID
Target ship symbol
in data indication
CPA ring
(ON/OFF)
Off center
Current set
Target ship vector
Speed sensor
(MANUAL/LOG (1-axis)
/2AXW (2-axis log water)
/2AXG (2-axis ground))
Vector time
CPA setup
Current drift
TCPA setup
Guard zone
Guard zone
Radar interference reflector
Sea clutter suppression (SEA) AUTO
Rain/snow clutter suppression (RAIN) MANUAL
Own ship’s track memory interval
Radar video track indication interval
Radar video processing mode
Radar video enhance mode
Interswitch connection pattern
X/S band indicator (in use of
2-frequency scanner only)
Transmit/
Standby indicator
True Motion (TM)/
Relative Motion (RM) indicator
Range marker interval
Bearing indicator
Pulse width
Tuning
indicator
Auto tuning
(MANUAL indicated in
Manual tuning)
Cursor mark
position (with GPS)
True bearing of cursor mark
Function operated
by trackball
Relative bearing
of cursor mark
Target ship ID
Target ship data 2
True bearing (deg)
Range (nm)
True course (deg)
True speed (knot)
CPA (nm)
TCPA (min)
BCR (nm)
BCT (min)
Display information
NAV line name
Personal code name
Alarm indication
Date indication
EBL2 bearing
VRM2 range
VRM1 range
(Operable VRM1 selected)
Range scale
Target
ship’s trail
000
010
020
030
040
050
060
070
080
090
100
110
120
130
140
150
160
170
180
270
260
250
240
230
220
210
200
190
350
340
330
320
310
300
290
280
ARPA STAB GND
TARGET ID No 2
TARGET ID No 1
WATER
9.2 kts
9.0 kts
TRUE
REL
FUNC3
DAY 1
PANEL
C
O
2.20 nm
1.70 nm
EBL2
EBL1
VRM1
VRM2
3min
0.5min
PROC1
TRAILS
TRACK
AUTO
MAN
RAIN
SEA
PROC
ENH
MAN
3.5 nm
9.3 kts
0.4 nm
-2581.4 min
nm
min
3.8 nm
9.2 kts
1.0 nm
5988.6 min
nm
min
2000 / 07 / 10 19:02U
MAN
6 min
10 min
1 min
LIMIT
1.5 nm
SP
CORR
CURSOR
GUARD ZONE 1 2
6
1
RM N UP
TRANSMIT
X-BAND
IR
AUTO
Cursor mark
VRM2
VRM1
EBL1
Own
ship s track
15.0 kts
ACOUIRE
1
Own ship’s position
EBL2
HL
Safety ship symbol
2
3
5
4
6
Ship’s heading marker
(displayed to indicate the
true bearing of own ship’s
heading marker with gyro
compass connected)
Page 61
2 – 2
2
..
1 2 3
4 5 6
7 8 9
CLR
0
ENT
BRILL
ARPA
BRILL
VIDEO
PL
AUTO MARKTEST
PWR
ACK
PWR FAIL
PWR
EBL2EBL1 VRM2VRM1
TRAILS
ALARM
ACK
TGT
DATA
ACQ
MANUAL
ACQ
AUTO
ACQ
CANCEL
HL
OFF
RANGE
DAY
NIGHT
PAST
POSN
GUARD
ZONE
OPTION
TM
RESET
TRUE
REL
VECT
TIME
TM
RM
RANGE
RINGS
-
PI
+
MENU
AZI
MODE
OFF
CENT
PANEL
TX
STBY
BRILL TUNE RAIN SEA GAIN
10 11 12 13 14 15
1
48
8 9
18 19
20
24 25 26
27
28 29 30
38 39 40
41
31
32
33
34
35
36
37
42
43
44
23
49
21 22
46 47
45
2 3 4 5 6 7
16
17
Name and Function of Control Panel Switches
2.1 NAME AND FUNCTION OF CONTROL PANEL SWITCHES
Page 62
2 – 3
q [PWR] (Power Supply) Switch
When this switch is set to ON, the lamp lights to start the system.
w [TX/STBY] (Operation) Switch
The STANDBY will appear at the upper left of the radar display about 3 minutes after
the [PWR] switch is set to ON. Then, press this switch, and transmission will be started.
Pressing the switch during transmission sets the equipment to the standby state.
e [BRILL] (Video Brilliance) Control
Controls the brilliance of the entire display panel.
r [TUNE] (Tuning) Control
Tunes the target signals to display the targets most clearly on the radar display.
t [RAIN] (Rain/Snow Clutter Suppression) Control
Diminishes the clutter echo from rain or snow.
y [SEA] (Sea Clutter Suppression) Control
Diminishes the clutter echo from the sea surface.
u [GAIN] (Receiving Sensitivity) Control
Controls the radar receiving sensitivity.
i [PWR ACK] (Power Alarm Acknowledgment) Switch
Acknowledges the alarm in case of power trouble.
o [PANEL] (Operation Panel Brilliance) Switch
Controls the brilliance for the controls and switches on the operation panel.
!0 [TRAILS] (Trails Display) Switch
Press the switch to display the trails of other ships.
!1 [ALARM ACK] (Alarm Acknowledge) Switch
Press this switch to acknowledge an failure, target approach or collision alarm.
!2 [TGT DATA] (Target Data Setup) Switch
Sets up a target under tracking to read its numeric data.
!3 [ACQ MANUAL] (Manual Acquisition) Switch
Sets the manual target acquisition mode to ON/OFF.
!4 [ACQ AUTO] (Automatic Acquisition) Switch
Sets the automatic target acquisition mode to ON/OFF.
!5 [ACQ CANCEL] (Acquisition Cancel) Switch
Cancels the symbol and vector of a target under tracking and stops tracking the target.
!6 [HL OFF] (Heading Line Off) Switch
The ship’s HL (heading line) can be cancelled as long as the switch is being depressed.
!7 [RANGE + / - ] (Range Scale Select) Switch
Selects a range scale from 0.125 to 96 (or 120) nautical miles.
!8 [EBL1] (Electric Bearing Line 1) Switch
Selects and displays EBL1.
!9 [EBL2] (Electric Bearing Line 2) Switch
Selects and displays EBL2.
@0 [EBL] (Electric Bearing Line) Control
Rotates the bearing of an EBL.
@1 [VRM1] (Variable Range Marker 1) Switch
Selects and displays VRM1.
@2 [VRM2] (Variable Range Marker 2) Switch
Selects and displays VRM2.
@3 [VRM] (Variable Range Marker) Control
Adjusts the range of a VRM.
@4 [TEST] (Test) Switch
Checks the operational status of the radar equipment.
Page 63
2 – 4
2
..
@5 [DAY/NIGHT] (Day/Night Mode Select) Switch
Switch over the color and brilliance of the display screen depending upon the preset
conditions.
@6 [BRILL VIDEO] (Radar Video Brilliance) Switch
Adjusts the radar video brilliance.
@7 [BRILL ARPA] (ARPA Information Brilliance) Switch
Adjusts the brilliance of the ARPA information such as vectors and symbols.
@8 [PL] (Pulse Width) Switch
Switches over the pulse width.
@9 [AUTO] (Automatic) Switch
Selects the Automatic/manual mode for tuning, SEA and RAIN functions.
#0 [MARK] (Mark) Switch
Presents a mark at an arbitrary position or clears the mark displayed on the display.
#1 [TM/RM] (True Motion/Relative Motion) Switch
Switch over the presentation mode to TM/RM presentation mode.
#2 [TM RESET] (Reset) Switch
Resets own ship’s position to its initial point during operating in the TM presentation mode.
#3 [GUARD ZONE] (Guard Zone) Switch
Sets and displays a guard zone.
#4 [PAST POSN] (Past Position Interval) Switch
Selects a past position time interval of a target tracked by ARPA.
#5 [TRUE/REL] (TM/RM Mode Select) Switch
Selects the ARPA vector presentation in the TM or RM mode.
#6 [VECT TIME] (Vector Time Length) Switch
Sets up a vector time length in the range of 1 to 60 min.
#7 [OPTION] (Option) Switch
Recalls a registered function. (Registered by service personnel among vector length max.
ON/OFF, parallel index line display ON/OFF and NAV/MAP INFO menu recall.)
#8 [OFF CENT] (Off center) Switch
Shifts own ship’s position within a desired direction (within 65% of the scope’s radius) from
the scope’s center to expand the display portion.
#9 [AZI MODE] (Bearing Mode Select) Switch
Selects the North-up (true bearing), Head-up (relative bearing) or Course-up bearing
presentation mode.
$0 [RANGE RINGS] (Fixed Range Marker) Switch
Turn ON/OFF the display of the fixed range markers.
$1 [PI] (Parallel Index Line) Switch
Sets and display the parallel index lines.
$2 [ - , + ] Switches
Subtracts or add one from or to the numerical values every time of pressing the switch.
$3 [MENU] (Menu) Switch
Displays a menu.
$4 [DATA ENTRY] (Data Entry) Ten-key Pad
Enter numeric data using the ten-key p to o and set the entered data pressing the [ENT]
switch. Pressing the [CLR] switch returns the set data to the previous data before the data is
set.
$5 [Trackball]
Use this trackball to move the cursor mark to an arbitrary point.
$6 [Trackball section left button]
Sets the cursor position.
2.1 NAME AND FUNCTION OF CONTROL PANEL SWITCHES
Page 64
2 – 5
$7 [Trackball section right button]
Clears the marks on the display in the MARK mode.
$8 [PWR FAIL] (Power Failure) Lamp
The lamp lights in case of power failure.
$9 [Hand sensor]
When the sensor senses something, the trackball becomes operable.
To acquire target automatically.
Page 65
2 – 6
2
2.2
FUNCTION OF SOFTWARE BUTTONS
This radar provides the software buttons on the display which can be used
to set several important functions directly and swiftly from the display
without opening a menu.
By positioning the arrow cursor on the buttons located at q to @5 in the above figure and then
clicking the trackball section left button, the settings can be changed as follows:
Page 66
2 – 7
q: Tuning indicator mode
Sets the tuning mode to MANUAL or AUTO.
/
(Manual tuning) , (Automatic tuning)
w: Change the Interswitch connection pattern
Opens the interswitch menu.
Attention:
This function is operable only when the radar is in the standby mode.
e: Function of Radar interference reflector (IR)
Turns the radar interference reflector ON or OFF.
/
(radar interference reflector OFF)
,
(radar interference reflector ON)
r: Function of Sea clutter suppression (SEA)
Sets the sea clutter suppression to MANUAL or AUTO.
/
(Manual sea clutter suppression) , (Automatic sea clutter suppression)
t: Function of Rain/snow clutter suppression (RAIN)
Sets the rain/snow clutter suppression to MANUAL or AUTO.
/
(Manual rain/snow clutter suppression) , (Automatic rain/snow clutter suppression)
y: Function of Own ship’s track indication (TRACK)
Turns the own ship’s track indication ON or OFF.
/ “Interval Time preset in the TRACK menu”
(No own ship’s track indication)
, (One memory interval of 3, 10, 15 or 30 minutes displayed)
Attention:
This function is available only when the latitude and longitude data and the course data are received.
u: Function of Radar video track indication (TRAILS)
Sets the interval time for radar video track indication.
////
i
: Function of Radar video processing (PROC)
Sets the radar video processing mode.
///
PROC3PROC2PROC1OFF
6MIN3MIN1MIN0.5MINOFF
OFF
AUTOMAN
AUTOMAN
AUTOMANUAL
Page 67
2 – 8
2
..
o: Function of Radar video enhance (ENH)
Turns the radar video enhance ON or OFF.
/
(Radar video enhance OFF) , (Radar video enhance ON)
!0: Function of Processing setting
Sets the processing setting mode.
// /
,
!1
: Starting point mode of EBL1
Determines whether the EBL1 starting point is placed at the center of the own ship or at any
position on the radar display.
/
(CENTER: The EBL1 starting point is , (OFFSET: After the EBL1 starting point is moved,
placed at the center of the own ship.) the starting point is pasted on the display.)
or
/
(CENTER: The EBL1 starting point is , (L
...
L/L FIX: After the EBL1 starting point is
placed at the center of the own ship.) moved, the latitude and longitude at the starting
point are fixed.)
Attention:
When the EBL1 starting point is moved, whether the display is or depends on the setting in
the EBL OFFSET ORIGIN Menu.
!2: Starting point mode of EBL2
Determines whether the EBL2 starting point is placed at the center of the own ship or at any
position on the radar display.
/
(CENTER: The EBL2 starting point is , (OFFSET: After the EBL2 starting point is moved,
placed at the center of the own ship.) the starting point is pasted on the display.)
or
/
(CENTER: The EBL2 starting point is , (L
...
L/L FIX: After the EBL2 starting point is
placed at the center of the own ship.) moved, the latitude and longitude at the starting
point are fixed.)
Attention:
When the EBL2 starting point is moved, whether the display is or depends on the setting in
the EBL OFFSET ORIGIN Menu.
LO
OC
OC
LO
OC
OC
FUNC4FUNC5
FUNC3FUNC2FUNC1FUNC OFF
ONOFF
2.2 FUNCTION OF SOFTWARE BUTTONS
Page 68
2 – 9
!3: Date and time indication mode
Sets the mode of date and time indicated on the radar display.
//
Attention:
The LOCAL TIME, LOCAL DATE and GMT + / - (difference between the local time and the universal
time) must be correctly set in order to indicate the time accurately.
!4: Function of Personal code name (PIN)
Opens a list of personal code files in the PIN Menu.
!5: Function of Navigation information readout (NAV)
Opens a list of navigation information files stored in the MAV/MAP INFO Menu.
!6: Function of Guard zone 1 ON/OFF
Turns the guard zone 1 function ON or OFF.
/
(Guard zone 1 OFF) , (Guard zone 1 ON)
!7: Function of Guard zone 2 ON/OFF
Turns the guard zone 2 function ON or OFF.
/
(Guard zone 2 OFF) , (Guard zone 2 ON)
!8: TCPA setting
Position the arrow cursor on the value area and click the trackball section left button, then the ten-
key pad can be used to enter a value. After entering the value, press the to set the
TCPA.
ENT
22
11
(L
...
LOCAL: Local
time indication)
(U
...
UTC: Universal
time indication)
(Clock mark: No date
and time indication)
LU
Page 69
2 – 10
2
..
!9: CPA setting
Position the arrow cursor on the value area and click the trackball section left button, then the ten-
key pad can be used to enter a value. After entering the value, press the to set the CPA.
@0: Vector length setting
Position the arrow cursor on the value area and click the trackball section left button, then the ten-
key pad can be used to enter a value. After entering the value, press the to set the vector
length.
@1: DRIFT setting
Position the arrow cursor on the value area and click the trackball section left button, then the ten-
key pad can be used to enter a value. After entering the value, press the to set the
DRIFT.
Attention:
This function is available only when CORRECTION in the SET/DRIFT Menu is ON.
Also, CORRECTION can be turned ON only when the speed unit is set to MANUAL or LOG (1-AXIS).
@2: SET setting
Position the arrow cursor on the value area and click the trackball section left button, then the ten-
key pad can be used to enter a value. After entering the value, press the to set the SET.
Attention:
This function is available only when CORRECTION in the SET/DRIFT Menu is ON.
Also, CORRECTION can be turned ON only when the speed unit is set to MANUAL or LOG (1-AXIS).
@3: Speed unit setting
Setting the speed unit.
///
1-axis log 2-axis over water 2-axis over ground
Attention:
An alarm is activated if the selected speed unit is not connected to the radar.
2AXG2AXWLOGMANUAL
ENT
ENT
ENT
ENT
2.2 FUNCTION OF SOFTWARE BUTTONS
Page 70
2 – 11
@4: Manual input of own ship’s speed
Position the arrow cursor on the value area and click the trackball section left button, then the ten-
key pad can be used to enter a value. After entering the value, press the to set the own
ship’s speed.
Attention:
The own ship’s speed can be manually entered only when MANUAL is selected for the speed unit
setting (@3).
@5: CPA RING indication ON/OFF
Turns the CPA RING indication ON or OFF.
/
(CPA RING indication OFF) , (CPA RING indication ON)
Attention:
CPA RING cannot be turned ON when the vector mode is TRUE.
ENT
Page 71
SECTION 3
BASIC OPERATION
3.1 FLOW OF OPERATION
■ Power ON and Start the System
..........................
3-2
■ Observe and Adjust Video
...................................
3-4
■ Tuning Operations
...............................................
3-6
■ Acquire and Measurement Data
..........................
3-7
■ End the Operation and Stop the System
.............
3-7
3.2 MENU COMPOSITION
..............................
3-8
3.3 PREPARATION
■ Tuning
................................................................
3-11
■ Sensitivity Control
..............................................
3-11
■ Display Brilliance Control
...................................
3-11
■ Contrast Control
.................................................
3-12
■ Sea Clutter Suppression
....................................
3-12
■ Rain/Snow Clutter Suppression
.........................
3-13
■ Brilliance Control
................................................
3-13
■ Day/Night Mode Selection
.................................
3-19
■ Color Setting
......................................................
3-20
■ Degaussing
........................................................
3-31
■ Radar Interference Rejection
.............................
3-31
3.4 BASIC OPERATIONS
■ Move Cross Cursor Mark [ + ] by Trackball
.......
3-33
■ Methods for Setting Menu Item with
the Trackball
......................................................
3-34
■ Use EBLs (Electronic Bearing Lines)
.................
3-40
■ Set Floating EBL
................................................
3-43
■ Select Range
.....................................................
3-45
■ Set Maximum Range
.........................................
3-45
■ Select Pulse Length
...........................................
3-46
■ Select Bearing Display Mode
.............................
3-46
■ Cancel Ship’s Heading Line
..............................
3-47
■ Cancel All Display Items Except HL and
Cross Cursor Mark [ + ]
.....................................
3-47
■ Display PI (Parallel Index Lines)
........................
3-48
■ Select True/Relative Motion Display Mode
........
3-50
■ Move Own Ship’s Display Position
....................
3-51
■ Display Other Ships’ Trails
................................
3-52
■ Display Own Ship’s Track
..................................
3-53
■ Marking
..............................................................
3-56
■ Display Range Rings
.........................................
3-57
■ Display Variable Range Markers
.......................
3-57
■ Set Guard Zones
...............................................
3-59
■ Reset Alarm Buzzer
...........................................
3-61
■ Set Alarm Sound Level
......................................
3-62
■ Check Operational Status
..................................
3-63
■ FUNCTION
........................................................
3-72
■ Expand Targets
.................................................
3-73
■ Display Processed Videos
.................................
3-74
■ Reduce Radar Interference
...............................
3-75
■ Personal Information
..........................................
3-76
■ Display of Navigational Information
...................
3-79
■ Function of OPTION Switch
..............................
3-96
■ Operation of Performance Monitor
....................
3-97
■ EBL Maneuvering
............................................
3-103
Page 72
3 – 1
3.1 FLOW OF OPERATION
The flow of basic operations is shown below.
Each operation will be described in detail below.
END THE OPERATION AND
STOP THE SYSTEM
ACQUIRE AND
MEASUREMENT DATA
TUNING OPERATIONS
OBSERVE AND
ADJUST VIDEO
POWER ON AND
START THE SYSTEM
● Do not put anything on the operation panel. If you put anything hot on it, it may be deformed.
● Do not give any impact on the operation panel, trackball and controls. Otherwise, any failure or
damage may result.
Attention
Page 73
3 – 2
3
3.1 FLOW OF OPERATION
.
..
……Power ON and Start the System ……………………………………
● When the radar power is turned on, the message “DiskOnChip Error” may be displayed.
Note that if is selected in this case, the settings for the radar will be initialized.
should be always selected.
Example 1
● If the installed indicator is used in an ambient condition of 0º or less, the power to the radar
should be turned on more than 60 minutes after the power in the ship is turned on.
● Wait approximately 6 seconds before turning on the power again.
● A malfunction may occur if the power in the ship is instaneously interrupted during operation of
the radar. In this case, the power should be turned on again.
● Immediately after the radar is installed, if the system is not used for a long time, or after the
magnetron is replaced, warm-up the equipment in the standby mode for 20 to 30 minutes before
setting it to the transmit mode.
● If the warm-up time is short, the magnetron may cause sparks, resulting in its unstable
oscillation.
Start transmission on a short-pulse range and change the range to the longer pulse ranges in turn.
If the transmission is unstable in the meantime, reset the system to the standby mode
immediately and maintain it in the standby mode for 5 to 10 minutes before restart the operation.
Repeat these steps until the operation is stabilized.
NoYes
Attention
DiskOnChip Error
The directory entry for ‘bkset2.dat’ specifies an incorrect file size.
Do you want this problem automatically repaired now?
Cancel
NoYes
Page 74
3 – 3
1 Check that the ship’s mains are turned on.
2 Press .
The warm-up time will appear.
3 Press .
The radar starts transmission and the scanner starts rotating.
The STANDBY changes to TRANSMIT on the display.
Even if the [TX/STBY] switch is pressed before STANDBY is displayed, the radar does not
start transmission.
The way of operation to cancel preheat time at the emergency.
Push and hold key for about 10 seconds, and push the , ,
, , keys, the preheat time is canceled and become to ST-BY.
But there is a possibility that the degradation of the magnetron, use only in emergency.
ENT
0
089
MENU
TX
STBY
Green lamp on
PWR
PWR
Procedures
Page 75
3 – 4
3
3.1 FLOW OF OPERATION
.
..
……Observe and Adjust Video …………………………………………
1 Press to set the range to the scale required for target observation.
2 Rotate and .
Adjust to obtain the clearest targets.
In case of Using AUTO SEA:
1 Press .
The AUTO Menu will appear.
2 Press .
will be selected and the pull-down menu will
appear.
3 Press .
will be set and “SEA ” will appear at
the lower left of the radar display.
Note: When setting AUTO SEA, the AUTO RAIN is set to the MANUAL mode.
Both AUTO SEA and AUTO RAIN cannot be set at the same time.
AUTO2.AUTO SEA
2
1.SEA/RAIN
1
AUTO
Procedures
BRILL
GAIN
RANGE
Procedures
2.TUNE
MA
2. AUTO SEA
3. AUTO RAIN
AUTO
1.SEA/RAIN
0.
EXIT
1. MANUAL
2. AUTO SEA
● In the AUTO SEA mode, there are cases in which the targets are not displayed because the sea
clutter returns are suppressed in a simple way.
Use the manual [SEA] control during sailing under normal conditions.
● In the AUTO RAIN mode, there are cases in which the targets are not displayed because the
rain/snow clutter returns are suppressed in a simple way.
Use the manual [RAIN] control during sailing under normal conditions.
● It is not to use the AUTO SEA and AUTO RAIN mode at the same time. If one is set to AUTO
mode, the other will be set to MANUAL mode.
Attention
Page 76
3 – 5
1 Repeat the procedures up to step 2 in case of using AUTO SEA.
2 Press .
will be set and “SEA ” at the lower left of the radar display will change to
“SEA ” and AUTO SEA mode will be cancelled.
In case of Using AUTO RAIN:
1 Press .
The AUTO Menu will appear.
2 Press .
will be selected and the pull-down menu will
appear.
3 Press .
will be set and “RAIN ” will appear
at the lower left of the radar display.
Note: When setting AUTO RAIN, the AUTO SEA is set to the MANUAL mode.
Both AUTO RAIN and AUTO SEA cannot be set at the same time.
1 Repeat the procedures up to step 2 in case of using AUTO RAIN.
2 Press .
will be set and “RAIN ” at the lower left of the radar display will
change to “RAIN ” and AUTO RAIN mode will be cancelled.
MAN
AUTO1. MANUAL
1
Cancellation
AUTO3. AUTO RAIN
3
1.SEA/RAIN
1
AUTO
Procedures
MAN
AUTO1. MANUAL
1
Cancellation
2.TUNE
MA
3. AUTO RAIN
AUTO
1.SEA/RAIN
0.
EXIT
1. MANUAL
2. AUTO SEA
3. AUTO RAIN
Page 77
3 – 6
3
3.1 FLOW OF OPERATION
.
..
……Tuning Operations ……………………………………………………
1 Press and select any range scale from 0.125 to 96 (or 120) NM. (The
current range scale is displayed at the upper left of the radar
display.)
The range scale becomes shorter by pressing and longer by pressing .
2 Rotate .
Adjust the video to present the clearest targets.
If there is no adequate target, adjust [TUNE] control to indicate the maximum bar-graph on the
tuning indicator at the upper left of the radar display.
In case of Using AUTO TUNE:
1 Press .
The AUTO Menu will appear.
2 Press .
“AUTO” in “2.TUNE” will be set and “” will appear
at the upper left of the radar display.
1 Repeat the procedures up to step 2 in case of using
AUTO TUNE.
2 Press .
“MANUAL” in “2.TUNE” will be set and “” at the
upper left of the radar display will change to “” and AUTO TUNE mode will be
cancelled.
MANUAL
AUTO
2
Cancellation
AUTO
2
AUTO
Procedures
TUNE
RANGE
Procedures
● When the receiver is detuned, the best video may not be obtained even if the maximum bar-graph
is displayed on the AUTO TUNE tuning indicator. In this case, adjust the [TUNE] control
manually so that the best video is presented.
Attention
MANUAL
1. MANUAL
AUTO
AUTO
1.SEA/RAIN
2.TUNE
0.
EXIT
Page 78
3 – 7
……Acquire and Measurement Data ……………………………………
For detailed operations for data acquisition and measurement, refer to Section 3.4 “BASIC
OPERATIONS” and Section 4 “MEASUREMENT OF RANGE AND BEARING”.
……End the Operation and Stop the System …………………………
1 Press .
The radar transmission will end and the scanner will stop rotating.
The indication TRANSMIT will be changed into STANDBY .
(Maintain the [STANDBY] mode if radar observation is restarted in a relatively short time. Only
pressing [TX/STBY] switch will restart observation.)
2 Press .
The power will be turned off.
Green lamp off
PWR
PWR
TX
STBY
Exit
Page 79
3 – 8
3
3.2 MENU COMPOSITION
The Menu system of this radar equipment consists of the Main menu, Sub1 menu, Sub2 menu
and Test menu.
The Main menu consists of the items of signal processing functions and EBL control., and other
functions are included in the Sub1 menu. The video color setting is included in the Sub2 menu.
The Test menu consists of the items of input monitoring and Self-diagnostic functions.
MENU
or
MENU
8
2. PROC1
MAIN MENU
1.IR
2.TGT ENH
3.PROCESS
0.
EXIT
7.
DATA OFF
8.
SUB1 MENU
9.
DEGAUSS
1. FUNC OFF
4.FUNCTION
OFF ON
OFF ON
5.EBL1
CENTER OFFSET
6.EBL2
CENTER OFFSET
SUB1 MENU
0.
EXIT
7.
1.
SETTING1
2.
LEVEL
3.
NAV/MAP INFO
4.
TRACK
5.
ARPA
6.
PIN
ISW
8.
EBL MANEUVER
9.
SUB2 MENU
4.MAG CURRENT
OFF ON
OFF ON
TEST MENU
0.
EXIT
7.
1.
SELF CHECK
2.
PANEL TEST
3.
ARPA TEST
5.PM
6.
ERROR LOGGING
SYSTEM INFO
or
MENU
9
TEST
SUB2 MENU
0.
EXIT
1.
COLOR
Page 80
3 – 9
A. Main Menu
1 Displaying the Main menu
Press .
2 Ending the Main menu
Press (EXIT).
B. Sub1 Menu
1 Displaying the Sub1 menu
Press , then
or press , then .
2 Ending the Sub1 menu
Press (EXIT).
0
MENU
MENU
8
MENU
0
MENU
2. PROC1
MAIN MENU
1.IR
2.TGT ENH
3.PROCESS
0.
EXIT
7.
DATA OFF
8.
SUB1 MENU
9.
DEGAUSS
1. FUNC OFF
4.FUNCTION
OFF ON
OFF ON
5.EBL1
CENTER OFFSET
6.EBL2
CENTER OFFSET
SUB1 MENU
0.
EXIT
7.
1.
SETTING1
2.
LEVEL
3.
NAV/MAP INFO
4.
TRACK
5.
ARPA
6.
PIN
ISW
8.
EBL MANEUVER
9.
SUB2 MENU
Page 81
3 – 10
3
3.2 MENU COMPOSITION
.
..
C. Sub2 Menu
1 Displaying the Sub2 menu
Press , then and
or press , then and .
2 Ending the Sub2 menu
Press (EXIT) or .
D. Test Menu
1 Displaying the Test menu
Press .
2 Ending the Test menu
Press (EXIT) or .
TEST
0
TEST
MENU
0
MENU
MENU
MENU
9
8
MENU
SUB2 MENU
0.
EXIT
1.
COLOR
4.MAG CURRENT
OFF ON
OFF ON
TEST MENU
0.
EXIT
7.
1.
SELF CHECK
2.
PANEL TEST
3.
ARPA TEST
5.PM
6.
ERROR LOGGING
SYSTEM INFO
Page 82
3 – 11
3.3 PREPARATION
……Tuning TUNE ………………………………………………………
This control is used to tune the receiver.
If the receiver is detuned from the best level, the receiving sensitivity falls, and the targets on a long
range or the small targets on a short range may be overlooked.
In manual tuning, rotate the [TUNE] control clockwise or counterclockwise and adjust so that the target
echoes are the clearest. If no suitable target is present, adjust the control so that the tuning indication
bar-graph at the upper left of the radar display is maximized.
After setting the radar to the TRANSMIT mode, it takes about 10 minutes until the oscillation frequency
of the magnetron is stabilized. Therefore, tune the receiver once again after about 10 minutes.
For automatic tuning, setting “2.TUNE” to “AUTO” in the AUTO Menu. (Refer to page 3 - 5)
……Sensitivity Control GAIN …………………………………………
This control is used to control the radar receiving sensitivity.
Clockwise rotation of the [GAIN] control increases receiving sensitivity and extends the radar
observation range. If the sensitivity is too high, the receiver noise will increase to reduce the contrast of
the targets with the background video and make the targets obscure on the display. To observe densely
crowded targets or the targets on a short range, rotate the [GAIN] control counterclockwise to reduce the
sensitivity so that the targets are easy to observe. Be careful not to overlook small and important targets.
……Display Brilliance Control BRILL ………………………………
This control is used to adjust the brilliance of the entire display.
Clockwise rotation of the [BRILL] control increases the brilliance of the entire display. Adjust the
[BRILL] control to obtain the best-to-see display with optimum brilliance.
BRILL
GAIN
TUNE
Page 83
3 – 12
3
3.3 PREPARATION
.
..
……Contrast Control BRILL VIDEO …………………………………
The contrast of the radar video display can be adjusted in four levels. Each time the [BRILL VIDEO]
switch is pressed, the contrast will change the mode in the following order: ///
.
The current mode is indicated at the lower right of the radar display. (The VIDEO indication will
change to the PANEL indication in several second.) Adjust the [BRILL VIDEO] switch to obtain the
best-to-see video with optimum contrast.
……Sea Clutter Suppression SEA …………………………………
This control is used to reduce the receiving sensitivity on a short range to suppress the sea clutter
returns.
Clockwise rotation of the [SEA] control can suppress sea clutter returns more effectively. Be careful not
to suppress sea clutter excessively. Otherwise, small buoys and boats may disappear from the radar
display.
When setting to in the AUTO Menu, sea clutter returns can be
suppressed depending on their intensity levels. This setting is used for the case that the sea clutter
returns are different in their directions.
When setting to in the AUTO Menu, the mode is changed into the
MANUAL mode. (Refer to page 3 - 3)
Note: It is impossible to use both the AUTO SEA mode and the AUTO RAIN mode at the
same time.
AUTO
1. MANUAL1.SEA/RAIN
2. AUTO SEA1.SEA/RAIN
SEA
BRILL
VIDEO
● In the AUTO SEA mode, there are cases in which the targets are not displayed because the sea
clutter returns are suppressed in a simple way.
Use the manual [SEA] control during sailing under normal conditions.
● In the AUTO RAIN mode, there are cases in which the targets are not displayed because the
rain/snow clutter returns are suppressed in a simple way.
Use the manual [RAIN] control during sailing under normal conditions.
Attention
Page 84
3 – 13
……Rain/Snow Clutter Suppression RAIN …………………………
This control is used to suppress rain or snow clutter returns. Clockwise rotation of the [RAIN] control
makes the targets clearer that may be hidden among rain/snow clutter returns. Be careful not to
overlook small targets in the clutter. This control also has the effect of reducing sea clutter, so that it is
more effective to use this control together with the [SEA] control.
Rotate the control counterclockwise to the maximum in the normal condition.
When setting to in the AUTO Menu, rain/snow clutter can be
suppressed depending upon the intensity level. When setting to in the
AUTO Menu, the mode is changed into the MANUAL mode.
(Refer to page 3 - 4)
Note: It is impossible to use both the AUTO RAIN mode and the AUTO SEA mode at the
same time.
……Brilliance Control ……………………………………………………
Press each of the following switches:
,
The BRILLIANCE switches [PANEL], [BRILL VIDEO] and [BRILL ARPA] are used to adjust the
brilliance of the panel, video and ARPA markers. Each time a switch is pressed, the brilliance is
increased by one level up to 4 or 5 levels. When the maximum level is reached, the brilliance is reset to
the original level.
PANEL - Adjusts the lighting for the characters on the controls and switches on the
operation panel.
BRILL VIDEO - Adjusts the brilliance of radar display.
BRILL ARPA - Adjusts the brilliance of ARPA information.
BRILL
ARPA
BRILL
VIDEO
PANEL
AUTO
1. MANUAL1.SEA/RAIN
3. AUTO RAIN1.SEA/RAIN
RAIN
Page 85
3 – 14
3
3.3 PREPARATION
.
..
Brilliance Control by Menu Operation
RANGE RINGS - Adjusts the brilliance of range rings.
VRM - Adjusts the brilliance of variable range markers (VRM1 and VRM2).
EBL - Adjusts the brilliance of electronic bearing lines (EBL1 and EBL2).
CHARACTER - Adjusts the brilliance of characters.
BUZZER - Adjusts the volume of the buzzer.
1 Press .
The Main Menu will appear.
2 Press .
The Sub1 Menu will appear.
3 Press .
The LEVEL Menu will appear.
4 Press .
will be selected and the following pull-down menu will appear.
SUB1 MENU
LEVEL
2.VRM
3.EBL
4.CHARACTER
1.RANGE RINGS
0.
EXIT
4. LEVEL4
1. LEVEL1
2. LEVEL2
3. LEVEL3
4. LEVEL4
5.BUZZER
4. LEVEL4
4. LEVEL4
1.RANGE RINGS
128
MENU
Procedures
Page 86
3 – 15
5 Select any level from to for RANGE RINGS brilliance in the
pull-down menu and press it.
The default value is set to .
6 Press .
will be selected and the following pull-down menu will appear.
7 Select any level from to for VRM (VRM1 and VRM2) brilliance in
the pull-down menu and press it.
The default value is set to .
4. LEVEL4
4
1
SUB1 MENU
LEVEL
2.VRM
3.EBL
4.CHARACTER
0.
EXIT
4. LEVEL4
1. LEVEL1
2. LEVEL2
3. LEVEL3
4. LEVEL4
5.BUZZER
4. LEVEL4
4. LEVEL4
1.RANGE RINGS
2.VRM
2
4. LEVEL4
4
1
Page 87
3 – 16
3
3.3 PREPARATION
.
..
8 Press .
will be selected and the following pull-down memu will appear.
9 Select any level from to for EBL (EBL1 and EBL2) brilliance in the
pull-down menu and press it.
The default value is set to .
4. LEVEL4
4
1
5.BUZZER
SUB1 MENU
LEVEL
2.VRM
3.EBL
4.CHARACTER
1.RANGE RINGS
0.
EXIT
4. LEVEL4
1. LEVEL1
2. LEVEL2
3. LEVEL3
4. LEVEL4
4. LEVEL4
4. LEVEL4
3.EBL
3
Page 88
3 – 17
10 Press .
will be selected and the following pull-down menu will appear.
11 Select any level from to for CHARACTER brilliance in the pull-
down menu and press it.
The default value is set to .
4. LEVEL4
4
1
5.BUZZER
SUB1 MENU
LEVEL
2.VRM
3.EBL
4.CHARACTER
1.RANGE RINGS
0.
EXIT
4. LEVEL4
1. LEVEL1
2. LEVEL2
3. LEVEL3
4. LEVEL4
4. LEVEL4
4. LEVEL4
4. LEVEL4
4.CHARACTER
4
Page 89
3 – 18
3
3.3 PREPARATION
.
..
12 Press .
will be selected and the following pull-down menu will appear.
13 Select any level from to for BUZZER volume level in the pull-
down menu and press it.
The default value is set to .
4. LEVEL4
7
1
5.BUZZER
SUB1 MENU
LEVEL
2.VRM
3.EBL
4.CHARACTER
1.RANGE RINGS
0.
EXIT
4. LEVEL4
1. LEVEL1
2. LEVEL2
5. LEVEL5
6. LEVEL6
4. LEVEL4
4. LEVEL4
4. LEVEL4
4. LEVEL4
3. LEVEL3
7. LEVEL7
4. LEVEL4
5.BUZZER
5
Page 90
3 – 19
After the brilliance levels are adjusted, the following menu will appear.
The menu display after adjustment shows the level values set for the indiviual brilliance items.
Note: Changing the “LEVEL” of the buzzer will cause the levels of all the alarms to be
changed as well as the key touch sound.
The level of any alarm cannot be set to 0 as well as the key touch sound.
1 Press .
The Sub1 Menu will reappear.
2 Press .
The Sub1 Menu will be closed.
These set brilliance levels are saved depending upon the Day/Night mode.
……Day/Night Mode Selection DAY/NIGHT ………………………
Whenever the [DAY/NIGHT] switch is pressed, the mode is changed over from /
// and the current mode is indicated at the lower right of the radar display.
The brilliance levels selected for each mode are saved. For brilliance adjustment, refer to page 3 - 12.
For selection of DAY/NIGHT mode by Menu operation, refer to “Color Setting” on the next page.
NIGHT2
NIGHT1
DAY2DAY1
0
0
Exit
5.BUZZER
SUB1 MENU
LEVEL
2.VRM
3.EBL
4.CHARACTER
1.RANGE RINGS
0.
EXIT
4. LEVEL4
4. LEVEL4
4. LEVEL4
4. LEVEL4
4. LEVEL4
Page 91
3 – 20
3
3.3 PREPARATION
.
..
……Color Setting COLOR ……………………………………………
The colors of the Day/Night mode [DAY1, 2/NIGHT1, 2], system, background color outside the bearing
scale, background color inside the bearing scale, echoes, characters, dials, own ship’s track and radar
trails are set up.
Color Adjustment by Menu Operation
DAY/NIGHT - Register of DAY/NIGHT mode (the same function as [DAY/NIGHT] setting)
SYSTEM - System color adjustment
OUTER PPI - Adjustment of the background color outside the bearing scale
INNER PPI - Adjustment of the background color inside the bearing scale
ECHO - Adjustment of echo colors
CHARACTER - Adjustment of character colors
DIAL - Adjustment of dial color
OWN TRACK - Adjustment of the color of own ship’s track
TRAILS - Adjustment of the color of radar trails
1 Press .
The Main Menu will appear.
2 Press .
The Sub1 Menu will appear.
3 Press .
The Sub2 Menu will appear.
4 Press .
The COLOR Menu will appear.
198
MENU
Procedures
Page 92
3 – 21
5 Press .
will be selected and the following pull-down menu will appear.
6 Select any colors from to for the Day/Night mode selection in
the pull-down menu and press it.
4
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PP
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. BLACK
1. WHITE
1. WHITE
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. DAY1
2. DAY2
3. NIGHT1
4. NIGHT2
1. DAY1
1.DAY/NIGHT
1
Page 93
3 – 22
3
3.3 PREPARATION
.
..
7 Press .
will be selected and the following pull-down menu will appear.
8 Select any colors from to for the system color in the pull-down
menu and press it.
4
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PP
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. BLACK
1. DAY1
1. WHITE
1. WHITE
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. BLUE1
2. BLUE2
3. GRAY
4. BLACK
1. BLUE1
2.SYSTEM
2
Page 94
3 – 23
9 Press .
will be selected and the following pull-down menu will appear.
10 Select any colors from to for the background color outside the
bearing scale in the pull-down menu and press it.
3
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PPI
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. DAY1
1. WHITE
1. WHITE
1. BLUE1
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. BLACK
2. BLUE
3. D–BLUE
1. BLACK
3.OUTER PPI
3
Page 95
3 – 24
3
3.3 PREPARATION
.
..
11 Press .
will be selected and the following pull-down menu will appear.
12 Select any colors from to for the background color inside the
bearing scale in the pull-down menu and press it.
3
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PPI
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. DAY1
1. WHITE
1. BLUE1
1. BLACK
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. BLACK
2. BLUE
3. D–BLUE
1. BLACK
4.INNER PPI
4
Page 96
3 – 25
13 Press .
will be selected and the following pull-down menu will appear.
14 Select any colors from to for the character color in the pull-down
menu and press it.
3
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PPI
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. DAY1
1. BLACK
1. WHITE
1. BLACK
1. BLUE1
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. WHITE
2. AMBER
3. GREEN
1. WHITE
5.CHARACTER
5
Page 97
3 – 26
3
3.3 PREPARATION
.
..
15 Press .
will be selected and the following pull-down menu will appear.
16 Select any colors from to for the dial color in the pull-down
menu and press it.
3
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PPI
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. DAY1
1. WHITE
1. WHITE
1. BLUE1
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. BLACK
1. BLACK
2. AMBER
3. GREEN
1. WHITE
6.DIAL
6
Page 98
3 – 27
17 Press .
will be selected and the following pull-down menu will appear.
18 Select any colors from to for the echo color in the pull-down
menu and press it.
3
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PPI
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. DAY1
1. WHITE
1. WHITE
1. BLUE1
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. BLACK
1. BLACK
2. GREEN
3. AMBER
1. YELLOW
7.ECHO
7
Page 99
3 – 28
3
3.3 PREPARATION
.
..
19 Press .
will be selected and the following pull-down menu will appear.
20 Select any colors from to for the colors of radar trails in the
pull-down menu and press it.
3
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PPI
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. DAY1
1. WHITE
1. WHITE
1. BLUE1
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. BLACK
1. BLACK
2. WHITE
3. GREEN
1. SKY
8.TRAILS
8
Page 100
3 – 29
21 Press .
will be selected and the following pull-down menu will appear.
22 Select any colors from to for the colors of own ship’s track in the
pull-down menu and press it.
6
1
5.CHARACTER
6.DIAL
SUB2 MENU
COLOR
2.SYSTEM
3.OUTER PPI
4.INNER PPI
1.DAY/NIGHT
0.
EXIT
1. DAY1
1. WHITE
1. WHITE
1. BLUE1
7.ECHO
1. YELLOW
8.TRAILS
1. SKY
9.OWN TRACK
1. SKY
1. BLACK
1. BLACK
2. GREEN
3. WHITE
4. YELLOW
5. PINK
6. BLUE
1. SKY
9.OWN TRACK
9
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