Japan Radio NKE2632 Solid State S-Band Marine Radar User Manual Installation Manual Part 1

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For further information,contact:
Not use the asbestos
URL http://www.jrc.co.jp
Marine Service Department
Telephone : +81-3-3492-1305
+81-3-3779-1420
Facsimile :
tmsc@jrc.co.jp
e-mail :
SEATTLE Branch
Telephone : +1-206-654-5644
Facsimile :
+1-206-654-7030
e-mail :
marineservice@jrcamerica.com
URL http://www.alphatronmarine.com
Rotterdam (Head office)
Alphatron Marine B.V.
Telephone : +31 (0)10- 453 4000
Facsimile :
+31 (0)10- 452 9214
e-mail :
service@alphatronmarine.com
Singapore Branch
Alphatron Marine Systems Pte Ltd
Telephone : +65 6863 0335
Facsimile :
+65 6863 3305
e-mail :
service@alphatronmarinesystems.com
CODE No.7ZPNA4466A
01ETM
JUL. 2015 Edition 3
ISO 9001, ISO 14001 Certified
JRC
Printed in Japan
JMR-9230-S/S3
JMR-9225-7X3/9X3/6X/9X/6XH
JMR-9210-6X/6XH
JMR-9272-S
JMR-9282-S/SH
JMR-7230-S/S3
JMR-7225-7X3/9X3/6X/9X/6XH
JMR-7210-6X/6XH
JMR-7272-S
JMR-7282-S/SH
JAN-9201
JAN-7201
JAN-9202
JAN-7202
MARINE RADAR EQUIPMENT
/ECDIS/CONNING
INSTALLATION MANUAL
Cautions for High Voltage
High voltages, ranging from several hundreds to tens of thousands of volts, are used in
electronic apparatus, such as radio and radar instruments. These voltages are totally
harmless in most operations. However, touching a component inside the unit is very
dangerous. (Any person other than authorized service engineers should not maintain,
inspect, or adjust the unit.)
High voltages on the order of tens of thousand volts are most likely to cause instant deaths
from electrical shocks. At times, even voltages on the order of several hundred volts could
lead to electrocution. To defend against electrical shock hazards, don't put your hand into
the inside of apparatus. When you put in a hand unavoidably in case of urgent, it is strongly
suggested to turn off the power switch and allow the capacitors, etc. to discharge with a wire
having its one end positively grounded to remove residual charges. Before you put your
hand into the inside of apparatus, make sure that internal parts are no longer charged. Extra
protection is ensured by wearing dry cotton gloves at this time. Another important precaution
to observe is to keep one hand in your pocket at a time, instead of using both hands at the
same time.
It is also important to select a secure footing to work on, as the secondary effects of
electrical shock hazards can be more serious. In the event of electrical shocks, disinfect the
burnt site completely and obtain medical care immediately.
Precautions for Rescue of Victim
of Electric Shock
When a victim of electric shock is found, turn off the power source and ground the circuit
immediately. If this is impossible, move the victim away from the unit as quick as possible
without touching him or her with bare hands. He or she can safely be moved if an insulating
material such as dry wood plate or cloth is used.
Breathing may stop if current flows through the respiration center of brain due to electric
shock. If the electric shock is not large, breathing can be restored by artificial respiration. A
victim of electric shock looks pale and his or her pulse may become very weak or stop,
resulting in unconsciousness and rigidity at worst. It is necessary to perform first aid
immediately.
7ZPNA4466A
Method of First-Aid Treatment
Precautions for First-Aid Treatments
Whenever a person is struck by an electrical shock, give the patient artificial respiration
immediately on the spot, unless it is absolutely necessary to move the patient for safety's
sake. Once started, artificial respiration should be continued rhythmically.
(1) Refrain from touching the patient carelessly as a result of the accident; the first-aider
could suffer from electrical shocks by himself or herself.
(2) Turn off the power calmly and certainly, and move the patient apart from the cable
gently.
(3) Call or send for a physician or ambulance immediately, or ask someone to call doctor.
(4) Lay the patient on the back, loosening the necktie, clothes, belts and so on.
(5) (a) Feel the patient's pulse.
(b) Check the heartbeat by bringing your ear close to the patient's heart.
(c) Check for respiration by bringing your face or the back of your hand to the patient's
face.
(d) Check the size of patient's pupils.
(6) Opening the patient's mouth, remove artificial teeth, cigarettes, chewing gum, etc. if
any. With the patient's mouth open, stretch the tongue and insert a towel or the like into
the mouth to prevent the tongue from being withdrawn into the throat. (If the patient
clenches the teeth so tight that the mouth won't open, use a screwdriver or the like to
force the mouth open and then insert a towel or the like into the mouth.)
(7) Wipe off the mouth to prevent foaming mucus and saliva from accumulating.
ii
Treatment to Give When the Patient Has a
Pulse Beating but Has Ceased to Breathe
 Performing mouth-to-mouth artificial respiration - Fig. 1
(1)
(2)
(3)
(4)
(5)
(6)
Bend the patient's face backward until it is directed to look back. (A pillow may be
placed under the neck.)
Pull up the lower jaw to open up the airway. (To spread the airway)
Pinching the patient's nose, breathe deeply and blow your breath into the patient's
mouth strongly, with care to close it completely. Then, move your mouth away and
take a deep breath, and blow into his or her mouth. Repeat blowing at 10 to 15 times
a minute (always with the patient's nostrils closed).
Continue artificial respiration until natural respiration is restored.
If the patient's mouth won't open easily, insert a pipe, such as one made of rubber or
vinyl, into either nostril. Then, take a deep breath and blow into the nostril through
the pipe, with the other nostril and the mouth completely closed.
The patient may stand up abruptly upon recovering consciousness. Keep the patient
lying calmly, giving him or her coffee, tea or any other hot drink (but not alcoholic
drink) to keep him or her warm.
Mouth-to-mouth artificial respiration with the patient's head lifted
[1]
(1) Lift the back part of the patient's
head. Support the forehead with one
of your hand and the neck with the
other hand.[1].
Many patients will have their airways
opened by lifting their head in this
way to ease mouth-to-mouth artificial
respiration.
[2]
(2) Closing the patient's mouth with your
mouth, press your cheek against the
patient's nose [2].
Alternatively, hold the patient's nose
with your finger to prevent air leak
 [3].
(3) Blowing air into the patient's lungs.
Blow air into the patient's lungs until
chest is seen to rise. The first 10
breaths must be blown as fast as
possible.
[3]
Fig. 1 Mouth-to-mouth artificial respiration
iii
Treatment to Give When the Patient Has No
Pulse Beating and Has Ceased to Breathe
 Performing cardiac massage - Fig. 2
If the patient has no pulse beating, with the pupils open and no heartbeat being heard, the
patient has a cardiac arrest and requires immediate artificial respiration.
Continue this
until a medical specialist arrives, and follow his or her directions after that.
(1)
Putting one hand on about the lower one third of the patient's ribs and the other hand
over the back of the first, with your elbow fully stretched (with bended elbow, you
can’t press to the extent the patient’s ribs are depressed), apply your body weight to
the hands to press the patient's body until it is depressed about 2 cm (Repeat this
about 50 times a minute). (Cardiac massage)
(2)
If only one first-aider is available, perform a cardiac massage about 15 times and
then give mouth-to-mouth artificial respiration 2 times. Repeat this sequence.
If two first-aiders are available, while one person performs a cardiac massage 15
times, the other should give mouth-to-mouth artificial respiration 2 times. Repeat this
sequence. (Combined cardiac massage and mouth-to-mouth artificial respiration
method)
(3)
Check the patient's pupils and feel the pulse from time to time. When the pupils are
restored to normal and the pulse begins to beat regularly, stop treating and keep the
patient calm while giving him or her coffee, tea or any other hot drink to keep him or
her warm while watching him or her carefully.
[1]
[2]
[3]
[4]
Fig. 2
Cardiac massage
iv
Procedure for cardiopulmonary resuscitation (CPR) using the AED
(Automated External Defibrillator)
A person is collapsing.
- Secure the safety of the surrounding area.
- Prevent secondary disasters.
Listen to the appeal of the
injured or ill person and give
the necessary first-aid
treatment.
Responding
Check for response.
- Call while tapping the shoulder.
Not responding
Ask for help.
- Make an 119 emergency call.
- Ask to bring an AED.
Breathing
Open the airway.
- Check for breathing.
Not breathing
Give 2 rescue breaths; omittable Note(1)
Recovery position
- Lay the injured or
ill person on
his/her side and
wait for the arrival
of the emergency
services.
Note(1) Omission of rescue breathing:
If there is a fear of infection because the
injured or ill person has an intraoral injury,
you are hesitant about giving mouth-to-mouth
resuscitation, or preparing the mouthpiece for
rescue breathing takes too long, omit rescue
breathing and proceed to the next step.
Give CPR.
- 30 chest compressions
- Give 2 rescue breaths; omittable Note(1)
Arrival of an AED
- Turn on the power.
- Use the AED by following its voice prompts.
Fitting of the electrode pads, etc.
Automatic electrocardiogram
analysis
- Do not touch the injured or ill
person.
Electric shock is not needed.
Electric shock is needed.
The AED
automatically
analyzes the
heart rhythm
every 2 min.
Delivery of electric shock
Resume CPR from chest
compressions by following the
voice prompts of the AED.
When to
stop CPR
When the injured or ill
person has been
handed over to the
emergency services or
has started moaning or
breathing normally, lay
him/her on his/her side
in a recovery position
and wait for the arrival
of emergency services.
Procedure for Cardiopulmonary Resuscitation (CPR) Using the AED
(Automated External Defibrillator)
1． Check the scene for safety to prevent secondary disasters
Are you OK?
a) Do not touch the injured or ill person in panic when an accident has
occurred. (Doing so may cause electric shock to the first-aiders.)
b) Do not panic and be sure to turn off the power. Then, gently move
the injured or ill person to a safe place away from the electrical
circuit.
2． Check for responsiveness
a) Tap the shoulder of the injured or ill and shout in the ear saying, "Are you OK?"
b) It the person opens his/her eyes or there is some response or gesture, determine it as
"responding." But, if there is no response or gesture, determine it as "not responding."
3． If responding
a) Give first-aid treatment.
Please call 119.
Please bring an
4． If not responding
a) Ask for help loudly. Ask somebody to make an emergency 119 call
and bring an AED.
• Somebody has collapsed. Please help.
• Please call 119.
• Please bring an AED.
• If there is nobody to help, call 119 yourself.
5． Open the airway
a) Touch the forehead with one hand. Lift the chin with the two fingers of
the middle finger and forefinger of the other hand and push down on
the forehead as you lift the jaw to bring the chin forward to open the
airway. If neck injury is suspected, open the airway by lifting the lower
jaw.
6． Check for breathing
a) After opening the airway, check quickly for breathing for no more than
10 seconds. Put your cheek down by the mouth and nose area of the
injured or ill person, look at his/her chest and abdomen, and check the
following three points.
• Look to see if the chest and abdomen are rising and falling.
• Listen for breathing.
• Feel for breath against your cheek.
vi
AED
b) If the injured or ill person is breathing, place him/her in the recovery
position and wait for the arrival of the emergency services.
• Position the injured or ill person on his/her side, maintain a clear and
open airway by pushing the head backward while positioning their
mouth downward. To maintain proper blood circulation, roll him/her
Roll gently in the opposite
direction every 30 minutes.
gently to position them in the recovery position in the opposite
direction every 30 minutes.
7． Give 2 rescue breaths (omittable)
a) If opening the airway does not cause the injured or ill person to begin to
CPR mask
breathe normally, give rescue breaths.
b) If there is a fear of infection because the injured or ill person has an
intraoral injury, you are hesitant about giving mouth-to-mouth
resuscitation, or getting and preparing the mouthpiece for rescue
Mouthpiece for rescue
breathing takes too long, omit rescue breathing and perform chest
compressions.
c) When performing rescue breathing, it is recommended to use a
mouthpiece for rescue breathing and other protective devices to
prevent infections.
d) While maintaining an open airway, pinch the person's nose shut with
your thumb and forefinger of the hand used to push down the forehead.
e) Open your mouth widely to completely cover the mouth of the injured or ill person so that no air
will escape. Give rescue breathing twice in about 1 second and check if the chest rises.
8． Cardiopulmonary resuscitation (CPR) (combination of chest compressions and
rescue breaths)
a)
Chest compressions
1) Position of chest compressions
•
Position the heel of one hand in the center of the chest, approximately between the
nipples, and place your other hand on top of the one that is in position.
vii
2) Perform chest compressions
•
Perform uninterrupted chest compressions of
30 at the rate of about 100 times per minute
•
Compress
with these
parts (the
heels of
both
hands).
While locking your elbows positioning yourself
vertically above your hands.
•
With each compression, depress the chest wall to a depth of approximately 4 to 5 cm.
b) Combination of 30 chest compressions and 2 rescue breaths
1) After performing 30 chest compressions, give 2 rescue
30 times
breaths. If rescue breathing is omitted, perform only chest
compressions.
2 times
2) Continuously perform the combination of 30 chest
compressions and 2 rescue breaths without interruption.
3) If there are two or more first-aiders, alternate with each other
approximately every two minutes (five cycles of
compressions and ventilations at a ratio of 30:2) without interruption.
9． When to stop cardiopulmonary resuscitation (CPR)
a) When the injured or ill person has been handed over to the
emergency services
b) When the injured or ill person has started moaning or breathing
normally, lay him/her on his/her side in a recovery position and wait
for the arrival of emergency services.
10． Arrival and preparation of an AED
a) Place the AED at an easy-to-use position. If
there are multiple first-aiders, continue CPR
until the AED becomes ready.
b) Turn on the power to the AED unit.
Turn on the power.
Depending on the model of the AED, you
may have to push the power on button, or the AED automatically turns on when you open the
cover.
c) Follow the voice prompts of the AED.
11． Attach the electrode pads to the injured or ill person's bare chest
a) Remove all clothing from the chest, abdomen, and arms (male or
female).
b) Open the package of electrode pads, peel the pads off and securely
place them on the chest of the injured or ill person, with the adhesive
viii
side facing the chest. If the pads are not securely attached to the
chest, the AED may not function. Paste the pads exactly at the
positions indicated on the pads, If the chest is wet with water, wipe
dry with a dry towel and the like, and then paste the pads. If there is a
pacemaker or implantable cardioverter defibrillator (ICD), paste the
pads at least 3cm away from them. If a medical patch or plaster is
present, peel it off and then paste the pads. If the injured or ill person's chest hair is thick, paste
the pads on the chest hair once, peel them off to remove the chest hair, and then paste new
pads.
c) Some AED models require to connect a connector by following voice prompts.
d) Do not put child pads on adults (older than 8 years).
12． Electrocardiogram analysis
a) The AED automatically analyzes electrocardiograms. Follow the
voice prompts of the AED and ensure that nobody is touching the
injured or ill person while you are operating the AED.
b) On some AED models, you may need to push a button to analyze
the heart rhythm.
13． Electric shock (defibrillation)
a) If the AED determines that electric shock is needed, the voice
prompt saying, "Shock is needed" is issued and charging starts
automatically.
b) When charging is completed, the voice prompt saying, "Push the
shock button" is issued and the shock button flashes.
c) The first-aider must get away from the injured or ill person, make
Press the shock button.
sure that no one is touching him/her, and then press the shock button.
d) When electric shock is delivered, the body of the injured or ill person may jerk.
14． Resume cardiopulmonary resuscitation (CPR).
Resume CPR consisting of 30 chest compressions
and 2 rescue breaths by following the voice prompts
of the AED.
15． Automatic electrocardiogram analysis
a) When 2 minutes have elapsed since you resumed cardiopulmonary resuscitation (CPR), the
AED automatically analyzes the electrocardiogram.
b) If you suspended CPR by following voice prompts and AED voice prompt informs you that
shock is needed, give electric shock again by following the voice prompts.
If AED voice prompt informs you that no shock is needed, immediately resume CPR.
ix
16． When to stop CPR (Keep the electrode pads on.)
a) When the injured or ill person has been handed over to the emergency services
b) When the injured or ill person has started moaning or breathing normally, lay him/her on
his/her side in a recovery position and wait for the arrival of emergency services.
PREFACE
Thank you for purchasing the JRC Multi Function Display JMR-7200/9200 Series,
JAN-7201/9201 and JAN-7202/9202.
This equipment meets the performance standards of the IMO (International Maritime
Organization) and the IHO (International Hydro graphic Organization), and serves to improve
safety, reduce fuel combustion, concentrate voyage information as the main device of the
INS (Integrated Navigation System).
● For the best operation, read the instruction manual thoroughly before use.
● Keep this manual in a convenient place for future reference.
Make use of this manual when experiencing operation difficulties.
● The LCD of this equipment uses thin film transistors (TFT).
If some pixels on the screen
are not clear, the color is different, or the screen is brighter than usual, it is not because of
defect, instead it is because of inherent characteristic of the TFT display technology.
● The information in this manual is subject to change without notice at any time.
xi
 Before Operation 
Pictorial Indication
Various pictorial indications are included in this installation
manual and are shown on this 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:
DANGER
This indication is shown where incorrect equipment
operation due to negligence may cause death or serious
injuries.
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.
CAUTION
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.
Examples of Pictorial Indication
Electric Shock
The  mark represents CAUTION (including DANGER and
WARNING).
Detailed contents of CAUTION ("Electric Shock" in the example
on the left) is shown in the mark.
The  mark represents prohibition.
Detailed contents of the prohibited action ("Disassembling
Prohibited" in the example on the left) is shown in the mark.
Disassembling
Prohibited
The  mark represents instruction.
Detailed contents of the instruction ("Disconnect the power plug"
in the example on the left) is shown in the mark.
Disconnect
the power plug
Warning Label
There is a warning label on the top cover of the equipment.
Do not try to remove, break or modify the label.
xii
 Precautions upon Equipment Operation 
DANGER
Never attempt to check or repair the inside of the equipment.
Checking or repair by an unqualified person may cause a fire or an electric
shock.
Contact our head office, or a nearby branch or local office to request
servicing.
Never remove the cover of this equipment.
Touching the high-voltage section inside will cause an electric shock.
Do not attempt to disassemble or tamper with this equipment.
Otherwise, a fire, an electric shock, or a malfunction may occur.
When conducting maintenance, make sure to turn the main power off.
Failure may result in electric shock.
Turn off the main power before cleaning the equipment. Especially when a
rectifier is used, make sure to turn it off since voltage is still outputted from the
rectifier even after the indicator and the radar are turned off. Failure may
result in equipment failure, or death or serious injury due to electric shock.
When conducting maintenance work on the radar antenna, make sure to turn
its main power off.
Failure may result in electric shock or injuries.
Make sure to turn off the radar antenna safety switch. Failure may result in
injuries caused by physical contact with the rotating radar antenna.
xiii
Never directly touch the internal components of the radar antenna or
indicator. Direct contact with these high-voltage components may cause
electric shock. For maintenance, inspection, or adjustment of equipment
components, consult with our branch office, branch shop, sales office, or our
distributor in your district.
Do not get close to the radiant section of the radar antenna. It is a rotating
part, and it may cause injuries if it suddenly starts rotating and consequently
hits the body. It is recommended that the radiant section be installed at a high
place such as on the roof of the wheelhouse, on the flying bride, on the
trestle, or on the radar mast so that no one can get close to it. When any work
must be done on the radar antenna, make sure to turn the safety switch off.
Microwave radiation level of the radar antenna:
Keep away from the radar antenna during transmission.
Microwaves are generated from the front center of the radiant section of the
radar antenna at the levels indicated in the table below. Exposure to
microwaves at close range can result in injury (especially damage to eyes).
Microwave radiation level of the radar antenna
50 W/m2
System
20 W/m2
2.5 W/m2
NKE-2103
n/a
26 cm
123 cm
NKE-1125/1129/2254
5 cm
81 cm
162 cm
NKE-1130/1139
11 cm
76 cm
181 cm
NKE-2632
1.38cm
3.1cm
209.76cm
NKE-1632
1.45cm
3.25cm
128.37cm
Make sure to install the radar antenna at a place higher than human height.
Direct exposure to electromagnetic wave at close range will have adverse
effects on the human body.
When it is necessary to get close to the radar antenna for maintenance or
inspection purposes, make sure to turn the power switch of the display unit to
“OFF” or “STBY”.
Direct exposure to electromagnetic waves at close range will have adverse
effects on the human body.
When conducting maintenance work, make sure to turn off the power so that
the power supply to the equipment is completely cut off.
Some equipment components can carry electrical current even after the
power switch is turned off, and conducting maintenance work may result in
electric shock, equipment failure, or accidents.
When cleaning the display screen, do not wipe it too strongly with a dry cloth.
Also, do not use gasoline or thinner to clean the screen. Failure will result in
damage to the screen surface.
xiv
Do not change MBS Level/Area unless absolutely necessary.
Incorrect adjustment will result in deletion of nearby target images and thus
collisions may occur resulting in death or serious injuries.
Confirm computer virus does not exist in USB memory beforehand when
reading and writing of the file by using USB memory device.
Influences other equipment when the display unit is infected with the virus,
and causes the breakdown.
Do not leave the USB memory or the like in the USB port after use.
Malfunctions may result.
Do not remove USB device while the access lamp (in USB device) is flashing.
Data is damage when the USB device is pulled out while accessing it, and it
case the breakdown.
Do not insert or remove the USB device while transmitting.
The radar image becomes unstable by accessing the USB device not
anticipated, and it causes the breakdown.
Do not place a glass or cup containing water, etc., or a small metal object on
this equipment.
If water or such object gets inside, a fire, an electric shock, or a malfunction
may occur.
In case water or a metal object gets inside the equipment, turn off the power
immediately, unplug the power supply cable from an electric outlet, and
contact our head office, or a nearby branch or local office to request servicing.
Keeping the equipment in operation under such condition may cause a fire,
an electric shock or a malfunction.
In case you find smoke, strange smell or unusual heat coming from the
equipment, turn off the power immediately, unplug the power supply cable
from an electric outlet, and contact our head office, or a nearby branch or
local office to request servicing.
Keeping the equipment in operation under such condition may cause a fire or
an electric shock.
xv
Do not use the offset function during navigation.
If the equipment is used with the offset value entered as the own ship position
(deviated from the actual position), accidents may result.
When the offset values are entered, the [Offset] badge is displayed at the
position display on the Own Ship Information. Check the indication, and
cancel the offset function if necessary. Also, the message “Position Shift” is
displayed in the message display area.
If the LCD module breaks and the liquid inside spills out to stick to your skin,
wash it off immediately under running water for more than 15 minutes. If you
find any skin problem afterwards, consult a doctor immediately. If the liquid
gets in your eye, wash it off immediately under running water for more than 15
minutes, and then, consult a doctor as soon as possible.
Before starting automatic sailing, be sure to check the safety of the route and
the safety when crossing safety contour.
Otherwise, accidents may result.
If the own ship has arrived at the boundary of a WPT during automatic sailing,
be sure to check the safety and perform turning manually by the operator
him/herself.
Otherwise, the ship keeps the course with the leg bearing, and accidents may
result.
Input the ship’s parameter accurately according to the specification of the
ship.
Otherwise, accidents may result.
xvi
Use the radar only as a navigation aid.
The final navigation decision must always be made by the operator
him/herself.
Making the final navigation decision based only on the radar display
information may cause accidents such as collisions or running aground.
A malfunction as the screen is disordered or unshown may occur if the power
in the ship is instantaneously interrupted during operation of the radar. In this
case, the power should be turned on again.
Use Target Tracking (TT) function only as a navigation aid. The final
navigation decision must always be made by the operator him/herself.
Making the final navigation decision based only on tracking target information
may cause accidents.
Tracking target information such as vector, target numerical data, and alarms
may contain some errors. Also, targets that are not detected by the radar
cannot be acquired or tracked.
Making the final navigation decision based only on the radar display may
cause accidents such as collisions or running aground.
When using the [AUTO SEA] function, never set the suppression level too
high canceling out all image noises from the sea surface at close range.
Detection of not only echoes from waves but also targets such as other ships
or dangerous objects will become inhibited.
When using the [AUTO SEA] function, make sure to choose the most
appropriate image noise suppression level.
When using the [AUTO RAIN] function, never set the suppression level too
high.
Detection of not only echoes from the rain or snow but also targets such as
other ships or dangerous objects will become inhibited.
When using the [AUTO RAIN] function, make sure to choose the most
appropriate image noise suppression level.
When setting a guard zone, make sure to properly adjust gain, sea-surface
reflection suppression level, and rain/snow reflection suppression level so
that the optimal target images are always on the radar screen. The guard
zone alarm will not be activated for targets undetected by the radar, and it
may result in accidents such as collisions.
The simulation function is used exclusively for deciding whether or not target
tracking is properly operating. Therefore, never use this function unless you
wish to check target tracking operations.
Note especially that, if this function is used during actual navigation,
simulated targets are displayed and may become confused with other actual
targets. Therefore, never use this function during actual navigation.
xvii
Optimal values have been set for VD LEVEL and CONSTANT; therefore,
never change their values unless absolutely necessary. Failure may result in
accidents that would lower target tracking performance.
When replacing magnetrons, make sure to shut off the main power and let
the equipment stand for more than 5 minutes to discharge the high-voltage
circuit.
Failure may result in electric shock.
Make sure to take off your watch when your hand must get close to the
magnetron.
Failure may result in damage to the watch since the magnetron is a strong
magnet.
Make sure that two or more staff member work together when replacing the
LCD. If only one person attempts to replace the LCD, he/she may drop it and
become injured.
Do not directly touch the inverter circuit of the LCD display with a bare hand
since high voltage temporarily remains in the circuit even after the main
power is shut off.
Failure may result in electric shock.
Any adjustments must be made by specialized service personnel.
Incorrect settings may result in unstable operation, and this may lead to
accidents or equipment failure.
Do not make any adjustments during navigation.
Failure may result in adverse effects on the radar function which may lead to
accidents or equipment failure.
Do not change the quantization level settings unless absolutely necessary.
If set at an inappropriate value, the target acquisition or target tracking
function deteriorates, and this may lead to accidents.
Do not use or leave the equipment under direct sunlight for a long time or in
the temperatures above 55°C.
Otherwise, a fire or a malfunction may occur.
Do not block the ventilation opening of the equipment.
Otherwise, heat may accumulate inside to cause a fire or a malfunction.
xviii
This equipment is intended for use as an aid to navigation only.
• If no backup measures, such as using another EDIS unit for confirmation,
are taken, be sure to use official marine charts together with this
equipment to make any navigational decision.
• This equipment is not designed to assess the positional information
automatically.
The positional information should always be checked by the operator.
Otherwise, accidents may result.
Do not touch the equipment with hands or gloves wet with water.
Otherwise, an electric shock or a malfunction may occur.
Do not turn off the power during index creation by Chart Portfolio.
Otherwise, a malfunction may occur.
Do not leave the CD/DVD in the DVD drive.
Malfunctions of the drives may result.
• Do not place any object on the operation panel.
Avoid placing anything extremely hot, in particular, as this may deform the
panel.
• Do not apply any undue shock on the operation panel, trackball and dials.
Otherwise, a malfunction may result.
•
Please do not press and hold the power button of the operation unit. It
becomes the cause that prevents the normal start-up.
Make sure that the main power is turned off before inspection or replacement
of parts.
Otherwise, an electric shock, a fire, or a malfunction may occur.
• If a fan alarm or CPU temperature rise alarm has occurred, immediately
turn off the power.
Keeping the equipment in operation under such condition may cause a fire
or a malfunction.
After turning off the power, contact our head office, or a nearby branch or
local office to request servicing.
Edit routes in accordance with the world geodetic system (WGS-84).
Use of routes edited with any other geodetic systems may cause accidents.
xix
During sailing, be sure to check the own ship’s position and bearing as often
as necessary, regardless of whether the automatic sailing is in operation or
not.
Otherwise, accidents may result.
Do not turn off the power during Backup/Restore.
Otherwise, a malfunction may occur.
Do not do the backup operation of data while sailing.
The radar application should be ended to begin the data backup. It becomes
impossible to observe using radar and this may lead to accidents.
In the case of turning on the power under the condition of low temperature, do
pre-heat less than 30 minutes.
Otherwise, the equipment may not start normally.
The judgement of formal or informal about chart depends on the
administration organization of the flag state. About the officially of the chart,
please contact the administration organization.
Please do not touch the LAN connector. May have to fail due to static
electricity. When attaching and detaching the LAN connection equipment,
please remove static electricity by touching the metal.
xx
The Mounting Point of the Warning Label
Warning Label
NDC-1590 Central Control Unit(CCU)
Warning
Label
NBD-913 Power Supply Unit(PSU)
xxi
Warning Label
CWA-246 26inch Display Unit Mount Kit
xxii
Warning Label
CWA-245 19inch Display Unit Mount Kit
xxiii
Warning Label
NQE-3141-4A/8A Inter Switch Unit(ISW)
Warning Label
NQE-3167 Power Control Unit
Warning Label
NKE-1129-7/9 Radar Antenna
NKE-1125-6/9 Radar Antenna
xxiv
Warning Label
NKE-1139/1130 Radar Antenna
Warning Label
NTG-3230/3225 Transmitter-Receiver
xxv
Warning Label
NKE-1632 Radar Antenna
Warning Label
NKE-2632/2632-H Radar Antenna
xxvi
EQUIPMENT APPEARANCE
NKE-1139 Radar Antenna (12 feet)
NKE-1130 Radar Antenna (12 feet)
NKE-1632 Radar Antenna (12 feet)
NKE-2632/2632-H Radar Antenna (8 feet)
xxvii
NTG-3230 Transmitter-Receiver (30 kW)
xxviii
NKE-1129-7 Radar Antenna (7 feet)
NKE-1129-9 Radar Antenna (9 feet)
NKE-1125-6 Radar Antenna (6 feet)
NKE-1125-9 Radar Antenna (9 feet)
xxix
NKE-2254-6HS Radar Antenna (6 feet)
NKE-2103/2103-6HS Radar Antenna (6 feet)
NTG-3225 Transmitter-Receiver (25 kW)
xxx
CWA-245 Display Unit Mount Kit
CWA-246 Display Unit Mount Kit
xxxi
NCE-5605 Trackball Operation Unit - TOPU
NCE-5625 Keyboard Operation Unit - KOPU
NDC-1590 Central Control Unit - CCU
NBD-913 Power Supply Unit - PSU
xxxii
NWZ-207 Monitor Unit(19inch)
NWZ-208 Monitor Unit(26inch)
NQE-3167 Power Control Unit (Option)
xxxiii
NQE-3141-4A Interswitch Unit - ISW(Option)
NQE-3141-8A Power Control Unit (Option)
NQE-1143 Junction Box - JB(Option)
xxxiv
Glossary
AIO
Admiralty Information Overlay. AIO is a digital dataset that is designed to
provide additional information to the navigation published by United Kingdom
Hydrographic Office (UKHO).
AIS
Automatic Identification System
AOC
Analog Option Circuit(Option interface board in Junction Box)
ARCS
Admiralty Raster Chart Service. A raster chart published by UKHO
ARPA
Automatic Radar Plotting Aid
AUTO SAIL
The system automatically navigates to keep the scheduled route. Same as
automatic sailing.
AZ
Acquisition/Activation zone
Anti-clutter rain
Rain/snow clutter suppression
Anti-clutter sea
Sea clutter suppression
AZI
AZImuth stabilization mode
Base CD
Chart CD containing a complete chart data
BCR/BCT
Bow Crossing Range/Bow Crossing Time
CCU
Central Control Unit
Cell Permit
A file containing an encryption key for S-63 chart. Supplied by UKHO,
PRIMAR STAVANGER, and Hydrographic and Oceanographic Department of
Japan Coast Guard.
Chart Maintenance
Software to manage the charts. Imports and updates the charts.
C-MAP Ed.3
C-MAP Edition 3. A digital chart format by Jeppesen (formerly, C-MAP,
Norway)
C-MAP
Digital chart data by Jeppesen (formerly, C-MAP, Norway)
CTS
Course To Steer. Heading command.
COG
Course Over the Ground
C up
Course up. Own ship’s course is pointed to the top center of the radar display.
CCRP
Consistent Common Reference Point. The own ship position, to which all
horizontal measurements such as target range, bearing, relative course,
xxxv
relative speed, CPA or TCPA are referenced, typically the conning position of
the bridge.
CORREL
CORRELation
CPA/TCPA
Distance to the Closest Point of Approach/Time to the Closest Point of
Approach.
CTW
Course Through Water. The direction of the ship's movement through the
water
Data Server
Organization providing S-63 chart
DIST
Distance
DR
Dead Reckoning
Dynamic License
Dynamic licensing of C-Map chart license by Jeppesen
DNV
Det Norske Veritas
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
ECDIS
Electronic Chart Display and Information System
ENC
Electronic Navigation Chart. Meaning S-57 and S-63.
ETA
Estimated Time of Arrival
ETD
Estimated Time of Departure
ENH
Enhance
F.ETA
Final Estimated Time of Arrival. Extimated time of arrival to the last WPT
GC
Great Circle
GPS
Global Positioning System
GIF
Gyro Interface Circuit(Option interface board in Junction Box)
HDG
Heading. Ship’s heading
HL
Heading Line
HSC
High Speed Craft. Vessels which comply with the definition in SOLAS for high
speed craft
H up
Head up. Own ship’s heading line is always pointed to the top center of the
radar display.
xxxvi
IHO
International Hydrographic Office
IMO
International Maritime Organization
IR
Radar Interference Rejecter
ISW
Inter Switch unit
JB
Junction Box
KOPU
Keyboard Operation Unit
LMT
Local Mean Time
LON
Longitude
LAT
Latitude
LP
Long Pulse
MED
Marine Equipment Directive. Request standard for standardization of marine
equipment within the EU region
MFD
Abbreviation of this equipment name. The formal name is Multi Function
Display. The navigation support functions such as radar, ECDIS, CID, and
AMS with this equipment can be executed by switching.
MMSI
Maritime Mobile Service Identity
MOB
Man Over Board
MON
Performance MOnitor
MP
Medium Pulse
NM
Nautical Mile 1 nm=1852 m
N up
The north is always pointed to the top center of the radar display. (North up)
P0N
Unmodulated pulse, which is a type of transmission radio wave. While it is a
type of radio wave usually used by radars equipped with magnetrons, radio
waves with a short pulse length are used also by solid-state radars for
short-range detection.
PRIMAR STAVENGER
A Norwegian company supplying charts. Publisher of encrypted charts, S-63
PI
Parallel Index line
Past positions
Equally time-spaced past position marks of a tracked or AIS target and the
own ship.
POSN
POSitioN
PRF
Pulse Repetition Frequency. The number of radar pulses transmitted each
second.
xxxvii
PROC
PROCess. Radar signal processing function
Q0N
A type of radio wave with intra-pulse frequency modulation. It is used for
solid-state pulse compression radars.
RL
Rhumb Line
RR
Range Rings
Relative vector
A predicted movement of a target relative to own ship’s motion
RM
Relative Motion. A display on which the position of own ship remains fixed,
and all targets move relative to own ship.
RM(R)
Relative Motion. Relative Trails
RM(T)
Relative Motion. True Trails
ROT
Rate Of Turn. Change of heading per time unit
Route
A set of waypoints
S-57
IHO Transfer Standard for Digital Hydrographic Data
S-63
IHO Data Protection Scheme
SA Certificate file
An electronic file certifying the supplier of S-63 chart. Required for import/
update of S-63 chart.
SENC
System Electronic Navigational Chart
SOG
Speed Over the Ground
SART
Search And Rescue Transponder
SET
The current direction for manual correction or the current speed on the
horizontal axis of the 2-axis log is displayed.
SP
Short Pulse
STAB
STABilization
STW
Speed Through Water
TCS
Track Control Systems
TCPA
Time to Closest Point of Approach to own ship
TM
True Motion. A display across which the own ship and targets move with their
own true motions.
To WPT
To Waypoint
TOPU
Trackball Operation Unit
Trails
Tracks displayed by the radar echoes of targets in the form of an afterglow
xxxviii
Trial maneuver
A graphical simulation facility used to assist the operator to perform a
proposed maneuver for navigation and collision avoidance purposes
True vector
A vector representing the predicted true motion of a target, as a result of input
of the course and speed of the own ship
TT
Target Tracking
TTG
Time To Go. Time to next waypoint.
TXRX
Transmitter-Receiver Unit
UKHO
United Kingdom Hydrographic Office
Update CD
Chart CD containing the chart data updated from Base CD. This can be used
when Base CD data has been imported.
USER CODE
A user-specific code assigned by JRC. Required in using ARCS and S-63
charts.
UTC
Universal Time, Coordinated
VRM
Variable Range Marker
VDR
Voyage Data Recorder
WOL
Wheel Over Line
WOP
Wheel Over Point
WPT
Waypoint
WPT-WPT
The division of the leg specified by two points. Displays data between two
consecutive waypoints.
XTD
Cross Track Distance
XTL
Cross Track Limit
Activated target
A target representing the automatic or manual activation of a sleeping AIS
target for the display of additional information
Associated target
A target simultaneously representing a tracked target and a AIS target which
are decided as the same
Chirp
A type of transmission waveform with intra-pulse frequency modulation used
by solid-state radars. Its radio wave type is classified as Q0N.
Clutter
Unwanted reflections on a radar screen, from sea surface, rain or snow.
Display
Screen displayed on the LCD
xxxix
Frequency deviation range :
The range of variation of the Q0N frequency used for transmission waves of a
solid-state radar. Generally, the greater the frequency deviation range, the
higher the resolution in the range direction.
Hydrographic and Oceanographic Department :
Hydrographic and Oceanographic Department of Japan Coast Guard. Publisher of ENC
Import (Chart Maintenance) :
A procedure of enabling the chart supplied by Base CD to be displayed on
ECDIS
Interswitch Unit
A device to switch over two or more radar display units and two or more radar
antennas
Leg
Line between two consecutive waypoints
Lost AIS target
A target symbol representing the last valid position of an AIS target before the
reception of its data was lost, or its last dead-reckoned position.
Lost tracked target
One for which target information is no longer available due to poor, lost or
obscured signals.
Power amplifier
A radio frequency amplifier circuit consisting of semiconductor elements used
for solid-state radars. It employs a high frequency, high power FET.
Primary
Main positioning sensor
Pulse compression
Correlation processing performed when a transmitted chirp signal is received
by a solid-state radar after reflecting off the target. This processing gain
enables the radar to have necessary detection capability even when a
transmission power is low.
Radar beacon
A navigation aid which responds to the radar transmission and generates
radio wave
Range
An area of the chart displayed on the screen. Represented by one half of the
length of the chart display screen.
Reference target
A fixed target specified to calculate the speed over the ground
Report
User report to be issued periodically for using the Dynamic License method of
Jeppesen continuously
Rubber band
Border that indicates the selected range.
RIF
Radar Interface Circuit(Option interface board in Junction Box)
Scale
The display scale
Sea state
Status of the sea condition due to the weather environment, expressed as a
sea state 0 for flat conditions with minimal wind, to sea state 8 for very rough
sea conditions.
xl
Ship-avoiding operation
To operate the ship in order to avoid obstacles during automatic navigation,
regardless of the scheduled route
Sleeping AIS target
A target indicating the presence and orientation of a vessel equipped with AIS
Spot depth
Numeric representation of depth
SSR: Solid State Radar
Radar that uses semiconductor elements instead of magnetron, which
requires periodic replacement. It is built with a system that ensures
necessary detection capability even when a transmission output is low, by
using chirp signals with a long pulse length upon transmission and
performing pulse compression upon reception
Update (Chart Maintenance) :
A procedure of reflecting the update data supplied by Update CD on the
imported chart.
xli
Contents
Contents ................................................................................................................................ 1
1.
Overview ..................................................................................................................... 1-1
1.1
2.
1.1.1
Main functions of the RADAR mode.......................................................... 1-1
1.1.2
Main Functions of the ECDIS mode........................................................... 1-2
1.2
Features ............................................................................................................... 1-3
1.3
Components ........................................................................................................ 1-6
Installation of Scanner Unit ...................................................................................... 2-1
2.1
Equipment Cable................................................................................................. 2-1
2.1.1
CFQ-6912-** .................................................................................................. 2-1
2.1.2
2695110056 ................................................................................................... 2-3
2.1.3
2695111153.................................................................................................... 2-5
2.1.4
Cable end processing method....................................................................... 2-7
2.1.5
Connection to the display-unit side terminal block ...................................... 2-10
2.2
Installation for the specified scanner model ................................................. 2-12
2.2.1
NKE-2103 type scanner unit........................................................................ 2-12
2.2.2
NKE-2254-6HS type scanner unit ............................................................... 2-14
2.2.3
NKE-1125 type scanner unit ........................................................................ 2-16
2.2.4
NKE-1129 type scanner unit ........................................................................ 2-18
2.2.5
NKE-1130 type scanner unit ........................................................................ 2-20
2.2.6
NKE-1139 type scanner unit ........................................................................ 2-22
2.2.7
NKE-1632 type scanner unit........................................................................ 2-24
2.2.8
NKE-2632 type scanner unit........................................................................ 2-26
2.3
Installation of Transmitter Receiver................................................................ 2-28
2.3.1
NTG-3225 type transmitter receiver unit ..................................................... 2-28
2.3.2
NTG-3230 type transmitter receiver unit ..................................................... 2-30
2.4
3.
Functions ............................................................................................................. 1-1
PRECAUTIONS .................................................................................................. 2-32
2.4.1
Installation of scanner unit ........................................................................... 2-33
2.4.2
Routing coaxial cable and flexible wave guide............................................ 2-36
2.4.3
Scanner installation position ........................................................................ 2-39
2.4.4
Confirmation during test run ........................................................................ 2-43
2.4.5
Others .......................................................................................................... 2-43
Installation of Display Unit ........................................................................................ 3-1
3.1
Confirmation of Various Units ........................................................................... 3-1
3.1.1
In case of JMR-9200Series/JAN-9201/JAN-9202......................................... 3-1
3.1.2
In case of JMR-7200 Series/JAN-7201/JAN-7202 ........................................ 3-2
3.2
Confirmation of Various Interface Boards ....................................................... 3-3
3.3
Selecting the Location for Installation ............................................................. 3-4
3.3.1
Outline Drawings of NWZ-208 26inch Monitor Unit ...................................... 3-5
3.3.2
Outline Drawings of NWZ-207 19inch Monitor Unit .................................... 3-6
3.3.3
Outline Drawings of NCE-5605 Trackball Operation Unit ............................. 3-7
3.3.4
Outline Drawings of NCE-5625 Keyboard Operation Unit ............................ 3-8
3.3.5
Outline Drawings of CWB-1593 Large Tray .................................................. 3-9
3.3.6
Outline Drawings of NDC-1590 Central Control Unit .................................. 3-10
3.3.7
Outline Drawings of NBD-913 Power Supply Unit ...................................... 3-11
3.3.8
Outline Drawings of NQE-1143 Junction Box ............................................. 3-12
3.3.9
Outline Drawings of NQA-2443 Sensor LAN Switch Unit ........................... 3-13
3.3.10
Outline Drawings of CWA-246 26inch Display Unit Mount Kit .................... 3-14
3.3.11
Outline Drawings of CWA-245 19inch Display Unit Mount Kit .................... 3-15
3.3.12
Outline Drawings of CWB-1595 26inch Desktop Frame ............................. 3-16
3.3.13
Outline Drawings of CWB-1594 19inch Desktop Frame ............................. 3-17
3.3.14
Outline Drawings of CWB-1596 OPU Desktop Frame................................ 3-18
3.3.15
Precautions for transporting and storing the display unit ............................ 3-19
3.3.16
Detaching the front frame of the Display unit mount kit .............................. 3-21
3.4
Installation of Standard Equipment ................................................................ 3-29
3.4.1
Installation of Monitor Unit NWZ-208/NWZ-207/NWZ-208-TP/NWZ-207-TP
3-29
3.4.2
Installation of Operation Unit (NCE-5625/CWB-1593/NCE-5605) .............. 3-31
3.4.3
Installation of Central Control Unit (NDC-1590) .......................................... 3-36
3.4.4
Installation of Power Supply Unit (NBD-913) .............................................. 3-38
3.4.5
Installation of Relay Terminal (CQD-2312) .................................................. 3-39
3.4.6
Connection of cables between unit ............................................................. 3-41
3.4.7
Wiring for Relay Terminal ............................................................................ 3-53
3.5
Installation of Option Equipment .................................................................... 3-62
3.5.1
Installation of Junction Box .......................................................................... 3-62
3.5.2
Connection of Display Unit and RIF ............................................................ 3-73
3.5.3
Installation of Sensor LAN Unit ................................................................... 3-78
3.5.4
Installation of UPS ....................................................................................... 3-88
3.5.5
Installation of Hood ...................................................................................... 3-95
3.5.6
Installation of CWB-1618 ............................................................................. 3-97
3.6
Connections with Scanner and Transceiver .................................................. 3-99
3.6.1
NKE-1125,
NKE-1129,
NKE-1130,
NKE-1139,
NKE-1632,
NKE-2632
SCANNERS ............................................................................................................. 3-100
3.6.2
NKE-2103, NKE-2254 SCANNERS .......................................................... 3-101
3.6.3
Settings for RADAR I/F Circuit .................................................................. 3-102
3.7
Connection with Sensors............................................................................... 3-104
3.7.1
IEC61162-1 Connections........................................................................... 3-105
3.7.2
IEC61162-2 Connections........................................................................... 3-107
3.7.3
LAN Connection......................................................................................... 3-110
3.7.4
Contact Input ............................................................................................. 3-114
3.7.5
Contact Output........................................................................................... 3-115
3.7.6
Connections with Gyro Compasses and Electromagnetic Speed Logs ... 3-119
3.7.7
Settings for CMJ-554 GYRO I/F Circuit .................................................... 3-120
3.7.8
Connection with Analog Sensors............................................................... 3-124
3.7.9
Backup of sensor signal ............................................................................ 3-127
3.8
Connection with ECDIS .................................................................................. 3-130
3.8.1
Radar Overlay............................................................................................ 3-130
3.8.2
Target Tracking .......................................................................................... 3-131
3.9
Connection with RADAR ................................................................................ 3-132
3.9.1
Radar Overlay............................................................................................ 3-132
3.9.2
Target Tracking .......................................................................................... 3-133
3.10
Connection with BNWAS ............................................................................... 3-134
3.11
Ground Connection ........................................................................................ 3-135
3.11.1
Shield for Equipment ................................................................................. 3-135
3.11.2
Cables for Equipment ................................................................................ 3-135
3.11.3
Mounting Location ..................................................................................... 3-135
3.11.4
Grounding .................................................................................................. 3-135
3.12
Installation of Power Cable ............................................................................ 3-136
3.12.1
Input Voltage Specification ........................................................................ 3-136
3.12.2
Connecting Power Cable ........................................................................... 3-137
3.13
Initialization for the specified model ............................................................ 3-138
3.14
Other Labels .................................................................................................... 3-147
3.14.1
4.
Position of labels........................................................................................ 3-148
Initial Setting ............................................................................................................... 4-1
[ALL]
4.1
Service Menu
4.2
Installation Information
............................................................................................. 4-2
[ALL]
............................................................................ 4-7
Setting Up a Language
[ALL]
............................................................................. 4-9
4.4
Subsystem Installation
[ALL]
........................................................................... 4-10
4.5
Setting Up CCRP (Consistent Common Reference Point)
4.3
[ALL]
Setting Up a Serial Port
4.7
Setting Contacts (Contact Input/Output)
4.9
4.10
[ALL]
CAM Configuration and Setting
[ALL]
[ALL]
........................................... 4-28
............................................................ 4-35
[ALL]
................................................................... 4-45
[RADAR][ECDIS]
................................................................... 4-51
Setting A/D (Analog/Digital)
Setting Data Output
................. 4-15
.......................................................................... 4-17
4.6
4.8
[ALL]
....................................................................................... 4-56
4.11
Network Setting
4.12
Redundancy Setting
4.13
Setting Ship’s Parameters [ALL] ........................................................................ 4-64
4.14
Setting Alert
4.15
Operation Setting at AC Power Failure (Insufficient AC power supply)
[ALL]
[ALL]
............................................................................... 4-62
............................................................................................. 4-65
[ALL]
4-67
4.16
[RADAR]
Setting Interswitch
[RADAR][ECDIS]
.............................................................................. 4-69
................................................................................ 4-71
4.17
Setting VDR
4.18
Setting Autosail (Automatic Sailing System)
4.19
4.20
4.21
4.22
Setting AIS
[RADAR][ECDIS]
Setting Display Size
Bearing Adjustment
................................................................................ 4-81
................................................................................. 4-83
[RADAR][ECDIS]
[RADAR][ECDIS]
................................................................... 4-84
4.23
Range Adjustment
4.24
Master/Slave Radar Operation Mode
4.25
.................................... 4-73
.................................................................................. 4-80
[ALL]
[RADAR]
Tune Adjustment
[ECDIS]
Setting an Antenna Height
..................................................................... 4-85
[RADAR][ECDIS]
[RADAR][ECDIS]
[RADAR]
....................................... 4-86
.......................................................... 4-87
....................................................................... 4-88
4.26
Tune Peak Adjustment
4.27
Setting a Tune Indicator (tuning indicator level)
4.28
Setting Output BP (Radar Antenna Bearing Pulse Output)
[RADAR]
4.29
Performance Monitor Adjustment
4.30
Setting Sector Blank (RADAR Screen Only)
4.31
4.32
4.33
Setting TNI Blank
[RADAR]
Setting Input BP Count
............................. 4-89
[RADAR]
.................................... 4-99
[RADAR]
........................................................... 4-101
................................................................. 4-102
[RADAR][ECDIS]
Echo Noise Level Adjustment
4.35
TT (Target Tracking) Function Adjustment (RADAR Screen Only)
4.37
Adjusting MBS
[RADAR][ECDIS]
Setting Cable Attenuation
........... 4-90
............................................................ 4-91
4.34
4.36
[RADAR]
.............................................................................. 4-100
[RADAR][ECDIS]
Setting Output BP Count
[RADAR]
................................................ 4-103
[RADAR]
.......... 4-104
......................................................................... 4-110
[ALL]
.....................................................................4-111
Verifying Storage
4.39
RADAR Adjustment (RADAR Screen Only)
4.40
5.
[ALL]
4.38
Operating Time Setup
.................................................................................. 4-114
[ALL]
[RADAR]
................................... 4-115
........................................................................... 4-118
Option Unit .................................................................................................................. 5-1
5.1
Installation of Interswitch Unit .......................................................................... 5-1
5.1.1
End processing of Interswitch cable(2695111153) ........................................ 5-1
5.1.2
Connection of equipment cable ..................................................................... 5-2
5.1.3
NQE-3141-4A Inter-board connection diagram ............................................. 5-4
5.1.4
Installation of interswitch unit ........................................................................ 5-5
5.1.5
Settings of Interswitch ................................................................................... 5-7
5.1.6
Confirmation after installation ...................................................................... 5-12
5.2
Installation of Power Control Unit................................................................... 5-13
5.2.1
Connection with NKE-2103 type and NKE-2254-6HS type scanner units.. 5-13
5.2.2
Connections to NKE-1125, NTG-3225, NKE-1130, NTG-3230, NKE-1632 and
NKE-2632 ................................................................................................................... 5-15
5.2.3
End processing of 2695110056 cable ......................................................... 5-15
5.2.4
End processing of each cable core ............................................................. 5-15
5.2.5
Connection to display unit ........................................................................... 5-15
5.2.6
Outline Drawing of NQE-3167 Power Control Unit ..................................... 5-16
5.2.7
Inter –board connection diagram of power control unit ............................... 5-18
5.3
5.3.1
Connection with LAN (IEC61162-450) ........................................................ 5-26
5.3.2
Connection with Analog RGB ...................................................................... 5-26
5.4
6.
Connection of VDR ........................................................................................... 5-26
Printer................................................................................................................. 5-28
5.4.1
Printer Composition ..................................................................................... 5-28
5.4.2
Printer Assembly .......................................................................................... 5-29
5.4.3
Setting Printer .............................................................................................. 5-30
5.4.4
Equipment setup .......................................................................................... 5-38
5.4.5
Confirming Printing Operation ..................................................................... 5-40
Appendix ..................................................................................................................... 6-1
6.1
Outline Drawing .................................................................................................. 6-1
6.1.1
Outline Drawings of Scanner Unit, Type NKE-1139 ...................................... 6-1
6.1.2
Outline Drawings of Scanner Unit, Type NKE-1130 ...................................... 6-2
6.1.3
Outline Drawings of Scanner Unit, Type NKE-1129-7................................... 6-3
6.1.4
Outline Drawings of Scanner Unit, Type NKE-1129-9................................... 6-4
6.1.5
Outline Drawings of Scanner Unit, Type NKE-1125-6................................... 6-5
6.1.6
Outline Drawings of Scanner Unit, Type NKE-1125-9................................... 6-6
6.1.7
Outline Drawings of Transmitter Receiver Unit, Type NTG-3230 ................. 6-7
6.1.8
Outline Drawings of Transmitter Receiver Unit, Type NTG-3225 ................. 6-8
6.1.9
Outline Drawings of Scanner Unit, Type NKE-2254-6HS ............................. 6-9
6.1.10
Outline Drawings of Scanner Unit, Type NKE-2103-6/NKE-2103-6HS ...... 6-10
6.1.11
Outline Drawings of Scanner Unit, Type NKE-1632.................................... 6-11
6.1.12
Outline Drawings of Scanner Unit, Type NKE-2632.................................... 6-12
6.1.13
Outline Drawings of Scanner Unit, Type NKE-2632-H ................................ 6-13
6.1.14
Outline Drawings of NWZ-208 26inch Monitor Unit .................................... 6-14
6.1.15
Outline Drawings of NWZ-207 19inch Monitor Unit .................................... 6-15
6.1.16
Outline Drawings of NCE-5605 Trackball Operation Unit ........................... 6-16
6.1.17
Outline Drawings of NCE-5625 Keyboard Operation Unit .......................... 6-17
6.1.18
Outline Drawings of CWB-1593 Large Tray ................................................ 6-18
6.1.19
Outline Drawings of NDC-1590 Central Control Unit .................................. 6-19
6.1.20
Outline Drawings of NBD-913 Power Supply Unit ...................................... 6-20
6.1.21
Outline Drawings of NQE-1143 Junction Box ............................................. 6-21
6.1.22
Outline Drawings of NQA-2443 Sensor LAN Switch Unit ........................... 6-22
6.1.23
Outline Drawing of CWA-246 26inch Display Unit Mount Kit ...................... 6-23
6.1.24
Outline Drawings of CWA-245 19inch Display Unit Mount Kit .................... 6-24
6.1.25
Outline Drawings of CWB-1595 26inch Desktop Frame ............................. 6-25
6.1.26
Outline Drawings of CWB-1594 19inch Desktop Frame ............................. 6-26
6.1.27
Outline Drawings of CWB-1596 OPU Desktop Frame................................ 6-27
6.2
General System Diagram of Standalone Type ............................................... 6-28
6.2.1
JMR-9210-6X............................................................................................... 6-28
6.2.2
JMR-9210-6XH ............................................................................................ 6-29
6.2.3
JMR-9225-6X............................................................................................... 6-30
6.2.4
JMR-9225-6XH ............................................................................................ 6-31
6.2.5
JMR-9225-9X............................................................................................... 6-32
6.2.6
JMR-9225-7X3............................................................................................. 6-33
6.2.7
JMR-9225-9X3............................................................................................. 6-34
6.2.8
JMR-9230-S................................................................................................. 6-35
6.2.9
JMR-9230-S3............................................................................................... 6-36
6.2.10
JMR-9272-S................................................................................................. 6-37
6.2.11
JMR-9282-S................................................................................................. 6-38
6.2.12
JMR-9282-SH .............................................................................................. 6-39
6.2.13
JAN-9201 ..................................................................................................... 6-40
6.2.14
JAN-9202 ..................................................................................................... 6-41
6.2.15
JMR-7210-6X............................................................................................... 6-42
6.2.16
JMR-7210-6XH ............................................................................................ 6-43
6.2.17
JMR-7225-6X............................................................................................... 6-44
6.2.18
JMR-7225-6XH ............................................................................................ 6-45
6.2.19
JMR-7225-9X............................................................................................... 6-46
6.2.20
JMR-7225-7X3............................................................................................. 6-47
6.2.21
JMR-7225-9X3............................................................................................. 6-48
6.2.22
JMR-7230-S................................................................................................. 6-49
6.2.23
JMR-7230-S3............................................................................................... 6-50
6.2.24
JMR-7272-S................................................................................................. 6-51
6.2.25
JMR-7282-S................................................................................................. 6-52
6.2.26
JMR-7282-SH .............................................................................................. 6-53
6.2.27
JAN-7201 ..................................................................................................... 6-54
6.2.28
JAN-7202 ..................................................................................................... 6-55
6.3
General System Diagram of Desktop Type .................................................... 6-56
6.3.1
JMR-9210-6X............................................................................................... 6-56
6.3.2
JMR-9210-6XH ............................................................................................ 6-57
6.3.3
JMR-9225-6X............................................................................................... 6-58
6.3.4
JMR-9225-6XH ............................................................................................ 6-59
6.3.5
JMR-9225-9X............................................................................................... 6-60
6.3.6
JMR-9225-7X3............................................................................................. 6-61
6.3.7
JMR-9225-9X3............................................................................................. 6-62
6.3.8
JMR-9230-S................................................................................................. 6-63
6.3.9
JMR-9230-S3............................................................................................... 6-64
6.3.10
JMR-9272-S................................................................................................. 6-65
6.3.11
JMR-9282-S................................................................................................. 6-66
6.3.12
JMR-9282-SH .............................................................................................. 6-67
6.3.13
JAN-9201 ..................................................................................................... 6-68
6.3.14
JAN-9202 ..................................................................................................... 6-69
6.3.15
JMR-7210-6X............................................................................................... 6-70
6.3.16
JMR-7210-6XH ............................................................................................ 6-71
6.3.17
JMR-7225-6X............................................................................................... 6-72
6.3.18
JMR-7225-6XH ............................................................................................ 6-73
6.3.19
JMR-7225-9X............................................................................................... 6-74
6.3.20
JMR-7225-7X3............................................................................................. 6-75
6.3.21
JMR-7225-9X3............................................................................................. 6-76
6.3.22
JMR-7230-S................................................................................................. 6-77
6.3.23
JMR-7230-S3............................................................................................... 6-78
6.3.24
JMR-7272-S................................................................................................. 6-79
6.3.25
JMR-7282-S................................................................................................. 6-80
6.3.26
JMR-7282-SH .............................................................................................. 6-81
6.3.27
JAN-7201 ..................................................................................................... 6-82
6.3.28
JAN-7202 ..................................................................................................... 6-83
6.4
Interconnection Diagram of Standalone Type ............................................... 6-84
6.4.1
JMR-9210-6X/6XH....................................................................................... 6-84
6.4.2
JMR-9225-6X/9X ......................................................................................... 6-86
6.4.3
JMR-9225-6XH ............................................................................................ 6-88
6.4.4
JMR-9225-7X3/9X3 ..................................................................................... 6-90
6.4.5
JMR-9230-S................................................................................................. 6-92
6.4.6
JMR-9230-S3............................................................................................... 6-94
6.4.7
JMR-9272-S................................................................................................. 6-96
6.4.8
JMR-9282-S/SH........................................................................................... 6-98
6.4.9
JAN-9201 ................................................................................................... 6-100
6.4.10
JAN-9202 ................................................................................................... 6-102
6.4.11
JMR-7210-6X/6XH..................................................................................... 6-104
6.4.12
JMR-7225-6X/9X ....................................................................................... 6-106
6.4.13
JMR-7225-6XH .......................................................................................... 6-108
6.4.14
JMR-7225-7X3/9X3 ................................................................................... 6-110
6.4.15
JMR-7230-S............................................................................................... 6-112
6.4.16
JMR-7230-S3............................................................................................. 6-114
6.4.17
JMR-7272-S............................................................................................... 6-116
6.4.18
JMR-7282-S/SH......................................................................................... 6-118
6.4.19
JAN-7201 ................................................................................................... 6-120
6.4.20
JAN-7202 ................................................................................................... 6-122
6.5
Interconnection Diagram of Desktop Type .................................................. 6-124
6.5.1
JMR-9210-6X/6XH..................................................................................... 6-124
6.5.2
JMR-9225-6X/9X ....................................................................................... 6-126
6.5.3
JMR-9225-6XH .......................................................................................... 6-128
6.5.4
JMR-9225-7X3/9X3 ................................................................................... 6-130
6.5.5
JMR-9230-S............................................................................................... 6-132
6.5.6
JMR-9230-S3............................................................................................. 6-134
6.5.7
JMR-9272-S............................................................................................... 6-136
6.5.8
JMR-9282-S/SH......................................................................................... 6-138
6.5.9
JAN-9201 ................................................................................................... 6-140
6.5.10
JAN-9202 ................................................................................................... 6-142
6.5.11
JMR-7210-6X/6XH..................................................................................... 6-144
6.5.12
JMR-7225-6X/9X ....................................................................................... 6-146
6.5.13
JMR-7225-6XH .......................................................................................... 6-148
6.5.14
JMR-7225-7X3/9X3 ................................................................................... 6-150
6.5.15
JMR-7230-S............................................................................................... 6-152
6.5.16
JMR-7230-S3............................................................................................. 6-154
6.5.17
JMR-7272-S............................................................................................... 6-156
6.5.18
JMR-7282-S/SH......................................................................................... 6-158
6.5.19
JAN-7201 ................................................................................................... 6-160
6.5.20
JAN-7202 ................................................................................................... 6-162
6.6
Scanner Unit Interconnection Unit ............................................................... 6-164
6.6.1
NKE-1139 (AC110V) .................................................................................. 6-164
6.6.2
NKE-1139 (AC220V).................................................................................. 6-165
6.6.3
NTG-3230 .................................................................................................. 6-166
6.6.4
NKE-1130 (AC110V) .................................................................................. 6-167
6.6.5
NKE-1130 (AC220V).................................................................................. 6-168
6.6.6
NKE-1129 (AC110V) .................................................................................. 6-169
6.6.7
NKE-1129 (AC220V).................................................................................. 6-170
6.6.8
NTG-3225 .................................................................................................. 6-171
6.6.9
NKE-1125 (AC110V) .................................................................................. 6-172
6.6.10
NKE-1125 (AC220V).................................................................................. 6-173
6.6.11
NKE-2254-6HS .......................................................................................... 6-174
6.6.12
NKE-2103-6/6HS ....................................................................................... 6-175
6.6.13
NKE-1632 .................................................................................................. 6-176
6.6.14
NKE-2632/2632-H ..................................................................................... 6-177
6.7
External input/output sentence format......................................................... 6-178
6.7.1
Receivable signals ..................................................................................... 6-178
6.7.2
Transmittable signals ................................................................................. 6-190
6.8
Setting for the route transfer by LAN connection with the GPS ............... 6-196
6.8.1
How to set the IP address of GPS ............................................................. 6-196
6.8.2
Setting of the LAN for GPS........................................................................ 6-197
6.9
Specification of alert communication with BNWAS .................................... 6-199
6.9.1
System Block Diagram .............................................................................. 6-199
6.9.2
Mechanism ................................................................................................ 6-201
6.9.3
Sentences .................................................................................................. 6-207
6.10
Troubleshooting .............................................................................................. 6-213
1.Overview > 1.1 Functions
1. Overview
1.1 Functions
Multi Function Display (referred to as "this equipment" or "MFD" in this manual) is navigation equipment that
satisfies the following IMO performance standards.
•
IMO Resolution MSC192(79):
Performance standards for radar equipment
•
IMO Resolution MSC232(82):
Performance standards for electronic chart display and information systems (ECDIS)
•
IMO Resolution MSC191(79):
Performance standards for the presentation of navigation related information on shipborne navigational displays
•
IMO Resolution MSC74(69):
Annex 2: TCS performance standards
•
IMO Resolution A.694(17):
General requirements for shipborne radio equipment
•
IMO Resolution MSC252(83):
Performance standards for Integrated Navigation System (INS)
•
IMO Resolution MSC302(87):
Bridge Alert Management
*1: Case where the ECDIS function is added as the option
*2: Case where the TCS function is added as the option
Any of the following task functions can be added to this equipment as the option, enabling the
equipment to be used as a multi-function display.
•
Radar
•
ECDIS
•
Conning Display
1.1.1 Main functions of the RADAR mode
•
Sensitivity adjustment, sea clutter and rain/snow clutter suppression
•
Interference rejection
•
Bearing and range measurement using a cursor, fixed/variable range markers, and electronic bearing line
•
Colored own track display
•
User map creation and display
•
TM (True Motion) presentation
•
Self-diagnostic facilities
•
Radar performance monitoring (Performance Monitor)
•
Target tracking functions (manual/automatic target acquisition and tracking, vector and trail displays and
alarm displays)
•
8-unit switchover (Inter-switch) function (option)
•
Electronic navigational chart display*1 (Option)
*1
: The following databases can be displayed (ARCS cannot be displayed.)
- S-57 Ed3.0/3.1
- S-63
- C-Map Ed3.0 Professional/Professional+
- C-Map ENC
- Jeppesen PRIMAR ECDIS Service
1-1
1.Overview > 1.1 Functions
1.1.2 Main Functions of the ECDIS mode
•
The following databases can be displayed.
- S-57 Ed3.0/3.1
- S-63
- C-Map Ed3.0 Professional/Professional+
- C-Map ENC
- Jeppesen PRIMAR ECDIS Service
- ARCS
•
Own ship’s track display and planned-route display on the electronic chart
•
Automatic checking of the safety contours and dangerous areas of the own ship (not available for ARCS)
•
TT target display and AIS target display on the electronic chart
•
Overlay of radar echo on the electronic chart (when ECDIS is used with the optional radar interface board)
•
True/Relative motion display
•
North-up/Course-up/Head-up/Waypoint-up
•
Display of route information such as latitude/longitude at destinations, bearings/ranges up to waypoints,
and planned arrival time
•
Availability of two EBLs/VRMs
•
Writing of memos with alphabetic characters into the electronic chart
•
Display of information such as the date/time, current position, heading, and ship’s speed
•
Selection of colors (conforming to the IMO/IHO) suitable for the daytime, nighttime, dawn and evening
•
Editing of route information
Addition, deletion, and modification of WPTs on the electronic chart or the list
Calculation of the distance between WPTs, bearings, and planned arrival time
Up to 512 WPTs per route
Checking on the crossing of the safety contours and dangerous areas on created routes
•
Route tracking (option)
•
Course change
•
Safety contours crossing alarm
•
Dangerous areas approaching warning
•
Waypoint arrival warning
•
Off-track warning
•
Logging of navigation information onto the SSD
•
Own ship’s playback using logged data
1-2
1.Overview > 1.2 Features
1.2
Features
This MFD has the following features:
Common functions:
Utilization of an icon menu
Intuitive operation system based on the workflow
High-resolution large screen
Message reception notification function
Notifies arrival of a new AIS message and so on with a sound and a badge.
Utilization of a common information window
Enables display of target information and simple conning information (wind direction/wind speed information, etc.) with a simple switching operation.
Display of chart information read results by grouping
Enables immediate access to the required information.
Display of the cause of alert as well as the action guideline
Equipped with the Help function
The built-in HTML Help enables the search of operation methods in this equipment instead of the hardcopy manual whenever required.
Visual highlight of target symbols
Enables identification of the target that matches the condition such as the sailing direction, ship’s length,
and ship’s type by highlighted display.
Wave analysis function (option)
Analyzes and displays information on the surrounding waves (height, length, cycle, and direction of
waves) and enables monitoring of dangerous waves for ships.
Equipped with the white list type virus protection function of Trend Micro Incorporated
RADAR function:
Realized a clear large screen with its high resolution.
By using the high definition 26inch color LCD of 1920×1200 pixels, radar image display of diameter
320mm or more is secured. Image presentation of high resolution is also possible in near ranges.
1-3
1.Overview > 1.2 Features
Equipped with high performance radar signal processing ASIC BLZZARD™ of new design
By eliminating unnecessary signals (clutters) from the radar video signals obtained from a wide dynamic
range receiver, target detection is enhanced.
Target tracking (TT) function by utilizing the latest technology
By using the latest high-speed DSP and tracking algorithm, the target acquisition/tracking performance is
improved, achieving stable operation for target tracking inside of clutters also.
Acquisition and tracking of up to 100 targets as standard
Expressing danger status with a sound and shape and color of a symbol
Equipped with a trial maneuvering function
Capable of 10-color coded display by storing target trails.
Background tracking function (Full-screen acquisition function)
Since detectable radar echoes are acquired and tracked automatically in background, the vector can be
displayed immediately after initial acquisition.
Top screen with strictly selected information
Information that is constantly displayed on the Top screen of the radar is strictly selected to enable users
to find the required information effortlessly.
Sortable TT/AIS list
Provides a sortable TT/AIS list (for instance in the TCPA descending order) to enable users to check the
ship in the highest danger.
Dual PPI display
Capable of monitoring of near-range images and far-range images concurrently with one radar
(JMR-9200 Series only).
Superimposed display of radar image, chart, and own ship’s trail
Capable of superimposed display of a user-created map, an imported chart of a coastline and buoys,
own ship’s trail, and other ship’s trails, radar images, and radar trails in all the display modes including
Head Up display.
Improved Day/Night function
The Day/Night function supports up to 5 types of display screen color combinations and enables users to
reproduce screen colors suitable for the user utilization environment with simple key operations. The
function provides easy-to-understand screens through color coded radar images and a variety of
graphics.
Built-in self-diagnosis program
By constantly monitoring all the system functions, this program displays a warning message on the
screen at detection of function deterioration and issues a warning sound. The system function test can
be performed easily during normal operation (excluding some tests).
1-4
1.Overview > 1.2 Features
Performance monitor function
This function monitors radar performance (transmission output and reception sensitivity) on the screen.
Interswitch function (Option)
By connecting to the interswitch unit (optional), up to 8 radars can be inter-switched with simple operations.
Up to 4 units: An interswitch unit separate type from the indicator and cable for connecting each indicator
are necessary.
Up to 8 units: An interswitch unit separate type from the indicator and cable for connecting each indicator
are necessary.
ECDIS function:
This function minimizes the information that is displayed constantly and expands the chart display area.
Can display vector charts (ENC and C-MAP) and raster chart (ARCS).
Realizes safer sailing through the safety contour line and crossing and approaching danger zone
monitoring function. (Excluding ARCS)
Realizes high operability through high-speed drawing and high-speed processing.
Facilitates creation of user charts.
Applies a multi-display screen that can display two charts concurrently. (ARCS and C-MAP Ed.3
cannot be displayed concurrently with a chart of a different type)
Enables a course plan with multi-view.
Can display a wide view screen while a single chart or multi-view is displayed.
Enables creation of a route plan with the table editing function and the graphic editing function.
Can create an alternative route while sailing.
Automatic sailing is enabled by connecting with Auto Pilot. (option)
The playback function enables checking of the sailed routes.
The S-57 chart can be updated. (Chart Maintenance)
1-5
1.Overview > 1.3 Components
1.3 Components
A list of components and optional accessories is shown below.
Components of the Display Unit
LCD
monitor
Touch Panel
monitor
Unit
(JMR-92XX/JAN-92XX)
(JMR-72XX/JAN-72XX)
(JMR-92XX/JAN-92XX)
(JMR-72XX/JAN-72XX)
Type name
NWZ-208
NWZ-207
NWZ-208-TP
NWZ-207-TP
Power Supply Unit
Control
Unit
8GB System SSD
256GB Data SSD
DVD Drive
HASP
e-Token
Central Control
Central Processing Circuit
Unit
CCU Interface Circuit
CCU Interface Terminal
CCU Interconnection
COM Express Board
WES7P Licence
TMSL Licence
Trackball
Operation
Unit
Keyboard Operation Unit
Operation Circuit A
Trackball
Operation Circuit SW
Operation Circuit CN
TOPU Interconnection
Operation Circuit B
Option Keyboard
KOPU Interconnection
Large Tray
UPS
Junction
Box
QUINT-PS/1AC/24DC/20
QUINT-BAT/24DC/3.4AH
QUINT-DC-UPS/24DC/20
ME-MAX-NEF/QUINT20
Sensor LAN
Switch Unit
16Port Switch HUB
Sensor LAN Switch Interconnection
1-6
Remarks
26inch LCD monitor
19inch LCD monitor
Option 26inch
Option 19inch
NCM-928
Standard Equipment
NBD-913
NDC-1590
CDD-752
CDD-753
CDD-754
CYC-344
CYC-735
CDC-1410
CMH-2406
CQD-2286
CML-902
CMC-1406
CYC-847
CYC-848
NCE-5605
CCK-1050
CCK-1060
CCK-1069
CCK-1070
CMD-1103
NCE-5625
CCK-1059
CCK-1061
CMD-1106
Standard Equipment
Standard Equipment
CWB-1593
NQE-1143
CMH-2370
CMJ-560
CMJ-554
CQD-2273
CML-836AC
CML-836ACF
CML-836DC
CML-836DCF
Serial LAN Circuit
Analog Option Circuit
Gyro Interface Circuit
Radar Interface Circuit
Scanner AC Power Cable
Scanner AC Power Cable(F)
Scanner DC Power Cable
Scanner DC Power Cable(F)
Q'ty
max 2
NQA-2443
max 2
CQL-221
CML-841
Included in the
NDC-1590
Standard Equipment
Inclueded in the
NCE-5605
Option(NCE-5625 or CWB-1593)
Included in the
NCE-5625
Option(NCE-5625 or CWB-1593)
Option
Option
Option
Option
Option
Option
Any one of these cables
include to the
CQD-2273
Option
In case of standalone type
26inch:max 2
19inch:only 1
Included in the
NQA-2443
1.Overview > 1.3 Components
Components of the Display Unit
Stand-alone type
Frame & Cables
Desktop type
Frame & Cables
Flush-mount type
Cables
Interswitch Unit
Unit
26inch Display Mount Kit
19inch Display Mount Kit
Display Unit Interconnection
Relay Terminal
Touch Panel Interconnection
26inch Desktop Frame
19inch Desktop Frame
OPU Desktop Frame
Display Unit Interconnection(F)
Touch Panel Interconnection(F)
Display Unit Interconnection(F)
Touch Panel Interconnection(F)
4ch
8ch
Power Control Unit
Digital Signal Converter
Buzzer Unit
Remote monitor display
connection
Cover
Hood
Accessory
Spare Parts
Printer
32ch
64ch
RGB Video Distribution Amplifier
Monitor Extension Kit
(JMR-92XX/JAN-92XX)
(JMR-72XX/JAN-72XX)
(JMR-92XX/JAN-92XX)
(JMR-72XX/JAN-72XX)
CD Cleaner
NBD-913 Spare Parts
CMH-2370 Spare Parts
CMJ-554 Spare Parts
7HPNA4003 Printer spare parts
NCT-82/83 Spare Parts
Printer
L-Type Stopper(Printer fixture)
1-7
Type name
CWA-246
CWA-245
CML-901
CQD-2312
CML-839
CWB-1595
CWB-1594
CWB-1596
CML-901-F
CML-839-F
CML-901-F
CML-839-F
NQE-3141-4A
NQE-3141-8A
NQE-3167
NCT-82
NCT-83
CGC-25
VAC-2001HB-A
CFQ-5957
CWB-1621
CWB-1619
CWB-1620
CWB-1618
7ZZNA0426B
7ZXNA4021
7ZXNA4020
7ZXNA4022
7ZXNA4011
7ZXNA4017
7HPNA4003
QL-58
Q'ty
Remarks
For 26inch Monitor
For 19inch Monitor
Cables for stand-alone
For AC/DC Power distribution
Option
For 26inch Monitor
For 19inch Monitor
For operation unit
Longer than CML-901
Option
Longer than CML-901
Option
Option
Option
Option
Option
Option
Option TCS Buzzer
Option
Option
Option
Option
Option
Packing 1 box
Packing 1 box
Option
Option
Option
Option
Option
1.Overview > 1.3 Components
Manual list
Model
Title
JMR-7200/9200 Series Marine Radar Equipment
Instruction Manual  (1/3) *English
JMR-7200/9200 Series Marine Radar Equipment
Instruction Manual  (2/3) *English
JMR-7200/9200 Series Marine Radar Equipment
Instruction Manual  (3/3) *English
JMR-7200/9200 JMR-7200/9200 Series Marine Radar
Series
Equipment Quick Operation Guide *English
JMR-7200/9200 Series JAN-7201/9201 Marine Radar Equipment
ECDIS Additional Manual for Chart Installation *English
JMR-7200/9200 Series JAN-7201/9201 JAN-7202/9202
Marine Radar Equipment ECDIS Conning Display Installation Manual *English
JMR-7200/9200 Series JAN-7201/9201 JAN-7202/9202
Marine Radar Equipment ECDIS Conning Display Field Service Manual *English
JAN-7201/9201 ECDIS
Instruction Manual  (1/3) *English
JAN-7201/9201 ECDIS
Instruction Manual  (2/3) *English
JAN-7201/9201 ECDIS
Instruction Manual  (3/3) *English
Code
7ZPNA4446*1
7ZPNA4447*1
7ZPNA4448*1
7ZPNA4395*1
JAN-7201/9201
Option
7ZPNA4466*1
Option
7ZPNA4467*1
Option
7ZPNA4450*1
7ZPNA4451*1
7ZPNA4405*1
JMR-7200/9200 Series JAN-7201/9201
Marine Radar Equipment ECDIS Additional Manual for Chart Installation *English
JAN-7201/9201 ECDIS Additional Manual for Automatic Sailing
YOKOGAWA Autopilot PT500A TCS model Category B/C *English
JAN-7201/9201 ECDIS Additional Manual for Automatic Sailing
TOKYO KEIKI Autopilot PR-6000/9000 TCS model Category B/C *English
JAN-7201/9201 ECDIS Type Specific ECDIS Training
7ZPNA4461*1
7ZPNA4449*1
JAN-7201/9201 ECDIS Quick Operation Guide *English
Reference for TCS *English
JMR-7200/9200 Series JAN-7201/9201 JAN-7202/9202
Marine Radar Equipment ECDIS Conning Display Installation Manual *English
JMR-7200/9200 Series JAN-7201/9201 JAN-7202/9202
Marine Radar Equipment ECDIS Conning Display Field Service Manual *English
JAN-7202/9202 Conning Display Instruction Manual *English
JMR-7200/9200 Series JAN-7201/9201 JAN-7202/9202
JAN-7202/9202
Marine Radar Equipment ECDIS Conning Display Installation Manual *English
JMR-7200/9200 Series JAN-7201/9201 JAN-7202/9202
Marine Radar Equipment ECDIS Conning Display Field Service Manual *English
*1 Revision symbol(A,B,C..) is added to the end of each type name.
Remarks
Standard
Equipment
Standard
Equipment
Standard
Equipment
Standard
Equipment
Standard
Equipment
Standard
Equipment
Standard
Equipment
Standard
Equipment
7ZPNA4461*1
Option
7ZPNA4462*1
Option
7ZPNA4463*1
Option
7ZPNA4464*1
Option
7ZPNA4466*1
Option
7ZPNA4467*1
Option
7ZPNA4452*1
Standard
Equipment
7ZPNA4466*1
Option
7ZPNA4467*1
Option
List of Radar Antenna Types and Specifications
Radar antenna
type
Radio
wave type
ft
Transmitter-
Transmitting
receiver unit
power
Band
Power
Rate of
supply
rotation
Category
NKE-1139
P0N
12
NTG-3230
30kW
AC
24rpm
CAT 1C
NKE-1130
P0N
12
30kW
AC
24rpm
CAT 1C
NKE-1632
P0N,Q0N
12
250W
AC
24rpm
CAT 1C
NKE-2632
P0N,Q0N
250W
AC
24rpm
CAT 1C
NKE-2632-H
P0N,Q0N
250W
AC
48rpm
CAT 1C
NKE-1129-7
P0N
NTG-3225
25kW
AC
24rpm
CAT 1C
NKE-1129-9
P0N
NTG-3225
25kW
AC
24rpm
CAT 1C
NKE-1125-6
P0N
25kW
AC
24rpm
CAT 1C
NKE-1125-9
P0N
25kW
AC
24rpm
CAT 1C
NKE-2254-6HS
P0N
25kW
DC
48rpm
CAT 1C
NKE-2103-6
P0N
10kW
DC
27rpm
CAT 1C
NKE-2103-6HS
P0N
10kW
DC
48rpm
CAT 1C
1-8
1.Overview > 1.3 Components
List of General Type Names
General type name
Model
Radar antenna
Transmitterreceiver unit
Display
JMR-9230-S3
NKE-1139
NTG-3230
JMR-9230-S
NKE-1130
JMR-9272-S
NKE-1632
JMR-9282-S
NKE-2632
JMR-9282-SH
NKE-2632-H
NKE-1129-7
NTG-3225
NKE-1129-9
NTG-3225
26inch
JMR-9225-6X
NKE-1125-6
NWZ-208
JMR-9225-9X
NKE-1125-9
JMR-9225-6XH
NKE-2254-6HS
JMR-9210-6X
NKE-2103-6
JMR-9210-6XH
NKE-2103-6HS
JMR-9225-7X3
JMR-9225-9X3
RADAR/MFD
100-115VAC 50/60Hz 1
220-240VAC 50/60Hz 1
*Specify between the two
when ordering.
ECDIS
JAN-9202
Conning
JMR-7230-S3
NKE-1139
NTG-3230
JMR-7230-S
NKE-1130
JMR-7272-S
NKE-1632
JMR-7282-S
NKE-2632
JMR-7282-SH
NKE-2632-H
NKE-1129-7
NTG-3225
NKE-1129-9
NTG-3225
19inch
JMR-7225-6X
NKE-1125-6
NWZ-207
JMR-7225-9X
NKE-1125-9
JMR-7225-6XH
NKE-2254-6HS
JMR-7210-6X
NKE-2103-6
JMR-7210-6XH
NKE-2103-6HS
JMR-7225-9X3
RADAR/MFD
JAN-7201
ECDIS
JAN-7202
Conning
1-9
24VDC
(For backup)
Wide range AC input
24VDC
(For backup)
JAN-9201
JMR-7225-7X3
Ship’s mains
100-115VAC 50/60Hz 1
220-240VAC 50/60Hz 1
*Specify between the two
when ordering.
24VDC
(For backup)
Wide range AC input
24VDC
(For backup)
1.Overview > 1.3 Components
Option list of radar antenna
Name
Model name
NJU-84
Remarks
For S-band radars excluding NKE-1632,
2632 and 2632-H
Performance monitor
NJU-85
For X-band radars
4 unit switching inter-switch
NQE-3141-4A
Separate unit
8 unit switching inter-switch
NQE-3141-8A
Separate unit (special order)
Power control unit
NQE-3167
Separate unit
Note:
1. The drive motor for the radar antenna is available in 100-115VAC 50/60 Hz 1 or 220-240VAC 50/60
Hz 1 type for NKE-1632/2632/1139/1130/1129/1125/2254/2103 series. Please specify the power
source type when ordering.
2. The radar antenna can be equipped with anti-icing system (neck heater) as an option, and ‘-D’ shall
be suffixed to the type name (not available for NKE-2013).
Reference:
The suffix(s) in the type name is/are changed by applying motor voltage, anti-icing system, etc.
(Example) NKE-1130-2D
D: Attached anti-icing system
1: Motor voltage 100-115V (50/60Hz)
2: Motor voltage 220-240V (50/60Hz)
3.
When using the ship’s mains of 440VAC as the radar power source, a step-down transformer shall
be used.
4. The following are the each unit name on the one’s plate:
Scanner Unit
SCANNER UNIT
Transmitter-receiver unit
TRANSMITTER-RECEIVER UNIT
Monitor Unit
MONITOR UNIT
Trackball operation unit
TRACKBALL OPERATION UNIT
Keyboard operation unit
KEYBOARD OPERATION UNIT
Central Control Unit
CENTRAL CONTROL UNIT
Power supply unit
POWER SUPPLY UNIT
Junction box
JUNCTION BOX
Sensor LAN switch unit
SENSOR LAN SWITCH UNIT
Display Unit Mount Kit
DISPLAY UNIT MOUNT KIT
5. In JMR-9225-9X3/JMR-9225-7X3 and JMR-7225-9X3/JMR-7225-7X3, the following type name of
JRC is used for the waveguide between the transmitter-receiver unit and the radar antenna.
Waveguide
Length
Type name of JRC
FR-9
20MT
H-7AWRD0003
FR-9
30MT
H-7AWRD0004
6. In JMR-9230-S3 and JMR-7230-S3, the following type name of JRC is used for the coaxial cable
between the transmitter-receiver unit and the radar antenna.
Coaxial cable
Length
Type name of JRC
HF-20D
30MT
HF-20D (30MT)
1-10
2.Installation of Scanner Unit > 2.1 Equipment Cable
2. Installation of Scanner Unit
2.1 Equipment Cable
2.1.1 CFQ-6912-**
This is a 19-core shielded composite cable.
The cable length is indicated in the asterisks ** area in the model name, and the available cable lengths are 5,
10, 20, 30, 40, 50, and 65 meters.
This cable is used to connect an NKE-2103 type scanner or an NKE-2254 type scanner to the display unit.
Fig 2-1 Cross-sectional drawing of CFQ-6912
Table 2-1 CFQ-6912 wire
Core (No.)
AWG
No. of Wire /φ
Color
Rem arks
AWG24
7/0.2T
Black1
Black
Coaxial
AWG24
7/0.2T
Black
Black2
Shield
CQD-2273
Radar Interface Circuit
J832
Center Conductor: 1. VD+
Outer Conductor 2. VD3. TRG+
4. TRG-
AWG24
7/0.2T
Green
AWG24
7/0.2T
Yellow
AWG24
7/0.2T
White
AWG22
17/0.16T
Black
6. BP-
AWG22
17/0.16T
Orange
5. BP+
AWG16
50/0.18T
Blue
AWG16
50/0.18T
Gray
10
AWG16
50/0.18T
Purple
11
AWG16
50/0.18T
Brow n
12
AWG16
50/0.18T
White
13
AWG16
50/0.18T
Orange
14
AWG16
50/0.18T
Red
15
AWG16
50/0.18T
Green
16
AWG16
50/0.18T
Yellow
17
AWG16
50/0.18T
Black
18
AWG16
50/0.18T
Sky
19
AWG16
50/0.18T
Pink
7. BZ+
Tw isted Pair
J832
10: MTR-
2. TB840
1. +
13. DC+
J832
maximum diameter 14.5mm
2-1
9: MTR+
14. DC13. DC+
2.Installation of Scanner Unit > 2.1 Equipment Cable
DC+
DC-
14.
Brack, Sky
N.C.
Yellow, Pink
N.C.
BZN.C.
MTR+ Yellow
8.
9.
12.
13.
Green
BZ+
7.
10. MTR- White
11. MTRG
N.C.
Orange
Black
BP+
BP5.
6.
(Shield)
TRG4.
Black 2
VDTRG+
Black 1
VD+
2.
3.
Twisted
Pair
1.
(Coaxial)
Wiring to the Display Unit is shown below. Please refer to the Chapter 3 Installation of Display Unit for
more information.
J832
TB840
＋
Blue , Purple
Gray, Brown
2.
White , Green
Orange, Red
1.
CQD-2273 Radar Interface Circuit
2-2
2.Installation of Scanner Unit > 2.1 Equipment Cable
2.1.2 2695110056
This is a 14-core shielded composite cable.
This cable is used to connect a NKE-1125 type scanner, a NKE-1130 type scanner, a NKE-1632
type scanner, a NKE-2632 type scanner, a NTG-3225 type transmitter-receiver or a NTG-3230
type transmitter-receiver to the display unit.
Fig 2-2 Cross-sectional drawing of 2695110056
Table 2-2 2695110056 wire
Core (No.)
Cross
Section
(m m 2)
No. of w ire /
φ
Color
0.5
19 / 0.18
Black 1
Coaxial Cable
Center Conductor: 1. VD+
Outer Conductor: 2. VD-
0.5
19 / 0.18
Black 2
Coaxial Cable
Center Conductor: 3. TRG+
Outer Conductor: 4. TRG-
0.5
19 / 0.18
Black 3
Coaxial Cable
Center Conductor: 5. BP+
Outer Conductor: 6. BP-
0.5
19 / 0.18
Black 4
Coaxial Cable
Center Conductor: 7. BZ+
Outer Conductor : 8. BZ-
5.5
35 / 0.45
Yellow
5.5
35 / 0.45
Green
5.5
35 / 0.45
Brow n
CQD-2273
Radar Interface Circuit
Rem arks
J832
0.3
10
TB838
Tw isted pair cable
w ith Shield sheath
w hite
1. U
2. V
J832
Yellow : 9. MTR+
White: 10. MTRBraid: 11.MTRG
12 / 0.18
White
0.3
12 / 0.18
Orange
37 / 0.26
Red
J832
13. DC+
11
37 / 0.26
Blue
J832
14. DC-
12
1.25
50 / 0.18
Black
13
1.25
50 / 0.18
Purple
14
0.5
1 / 0.18
Gray
maximum diameter 23.0mm
2-3
2.Installation of Scanner Unit > 2.1 Equipment Cable
Red
Blue
13.
14.
DC-
N.C.
DC+
12.
Braid
White
10. MTR11. MTRG
7.
8.
9.
N.C.
Black 4
BZ- (Coaxial)
MTR+ Yellow
(Coaxial)
Black 3
White
Twisted Pair
BP+
BPBZ+
5.
6.
2.
3.
4.
1.
VD+
Black 1
VD- (Coaxial)
TRG+ Black 2
TRG- (Coaxial)
Wiring to the Display Unit is shown below. Please refer to the Chapter 3 Installation of Display Unit for
more information.
J832
1.
2.
Yellow
Green
TB838
CQD-2273 Radar Interface Circuit
2-4
2.Installation of Scanner Unit > 2.1 Equipment Cable
2.1.3 2695111153
This is an 18-core shielded composite cable. This cable is used to connect an interswitch to the display unit.
Fig 2-3 Cross-sectional drawing of 2695111153
Table 2-3 2695111153 wire
Wire NO.
Cross
Section
(m m 2)
No. of w ire /
φ
Color
Rem arks
A1
0.5
19 / 0.18
Black 1
Coaxial
J833
A2
0.5
19 / 0.18
Black 2
Coaxial
J834
B1
0.5
19 / 0.18
Blue
Shield
B2
0.5
19 / 0.18
Yellow
Shield
B3
0.5
19 / 0.18
Green
Shield
Center Conductor: 7. ISWO_BZ+
Braid: 8. ISWO_BZ-
B4
0.5
19 / 0.18
Red
Shield
Center Conductor: 3. ISWI_TRG+
Braid: 4. ISWI_TRG-
B5
0.5
19 / 0.18
Purple
Shield
B6
0.5
19 / 0.18
Clear
Shield
12 / 0.18
White
0.3
C1
0.3
Blue
Braid
0.3
Yellow
C2
0.3
D1
2 Cores
Shield
CQD-2273
Radar Interface Circuit
J833
J834
Center Conductor: 1. ISWO_VD+
Outer Conductor: 2. ISWO_VDCenter Conductor: 1. ISWI_VD+
Outer Conductor: 2. ISWI_VDCenter Conductor: 3. ISWO_TRG+
Braid: 4. ISWO_TRGCenter Conductor: 5. ISWO_BP+
Braid: 6. ISWO_BP-
Center Conductor: 5. ISWI_BP+
Braid: 6. ISWI_BPCenter Conductor: 7. ISWI_BZ+
Braid: 8. ISWI_BZ9. ISWO_MTR+
J833
10. ISWO_MTR11. ISWO_MTRG
9. ISWI_MTR+
2 Cores
Shield
12 / 0.18
White
0.5
19 / 0.18
Brow n
D2
0.5
19 / 0.18
Black
D3
0.5
19 / 0.18
Orange
D4
0.5
19 / 0.18
Gray
D5
0.5
19 / 0.18
Pink
J834
14. PWRIN
D6
0.5
19 / 0.18
SkyBlue
Braid
10. ISWI_MTRJ834
11. ISWI_MTRG
15. PWRINE
13. PWROUTE
12. PWROUT
maximum diameter 18.0mm
2-5
2.Installation of Scanner Unit > 2.1 Equipment Cable
Wiring to the Display Unit is shown below. Please refer to the 3 Installation of Display Unit for
more information.
2-6
2.Installation of Scanner Unit > 2.1 Equipment Cable
2.1.4 Cable end processing method
Allow for sufficient cable length so that maintenance, inspection, and repair work can be easily executed.
Ensure a place to store the cable.
1)
CFQ-6912
Cut off the metal shell connector.
CFQ-6912 Cutting position
Remove about one meter of the outer skin, and then process the double braided shield according to the
procedures shown below.
CFQ-6912 Processing of braided shield
Process each cable end according to the procedures shown below.
CFQ-6912
End processing of each wire
2-7
2.Installation of Scanner Unit > 2.1 Equipment Cable
Twist each pair of the following colored wires and clamp them to the crimp pin terminal. (V5.5 is
recommended.)
•
•
•
•
RED.T/GRN.T
→ + terminal
WHT.T/ORN.T
→ + terminal
PUR.T/BRN.T
→ - terminal
BLU.T/GRY.T
→ - terminal
After that, insert each crimp pin terminal into TB840 of RADAR INTERFACE CIRCUIT CQD-2273
according to the procedures shown below. (A slotted screwdriver is required.)
●How to insert the pin terminals into TB840:
(i)
Insert your flat head screwdriver into the upper slot of TB840.
The cable slot (lower slot) will open.
(ii)
Insert the crimp pin terminal into the cable slot (lower slot).
(iii)
Pull out your flat head screwdriver and the pin terminal will be fixed.
a Flat head screwdriver
a Pin terminal
TB840
Twist each pair of the following colored wires and connect them to the J832 of RADAR INTERFACE
CIRCUIT CQD-2273.
• YEL.T/PNK.T
• BLK.T/SKY.T
→ J832(DC+)
→ J832(DC-)
2-8
2.Installation of Scanner Unit > 2.1 Equipment Cable
2)
2695110056, 2695111153
Remove about one meter of the outer skin, and then process the double braided shield according to the
procedures shown below.
Processing of braided shield (269511056, 2695111153)
End processing of each wire (269511056, 2695111153)
2-9
2.Installation of Scanner Unit > 2.1 Equipment Cable
2.1.5 Connection to the display-unit side terminal block
The terminal blocks of the junction box are pluggable type connectors. Connection
procedures are described below.
1)
Use an attached lever or a flat-head screw driver, to press the control so
as to open the cable inlet.
2)
Strip 8 to 9 mm of insulation off wire. Check the strip length and then insert
the wire until the end comes in contact.
3)
4)
Release the tool from the terminal block and tighten the cable.
After the cable has been connected, gently tug at the cable to ensure that
it is securely fastened.
Terminal block connection method
2-10
2.Installation of Scanner Unit > 2.1 Equipment Cable
In order to connect the AC power lines that are Green and Yellow wires of 2695110056 to the
Junction Box, the Faston terminals are required.
1) Insert the Green or Yellow wire into the Faston terminal.
2) Crimp the wire.
3) Remove the clear cover of TB838 on CQD-2273 Radar Interface Circuit.
4) Connect the Green or Yellow wires with Faston terminal to TB838 surely.
5) Return the clear cover surely.
2-11
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2.2
Installation for the specified scanner model
2.2.1 NKE-2103 type scanner unit
2-12
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2-13
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2.2.2 NKE-2254-6HS type scanner unit
2-14
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2-15
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2.2.3 NKE-1125 type scanner unit
2-16
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2-17
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2.2.4 NKE-1129 type scanner unit
2-18
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2-19
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2.2.5 NKE-1130 type scanner unit
2-20
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2-21
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2.2.6 NKE-1139 type scanner unit
2-22
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2-23
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2.2.7 NKE-1632 type scanner unit
2-24
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2-25
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2.2.8 NKE-2632 type scanner unit
2-26
2.Installation of Scanner Unit > 2.2 Installation for the specified scanner model
2-27
2.Installation of Scanner Unit > 2.3 Installation of Transmitter Receiver
2.3
Installation of Transmitter Receiver
2.3.1 NTG-3225 type transmitter receiver unit
2-28
2.Installation of Scanner Unit > 2.3 Installation of Transmitter Receiver
2-29
2.Installation of Scanner Unit > 2.3 Installation of Transmitter Receiver
2.3.2 NTG-3230 type transmitter receiver unit
2-30
2.Installation of Scanner Unit > 2.3 Installation of Transmitter Receiver
2-31
2.Installation of Scanner Unit > 2.4 PRECAUTIONS
2.4
PRECAUTIONS
Microwave radiation level:
Keep away from a scanner when it is transmitting.
The high level of microwave is radiated from the front face of the
scanner specified below. The microwave exposure at close
range could result in injuries (especially of the eyes).
Microwave radiation level
System 50 W/m2
10 W/m2
2.5 W/m2
26cm
123cm
81cm
162cm
76cm
181cm
NKE-2632 1.38cm
3.1cm
209.76cm
NKE-1632 1.45cm
3.25cm
128.37cm
NKE-2103 n/a
NKE-1125/1129/2254 5cm
NKE-1130/1139 11cm
Make sure to install the scanner at a place higher than human
height.
Direct exposure to electromagnetic waves at close range will
have adverse effects on the human body.
Direct exposure to electromagnetic waves at close range will
have adverse effects on the human body. When it is necessary to
get close to the scanner for maintenance or inspection
purposes, make sure to turn the indicator power switch to "OFF"
or "STBY."
Direct exposure to electromagnetic waves at close range will
have adverse effects on the human body.
When conducting maintenance work, make sure to turn off the
power so that the power supply to the equipment is completely
cut off.
Some equipment components can carry electrical current even
after the power switch is turned off, and conducting maintenance
work without unplugging the power connector may result in
electrocution, equipment failure, or accidents.
2-32
2.Installation of Scanner Unit > 2.4 PRECAUTIONS
2.4.1
1)
Installation of scanner unit
Precautions for transporting and storing the scanner
• A scanner is a heavy load. Be very careful about handling it.
• Do not allow the scanner fall on its side while it is stored or being installed.
• Do not apply rope to the scanner in the way that squeezes or deforms the radiating section.
• When hoisting the scanner by a crane, do not hoist it by attaching a belt or a rope only to the
scanner's radiating section as shown in Fig 2-4 Improper way to hoist.
• When lifting the S-band scanner (Improper way to hoist ):
When lifting the scanner with the radiator by a crane, attach a rope (or belt/wire) to four hoisting eyebolts
attached to the scanner's chassis, and then lift the scanner so that a protector attached on the radiator will
be located between the rope and radiator.
Use suitable rope in length so that the distance from the crane's hook to the hoisting eyebolts will be 2.5m
or more.
Use the protector attached on the radiator in factory, an additional protector should be not used. Because
excessive protector will cause damage to the radiator's radome. After installation of the scanner, remove
the protector from the radiator.
If the lifting rope is attached to the scanner's support section located at the bottom of the radiator, a load is
imposed to the joint between the radiator and the chassis, then this will cause damage.
On lifting the scanner, if the lifting rope (or belt/wire) is short, or a protector is not used, it will scratch the
radiator's radome.
And then, if a thick protector on the radome is used, it causes damage to the radome.
• When lifting the X-band scanner (Fig 2-6 X-band):
Wrap a cloth around the scanner's support section located at the bottom of the radiator, and then attach a
belt to it to lift the scanner.
Fig 2-4 Improper way to hoist
Fig 2-5 S-band
Fig 2-6 X-band
2-33
2.Installation of Scanner Unit > 2.4 PRECAUTIONS
2)
Installation procedures
a. Maintain a flat level surface on which to install the scanner.
•
Use sufficiently thick steel material and reinforcement material for the scanner's
installation surface (mount base) to reduce vibration and impact. Keep the mount
base flat and smooth.
•
If there is a partial gap between the mount base and the scanner chassis's legs, work
on the installation surface so that it becomes flat and smooth. If a gap exists and the
scanner is tightly clamped, the chassis will distort and become damaged by vibration.
b. Avoid using vibration-proof rubber and resin
•
3)
Do not insert an elastic body, such as vibration-proof rubber or resin, between the
mount base and the scanner chassis' legs. If rubber or resin is inserted, the amplitude
of vibration increases, resulting in the possibility of damage to the scanner.
Furthermore, if installation bolts become loose due to deterioration of rubber or resin,
the scanner may be damaged or fall from its mount.
Installation and clamping method
a. Installation direction
•
Installation should be done so that the cable gland is oriented toward the stern.
b. Bolts, nuts and tightening torque to be used
•
Use stainless steel bolts for the scanner and uniformly tighten all of the bolts using
double nuts for each bolt so that the scanner will not become loose (Table 2-4 Length
of scanner mounting bolts and tightening torque).
•
Although the length of the bolt will differ according to the thickness of the mount base,
use a bolt long enough so that more than 4 millimeters of thread protrudes beyond the
double nuts after the double nuts have been tightened.
Table 2-4 Length of scanner mounting bolts and tightening torque
Thickness
Base(mm)
of
Mount
Bolt
Torque(N-m)
S-band
19
M12×65(mm) SUS304
65
X-band
12
M10×55(mm) SUS304
40
2-34
2.Installation of Scanner Unit > 2.4 PRECAUTIONS
c. Use of washer and corrosion-resistant measures
•
At the location where a bolt's head or nut comes in contact with the scanner chassis' legs and the
mount base, insert a plain washer which fits the bolt; and, at the location where the nut comes in
contact with the plain washer, insert a spring washer, and then securely tighten the nuts (Fig 2-7
Use of washer and corrosion-resistant measures).
•
To prevent corrosion due to the contacts between different metals, such as the scanner chassis'
legs, installation surface, bolts, nuts, etc., cover the bolt's head and nuts with sealant (Fig 2-7 Use
of washer and corrosion-resistant measures).
Fig 2-7
Use of washer and corrosion-resistant measures
d. Grounding and corrosion-resistant measures
•
Ground the scanner chassis and the installation surface (hull) by using an earth line. Apply
sealant to the connection portion of the earth line to prevent corrosion and damage by vibration (Fig
2-8 Grounding and corrosion-resistant measures).
Fig 2-8 Grounding and corrosion-resistant measures
2-35
2.Installation of Scanner Unit > 2.4 PRECAUTIONS
2.4.2 Routing coaxial cable and flexible wave guide
In the case of the three-unit system consisting of the display unit,
transmitter-receiver, and the scanner, use a Coaxial cable, shown in Fig 2-9
Coaxial cable, between the transmitter-receiver and the scanner for the S-band,
and use a Flexible wave guide, shown in Fig 2-10 Flexible wave guide, for the
X-band.
1)
Protecting coaxial cable and flexible wave guide
• Since cables and wave guides are hollow inside, when mounting them by using electric
wire bands, try not to fasten the bands too tightly around the cables and wave guides.
If they are fastened too tightly, the inside will become deformed or blocked, which may
cause the receiving sensitivity to decrease or the transmitter-receiver to be damaged.
Fig 2-10 Flexible wave guide
Fig 2-9 Coaxial cable
•
Stabilize the coaxial cable and the flexible wave guide by supporting members that are at maximum
intervals of 1000 millimeters. Mount a supporting member for the horizontal wiring portion on the
compass deck at an angle of 300 to 400 millimeters, and put a protective metal cover over the cable
and wave guide.
2-36
2.Installation of Scanner Unit > 2.4 PRECAUTIONS
2)
Preventing the connecting portion from becoming detached due to vibration
• Keep the connecting portion between the coaxial cable and the flexible wave guide
and the scanner's chassis, and provide supporting members, as shown in Fig 2-11
Position of S-band supporting member and Fig 2-12 Position of X-band
supporting member, to prevent the connecting portion from becoming detached
due to vibration.
•
The distance from the connecting portion and the supporting member should be 400
millimeters for the S-band and 300 millimeters for X-band.
•
If the distance from the connecting portion and the supporting member is longer than
the above distance, vibration may cause metal fatigue, resulting in the occurrence of
malfunction even if the connecting portion is not removed.
Fig 2-11 Position of S-band supporting
member
Fig 2-12 Position of X-band supporting
member
• For the cable end processing, refer to the procedure manual which comes
with the cable.
3) Permissible bending radius
• The permissible bending radius R of flexible wave guide is 200mm/400mm
(E-bent/H-bent). More sharp bending with less radius than this must be avoided.
• The permissible bending radius R of coaxial cable is 350mm. More sharp
bending with less radius than this must be avoided.
Fig 2-13 The permissible bending radius of flexible wave guide
2-37

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