JRC JMA-933B, JMA-932B-7XA, JMA-932B-SA, JMA-922B-6XA, JMA-922B-9XA Installation Manual

Chart RADAR

Installation Manual

i

PREFACE

Thank you for purchasing the JRC JMA-900B Chart RADAR.

This manual describes how to install the equipment. For the best operation and

performance results, read this manual thoroughly before insallation.

For preventing electric shock and for securing periformance, grounding work is

needed.

Make sure to perform earth connection.

For the detailed operation, refer to the Instruction Manulal for JMA-900B.

ii

● Before Operation ●

Pictorial Indication

Various pictorial indications are included in this manual and are shown

on the component 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:

This indication is shown where any person is supposed to be in

danger of being killed or seriously injured if this indication is

neglected or equipment is not operated correctly.

This indication is shown where any person is supposed to be injured

or any property damage is supposed to occur if this indication is

neglected or equipment is not operated correctly.

Examples of pictorial indication

The △ mark represents CAUTION (including DANGER and

WARNING).

Detailed contents of CAUTION (“Electric Shock” in the example on the

left) are shown in the mark.

The mark represents prohibition.

Detailed contents of the prohibited action (“Disassembling Prohibited”

in the example on the left) are shown in the mark.

The ● mark represents instruction.

Detailed contents of the instruction (“Disconnect the power plug” in the

example on the left) are shown in the mark.

Warning label

There is a warning label on the top cover of the equipment.

Do not try to remove, break or modify the label.

iii

● Precautions upon Equipment Operation ●

Before installing the power cable, make sure to turn off the braker of the main

power line. Otherwise, an electric shock or a malfunction may occur.

When connecting/disconnecting the connection cables between the external

equipment, make sure to turn off the braker of the main power line.

Otherwise, a fire or an electric shock may occur.

iv

Do not touch the LAN/USB connectors directly with your hands.

Otherwise, a malfunction may occur due to electrostatic charges.

Divert electrostatic charges by touching chassis before accessing LAN/USB

connectors.

CONTENTS

1. CONFIGURATION ...................................................................................................1-1

1.1 Components........................................................................................................................... 1-1

1.1.1 JMA-900B Series............................................................................................................ 1-1

1.2 List of Circuits........................................................................................................................ 1-3

1.2.1 JMA-900B Series Scanner Unit, Tranceiver Unit.......................................................... 1-3

1.3 System Diagram..................................................................................................................... 1-8

1.4 System Configuration ......................................................................................................... 1-14

2. INSTALLATION OF SCANNER UNIT....................................................................2-18

2.1 Equipment Cable .................................................................................................................2-18

2.1.1 H-2695110056* .............................................................................................................. 2-18

2.1.2 H-2695111153* .............................................................................................................. 2-19

2.1.3 Cable end processing method.................................................................................... 2-20

2.1.4 Connection to Terminals ............................................................................................. 2-21

2.2 Installation of Scanner Unit ................................................................................................ 2-22

2.2.1 NKE-1125 Type Scanner .............................................................................................. 2-22

2.2.2 NKE-1129 Type Scanner .............................................................................................. 2-24

2.2.3 NKE-1130 Type Scanner .............................................................................................. 2-26

2.2.4 NKE-1139 Type Scanner .............................................................................................. 2-28

2.3 Installation of Tranceiver Unit............................................................................................. 2-30

2.3.1 NTG-3225 Type Tranceiver .......................................................................................... 2-30

2.3.2 NTG-3230 Type Tranceiver .......................................................................................... 2-32

2.4 Precautions .......................................................................................................................... 2-34

2.4.1 Insatallation of Scanner Unit ....................................................................................... 2-34

2.4.2 Routing Coaxial Cable and Flexible Waveguide ........................................................ 2-39

2.4.3 Scanner Installation Position ...................................................................................... 2-41

2.4.4 Confirmation during Test Run..................................................................................... 2-46

3. INSTALLATION OF DISPLAY UNIT ........................................................................3-1

3.1 Installation of Display Unit ....................................................................................................3-1

3.2 Installing Power Cable........................................................................................................... 3-6

3.2.1 Input Voltage Specification............................................................................................ 3-6

3.2.2 Connecting Power Cable............................................................................................... 3-6

3.3 Connections with Scanner and Transceiver ........................................................................ 3-8

3.4 Connection with GPS ............................................................................................................3-9

3.5 Connection with Vessel Speed Unit (2-AXIS LOG)............................................................ 3-10

3.6 Connections with GYRO and Electormagnetic LOG......................................................... 3-11

3.7 Connection with GYRO (IEC61162-1/2) .............................................................................. 3-13

3.8 Connection with AIS............................................................................................................ 3-15

3.9 Connection with ECDIS....................................................................................................... 3-16

3.10 Connect with Alarm Monitoring System ............................................................................ 3-17

3.11 Installation of Cable Ground............................................................................................... 3-18

4. INITIAL SETTING ....................................................................................................4-1

4.1 Confirming Power Supply ..................................................................................................... 4-1

4.2 Connecting to CQD-2121 Standard Terminal Board............................................................ 4-2

4.3 Setting Equipment Configuration......................................................................................... 4-4

4.3.1 Setting Ethernet Rotary Switch..................................................................................... 4-4

4.4 Connecting to CQD-2128 Radar Terminal Board................................................................. 4-6

4.5 Setting of GYRO I/F ............................................................................................................... 4-8

4.5.1 Setting of STEP･SYNC................................................................................................... 4-8

5. SETTING..................................................................................................................5-1

5.1 Port Setting ............................................................................................................................ 5-1

5.1.1 Display the Device Menu ............................................................................................... 5-1

5.1.2 Display the Configulation Set Menu ............................................................................. 5-2

5.1.3 The Configuration Setting ............................................................................................. 5-3

5.1.3.1 Select the equipment and the connect-acknowledge...................................... 5-3

5.1.3.2 Configuration Setting......................................................................................... 5-6

5.1.3.3 Sensor Setting.................................................................................................. 5-15

5.1.3.4 Alarm Relay Setting.......................................................................................... 5-22

5.1.3.5 Update of Application Software....................................................................... 5-26

5.1.3.6 Update of SRB/ROL Software.......................................................................... 5-31

5.1.4 Setting of the Sensor................................................................................................... 5-34

5.2 Setting of the Ships Paramater........................................................................................... 5-37

5.3 Setting of the Installation Location .................................................................................... 5-38

5.4 Setting of the RADAR Application...................................................................................... 5-39

5.4.1 Setting of the Navigation Equipment.......................................................................... 5-40

5.4.2 Tune Adjustment .......................................................................................................... 5-41

5.4.3 Tune Indicator Adjustment .......................................................................................... 5-42

5.4.4 Bearing Adjustment ..................................................................................................... 5-43

5.4.5 Range Adjustment........................................................................................................ 5-44

5.4.6 Setting of the Antenna Height ..................................................................................... 5-45

5.4.7 Setting of the Main Bang Suppression....................................................................... 5-46

5.4.8 Adjustmant the Performance Monitor ........................................................................ 5-47

5.4.9 Setting of the equipment ID......................................................................................... 5-48

5.4.10 Setting of Alarm ........................................................................................................... 5-49

5.4.10.1 Setting of output cycle of watchman timer reset contact signal ................ 5-49

5.4.10.2 Setting of Alarm Volume ................................................................................ 5-49

5.4.10.3 Output Setting of Relay Contact Signal........................................................ 5-50

5.4.10.4 Output setting of ALR sentence .................................................................... 5-50

5.4.10.5 Setting of Outside ACK Receive.................................................................... 5-51

5.5 Backup of Data..................................................................................................................... 5-52

6. OPTION UNIT ..........................................................................................................6-1

6.1 Installation of Interswitch Unit.............................................................................................. 6-1

6.1.1 Equipment Cable End Processing ................................................................................ 6-1

6.1.2 Connection of Equipment Cable................................................................................... 6-1

6.1.3 Plug Terminal Block Connecteion Procedures............................................................ 6-2

6.1.4 Installation of Interswitch Unit ...................................................................................... 6-3

6.1.5 Setting............................................................................................................................. 6-7

6.1.6 Confirmation after Installation..................................................................................... 6-11

6.1.7 Inter-board Connection Diagram ................................................................................ 6-11

6.2 INSTALLATION of POWER CONTROL UNIT ...................................................................... 6-13

6.2.1 Connection with NKE-1125,NTG-3225,NKE-1130,NTG-3230 ..................................... 6-13

6.2.2 Equipment Cable End Processing.............................................................................. 6-14

6.2.3 End Processing of each cable core............................................................................ 6-14

6.2.4 Connection to Display Unit ......................................................................................... 6-14

6.2.5 General System Diagram of Power Contorl Unit ....................................................... 6-15

6.2.6 Inter-board connection Diagram of Power Control Unit............................................ 6-27

6.2.7 Exterior Drawing of Power Control Unit ..................................................................... 6-31

6.3 INSTALLATION of VDR........................................................................................................ 6-33

6.3.1 Connetions ................................................................................................................... 6-33

1-1

1. Configuration

1.1 Components

A list of components and optional accessories are shown below.

1.1.1 JMA-900B Series

●JMA-900B Series List of Composition (Self Satanding TYPE)

MODEL

Scanner

Unit

Radiator

Performance

Montor

Tranceiver

Unit

Display Unit

JMA-933B-SA NKE-1139 NTG-3230

JMA-932B-SA NKE-1130

NJU-84

---

JMA-923B-7XA NKE-1129-7 NAX-16B-7

JMA-923B-9XA NKE-1129-9 NAX-16B-9

NTG-3225

JMA-922B-6XA NKE-1125-6 NAX-16B-6 ---

JMA-922B-9XA NKE-1125-9 NAX-16B-9

NJU-85

---

NCD-2096

●JMA-900B Series List of Composition (Desktop TYPE)

Display Unit NCD-2096F

MODEL

Scanner

Unit

Radiator

Perfor

mance

Monitor

Tranci ver

Unit

Monitor

Unit

Process

Unit

Operation

Unit

JMA-933B-SA NKE-1139 NTG-3230

JMA-932B-SA NKE-1130

NJU-84

---

JMA-923B-7XA NKE-1129-7 NAX-16B-7

JMA-923B-9XA NKE-1129-9 NAX-16B-9

NTG-3225

JMA-922B-6XA NKE-1125-6 NAX-16B-6 ---

JMA-922B-9XA NKE-1125-9 NAX-16B-9

NJU-85

---

NWZ-170-ET NDC-1444 NCE-5163-FT

*1 Input voltage is selectable. “1” or “2” suffix is attached to model name of scanner unit. “1” means

AC100-115V (50/60Hz) and “2” means AC220-240V (50/60Hz) for type of scanner unit NKE-1139,

NKE-1130, NKE-1129-7, NKE-1129-9, NKE-1125-6, NKE-1125-9.

*2 HETER OPTION is available at suffix “D”.

Ex）NKE-1139-1 D 、NKE-1129-92 D

1: AC 100-115V 50/60Hz 1φ

2: AC 220-240V 50/60Hz 1φ

D: HETER OPTION

1-2

●Accessories

NAME TYPE REMARKS

7ZPRD0694 (Japanese)

Radar Mode Instruction Manual

7ZPRD0695 (English)

7ZPRD0696 (Japanese)

ECDIS Mode Instruction Manual

7ZPRD0697 (English)

7ZPRD0744 (Japanese)

Simplified Manual

7ZPRD0745 (English)

7ZPNA4111 (Japanese) Additional Manual for

Chart Installation

7ZPNA4112 (English)

Accessory 7ZZNA0426A CD/FD Cleaner

Accessory 7ZZNA0427A FD(10 pieces)/FD Case

●Options

NAME TYPE REMARKS

7ZPRD0698 (Japanese)

Installation Maunal

7ZPRD0699 (English)

Hood MPOL30345A For LCD Monitor

Cover MPXP33088 For Display Unit

Mini Keyboard Kit MPXP33223A

Gyro Interface Kit MPXP34120 For Step Gyro and Puls

4unit Switching Interswitch NQE-3141-4A External

8unit Switching Interswitch NQE-3141-8A External (Custom Made)

Spare Parts 7ZSRD0025 For Gyro I/F Additional Kit

1-3

1.2 List of Circuits

1.2.1 JMA-900B Series Scanner Unit, Tranceiver Unit

Table 1-1 JMA-933B-SA Scanner and Tranceiver Unit

NKE-1139-1 NKE-1139-2

Scanner Unit

Interconnection CAX-14

Radiator CTG-270

Safety Switch CSD-657

Encoder CHT-71A1

Motor MDBW10823

AC100V Motor Driver 7EPRD0035* AC220V Motor Driver 7EPRD0034*

Brake Circuit CFA-255

Brake Control Circuit CCB-655

Brake Circuit Unit NZR-17

Heater Control Part

*DOption

CHG-215

Scanner Unit

Performance Monitor NJU-84

NTG-3230

Transceiver Unit

Interconnection CMK-594

Modulator Unit NMA-553-1

Modulator Unit

Interconnection CMB-407

Modulator Circuit CPA-264

Receiver Unit NRG-229

Receiver Unit

Interconnection CMA-902

IF Circuit CAE-499

RF Circuit CAF-595

T/R Control Circuit CMC-1205R

Relay Filter Circuit CSC-656

Transceiver

Unit

Power Supply Circuit CBD-1682A

Display Unit

NCD-2096/NCD-2096F

“*” means revision, such as A, B and so on.

1-4

Table 1-2 JMA-932B-SA Scanner Unit

NKE-1130-1 NKE-1130-2

Scanner Unit

Interconnection CAX-13

Radiator CTG-270

Safety Switch CSD-656

Encoder CHT-71A

Motor MDVW10823

AC100V Motor Driver 7EPRD0035* AC220V Motor Driver 7EPRD0034*

Brake Circuit CFA-255

Brake Contorl Circuit CCB-655

Brake Circuit Unit NZR-17

Modulator Unit NMA-551-1

Modulator Unit

Interconncetion CMB-406

Modulator Circuit CPA-264

Receiver Control Unit NZT-1130

Receiver Unit NRG-229

Receiver Unit

Interconnetion CMA-902

IF Circuit CAE-499

RF Circuit CAF-595

T/R Control Circuit CMC-1205R

Relay Fiter Circuit CSC-656

Powrer Supply Circuit CBD-1682A

Heter Control Part

*DOption

CHG-215

Scanner Unit

Performance Montor NJU-84

Display Unit

NCD-2096/NCD-2096F

“*” means revision, such as A, B and so on.

1-5

Tabel 1 -3 JMA-923B-7XA/JMA-923B-9XA Scanner and Tranceiver Unit

NKE-1129-1 NKE-1129-2

Scanner Unit

interconnection CAX-12

Safety Switch CSD-655

Encoder CHT-71A1

Motor MDBW10822

AC100V Motor Driver 7EPRD0035* AC220V Motor Driver 7EPRD0034*

Brake Circuit CFA-253

Brake Control Circuit CCB-655

Brake Circuit Unit NZR-15

Heater Control Part

*DOption

CHG-216

Scanner Unit

Perforimance Montor NJU-85

NTG-3225

Transceiver Unit

Interconnection CMK-593

Modulator Unit NMA-552-1

Modulator Unit

Interconnection CMB-405

Modulator Circuit CPA-264

MAG Filter Circuit CFR-229

Receiver unit NRG-162A

Receiver Circuit CMA-866A

T/R Control Circuit CMC-1205R

Relay Filter Circuit CSC-656

Tranciver Unit

Power Supply Circuit CBD-1682A

Display Unit

NCD-2096/NCD-2096F

“*” means revision, such as A, B and so on.

1-6

Table 1-4 JMA-922B-6XA/JMA-922B-9XA Scanner Unit

NKE-1125-61,NKE-1125-91 NKE-1125-62,NKE-1125-92

Scanner Unit

Interconnection CAX-11

Safety Switch CSD-654

Encoder CHT-71A

Motor MDBW10822

AC100V Motor Driver 7EPRD0035* AC220V Motor Driver 7EPRD0034*

Brake Circuit CFA-253

Brake Control Circuit CCB-655

Brake Circuit Unit NZR-16

Modulator Unit NMA-550-1

Modulator Unit

Interconnection CMB-404

Modulator Circuit CPA-264

MAG Filter Circuit CFR-229

Receiver Unit NRG-162A

Receiver Circuit CMA-866A

T/R Control Circuit CMC-1205R

Relayfilter Circuit CSC-656

Power Suppley Circuit CBD-1682A

Heater Control Part

*DOption

CHG-216

Scanner Unit

Performance Monitor NJU-85

Display Unit

NCD-2096/NCD-2096F

“*” means revision, such as A, B and so on.

1-7

Table 1-5 NCD-2096/NCD-2096F Display Unit

NCD-2096 NCD-2096F

NDC-1445 NDC-1444

μATX Mother Board CMC-1323

ADD Card CKA-141

Flash Disk CDD-723

HDD (2 units) CDD-717

USB FD Drive CDD-719

DVD Drive CDD-719

ATX Power Supply CBD-1625

Front Panel Circuit 1 CCK-986

Front Panel Circuit 2 CCK-987

USB Secilty Dongle CYC-344

JMA-900B Display Unit

Software CYC-436

e-Token CYC-242

SRB CDJ-2373

Backplane Mother Board

CQD-1219

Standard Terminal Circuit

CQD-2121

Main Power Supply CBD-1832

UPS Battery CBD-1531

Radar I/F Board CDC-1338

Radar Processer Board

CDC-1339

ARPA Process CDC-1186D

Radar Terminal Circuit

CQD-2128

Control Unit Interconnection CFQ-5437

Process Unit

Process Unit Interconnection CFQ-5438

NCE-5163-F NCE-5163-FT

Operation Circuit A CCK-973

Operation Circuit B CCK-974

Operation Circuit C CCK-975

Operation Circuit D CCK-976

Operation Unit

Operation Unit

Interconnection CMD-996-F

Opeation Unit

Interconnection CMD-996-FT

NWZ-170-E NWZ-170-ET

LCD Pannel 7WSRD0002*

LCD Operation Circuit

CCK-972

Monitor Unit

Monitor Unit Interconnection CML-764-E

Monitor Unit

Interconnection CML-764-ET

“*” means revision, such as A, B and so on.

1-8

1.3 System Diagram

NCD-2096
DISPLAY UNIT

NJU-84
PERFORMANCE
MONITOR

250V-MPYCYS-7

250V-TTYCS-1

KB-CHD152K

250V-TTYCS-1

18 CORES COMPOSITE CABLE
H-2695111153
MAX 18.0φ (JRC SUPPLY)

250V-TTYCS-4

H-2695110006 (JRC SUPPLY)

H-2668510019 (JRC SUPPLY) SPARE

250V-MPYC-4

250V-TTYCS-4

250V-TTYCS-4

GYRO

LOG

(NMEA 0183)

DGPS

VDR

RADAR

(INTER SWITCH)

ECDIS(JAN-901M)

ALERM MONITORING SYSTEM

(NEAREST APPROACH)

(POWER FAIL)

CONNING DISPLAY(JAN-701-CON)

AIS

0.6/1kV-DPYCY-6

0.6/1kV-DPYCYS-1.5

SHIP’S MAIN

AC100/220V,
50/60Hz,1φ,800VA

SHIP’S MAIN

for POWER FAIL ALARM
DC24V(BATTERY),1W

(5A)

NBL-175

SHIP’S MAIN

for HEATER
AC220V,50/60Hz,1φ

AC100V,50/60Hz
1φ,200W

CIRCUIT BREAKER

(SHIP YARD SUPPLY)

(WITH MON)

NKE-1139-1/2
SCANNER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY) 35m MAX

STEPDOWN

TRANSFORMER

NTG-3230
TRANSCEIVER-RECEIVER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY) 30m MAX

COAXIAL CABLE
HF-20D (JRC SUPPLY)

0.6/1kV-DPYCYS-1.5

HEATER OPTION

Fig 1-1 JMA-933B-SA System Diagram

1-9

NCD-2096
DISPLAY UNIT

NJU-84
PERFORMANCE
MONITOR

250V-MPYCYS-7

250V-TTYCS-1

KB-CHD152K

250V-TTYCS-1

18 CORES COMPOSITE CABLE
H-2695111153
MAX 18.0φ (JRC SUPPLY)

250V-TTYCS-4

H-2695110006 (JRC SUPPLY)

H-2668510019 (JRC SUPPLY) SPARE

250V-MPYC-4

250V-TTYCS-4

250V-TTYCS-4

GYRO

LOG

(NMEA 0183)

DGPS

VDR

RADAR

(INTER SWITCH)

ECDIS(JAN-901M)

ALERM MONITORING SYSTEM

(NEAREST APPROACH)

(POWER FAIL)

CONNING DISPLAY(JAN-701-CON)

AIS

0.6/1kV-DPYCY-6

0.6/1kV-DPYCYS-1.5

SHIP’S MAIN

AC100/220V,
50/60Hz,1φ,800VA

SHIP’S MAIN

for POWER FAIL ALARM
DC24V(BATTERY),1W

(5A)

NBL-175

SHIP’S MAIN

for HEATER
AC220V,50/60Hz,1φ

AC100V,50/60Hz
1φ,200W

CIRCUIT BREAKER

(SHIP YARD SUPPLY)

(WITH MON)

NKE-1130-1/2
SCANNER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY)

65m MAX

STEPDOWN

TRANSFORMER

0.6/1kV-DPYCYS-1.5

HEATER OPTION

Fig 1-2 JMA-932B-SA System Diagram

1-10

NCD-2096
DISPLAY UNIT

NJU-85
PERFORMANCE
MONITOR

250V-MPYCYS-7

250V-TTYCS-1

KB-CHD152K

250V-TTYCS-1

18 CORES COMPOSITE CABLE
H-2695111153
MAX 18.0φ (JRC SUPPLY)

250V-TTYCS-4

H-2695110006 (JRC SUPPLY)

H-2668510019 (JRC SUPPLY) SPARE

250V-MPYC-4

250V-TTYCS-4

250V-TTYCS-4

GYRO

LOG

(NMEA 0183)

DGPS

VDR

RADAR

(INTER SWITCH)

ECDIS(JAN-901M)

ALERM MONITORING SYSTEM

(NEAREST APPROACH)

(POWER FAIL)

CONNING DISPLAY(JAN-701-CON)

AIS

0.6/1kV-DPYCY-6

0.6/1kV-DPYCYS-1.5

SHIP’S MAIN

AC100/220V,
50/60Hz,1φ,800VA

SHIP’S MAIN

for POWER FAIL ALARM
DC24V(BATTERY),1W

(5A)

NBL-175

SHIP’S MAIN

for HEATER
AC220V,50/60Hz,1φ

AC100V,50/60Hz
1φ,100W

CIRCUIT BREAKER

(SHIP YARD SUPPLY)

(WITH MON)

NKE-1129-71/72
SCANNER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY)

35m MAX

STEPDOWN

TRANSFORMER

NTG-3225
TRANSCEIVER-RECEIVER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY)

30m MAX

FLEXIBLE WAVEGUIDE
FR-9 (JRC SUPPLY)

0.6/1kV-DPYCYS-1.5

HEATER OPTION

Fig 1-3 JMA-923B-7XA System Diagram

1-11

NCD-2096
DISPLAY UNIT

NJU-85
PERFORMANCE
MONITOR

250V-MPYCYS-7

250V-TTYCS-1

KB-CHD152K

250V-TTYCS-1

18 CORES COMPOSITE CABLE
H-2695111153
MAX 18.0φ (JRC SUPPLY)

250V-TTYCS-4

H-2695110006 (JRC SUPPLY)

H-2668510019 (JRC SUPPLY) SPARE

250V-MPYC-4

250V-TTYCS-4

250V-TTYCS-4

GYRO

LOG

(NMEA 0183)

DGPS

VDR

RADAR

(INTER SWITCH)

ECDIS(JAN-901M)

ALERM MONITORING SYSTEM

(NEAREST APPROACH)

(POWER FAIL)

CONNING DISPLAY(JAN-701-CON)

AIS

0.6/1kV-DPYCY-6

0.6/1kV-DPYCYS-1.5

(5A)

NBL-175

SHIP’S MAIN

for HEATER
AC220V,50/60Hz,1φ

AC100V,50/60Hz
1φ,100W

CIRCUIT BREAKER

(SHIP YARD SUPPLY)

(WITH MON)

NKE-1129-91/92
SCANNER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY)

35m MAX

STEPDOWN

TRANSFORMER

NTG-3225
TRANSCEIVER-RECEIVER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY)

30m MAX

FLEXIBLE WAVEGUIDE
FR-9 (JRC SUPPLY)

0.6/1kV-DPYCYS-1.5

SHIP’S MAIN

AC100/220V,
50/60Hz,1φ,800VA

SHIP’S MAIN

for POWER FAIL ALARM
DC24V(BATTERY),1W

HEATER OPTION

Fig 1-4 JMA-923B-9XA System Diagram

1-12

NCD-2096
DISPLAY UNIT

NJU-85
PERFORMANCE
MONITOR

250V-MPYCYS-7

250V-TTYCS-1

KB-CHD152K

250V-TTYCS-1

18 CORES COMPOSITE CABLE
H-2695111153
MAX 18.0φ (JRC SUPPLY)

250V-TTYCS-4

H-2695110006 (JRC SUPPLY)

H-2668510019 (JRC SUPPLY) SPARE

250V-MPYC-4

250V-TTYCS-4

250V-TTYCS-4

GYRO

LOG

(NMEA 0183)

DGPS

VDR

RADAR(INTER SWITCH)

ECDIS(JAN-901M)

ALERM MONITORING SYSTEM

(NEAREST APPROACH)

(POWER FAIL)

CONNING DISPLAY(JAN-701-CON)

AIS

0.6/1kV-DPYCY-6

0.6/1kV-DPYCYS-1.5

SHIP’S MAIN

AC100/220V,
50/60Hz,1φ,800VA

SHIP’S MAIN

for POWER FAIL ALARM
DC24V(BATTERY),1W

(5A)

NBL-175

SHIP’S MAIN

for HEATER
AC220V,50/60Hz,1φ

AC100V,50/60Hz
1φ,100W

CIRCUIT BREAKER

(SHIP YARD SUPPLY)

(WITH MON)

NKE-1125-61/62
SCANNER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY)

65m MAX

STEPDOWN

TRANSFORMER

0.6/1kV-DPYCYS-1.5

HEATER OPTION

Fig 1-5 JMA-922B-6XA System Diagram

1-13

NCD-2096
DISPLAY UNIT

NJU-85
PERFORMANCE
MONITOR

250V-MPYCYS-7

250V-TTYCS-1

KB-CHD152K

250V-TTYCS-1

18 CORES COMPOSITE CABLE
H-2695111153
MAX 18.0φ (JRC SUPPLY)

250V-TTYCS-4

H-2695110006 (JRC SUPPLY)

H-2668510019 (JRC SUPPLY) SPARE

250V-MPYC-4

250V-TTYCS-4

250V-TTYCS-4

GYRO

LOG

(NMEA 0183)

DGPS

VDR

RADAR

(INTER SWITCH)

ECDIS(JAN-901M)

ALERM MONITORING SYSTEM

(NEAREST APPROACH)

(POWER FAIL)

CONNING DISPLAY(JAN-701-CON)

AIS

0.6/1kV-DPYCY-6

0.6/1kV-DPYCYS-1.5

SHIP’S MAIN

AC100/220V,
50/60Hz,1φ,800VA

SHIP’S MAIN

for POWER FAIL ALARM
DC24V(BATTERY),1W

(5A)

NBL-175

SHIP’S MAIN

for HEATER
AC220V,50/60Hz,1φ

AC100V,50/60Hz
1φ,100W

CIRCUIT BREAKER

(SHIP YARD SUPPLY)

(WITH MON)

NKE-1125-91/92
SCANNER UNIT

14 CORES COMPOSITE CABLE
H-2695110056

MAX 23φ (JRC SUPPLY) 65m MAX

STEPDOWN

TRANSFORMER

0.6/1kV-DPYCYS-1.5

HEATER OPTION

Fig 1-6 JMA-922B-9XA System Diagram

1-14

1.4 System Configuration

NCD-2096 component units
Item Unit Type Qua

ntity

Remarks

23.1 Inch LDC Unit H-7WSRD0002* 1
Monitor Unit
Interconnection

CML-764-E/ET 1

Monitor Unit
NWZ-170-E/ET

LCD OPE CCK-972 1
Operation Circuit A CCK-973 1
Operation Circuit B CCK-974 1
Operation Circuit C CCK-975 1
Operation Circuit D CCK-976 1

Operation Unit
NEC-5163-F/FT

Operation Unit
Interconnection

CMD-996-F/FT 1 Incluce in Trackball

μATX Mother Board CMC-1323 1 Made from PFU
CPU Include in CMC-1323 1 Intel Pentium M1.6G
Main Memory Incluce in CMC-1323 1 512MB
ADD Card CKA-141 1
Silcon Disk Drive CDD-723 1 More than 2GB
HDD CDD-717 2 Serial ATA 80GB
USB FD Drive CDD-719 1
DVD Drive CDD-722 1
Front Panel Circuit 1 CCK-986 1
Front Panel Circuit 2 CCK-987 1
ATX Power Supply CBD-1625 1 Include in UPS Function

Contorol
Unit

USB Secrity Dongle CYC-344 1
Main Power Supply CBD-1832 1 Include in filter circuit Power

Supply

UPS Battery CBD-1831 1
RADAR Interface
Board

CDC-1338 1

RADAR Processor
Board

CDC-1339 1

Radar
Unit

ARPA Unit CDC-1186D 1
SRB1 CDJ-2373 1
GYRO I/F CMJ-462E 1 Option
Backplane
Motherboard

CQC-1219 1

Outside
I/F Unit

Outside I/F Unit
Interconnection

CFQ-5438 1

Standard Terminal
Board

CQD-2121 1

Radar Terminal
Board

CQD-2128 1

Display Unit

NDC-1445/1444

Terminal
Board
Unit

Option Terminal
Board

CQD-2130 1 Option

“*” means revision, such as A, B and so on.

1-15

*はA, Bのようにリビジョンを示す。

“*” means revision, such as A, B and so on.

μATX Mother Board

CMC-1323

H-7EUNA4001

CPU:Pentium M 1.6GHz

Main Memory:512MB

CCK-987

Front Panel Circuit 1

CQC-1219

Back Plan M/B

23.1 inch
LCD Module

H-7WSRD0002*

J413

CBD-1831

UPS

Battery

BATT

J

AC IN

BATT

24V IN

NCX-2111

External Interface Unit

W201

H-7ZCNA4061*

W202

H-7ZCNA4062*

W72

E：H-7ZCRD1329A(2m)

ET：H-7ZCRD1330A(5m)

W78
E：KC-V2(2m)
ET：KC-V5(5m)

W208

H-7ZCNA4068*

W209

Ethernet Cable

W302

H-7ZCNA4070*

External I/F Unit

CFQ-5438：W203-W207

/W209/W302/W401/W402/W403

W404
Ethernet Cable

W211

Ethernet Cable

W76

E：VM0301-VM0303B2M

ET：VM0301-VM0303B 5M

NDC-1445/1445T Processing Unit

ACINRGB

BRILL

INLETRGB

BRILL

NWZ-170-E/ET

Display Unit

23.1 inch LCD Monitor

23.1 inch LCD Cable

CML-764-E/ET

W71/W72/W76/W78

W71

H-7ZCRD1328*

W101

H-7ZCNA4027*

W102

H-7ZCNA4028*

W103

H-7ZCNA4029*

W104

H-7ZCNA4030*

W105

H-7ZCNA4031*

W106

H-7ZCNA4032*

W107

H-7ZCNA4033*

W108

H-7ZCNA4034*

Internal Control Unit

CFQ-5437：W101-

W117/W201/W202/W208

CBD-1625

ATX Power

Supply

AC

BATTP

NCM-860 Main Control Unit

W210

DVI Cable

IDE1

TK-412

USB3

USB External Cable

H-7ZCNA4078*

WA-030

CKA-141

ADD CARD

DVI

PS/2

CYC-344

USB Security

Dongle

PCI-X Slot

PCI Slot1

PCI Slot2

AGP Slot

FrontGPO

e-Token

(Option)

Video

GPIO1 GPIO2COM4

ATX

P1

IDE1

IDE2SATA1SATA2

IDE2SATA1SATA2

USB2

USB2

LAN1

LAN2

USB0 USB1 USB3

Video

IDE1

USB3

J201 J202

J206 J213J209J210 J211 J212J208

P201 P202

J207

P207

J203 J204

P7 P12

CDD-719

DVD-RAM

Drive

W113

IDE2P5

CCK-972

LCD Control

Circuit

J7101

P7101

FANALM

D-sub9

PS/2

W114

H-7ZCNA4054*

CCK-986

Front

Panel

Circuit 2

PWR RST

P101

J101

J103

P103

J102

D-sub9

COM3COM2COM1
COM3COM2COM1

NCE-5163-F/FT

Operation Unit

C：W67(2m)

H-7ZCRD1337*

CT：W68(6m)

H-7ZCRD1338*

Internal Operation Unit

CMD-996-E/ET

CCK-976

Operation

Circuit D

CCK-974

Operation

Circuit B

J6401

P6401

J6402 J6403

CCK-973

Operation

Circuit A

J6102 J6101

J6405

J6201

P6102 P6101

P6201

P6402 P6403 P6405

J6406 J6410
P6406 P6410

SPEAKER

W62

H-7ZCRD1332*

W64

H-7ZCRD1334*

W63

H-7ZCRD1333*

W65

H-7ZCRD1335*

J6404

P6404

CCK-975

Operation

Circuit C

J6301

P6301

W66

H-7ZCRD1336*

J6407 J6409 J6411J6408

CMJ-462E

GYRO I/F

(Option)

J1

P4004

CDJ-2373

SRB2

(Option)

J501

P4003

LAN1

LAN2

LAN3

LAN4

J504

CDJ-2373

SRB1

J501

P4002

LAN1

LAN2

LAN3

LAN4

J504

CMJ-519-1

AOB1(Option)

J701

J702

J721

CMJ-519-1

AOB2(Option)

P4001

CBD-1832

Power

Supply

Unit

J402

J813J812

P402

P813P812

TB811

CBD-1832

Power

Supply

Filter

J403 J411 J412

CQD-2128

Radar

Terminal

Board

J651 J653J652

P651 P653P652

W501

H-7ZCRD1510*

W502

H-7ZCRD1511*

W503

H-7ZCRD1512*

TB601 TB602 TB603 TB604 TB605

J404 J407 J408
P404 P407 P408

W401

H-7ZCNA4071*

W402

H-7ZCNA4072*

W403

H-7ZCNA4073*

CQD-2130

Option

Terminal

Board

(Option)

J901 J903J902

P901 P903P902

TB901 TB902 TB903 TB904 TB905

TB

801TB802

TB

803TB804

P403 P411 P412

CDC-1338

RIB

J601

J610

J620

J611

J621

CDC-1339

RPB

P4005

LAN1

LAN2

LAN3

LAN4

DVI Out

DVI In

RGB

DVI

J604

J603

J605

DVI

J604

J611

J621

CDC-1186D

ARPA PROCESS

W111

Serial ATA1

IDE2 W109

W112

H-7ZCNA4035*

W110

Serial ATA2

CDD-722

USB FD

Drive

USB2

CDD-717

HDD2

SATA2

P3

CDD-717

HDD1

SATA1

P2

CDD-723

F-Disk

P4

W116

CQD-2121

Standard

Terminal

Board

P301 P302P304 P305 P306 P307
J301 J302J303 J304 J305 J306 J307

J308

P4311/2

TB301 TB302 TB303 TB304 TB305

J401 J405J406J409J410
P401 P405P406P409P410

W203

H-7ZCNA4063*

W204

H-7ZCNA4064*

W205

H-7ZCNA4065*

W206

H-7ZCNA4066*

W207

H-7ZCNA4067*

P303

（Option）

Internal Operation Unit

CMD-996-F/FT

RGB

Fig 1-7 NCD-2096 System Configratin Diagram

1-16

NCE-5163-F

Operation Unit

JMA-900B Displau Unit

NDC-1445 Processin

g

Uni

t

NWZ-170-E Monitor Unit

(23.1 inch LCD Monitor)

CQD-2130

Option Terminal Board

YCBD-1832

Filter Unit

The bottom side of Processing Unit

CQD-2128

Radar Tarminal Board

1-17

Each part of NDC-1444/1445 Processing Unit

Do not touch the LAN/USB connectors directly with your hands.

Otherwise, a malfunction may occur due to electrostatic charges.

Divert electrostatic charges by touching chassis before accessing

LAN/USB connectors.

ATX Power Supply

USB FD Drive DVD Drive USB Input/Output

LCD_FAN Alarm

RGB Connector

DVI Connector

LAN Connector

Power Supply

UPS Batter

y

Standard Terminal Board

A

OB

SRB1

SRB1

NSK

ROB

2-18

2. Installation of Scanner Unit

2.1 Equipment Cable

2.1.1 H-2695110056*

This is a 14-core shielded composite calbe.

Theis cable is used to connect an NKE-1125 type scanner or an NKE-1130 type

scanner, and an NTG-3225 type transmitter-receiver or an NTG-3230 type

transmitter-receiver to the display unit.

Fig 2-1 Cross-sectional drawing of H-2695110056*

Table 2-1 H-2695110056* wire

Core (No.)

Cross Section (m

2

)

No. of wire / φ Color 　Remarks

1 0.5 19 / 0.18 Black 1 Coaxial Cable

2 0.5 19 / 0.18 Black 2 Coaxial Cable

3 0.5 19 / 0.18 Black 3 Coaxial Cable

4 0.5 19 / 0.18 Black 4 Coaxial Cable

5 5.5 35 / 0.45 Yellow

6 5.5 35 / 0.45 Green

7 5.5 35 / 0.45 Brown

8 0.3 12 / 0.18 White

9 0.3 12 / 0.18 Orange

10 2 37 / 0.26 Red

11 2 37 / 0.26 Blue

12 1.25 50 / 0.18 Black

13 1.25 50 / 0.18 Purple

14 0.5 1 / 0.18 Gray Shield wire

Twisted pair cable
with Shield sheath

Maximum diameter 23.0mm

“*” means revision, such as A, B and so on.

2-19

2.1.2 H-2695111153*

This is an 18-core shielded composite cable.

This cable is used to connect an interswitch to the display unit.

Fig 2-2 Cross-sectional drawing H-2695111153*

Table 2-2 H-2695111153* wire

Wire NO.

Cross Section (m

2

)

No. of wire / φ Color 　Remarks

A1

0.5

19 / 0.18 Black 1 Coaxial

A2

0.5

19 / 0.18 Black 2 Coaxial

B1

0.5

19 / 0.18 Blue Shield

B2

0.5

19 / 0.18 Yellow Shield

B3

0.5

19 / 0.18 Green Shield

B4

0.5

19 / 0.18 Red Shield

B5

0.5

19 / 0.18 Purple Shield

B6

0.5

19 / 0.18 Clear Shield

0.3

Blue

0.3

White

0.3

Yellow

0.3

White

D1

0.5

19 / 0.18 Brown

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

D6

0.5

19 / 0.18 SkyBlue

C1 12 / 0.18 2 Cores Shield

C2 12 / 0.18 2 Cores Shield

Maximum diameter 18.0mm

“*” means revision, such as A, B and so on.

2-20

2.1.3 Cable end processing method

Make a cable length with leeway that it is possible to do maintenance, a check,

repair works easily.

Secure a place of the house of a cable.

Remove about one meter of the oute skin, and then process the double

braided shield according to the procedures shown below.

Fig 2-3 H-2695110056* Processing of braided shield

Do the terminal-treatment of each cable by the following point.

Fig 2-4 H-2695110056* End processing of each wire

2-21

2.1.4 Connection to Terminals

A Terminal board circuit of a Display unit is no need for compressed terminal.

(Except Power Supply Cables of Scanner unit’s Motor.)

1) Turn the screw counterclockwise by Slotted screwdriver so as open the

cable inlet.

2) Insert strepped part of wire into cable inlet up to the dead end.

3) Turn the screw clockwise by Slotted serewdriver so as to tighten the cable.

4) After wiring, pull the cable lightly and confirm the cable is surelytightened.

2.5mm

Proper Slotted Screwdriver

Insert the cable until bumping.

Pull the cable lighty and confirm the

cable is surely tightened.

Turn the screw counterclockwise by a Slottec

screwdriver so as to open the cable inlet

Turn the screw clockwise by the Soltted

screwdriver so as to tighten the cable.

2-22

2.2 Installation of Scanner Unit

2.2.1 NKE-1125 Type Scanner

2-23

2-24

2.2.2 NKE-1129 Type Scanner

2-25

2-26

2.2.3 NKE-1130 Type Scanner

2-27

2-28

2.2.4 NKE-1139 Type Scanner

2-29

2-30

2.3 Installation of Tranceiver Unit

2.3.1 NTG-3225 Type Tranceiver

2-31

2-32

2.3.2 NTG-3230 Type Tranceiver

2-33

2-34

2.4 Precautions

2.4.1 Insatallation of Scanner Unit

1) Precautions for transporting and storing the scanner

・ An scanner is a heavy load. Be very careful about handling it.
・ Do not allow the scanner fall on its side while it is stred or being installed.
・ Do not apply rope to the scanner in the way that squeezes or deforms

theradiating section.

・ When hoisting the scanner by a crane, do not hoist it by attaching a belt

orrope only to the scanner’s radiating section as shown in Fig 2-5.

・ For the S-band must put and lift up the belt and the rope to eyebolt four

places for lifting up that is attached to the chassis (Fig 2-6).

Use suitable rope in length so that the distance from the crane’s hook to

the hoisting eyebolts will be over 2.5m.

Use the protector attached on the radiator before delivery, an additional

protector shuld be not used.(Because excessive protector causes damage

to the radiator’s redome)

After installation of the scanner, remove the protector from the radiator.

If the rope is attached to the scanner’s support section located at the

bottom of the radiating section, a load is imposed to the joint between the

radiator and the chassis. Work according to above mentioned method.

・ For the X-band, wrap a cloth around the scanner's support section located

at the bottom of the radiating section, and then attach a belt or rope to it to

hoist the scanner (Fig 2-7)

Fig 2-5 Improper way to hoist

2-35

Fig 2-6 S-Band

Fig 2-7 X-Band

2) Insatllation 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, or

make adjustments by inserting metal shims. If a gap exists and the

scanner is tightly clamped, the chassis will distort and become damaged by

vibration.

b) Avoid using vibration-proofrubbe and resin

• 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.

The cloth etc. is rolled.

Top View Side View

Attach a rope to four

hoistin

g ey

ebolts

Protector should be located between the rope and the radiator

(Protector is attached on the radiator before delivery)

Over 2.5m

Hook

Rope

Scanner's support section

（Do not use here for hoisting）

2-36

3) Installation and clamping method

a) Installation direction

• Installation should be done so that the cable gland is oriented toward the

stern.

b) Bolts, unts 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 2-3).

• 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.

Tabl e 2 - 3 Length of scanner mounting bolts and tightening torque

Thickness of Mount

Base(mm)

Bolt

Torque

(N-m)

S-band 19 M12×65(mm) SUS304 65

X-band 12 M10×55(mm) SUS304 40

2-37

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 2-8).

• 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 (Fig2-8).

Fig 2-5 Use of washer and corrosion-resistant measures

2-38

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 2-9).

Fig 2-6 Grounding and corrosion-resistant measures

2-39

2.4.2 Routing Coaxial Cable and Flexible Waveguide

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 2-10 , between the transmitter-receiver and the

scanner for the S-band, and use a Flexible waveguide, shown in Fig 2-11, for the X-band.

1) Protecting coaxial cable and flexible waveguide

• Since cables and waveguides are hollow inside, when mounting them by

using electric wire bands, try not to fasten the bands too tightly around the

cables and waveguides. 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.2-7 Coaxial cable Fig.2-8 Flexible waveguide

• Stabilize the coaxial cable and the flexible waveguide 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

waveguide.

2-40

2) Preventing the connecttng portion from becoming detahed due to

vibration

• Keep the connecting portion between the coaxial cable and the flexible

waveguide and the scanner's chassis, and provide supporting members, as

shown in Fig 2-12 and Fig 2-13, 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 2-9 Positon of S-band supporting member

Waveguide Clamp

Scanner terminal

Fig 2-10 Position of X-band supporting member

* For the cable end processing, refer to the procedure manual which comes with the

cable.

2-41

2.4.3 Scanner Installation Position

1) Physical selection criteria

• Install the scanner at the center of the mast on the keel line.

• If the scanner cannot be installed at the above position for some reason, the

amount of deviation must be minimized. And, reinforce the mount base and

the platform and take precautions to protect the scanner from vibration and

impact at the installation position.

• To avoid the radiating section coming in contact with other installed objects

while it is rotating, ensure that there is at least 200 millimeters from the swing

circle (turning radius) to other installed objects (Fig 2-14). The swing circle of

the JMA-900B radar's scanner is as shown in Table 2-3.

min-height

必要最小高さ

min-offset

オフセット最小

Over 200m
200m 以上

reinforcing member

補強材

Fig 2-11 Installation of scanner

2-42

Table 2-3 Swing circle

Scanner unit (length) Swing circle

NKE-1125-6 (6 feet) 1910mm

NKE-1129-7 (7 feet) 2270mm

NKE-1125-9 (9 feet)

NKE-1129-9 (9 feet)

2825mm

NKE-1130/1139 (12 feet） 4000mm

• Avoid having a rope or signal flag from winding around the radiating section

thereby preventing it from rotating.

• Avoid the effects of dust and heat caused by smoke from a chimney.

• When determining the appropriate scanner height and installation location,

take into consideration the reduction of vibration, the strength of the hull and

the scanner mount base, and maintenance properties.

• Provide for maintenance space: platform, safety link, hand rail, steps, etc.

2-43

2) Electrical selection criteria

• The installation height of the scanner relates to the maximum detection

distance. The higher is better. However, if it is too high, radio wave energy

greatly attenuates above the scanner's vertical beam width (the point -3dB

from the peak of the main lobe). As a result, it is difficult to detect a close-in

target. Sea clutter also increases. Determine the installation height by

taking into consideration the weight, maximum length of the cable, and

maintenance after installation.

• If the installation height of the scanner is low, it is difficult to detect a long

distance target. The ship's mast, derrick, and chimney interfere with

radiating beam causing the range that cannot be viewed on the radar display

to increase.

• Generally, the lowest scanner installation position is supposed to be on the

A-B line shown in Fig 2-15.

In the case of the JMA-922B/923B type radar, 2θ equals 20°.

In the case of the JMA-932B/933B type radar, 2θ equals 25°.

Specifically, the scanner position is normally elevated so that the chimney and

the shrine-gate type mast do not interfere with radiating beam.

Fig 2-12 Lowest scanner installation height

JMA-922B / 923B ：θ=10°
JMA-932 B/ 933B ：θ=12.5°

A

B

θ

2-44

• If it is considered that sufficient installation height cannot be provided when

the scanner is installed directly on the roof of the wheelhouse, use a mounting

rack or radar mast (Fig 2-16). Normally, when the scanner installation height

is less than 2 meters from the roof of the wheelhouse, provide a mounting

rack assembled at an angle frame to install the scanner. When the scanner

installation height is 2 meters or higher from the roof of the wheelhouse,

provide a cylindrical radar mast to install the scanner. Consider the

convenience of the service staff who takes care of installation, maintenance,

adjustment, and repair of the scanner by providing adequate footholds to the

mounting rack and the radar mast.

Fig 2-13 Mounting rack and mast fr the scanner

• When installing the scanner, select a location where there are the fewest

structural objects in the surrounding area so that false images which interfere

with target detection will not be generated by signal reflection from other

scanners, deck structures, and cargo. As a guide, note that structural objects

should not exist within the range of the vertical beam width (Fig 2-14).

Vertical beam width of X-band: Approx. 20° (±10.0° when the height of the

radiating section is 0°)

Vertical beam width of S-band: Approx. 25° (±12.5° when the height of the

radiating section is 0°)

Fig 2-14 Scanner and the surrounding structural objects

ビーム幅

Beam width

Installti

on

height

Installti

on

height

2-45

When installing two scanners, provide a height difference so that those two scanners do not

enter each other's vertical beam width range.

• To avoid interference with other equipment and to prevent radio noise from

generating, do not place the VHF antenna, GPS antenna, and INMARSAT's

dome within the range of the vertical beam width.

• Keep a record of installation height data. The data is necessary for the initial

setting of the display unit.

• Minimize the blind sector, and ensure the adequate view angle so that the blind

sector does not exist in the range 22.5° from side to rear (Fig 2-15). Specifically,

ensure a sufficient view field in the straight front (relative bearing 000°).

Fig 2-15 Ensuring view angle

• Magnetron which has strong magnetic force is included in the scanner. Install

the scanner at least 3 meters away from nautical instruments including magnetic

compasses and chronometers.

Make no blind sector

2-46

* If there is a concern that structural objects existing within the vertical beam width

may generate false images, equip the structural objects with a radio wave

absorber. (There are two types of absorbers: broadband type having no

specific resonant frequency and narrowband type which can absorb a band with

a specific frequency. Use those where applicable.) Furthermore, it is effective

to install a metal reflector, which reflects radio waves upwardly, between the

scanner and a structural object so that the radar's radio wave will not directly

come in contact with the structural object.

Note:

Because most radio wave absorbers have poor durability, some must be

replaced every year. When installing a reflector, the area to the rear of the

reflector becomes a blind sector. Therefore, minimize the size of the

reflector.

* The above procedures for selecting the scanner installation position are described based

on the radar's scanner. Comprehensively select the scanner position by considering

other scanners' installation procedure manual, hull's structure, strength of the selected

position, and vibration.

2.4.4 Confirmation during Test Run

If the scanner vibrates a lot during test run, try to reduce or prevent vibration by

reinforcing the scanner mount base or using wire stays attached to the radar mast.

3-1

3. Installation of Display Unit

3.1 Installation of Display Unit

Setting the display unit

Determine the installation location of the display unit by considering following conditions:

(1) Consider and install the installation size to be specified at the outline drawing of in the place

for which it is possible to insert a cable from the installation and the base of the bolt.

(2) Do not place obstructions around the front side of the unit so that a user can eject a DVD/FD

and USB.

(3) To decrease an influence over the magnetic compass, separate from the compass by more

than 1.6m at least.

(4) Eliminating the interference on frequencies used for marine communications and navigation

due to operation of the radar. All cables of the radar are to be run away from the cable of radof

radio equipment. (ex. Radiotelephone, communications receiver and direction finder. Etc…)

Especially inter-wiring cables between scanner unit and display unit of the radar should not be

run parallel with the calbe of radio equipment.

(5) Install the monitor unit so that when the user is looking ahead, the lookout view is not

obscured.

(6) Away from spray of seawater or rainwater from windows or doors of bridge.

(7) Don't install near the equipment which generates the place, and the heat which gets the direct

sunlight.

(8) Establish a next-page, considering an equipped position to the reference.

When there are other equipment and a wall on either side, in the surface and the back, it is

convenient in maintenance, check when making wiring for the equipment be lax to the style

which it is possible to draw out in front of the processing part beforehand.

3-2

Fig 3-1 NCD-2096

3-3

Fig 3-2 NWZ-170-ET

3-4

Fig 3-3 NDC-1444

3-5

Fig 3-4 NCE-5163-FT

3-6

3.2 Installing Power Cable

Before installing the power cable, make sure to turn off the braker of the main power

line. Otherwise, an electric shock or a malfunction may occur.

3.2.1 Input Voltage Specification

Voltage: AC100/220V(±10%)

Frequency: 50Hz / 60Hz

Phase: Single

Power consumption (Change with the connecting scanner):

JMA-933B-SA, JMA-932B-SA:

Approx. 600VA In maximum wind velocity 2200VA

JMA-923B-7XA/6XA, JMA-922B-9XA/6XA:

Approx. 550VA In maximum wind velocity 1900VA

3.2.2 Connecting Power Cable

1) Remove 4 screws of the front cover of Display unit.

Remove 4 screws

3-7

2) Confirm that the braker of the main power is turned off, and then connect the power cable to TB801 U

and V on the Filter Unit.

Note:

The input powr supply of Display Unit changes by Model of connected Scanner Unit.

Confirm the Model of Scanner Unit and input power supply of Display Unit.

Radar Model

Scanner Unit Model of

AC100-115V

Scanner Unit Model of

AC220-240V

JMA-933B-SA NKE-1139-1 NKE-1139-2

JMA-932B-SA NKE-1130-1 NKE-1130-2

JMA-923B-7XA NKE-1129-71 NKE-1129-72

JMA-923B-9XA NKE-1129-91 NKE-1129-92

JMA-922B-6XA NKE-1125-61 NKE-1125-62

JMA-922B-9XA NKE-1125-91 NKE-1125-92

WV

U

YCBD-1832 Filter Unit

TB801

AC Power Line

－

＋

TB802

DC Power Line

3-8

3.3 Connections with Scanner and Transceiver

Connect the device to TB602/TB605 of Radar terminal board circuit CQD-2128 located in

display unit (processing unit).

Connect the device to AC OUT of Power supply located in display unit (Processing unit).

For the procedure for processing the equipment cable terminal, see Section 2.1.2.

SVD1 1

SVD1E 2

STIY1 3

STIY1E 4

SBP1 5

SBP1E 6

SBZ1 7

SBZ1E 8
ARPATX+ 9
ARPATX- 10

SVD2 11

SVD2E 12

STIY2 13

STIY2E 14

SBP2 15

SBP2E 16

SBZ2 17

SBZ2E 18

JARPATX+ 19
JARPATX- 20

VD+ 1

VD- 2
TRIG+ 3
TRIG- 4

BP+ 5

BP- 6

BZ+ 7

BZ- 8
MTR+ 9
MTR- 10
MTRE 11
RBVD 12

RBVDE 13
RBTRIG 14
MTRIN+ 15
MTRIN- 16
MTRINE 17

MTROUT+ 18
MTROUT- 19
MTROUTE 20

VDOUT 1
VDOUTE 2
TRIGOUT 3

TRIGOUTE 4

BPOUT 5
BPOUTE 6

BZOUT 7
BZOUTE 8
PWROUT 9

PWROUTE 10

11
12
13
14
15
16
17
18
19
20

VDIN

VDINE

TRIGIN
TRIGINE

BPIN

BPINE

BZIN

BZINE
PWRIN
PWRINE

ALMRX+ 1
ALMRX- 2
ALMTX+ 3
ALMTX- 4

MNT+ 5
MNT- 6

NO/NC 7

COM 8

NO/NC 9

COM 10

11
12
13
14
15
16
17
18
19
20

NO/NC

COM

NO/NC

COM
ACKIN+
ACKIN­ACKIN1+
ACKIN1­ACKIN2+
ACKIN2-

+12V

+48VG

+48VG

+48V

+48V

1/R1
2/S1
3/S2

S3

5/R2

N.C.
P+ 200P
P- 200P

N.C.
S LOG+
S LOG-

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

ARPA1 RX+
ARPA1 RX­ARPA2 RX+
ARPA2 RX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
ACK IN+
ACK IN-

IN+

IN­ACK IN+
ACK IN-

NAV1 RX+
NAV1 RX-

NAV1 TX+

NAV1 TX­NAV2 RX+
NAV2 RX­GYRO RX+
GYRO RX-

AIS RX+
AIS RX­AIS TX+

AIS TX­D LOG RX+
D LOG RX­DEPTH RX+
DEPTH RX-

NAVTEX RX+
NAVTEX RX­NAVTEX TX+
NAVTEX TX-

A/P RX+

A/P RX-

A/P TX+

A/P TX-

CONNING OUT RX+

CONNING OUT RX-

CONNING OUT TX+

CONNING OUT TX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO

WMRST OUT+
WMRST OUT-

IN+
IN­IN+
IN-

TB601 TB602 TB603 TB604

TB605

TB302

TB301

TB303

TB305

TB304

SLAVE1SLAVE2

ANTISW

ISW

RADAR

NSKRADAR1RADAR2

SYS

ALM

OP

CONTACT

OP

CONTACT

PWR ALMSYSPWR

CONTACT1CONTACT2CONTACT3CONTACT4CONTACT5CONTACT6ACK OUT

CONTACT1

CONTACT2

RADAR

RADAR

ARPA

RADAR

CONTACT3

RADAR

CONTACT2

RADAR

CONTACT1

RADAR

ARPAALM

AC OUT 1

U WV

1

2

3

4

ORG
WHT

YEL-YEL

YEL-WHT

BLU-BLU
BLU-WHT

1

2

BLU

YEL

GRN

ORG
BLK

RED

PUR

WHT

PNK
BRN

RED

BLU

GRN

YEL

RADAR

(Interswitch)

No.1 ECDIS

GYRO

LOG

DISPLAY UNIT NCD-2096

DGPS

ECHO

SOUNDER

GYRO

(NMEA0183)

AIS

LOG

(NMEA0183)

DIPTH

H-2695111153

(JRC Supply)

H-2695110006

(JRC Supply)

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-4

250V-TTYCS-1

250V-TTYCS-1

0.6/1kV-DPYCY5-1.5

250V-MPYCY5-7

19-CORES COMPOSITE CABLE

(JRC SUPPLY)

H-2695110056

U WV

B+

B-

BLK

WHT

SHIP'S MAINS

AC100-115V/AC220-240V 50/60Hz 1φ

0.6/1kV-DPYCY-6

No.2 ECDIS

H-2695110006

(JRC Supply)

250V-TTYCS-1

ALARM SYSTEM

0.6/1kV-TPYC-1.5

SHIP'S MAINS FOR
POWER FAIL ALARM

DC24V (BATTERY) 0.1A

TB601 TB602 TB603 TB604

TB801

TB802

BLK

RED

WHT

BLK

RED

WHT

CQD-2128
Radar Terminal Circuit

CQD-2121
Standard Terminal Circuit

CBD-1831
Main Power Supply

CBD-1831
Main Power Supply
(Filter Circuit)

Confirm the Model of Scanner Unit and input power supply of Display Unit.

Radar Model

Scanner Unit Model of

AC100-115V

Scanner Unit Model of

AC220-240V

JMA-933B-SA NKE-1139-1 NKE-1139-2

JMA-932B-SA NKE-1130-1 NKE-1130-2

JMA-923B-7XA NKE-1129-71 NKE-1129-72

JMA-923B-9XA NKE-1129-91 NKE-1129-92

JMA-922B-6XA NKE-1125-61 NKE-1125-62

JMA-922B-9XA NKE-1125-91 NKE-1125-92

3-9

3.4 Connection with GPS

Connect the device to TB305(NAV1 RX+、NAV1 RX-) of standard terminal board

circuit CQD-2121 location in the display unit (processing unit).

SVD1 1

SVD1E 2

STIY1 3

STIY1E 4

SBP1 5

SBP1E 6

SBZ1 7

SBZ1E 8
ARPATX+ 9
ARPATX- 10

SVD2 11

SVD2E 12

STIY2 13

STIY2E 14

SBP2 15

SBP2E 16

SBZ2 17

SBZ2E 18

JARPATX+ 19
JARPATX- 20

VD+ 1

VD- 2
TRIG+ 3
TRIG- 4

BP+ 5

BP- 6

BZ+ 7

BZ- 8
MTR+ 9
MTR- 10
MTRE 11
RBVD 12

RBVDE 13
RBTRIG 14
MTRIN+ 15
MTRIN- 16
MTRINE 17

MTROUT+ 18
MTROUT- 19
MTROUTE 20

VDOUT 1

VDOUTE 2

TRIGOUT 3

TRIGOUTE 4

BPOUT 5

BPOUTE 6

BZOUT 7
BZOUTE 8
PWROUT 9

PWROUTE 10

11
12
13
14
15
16
17
18
19
20

VDIN

VDINE

TRIGIN
TRIGINE

BPIN

BPINE

BZIN

BZINE
PWRIN
PWRINE

ALMRX+ 1
ALMRX- 2
ALMTX+ 3
ALMTX- 4

MNT+ 5
MNT- 6

NO/NC 7

COM 8

NO/NC 9

COM 10

11
12
13
14
15
16
17
18
19
20

NO/NC

COM

NO/NC

COM
ACKIN+
ACKIN­ACKIN1+
ACKIN1­ACKIN2+
ACKIN2-

+12V

+48VG

+48VG

+48V

+48V

1/R1
2/S1
3/S2

S3

5/R2

N.C.
P+ 200P
P- 200P

N.C.
S LOG+
S LOG-

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

ARPA1 RX+
ARPA1 RX­ARPA2 RX+
ARPA2 RX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
ACK IN+
ACK IN-

IN+

IN­ACK IN+
ACK IN-

NAV1 RX+
NAV1 RX-

NAV1 TX+

NAV1 TX­NAV2 RX+
NAV2 RX­GYRO RX+
GYRO RX-

AIS RX+
AIS RX­AIS TX+

AIS TX­D LOG RX+
D LOG RX­DEPTH RX+
DEPTH RX-

NAVTEX RX+
NAVTEX RX­NAVTEX TX+
NAVTEX TX-

A/P RX+

A/P RX-

A/P TX+

A/P TX-

CONNING OUT RX+

CONNING OUT RX-

CONNING OUT TX+

CONNING OUT TX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO

WMRST OUT+
WMRST OUT-

IN+
IN­IN+
IN-

TB601 TB602 TB603 TB604

TB605

TB302

TB301

TB303

TB305

TB304

SLAVE1SLAVE2

ANTISW

ISW

RADAR

NSKRADAR1RADAR2

SYS

ALM

OP

CONTACT

OP

CONTACT

PWR ALMSYSPWR

CONTACT1CONTACT2CONTACT3CONTACT4CONTACT5CONTACT6ACK OUT

CONTACT1

CONTACT2

RADAR

RADAR

ARPA

RADAR

CONTACT3

RADAR

CONTACT2

RADAR

CONTACT1

RADAR

ARPAALM

AC OUT 1

U WV

1

2

3

4

ORG
WHT

YEL-YEL

YEL-WHT

BLU-BLU
BLU-WHT

1

2

BLU

YEL

GRN

ORG
BLK

RED

PUR

WHT

PNK
BRN

RED

BLU

GRN

YEL

RADAR

(Interswitch)

No.1 ECDIS

GYRO

LOG

DISPLAY UNIT NCD-2096

DGPS

ECHO

SOUNDER

GYRO

(NMEA0183)

AIS

LOG

(NMEA0183)

DIPTH

H-2695111153

(JRC Supply)

H-2695110006

(JRC Supply)

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-4

250V-TTYCS-1

250V-TTYCS-1

0.6/1kV-DPYCY5-1.5

250V-MPYCY5-7

19-CORES COMPOSITE CABLE

(JRC SUPPLY)

H-2695110056

U WV

B+

B-

BLK

WHT

SHIP'S MAINS

AC100-115V/AC220-240V 50/60Hz 1φ

0.6/1kV-DPYCY-6

No.2 ECDIS

H-2695110006

(JRC Supply)

250V-TTYCS-1

ALARM SYSTEM

0.6/1kV-TPYC-1.5

SHIP'S MAINS FOR
POWER FAIL ALARM

DC24V (BATTERY) 0.1A

TB601 TB602 TB603 TB604

TB801

TB802

BLK

RED

WHT

BLK

RED

WHT

CQD-2128
Radar Terminal Circuit

CQD-2121
Standard Terminal Circuit

CBD-1831
Main Power Supply

CBD-1831
Main Power Supply
(Filter Circuit)

3-10

3.5 Connection with Vessel Speed Unit (2-AXIS

LOG)

Connect the vessel speed unit to TB303(DLOG RX+、DLOG RX-) of standard

terminal board circuit CQD-2121 located in the display unit (processing unit).

SVD1 1

SVD1E 2

STIY1 3

STIY1E 4

SBP1 5

SBP1E 6

SBZ1 7

SBZ1E 8
ARPATX+ 9
ARPATX- 10

SVD2 11

SVD2E 12

STIY2 13

STIY2E 14

SBP2 15

SBP2E 16

SBZ2 17

SBZ2E 18

JARPATX+ 19
JARPATX- 20

VD+ 1

VD- 2
TRIG+ 3
TRIG- 4

BP+ 5

BP- 6

BZ+ 7

BZ- 8
MTR+ 9
MTR- 10
MTRE 11
RBVD 12

RBVDE 13
RBTRIG 14
MTRIN+ 15
MTRIN- 16
MTRINE 17

MTROUT+ 18
MTROUT- 19
MTROUTE 20

VDOUT 1

VDOUTE 2

TRIGOUT 3

TRIGOUTE 4

BPOUT 5

BPOUTE 6

BZOUT 7
BZOUTE 8
PWROUT 9

PWROUTE 10

11
12
13
14
15
16
17
18
19
20

VDIN

VDINE

TRIGIN
TRIGINE

BPIN

BPINE

BZIN

BZINE
PWRIN
PWRINE

ALMRX+ 1
ALMRX- 2
ALMTX+ 3
ALMTX- 4

MNT+ 5
MNT- 6

NO/NC 7

COM 8

NO/NC 9

COM 10

11
12
13
14
15
16
17
18
19
20

NO/NC

COM

NO/NC

COM
ACKIN+
ACKIN­ACKIN1+
ACKIN1­ACKIN2+
ACKIN2-

+12V

+48VG

+48VG

+48V

+48V

1/R1
2/S1
3/S2

S3

5/R2

N.C.
P+ 200P
P- 200P

N.C.
S LOG+
S LOG-

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

ARPA1 RX+
ARPA1 RX­ARPA2 RX+
ARPA2 RX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
ACK IN+
ACK IN-

IN+

IN­ACK IN+
ACK IN-

NAV1 RX+
NAV1 RX-

NAV1 TX+

NAV1 TX­NAV2 RX+
NAV2 RX­GYRO RX+
GYRO RX-

AIS RX+
AIS RX­AIS TX+

AIS TX­D LOG RX+
D LOG RX­DEPTH RX+
DEPTH RX-

NAVTEX RX+
NAVTEX RX­NAVTEX TX+
NAVTEX TX-

A/P RX+

A/P RX-

A/P TX+

A/P TX-

CONNING OUT RX+

CONNING OUT RX-

CONNING OUT TX+

CONNING OUT TX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO

WMRST OUT+
WMRST OUT-

IN+
IN­IN+
IN-

TB601 TB602 TB603 TB604

TB605

TB302

TB301

TB303

TB305

TB304

SLAVE1SLAVE2

ANTISW

ISW

RADAR

NSKRADAR1RADAR2

SYS

ALM

OP

CONTACT

OP

CONTACT

PWR ALMSYSPWR

CONTACT1CONTACT2CONTACT3CONTACT4CONTACT5CONTACT6ACK OUT

CONTACT1

CONTACT2

RADAR

RADAR

ARPA

RADAR

CONTACT3

RADAR

CONTACT2

RADAR

CONTACT1

RADAR

ARPAALM

AC OUT 1

U WV

1

2

3

4

ORG
WHT

YEL-YEL

YEL-WHT

BLU-BLU
BLU-WHT

1

2

BLU

YEL

GRN

ORG
BLK

RED

PUR

WHT

PNK
BRN

RED

BLU

GRN

YEL

RADAR

(Interswitch)

No.1 ECDIS

GYRO

LOG

DISPLAY UNIT NCD-2096

DGPS

ECHO

SOUNDER

GYRO

(NMEA0183)

AIS

LOG

(NMEA0183)

DIPTH

H-2695111153

(JRC Supply)

H-2695110006

(JRC Supply)

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-4

250V-TTYCS-1

250V-TTYCS-1

0.6/1kV-DPYCY5-1.5

250V-MPYCY5-7

19-CORES COMPOSITE CABLE

(JRC SUPPLY)

H-2695110056

U WV

B+

B-

BLK

WHT

SHIP'S MAINS

AC100-115V/AC220-240V 50/60Hz 1φ

0.6/1kV-DPYCY-6

No.2 ECDIS

H-2695110006

(JRC Supply)

250V-TTYCS-1

ALARM SYSTEM

0.6/1kV-TPYC-1.5

SHIP'S MAINS FOR
POWER FAIL ALARM

DC24V (BATTERY) 0.1A

TB601 TB602 TB603 TB604

TB801

TB802

BLK

RED

WHT

BLK

RED

WHT

CQD-2128
Radar Terminal Circuit

CQD-2121
Standard Terminal Circuit

CBD-1831
Main Power Supply

CBD-1831
Main Power Supply
(Filter Circuit)

3-11

3.6 Connections with GYRO and Electormagnetic

LOG

The GYRO signal should be connected to TB302 of standart terminal board circuit

CQD-2121 in the display unit (processing unit).

Connect synchro-type GYROs to R1, S1, S2, S3, and R2, and connect step-type

GYROs to 1, 2, 3, and 5 (COMMON for 5).

Connect a gyro equipment or equivalent that provided a below turn rate, otherwise

the performance of signal process and target tracking decrese.
Standard craft 12°/sec
High speed craft 20°/sec

The pulse-type log signal should be connected to TB302 (P+, P-) of standard

terminal board circuit CQD-2121 locatied in display unit (processing unit). The

syncro-type log signal shoud be connected to (S1+, S1-) of TB302 as well.

3-12

SVD1 1

SVD1E 2

STIY1 3

STIY1E 4

SBP1 5

SBP1E 6

SBZ1 7

SBZ1E 8
ARPATX+ 9
ARPATX- 10

SVD2 11

SVD2E 12

STIY2 13

STIY2E 14

SBP2 15

SBP2E 16

SBZ2 17

SBZ2E 18

JARPATX+ 19
JARPATX- 20

VD+ 1

VD- 2
TRIG+ 3
TRIG- 4

BP+ 5

BP- 6

BZ+ 7

BZ- 8
MTR+ 9
MTR- 10
MTRE 11
RBVD 12

RBVDE 13
RBTRIG 14
MTRIN+ 15
MTRIN- 16
MTRINE 17

MTROUT+ 18
MTROUT- 19
MTROUTE 20

VDOUT 1

VDOUTE 2

TRIGOUT 3

TRIGOUTE 4

BPOUT 5

BPOUTE 6

BZOUT 7
BZOUTE 8
PWROUT 9

PWROUTE 10

11
12
13
14
15
16
17
18
19
20

VDIN

VDINE

TRIGIN
TRIGINE

BPIN

BPINE

BZIN

BZINE
PWRIN
PWRINE

ALMRX+ 1
ALMRX- 2
ALMTX+ 3
ALMTX- 4

MNT+ 5
MNT- 6

NO/NC 7

COM 8

NO/NC 9

COM 10

11
12
13
14
15
16
17
18
19
20

NO/NC

COM

NO/NC

COM
ACKIN+
ACKIN­ACKIN1+
ACKIN1­ACKIN2+
ACKIN2-

+12V

+48VG

+48VG

+48V

+48V

1/R1
2/S1
3/S2

S3

5/R2

N.C.
P+ 200P
P- 200P

N.C.
S LOG+
S LOG-

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

ARPA1 RX+
ARPA1 RX­ARPA2 RX+
ARPA2 RX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
ACK IN+
ACK IN-

IN+

IN­ACK IN+
ACK IN-

NAV1 RX+
NAV1 RX-

NAV1 TX+

NAV1 TX­NAV2 RX+
NAV2 RX­GYRO RX+
GYRO RX-

AIS RX+
AIS RX­AIS TX+

AIS TX­D LOG RX+
D LOG RX­DEPTH RX+
DEPTH RX-

NAVTEX RX+
NAVTEX RX­NAVTEX TX+
NAVTEX TX-

A/P RX+

A/P RX-

A/P TX+

A/P TX-

CONNING OUT RX+

CONNING OUT RX-

CONNING OUT TX+

CONNING OUT TX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO

WMRST OUT+
WMRST OUT-

IN+
IN­IN+
IN-

TB601 TB602 TB603 TB604

TB605

TB302

TB301

TB303

TB305

TB304

SLAVE1SLAVE2

ANTISW

ISW

RADAR

NSKRADAR1RADAR2

SYS

ALM

OP

CONTACT

OP

CONTACT

PWR ALMSYSPWR

CONTACT1CONTACT2CONTACT3CONTACT4CONTACT5CONTACT6ACK OUT

CONTACT1

CONTACT2

RADAR

RADAR

ARPA

RADAR

CONTACT3

RADAR

CONTACT2

RADAR

CONTACT1

RADAR

ARPAALM

AC OUT 1

U WV

1

2

3

4

ORG
WHT

YEL-YEL

YEL-WHT

BLU-BLU
BLU-WHT

1

2

BLU

YEL

GRN

ORG
BLK

RED

PUR

WHT

PNK
BRN

RED

BLU

GRN

YEL

RADAR

(Interswitch)

No.1 ECDIS

GYRO

LOG

DISPLAY UNIT NCD-2096

DGPS

ECHO

SOUNDER

GYRO

(NMEA0183)

AIS

LOG

(NMEA0183)

DIPTH

H-2695111153

(JRC Supply)

H-2695110006

(JRC Supply)

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-4

250V-TTYCS-1

250V-TTYCS-1

0.6/1kV-DPYCY5-1.5

250V-MPYCY5-7

19-CORES COMPOSITE CABLE

(JRC SUPPLY)

H-2695110056

U WV

B+

B-

BLK

WHT

SHIP'S MAINS

AC100-115V/AC220-240V 50/60Hz 1φ

0.6/1kV-DPYCY-6

No.2 ECDIS

H-2695110006

(JRC Supply)

250V-TTYCS-1

ALARM SYSTEM

0.6/1kV-TPYC-1.5

SHIP'S MAINS FOR
POWER FAIL ALARM

DC24V (BATTERY) 0.1A

TB601 TB602 TB603 TB604

TB801

TB802

BLK

RED

WHT

BLK

RED

WHT

CQD-2128
Radar Terminal Circuit

CQD-2121
Standard Terminal Circuit

CBD-1831
Main Power Supply

CBD-1831
Main Power Supply
(Filter Circuit)

3-13

3.7 Connection with GYRO (IEC61162-1/2)

The HDT sentence and THS sentence of IEC-61162-1/2 can be received.

The baud reat conforms to 4800/9600/19200/38400bps.

Connection shoud be made to TB305 (GYRO RX+, GYRO RX-) of standard

terminal board circuit CQD-2121 located in the display unit (processing unit).

The gyro interface circuit should be set at NMEA input. It is necessary to check

specifications of the signal outputted from the heading sensor and make correct settings by

referring to Section.

The true bearing update frequency greatly influences

the radar signal processing performance and the target

tracking performance. It is recommended that the

signal output from the heading sensor be updated

within time intervals of 50 ms or less. The maximum

update time interval recognized by this radar is

approximately 60 ms. If update is executed at an

interval that is longer than that interval, the "GYRO

I/F(GYRO)" alarm is displayed on the radar screen.

The received bearing data is not accepted.

Precaution

3-14

SVD1 1

SVD1E 2

STIY1 3

STIY1E 4

SBP1 5

SBP1E 6

SBZ1 7

SBZ1E 8
ARPATX+ 9
ARPATX- 10

SVD2 11

SVD2E 12

STIY2 13

STIY2E 14

SBP2 15

SBP2E 16

SBZ2 17

SBZ2E 18

JARPATX+ 19
JARPATX- 20

VD+ 1

VD- 2
TRIG+ 3
TRIG- 4

BP+ 5

BP- 6

BZ+ 7

BZ- 8
MTR+ 9
MTR- 10
MTRE 11
RBVD 12

RBVDE 13
RBTRIG 14
MTRIN+ 15
MTRIN- 16
MTRINE 17

MTROUT+ 18
MTROUT- 19
MTROUTE 20

VDOUT 1

VDOUTE 2

TRIGOUT 3

TRIGOUTE 4

BPOUT 5

BPOUTE 6

BZOUT 7
BZOUTE 8
PWROUT 9

PWROUTE 10

11
12
13
14
15
16
17
18
19
20

VDIN

VDINE

TRIGIN
TRIGINE

BPIN

BPINE

BZIN

BZINE
PWRIN
PWRINE

ALMRX+ 1
ALMRX- 2
ALMTX+ 3
ALMTX- 4

MNT+ 5
MNT- 6

NO/NC 7

COM 8

NO/NC 9

COM 10

11
12
13
14
15
16
17
18
19
20

NO/NC

COM

NO/NC

COM
ACKIN+
ACKIN­ACKIN1+
ACKIN1­ACKIN2+
ACKIN2-

+12V

+48VG

+48VG

+48V

+48V

1/R1
2/S1
3/S2

S3

5/R2

N.C.
P+ 200P
P- 200P

N.C.
S LOG+
S LOG-

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

ARPA1 RX+
ARPA1 RX­ARPA2 RX+
ARPA2 RX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
ACK IN+
ACK IN-

IN+

IN­ACK IN+
ACK IN-

NAV1 RX+
NAV1 RX-

NAV1 TX+

NAV1 TX­NAV2 RX+
NAV2 RX­GYRO RX+
GYRO RX-

AIS RX+
AIS RX­AIS TX+

AIS TX­D LOG RX+
D LOG RX­DEPTH RX+
DEPTH RX-

NAVTEX RX+
NAVTEX RX­NAVTEX TX+
NAVTEX TX-

A/P RX+

A/P RX-

A/P TX+

A/P TX-

CONNING OUT RX+

CONNING OUT RX-

CONNING OUT TX+

CONNING OUT TX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO

WMRST OUT+
WMRST OUT-

IN+
IN­IN+
IN-

TB601 TB602 TB603 TB604

TB605

TB302

TB301

TB303

TB305

TB304

SLAVE1SLAVE2

ANTISW

ISW

RADAR

NSKRADAR1RADAR2

SYS

ALM

OP

CONTACT

OP

CONTACT

PWR ALMSYSPWR

CONTACT1CONTACT2CONTACT3CONTACT4CONTACT5CONTACT6ACK OUT

CONTACT1

CONTACT2

RADAR

RADAR

ARPA

RADAR

CONTACT3

RADAR

CONTACT2

RADAR

CONTACT1

RADAR

ARPAALM

AC OUT 1

U WV

1

2

3

4

ORG
WHT

YEL-YEL

YEL-WHT

BLU-BLU
BLU-WHT

1

2

BLU

YEL

GRN

ORG
BLK

RED

PUR

WHT

PNK
BRN

RED

BLU

GRN

YEL

RADAR

(Interswitch)

No.1 ECDIS

GYRO

LOG

DISPLAY UNIT NCD-2096

DGPS

ECHO

SOUNDER

GYRO

(NMEA0183)

AIS

LOG

(NMEA0183)

DIPTH

H-2695111153

(JRC Supply)

H-2695110006

(JRC Supply)

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-4

250V-TTYCS-1

250V-TTYCS-1

0.6/1kV-DPYCY5-1.5

250V-MPYCY5-7

19-CORES COMPOSITE CABLE

(JRC SUPPLY)

H-2695110056

U WV

B+

B-

BLK

WHT

SHIP'S MAINS

AC100-115V/AC220-240V 50/60Hz 1φ

0.6/1kV-DPYCY-6

No.2 ECDIS

H-2695110006

(JRC Supply)

250V-TTYCS-1

ALARM SYSTEM

0.6/1kV-TPYC-1.5

SHIP'S MAINS FOR
POWER FAIL ALARM

DC24V (BATTERY) 0.1A

TB601 TB602 TB603 TB604

TB801

TB802

BLK

RED

WHT

BLK

RED

WHT

CQD-2128
Radar Terminal Circuit

CQD-2121
Standard Terminal Circuit

CBD-1831
Main Power Supply

CBD-1831
Main Power Supply
(Filter Circuit)

3-15

3.8 Connection with AIS

Connect the AIS to TB305(AIS RX+, AIS RX-, AIS TX+, AIS TX-) of standard

terminal board circuit CQD-2121 located in the display unit (processing uint).

Signal name AIS_TX is an output from this radar display unit. Connect the signal

to reception port of the AIS display.

Signal name AIS_RX is an input to this radar display unit. Connect the signal to

the transmission port of the AIS display.

SVD1 1

SVD1E 2

STIY1 3

STIY1E 4

SBP1 5

SBP1E 6

SBZ1 7

SBZ1E 8
ARPATX+ 9
ARPATX- 10

SVD2 11

SVD2E 12

STIY2 13

STIY2E 14

SBP2 15

SBP2E 16

SBZ2 17

SBZ2E 18

JARPATX+ 19
JARPATX- 20

VD+ 1

VD- 2
TRIG+ 3
TRIG- 4

BP+ 5

BP- 6

BZ+ 7

BZ- 8
MTR+ 9
MTR- 10
MTRE 11
RBVD 12

RBVDE 13
RBTRIG 14
MTRIN+ 15
MTRIN- 16
MTRINE 17

MTROUT+ 18
MTROUT- 19
MTROUTE 20

VDOUT 1

VDOUTE 2

TRIGOUT 3

TRIGOUTE 4

BPOUT 5

BPOUTE 6

BZOUT 7
BZOUTE 8
PWROUT 9

PWROUTE 10

11
12
13
14
15
16
17
18
19
20

VDIN

VDINE

TRIGIN
TRIGINE

BPIN

BPINE

BZIN

BZINE
PWRIN
PWRINE

ALMRX+ 1
ALMRX- 2
ALMTX+ 3
ALMTX- 4

MNT+ 5
MNT- 6

NO/NC 7

COM 8

NO/NC 9

COM 10

11
12
13
14
15
16
17
18
19
20

NO/NC

COM

NO/NC

COM
ACKIN+
ACKIN­ACKIN1+
ACKIN1­ACKIN2+
ACKIN2-

+12V

+48VG

+48VG

+48V

+48V

1/R1
2/S1
3/S2

S3

5/R2

N.C.
P+ 200P
P- 200P

N.C.
S LOG+
S LOG-

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

ARPA1 RX+
ARPA1 RX­ARPA2 RX+
ARPA2 RX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
ACK IN+
ACK IN-

IN+

IN­ACK IN+
ACK IN-

NAV1 RX+
NAV1 RX-

NAV1 TX+

NAV1 TX­NAV2 RX+
NAV2 RX­GYRO RX+
GYRO RX-

AIS RX+
AIS RX­AIS TX+

AIS TX­D LOG RX+
D LOG RX­DEPTH RX+
DEPTH RX-

NAVTEX RX+
NAVTEX RX­NAVTEX TX+
NAVTEX TX-

A/P RX+

A/P RX-

A/P TX+

A/P TX-

CONNING OUT RX+

CONNING OUT RX-

CONNING OUT TX+

CONNING OUT TX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO

WMRST OUT+
WMRST OUT-

IN+
IN­IN+
IN-

TB601 TB602 TB603 TB604

TB605

TB302

TB301

TB303

TB305

TB304

SLAVE1SLAVE2

ANTISW

ISW

RADAR

NSKRADAR1RADAR2

SYS

ALM

OP

CONTACT

OP

CONTACT

PWR ALMSYSPWR

CONTACT1CONTACT2CONTACT3CONTACT4CONTACT5CONTACT6ACK OUT

CONTACT1

CONTACT2

RADAR

RADAR

ARPA

RADAR

CONTACT3

RADAR

CONTACT2

RADAR

CONTACT1

RADAR

ARPAALM

AC OUT 1

U WV

1

2

3

4

ORG
WHT

YEL-YEL

YEL-WHT

BLU-BLU
BLU-WHT

1

2

BLU

YEL

GRN

ORG
BLK

RED

PUR

WHT

PNK
BRN

RED

BLU

GRN

YEL

RADAR

(Interswitch)

No.1 ECDIS

GYRO

LOG

DISPLAY UNIT NCD-2096

DGPS

ECHO

SOUNDER

GYRO

(NMEA0183)

AIS

LOG

(NMEA0183)

DIPTH

H-2695111153

(JRC Supply)

H-2695110006

(JRC Supply)

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-4

250V-TTYCS-1

250V-TTYCS-1

0.6/1kV-DPYCY5-1.5

250V-MPYCY5-7

19-CORES COMPOSITE CABLE

(JRC SUPPLY)

H-2695110056

U WV

B+

B-

BLK

WHT

SHIP'S MAINS

AC100-115V/AC220-240V 50/60Hz 1φ

0.6/1kV-DPYCY-6

No.2 ECDIS

H-2695110006

(JRC Supply)

250V-TTYCS-1

ALARM SYSTEM

0.6/1kV-TPYC-1.5

SHIP'S MAINS FOR
POWER FAIL ALARM

DC24V (BATTERY) 0.1A

TB601 TB602 TB603 TB604

TB801

TB802

BLK

RED

WHT

BLK

RED

WHT

CQD-2128
Radar Terminal Circuit

CQD-2121
Standard Terminal Circuit

CBD-1831
Main Power Supply

CBD-1831
Main Power Supply
(Filter Circuit)

AIS data can be displayed on the radar screen even if the transmission signal

(AISTX+,AISTX-,of TB305) from the radar display unit to the AIS is not connected.

By connecting the transmission signal (AISTX+, AISTX-, of TB305) from the radar

display unit to the AIS, it is possible to stop the AIS alarm displayed on the radar

screen.

3-16

3.9 Connection with ECDIS

The radar video signal is output to ECDIS from TB601 of readar terminal board

circuit CQD-2128 located in the display unit (processing unit). Connect No.1

ECDIS to (SVD1, SVD1E, STIY1, STIY1E, SBP1, SBP1E, SBZ1, SBZ1E).

Connect No.2 ECDIS to (SVD2, SVD2E, STIY2, STIY2E, SBP2, SBP2E, SBZ2,

SBZ2E).

Target tracking information is output to ECDIS from TB601 (ARPA TX+, ARPATX-)

of radar terminal board circuit CQD-2128 located in the display unit (processing

unit). Target tracking information is outputted from JARAP TX+ and JARPATX- in

the JRC format.

SVD1 1

SVD1E 2

STIY1 3

STIY1E 4

SBP1 5

SBP1E 6

SBZ1 7

SBZ1E 8
ARPATX+ 9
ARPATX- 10

SVD2 11

SVD2E 12

STIY2 13

STIY2E 14

SBP2 15

SBP2E 16

SBZ2 17

SBZ2E 18

JARPATX+ 19
JARPATX- 20

VD+ 1

VD- 2
TRIG+ 3
TRIG- 4

BP+ 5

BP- 6

BZ+ 7

BZ- 8
MTR+ 9
MTR- 10
MTRE 11
RBVD 12

RBVDE 13
RBTRIG 14
MTRIN+ 15
MTRIN- 16
MTRINE 17

MTROUT+ 18
MTROUT- 19
MTROUTE 20

VDOUT 1

VDOUTE 2

TRIGOUT 3

TRIGOUTE 4

BPOUT 5

BPOUTE 6

BZOUT 7
BZOUTE 8
PWROUT 9

PWROUTE 10

11
12
13
14
15
16
17
18
19
20

VDIN

VDINE

TRIGIN
TRIGINE

BPIN

BPINE

BZIN

BZINE
PWRIN
PWRINE

ALMRX+ 1
ALMRX- 2
ALMTX+ 3
ALMTX- 4

MNT+ 5
MNT- 6

NO/NC 7

COM 8

NO/NC 9

COM 10

11
12
13
14
15
16
17
18
19
20

NO/NC

COM

NO/NC

COM
ACKIN+
ACKIN­ACKIN1+
ACKIN1­ACKIN2+
ACKIN2-

+12V

+48VG

+48VG

+48V

+48V

1/R1
2/S1
3/S2

S3

5/R2

N.C.
P+ 200P
P- 200P

N.C.
S LOG+
S LOG-

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

VD

VDE

TR

TRE

BP

BPE

BZ

BZE

ARPA1 RX+
ARPA1 RX­ARPA2 RX+
ARPA2 RX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
ACK IN+
ACK IN-

IN+

IN­ACK IN+
ACK IN-

NAV1 RX+
NAV1 RX-

NAV1 TX+

NAV1 TX­NAV2 RX+
NAV2 RX­GYRO RX+
GYRO RX-

AIS RX+
AIS RX­AIS TX+

AIS TX­D LOG RX+
D LOG RX­DEPTH RX+
DEPTH RX-

NAVTEX RX+
NAVTEX RX­NAVTEX TX+
NAVTEX TX-

A/P RX+

A/P RX-

A/P TX+

A/P TX-

CONNING OUT RX+

CONNING OUT RX-

CONNING OUT TX+

CONNING OUT TX-

NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO
NC

COM

NO

WMRST OUT+
WMRST OUT-

IN+
IN­IN+
IN-

TB601 TB602 TB603 TB604

TB605

TB302

TB301

TB303

TB305

TB304

SLAVE1SLAVE2

ANTISW

ISW

RADAR

NSKRADAR1RADAR2

SYS

ALM

OP

CONTACT

OP

CONTACT

PWR ALMSYSPWR

CONTACT1CONTACT2CONTACT3CONTACT4CONTACT5CONTACT6ACK OUT

CONTACT1

CONTACT2

RADAR

RADAR

ARPA

RADAR

CONTACT3

RADAR

CONTACT2

RADAR

CONTACT1

RADAR

ARPAALM

AC OUT 1

U WV

1

2

3

4

ORG
WHT

YEL-YEL

YEL-WHT

BLU-BLU
BLU-WHT

1

2

BLU

YEL

GRN

ORG
BLK

RED

PUR

WHT

PNK
BRN

RED

BLU

GRN

YEL

RADAR

(Interswitch)

No.1 ECDIS

GYRO

LOG

DISPLAY UNIT NCD-2096

DGPS

ECHO

SOUNDER

GYRO

(NMEA0183)

AIS

LOG

(NMEA0183)

DIPTH

H-2695111153

(JRC Supply)

H-2695110006

(JRC Supply)

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-1

250V-TTYCS-4

250V-TTYCS-1

250V-TTYCS-1

0.6/1kV-DPYCY5-1.5

250V-MPYCY5-7

19-CORES COMPOSITE CABLE

(JRC SUPPLY)

H-2695110056

U WV

B+

B-

BLK

WHT

SHIP'S MAINS

AC100-115V/AC220-240V 50/60Hz 1φ

0.6/1kV-DPYCY-6

No.2 ECDIS

H-2695110006

(JRC Supply)

250V-TTYCS-1

ALARM SYSTEM

0.6/1kV-TPYC-1.5

SHIP'S MAINS FOR
POWER FAIL ALARM

DC24V (BATTERY) 0.1A

TB601 TB602 TB603 TB604

TB801

TB802

BLK

RED

WHT

BLK

RED

WHT

CQD-2128
Radar Terminal Circuit

CQD-2121
Standard Terminal Circuit

CBD-1831
Main Power Supply

CBD-1831
Main Power Supply
(Filter Circuit)

3-17

3.10 Connect with Alarm Monitoring System

This radar display unit has input/output functions for various contact signals

intended for alarm monitoring system. Connect necessary signals by referring to

the inter-board connection diagram.

Terminal
block

Signal
name

Direction Description Notes

CQD-2121

TB303

SYS ALM OUT System alarm status is outputted. Becomes “Normal-Close” in

connecting with NC. Becomes
“Normal-Open” in connecting with
NO.

CQD-2128

TB604

ARPA
ALM

OUT Dangerous ship alarm status is outputted. Ther logic can be reversed with

short plug of TB1. The default is a
Normal-Close (2-3).

CQD-2121

TB303

PWR ALM OUT Disonnection of Ship’s Main is detected.

CD24V must be connected to YCBD-1832
for backup.

Becomes “Normal-Close” in
connecting with NC. Becomes
“Normal-Open” in connecting with
NO.

CQD-2121

TB303

SYS ACK IN Acknowledge input of system alarm. “False” indicates Open or

Disconnection and “True” indicates
Closed.

CQD-2128

TB604

ARPA
ACK

IN Acknowiedge input of Dangerous ship

alarm.

“False” indicates Open or
Disconnection and “True” indicates
Closed.

CQD-2121

TB303

PWR ALM IN Acknowiedge input of PWR alarm. “False” indicates Open or

Disconnection and “True” indicates
Closed.

CQD-2121

TB304

WMRST OUT Watch Man alarm reset signal.

3-18

3.11 Installation of Cable Ground

Install the cable connected with scanner unit, interswitch and ECDIS in the cable

graund referring to the figurebelow. Intall it in the cable ground where the cable

with other shields has become empty, too.

Roll conductive material such as the shield tapes in the cable when tightening the

cable ground is lose and tighen hard.

Botom of Display Unit

Interswitch

ECIDS

Scanner Unit

4-1

4. Initial Setting

4.1 Confirming Power Supply

1) Set CBD-1625 ATX Poser Supply and CBD-1832 Power Supplu as follows.

CBD-1625 ATX Power Suplly

CBD-1832 Powe Suplly

OFF

ON

CBD-1625 ATX Poser Supplay

Set [ON]

Set [NOR]

ON

OFF

Set the breaker is {OK}

CBD-1832 Power Suplly

Set 110V or 220V

4-2

4.2 Connecting to CQD-2121 Standard Terminal

Board

When connecting/disconnecting the connection cables between the external

equipment, make sure to turn off the breaker of the main power line.

Otherwise, a fire or an electric shock may occur.

Connect the cables from the external sensors according to the procedure below.

● For connecting to terminal board, insert the cable (the sheath is ripped) securely while pressing

down the white knob.

CQD-2121 Standard Terminal Board

Sensor Cable

4-3

Each part of CQD-2121 Standard Terminal Board

CQD-2121 Standard Terminal Board

Ethernet Rotary Switch

TB304

TB305

TB303 TB302

TB301

4-4

4.3 Setting Equipment Configuration

4.3.1 Setting Ethernet Rotary Switch

1) Set Ethernet Rotary Switch on the CQD-2121 Standard Terminal Board.

2) Connect between the “MAIN1” LAN in the SRB1 and the 1000 Base-LAN in the Main Control Unit.

CQD-2121 Standard Terminal Board

8

3

IP TYPE SET(S2)=2 IP SYS SET(S1)=1 to 4

Main Control Unit

LAN Cable

1000 Base-LAN

MAIN1

SRB1

Ethernet Rotary Switch

In the case with plural Display Unit, set the

number of the Display Unit so as not to overlap.

4-5

Relation between Ethernet Rotary Swtch and IP Address

Number of Display Unit No.1 Chart Radar No.2 Chart Radar No.3 Chart Radar No.4 Chart Radar

Setting of Ethernet Rotary Switch

IP TYPE (S2) 2

IP SYS (S1) 1 2 3 4

IP Address (Main)

Processing Unit 192.168.60.35 192.168.60.41 192.168.60.47 192.168.60.53

Serial Relay I/F Board1 192.168.60.36 192.168.60.42 192.168.60.48 192.168.60.54

Serial Relay I/F Board2 192.168.60.37 192.168.60.43 192.168.60.49 192.168.60.55

Radar I/F Board 192.168.60.38 1923168.60.44 192.168.60.50 192.168.60.56

IP Address (Sub)*

Processing Unit 192.168.61.35 192.168.61.41 192.168.61.47 192.168.61.53

Serial Relay I/F Board1 192.168.61.36 192.168.61.42 192.168.61.48 192.168.61.54

Serial Relay I/F Board2 192.168.61.37 192.168.61.43 192.168.61.49 192.168.61.55

Radar I/F Board 192.168.61.38 1923168.61.44 192.168.61.50 192.168.61.56

*: IP address of Sub is not used now.

Refer to “5.3.1 The Configuration Setting” for the confirmation of IP address.

IP address of Serial Relay I/F Board1, Serial Reley I/F Board2 and Radar I/F Board is decided by setting the

Ethernet rotary switch.

When IP address of Processing Unit has not paired with the Ethernet rotary switch, it is not possible to

communicate.

4-6

4.4 Connecting to CQD-2128 Radar Terminal Board

When connecting/disconnecting the connection cables between the external

equipment, make sure to turn off the breaker of the main power line.

Otherwise, a fire or an electric shock may occur.

Insert the cable unit

Pull the cable lightly and confirm the

cable is surely tightened.

Turn the screw counterclockwise

by a solted screwdriver so as to

open the cable inlet.

Turn the screw clockwise by the

slotted screwdriver so as to

tighten the cable.

4-7

Each part of CQD-2128 Radar Terminal Board

Setting of TP1 to TP4

Pin name Setting

TB1 Setting of TB604 7-8 (ARPAALM)
TB2 Setting of TB604 9-10 (RADAR CONTACT1)
TB3 Setting of TB604 11-12 (RADAR CONTACT2)
TB4 Setting of TB604 13-14 (RADAR CONTACT3)

CQD-2128 Radar Terminal Board

TB601 TB602

TB603 TB604

TB605

Relay output setting jumper pin

3

21TB1~TB4

CLOSE

OPEN

TB1

TB2

TB3

TB4

4-8

4.5 Setting of GYRO I/F

4.5.1 Setting of STEP･SYNC

The GYRO I/F circuit of the system accepts most GYRO compasses by switching behavior.

Step motor Type: DC24～DC100V

Synchro-motor Type: Primary excitation voltage 50V～115V(AC)

Before power-on operation, do the setting of the switches S1, S2, S5, S6, S7 and jumper JP1 on the

GYRO I/F circuit (PC-4201) for your Gyro compass type by performing the procedure below.

The switches are factory-set for a gyration ratio of 180X and the step motor type. Make sure of the

type gyro compass installed on the own ship before starting the procedure below.

GYRO I/F 回路設定箇所

Setting point on GYRO I/F circuit

GYRO INPUT SIGNAL
INDICATOR LED
ジャイロ入力信号LED

GYRO SIGNAL PROCESS
INDICATOR LED
ジャイロ信号処理表示LED

LOG PULSE
INDICATOR LED
ログパルス表示LED

ERROR INDICATOR LED
エラー表示LED

GYRO LOW-VOLTAGE
ALERT LED
ジャイロ低電圧警告LED

KEEP DEFAULT

設定不要

LOW-VOLTAGE GYRO
SETTING

ジャイロ低電圧時に設定

OPEN

プラグ無し

SERIAL SIGNAL
INDICATOR LED
シリアル信号表示LED

4-9

Procedures

1) Set S5 to “ OFF ”.

The gyro compass and GYRO I/F are turned off.

2) Set S6 and S7 in accordance with the type of your gyro compass.

There are two types of gyro compasses: one type outputs a step signal, and the other type outputs a

synchro signal. Make sure of the type of the gyro compass installed on the own ship before setting the

switches S6 and S7.

Synchro signal: Set the switches to “ SYNC ”.

Step signal : Set the switches to “ STEP ”.

3) Set the DIP switch S1 in accordance with the type of the compass.

The items to be set are listed below. For the settings, refer to Table 4-1

S1-1： Type of gyro signal（step/synchro）

S1-2

/3： Gyration ratio of gyro compass

S1-4： Gyration direction of gyro compass

S1-5： Type of log signal（pulse/synchro）

S1-7

/8： Ratio of log signal

4) Set the DIP switch S2.

The items to be set are listed below. For the setting, refer to Table 4-2.

1 2 3 4 5 6 7 8

ON OFF OFF OFF ON OFF ON OFF

5) Confirm the settings of the DIP switch S10.

The DIP switch must be set as shown below. Do not change any of settings.

1 2 3 4 5 6 7 8

OFF OFF OFF OFF OFF OFF OFF OFF

6) Set the jumper TB105.

The TB105 is set for using a low-boltage step signal.

1-2 connected： Setting for normal use.

2-3 connected： Setting for a step signal of 22V or less.

4-10

7) Connect the gyro signal and log signal cables to the terminal block.

8) Set S5 to “ ON ”.

The gyro compass and GYRO I/F are connected.

9) After power-on operation, make sure of the radar video and the operation with

the true bearing value.

Set default value of GYRO setting. For the setting, refer to Table 4-1

.

10) If the true bearing value of the radar equipment is reversed, change the

setting of the switch S1-4.

S1 設定表／S1 SETTING TABLE

1 2 3 4 5 6 7 8

STEP ON

SYNC OFF

36X ON ON

90X OFF ON

180X ON OFF

360X OFF OFF

逆／REV

ON

ジャイロ信号

GYRO SIG

回転方向

DIRECTION

正／NOR

OFF

パルス／PULSE

OFF

タイプ

TYPE

シンクロ／SYNC

ON

N.C. N.C.

100P／30X

ON ON

200P／90X

OFF ON

400P／180X

ON OFF

ログ信号

LOG SIG

パルス数/NM

PULSE/NM

800P／360X

OFF OFF

Table 4-1 GYRO/LOG SIG switch（S1 DIP）

4-11

S2 設定表／S2 SETTING TABLE

1 2 3 4 5 6 7 8

ON

BSHLOG ALARM

OFF

ON

GYRO SIMULATOR

OFF

ON

LOG SIMULATOR

OFF

N.C. N.C.

5 SEC ON

GYRO ALARM

TIME

0.2 SEC OFF

NMEA(HDT/THS) ON

HEADING SENSOR

SOURCE

GYRO SIGNAL OFF

4800 bps OFF OFF

9600 bps ON OFF

19200 bps OFF ON

OTHER SETTING

NMEA BAUDRATE SETTING

38400 bps ON ON

Table 4-2 OTHER SETTING switch（S2 DIP）

5-1

5. Setting

5.1 Port Setting

5.1.1 Display the Device Menu

1) Push the [POWER] button of the control unit and start up a display unit.

2) Move the cursor onto [Startup Menu], right-click the mouse and display [Password Dialog].

3) Input password [8510] and left-click the [OK] button. The [Device Menu] menu will appear.

※1：The serviceman menu can be mumbling when left-clicking the [Hide] button and usual [Startup Menu]

is displayed.

After the setting finished, left-click [Hide] button.

Startup Menu Password Dialog

Device Menu

※1

5-2

5.1.2 Display the Configulation Set Menu

1) Left-click the [Configuration Set] button from the inside of [Device Menu].

2) Sub menu of Configulation Set is will appear.

Device Menu

Select when setting Serial Relay I/F Board1,Serial Relay I/F
Board2 and Analog Option Board to have been equipped with,
connecting external equipment.

Select when setting on the side of the application by the
communication between the processing part and the external
equipment.

Select when setting Relay port.

Select when doing the update of the software of Serial Relay I/F

Board1, Serial Relay I/F Board2 and Radar I/F Board.

5-3

5.1.3 The Configuration Setting

5.1.3.1 Select the equipment and the connect-acknowledge

1) Left-click the [Configuration Set] button from the inside of the menu point of Configulation Set. The

[Configuration Set] dialog will appear.

2) Put a check in the board which the display unit is equipped with in "Select Equipment to set" of the

[Configuration Set] dialog from the inside of the following menu and left-click the [Next] button.

Confirm about whether or not it is connected with the conductor about the board which put a check.

(The control unit and the Serial Relay I/F board do a connect-acknowledge with PING to be connected

by the LAN. )

Left-clicks the [OK] button because the following error dialog is displayed when the Display unit isn't

equipped with the board which put a check and it isn't possible to have done communication with the

board.

In the board which the display unit is equipped with, it puts a check in the board which the conductor is

equipped with once again in "Select Equipment to set" of the [Configuration Set] dialog after the confirmation

and Left-click the [Next] button.

Configuration Set

Configuration Set

Put a check in the board
name which Display unit
is equipped.

5-4

Confirmation the IP address

The IP address of the setting of an Ethernet uni-selector in the CQD-2121 standard terminal board and

the to that supporting NCM-860 control unit and the IP address which is set to Serial Relay I/F Board, the

Radar I/F board can be confirmed when clicking Confirm IP by the Configulation Set dialog.

※ plan to use the sub IP address when duplicating a LAN in future and at present, doesn't use it.

The setting of an Ethernet uni-selector in the
CQD-2121 standard terminal board.

The IP address of the
NCM-860 control unit

The IP address of Serial
Relay I/F Board1

The IP address of Serial
Relay I/F Board2

The IP address of Radar
I/F Board

5-5

3) When the confirmation of the board ends normally, [Configuration Set] dialog is displayed.

5-6

5.1.3.2 Configuration Setting

The [Configuration Set] dialog is divided every name of CQD-2121 (standard terminal board),

CMJ-519 (analog option board), CQD-2130 (option terminal board) and the terminal board.

CQD-2121 Terminal Board: The setting about the sensor which connected with

CQD-2121 terminal board.

CQD-2128 RADAR Terminal Board: The setting about the sensor which connected with

CQD-2128 RADAR terminal board.

Analog Option Board(CMJ-519): The setting about the sensor which connected with CMJ-519

AOB.

CQD-2130 Terminal Board: The setting about the sensor which connected with

CQD-2130 option terminal board.

Configuration Set

5-7

Of the terminal name of the terminal board specified in the column of "Terminal board" in the end of each

terminal board and the sensor name which is set, connecting is displayed in the column of "Sensor".

The one where a check is included in the check box on the terminal name left is set to connection on.

Also, when doing the confirmation and the setting change of the details about each terminal, Left-click

the [Detail] button after making the radio button of Detail on the right on.

ex)

When a sensor is already set, when left-clicking the [Detail] button of the above screen, the following

dialog is displayed.

・When changing setting: Make the radio button of Yes on and Left-click the [Next] button.

・When confirming setting: Make the radio button of No on and Left-click the [Next] button.

The terminal name to have been specified at
the terminal board in the CQD-2121 standard
terminal board.

The name of the sensor which was
connected with terminal board.

The one which a check is included
in sets to connection on.

Left-click the [Detail] button after
making a check on in the radio
button when confirmation/changing
for the details of the setting.

5-8

The [Port Set-Detail] dialog can do the confirmation or the setting change of the details of the sensor

specification.

For the details of the sensor, a default value is displayed by the select sensor. (Refer to appendix

XXX"XXX" therefore to the default value of the sensor.)

The changed setting isn't saved when doesn't left-click the [Set] button.

To save changed setting, always left-click the [Set] button.

Baud rate: Set a communication-transfer-rate.

Data Length: Set a character bit.

Parity: Set a parity bit.

Stop bits: Set a stop bit.

Baud rate: Set buffer size for the reception.

Time Out: Set the time which the communication judges that is a communication error, breaking off.

Checksum: Set ON/OFF of the checksum.

CCRS: Set ON/OFF of CCRS

Use to be general in the confirmation / change the setting o

f

the details of the sensor specification with the default.

Depending on the connecting equipment, the reception

setting must be changed.

When changing, go after confirming the specification of the

interconnect-equipment well.

[Set] button:

Save changed setting

5-9

"Line Monitor" can confirm the dater sentence of the sensor which connected with the terminal of the

terminal board.

[Start] button:
Start the monitor of the data
sentence.

[Stop] button:
Stop the monitor of the data
sentence.

Select equipment

[Clear] button:
Clear the monitor of the data
sentence.

When an interconnect-equipment is connected right

and in case of being set to it, the data sentence

which the each equipment outputs is displayed.

The sentence reception example of the GPS is

displaed in the left figure. The data sentence

depends on the interconnect-equipment.

For the sentence details of the each equipment, refer

to XXX"XXX".

If displaying garbage characters, replace the polarity

of the wiring by the interconnect-equipment after

dropping a power.(Set RX + to RX – and set RX + to

RX - )

After that, confirm once again.

5-10

When putting a check in " Log " of " Line Monitor " and confirming a data sentence, the data sentence to

have been displayed in " Line Monitor " can be saved in the log file.

Check the “Log”.

When left-clicking the [Stop] button after the

confirmation of the data sentence, the save

screen of the log file is displayed.

File name

File type

Dreive name

Distination folder

5-11

Port Setting of the CQD-2121 terminal board

1) Put a check in the terminal name of the distribution-frame in the connected sensor cable from

CQD-2121 standard terminal board.

2) Make the radio button of the terminal name of the setting terminal board on and left-click the [Detail]

button.

3) The [Sensor] dialog will appear. Select the sensor which connected with the terminal from the inside of

the list and left-click the [Next] button.

(1) Checking

(2) Make a radio button on

(3) Left-click the [Detail] button

(1) Left-click the [ ] button

(3) Left-click the [Next] button

(2) Select the sensor from the inside of the list

5-12

When setting a sensor to Auto Pilot or Ship LAN by procedure 3), select use equipment from the inside of

"Select Interfce Type".

(1) Left-click the [ ] button.

(2) Select the Type of Auto Pilot from the list.

(3) Left-click the [Next] button.

When selecting ”Auto Pilot”

(1) Left-click the [ ] button.

(2) Select the kind of Ship LAN from the list.

(3) Left-click the [Next] button.

When selecting ”Ship LAN”

5-13

4) The [Port Set-Detail] dialog will appear. Confirm that the setting of each item becomes the default

value of the select sensor. (Refer to appendix XXX"XXX" therefore to the default value.)

5) Select equipment form the ”Select Equipment” of “Line Monitor”.

6) Left-click the [Start] button and confirm that a data sentence is displayed right. After the confirmation,

Left-click the [Stop] button.

7) Left-click the [Close] button.

(1) Confirm the setting of each item

(3) Left-click the [Start] button

(5) Left-click the [Stop] button

(2) Select the equipment

(6)

Left-click the [Close] button

(4) Confirms that a data sentence

is displayed right.

5-14

Configuration Set default list

Default setting of CQD-2121

Check Terminal

Board

Sensor Baud

rate

Data

Length

Parity Stop

bits

Buffer

Size

Time Out Cheksum CCRS

ﾚ NSK GYRO I/F 9,600 8 EVEN 2 1024 2 ﾚ

ARPA1 TT1 (NMEA) 4,800 8 NONE 1 4096 30 ﾚ
ARPA2 TT2 (NMEA) 4,800 8 NONE 1 4096 30 ﾚ

ﾚ NAV1 GPS1 4,800 8 NONE 1 1024 15 ﾚ

NAV2 GPS2 4,800 8 NONE 1 1024 15 ﾚ

GYRO GYRO (NMEA)

38,400

or

4,800

8 NONE 1 1024 15 ﾚ

ﾚ AIS AIS 38,400 8 NONE 1 4096 15 ﾚ

D_LOG LOG (NMEA) 4,800 8 NONE 1 1024 15 ﾚ
DEPTH Depth 4,800 8 NONE 1 1024 15 ﾚ
NAVTEX NAVTEX (NMEA) 4,800 8 NONE 1 4096 0 ﾚ
A/P Auto Pilot
CONNING

OUT

Conning

Depends on the specification of connected devices.

※ : The Baud rate of GYRO depends on the specification of NMEA signal.

※ : NAV2, GYRO, D_LOG and DEPTH are valid in case of connecting with sensors.

※ : When setting of GPS1 is not NAV1, it is necessary to set sensor setting POSN1 of each application to

LAN.（see an ECDIS or RADAR mode instruction manual.）

※ : Always use Checksum by turning on because the prow azimuth data is critical data for radar.

Default setting of CQD-2128

Check Terminal

Board

Sensor Baud

rate

Data

Length

Parity Stop

bits

Buffer

Size

Time Out Cheksum CCRS

ﾚ RADAR ALM Alarm System 4,800 8 NONE 1 1024 0 ﾚ
ﾚ ARPA TT (MENA) -TX 4,800 8 NONE 1 4096 30 ﾚ
ﾚ JAPRA JRC-TT-TX 4,800 8 NONE 1 4096 30 ﾚ
ﾚ RADAR MNT Remaote Mainte 4,800 8 NONE 1 1024 15 ﾚ

--- OP1 --- --- --- --- --- --- --- --- ---

--- OP2 --- --- --- --- --- --- --- --- ---

5-15

5.1.3.3 Sensor Setting

Set on the side of application in Serial Relay I/F Board1, Serial Relay I/F Board2 and Analog Option

Board.

The start up the screen of Sensor Setting

Possible for start up with two ways.

[Start up way 1]

1) Left-click the Close button of the Configulation Set screen. The following dialog will appear.

2) Left-click the [Yes] button. [Sensor Set] dialog will appear.

[Start up way 2]

1) Left-click "Sensor Set" from the sub menu of Configulation Manu.

5-16

Setting of the ”Sensor”

“Sensor” of the [Sensor Set] dialog select Use/Not Use of the sensor. When selecting Use, the sensor

data which connected with the termainal board can be used. Set to Not Use therefore at the sensor not to

use.

(1) Select the sensor to set from

the ”Sensor Name”

(2) Set the type of the sensor

(3) Set Use/Not Use of the sensor

Set the recepthion course of SRB

（Standard/Optional）

Set the port of SRB

Set ON/OFF of the checksum

Set the time-out of the sensor

5-17

Left-click the [Recv Test] button of “Communication” of the [Sensor Set] dialog. [Line Monitor] dialog will

appear.

Select a place of the entry of the sensor data in "Select Port" and left-click the [Start] button. The

receive-data of the set terminal board can be confirmed.

Left-click the [Recv Test] button

Left-click the [Start] button

Select a place of the entry of the sensor data

Confirm a receive data