Japan Radio NKE2632 Solid State S-Band Marine Radar User Manual Installation Manual Part 5

Japan Radio Co Ltd. Solid State S-Band Marine Radar Installation Manual Part 5

Installation Manual Part 5

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Date Submitted2015-10-22 00:00:00
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3 Installation of Display Unit > 3.5 Installation of Option Equipment
9) While maintaining the OFF state of the circuit breaker for the power supply of the display unit, turn
ON the circuit breaker of the main power line and check that the LEDs of the UPS controller turn
ON/OFF as follows.
LED
Color
ON/OFF Status
Alarm
Red
OFF
Bat.-Mode
Yellow
Flashing or
Bat.-Charge
Power In OK
OFF
Green
ON
10) Install the rear panel installed UPS to the frame. And wire the cable to pass through the cable tie base
No.16.
11) Install the 2 frames for installing the JB.
The installation of UPS ends above.
3-94
3 Installation of Display Unit > 3.5 Installation of Option Equipment
3.5.5
Installation of Hood
3.5.5.1 Installation of CWB-1620
3-95
3 Installation of Display Unit > 3.5 Installation of Option Equipment
3-96
3 Installation of Display Unit > 3.5 Installation of Option Equipment
3.5.6
Installation of CWB-1618
3-97
3 Installation of Display Unit > 3.5 Installation of Option Equipment
3-98
3 Installation of Display Unit > 3.6 Connections with Scanner and Transceiver
3.6 Connections with Scanner and Transceiver
Before conducting replacement work, turn OFF the circuit breaker for the power supply of the
display unit.
Before replacement work, be sure that all the LEDs on the front of the PSU NBD-913
are unlit. Charged electricity may still remain in the internal capacitor.
Do not lose the bolt and screws as they will be needed again.
Ensure the cable extra length for maintenace. And store the cable to the back of the junction box.
3-99
3 Installation of Display Unit > 3.6 Connections with Scanner and Transceiver
3.6.1
NKE-1125, NKE-1129, NKE-1130, NKE-1139, NKE-1632, NKE-2632 SCANNERS
Connect the device to J832 and TB838 of RADAR INTERFACE CIRCUIT CQD-2273
located in display unit (processing unit).
For the procedure for processing the equipment cable terminal, see 2.1.4 Cable end
processing method.
SCANNER J832
BLK1
VD+
VD2
BLK2
TRG+
TRG4
BLK3
BP+
BP6
BLK4
BZ+
BZWHTTB840
ORN
MTR+
(DC24V MTR)
MTRWHT+
MTRG
WHT
N.C.
RED
DC+
BLU
DC-
CQD-2273
RADAR Interface
Circuit
(RIF)
J835
GYRO I/F
H-2695110056
SCANNER
・NKE-1125
・NKE-1129
・NKE-1130
・NKE-1139
・NKE-1632
・NKE-2632
TB838(AC100/220V)
YEL
GRN
J837
AC_SC_IN (DC48V)
NBD-913
PSU
ISW_IN J834
ISWI_VD+
ISWI_VD2
J839
ISWI_TRG+
DC_SC_IN (DC24V PSU) ISWI_TRG4
ISWI_BP+
J831
ISWI_BP6
CCU I/F
ISWI_BZ+
ISWI_BZ8
ISWI_MTR+
ISWI_MTRISWI_MTRG
PWROUT
PWROUTE
PWRIN
PWRINE
J836 EX_OUT
ISW_OUT J833
VD+_OUT
ISWO_VD+
VD-_OUT
ISWO_VD2
TRG+_OUT
ISWO_TRG+
TRG-_OUT
ISWO_TRG4
BP+_OUT
ISWO_BP+
BP-_OUT
ISWO_BP6
BZ+_OUT
ISWO_BZ+
BZ-_OUT
ISWO_BZ8
GND
ISWO_MTR+
N.C.
ISWO_MTRISWO_MTRG
CML-836AC or
CML-836ACF
CML-836AC or
NDC-1590 CML-836ACF
CCU
NQE-1143
Junction Box (JB)
FG
Confirm the Model of Scanner Unit and input power supply of Display Unit.
Radar Model
Scanner Unit Model of 100-115VAC
Scanner Unit Model of 220-240VAC
JMR-9230-S3
NKE-1139-1
NKE-1139-2
JMR-9230-S
NKE-1130-1
NKE-1130-2
JMR-9225-7X3
NKE-1129-71
NKE-1129-72
JMR-9225-9X3
NKE-1129-91
NKE-1129-92
JMR-9225-6X
NKE-1125-61
NKE-1125-62
JMR-9225-9X
NKE-1125-91
NKE-1125-92
3-100
3 Installation of Display Unit > 3.6 Connections with Scanner and Transceiver
3.6.2
NKE-2103, NKE-2254 SCANNERS
Connect the device to J832 and TB840 of RADAR INTERFACE CIRCUIT CQD-2273
located in display unit (processing unit).
For the procedure for processing the equipment cable terminal, see 2.1.1 CFQ-6912-**.
3-101
3 Installation of Display Unit > 3.6 Connections with Scanner and Transceiver
3.6.3
Settings for RADAR I/F Circuit
Fig 3-26 CQD-2273 Radar Interface Circuit TB1
Table 3-2 Radar Interface Circuit TB1 Settings
Radar Interface Circuit TB1 Settings
Description
ISW_AUTO
1-2 SHORT CIRCUIT
(Factory default)
You can switch the scanner unit to be
used on your Display unit via the
Interswitch unit.
ISW_ONLY
(Not allowed)
Scanner signals always come down to
your Display unit via the Interswitch unit.
2-3 SHORT CIRCUIT
You can switch them on your Display unit
in service mode.
ISW_OFF
(Not allowed)
OPEN
Scanner signals come down to your
Display unit directly. Since they do not
come through the Interswitch unit, you
cannot switch them.
If it is not suggested from JRC office, do not set “2-3 SHORT CIRCUIT” or “OPEN” the TB1 of Radar
Interface Circuit. It may cause a lower radar system performance.
3-102
3 Installation of Display Unit > 3.6 Connections with Scanner and Transceiver
3.6.3.1 Connection procedure between Radar Interface Circuit and Scanner Unit
1. Connect as follows Radar Interface Circuit and Scanner Unit.
(J832: Signal TB838: AC Power TB840: DC Power)
AC Motor Scanner Unit:
NKE-1139、NKE-1130、NKE-1632、NKE-2632、NKE-2632-H、
J832 と TB838
NKE-1129-7、NKE-1129-9、NKE-1125-6、NKE-1125-9
DC Motor Scanner Unit:
NKE-2254-6HS、NKE-2103-6、NKE-2103-6HS
J832 と TB840
• For the procedures for processing the equipment cable end, see 2.1.4 Cable end processing
method.
• Fix the shield part of the equipment cable with pressing by metal fittings which is surrounded by a
dotted line frame in the figure below..Connect the shield to the thumbscrew surrounded by the
circle.(Recommended crimp terminals V5.5)
So that the braided shield is not shorted to the power supply terminal block, please insulate
the cable and fix with cable tie. Please put the Extra length of the cable to the bottom of the display
unit so that the not shorted to the UPS or SENSOR LAN switch unit.
• When connecting the interswitch unit, see 5.1 Installation of Interswitch Unit.
• When connecting the ECDIS, see 3.8 Connection with ECDIS.
3-103
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7 Connection with Sensors
Ensure the cable extra length for maintenace. And store the cable to the back of the junction box.
When the CMH-2370 has been installed to the Junction Box, start up the CMH-2370 by turning on
the switch S1. Refer to figure below for location of the S1.
If do not start up the CMH-2370, sensors what connected to the CMH-2370 does not take
effect.
S1
S1 location on CMH-2370
3-104
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.1
IEC61162-1 Connections
Connect the communication signals from sensors to the IEC61162-1 Port located on the
CMH-2370 in JUNCTION BOX NQE-1143. Communication signals from sensors will be connected
to terminals RX_A and RX_B which is IEC61162 standard. Communication signals to sensors will
be connected to terminals TX_A and TX_B which is IEC61162 standard. The number of port for
IEC61162-1 on CMH-2370 is 8 ports including each receiver and transmitter allocated at
J8103-J8106 on CMH-2370.
• See Fig 3-32:Connector location on CMH-2370 about location of J8103-J8106 on CMH-2370.
• To configure the port, refer to 4.6 Setting Up a Serial Port.
• Fix the signal cable with the clamp surrounded by the dotted line in the figure below.
•
Connect the cable shield to the hex spacer surrounded by the circle in the figure below.
(Recommended crimp terminals V5.5)
So that the braided shield is not shorted to the power supply terminal block, please insulate the
cable and fix with cable tie. Please put the Extra length of the cable to the bottom of the display unit
so that the not shorted to the UPS or SENSOR LAN switch unit.
Table 3-3:Terminal Assign of J8103-J8106
Terminal
J8105
J8104
J8103
J8106
RX1A
RX3A
RX5A
RX7A
RX1B
RX3B
RX5B
RX7B
TX1A
TX3A
TX5A
TX7A
TX1B
TX3B
TX5B
TX7B
RX2A
RX4A
RX6A
RX8A
RX2B
RX4B
RX6B
RX8B
TX2A
TX4A
TX6A
TX8A
TX2B
TX4B
TX6B
TX8B
Number
3-105
3 Installation of Display Unit > 3.7 Connection with Sensors
IEC61162-1 TX*A
IEC61162-1 TX*B
IEC61162-1 RX*A
IEC61162-1 RX*B
Fig 3-27 IEC61162-1 transmitter-receiver circuit
3-106
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.2
IEC61162-2 Connections
Connect the communication signals from sensors to the IEC61162-2 Port located on the
CMH-2370 in JUNCTION BOX NQE-1143. Communication signals from sensors will be
connected to terminals RX_A, RX_B and RX_C which is IEC61162 standard.
Communication signals to sensors will be connected to terminals TX_A, TX_B and TX_C
which is IEC61162 standard.
The number of port for IEC-61162-2 on CMH-2370 is two ports including each receiver
and transmitter allocated at J8101 and J8102 on CMH-2370.
• See Fig 3-32:Connector location on CMH-2370 about location of J8101-J8102 on CMH-2370.
• To configure the port, refer to 4.6 Setting Up a Serial Port.
• Fix the signal cable with the clamp surrounded by the dotted line in the figure below.
• Connect the cable shield to the hex spacer surrounded by the circle in the figure below.
(Recommended crimp terminals V5.5)
So that the braided shield is not shorted to the power supply terminal block, please insulate
the cable and fix with cable tie. Please put the Extra length of the cable to the bottom of the display
unit so that the not shorted to the UPS or SENSOR LAN switch unit.
Table 3-4:Terminal Assign of J8101 and J8102
Terminal
J8102
J8101
TX9A
TX10A
TX9B
TX10B
TX9C
TX10C
RX9A
RX10A
RX9B
RX10B
RX9C
RX10C
Number
3-107
3 Installation of Display Unit > 3.7 Connection with Sensors
IEC61162-2 RX*A
IEC61162-2 RX*B
IEC61162-2 RX*C
IEC61162-2 TX*A
IEC61162-2 TX*B
IEC61162-2 TX*C
Fig 3-28 IEC61162-2 transmitter-receiver circuit
3-108
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.2.1 Communication Type and termination
Communication type of IEC61162-2 can be selected full duplex (IEC61162-2) mode or half
duplex (RS-485) mode by TB2 and TB3 setting on CMH-2370.
To select communication type for channel9, TB2 will be set by Short Plug.
To select communication type for channel10, TB3 will be set by Short Plug.
To set TB2 and TB3, refer to Table 3-5 and Fig 3-29 below.
Table 3-5:Setting of communication type
Mode
Setting of TB2 /TB3
Duplex
Short circuit :5-9, 6-10, 7-11, 8-12
(RS-422)
Half duplex
Short circuit :5-1, 6-2, 7-3, 8-4
(RS-485)
And the termination resister of receiver can be removable for multi connections by TB14
and TB15 setting on CMH-2370.
To set the termination for channel9, terminal of TB14 will be set by Short Plugs.
To set the termination for channel10, terminal of TB15 will be set by Short Plugs.
To set TB14 and TB15, refer to and Table 3-6 below.
Table 3-6:Setting of termination resister
Termination
Terminal No. of TB14 and TB15
w Termination
2-3(Factory setting)
w/o Termination
1-2
Note : The location of TB2, TB3, TB14, TB15, Refer to Fig 3-32:Connector location on
CMH-2370.
Fig 3-29:Communication Type and termination Circuit Diagram
3-109
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.3
LAN Connection
CMH-2370 converts the sensor data which is IEC61162 into LAN protocol.
And, the data converted by CMH-2370 transfer to Display Unit via NQA-2443 Sensor LAN
Switch Unit. It can transfer the data not only receive from sensor to Display Unit but
transmit to sensor from Display Unit. CMH-2370 will be connected to NQA-2443 each
RJ-45 by an Ethernet
cable.
If it is not suggested from JRC, do not connect PC or other maker's system to JRC-LAN.
•Connecting PC or other maker's system may cause a lower radar system performance.
•Connecting PC or other maker's system may cause a lower that performance.
Either J8111 or J8112 selected by S4 will be used as an active LAN port.
And, you can select the data format either IEC61162-450 or JRC Formant by S4.
To set S4, refer to Table 3-7 below.
The location of J8111, J8112 and S4, refer to Fig 3-32:Connector location on CMH-2370
Fix the signal cable with the clamp surrounded by the dotted line in the figure below.
Table 3-7:S4 setting table
Fig 3-30:Outline of S4
SW1
LAN Setting
SW2
LAN Type
OFF
Main Channel
Use J8111
ON
Sub Channel
Use J8112
OFF
Standard
IEC61162-450
ON
JRC
JRC Format
SW3
Set Always OFF
SW4
Set Always OFF
SW4
Set Always OFF
SW6
Set Always OFF
To apply the setting, please restart CMH-2370 with the S1, because setting will be
reflected in the startup.
3-110
3 Installation of Display Unit > 3.7 Connection with Sensors
If some number of CMH-2370s are installed and connected to the same NQA-2443
Sensor LAN Unit, you should change IP address of each CMH-2370 by S3 setting.
(Refer to Table 3-8:IP Address setting table)
Fig 3-31:Outline of S3
CMH-2370 to be connected to the IAS(Integrated Automation System) or AMS(Alert
Management System) is set the operation mode:ALC(Alert LAN Converter). Also in this
case, set the IP address in refer to Table 3-8:IP Address setting table.
The location of S3, refer to Fig 3-32:Connector location on CMH-2370.
Table 3-8:IP Address setting table
S3
Position
Mode
No.
IEC61162-450
JRC Format
Main LAN
Sub LAN
Main LAN
Sub LAN
SLC1
172.16.60.107
172.17.60.107
192.168.60.107
192.168.61.107
SLC2
172.16.60.108
172.17.60.108
192.168.60.108
192.168.61.108
SLC3
172.16.60.109
172.17.60.109
192.168.60.109
192.168.61.109
SLC4
172.16.60.110
172.17.60.110
192.168.60.110
192.168.61.110
SLC5
172.16.60.111
172.17.60.111
192.168.60.111
192.168.61.111
SLC6
172.16.60.112
172.17.60.112
192.168.60.112
192.168.61.112
SLC7
172.16.60.113
172.17.60.113
192.168.60.113
192.168.61.113
SLC8
172.16.60.114
172.17.60.114
192.168.60.114
192.168.61.114
SLC9
172.16.60.115
172.17.60.115
192.168.60.115
192.168.61.115
SLC10
172.16.60.116
172.17.60.116
192.168.60.116
192.168.61.116
SLC11
172.16.60.117
172.17.60.117
192.168.60.117
192.168.61.117
SLC12
172.16.60.118
172.17.60.118
192.168.60.118
192.168.61.118
ALC1
172.16.60.119
172.17.60.119
192.168.60.119
192.168.61.119
ALC2
172.16.60.120
172.17.60.120
192.168.60.120
192.168.61.120
ALC3
172.16.60.121
172.17.60.121
192.168.60.121
192.168.61.121
ALC4
172.16.60.122
172.17.60.122
192.168.60.122
192.168.61.122
SLC
ALC
3-111
3 Installation of Display Unit > 3.7 Connection with Sensors
S3
S4
TB14
TB15
J8106
TB2
TB3
J8111
J8105
J8104
J8103
J8112
J8102
Fig 3-32:Connector location on CMH-2370
3-112
J8101
3 Installation of Display Unit > 3.7 Connection with Sensors
Fig 3-33 CMH-2370 LED
3-113
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.4
Contact Input
Connect the dry contact of other equipment to the Input port which is on CMH-2370 in
JUNCTION BOX NQE-1143.The number of Input port on CMH-2370 is 4 ports allocated at
J8107.Terminal assign of J8107, refer to Table 3-9:Terminal Assign of J8107.
Dry contact of other equipment will be connected to terminals IN and GND.
•
See Fig 3-37: Connector and TB location on CMH-2370 about location of J8107 on
CMH-2370.
• To configure the port, refer to 4.7 Setting Contacts (Contact Input/Output).
• Fix the signal cable with the clamp surrounded by the dotted line in the figure below.
• Connect the cable shield to the hex spacer surrounded by the circle in the figure below.
(Recommended crimp terminals V5.5)
So that the braided shield is not shorted to the power supply terminal block, please insulate
the cable and fix with cable tie. Please put the Extra length of the cable to the bottom of the display
unit so that the not shorted to the UPS or SENSOR LAN switch unit.
Do not apply a voltage signal to contact input ports. Because they have pulled up to 5V with
1k ohm internally, connecting a voltage signal may cause malfunction. See Fig. 3-34
Table 3-9:Terminal Assign of J8107
Terminal Number
J8107
IN1
GND1
IN2
GND2
IN3
GND3
IN4
GND4
Fig 3-34:Input port circuit diagram
3-114
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.5
Contact Output
Connect the input of other equipment to the output port which is located on CMH-2370
Serial LAN interface circuit in JUNCTION BOX NQE-1143. The number of output ports on
CMH-2370 is 8 ports allocated at J8108. Terminal assign of J8108, refer to
Table 3-10:Terminal Assign of J8108.
•
See Fig 3-37: Connector and TB location on CMH-2370 about location of J8108 on
CMH-2370.
• To configure the port, refer to 4.7 Setting Contacts (Contact Input/Output).
• Connect the cable shield to the hex spacer surrounded by the circle in the figure below.
(Recommended crimp terminals V5.5)
So that the braided shield is not shorted
to the power supply terminal block,
please insulate the cable and fix with
cable tie. Please put the Extra length of
the cable to the bottom of the display
unit so that the not shorted to the UPS
or SENSOR LAN switch unit.
Table 3-10:Terminal Assign of J8108
Terminal
Number
J8108
OUT1
RET1
OUT2
RET2
OUT3
RET3
OUT4
RET4
OUT5
10
RET5
11
OUT6
12
RET6
13
OUT7
14
RET7
15
OUT8
16
RET8
3-115
3 Installation of Display Unit > 3.7 Connection with Sensors
Each output port can be selected matched interface for your input device as below by
setting TB4-TB11, TB16 and TB17 shown in.
- Dry contact: Normally Open
- Dry contact: Normally Close
- 24V dc for Buzzer: Normally no Supply
- 24V dc for Buzzer: Normally Supply
24V dc for buzzer will be supplied from main power supply of CMH-2370 via 15A
fuse. If you set OUT as dry contact, do not set the terminal to GND on TB4 or TB5
which is matched to OUT you want.
24V
RELAY(SPDT)
OUT
RET
TB6-TB11,
TB16
and TB17
TB6-TB11,
TB16
and
Connected
to
matched
TB4 or TB5
Fig 3-35 Contact output circuit diagram
Matched TB for each OUT and RET is shown in Table 3-11 Output port and setting
jumper.
And to select Output, the terminals of each TB will be set by Short plugs shown in Fig
3-36: Output port setting by TB.
Table 3-11 Output port and setting jumper
Port
Jumper No.
24VDC Power GND
OUT1/RET1
TB6
TB4: short circuit 1 and 5
OUT2/RET2
TB7
TB4: short circuit 2 and 6
OUT3/RET3
TB8
TB4: short circuit 3 and 7
OUT4/RET4
TB9
TB4: short circuit 4 and 8
OUT5/RET5
TB17
TB5: short circuit 1 and 5
OUT6/RET6
TB16
TB5: short circuit 2 and 6
OUT7/RET7
TB11
TB5: short circuit 3 and 7
OUT8/RET8
TB10
TB5: short circuit 4 and 8
3-116
3 Installation of Display Unit > 3.7 Connection with Sensors
Dry contact output: Normally Open
24V
RELAY(SPDT)
OUT
RET
TB6-TB11, TB16 and TB17
TB4 or TB5
Dry contact output: Normally Close
24V
RELAY(SPDT)
OUT
RET
TB6-TB11, TB16 and TB17
TB4 or TB5
24V dc supply for Buzzer: Normally no Supply
24V
RELAY(SPDT)
OUT
RET
TB6-TB11, TB16 and TB17
TB4 or TB5
24V dc supply for Buzzer: Normally Supply
24V
RELAY(SPDT)
OUT
RET
TB6-TB11, TB16 and TB17
TB4 or TB5
Fig 3-36: Output port setting by TB
Maximum current of RELAY is 2A.
Do not connect the load including inrush current which exceed maximum current.
3-117
3 Installation of Display Unit > 3.7 Connection with Sensors
TB7
J8108
TB10
TB4
TB5
TB11
TB16
TB6
TB17
TB8
TB9
TB3
J8107
Fig 3-37: Connector and TB location on CMH-2370
3-118
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.6
Connections with Gyro Compasses and Electromagnetic Speed Logs
Signals from Gyro compass should be connected to J823 (1/R1, 2/S1, 3/S2, S3 and 5/R2) of CMJ-554 Gyro
Interface Circuit in the Display Unit.
Connect each Gyro Signals as follows.
Synchro-type GYROs:
Step-type
GYROs:
R1, S1, S2, S3 and R2.
1, 2, 3 and 5 (5 for Common)
Connect a Gyro equipment or equivalent that provided a below turn rate and an above update rate,
otherwise the performance of signal process and target tracking decrease.
turn rate
update rate
Standard craft
12°/sec
40Hz
High speed craft
20°/sec
40Hz
A Signal from LOG should be connected to J823 (P+, P-) of CMJ-554 Gyro Interface Circuit in the Display
Unit. Connect a LOG Signal as follows.
Pulse-type LOGs :
P+, P-
• Connect the cable shield to the hex spacer surrounded by the circle in the figure below.
(Recommended crimp terminals V5.5)
So that the braided shield is not shorted to the power supply terminal block, please insulate
the cable and fix with cable tie. Please put the Extra length of the cable to the bottom of the display
unit so that the not shorted to the UPS or SENSOR LAN switch unit.
After connecting, refer to the 3.7.7 Settings for CMJ-554 GYRO I/F Circuit for setting.
3-119
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.7
Settings for CMJ-554 GYRO I/F Circuit
Fig 3-38: CMJ-554 Gyro Interface Circuit
Table 3-12 Setting table of Gyro Interface Circuit
TB1 Settings
Description
SYNC
Synchro type Gyro compass
STEP
Step type Gyro compass
Table 3-13 Setting table of Gyro Interface Circuit TB401, TB402, TB403, TB19
TB401, TB402, TB403, TB19 Settings
Description
1-2 SHORT CIRCUIT
Factory default
2-3 SHORT CIRCUIT
Low voltage settings
Table 3-14 Setting table of Gyro Interface Circuit TB10
TB10 Settings
Description
SHORT CIRCUIT
Factory default
OPEN
Not allowed
NOTE: If it is not suggested from JRC office, do not set “OPEN” the TB10 of
Gyro Interface Circuit.
•It may cause a lower radar system performance.
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3 Installation of Display Unit > 3.7 Connection with Sensors
Table 3-15 Setting table of Gyro Interface Circuit S1
S1 Settings
Description
OFF
Gyro signals will be disconnected.
ON
Gyro signals will be connected.
Table 3-16 Setting table of Gyro Interface Circuit S2
S2 SETTINGS
Simulator
GYRO SIM
LOG SIM
ON
ON
Simulator OFF
OFF
Simulator
ON
ON
Simulator
OFF
ON
NC
Table 3-17 Setting table of Gyro Interface Circuit S3
S3 SETTINGS
GYRO
GYRO TYPE "STEP"
ON
SETTING
GYRO TYPE "SYNC"
OFF
GYRO RATIO
RATIO 36x
ON
ON
RATIO 90x
ON
OFF
RATIO 180x
OFF
ON
RATIO 360x
OFF
OFF
GYRO
Direction 'REVERSE'
ON
DIRECTION
Direction 'NORMAL'
OFF
LONG
ON
TIME
SHORT
OFF
LOG ALARM
LOG ALARM
GYRO ALARM
ON
OFF
RATIO 100P
ON
ON
LOG
RATIO 200P
ON
OFF
SETTING
RATIO 400P
OFF ON
RATIO 800P
OFF OFF
3-121
3 Installation of Display Unit > 3.7 Connection with Sensors
Connection procedure with Gyro compass
1) Turn S1 off.
Gyro Compass and Gyro Interface Circuit will be disconnected.
2)
Switch the TB1 for the type of your Gyro compass.
Synchro-type Gyro Compass: Set TB1 to “SYNC”
Step-type
Gyro Compass: Set TB1 to “STEP”
3) Set S3 for your Gyro compass and Speed log according to S3 Table 3-17 Setting table of Gyro
Interface Circuit S3.
S3-1
Gyro Setting (STEP / SYNC)
S3-2/3
Gyro Ratio
S3-4
The direction of rotation
S3-5
Gyro alarm time (LONG / SHORT)
S3-6
Log alarm
S3-7/8
Log setting
(ON / OFF)
4) Set TB401, TB402, TB403 and TB19 as follows if your Gyro compass signals are less than
22V. .
1-2 SHORT CIRCUIT:
Factory default.
2-3 SHORT CIRCUIT:
Set this if voltages of Gyro signals are less than 22V.
5) Connect your Gyro compass and Speed log to J823 of CMJ-554 Gyro interface circuit as
follows.
Table 3-18 Output Port of Gyro Interface Circuit
Gyro and Log
Synchro Gyro
Step Gyro
Pulse Log
J823
Description
R1, S1, S2, S3 and R2.
24 - 115Vac
(50 / 60 / 400Hz)
1, 2, 3 and 5 ( 5 for common )
21.6 - 70V
P+, P-
0-50V, Vth = 2V.
(5V, 1k ohm Internal Pull-up)
6) Turn S1 on.
Your Gyro Compass will be connected to Gyro Interface Circuit.
7) Check your radar echo and true bearing value to make sure that your gyro compass is working
correctly.
8) Set S3-4 “Reverse” if your radar echo and true bearing have reverse rotation.
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3 Installation of Display Unit > 3.7 Connection with Sensors
Setting Examples for some Gyro Compasses
item
Gyro Compasses
Repeater Motors
(For reference only)
Manufacture
ES-2/11
GLT-100~103/105/106K/107/1104,
NJZ-501(R501)
東京計器
TOKYO KEIKI
(JAPAN)
スペリー
Sperry
(U.S.A)
横河電機
YOKOGAWA
(JAPAN)
ES-11A, GM-11/11A/21/110/120,
MS-2000/3000
PR-222R/226/237/237-L
/1*8*/2022/2023/22**,
TG-200
GLT-201/202/203,
MK-14/14T,
MKE-1/14T,
MOD-1/2/T,
PR-500/2502/2503/2507/2507L
/3507/4507/5507,
SR-130/140,
TG-100/5000
ES-16
SR-120/220
CMZ-700D
ES140/160
PR-26**/6*6*/6*7*,
SR-140/160
TG-6000/8000
プラート社
C. PLATH
(Germany)
TB1
setting
Synchro Motor
INMS
(TS63N7E13)
(36X)
115V AC
60Hz
OFF ON
ON
SYNC
Synchro Motor
TSAN60E11
(90X)
110V AC
60Hz
OFF OFF
ON
SYNC
Step Motor
GA-2001G
Drawing# 103590810
600 excitation
(180X)
70V DC
ON ON
OFF
STEP
ON ON
OFF
STEP
Step Motor
GA-2001G
Drawing# 103590820
150 excitation
(180X)
35V DC
24V DC
C-1A/2/3/E,
HOKUSHIN PLATH-55/C,
PLATH HKRK-C3
Synchro Motor
YM-14
TS-19
(360X)
60V AC
60Hz
OFF OFF
OFF
C1JR, C-1JUNIOR,
CMZ-200A/300,
D-1,
IPS, IPS-2-H2/2B/2B-H2C/5,
KM008, KR-053,
PLATH NAVIGAT-1,
PT11-H2/21/21-H2
Synchro Motor
PY76-N2
(360X)
100V AC
50/60Hz
OFF OFF
OFF
SYNC
Step Motor
BZ-2191
(180X)
50V DC
ON
ON
OFF
STEP
Synchro Motor
NB23-91
(360X)
50V AC
50Hz
OFF OFF
OFF
SYNC
Synchro Motor
YM14A
(360X)
50V AC
50Hz
OFF OFF
OFF
SYNC
1351,
アーマーブラウン
MK-1~7/10/20, MKL-1,
ARMA BROWN
NOD-4, NB-23-88,
(France)
SERIE, SGB-1000
アンシッツ
ANSCHUTZ
(Germany)
Gyro Select Swiches
(S3, TB1 located on the CMJ-554)
S3 settings
Excitation Voltage
110-301, 139-31,
ANSCHUTZ-1~6/12/14/Z,
GM-BH, K8051,
NB23-126, Z0658U
NAVIGAT 763-331E,
PLATH NAVIGAT-II/III
*:Numeric Number
3-123
OFF
SYNC
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.8
Connection with Analog Sensors
CMJ-560(AOC) should be connected to TB801 of CMH-2370(SLC) when connecting the Analog
Sensors. CMJ-560 can connect to 4 Analog Sensors.
Analog Sensors should be connected to J842 (Ch1:1-2pins, Ch2:3-4pins, Ch3:5-6pins,
Ch4:7-8pins).
• Connect the cable shield to the hex spacer surrounded by the circle in the figure below.
(Recommended crimp terminals V5.5)
So that the braided shield is not shorted to the power supply terminal block, please insulate
the cable and fix with cable tie. Please put the Extra length of the cable to the bottom of the display
unit so that the not shorted to the UPS or SENSOR LAN switch unit.
Set the TB2-TB7, refer to the description from the next page.
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3 Installation of Display Unit > 3.7 Connection with Sensors
According to the output specifications of Analog Sensors, set as follows.
【Setting for Voltage Signal Input】
When Analog Sensors output specifications is Voltage, set as follows.
・Input Signal Range :-10V~+10V
Setting Table of Voltage Signal Input
Channel
Reference
TB2
Short-circuit the pins 1-2 or Open all pins
TB7
Short-circuit the pins 1-5
TB3
Short-circuit the pins 1-2 or Open all pins
TB7
Short-circuit the pins 2-6
TB4
Short-circuit the pins 1-2 or Open all pins
TB7
Short-circuit the pins 3-7
TB5
Short-circuit the pins 1-2 or Open all pins
TB7
Short-circuit the pins 4-8
Setting
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3 Installation of Display Unit > 3.7 Connection with Sensors
【Setting for Current Signal Input】
When Analog Sensors output specifications is Current, set as follows.
・Input Signal Range :4mA~20mA
Setting Table of Current Signal Input
Channel
Reference
TB2
Short-circuit the pins 2-3
TB6
Short-circuit the pins 1-5
TB3
Short-circuit the pins 2-3
TB6
Short-circuit the pins 2-6
TB4
Short-circuit the pins 2-3
TB6
Short-circuit the pins 3-7
TB5
Short-circuit the pins 2-3
TB6
Short-circuit the pins 4-8
Setting
3-126
3 Installation of Display Unit > 3.7 Connection with Sensors
3.7.9
Backup of sensor signal
There is a receiving port (J4302, J4303) for sensor signal backup on the NDC-1590 Center Control
Unit. Wire as follows if necessary.
1)Strip the signal cable exterior about 80cm. And wire as shown in the figure below.
2)Fix the cable to the cable tie clip by the two point refer to shown below.(Refer to figure below)
3)Crimp a round terminal to the cable shield. (Recommended crimp terminals V5.5) And fix it to the
bolt on the bottom of the frame.
So that the braided shield is not shorted to the power supply terminal block, please insulate
the cable and fix with cable tie. Please put the Extra length of the cable to the bottom of the display
unit so that the not shorted to the UPS or SENSOR LAN switch unit.
Please connect the sensor to refer to the table on the next page.
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3 Installation of Display Unit > 3.7 Connection with Sensors
Table 3-19 Terminal assign of J4303
Signal Name
I/O
Specification
IN
IEC61162-1 A
IN
IEC61162-1 B
IN
IEC61162-1 A
GPS-RX
Detail
GPS backup signal
SDME-RX
SDME backup signal
IN
IEC61162-1 B
―
Contact out
―
―
―
PWR FAIL
Normal-Close
Refer to 3.10
Connection with
WMRST
Contact out
BNWAS
Normal-Open
IEC61162-1 A
IEC61162-1 B
Fig 3-39 IEC61162-1 Input circuit diagram
3-128
3 Installation of Display Unit > 3.7 Connection with Sensors
Table 3-20 Terminal assign of J4302
Signal Name
AIS-RX
GYRO-RX
I/O
Specification
IN
IEC61162-2 A
IN
IEC61162-2 B
―
IEC61162-2 C
IN
IEC61162-2 A
IN
IEC61162-2 B
―
IEC61162-2 C
Detail
AIS backup signal
GYRO backup
IEC61162-2 A
IEC61162-2 B
IEC61162-2 C
Fig 3-40 IEC61162-2 Input circuit diagram
3-129
signal
3 Installation of Display Unit > 3.8 Connection with ECDIS
3.8 Connection with ECDIS
3.8.1
Radar Overlay
Connection for the radar overlay is different depending on the presence or absence of NQE-3141
inter-switch.
Connection of JMR-9200/7200Series and
Connection of JMR-9200/7200 Series
Interswitch
JAN-901/901M/701, JAN-2000
and JAN-9201,JAN-7201
or third party ECDIS.
Connect the CQD-2273 Radar I/F circuit
J836 EX_OUT(RADAR side)
When
there
is
no
Connect the CQD-2273 Radar I/F Circuit
VD+_OUT, VD-_OUT,
interswitch
J836 EX_OUT(RADAR side) and
TRG+_OUT, TRG-_OUT,
(Can connect only one
J832 SCANNER(ECDIS side).
BP+_OUT, BP-_OUT,
ECDIS)
Refer to the below figure.
BZ+_OUT, BZ-_OUT
and
VD,TRG,BP,BZ signal input terminal
(ECDIS side).
When
there
is
interswitch
(Can connect
Connect via the NQE-3141-4A/8A Interswitch.
Refer to the 5.1 Installation of Interswitch Unit and 5.1.3 NQE-3141-4A Inter-board
two or
connection diagram.
more ECDIS)
When do the radar overlay without interswitch, connect the VD, TRG, BP, BZ terminal as follow.
RADAR-ECDIS connection diagram for Radar overlay(without interswitch)
When need to connect the two or more ECDIS, use the interswitch.
3-130
3 Installation of Display Unit > 3.8 Connection with ECDIS
3.8.2
Target Tracking
Connection for the target tracking is different depending on the ECDIS model. Refer to the below table.
Receiver
of
the
target
Output
tracking information
Specification
JAN-9201, JAN-7201
LAN
Connection
Connect the RADAR output the target tracking information and
ECDIS via the NQA-2443 SENSOR LAN SW.
JAN-901B/701B,
Target tracking information is output from CMH-2370 Serial LAN
JAN-901/901M/701,
Serial
interface circuit(RADAR side).
JAN-2000
Connect the CMH-2370 and ECDIS with the Serial.
or third party ECDIS
On both the LAN and Serial, need to set the software. Refer to Chapter4 Initial Setting.
3-131
3 Installation of Display Unit > 3.9 Connection with RADAR
3.9 Connection with RADAR
3.9.1
Radar Overlay
When the JMA-9100/7100, JMA-5300MK2, JMA-900B or third party RADAR overlay the echo to the
JAN-9201.7201, connection for the radar overlay is different depending on the presence or absence of
NQE-3141 inter-switch. Refer to the below table.
Connection of JAN-9201/7201 and
Connection of JAN-9201/7201 and JMA-9100/7100,
JMR-9200/7200Series
JMA5300MK2, JMA-900B or third party RADAR
Interswitch
Connect the CQD-2273 Radar I/F circuit
Connect the CQD-2273 Radar I/F
When
there
is
no
interswitch
(Can connect Maximum
two ECDIS)
circuit J836 EX_OUT(RADAR side)
and J832 SCANNER(ECDIS side)
Second ECDIS:
is
interswitch
VD+,VD-,TRG+,TRG-,BP+,BP-,BZ+,BZ-.
Connect to the J832 ISW_IN(ECDIS side)
J834 ISW_IN(ECDIS side)
there
J832 SCANNER(ECDIS side)
Second ECDIS:
Connect to the
ISWI_VD+, ISWI _VD-, ISWI _TRG+, ISWI _TRG-,
(Refer to figure below)
When
VD, TRG ,BP ,BZ output terminal and
ISWI _BP+, ISWI _BP-, ISWI _BZ+, ISWI _BZ-.
Connect via the NQE-3141-4A/8A Interswitch.
Refer to the 5.1 Installation of Interswitch Unit and 5.1.3 NQE-3141-4A Inter-board
(Can connect
more RADAR)
two or
connection diagram.
Third party RADAR cannot connect to the Interswitch.
When do the radar overlay without interswitch, connect the VD, TRG, BP, BZ terminal as follow.
RADAR-ECDIS connection diagram for Radar overlay(without interswitch)
When need to connect the three or more RADAR, use the interswitch.
3-132
3 Installation of Display Unit > 3.9 Connection with RADAR
3.9.2
Target Tracking
Connection for the target tracking is different depending on the RADAR model. Refer to the below table.
Receiver
of
the
target
Output
tracking information
Specification
JMR-9200/7200 Series
LAN
JMA-9100/7100,
JMA-5300MK2, JMA-900B
or Third party RADAR
Connection
Connect the RADAR output the target tracking information and
ECDIS via the NQA-2443 SENSOR LAN SW.
Connect the target tracking information from JMA-9100/7100,
Serial
JMA-5300MK2, JMA-900B or third party RADAR to the IEC61162-1
RX terminal on the SLC(ECDIS side).
On both the LAN and Serial, need to set the software. Refer to Chapter4 Initial Setting.
3-133
3 Installation of Display Unit > 3.10 Connection with BNWAS
3.10 Connection with BNWAS
The display unit of this product has the function to input/output the various contact signals for the Bridge
Navigational Watch Alarm System (BNWAS*). Connect necessary signals by referring to the table below.
Terminal
block
CMH-2370
SLC J8108
CMH-2370
SLC J8108
NDC-1590
J4303
Signal
name
SYS ALM
ARPA
ALM
PWR FAIL
CMH-2370
SLC J8107
SYS ACK
IN
CMH-2370
SLC J8107
ARPA
ACK
IN
Acknowledge input of Dangerous ship
alarm.
CMH-2370
SLC J8108
NDC-1590
J4303
ACK OUT
OUT
Acknowledge output of alarms.
WMRST
OUT
Watch Man alarm reset signal.
Direction
Description
OUT
System alarm status is outputted.
OUT
Dangerous ship alarm status is outputted.
OUT
AC Low Voltage is detected.
DC24V must be connected to NBD-913 for
system backup.
Acknowledge input of system alarm.
Notes
Set to jumper normal open or
Close *1
Set to jumper normal open or
Close *1
Normal-Close
“False” indicates Open or
Disconnection and “True” indicates
Closed.
“False” indicates Open or
Disconnection and “True” indicates
Closed.
Set to jumper normal open or
Close *1
Normal-Open
*1 Serial LAN interface circuit jumper setting
Normal Close Setting
Normal Open Setting
24V Out Setting
(*) BNWAS
Bridge Navigation Watch Alarm System
3-134
3 Installation of Display Unit > 3.11 Ground Connection
3.11 Ground Connection
All sorts of pulse circuits are built in this equipment. They radiate a high-frequency component of
Pulse wave as an electromagnetic wave from their circuit itself or cables between the equipment
And might interfere as receiver noise by connecting with a receiving antenna or cable of radio
Communication equipment. A general effective method is shown as follows as a measure to
counter interference for this kind of case.
3.11.1 Shield for Equipment
Covers for the purpose of shielding are installed where they are necessary on each component of
this equipment. Tighten up screws on the equipment thoroughly not to reduce their effect.
3.11.2 Cables for Equipment
Always use specified cables for the connection between components.
Pay enough attention to the connection of cables and processing their end portion.
So that the braided shield is not shorted to the power supply terminal block, please insulate the cable and fix
with cable tie. Please put the Extra length of the cable to the bottom of the display unit so that the not shorted
to the UPS or SENSOR LAN switch unit.
3.11.3 Mounting Location
The equipment is shielded sufficiently, but not completely. Set up very carefully a surrounding
cable etc. when you set up the equipment.
3.11.4 Grounding
Ground the equipment to the nearest hull earth terminal thought it might not be an effective method
because the state changes considerably by the structure of the hull and the position of radio
equipment in relation to this equipment. At the same time, ground the problematic radio equipment
by the shortest distance, too
When installing the stand alone type, copper plate have been attached to the Display Unit Mount Kit.
Fasten the copper plate to the unpainted position surrounded by the circle in the figure below and
ground the copper plate to the hull earth.
Display Unit Mount Kit grounding position
3-135
3 Installation of Display Unit > 3.12 Installation of Power Cable
3.12 Installation of Power Cable
Before installing power cable, always make sure to turn off the circuit
breaker of main power line. Otherwise, it may cause an electric shock or
malfunction.
3.12.1 Input Voltage Specification
・AC-Input
Voltage
:100 to 115VAC,220 to 240VAC
Voltage ranges
:85 to 264VAC
Overvoltage Protection
:295VAC±2V,
Frequency
:50Hz/60Hz
Input Current
:Max 6.8A(100VAC)/3.4A(220VAC)
Over current Protection
:equipped
・DC-input
Voltage
:24VDC
Voltage ranges
:21.6 to 31.2VDC
Overvoltage Protection
:42V
Input Current
:Max 16A
Over current Protection
:equipped
3-136
3 Installation of Display Unit > 3.12 Installation of Power Cable
3.12.2 Connecting Power Cable
1) Remove 4 screws of the front cover in processing unit.
2) After confirming the circuit breaker of the main power line is “OFF”, connect the AC power cable to the
AC-U and AC-V terminal on the CQD-2312 Relay terminal. Also, DC power cable connect to the DC+ and
DC- terminal on the Relay terminal. Refer to figure below.
3-137
3 Installation of Display Unit > 3.13 Initialization for the specified model
3.13 Initialization for the specified model
The initialization of the following is necessary to use when the equipment will be shipped from the stock of the
each unit. Turn on the AC/DC circuit breaker (refer to the figure below). And proceed to Chapter 4.
1) Connect the USB flash drive included initialization tool to the Display Unit. And turn on both AC and DC.
Before turn on the Display Unit, please make sure that wired correctly.
The initializaiton tool is autorun. When connect the USB flash drive, initialization tool is executed.
Can not use the USB flash drive have the security function.
For the details that how to obtain the data files for NDC-1590-CCU, please contact our head office
or a nearby branch or local office beforehand.
2) The system is turned on automatically only after the first time turning on the main switch. And after a few
seconds, the system of the power is down and up automatically. This is a normal behavior. Go to next
step.
When the system will not boot up, check the ship's main and the main switch of PSU and press the power
button on the trackball operation unit.
3) Initialization tool is started.
3-138
3 Installation of Display Unit > 3.13 Initialization for the specified model
3) Initialization tool is started.
The following describes the outline of Initialization tool.
3-139
3 Installation of Display Unit > 3.13 Initialization for the specified model
4) Initialize according to the following procedures before using the equipment.
Step1:
Date and Name
Input the inspector date, inspector name. And then click the [SET] button.
Step2:
Licence Copy
The Hardware ID of HASP is compared with the Hardware ID in the licence file.
If they match, the licence file is copied over.
HASP: Hardware Against Software Piracy (included NDC-1590 Central Control Unit)
If they mismatch, following dialog is displayed.
3-140
3 Installation of Display Unit > 3.13 Initialization for the specified model
Step3:
Model
Select each item from the drop-down list. Model name is displayed in the Model window. And then
click the [SET] button.
After clicking the [SET] button, the following image is displayed.
a) When installing the stand alone type
Paste the Name Label same as the image to the position shown in the figure below.
All model name label each two have been attached to the display unit. Please discard the label which model
name does not match or remained.
In case of JMR-9230-S
3-141
3 Installation of Display Unit > 3.13 Initialization for the specified model
b) When installing the desktop type or flush mount type
All model name label each two have been attached to the display unit. Paste the Name Label same as
the image to the position shown in the figure below. Back the other label of the same model name to the
bag and attach the bag to the NDC-1590. Please discard the label which model name does not match.
Name label
pasting position
After pasting, please press the [OK] button. The following screen is displayed and start-up screen will be
changed automatically. It will take a few minutes to process. Please press any key because it is a key input
required at the end. After processing, please press any key because key input required at the end. Resolution
and splash screen is automatically changed, and then the following dialog is displayed.
3-142
3 Installation of Display Unit > 3.13 Initialization for the specified model
Then the following screen is displayed. Make sure that the model name that appears during a restart and
model name selected in step 3 matches.
Restart by clicking the [RESTART] button. Or restart automatically after 30 seconds.
Step4:
Checking for the splash screen
After restarting, the following dialog is displayed. Confirm that the Model name displayed on the splash
screen and the Name Label pasted in step 3 is match.
● When the model name matched, click the [Yes] button. Proceed to the next step.
● When the model name mismatched, click the [No] button.
Initialization tool will return to the screen of step3. Please check the equipment information again.
The following dialog is displayed. Peel off the Name Label pasted in step 3, and then click the [OK]
button.
3-143
3 Installation of Display Unit > 3.13 Initialization for the specified model
Step5:
Serial Number
The following dialog is displayed. Input the serial number of each unit. And then click the [SET]
button.
- Please make sure that serial number and manufacturing number indicated are
matched.
- When setting the desktop type or flush mount type, may not enter the serial number of the monitor.
- When input the JB(Junction box) serial number , enter the barcode number and suffix of JB.
- May not enter the serial number of SLC, AOC, GIF, RIF, SLC#2.
Step6:
Software Update
Update is started. It takes several ,minutes. Display unit will restart several times during the
software update. This is normal behavior.
3-144
3 Installation of Display Unit > 3.13 Initialization for the specified model
Step7:
IP Address
Set the IP Address by selecting the Unit No. from dropdown list, and then click the [SET] button.
Step8:
Cleanup
The tool deletes unnecessary files automatically.
3-145
3 Installation of Display Unit > 3.13 Initialization for the specified model
Step9:
Result
Click the [FINISH] button. The resulting CSV file is output.
[Display the path of the outputted csv file]
The initialize ends above.
3-146

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