JRC JMA-5312-6/6HS Installation Manual
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JRC JMA-5312-6/6HS Installation Manual

Marine radar equipment
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JMA-5312-6/6HS
JMA-5312-6/6HS
JMA-5322-7/9/6HS
JMA-5322-7/9/6HS
JMA-5332-12
JMA-5332-12
INSTALLATION
INSTALLATION
MARINE RADAR
MARINE RADAR
EQUIPMENT
EQUIPMENT
MANUAL
MANUAL

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Summary of Contents for JRC JMA-5312-6/6HS

  • Page 1 JMA-5312-6/6HS JMA-5312-6/6HS JMA-5322-7/9/6HS JMA-5322-7/9/6HS JMA-5332-12 JMA-5332-12 MARINE RADAR MARINE RADAR EQUIPMENT EQUIPMENT INSTALLATION INSTALLATION MANUAL MANUAL...

  • Page 3: Table Of Contents

    OVERVIEW INSTALLATION OF THE SCANNER SELECTING THE INSTALLATION POSITION ........2-1 INSTALLATION PROCEDURE ..............2-7 CONNECTING THE INSTALLATION CABLE NKE-2103 (JMA-5312-6/6HS).................2-11 CONNECTING THE INSTALLATION CABLE NKE-2254 (JMA-5322-7/9/6HS)................2-13 CONNECTING THE INSTALLATION CABLE NKE-1130 (JMA-5332-12) ..................2-15 INSTALLATION OF THE DISPLAY UNIT SELECTING THE INSTALLATION POSITION ........
  • Page 4 3.20 INSTALLATION OF THE POWER CONTROL UNIT (NQE-3167) (OPTION) ....................3-41 3.20.1 CONNECTION WITH NKE-2103 (JMA-5312-6/6HS) / NKE-2254 (JMA-5322-7/9/6HS) SCANNER UNITS......3-41 3.20.2 CONNECTION WITH NKE-1130 (JMA-5332-12) SCANNER UNIT...3-41 3.20.3 CONNECTION TO DISPLAY UNIT ............3-42 3.20.4 EQUIPMENT CABLE END PROCESSING........3-42 3.21 INSTALLATION OF THE LAN CABLE (OPTION)........3-43 3.21.1 CONNECTION TO NDC-1417 RADAR PROCESSOR UNIT.....3-44...
  • Page 5 FIG.10 OUTSIDE DRAWING OF NQE-3151A JUNCTION BOX (JMA-5332-12) FIG.11 OUTSIDE DRAWING OF NQE-3141-4A INTERSWITCH UNIT (OPTION) FIG.12 OUTSIDE DRAWING OF NQE-3141-8A INTERSWITCH UNIT (OPTION) FIG.13 OUTSIDE DRAWING OF NBA-5111 RECTIFIER UNIT (JMA-5312-6/6HS, JMA-5322-7/9/6HS : OPTION, JMA-5332-12 : STANDARD) FIG.14 OUTSIDE DRAWING OF NQE-3167 POWER CONTROL UNIT (OPTION) FIG.15 GENERAL SYSTEM DIAGRAM OF JMA-5312-6/6HS RADAR...
  • Page 6 FIG.33 INTERCONNECTION DIAGRAMS OF JMA-5312-6/6HS RADAR FIG.34 INTERCONNECTION DIAGRAM OF JMA-5322-7/9/6HS RADAR FIG.35 INTERCONNECTION DIAGRAM OF JMA5332-12 RADAR FIG.36 INTERCONNECTION DIAGRAMS OF JMA-5312-6/6HS RADAR AND NQE-3167 POWER CONTROL UNIT (OPTION) FIG.37 INTERCONNECTION DIAGRAM OF JMA-5322-7/9/6HS RADAR AND NQE-3167 POWER CONTROL UNIT (OPTION) FIG.38 INTERCONNECTION DIAGRAM OF JMA5332-12 RADAR AND NQE-3167...
  • Page 7 OVERVIEW INSTALLATION OF THE SCANNER INSTALLATION OF THE DISPLAY UNIT INITIAL SETTING MEASURES AGAINST NOISE INTERFERENCE IN THE RADIO EQUIPMENT APPENDIX...

  • Page 9: Overview

    SECTION 1 OVERVIEW...
  • Page 10 3) The standard cable length for installing the radar JMA-5300MK2 is as shown in the table below. If there is a need for using a cable longer than the standard length, notify JRC of it beforehand. A cable longer than the standard length may hider performance of the radar, so give it careful consideration when planning the installation.

  • Page 11: Installation Of The Scanner

    SECTION 2 INSTALLATION OF THE SCANNER 2.1 SELECTING THE INSTALLATION POSITION ........2-1 2.2 INSTALLATION PROCEDURE ..............2-7 2.3 CONNECTING THE INSTALLATION CABLE NKE-2103 (JMA-5312-6/6HS) ................2-11 2.4 CONNECTING THE INSTALLATION CABLE NKE-2254 (JMA-5322-7/9/6HS) ................2-13 2.5 CONNECTING THE INSTALLATION CABLE NKE-1130 (JMA-5332-12) ..................2-15...

  • Page 12: Selecting The Installation Position

    200mm 以上 オフセット最小 min-height 必要最小高さ reinforcing member 補強材 Fig.1 Installation of antenna Table 1 Swing circle RADAR model Antenna model (length) Swing circle JMA-5312-6/6HS NKE-2103-6/6HS (6 feet) 1910mm JMA-5322-6HS NKE-2254-6HS (6 feet) JMA-5322-7 NKE-2254-7 (7 feet) 2270mm JMA-5322-9 NKE-2254-9...
  • Page 13 The A-B line, or L line of sight from the radar antenna to the bow of the ship should hit the surface of the sea in not more than 500 m or twice the ship length, depending which value is smaller, for all load and trim conditions. JMA-5312-6/6HS/JMA-5322-7/9/6HS: θ = 10° JMA-5332-12: θ...
  • Page 14 • If it is considered that sufficient installation height cannot be provided when the antenna is installed directly on the roof of the wheelhouse, use a mounting rack or radar mast (FIG.3). Normally, when the antenna 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 antenna.
  • Page 15 • When installing two or more scanners, scanners in close proximity should have a minimum vertical elevation separation angle of 20 and a minimum vertical separation of 1m where possible, so that those scanners do not enter each other's vertical beam width range. 20°(min) Fig.5 Installing two or more scanners •...
  • Page 16 • For radar installations with two radar systems, where possible, the antennas should be placed in such a way as to minimize the blind sectors. • Magnetron which has strong magnetic force is included in the antenna. Install the antenna at least 6 meters away from nautical instruments including magnetic compasses and chronometers.
  • Page 17 • Eliminating the interference on frequencies used for marine communications and navigation due to operation of the radar. All cables of the radar are to be run away from the cables of radio equipment. (ex. Radiotelephone. Communications receiver and direction finder, etc.) Especially inter-wiring cables between scanner unit and display unit of the radar should not be run parallel with the cables of radio equipment.

  • Page 18: Installation Procedure

    INSTALLATION PROCEDURE 1) Precautions for transporting and storing the antenna • An scanner is a heavy load. Be very careful about handling it. • Do not allow the scanner fall on its side while it is stored or being installed. •...

  • Page 19: Jma-5312-6/6Hs

    Table 2 Length of antenna mounting bolts and tightening torque Thickness of RADAR model Scanner Unit Mount Base Bolt Torque (N-m) (mm) JMA-5312-6/6HS NKE-2103-6/6HS M10×55(mm) SUS304 JMA-5322-7/9/6HS NKE-2254-7/9/6HS M12×65(mm) JMA-5332-12 NKE-1130...
  • Page 20 c) Use of washer and corrosion-resistant measures • At the location where a bolt's head or nut comes in contact with the antenna 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.10).
  • Page 21 d) Grounding and corrosion-resistant measures • Ground the antenna 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.11). Fig.11 Grounding and corrosion-resistant measures 2-10...

  • Page 22: Connecting The Installation Cable Nke-2103 (Jma-5312-6/6Hs)

    CONNECTING THE INSTALLATION CABLE NKE-2103 (JMA-5312-6/6HS) 2-11...
  • Page 23 2-12...

  • Page 24: Connecting The Installation Cable Nke-2254 (Jma-5322-7/9/6Hs)

    CONNECTING THE INSTALLATION CABLE NKE-2254 (JMA-5322-7/9/6HS) 2-13...
  • Page 25 2-14...

  • Page 26: Connecting The Installation Cable Nke-1130 (Jma-5332-12)

    CONNECTING THE INSTALLATION CABLE NKE-1130 (JMA-5332-12) 2-15...
  • Page 27 2-16...

  • Page 29: Installation Of The Display Unit

    SECTION 3 INSTALLATION OF THE DISPLAY UNIT 3.1 SELECTING THE INSTALLATION POSITION ........3-1 3.2 INSTALLATION OF THE LCD MONITOR..........3-2 3.3 INSTALLATION OF THE OPERATION UNIT........... 3-3 3.4 INSTALLATION OF THE POWER CABLE (CFQ-5436) ......3-4 3.5 INSTALLATION OF THE CABLE (CFQ-6912) BETWEEN THE RADAR PROCESS UNIT AND THE SCANNER......

  • Page 30: Selecting The Installation Position

    The display unit consists of: Radar process unit: NDC-1417 Operation unit: NCE-5171 LCD monitor NWZ-173 SELECTING THE INSTALLATION POSITION Select a display unit installation position by taking into consideration the following: 1) Install the display unit so that the user can easily conduct observations. 2) Install the display unit at least the compass safe distance away from nautical instruments including magnetic compasses and chronometers.

  • Page 31: Installation Of The Lcd Monitor

    INSTALLATION OF THE LCD MONITOR 1) Installation of the LCD monitor Install the LCD monitor by taking into consideration the following: <1> Install the LCD monitor in a convenient location so that when the user is facing the bow the user can observe the LCD panel to find the target direction.

  • Page 32: Installation Of The Operation Unit

    INSTALLATION OF THE OPERATION UNIT 1) Installation of the operation unit The operation unit can be installed at any place as far as it is located within 5 meters from the radar process unit. 2) Connecting the operation unit to the radar process unit The operation unit is connected to the radar process unit with one cable.

  • Page 33: Installation Of The Power Cable (Cfq-5436)

    INSTALLATION OF THE POWER CABLE (CFQ-5436) This radar equipment comes with 5-m-long cables with a connector. Wiring table of the cable CFQ-5436 Color Number of wires / Cross-sectional Polarity diameter(mm) area(mm) 50/0.18 1.25 50/0.18 1.25 50/0.18 1.25 Black 50/0.18 1.25 -...
  • Page 34 2) Connecting the cable to the radar process unit Connect the CFQ-5436 connector to the connector for which "POWER" is engraved at the rear of the radar process unit cabinet. Turn the plug attached to the connector until it cannot be turned any further. POWER SCANNER VIDEO...

  • Page 35: Installation Of The Cable (Cfq-6912) Between The Radar Process Unit And The Scanner

    (CFQ-6912) BETWEEN THE RADAR PROCESS UNIT AND THE SCANNER The cable CFQ-6912 is used to connect the radar process unit to the scanner. For this radar equipment, use the following cables having a connector. Cable length JRC code Remarks CFQ-6912-20 Standard CFQ-6912-30...
  • Page 36 Cable CFQ-6912 wiring table PIN number Color Wire material Signal name Blue (thick), gray (thick) AWG16 MOTOR- Purple (thick), brown (thick) AWG16 MOTOR- White (thick), orange (thick) AWG16 MOTOR+ Red (thick), green (thick) AWG16 MOTOR+ Black (thick), light blue AWG16 TRX- (thick) Black...

  • Page 37: Connecting To The Gps Receiver

    2) When using other maker's GPS receiver or an NMEA data output device When receiving NMEA data from JRC's NMEA data output device other than ones mentioned above or other maker's GPS receiver, remove the radar process unit cabinet cover, and connect the signal line to the...
  • Page 38 4) NMEA0183 standard input/output sentence Input sentence $xxGGA Global Positioning System Fix Data $xxGLL Geographic Position – Latitude/Longitude $xxGNS GNSS fix data $xxMTW Water temperature $xxMWD Wind direction and speed $xxMWV Wind speed and angle $xxRMA Recommended minimum specific LORAN-C data $xxRMB Recommended Minimum Navigation Information $xxRMC...

  • Page 39: Connecting To The Gps Compass

    Connection to JRC's GPS compass JLR-10 is possible. 1) When using JRC's cable CFQ-6934 Using JRC's dedicated cable CFQ-6934 makes it possible to easily connect to JLR-10. Using the cable also makes it possible to receive bearing signals from JLR-10 as well as receive latitude and longitude information as NMEA data.
  • Page 40 2) Procedure for not using a dedicated cable When receiving bearing information data from the GPS compass, remove the radar process unit cabinet cover, and connect the signal line to the terminals located on the terminal board as shown in the following table: Signal name GPS compass connector side...

  • Page 41: Jlr-20/30

    Connection to JRC's GPS compass JLR-20/30 is possible. 1) When using JRC's cable CFQ-5469 Using JRC's dedicated cable CFQ-5469 makes it possible to easily connect to JLR-20/30. Using the cable also makes it possible to receive bearing signals from JLR-20/30 as well as receive latitude and longitude information as NMEA data.

  • Page 42: Other Magnetic Compass

    2) Procedure for not using a dedicated cable When receiving bearing information data from the GPS compass, remove the radar process unit cabinet cover, and connect the signal line to the terminals located on the terminal board as shown in the following table: Signal name GPS compass connector side...

  • Page 43: Connecting To Nmea Heading Output Device

    CONNECTING TO NMEA HEADING OUTPUT DEVICE Connect a gyro equipment or equivalent that provide a below turn rate, otherwise the performance of signal process and target tracking decrease. Standard craft 12 deg/sec High speed craft 20 deg/sec Following NMEA sentences are available. THS, HDT, HDG, HDM, VHW 1) Connection Remove the radar process unit cabinet cover and connect the NMEA line to TB4303 of terminal board.
  • Page 44 2) Setting of baud rate 1) Press and hold [RADAR MENU] key. The Code Input menu will appear. 2) Press the [0] key, and put the cursor on the ENT button, and press the [ENT] key. The Serviceman Menu will appear. 3) Open the Baud Rate menu by performing the following menu operation.

  • Page 45: Connecting To The Gyro And Electromagnetic Log (Gyro I/Funit Setting) (Opton)

    CONNECTING TO THE GYRO AND ELECTROMAGNETIC LOG (GYRO I/F UNIT SETTING) (OPTON) Connect a gyro equipment or equivalent that provide a below turn rate, otherwise the performance of signal process and target tracking decrease. Standard craft 12 deg/sec High speed craft 20 deg/sec Purchase of the optional gyro I/F unit NCT-59A enables the connection to the gyro and electromagnetic log.
  • Page 46 S4-5 Set the time to th gyro alarm 0.5 seconds ....[OFF] 5 seconds ....[ON] S4-6 Set the sensor Use the gyro.....[OFF] Use the NMEA ..[ON] S4-7, 8 Set the baud rate 4800 9600 19200 38400 S4-7 S4-8 S5: Make settings for S5 according to the type of gyro compass. Refer to the S5 setting table. S5-1 Make settings according to the type of gyro compass.
  • Page 47 TB105 Set the voltage level of step gyro 1-2: Normal setting (factory default setting) 2-3: Gyro low voltage (CD56 lights at 22 Vdc or less. However, the gyro I/F circuit of the JMA-5300MK2 operates on power supplied from the display unit even when the display unit is turned off.
  • Page 48 Speed log switch setting This radar's compatible standard speed logs are the following eight types: Pulse type: 800 pulses/NM, 400 pulses/NM, 200 pulses/NM, 100 pulses/NM Synchro type: 360X/NM, 180X/NM, 90X/NM, 30X/NM Set the S5 GYRO/LOG select switch according to the S5 setting table. Connect the speed log signal input line to TB20.
  • Page 49 (3) Mount the terminal board to the gyro I/F unit by using six screws. (4) Place the terminal board and the gyro I/F unit assembled in procedure 3 in the radar process unit as shown in the following photograph, and fasten the screws that have been loosen in procedure 1 to tightly fix the terminal board and the gyro I/F unit onto the cabinet.

  • Page 50: Connecting To The Pc Plotter

    3.10 CONNECTING TO THE PC PLOTTER This radar can output NMEA0183 data to the PC plotter. Connect one end of the commercially-available 9 PIN RS-232C cross cable to the connector for which "NMEA" is engraved at the rear of the radar process unit cabinet, and connect the other end to the COM port of the PC plotter.

  • Page 51: Connecting To Other Devices

    3.12 CONNECTING TO OTHER DEVICES The radar JMA-5300MK2 can be equipped with the following options: • Output for sub display unit (including operation analyzer) • Radar buoy • When used as a sub display unit for other radar equipment 1) Output for sub display unit The slave output includes the following signals: - Video signal (50 ohm termination) - Trigger signal (180 ohm termination)
  • Page 52 • Rotation signal Connect the rotation signal line to the following terminals located on the terminal board: TB4302-BPO TB4302-BPOE (return) Connect the rotation reference signal line to the following terminals located on the terminal board: TB4302-BZO TB4302-BZOE (return) Pull up both lines to 5 V at 1 kilo-ohm before using them. 2048 pulses per cycle 1 pulse per cycle...

  • Page 53: Power Supply (Nba-5111) (Option)

    • Rotation signal input (already pulled up at 470 ohm) Connect the rotation signal line to the following terminals located on the terminal board: TB4310-BP TB4310-BPE Since the radar JMA-5300MK2 does not detect the rotation direction, only one type of encoder input, BP, is necessary.

  • Page 54: Target Tracking (Nca-877Wa/877A) (Option)

    3.14 TARGET TRACKING (NCA-877WA/877A) (OPTION) Install the target tracking unit in the radar process unit according to the procedures below: (1) Remove the radar process unit cabinet cover, loosen the screws that mount the terminal board to the cabinet, and remove the terminal board from the radar process unit cabinet. (2) Connect the target tracking unit's connector to a connector shown in the following photograph.
  • Page 55 (3) Fasten locations shown in the following photograph to securely fix the ARPA/ATA process circuit. (4) Attach the radar process unit cabinet cover and complete the installation of the target tracking unit. 3-26...

  • Page 56: Plotter Circuit (Ndb-34A) (Option)

    3.15 PLOTTER CIRCUIT (NDB-34A) (OPTION) Install the plotter circuit in the radar process unit according to the procedures below: (1) Remove the radar process unit cabinet cover, loosen the screws that mount the terminal board to the cabinet, and remove the terminal board from the radar process unit cabinet. (2) Connect the P4901 side of the cable (H-7ZCRD0934) attached to the plotter circuit to the plotter circuit's connector J4901.
  • Page 57 (4) Securely fix the plotter circuit at the location in the cabinet as shown in the following photograph. J4407 Plotter circuit (5) Attach the radar process unit cabinet cover and complete the installation of the plotter circuit. 3-28...

  • Page 58: Connecting To Ais (Nqa-2103) (Option)

    3.16 CONNECTING TO AIS (NQA-2103) (OPTION) 1) Install the AIS process circuit If AIS process circuit is not installed in the radar process unit, install it according to the procedures below: (1) Remove the radar process unit back cover. (2) Remove the radar process unit cabinet cover, loosen the screws that mount the terminal board to the cabinet, and remove the terminal board from the radar process unit cabinet.
  • Page 59 (3) Connect the AIS process circuit's connector to a connector shown in the following photograph. (4) Fasten locations shown in the following photograph to securely fix the AIS process circuit. 3-30...
  • Page 60 (5) Fasten locations shown in the following photograph to securely fix the coating clip. (6) Attach the radar process unit cabinet cover and complete the installation of the AIS process circuit. 2) Connecting to AIS Connect the AIS line to TB4303 of terminal board. from RADAR to AIS from AIS to RADAR TB4303...
  • Page 61 3) Setting of baud rate 1) Press and hold [RADAR MENU] key. The Code Input menu will appear. 2) Press the [0] key, and put the cursor on the ENT button, and press the [ENT] key. The Serviceman Menu will appear. 5) Open the Baud Rate menu by performing the following menu operation.

  • Page 62: Coastline Rom Card/Memory Card (Option)

    3.17 COASTLINE ROM CARD/MEMORY CARD (OPTION) Install the coastline ROM card and the memory card according to the procedures below: (1) Remove the rubber packing located at the backside of the radar process unit cabinet, as shown in the following photograph, and expose the card slot. Rubber packing Card slot 3-33...
  • Page 63 (2) JMA-5300MK2 series card slot numbers are assigned as shown below: Slot No.2 Slot No.1 Insert the card into the specified slot according to the following table: Card type Insertion slot No. JRC card Either one ERC card Either one C-Map NT+ detail card Either one...
  • Page 64 (3) Insert the card in the direction indicated in the following photograph: Insert the card in the direction indicated by the arrow. (4) Insert the card until the card slot's eject button protrudes and complete the installation of the coastline ROM card.

  • Page 65: Connect Slave Monitor / Vdr

    3.18 CONNECT SLAVE MONITOR / VDR Install the slave monitor /VDR cable (CFQ-8914) in the radar process unit according to the procedures below: (1) Remove the radar process unit cabinet cover, loosen the screws that mount the terminal board to the cabinet, and remove the terminal board from the radar process unit cabinet.
  • Page 66 (2) Pull out the D-sub connector from radar process unit as shown in the following photograph. When JRC's VDR is used, by connecting it to TB4303(13,14)ARPATX± of terminal board circuit CDC-1397A located in the display unit (radar process unit), it is possible to use the online maintenance function.
  • Page 67 About VDR I/F kit The VDR I/F kit is used to connect the JMA-5300MK2 series radar to VDR. VDR I/F connection kit CQD-1891 includes: DSUB15P - BNC cable (KB5BNC2K, 2 meters) 1 piece BNC to BNC adapter (BNC-A-JJ) 5 piece BNC connector (3CV-P2) 5 piece Use 3C-2V coaxial cable for connection.

  • Page 68: Interswitch Unit (Nqe-3141-4A/8A) (Option)

    3.19 INTERSWITCH UNIT (NQE-3141-4A/8A) (OPTION) (1) Connect the radar process unit and interswitch unit with reference to appendix figure Interconnection diagram of Radar and Interswitch Unit. (2) Set dip switches SW11, SW12, and SW13 as shown below. SW12 SW11 SW13 1) SW11 setting (expansion mode, master/slave setting) 2 3 4 Set all OFF.
  • Page 69 2) SW12 setting (radar connection setting) Set dip switches based on the number of display unit and scanner unit Radar Connection Setting No. 1 display unit connected No. 1 display unit NOT connected No. 1 scanner unit connected No. 1 scanner unit NOT connected No.

  • Page 70: Installation Of The Power Control Unit (Nqe-3167) (Option)

    Maximum length of the cable connecting between the power control unit and the display unit : 400m 3.20.1 Connection with NKE-2103 (JMA-5312-6/6HS) / NKE-2254 (JMA-5322-7/9/6HS) scanner units Use 19-core composite cable CFQ-6912-** for the installation of those types of scanners (Asterisks ** use the cable length, and the available cable length is 5, 10, 20, 30, 40, 50, and 65) The display-unit side end of this cable is a metal shell round connector.

  • Page 71: 3.20.3 Connection To Display Unit

    3.20.3 Connection to display unit Use 14-core composite cable 2695110056 and coaxial cable RG-10/UY to connect power control unit NQE-3167 to display unit NCD-4530. Among the two cables, use coaxial cable RG-10/UY to connect the radar video signal. Fig.3.20.2 NQE-3167 terminal block 3.20.4 Equipment cable end processing Fig.3.3 Equipment cable end processing Fig.3.4 End processing of each cable core...

  • Page 72: Installation Of The Lan Cable (Option)

    3.21 INSTALLATION OF THE LAN CABLE (OPTION) The system can receive data from other system via the JRC-LAN. The JRC-LAN is designed for interoperation of JRC systems. The JRC-LAN network can synchronize data of systems connected to the network. * To connect JRC-LAN, LAN cable and HUB (option) is necessary.

  • Page 73: 3.21.1 Connection To Ndc-1417 Radar Processor Unit

    3.21.1 Connection to NDC-1417 RADAR PROCESSOR UNIT Connect one end of the LAN cable to the LAN connector at the rear of the radar process unit cabinet. Into the LAN cable connector until it clicks. 3-44...

  • Page 74: Network Setting (Network)

    3.21.2 Network Setting (Network) CAUTION If you want to change the IP address, please take care to avoid overlap of IP address. These IP addresses are used on JMA-9100 series, JMA-7100 series and JMA-5300MK2 series radar. Otherwise the network function is not available on not only radar but also other equipments.
  • Page 75 3) Sensor Priority Setting (Sensor Priority) The system can receive data from 2 sensors. If the same sentences are received from 2 sensors, the system use primary system's data. 5) Press and hold [RADAR MENU] key. The Code Input menu will appear. 6) Press the [0] key, and put the cursor on the ENT button, and press the [ENT] key.

  • Page 76: Transmit/Receive Data Setting (Lan Port Setting)

    3.21.3 Transmit/Receive Data Setting (LAN Port Setting) 1) Receive Route Data Setting (Route Type) Set route type. Note: ECDIS type data and Plotter type data are incompatible. Route Type set Plotter model. RADAR : JMA-5300/5200 series JMA-5300MK2 series (factory default : Plotter ) Plotter : JLZ-700/900 CAUTION...
  • Page 77 : User Setting, Serial, LAN, LAN(GPS), LAN(Ship’s Clock) Behavior pattern of selectable ports AUTO : The system use data from JRC-LAN preferentially User Setting : The system use the port selected by "3.14.1 Receive Port Setting (RX Port)". The system use data from...
  • Page 78 4) Receive Sentence Setting (RX Sentence) Select Use/no Use for each sentences. The system is factory-set for using all sentences. To receive only specified sentences, select No Use for sentences which are not necessary. 1) Press and hold [RADAR MENU] key. The Code Input menu will appear.

  • Page 79: 3.21.4 Equipment Cable End Processing

    3.21.4 Equipment cable end processing Outer skin on LAN cable Cut the metal braid and the external sheath at the point of entering the equipment. Only the sheath inside must be left uncut and allow enough length to connect to the chassis. Only this LAN cable (shielded by the sheath inside the metal braid) is needed for internal wiring.
  • Page 80 Check by bending the cable that the foil inside is not damaged. If the foil inside is damaged, cut down the cable there and go back to the procedure 2 again. [Failure example] The foil is torn and the core wires inside can be seen. Cut the sheath by a cutter vertically from the cut line made by the stripper in the procedure 3.
  • Page 81 Fold back the foil and roll it up around the cable. NOTE: The blue surface of the foil must be touched to the sheath. As the same way, fold back the drain wire to attach to the sheath. Drain wire ※...
  • Page 82 Untwist the core wires and straighten each wire. After straightening, arrange the core wires so that the wires are aligned in the wiring order. NOTE: The picture shows the order of “Wiring A.” Wiring A W/G G W/O B W/B O W/BR BR The cable alignment from pin No.1 to No.8 (left to right) W : White, G : Green, O : Orange, B : Blue, BR : Brown Wiling A-Wiling A : Straight cable...
  • Page 83 Insert the core wires into the STP connector. Check the leading edges of the wires reach to the connector edge. NOTE: Also check that the foil and the drain wire are touched to the metal part inside the connector. The metal part inside the connector (From left to right) Pin No.1-No.8 Drain wire Calk by a calking tool.
  • Page 84 Attach the cable boot. The cable processing procedure is completed. 3-55...

  • Page 85: Initial Setting

    SECTION 4 INITIAL SETTING 4.1 HOW TO OPEN THE SERVICEMAN MENU..........4-1 4.2 TUNE ADJUSTMENT ................4-2 4.3 BEARING ADJUSTMENT ................4-4 4.4 RANGE ADJUSTMENT................4-4 4.5 NAVIGATOR SETTING (DEVICE)............4-5 4.6 SETTING OF TRUE BEARING VALUE ...........4-5 4.7 ANTENNA HEIGHT SETTING (ANTENNA HEIGHT) ......4-6 4.8 SETTING OF CCRP/ANTENNA/GPS ANTENNA POSITION (CCRP SETTING) ...................4-7 4.9 COMMUNICATION PORT SETTING (COM PORT SETTING) ....4-9...

  • Page 86: How To Open The Serviceman Menu

    HOW TO OPEN THE SERVICEMAN MENU Procedures 1. Press the [RADAR Menu] key for 2 seconds. The Code Input menu will appear. 2. Press [0] key. 3. Move the cursor onto the button in the Code Input menu, and press the [ENT] key. The Serviceman Menu will appear.

  • Page 87: Tune Adjustment

    TUNE ADJUSTMENT [I] Tune Adjustment Adjust the tuning control for the transmitter and receiver. The turning control should be adjusted when the system is installed or when the magnetron is replaced. Procedures 1. Set the 48NM range or more. 2. Open the Serviceman Menu. 3.
  • Page 88 • With the JMA-5312 radar: Adjusted this menu in factory. Don't touch this adjustment menu in normal case. When tune indicator and echo peak are mismatch, adjust this menu. [III] Tune Peak Adjustment Adjust the tune indicator and echo peak. Procedures 1.

  • Page 89: Bearing Adjustment

    BEARING ADJUSTMENT Make adjustment so that the bearing of the target measured with the ship’s compass matches the bearing of the target echo on the radar display. Procedures 1. Select H Up for the bearing presentation. Set video processing (PROC) to OFF.

  • Page 90: Navigator Setting (Device)

    GYRO : Gyro (via GYRO I/F) Compass : Compass (Compliant with IEC61162) GPS Compass : GPS compass produced by JRC : Log (via GYRO I/F) 2AXW : 2-axis log (Speed over water: Compliant with IEC61162) 2AXG : 2-axis log (Speed over ground: Compliant with IEC61162)

  • Page 91: Antenna Height Setting (Antenna Height)

    ANTENNA HEIGHT SETTING (ANTENNA HEIGHT) Set the height of radar antenna above sea level. Do not change this setting carelessly. Procedures 1. Measure the height of radar antenna above sea level in advance. 2. Open the Serviceman Menu. 3. Perform the following menu open procedure to open the Antenna Height setting menu.

  • Page 92: Setting Of Ccrp/Antenna/Gps Antenna Position (Ccrp Setting)

    SETTING OF CCRP/ANTENNA/GPS ANTENNA POSITION (CCRP SETTING) Set the own ship's CCRP location, radar antenna installation location, and GPS installation location. CCRP: Up to four locations can be input. (One location selected when used) Radar antenna: Up to eight radar antennas can be input. (Automatically selected in response to ISW operation) GPS: Up to four locations can be input.

  • Page 94: Communication Port Setting (Com Port Setting)

    COMMUNICATION PORT SETTING (COM PORT SETTING) External sensor signals are input to the radar equipment through a communication port. The radar equipment has five communication ports. For signals to be input from sensors or to be output to the sensors, communication ports need to be set in accordance with the sensors.
  • Page 95 3. Set a port for each sensor. Settable sensor signals GPS, DLOG, Alarm, Depth, Temperature, Wind, Current, ROT, RSA Selectable ports When the automatic recognition function is used: AUTO When ports are specified: NAV1, NAV2, GPS, and NMEA [III] Reception Sentence Setting (RX Sentence) Set signal sentences to be received from sensors.
  • Page 96 Settable sentences TTM(TT), TLL(TT), TTD(TT), TLB(TT), OSD, RSD, ALR, ACK, TTM(AIS), TLL(AIS), TTD(AIS), TLB(AIS), RemoteMaintenance, JRC-ARPA, APB, BOD, GGA, GLL, RMC, RMB, VTG, XTE, BWC, HDT, THS Selectable ports NAV1, ARPA, GPS, and NMEA 4. Select the output format, talker, and transmission interval.

  • Page 97: Sector Blank Setting (Sector Blank)

    3. Press the [5] key. Units of Select NAV Equipment are switched. Internal GPS : The receive port is selected GPS connector of processor unit (JRC’s GPS). External GPS : The receive port is selected GPS terminal of terminal board circuit.

  • Page 98: Tni Blank Setting (Tni Blank)

    [II] Sector Blank Area Creation (Make Sectors 1, 2, and 3) Procedures 1. Transmit the radar. 2. Open the Serviceman Menu. 3. Perform the following menu open procedure to open the Sector Blank setting menu. 2. Installation Menu → 3. Sector Blank 4.

  • Page 99: Setting Of Bearing Pulses From Antenna (Output Pulse)

    3. Set the number of pulses to be output by the antenna. 2048 : 2048 pulses per antenna rotation (Recommended value) 4096 : 4096 pulses per antenna rotation * If a NKE-2103 (JMA-5312-6/6HS) antenna is used, 2048 is always set.

  • Page 100: Slave Mode Setting (Master/Slave)

    4.13 SLAVE MODE SETTING (MASTER/SLAVE) Place the system in the Slave mode when it is to be operated as the sub-display that displays radar echoes by using radar signals from other radar equipment. The input value of externally input bearing pulses can be set. The system can set 2048 pulses or 4096 pulses. [I] Slave Mode Setting (Master/Slave) Procedures 1.

  • Page 101: Language Setting (Language)

    4.14 LANGUAGE SETTING (LANGUAGE) The system is designed to switch between display languages, Japanese and English. Procedures 1. Open the Serviceman Menu. 2. Perform the following menu open procedure to open the language setting menu. 2. Installation Menu → 8. Language 3.

  • Page 102: Main Bang Suppression Adjustment (Mbs)

    Display Style Set one of the following date display formats. YYYY-MM-DD Example: 2007-12-31 MMM DD, YYYY Example: Dec 31, 2007 DD MMM, YYYY Example: 31 Dec, 2007 Synchronize with GPS A ZDA sentence sent by the GPS is used, thereby displaying time synchronized with the GPS time.

  • Page 103: Adjustment Of Performance Monitor (Mon)

    4.17 ADJUSTMENT OF PERFORMANCE MONITOR (MON) [I] Reception Monitor Adjustment (MON Adjustment) Adjust the circuit for monitoring the reception performance of the radar equipment. Note: The radar system is equipped with an interswitch. For adjusting the performance unit, set the interswitch connection to straight, i.e. No.1 scanner is connected to No.1 display unit as the Master.

  • Page 104: Magnet Compass Setting

    [II] Transmission Monitor Adjustment (MON Indicator Adjustment) Adjust the circuit for monitoring the transmission performance of the radar equipment. Note: The radar system is equipped with an interswitch. For adjusting the performance unit, set the interswitch connection to straight, i.e. No.1 scanner is connected to No.1 display unit as the Master.

  • Page 105: Gps Receiver Setting

    4.19 GPS RECEIVER SETTING Set to a JRC’s GPS receiver. This setting is enabled when a JRC’s GPS is connected to the GPS connector of processor unit. [I] Own Ship’s position setting (Position) Procedures 1. Press the [RADAR MENU] key twice, and then perform the following menu open procedure to open the Position menu.
  • Page 106 [Ⅲ] Geodetic system setting (Geodetic) Procedures 1. Press the [RADAR MENU] key twice, and then perform the following menu open procedure to open the Geodetic menu. 4. NAV Equipment Setting → 4. GPS Setting → 1. GPS Process Setting → 3. Geodetic 2.
  • Page 107 Geodetic System List Name WGS-84 WGS-72 Japan North American 1927(U.S) North American 1927(Canada & Alaska) European 1950 (Europe) Australian geodetic 1966 (Australia) Ordnance Survey of Great Britain (England) NAD-83 - (No Use) - (No Use) ADINDAN (Ethiopia & Sudan) ARC 1950 (Botswana) AUSTRALIAN GEODETIC 1984 (Australia) BERMUDA 1957 (Bermuda islands) BOGOTA OBSERVATORY (Colombia)
  • Page 108 [Ⅵ] HDOP level setting (DOP Level) Procedures 1. Press the [RADAR MENU] key twice, and then perform the following menu open procedure to open the DOP Level menu. 4. NAV Equipment Setting → 4. GPS Setting → 1. GPS Process Setting →...

  • Page 109: Dgps Receiver Setting

    4.20 DGPS RECEIVER SETTING Set to a JRC’s DGPS receiver. This setting is enabled when a JRC’s DGPS is connected to the GPS connector of processor unit. [I] Beacon frequency mode setting (Mode) Procedures 1. Press the [RADAR MENU] key twice, and then perform the following menu open procedure to open the DGPS Setting menu.
  • Page 110 [Ⅲ] baud rate setting(Baud Rate(BPS)) This setting is enabled when beacon frequency mode is set to manual. Procedures 1. Press the [RADAR MENU] key twice, and then perform the following menu open procedure to open the Baud Rate menu. 4. NAV equipment Setting →...

  • Page 111: Sbas Receiver Setting

    SBAS receiver use the information from satellite same as that of beacon which DGPS use. So the accuracy of position is higher than GPS. This setting is enabled when a JRC’s DGPS is connected to the GPS connector of processor unit. [I] SBAS mode setting (Mode) Select the satellite or the beacon whose differential information is used.
  • Page 112 [Ⅲ] Prohibitive satellite setting (NG SBAS) Set the information from prohibitive SBAS satellite to be used or not to be used. Procedures 1. Press the [RADAR MENU] key twice, and then perform the following menu open procedure to open the SBAS Setting menu. 4.

  • Page 113: Displaying Gps Reception Status

    DISPLAYING GPS RECEPTION STATUS The reception status of GPS(GPS/DGPS/WAAS) which is connected to radar processor unit is displayed. This setting is enabled when a JRC’S GPS/DGPS/WAAS is connected to the GPS connector of processor unit. Procedures 1. Press the [STBY] key.
  • Page 115 SECTION 5 MEASURES AGAINST NOISE INTERFERENCE IN THE RADIO EQUIPMENT 5.1 SHIELD OF DEVICES ................5-1 5.2 INTER-UNIT CABLES ................5-1 5.3 INSTALLATION LOCATION..............5-1 5.4 GROUNDING.................... 5-1...
  • Page 116 Radar equipment adopt a variety of pulse circuits. Those circuits or inter-unit cables emit higher harmonic components of the pulse wave as electromagnetic waves, and those components affect the radio communication equipment's receiving antenna and cables, resulting in receiver noise. The following general procedures are effective in preventing noise interference: SHIELD OF DEVICES The components on the radar have springs or other fittings attached at spots required for shielding...
  • Page 117 APPENDIX...
  • Page 119 付図 1 NKE-2103-6/6HS 空中線外形図 (JMA-5312-6/6HS) Fig.1 Outside Drawing of NKE-2103-6/6HS SCANNER UNIT (JMA-5312-6/6HS)
  • Page 120 付図 2 NKE-2254-7 空中線外形図 (JMA-5322-7) Fig.2 Outside Drawing of NKE-2254-7 SCANNER UNIT (JMA-5322-7)
  • Page 121 付図 3 NKE-2254-9 空中線外形図 (JMA-5322-9) Fig.3 Outside Drawing of NKE-2254-9 SCANNER UNIT (JMA-5322-9)
  • Page 122 付図 4 NKE-2254-6HS 空中線外形図 (JMA-5322-6HS) Fig.4 Outside Drawing of NKE-2254-6HS SCANNER UNIT (JMA-5322-6HS)
  • Page 123 付図 5 NKE-1130 空中線外形図 (JMA-5332-12) Fig.5 Outside Drawing of NKE-1130 SCANNER UNIT (JMA-5332-12)
  • Page 124 付図 6 NWZ-173 表示部外形図 Fig.6 Outside Drawing of NWZ-173 LCD MONITOR...
  • Page 125 付図 7 NWZ-173 表示部 MPBC42446 モニタ架台付き 外形図 Fig.7 Outside Drawing of NWZ-173 LCD MONITOR with MPBC42446 STAND...
  • Page 126 付図 8 NDC-1417 処理部外形図 Fig.8 Outside Drawing of NDC-1417 RADAR PROCESS UNIT...
  • Page 127 付図 9 NCE-5171 操作部外形図 Fig.9 Outside Drawing of NCE-5171 OPERATION UNIT...
  • Page 128 付図 10 NQE-3151A 接続箱外形図 (JMA-5332-12) Fig.10 Outside Drawing of NQE-3151A JUNCTION BOX (JMA-5332-12)
  • Page 129 付図 11 NQA-3141-4A インタースイッチユニット外形図(オプション) Fig.11 Outside Drawing of NQA-3141-4A INTERSWITCH UNIT (Option)
  • Page 130 付図 12 NQA-3141-8A インタースイッチユニット外形図(オプション) Fig.12 Outside Drawing of NQA-3141-8A INTERSWITCH UNIT (Option)
  • Page 131 付図 13 NBA-5111 整流器外形図(JMA-5312-6/6HS, JMA-5322-7/9/6HS:オプション、 JMA-5332-12:標準) Fig.13 Outside Drawing of NBA-5111 RECTIFIER UNIT (JMA-5312-6/6HS, JMA-5322-7/9/6HS : Option, JMA-5332-12 : Standard)
  • Page 132 付図 14 NQA-3167 パワーコントロールユニット外形図(オプション) Fig.14 Outside Drawing of NQA-3167 POWER CONTROL UNIT (Option)
  • Page 133 Performance monitor, ARPA/ATA Process Circuit, AIS Process Circuit and GYRO Interface Unit must be fitted on ships compliant to IMO. (X-BAND 10 kW RADAR) 付図 15 JMA-5312-6/6HS 形レーダー総合系統図 Fig.15 General System Diagram of JMA-5312-6/6HS RADAR...
  • Page 134 NCT-59A GYRO INTERFACE UNIT (JRC SUPPLY) 5m LOG(200P) (OPTION) 250V-TTYCS-1 CFQ-5436-5 NBA-5111 POWER SUPPLY MAX φ10 (JRC SUPPLY) 5m (OPTION) DC24V 0.6/1kV-DPYC-6 SHIP'S MAIN AC100-120/220-240V,50/60Hz,1φ NOTE: Eliminating the interference on frequencies used for marine communications and navigation due to operation of the radar.
  • Page 135 250V-DPYCYS-1.5 NCT-59A GYRO INTERFACE UNIT (JRC SUPPLY) 5m LOG(200P) (OPTION) 250V-TTYCS-1 CFQ-5436-5 MAX φ10 (JRC SUPPLY) 5m NBA-5111 POWER SUPPLY DC24V 0.6/1kV-DPYC-6 SHIP'S MAIN AC100-120/220-240V,50/60Hz,1φ NOTE: Eliminating the interference on frequencies used for marine communications and navigation due to operation of the radar.
  • Page 136 Performance monitor, ARPA/ATA Process Circuit, AIS Process Circuit and GYRO Interface Unit must be fitted on ships compliant to IMO. (X-BAND 10 kW RADAR) 付図 18 JMA-5312-6/6HS 形レーダー、 NQE-3167 パワーコントロールユニット総合系統図 (オプション) Fig.18 General System Diagram of JMA-5312-6/6HS RADAR and NQE-3167 POWER CONTROL UNIT (Option)
  • Page 137 NCT-59A GYRO INTERFACE UNIT (JRC SUPPLY) 5m (OPTION) 250V-TTYCS-1 NBA-5111 POWER SUPPLY CFQ-5436-5 (OPTION) MAX φ10 (JRC SUPPLY) 5m DC24V 0.6/1kV-DPYC-6 SHIP'S MAIN AC100-120/220-240V,50/60Hz,1φ NOTE: Eliminating the interference on frequencies used for marine communications and navigation due to operation of the radar.
  • Page 138 NCT-59A GYRO INTERFACE UNIT (JRC SUPPLY) 5m (OPTION) 250V-TTYCS-1 CFQ-5436-5 NBA-5111 POWER SUPPLY MAX φ10 (JRC SUPPLY) 5m DC24V 0.6/1kV-DPYC-6 SHIP'S MAIN AC100-120/220-240V,50/60Hz,1φ NOTE: Eliminating the interference on frequencies used for marine communications and navigation due to operation of the radar.
  • Page 139 付図 21 JMA-5312-6/6HS, JMA-5322-7/9/6HS 形レーダー電源系統図 Fig.21 Power System Diagram of JMA-5312-6/6HS, JMA-5322-7/9/6HS RADAR...
  • Page 140 付図 22 JMA-5332-12 形レーダー電源系統図 Fig.22 Power System Diagram of JMA-5332-12 RADAR...
  • Page 141 付図 23 NDC-1417 処理部機内接続図 Fig.23 Internal Connection Diagram of NDC-1417 RADAR PROCESS UNIT...
  • Page 142 付図 24 NQA-2123 入出力部機内接続図 Fig.24 Internal Connection Diagram of NQA-2123 INTERFACE UNIT...
  • Page 143 付図 25 NCE-5171 操作部機内接続図 Fig.25 Internal Connection Diagram of NCE-5171 OPERATION UNIT...
  • Page 144 付図 26 NWZ-173 表示部機内接続図 Fig.26 Internal Connection Diagram of NWZ-173 LCD MONITOR...
  • Page 145 付図 27 NQE-3151A 接続箱機内接続図 (JMA-5332-12) Fig.27 Internal Connection Diagram of NQE-3151A JUNCTION BOX (JMA-5332-12)
  • Page 146 NOTE: Performance monitor must be fitted on ships compliant to IMO. 付図 28 NKE-2103 空中線機内接続図 (JMA-5312-6/6HS) Fig.28 Internal Connection Diagram of NKE-2103 SCANNER UNIT (JMA-5312-6/6HS)
  • Page 147 NOTE: Performance monitor must be fitted on ships compliant to IMO. 付図 29 NKE-2254 空中線機内接続図 (JMA-5322-7/9/6HS) Fig.29 Internal Connection Diagram of NKE-2254 SCANNER UNIT (JMA-5322-7/9/6HS)
  • Page 148 NOTE: Performance monitor must be fitted on ships compliant to IMO. 付図 30 NKE-1130 空中線機内接続図 (AC100-115V) (JMA-5332-12) Fig.30 Internal Connection Diagram of NKE-1130 SCANNER UNIT (AC100-115V) (JMA-5332-12)
  • Page 149 NOTE: Performance monitor must be fitted on ships compliant to IMO. 付図 31 NKE-1130 空中線機内接続図 (AC220-240V) (JMA-5332-12) Fig.31 Internal Connection Diagram of NKE-1130 SCANNER UNIT (AC220-240V) (JMA-5332-12)
  • Page 150 付図 32 NQE-3141 インタースイッチユニット 機内接続図(オプション) Fig.32 Internal Connection Diagram of NQE-3141 INTESWITCH UNIT (Option)
  • Page 151 NOTE: Performance monitor must be fitted on ships compliant to IMO. NOTE: TB4310 7-8 12V出力を外部機器の電源として使用することはできません 12V output is not available for external device’s power supply. 付図 33 JMA-5312-6/6HS 形レーダー盤間接続図 Fig.33 Interconnection Diagram of JMA-5312-6/6HS RADAR...
  • Page 152 NOTE: Performance monitor must be fitted on ships compliant to IMO. NOTE: TB4310 7-8 12V出力を外部機器の電源として使用することはできません 12V output is not available for external device’s power supply. 付図 34 JMA-5322-7/9/6HS 形レーダー盤間接続図 Fig.34 Interconnection Diagram of JMA-5322-7/9/6HS RADAR...
  • Page 153 NOTE: Performance monitor must be fitted on ships compliant to IMO. NOTE: TB4310 7-8 12V出力を外部機器の電源として使用することはできません 12V output is not available for external device’s power supply. 付図 35 JMA-5332-12 形レーダー盤間接続図 Fig.35 Interconnection Diagram of JMA-5332-12 RADAR...
  • Page 154 IMO. NOTE: TB4310 7-8 12V出力を外部機器の電源として使用することはできません 12V output is not available for external device’s power supply. 付図 36 JMA-5312-6/6HS 形レーダー、NQE-3167 パワーコントロールユニット盤間接続図 (オプション) Fig.36 Interconnection Diagram of JMA-5312-6/6HS RADAR and NQE-3167 POWER CONTROL UNIT (Option)
  • Page 155 NOTE: Performance monitor must be fitted on ships compliant to IMO. NOTE: TB4310 7-8 12V出力を外部機器の電源として使用することはできません 12V output is not available for external device’s power supply. 付図 37 JMA-5322-7/9/6HS 形レーダー、 NQE-3167 パワーコントロールユニット盤間接続図 (オプション) Fig.37 Interconnection Diagram of JMA-5322-7/9/6HS RADAR and NQE-3167 POWER CONTROL UNIT (Option)
  • Page 156 NOTE: Performance monitor must be fitted on ships compliant to IMO. NOTE: TB4310 7-8 12V出力を外部機器の電源として使用することはできません 12V output is not available for external device’s power supply. 付図 38 JMA-5332-12 形レーダー、NQE-3167 パワーコントロールユニット盤間接続図 (オプション) Fig.38 Interconnection Diagram of JMA-5332-12 RADAR and NQE-3167 POWER CONTROL UNIT (Option)
  • Page 157 付図 39 インタースイッチユニット盤間接続図 (オプション) Fig.39 Interconnection Diagram of RADAR and INTERSWITCH Unit (Option)
  • Page 158 付図 40 簡易インタースイッチユニット盤間接続図(オプション) Fig.40 Interconnection Diagram of Simple Interswitch (Option)
  • Page 160 For further information,contact: Not use the asbestos http://www.jrc.co.jp Marine Service Department Telephone : +81-3-3492-1305 Facsimile : +81-3-3779-1420 e-mail : tmsc@jrc.co.jp AMSTERDAM Branch Telephone : +31-20-658-0750 Facsimile : +31-20-658-0755 e-mail : service@jrceurope.com SEATTLE Branch Telephone : +1-206-654-5644 Facsimile : +1-206-654-7030 e-mail : marineservice@jrcamerica.com...

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