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Furuno FAR-3220-NXT Installation Manual

Furuno FAR-3220-NXT Installation Manual

Chart radar

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FAR-3210(-BB)/3220(-BB)/3310/3320/

Model

SAFETY INSTRUCTIONS ........................i

SYSTEM CONFIGURATION ..................iii

EQUIPMENT LISTS..............................viii

1. INSTALLATION...............................1-1

1.1 Antenna Unit .......................................1-1

1.2 Monitor Unit.........................................1-7

1.3 Radar Control Unit,

Trackball Control Unit .........................1-7

1.4 Power Supply Unit ............................1-10

1.5 Processor Unit ..................................1-11

1.6 Sensor Adapters (option) ..................1-12

1.7 Intelligent HUB (option).....................1-13

1.8 Switching Hub (option)......................1-15

1.9 Junction Box (option) ........................1-15

2. WIRING............................................2-1

2.1 Overview .............................................2-1

2.2 Antenna Unit .......................................2-4

2.3 Processor Unit ..................................2-12

2.4 Power Supply Unit ............................2-22

2.5 Monitor Unit.......................................2-26

2.6 Sensor Adapters (option) ..................2-27

2.7 LAN Signal Converter Kit (option).....2-42

2.8 Junction Box (option) ........................2-48

2.9 Intelligent HUB (option).....................2-49

2.10 How to Extend the Control Unit Cable

(option)..............................................2-50

2.11 VDR Connection ...............................2-54

3. SETTINGS AND ADJUSTMENTS ..3-1

3.1 How to Access the Radar Installation

Menu3-1

3.2 How to Align the Heading ...................3-1

3.3 How to Adjust the Sweep Timing ........3-2

3.4 How to Suppress Main Bang ..............3-3

3.5 Dual Radar Display .............................3-3

3.6 Other Settings .....................................3-6

All brand and product names are trademarks, registered trademarks or service marks of their respective holders.

Installation Manual

FAR-3220-NXT(-BB)/3320-NXT

www.furuno.com

CHART RADAR

(Product Name: Marine Radar)

3.7 Network Transmission Setting Between

ECDIS and Radar3-13

3.8 How to Set the Forwarding Distance ...3-13

3.9 Synchronization With Ship's Clock ...3-14

3.10 How to Change the Display Color for

Sensor Data Based on Integrity ........3-15

3.11 How to display the [Echo] page ........3-16

3.12 Web Setting Menu ............................3-16

3.13 How to Set Up the Back-up ECDIS...3-16

4. INPUT/OUTPUT DATA ...................4-1

4.1 Processor Unit ....................................4-1

4.2 IEC 61162 Sentences .........................4-2

APPENDIX 1 JIS CABLE GUIDE.....AP-1

APPENDIX 2 ROD TERMINALS ......AP-2

APPENDIX 3 DIGITAL INTERFACE..AP-7

PACKING LISTS ................................. A-1

OURLINE DRAWINGS........................ D-1

INTERCONNECTION DIAGRAMS ..... S-1

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Summary of Contents for Furuno FAR-3220-NXT

Page 1: Table Of Contents
Installation Manual CHART RADAR FAR-3210(-BB)/3220(-BB)/3310/3320/ Model FAR-3220-NXT(-BB)/3320-NXT (Product Name: Marine Radar) SAFETY INSTRUCTIONS ......i 3.7 Network Transmission Setting Between ECDIS and Radar3-13 SYSTEM CONFIGURATION ....iii 3.8 How to Set the Forwarding Distance ...3-13 EQUIPMENT LISTS......viii 3.9 Synchronization With Ship’s Clock ...3-14 3.10 How to Change the Display Color for...
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Page 3: Safety Instructions
1.7 m 6.8 m FAR-3320 (25 kW) XN24CF 0.7 m 1.3 m 5.5 m 0.7 m 0.3 m 3.3 m XN12CF FAR-3220-NXT(-BB) RTR-123 0.32 m 0.24 m 1.9 m XN20CF (600 W) FAR-3320-NXT 0.29 m 0.19 m 1.6 m XN24CF...
Page 4 SAFETY INSTRUCTIONS CAUTION WARNING Do not open the equipment Observe the following compass safe unless totally familiar with distances to prevent deviation of a electrical circuits and magnetic compass: service manual. ELECTRICAL Standard Steering Only qualified personnel SHOCK compass compass are allowed to work inside the HAZARD Antenna Unit...
Page 5: System Configuration
EPFS meeting the requirements of the IMO resolution MSC.112(73). Gyrocompass meeting the requirements of the IMO resolution A.424(XI). SDME meeting the requirements of IMO resolution MSC.96(72). The radar may be interconnected via HUB-3000 to other FURUNO processing units having approved LAN ports. Standard connection Basic configuration is shown with solid line.
Page 6 SYSTEM CONFIGURATION Interswitch connection When multiple radars are used, connect the units as shown in the figure below. This configuration lets each radar as a standalone radar in case of HUB malfunction. 100-115/220-230 VAC 100-115/220-230 VAC ANTENNA UNIT ANTENNA UNIT 1ø, 50-60 Hz (for de-icer) 1ø, 50-60 Hz (for de-icer) TRANSCEIVER UNIT...
Page 7 SYSTEM CONFIGURATION Back-up ECDIS connection When setting up the radar as a ECDIS back-up, connect the radar and main ECDIS unit as shown in the figure below. 100-115/220-230 VAC ANTENNA UNIT 1ø, 50-60 Hz (for de-icer) TRANSCEIVER UNIT Sub Monitor 100-230 VAC POWER SUPPLY UNIT 1ø, 50-60 Hz...
Page 8 • CAT 1C and CAT 1HC: effective diameter of 320 mm or higher • CAT 2C and CAT 2HC: effective diameter of 250 mm or higher Category Maker Model Viewing distance CAT 1C and FURUNO MU-231 1.02 m CAT 1HC MU-231CE 1.02 m MU-270W 1.02 m...
Page 9 8) When using this unit as a Back-up ECDIS, the setup of the Back-up ECDIS must be completed by a FURUNO approved service engineer. 9) When setting up Operator Fitness and connecting this unit to the BNWAS, ensure the Monitor...
Page 10: Equipment Lists
EQUIPMENT LISTS Standard supply: FAR-3210(-BB)/3220(-BB)/3310/3320, Magnetron radar Name Type Code No. Remarks Antenna XN12CF-RSB128-105 4 ft Unit XN12CF-RSB128-106 XN20CF-RSB128-105 6.5 ft Select XN20CF-RSB128-106 XN24CF-RSB128-105 8 ft XN24CF-RSB128-106 Processor EC-3000 Unit Monitor Unit MU-190 For FAR-32x0 Select MU-231 For FAR-33x0 MU-270W Control Unit RCU-025 Standard type...
Page 11 EQUIPMENT LISTS Standard supply: FAR-3220-NXT(-BB)/3320-NXT, Solid state radar Name Type Code No. Remarks Antenna XN12CF-RSB128-123 4 ft Select Unit XN20CF-RSB128-123 6.5 ft XN24CF-RSB128-123 8 ft Processor EC-3000 Unit Monitor Unit MU-190 For FAR-3220-NXT(-BB) Select MU-231 For FAR-3320-NXT MU-270W Control Unit...
Page 12 EQUIPMENT LISTS Optional supply Name Type Code No. Remarks Sensor MC-3000S Serial type Adapter MC-3010A Analog IN MC-3020D Digital IN MC-3030D Digital OUT LAN Signal Conv. OP03-223-3 001-254-380 For magnetron radar OP03-223-4 001-569-010 For solid state radar Cable Extension OP03-224-3 001-254-410 For magnetron radar, with Junc- tion Box RJB-001, LAN Signal...
Page 13 EQUIPMENT LISTS Name Type Code No. Remarks Installation CP03-28900(10M) 000-082-658 LAN cable for sensor adapter Materials CP03-28910(20M) 000-082-659 CP03-28920(30M) 000-082-660 Installation CP24-02900(10M) 001-208-050 LAN cable for HUB-3000 Materials CP24-02910(20M) 001-208-060 LAN cable for HUB-3000 CP24-02920(30M) 001-208-040 LAN cable for HUB-3000 Connector CP03-28901 008-542-460...
Page 14 EQUIPMENT LISTS Name Type Code No. Remarks Wave Analyzer WV-100 001-562-500 Software WV-100ST 001-562-510 With SEA-TRIAL mode. OP03-264 001-576-910 Replacement Kit Operator’s Manual OME-36160-* Hard copy manual, English OMJ-36160-* Hard copy manual Japanese OMC-36181-* Wave Analyzer Software manual, English/Japanese Magnetron Re- E32-01306-* Hard copy manual, English placement Instruc-...
Page 15: Installation
INSTALLATION NOTICE Do not apply paint, anti-corrosive sealant or contact spray to coating or plastic parts of the equipment. Those items contain organic solvents that can damage coating and plastic parts, especially plastic connectors. Antenna Unit 1.1.1 Installation considerations • The antenna unit is generally installed either on top of the wheelhouse or on the ra- dar mast, on a suitable platform.
Page 16 1. INSTALLATION • Install the antenna unit away from interfer- ing high-power energy sources and TX ra- dio antennas. more than 20° • Keep the lower edge of the antenna unit above the safety rail by at least 500 mm. •...
Page 17 1. INSTALLATION 1.1.2 How to assemble the antenna unit The antenna unit consists of the antenna radiator and the antenna unit chassis, and they are packed separately. Fasten the antenna radiator to the antenna unit chassis as follows: 1. Coat the hatched area shown below with the supplied adhesive. Adhesive Radiator bracket...
Page 18 1. INSTALLATION 4. Fasten the antenna radiator to the radiator bracket with the six sets of hex bolts, flat washers (2 pcs.) and gaskets. Fasten the bolts in the order shown below. The torque must 15.0 N•m. Then, Coat the screws fixed at step 4 with the supplied adhesive as shown in the figure below.
Page 19 1. INSTALLATION 1. Construct a suitable mounting platform referring to the outline drawing at the end of this manual. Note: The mounting platform must be flat, level and firmly secured. • The diameter of the mast for fixing the antenna unit platform must be over 180 •...
Page 20 1. INSTALLATION 6. Fasten the antenna unit to the mounting platform with four sets of hex bolts (M12 70), nuts, flat washers and seal washers. Insert the bolts from the topside of the platform. The torque must be 49 N•m. For how to fasten double nuts, see the following procedure.
Page 21: Monitor Unit
1. INSTALLATION Mounting platform side Method 1 Method 2 Adhesive Adhesive Hex bolt Hex bolt Ground wire Ground wire Flat washer Spring washer Ground wire Ground wire Mounting Platform Mounting Platform Flat washer Hex bolt Flat washer Spring washer Mounting Platform Mounting Platform Adhesive Adhesive...
Page 22 1. INSTALLATION For RCU-024: • “199999” or earlier: See “C4473-G02” to “C4473-G04”. • “200001” or later: See “C4473-G18” to “C4473-G20”. For RCU-025: • “199999” or earlier: See “C3607-G01” to “C3607-G03”. • “200001” or later: See “C3607-G05” to “C3607-G07”. • Determine the location considering the length of the signal cable between the con- trol unit and the processor unit.
Page 23 1. INSTALLATION RCU-025 RCU-026 1.3.2 Installation in a console Use the applicable optional flush mount kit to install the control unit in a console. Flush mount kit Control Unit Type Code RCU-025 OP24-24 001-171-790 RCU-026 OP24-27 001-171-820 1. Prepare a cutout in the location as shown in the figure as below. 170+2 170+2 110+2...
Page 24: Power Supply Unit
1. INSTALLATION Power Supply Unit 1.4.1 Installation considerations The Power Supply Unit can be mounted on a bulkhead or deck. Keep in mind the fol- lowing points when selecting a location. • Locate the unit away from heat sources because of heat that can build up inside the cabinet.
Page 25: Processor Unit
1. INSTALLATION Processor Unit 1.5.1 Installation considerations Keep in mind the following points when selecting a location. • Locate the processor unit away from heat sources because of heat that can build up inside the cabinet. • Select a location where the vibration is minimal. •...
Page 26: Sensor Adapters (Option)
1. INSTALLATION 1.5.2 How to install the processor unit 1. Use 10 binding head screws (M4 8, supplied) to attach the chassis bases 1 and 2 to the processor unit. Note: For bulkhead mounting, attach the chassis base 2 so that the notches on it are facing the deck.
Page 27: Intelligent Hub (Option)
1. INSTALLATION • Select the location considering the number of sensor adapters connected. A maximum of eight MC-3000S can be connected to a sensor network. A maximum of 10 sensor adapters (MC-3010A/3020D/3030D) can be connected to a MC-3000S. However, note that five MC-3010A can be connected. •...
Page 28 1. INSTALLATION • A magnetic compass will be affected if the hub is placed too close to the magnetic compass. Observe the compass safe distances in the SAFETY INSTRUCTIONS to prevent interference to a magnetic compass. How to install the HUB-3000 1.
Page 29: Switching Hub (Option)
1. INSTALLATION Switching Hub (option) Use the HUB-100 to connect sensor networks. This network cannot be connected to the shipborne LAN network. Further do not connect a commercial PC to this network, other than for the maintenance. For the installation procedures, see the operator’s manual for HUB-100 (Pub. No.OMC-35191).
Page 30 1. INSTALLATION This page is intentionally left blank. 1-16...
Page 31: Wiring
WIRING Overview Cabling considerations To lessen the chance of picking up electrical interference, avoid where possible rout- ing the antenna cable (power and LAN lines) near other onboard electrical equipment (radars, TX radio antennas, etc.). Also avoid running the cable in parallel with power cables.
Page 32 2. WIRING About wiring • To use the USB port on the control unit, connect the control unit to the processor unit, using the USB cable supplied with the control unit or optional USB cable. • The length of the USB cable must be within 5 m to prevent equipment trouble. •...
Page 33 2. WIRING Standard wiring A Cat 5e LAN cable (RW-00135) connects between the antenna unit and the PSU. The maximum length of the cabling between the Processor Unit and the antenna unit is 80 m. Retrofit (using antenna cable RW-9600) or foremast installation is also possible, with the installation of a pair of LAN Signal Converters, one in the antenna unit, the other in the PSU.
Page 34: Antenna Unit
2. WIRING Antenna Unit Three cables are connected to the antenna unit: antenna cable, cable for the sub mon- itor (option) and power cable for the deicer (option). The procedure shows how to con- nect all cables. Disregard the descriptions for the optional equipment if not applicable. 2.2.1 How to fabricate the cables Antenna cable RW-00135...
Page 35 2. WIRING 40 40 10 10 Outer sheath Armor Inner sheath Crimp-on lug (FV2-M4), supplied (unit: mm) Spiral tubing Vinyl tape 2.2.2 How to connect the cables NOTICE If there is a chance of inclement weather when the RF unit is removed, cover the intakes on both Intake covers with packing tape for...
Page 36 2. WIRING 2. Disconnect the performance monitor connector (J807) and the motor drive con- nectors (J803, J804 and J808) from the RF-TB Board. RF-TB board (03P9570) J808 (motor) J808 (motor) J808 (motor) J804 (motor) J804 (motor) J804 (motor) J807 (performance monitor) J807 (performance monitor) J807 (performance monitor) J803 (motor)
Page 37 2. WIRING unfasten the four screws circled in the following figure, then orient the cable en- trance in the required direction. Refasten the screws. Available direction of cable entrance (Bow direction →) Deck entrance Mid-stern Stern (Factory setting) entrance entrance Remove four screws to change the direction of cable cover.
Page 38 2. WIRING Cable entrance Cable entrance Locking wire saddle Locking wire saddle Locking wire saddle for antenna Locking wire saddle for antenna for de-icer cable for de-icer cable and sub monitor cables and sub monitor cables REAR REAR 7. Re-mount the transceiver unit then reconnect the connectors for the motor (J803, J804 and J808).
Page 39 2. WIRING TB804 NOTE: Do not use crimp-on lug, to prevent contact resistance from Fasten conductor Fasten shield increasing. with screw. with clamp. TB803 Coaxial cable REAR REAR Signal line 9. DE-ICER INSTALLATION. See also "De-icer Kit Installation Instructions” (for TR- UP radar, C32-01313), issued separately, for the de-icer not fitted at the factory.
Page 40 2. WIRING 3) Set the Voltage Selection switch according to the power source for the deicer; 115 V or 230 V. 4) Apply power to the de-icer then press and hold the TEST button for about ten seconds. Check that the heater gets hot and then release the TEST button. 5) Coat the gasket (all brims) of the intake with the supplied oil compound.
Page 41 2. WIRING 10. Position the cables so their armors lie beneath their respective cable clamps in the cable entrance. Fasten the cable clamps. Cable clamp 11. Coat the hinge with the supplied adhesive for hinge waterproof then close the ca- ble entrance cover.
Page 42: Processor Unit
2. WIRING Processor Unit Note: The interface ports approved for interconnecting navigation equipment are shown in the figure below. For details, see section 2.3.3 "How to select the serial input/ output format". J3 to J6 For IEC 61162-2 or J8 J8 J6 J6 IEC 61162-1 J12 J13...
Page 43 2. WIRING DVI3 (DVI3: BNCX5-L2000) Cable clamp COM2 DVI2 MU-190/231/270W (COM2: DSUB9P- LAN1 X2-L cable DVI2: DVI-D/D HUB-3000 S-LINK cable) (DTI-C5E350 VCV cable) Power cable (IEC60320-C13- L5M cable) Ground wire LAN2 USB1 (IV-2sq., HUB-100/MC-3000S RCU-025/026 local supply) (FR-FTPC-CY cable, (TS-20-071-1 cable) LAN3 within 50m) COM1...
Page 44 2. WIRING How to fabricate the LAN cable Fabricate the LAN cable (FR-FTPC-CY, DTI-C5E350 VCV), as shown below. (Wrap both edges of the armor with vinyl tape.) Make sure the shield of the cable contacts the shell of the modular plug. Note: For a locally supplied LAN cable, expose the armor and clamp the armor with the cable clamp.
Page 45 2. WIRING 2.3.2 How to connect cables inside the processor unit How to fabricate the cables Fabricate the JIS cables (see the Appendix for equivalent cables if not available local- ly) as shown below. Connect the cables to the WAGO connectors on the I/O Board (24P0124) inside the processor unit.
Page 46 2. WIRING How to connect the cables 1. Unfasten four screws (M4 8) to remove the top cover from the processor unit. 2. Unfasten the three bolts circled below to remove the upper plate of the cable clamp. J3 to J6: IEC 61162-1/2 J7 to J10: IEC 61162-1 J8 J8 J6 J6...
Page 47 2. WIRING 5. Bind the cables to the fixing metal in the processor unit with the cable ties (sup- plied). Fixing metal Screws for drain wires of TTYCSLA cables Pass drain wire through shrink tubing (local supply), attach a crimp-on lug (preattached) to drain wire and fasten wire here.
Page 48 2. WIRING 2.3.3 How to select the serial input/output format How to set the termination resistors Use the jumper blocks JP1 to JP4 on the I/O Board (24P0124) to set the termination resistors for J3 to J6 ON or OFF. The default setting is ON. •...
Page 49 2. WIRING How to select the serial input/output format Use the connectors J3 to J6 to set the input/output format for serial CH1 to CH4, from IEC 61162-1 or IEC 61162-2. For connectors J7 to J10, use TTYCS-1Q or TTYCSLA- 1Q cable for a connector.
Page 50 2. WIRING Connector J7 Pin# Signal In/Out Description Remarks TD5-A Serial CH5, output IEC 61162-1 Use TTYCS(LA)-1Q, IEC 61162-1 only TD5-B Serial CH5, output IEC 61162-1 RD5-H Serial CH5, input IEC 61162-1 RD5-C Serial CH5, input IEC 61162-1 Connector J8 Pin# Signal In/Out...
Page 51 2. WIRING How to set contact input/output The connector J11 can be used for the connection of contact input or voltage input. Refer to the figures shown below to make the wiring which complies with the input specification. Note: The input must not exceed the range of the input voltage, to prevent malfunc- tion.
Page 52: Power Supply Unit
2. WIRING Power Supply Unit This procedure shows how to wire the power supply. For details see the interconnec- tion diagram. 1. Connect the ground wire between the ground terminal on the chassis and the ship’s earth. Note: Electrical shock can result if the ground wire is not connected properly. Ground terminal 2.
Page 53 2. WIRING 5. As shown below, fabricate the cables. For retrofit, the optional LAN Signal Con- verter kit. See section 2.7 for wiring. TTYCS(LA)-1Q Armor Drain wire Vinyl tape Crimp-on lug Sheath (Clamp here.) Pass the vinyl sheath (local supply) onto the drain wire, then attach the crimp-on lug (preattached to the earth clamp on the processor unit) to the wire.
Page 54 2. WIRING RW-9600 Power line Armor Vinyl tape Sheath Sheath Coaxial cable Crimp-on lug (M4) 8. Pass the antenna cable through the cable clamp. Insert the antenna cable. Insert the antenna cable. 9. Connect the power line of the antenna cable to the 13-pin WAGO connector, re- ferring to the interconnection diagram at the back of this manual.
Page 55 2. WIRING 13. Remove the connector cover for the power cable (2 places). Plastic cover Connector cover of power cable 14. Fabricate the power cable (DPYC-2.5) as shown below. Vinyl tape Armor Sheath (Clamp here.) Sheath (Clamp here.) FV2-M4 15. Pull up the plastic cover and connect the power cable. 16.
Page 56: Monitor Unit
2. WIRING Monitor Unit For the wiring of the monitor unit, see the operator’s manual supplied with the monitor unit. Also, for resolution and image data output settings, see the Instruction Manual (E32-01305-*). Mounting considerations • Connect the radar main monitor to the DVI1 and COM1 ports. •...
Page 57: Sensor Adapters (Option)
2. WIRING How to open the [INSTALLATION SETTING] menu Turn off the monitor unit. While you hold the DISP key, press the BRILL key to turn on the monitor unit. Keep the DISP key pressed until the [INSTALLATION SETTING] menu appears. Note: When the [DVI PWR SYNC] slide switch is ON, turn on the connected external equipment while you press the DISP key to turn on the monitor unit.
Page 58 2. WIRING 2.6.1 MC-3000S Use the LAN cable FR-FTPC-CY cable to connect the MC-3000S and the processor unit. With HUB-100, a maximum of eight MC-3000S can be connected. Fabrications TTYCS-1Q cable LAN cable (FR-FTPC-CY) (J8) (J8) (J9) (J9) #1 to 4: 110 #1 to 4: 110 #1 to 4: 100 #1 to 4: 100...
Page 59 2. WIRING TTYCSLA-1 cable TTYCS-1 cable Core: 6 Core: 6 Core: 6 Core: 6 Vinyl tape Vinyl tape Shield (fold back) Shield (fold back) Vinyl tape Vinyl tape (width: 10) (width: 10) (width: 10) (width: 10) See Note 1. See Note 1. TTYCS-4 cable TTYCSLA-4 cable J4/J6: 100...
Page 60 2. WIRING Connections Unfasten four screws to remove the cover. Pass the cables through the clamps and attach the cables to respective connectors. The shield (or drain wire) must lie in (con- nected to) the clamp. For TTYCSLA cables, attach a shrinking tube (local supply), to drain wire, then use these crimp-on lugs and screws to connect the drain wire here.
Page 61 2. WIRING Connector J5 Signal Remarks IEC 61162-2 IEC 61162-1 name TD2-A Out Serial CH2, output IEC 61162-1/2/modbus TTYCS(LA)-4 TTYCS(LA)-4 TD2-B Out Serial CH2, output IEC 61162-1/2/modbus RD2-A Serial CH2, output IEC 61162-2/modbus No connection RD2-B Serial CH2, output IEC 61162-2/modbus ISOGND2 Isolation, GND (CH2) RD2-H...
Page 62 2. WIRING Connector J9 Pin# Signal name In/Out Description Used cable TD7-A Serial CH7, output IEC 61162-1 TTYCS-1Q or TTYCSLA-1Q TD7-B Serial CH7, output IEC 61162-1 RD7-H Serial CH7, input IEC 61162-1 RD7-C Serial CH7, input IEC 61162-1 TD8-A Serial CH8, output IEC 61162-1 TD8-B Serial CH8, output IEC 61162-1 RD8-H...
Page 63 2. WIRING 2.6.2 MC-3010A/3020D/3030D • MC-3010A: Inputs analog signal. To use MC-3010A as current input, connect short pins to each terminals. • MC-3020D: Inputs digital signal (8ch contact input). Contact or voltage input is se- lectable (contact input requires short pins). •...
Page 64 2. WIRING Connection For TTYCSLA cables, pass the drain wire through shrink tubing, then attach these crimp- on lugs and screws to connect drain wires to chassis. IV-1.25sq. (Local supply) IV-1.25sq. (Local supply) TTYCS-1/ TTYCS-1/ TTYCSLA-1 TTYCSLA-1 MC1.5-W-L cable MC1.5-W-L cable MC-3010A IV-1.25sq.
Page 65 2. WIRING • Power current: Pass the power current to the shunt resistor, 1k /parallel (combined resistance: 500 ) to input the amount of voltage change at the both ends of the re- sistor to the operational amplifier. AN +15V +15V +VS1 AN - IN...
Page 66 2. WIRING How to set ACK input (MC-3020D) Use the connectors J3 to J6 to set the ACK input for ACK1 to ACK8 as shown below. • Input circuit for voltage input 470Ω/ 0.5W Resistor DC12V_OUT 2.2kΩ / 1W MC-DIN DIGI_IN1 DC voltage input Board...
Page 67 2. WIRING Connector J4 ACK3 ACK3 ACK4 Signal name Remarks ACK4 voltage contact voltage contact DC12V_OUT ACK3 In Pin #1-#2: No connection short DIGI_IN3 MPYC-12 According to ACK3 input DIGI_RTN3 MPYC-12 GND (DC12V) No connection DC12V_OUT ACK4 In Pin #5-#6: No connection short DIGI_IN4...
Page 68 2. WIRING How to set alarm output (MC-3030D) Use the connector J3 to J6 on the MC_OUT Board (24P0117) to select NC (normal close) or NO (normal open) for alarm output 1 to 8. Connector J3 Signal Alarm1 Alarm1 Alarm2 Alarm2 Remarks name...
Page 69 2. WIRING Case gasket OP24-29 The optional kit OP24-29 protects the connectors on the MC-3010A/3020D/3030D to waterproofing standard IPX2. Case gasket (type: OP24-29, code no.: 001-169-960) Name Type Code No. Remarks Case gasket (analog) 24-014-2052-1 100-367-961-10 MC-3010A/3020D/3030D 1. Unfasten four binding screws to remove the cover from the adapter. Cover Binding screw 2.
Page 70 2. WIRING 2.6.3 How to set jumper blocks in the sensor adapters MC-3000S Set the jumper blocks on the MC-CS Board (24P0114) referring to the tables that fol- low. (J22/J23 are not used) J14 J22 J23 J15 J16 J17 (Not Used) J20 J21 (J20/J21 are not used) MC-CS Board (24P0114)
Page 71 2. WIRING Jumper block J15 Connector J5 (CH2) SHORT Termination resistor: ON (default setting) OPEN OPEN Termination resistor: OFF SHORT Jumper block J16 Connector J6 (CH3) SHORT Termination resistor: ON (default setting) OPEN OPEN Termination resistor: OFF SHORT Jumper block J17 Connector J7 (CH4) SHORT Termination resistor: ON (default setting)
Page 72: Lan Signal Converter Kit (Option)
2. WIRING Jumper block: Use the jumper block J25 to set the termination resistor on/off for the MODBUS communication on the connector J1. For the first and last sensor adapter in a series, their termination resistors must e set to ON. If not, communication between sensor adapters is not possible.
Page 73 2. WIRING 40 40 10 10 Power line Crimp-on lug Inner shield Inner shield Armor Vinyl tape Outer sheath Inner sheath Outer shield Outer shield Coaxial cable Coaxial cable 14 14 14 14 (unit: mm) Folded shield Application 2: Foremast installation Foremast installation, where the distance between the antenna unit and the power supply unit is more than 100 m (max.
Page 74 2. WIRING 2.7.2 Installation in the antenna unit Note: If the Antenna Unit does not included the LAN Signal Converter, the converter kit (available as an optional extra) is required. See "LAN Signal Converter Kit" on page 2-42. Dismount the transceiver unit in the Antenna Unit. See section 2.2.2, for details. Also, in the procedure, mainly figures of magnetron radar are shown.
Page 75 2. WIRING 2.7.3 Installation in the power supply unit Some parts or wiring may have been omitted from the illustrations of the power supply unit for clarity. 1. Set the M_S switch on the converter to the M (Master) position. Master/Slave Coax/PLC TEST...
Page 76 2. WIRING 5. Pass the LAN cable thru the clamp circled below then connect it to J102 on the PSU-CNTL board. (The cable will be connected to the converter after the convert- er is installed.) J102 J102 6. Fasten the converter with three screws at the locations shown circled below. At- tach the two supplied locking wire saddles to the locations circled below.
Page 77 2. WIRING LAN cable Power cable Power cable J107 J107 Coaxial Coaxial cable cable 2.7.4 How to check the installation Observe the LEDs on the converter to check for proper operation, troubleshoot. Master/Slave Coax/PLC TEST HMC-200CE-A LAN PWR State Meaning Power OFF Lighting green Power ON...
Page 78: Junction Box (Option)
2. WIRING Junction Box (option) Junction boxes are required when the distance between the antenna unit and power supply unit is greater than 100 meters (max. 460 meters); for example, the antenna unit is installed on the foremast. Use signal cable RW-9600(x2), power cable DPYCY- 6(x3), and coaxial cable RG-12/UY(x3).
Page 79: Intelligent Hub (Option)
2. WIRING Intelligent HUB (option) Fix the LAN cables to the cable clamp with the cable ties (supplied). Power port Power Fail DPYC-1.5 cable DPYC-1.5 cable Ground wire (IV-1.25sq., supplied) LAN cable No use. LAN port To gateway network (ECDIS, radar, etc.) Attach the LAN cap (supplied) to the unused connector holes to comply with waterproofing standard IPX2.
Page 80: How To Extend The Control Unit Cable (Option)
2. WIRING 2.10 How to Extend the Control Unit Cable (option) To extend the length of the cable between the control unit and the processor unit, use the appropriate cable assembly for the control unit, as listed below. • RCU-025: TET-16-045A (5/10/20/30 m) •...
Page 81 2. WIRING 4. Pull out the control unit cable from the cover. 5. Pass the optional cable assy (TET-16-045A) through the grommet and cable en- trance on the control unit. 6. Fasten the shield of the cable with the cable clamp (removed at step 2). Note: When the serial number is “200001”...
Page 82 2. WIRING 2.10.2 Trackball control unit (RCU-026) Wiring for the trackball control unit 1. Unfasten four binding screws (M3 8) from the bottom of the control unit, and a pan head screw (M3 8) and flat washer from the back of the control unit to remove the cover.
Page 83 2. WIRING 5. Fasten the shield of the cable assy with the cable clamp (removed at step 2), then connect the connector at the end of the cable assy to the J1 on the circuit board. Note: The shield of the cable must not touch the circuit board. Cable assy Shield Cable clamp...
Page 84: Vdr Connection
2. WIRING 2.11 VDR Connection You can connect a VDR to this radar in one of two manners: DVI-I (Analog RGB) or LAN. 2.11.1 DVI-I (Analog RGB) connection • Use the optional RGB cable (DVI-BNCX5-L2000) to connect the VDR. • The DVI-D port and DVI-I port each have their own circuits. This prevents the inter- ruption of the radar picture shown on the main monitor (connected to the DVI-D port), if a fault occurs at the DVI-I port.
Page 85: Settings And Adjustments
SETTINGS AND ADJUSTMENTS Note: After completing the settings and adjustments, copy the setting data to a USB flash memory, referring to section 23.2 in the Operator's Manual. This will allow easy restoration of setting data after the SPU Board is replaced, etc. How to Access the Radar Installation Menu The [RADAR INSTALLATION] menu has various items for adjustment of the radar.
Page 86: How To Adjust The Sweep Timing
3. SETTINGS AND ADJUSTMENTS 1. Select a stationary target echo at a range between 0.125 and 0.25 NM, preferably near the heading line. 2. Operate the EBL control to bisect the target echo. 3. Read the target bearing. 4. Measure the bearing of the stationary target on a navigation chart and calculate the difference between the actual bearing and apparent bearing on the radar screen.
Page 87: How To Suppress Main Bang
3. SETTINGS AND ADJUSTMENTS How to Suppress Main Bang Main bang is the clutter at the center of the screen that you typically see on the radar display, and it may mask close-in targets. If main bang appears at the screen center, suppress it as follows.
Page 88 3. SETTINGS AND ADJUSTMENTS 3.5.2 How to set the width and length for the picture from the exter- nal radar If two FAR-3xx0 series radars are to be used for the dual radar display, set the same display area on each radar to ensure proper performance. 1.
Page 89 3. SETTINGS AND ADJUSTMENTS 5. Use the scrollwheel to set [START] and [ANGLE], referring to the example below. Spin the scrollwheel to set and push it to confirm. A solid green line marks the dual radar display area. • [START]: Start point of the sector (in degrees, 000-359).
Page 90: Other Settings
3. SETTINGS AND ADJUSTMENTS Other Settings This section describes the menu items not previously described. 3.6.1 [ECHO ADJ] menu Open the main menu then select [9 RADAR IN- STALLATION] [1 ECHO ADJ] to open the [ECHO ADJ] menu. [1 VIDEO LEVEL ADJ] Adjust the video level manually.
Page 91 3. SETTINGS AND ADJUSTMENTS 3.6.2 [SCANNER] menu Open the main menu then select [9 RADAR IN- STALLATION] [2 SCANNER] to open the [SCANNER] menu. [1 BLIND SECTOR1], [2 BLIND SECTOR2] Set area(s) where to prevent transmission. Head- ing must be properly aligned (see section 3.2) be- fore setting any blind sector.
Page 92 3. SETTINGS AND ADJUSTMENTS 3.6.3 [INSTALLATION] menu Open the main menu then select [9 RADAR INSTALLATION] [3 INSTALLATION] to open the [INSTALLATION] menu. IMO-/A-type radars B-type radar X-NXT X-NXT AUTO/MANUAL AUTO/MANUAL [1 RANGE UNIT] For the B-type radar, select the range unit, NM, SM, KM or kyd then push the left but- ton.
Page 93 3. SETTINGS AND ADJUSTMENTS [6 PM GAIN ADJ] Adjust the performance monitor, Before setup Before setup After setup After setup automatically or manually, when- ever the magnetron is replaced. For automatic adjustment, no fur- ther operation is required; close 8.1 NM to 8.1 NM to the menu at the completion of the 10.1 NM...
Page 94 3. SETTINGS AND ADJUSTMENTS 3.6.4 [TT PRESET] menu Open the main menu then select [9 RADAR INSTALLATION] [4 TT PRESET] to open the [TT PRESET] menu. Page 2 Page 1 [1 TT DATA OUTPUT] Show the [TT DATA OUTPUT] menu. Note: Confirm the data input configuration for the equipment which will receive the TT (target tracking) sentence BEFORE setting this menu.
Page 95 3. SETTINGS AND ADJUSTMENTS [2 NUMBER OF TT] Set the number of targets that can be acquired, [100] or [MAX] (200). For FAR-2xx7 radar, select [100]. [3 MAX RANGE] Select the maximum target tracking range, 24 or 32 nm. [4 QV DISPLAY] [OFF]: Normal picture, [ON]: Quantized video.
Page 96 3. SETTINGS AND ADJUSTMENTS [7 TRACK PRESET] • [GATE SIZE]: Set the gate size among [S], [M], [L] or [LL]. • [FILTER RESPONSE]: Set the filter response function. The setting range is 1 to 4. 1: Filter response is improved. 4: Filter stability is improved.
Page 97: Network Transmission Setting Between
3. SETTINGS AND ADJUSTMENTS [6 ROUTE SOURCE] Set the IP address when receiving route information from a route source other than FMD-3200/3300. [7 WIND REF TEXT] Select the format of the wind information on the [NAV data] box. For the wind refer- ence, set on the [WIND STB] (Main menu [4 INFORMATION BOX] [2 SET NAV DATA] [6 WIND STB]) menu.
Page 98: Synchronization With Ship's Clock
3. SETTINGS AND ADJUSTMENTS 2. Enter the password and click the [OK] button. Note: The edit mode remains enabled until you press Ctrl, Shift and t keys simul- taneously or reboot the unit. 3. Click [MENU] in the chart mode to open the menu. 4.
Page 99: How To Change The Display Color For Sensor Data Based On Integrity
3. SETTINGS AND ADJUSTMENTS 4. Click [Ship & Route Parameters], then click the [Function1] tab. 5. Click the [OFF] button of [Sync with ship’s clock] to set "ON". 6. Click the [Save] button to save the configuration. 3.10 How to Change the Display Color for Sensor Data Based on Integrity The following procedure shows how to change the color of the data in the sensor in- formation box based on the results of the Integrity Check.
Page 100: How To Display The [Echo] Page
3.13 How to Set Up the Back-up ECDIS The set up of the back-up ECDIS must be completed by a FURUNO approved service engineer. For details, see the Instruction Manual (E32-01305). When Back-up ECDIS mode is active, the following changes occur: •...
Page 101 EPFS meeting the requirements of the IMO resolution MSC.112(73). Gyrocompass meeting the requirements of the IMO resolution A.424(XI). SDME meeting the requirements of IMO resolution MSC.96(72). The radar may be interconnected via HUB-3000 to other FURUNO processing units having approved LAN ports. Processor Unit Input and output data are shown in the table below.
Page 102: Iec 61162 Sentences
4. INPUT/OUTPUT DATA IEC 61162 Sentences Input sentence and sentence priority Data Sentence priority Acknowledge alarm Alert command ACM, ACN AIS addressed and binary broadcast acknowledgment AIS voyage static data Datum Depth DPT>DBT Heartbeat supervision report Heading (true) THS>HDT NAVTEX received message Position GNS>GGA>RMC>GLL Set alarm state...
Page 103: Appendix 1 Jis Cable Guide
EX: TTYCYSLA - 4 MPYC - 4 # of cores Designation type Designation type # of twisted pairs TTYCSLA-4 The following reference table lists gives the measurements of JIS cables commonly used with Furuno products: Cable Core Core Cable Diameter Type...
Page 104 APPENDIX 2 ROD TERMINALS MC-3000S, MC-CS Board (24P0114) Connector # Pin # Signal name Rod terminal to use Connected cable 24V_VOUT AI 0.34-6 TQ (blue) 24V_GND MODBUS-A AI 0.14-8 GY (gray) MC1.5-W-Lxxx MODBUS-B Connector # Pin # Signal name Rod terminal to use Connected cable 24V_IN AI 1.5-6 BK (black)
Page 105: Appendix 2 Rod Terminals
APPENDIX 2 ROD TERMINALS Connector # Pin # Signal name Rod terminal to use Connected cable TD4-A TD4-B RD4-A TTYCS-4 RD4-B AI 0.75-6 GY (gray) TTYCSLA-4 ISOGND4 RD4-H RD4-C Connector # Pin # Signal name Rod terminal to use Connected cable TD5-A TD5-B TTYCS-1Q...
Page 106 APPENDIX 2 ROD TERMINALS MC-3010A MC-ANLG Board (24P0115) Connector # Pin # Signal name Rod terminal to use Connected cable 24V_IN AI 0.34-6 TQ (blue) 24V_GND MODBUS-A AI 0.14-8 GY (gray) MC1.5-W-Lxxx MODBUS-B Connector # Pin # Signal name Rod terminal to use Connected cable 24V_OUT AI 0.34-6 TQ (blue)
Page 107 APPENDIX 2 ROD TERMINALS Connector # Pin # Signal name Rod terminal to use Connected cable DV12V_OUT1 DIGI_IN1 DIGI_RTN1 AI 1-6 RD (red) MPYC-12 DC12V_OUT2 DIGI_IN2 DIGI_RTN2 Connector # Pin # Signal name Rod terminal to use Connected cable DV12V_OUT3 DIGI_IN3 DIGI_RTN3 AI 1-6 RD (red)
Page 108 APPENDIX 2 ROD TERMINALS MC-3030D, MC-DOUT Board (24P0117) Connector # Pin # Signal name Rod terminal to use Connected cable 24V_IN AI 0.34-6 TQ (blue) 24V_GND MODBUS-A AI 0.14-8 GY (gray) MC1.5-W-Lxxx MODBUS-B Connector # Pin # Signal name Rod terminal to use Connected cable 24V_OUT AI 0.34-6 TQ (blue)
Page 109: Appendix 3 Digital Interface
APPENDIX 3 DIGITAL INTERFACE Digital Interface Input sentence ABK, ACK, ACM, ACN, ALR, CUR, DBT, DPT, DTM, GGA, GLL, GNS, HBT, HDT, MTW, MWV, NRX, NSR, RMC, RRT, THS, VBW, VDM, VDO, VDR, VHW, VSD, VTG, ZDA Output sentences ABM, ACK, ALC, ALF, ALR, ARC, BBM, EVE, HBT, OSD, RRT, RSD, TLB, TTD, TTM, VSD Note: When this radar system has Back-up ECDIS enabled and Back-up ECDIS mode is active, the talker for some route-related sentences and alerts changes to "EI".
Page 110 APPENDIX 3 DIGITAL INTERFACE ACM, ACN - Alert command $**ACM,hhmmss.ss,aaa,x.x,x.x,ca,a*hh<CR><LF> $**ACN,hhmmss.ss,aaa,x.x,x.x,ca,a*hh<CR><LF> 1. Time (hh=00 to 23, mm=00 to 59, ss.ss=00.00 to 60.99, null) 2. Manufacturer mnemonic code (3 digit alphanumeric code, null) 3. Alert identifier (0 to 9999999) 4. Alert instance (1 to 999999, null) 5.
Page 111 APPENDIX 3 DIGITAL INTERFACE DTM - Datum reference $**DTM,ccc,a,x.x,a,x.x,a,x.x,ccc,*hh<CR><LF> 1 2 3 4 5 6 7 1. Local datum (W84=WGS84 W72=WGS72 S85=SGS85, P90=PE90 2. Local datum subdivision code (one character, null) 3. Lat offset, min (0 - 59.99999) 4. N/S 5.
Page 112 APPENDIX 3 DIGITAL INTERFACE HBT - Heartbeat supervision sentence $**HBT,x.x,A,x*hh<CR><LF> 1 2 3 1. Configured repeat interval (00.0 to 99.9(s)) 2. Equipment status (A=Normal V=System fail) 3. Sequential sequence identifier (0 to 9) HDT - Heading, true $**HDT, xxx.x,T*hh<CR><LF> 1. Heading, degrees (0.00 to 360.00) 2.
Page 113 APPENDIX 3 DIGITAL INTERFACE NSR - Navigation Status Report $**NSR, a, A, a, A, a, A, a, A, a, A, a, a, A *hh<CR><LF> 1 2 3 4 5 6 7 8 9 10 1112 13 1. Integrity of heading (P, F, D, N) 2.
Page 114 APPENDIX 3 DIGITAL INTERFACE VBW - Dual ground/water speed $**VBW,x.x,x.x,x,x.x,x.x,x,x.x,x,x.x,x,*hh<CR><LF> 1 2 3 4 5 6 7 8 9 10 1. Longitudinal water speed, knots (-99.949 - 99.949) 2. Transverse water speed, knots (-99.949 - 99.949, null) 3. Status: water speed, A=data valid V=data invalid 4.
Page 115 APPENDIX 3 DIGITAL INTERFACE VSD- AIS voyage static data $--VSD,x.x,x.x,x.x,c--c,hhmmss.ss,xx,xx,x.x,x.x*hh<CR><LF> 6 7 8 1. Type of ship and cargo category (0 - 255) 2. Maximum present static draught (0 to 25.5 meters, null) 3. Persons on-board (0 - 8191, null) 4.
Page 116 APPENDIX 3 DIGITAL INTERFACE ALC - Cyclic alert list $**ALC,xx,xx,xx,x.x, aaa,x.x,x.x,x.x,’’’’’’’’’,*hh<CR><LF> 1 2 3 4 1. Total number of sentences this message (01 to 99) 2. Sentence number (01 to 99) 3. Sequential message identifier (00 to 99) 4. Number of alert entries (0 to 3) 5.
Page 117 APPENDIX 3 DIGITAL INTERFACE BBM - UAIS broadcast binary message $**BBM,x,x,x,x,xx,s--s,x,*hh<CR><LF> 12 3 4 5 1. Total number of sentences needed to transfer the message (1 - 9) 2. Sentence number (1 - 9) 3. Sequential Message identifier (0 - 9) 4.
Page 118 APPENDIX 3 DIGITAL INTERFACE RSD - Radar system data $RARSD,x.x,x.x,x.x,x.x,x.x,x.x,x.x,x.x,x.x,x.x,x.x,N,H*hh <CR><LF> 9 10 11 12 13 1. Origin 1 range, from own ship (0.000 - 999) (see note 2) 2. Origin 1 bearing, degrees from 0 (0.0 - 359.9) (see note 2) 3.
Page 119 APPENDIX 3 DIGITAL INTERFACE TTM - Tracked target message $RATTM,05,12.34,23.4,R,45.67,123.4,T,1.23,8.23,N,c--c,T,R,hhmmss.ss,M*hh<CR><LF> 9 10 11 12 13 1. Target number (00 to 999) 2. Target distance from own ship (0.000 - 99.999) 3. Bearing from own ship,degrees (0.0 - 359.9) 4. True or Relative (T) 5.
Page 120 APPENDIX 3 DIGITAL INTERFACE Serial Interface TD-A TD-B LTC1535 ISOGND RD-A RD-B 110 ohm* * Set with jumper. 470 ohm Open/close switchable. RD-H PC-400 RD-C Processor Unit: IEC 61162-2/1 input/output Sensor Adapter: IEC 61162-2/1 input/output 470 ohm RD-H PC-400 RD-C Processor Unit: IEC 61162-1 input Sensor Adapter: IEC 61162-1 input 10 ohm...
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Page 167: Interconnection Diagrams
選択 SELECT 制御部センサーアダプター PROCESSOR SENSOR ADAPTER UNIT MC-3000S(SERIAL 8ch) EC-3000 パネルPC部 PANEL COMPUTER UNIT PCU-3000/3010 または OR スイッチングハブ SWITCHING HUB HUB-100 IV-1.25sq. 3-4間ジャンパー設定オープン：電圧入力、ショート：電流入力 JUMPER SETTING BETWEEN 3 AND 4; OPEN: VOLTAGE INPUT, CLOSE: CURRENT INPUT IV-1.25sq. IV-1.25sq. 注記＊１）造船所手配。...

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