Furuno FAR-2218 Installation Manual

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Page 1: Table Of Contents
Installation Manual MARINE RADAR FAR-2218(-BB)/2228(-BB)/2318/2328/ Model FAR-2238S(-BB/-NXT/-NXT-BB)/ FAR-2338S(-NXT)/2328W/2338SW SAFETY INSTRUCTIONS ......i 3.3 How to Adjust the Sweep Timing ..3-4 3.4 How to Suppress Main Bang ....3-4 SYSTEM CONFIGURATION ....iii 3.5 Other Settings ........3-5 EQUIPMENT LISTS........ix 4. INPUT/OUTPUT DATA ....4-1 1. INSTALLATION.......1-1 4.1 Processor Unit ........4-1...
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Page 3: Safety Instructions
Model Transceiver Magnetron Antenna* 100 W/m 50 W/m 10 W/m XN12CF 0.6 m 1.4 m 4.4 m Magnetron FAR-2218(-BB) RTR-105 (12 kW) XN20CF 0.4 m 0.9 m 3.0 m FNE1201 radar FAR-2318 XN24CF 0.3 m 0.6 m 2.5 m...
Page 4 SAFETY INSTRUCTIONS CAUTION WARNING Observe the following compass safe Do not open the equipment. distances to prevent deviation of a This equipment uses high voltage magnetic compass: electricity which can shock, burn or cause serious injury. Only qualified Standard Steering personnel can work inside the equipment.
Page 5: System Configuration
EPFS meeting the requirements of the IMO resolution MSC.112(73). Gyrocompass (or equivalent devices) 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 X-band (TR-UP) Basic configuration is shown with solid line.
Page 6 SYSTEM CONFIGURATION S-band (TR-UP) ANTENNA UNIT ANTENNA UNIT (for FAR-2238S(-BB)/2338S, 30 kW) (for FAR-2238S-NXT(-BB)/2338S-NXT, 250 W) SN24CF-RSB129-107 SN24CF-RSB133-111 SN30CF-RSB129-107 SN30CF-RSB133-111 SN36CF-RSB129-107 SN36CF-RSB133-111 : Standard supply Sub display : Optional or local supply Antenna Cable 100-115/220-230 VAC 1ø, 50-60 Hz (for de-icer) Gyrocompass* (AD-10 format) Control Unit...
Page 7 SYSTEM CONFIGURATION X-band (TR-DOWN) Antenna Unit (for FAR-2328W, 25 kW) 100-115/220-230 VAC XN20CF-RSB130 1ø, 50-60 Hz XN24CF-RSB130 (for de-icer) Signal cable Wave guide TRANSCEIVER UNIT Sub display : Standard supply RTR-108 : Optional or local supply Antenna Cable Control Unit RCU-014 or RCU-015 Gyrocompass* (AD-10 format)
Page 8 SYSTEM CONFIGURATION S-band (TR-DOWN) Antenna Unit (for FAR-2338SW, 30 kW) SN36CF-RSB131 : Standard supply : Optional or local supply 100-115/220-230 VAC 1ø, 50-60 Hz (for de-icer) Signal cable Coaxial cable TRANSCEIVER UNIT Sub display RTR-109 Antenna Cable Control Unit RCU-014 or RCU-015 Gyrocompass* (AD-10 format) Gyrocompass*...
Page 9 SYSTEM CONFIGURATION Category of units Antenna unit: Exposed to weather Other units: Protected from the weather Notes 1) The gyrocompass must be type approved for compliance with IMO resolution A.424(XI) (and/ or resolution A.821(19) for installation on HSC). The gyrocompass must also have an update rate that is adequate for the ship’s rate of turn.
Page 10 LAN2 Switching HUB-100 100-230 VAC 100-230 VAC 1ø, 50-60 Hz 1ø, 50-60 Hz Sensor Network (IEC-61162-450) Radar Component Combinations RADAR MODEL TRANSCEIVER UNIT ANTENNA UNIT FAR-2218(-BB), FAR-2318 RTR-105 XN12CF-RSB-128 XN20CF-RSB-128 FAR-2228(-BB), FAR-2328 RTR-106 XN24CF-RSB-128 XN20CF-RSB-130 FAR-2328W RTR-108 XN24CF-RSB-130 SN24CF-RSB-129 FAR-2238S(-BB), FAR-2338S...
Page 11: Equipment Lists
EQUIPMENT LISTS Standard supply For X-band TR-UP radar: FAR-2218(-BB)/2228(-BB)/2318/2328 Name Type Code No. Remarks Antenna XN12CF-RSB-128-105 4 ft, 12 kW Unit XN12CF-RSB-128-106 4 ft, 25 kW XN20CF-RSB-128-105 6.5 ft, 12 kW Select XN20CF-RSB-128-106 6.5 ft, 25 kW XN24CF-RSB-128-105 8 ft, 12 kW...
Page 12 EQUIPMENT LISTS Name Type Code No. Remarks Control Unit RCU-014 Standard type Select RCU-015 Trackball type Installation CP03-35202 001-249-880 For radiator Materials CP03-35402 001-255-430 For RSB (no de-icer) CP03-35404 001-270-080 For RSB (w/de-icer) CP03-35500 [15M] 000-024-096 For antenna unit, 15 m CP03-35510 [30M] 000-024-097 For antenna unit, 30 m...
Page 13 EQUIPMENT LISTS Name Type Code No. Remarks Spare Parts SP03-17641 001-249-740 Fuse for 24 rpm radar • FGBO-A 250V 7A PBF, 2 pcs. SP03-17651 001-249-750 Fuse for 42 rpm radar • FGBO-A 250V 3A PBF, 2 pcs. • FGBO-A 250V 7A PBF, 2 pcs.
Page 14 EQUIPMENT LISTS For S-band TR-DOWN radar: FAR-2338SW Name Type Code No. Remarks Antenna Unit SN36CF-RSB-131 Transceiver Unit RTR-109 Processor RPU-025 Unit Monitor Unit MU-231 Select MU-270W Control Unit RCU-014 Standard type Select RCU-015 Trackball type Installation CP03-35202 001-249-880 For radiator Materials CP03-35901 001-300-540...
Page 15 EQUIPMENT LISTS Name Type Code No. Qty. Remarks Spare Parts SP03-19200 000-034-305 Select For X-band radar, S-band one. (24rpm) radar, without HUBs. SP03-19210 000-034-306 For S-band (42rpm) radar, without HUBs. SP03-19220 000-034-307 For X-band radar, S-band (24rpm) radar, w/ HUB-100. SP03-19230 000-034-308 For S-band (42rpm) radar, w/...
Page 16 EQUIPMENT LISTS Name Type Code No. Remarks Flush Mount Kit OP26-12 001-116-280 For MU-190 OP26-17 001-116-750 For MU-231 Flush Mount As- OP26-31 001-439-070 For MU-270W sembly (Rear) Flushmount Kit FP03-09870 008-535-630 For Control Unit Connection Stand OP03-183 008-535-640 (20) Connection Stand OP03-184 008-535-650 (23)
Page 17 EQUIPMENT LISTS Name Type Code No. Remarks Hood (23) Assem- OP26-25 001-139-380-01 MU-190 for RCN-323 Dust Cover 03-193-7019 001-489-520 For RCN-319/323/327 Unit Mounting OP24-51 001-461-600 For RCN-319/323/327 Base Cable Assembly IOK-V0024-2 001-460-210 For LAN cable between RPU-025 and HUB-3000 Hub-Fan Kit OP03-246 001-490-320 For RCN-319/323/327...
Page 18 CAT 1 FAR-2318, FAR-2328, FAR-2328W, FAR-2338S, 24 rpm FAR-2338SW, FAR-2338-NXT CAT 1H Same models as above 42 rpm CAT 2 FAR-2218, FAR-2228, FAR-2238S, FAR-2238S-NXT 24 rpm CAT 2H Same models as above 42 rpm CAT 3 FAR-2218, FAR-2228, FAR-2238S, 24 rpm...
Page 19: 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 (X-band Radar) 1.1.1 Installation Considerations •...
Page 20 1. INSTALLATION • Install the antenna unit away from interfering high-power energy sources and TX ra- dio antennas. • Keep the lower edge of the antenna unit above the safety rail by at least 500 mm. • Install two antenna units as shown in the figure below. more than 20°...
Page 21 1. INSTALLATION • For X-band radar, if it is necessary to lay down the radiator before you fasten Waveguide Lay down radiator with it to the antenna unit, lay it waveguide facing upward. down with the waveguide up, to prevent damage to the cylinder that sur- Cylinder rounds the waveguide.
Page 22 1. INSTALLATION 4. Fasten the antenna radiator to the radiator bracket with the six sets of Antenna fixing bolts. Fasten the bolts in the order shown below. The torque must be 15.0 N•m. 5. Coat the Antenna fixing bolts fixed at step 4 with the supplied adhesive as shown in the right figure.
Page 23 1. INSTALLATION Belt sling Belt sling Bow side UP Shackle Shackle (left, right) (left, right) Radiator bracket Radiator bracket Lifting fixture Lifting fixture (ø20) (ø20) Note: Pass belt sling around the Radiator bracket. 1.1.4 How to fasten the antenna unit to the mounting platform 1.
Page 24 1. INSTALLATION of the platform. The torque must be 49 N•m. For how to fasten double nuts, see the procedure below. Note: DO NOT insert the bolts from the underside of the platform. The cover can- not be opened. Over 12 mm Mounting platform Be careful not to get The reinforcement...
Page 25: Antenna Unit (S-Band Radar)
1. INSTALLATION 6. Using a hex bolt (M6 25), nut (M6) and flat washer (M6), establish the ground sys- tem on the mounting platform. The location must be within 340 mm of the ground terminal on the antenna unit. Connect the ground wire (RW-4747, 340 mm, sup- plied) between the grounding point and ground terminal on the antenna unit.
Page 26 1. INSTALLATION Mast for DF, etc. S-band Antenna S-band Antenna Mount the antenna unit directly on the mast or Excessive on the platform, as near movement as possible to center of (pitching) the mast. 1.2.2 How to assemble the antenna unit The antenna unit consists of the antenna radiator (w/antenna support) and the anten- na unit chassis, and they are packed separately.
Page 27 1. INSTALLATION 4. Fasten the antenna radiator to the radiator bracket from the bottom of the bracket with the eight hex bolts, spring washers and flat washers. The torque must be 49 N•m. Bracket Bracket Flat washers Coat with adhesive Spring washers M12 bolts (eight places) Hex bolt...
Page 28 1. INSTALLATION Note 2: Set the screw for the safety rope to come to the left when viewed from the front side of the antenna. 1.2.3 How to hoist the antenna unit The antenna unit may be assembled before hoisting it to the mounting platform. Attach lifting belt slings to the “Antenna Support”, NOT the antenna radiator, as shown in the figure below.
Page 29 1. INSTALLATION • The diameter of the mast for fixing the antenna unit platform must be over 250 • The thickness of the antenna unit platform must be over 15 mm. • The reinforcement ribs must be installed diagonally shown in the following fig- ure.
Page 30: Monitor Unit
1. INSTALLATION Seal washer Chassis Chassis Corrosion proof rubber mat Platform Platform Flat washer Flat washer Spring washer Two nuts M12×70 (Torque: 49 N•m) (eight places) Adhesive 5. Using a hex bolt (M6 25), nut (M6), spring washer (M6) and flat washer (M6), es- tablish the ground system on the mounting platform as shown in the following fig- ure.
Page 31: Control Unit
1. INSTALLATION • Locate the monitor unit where no framing is installed immediately in front of the monitor. • Locate the monitor where the display is easily visible in all ambient lighting condi- tions. Bridge window Viewing point Viewing point Viewing point Viewing point Bridge...
Page 32 1. INSTALLATION Rubber Foot KB fixing plate Side view of control units How to mount the unit flush with mounting surface 1. Drill four mounting holes of 5 mm diameter referring to the outline drawing at the back of this manual. 2.
Page 33 1. INSTALLATION 1. Prepare a cutout in the location as shown in the figure as below. 170 ±2 mm (67') 170 ±2 mm (67') 176 ±2 mm (69') 176 ±2 mm (69') 388 ±2 mm (153') 150 ±2 mm (59') RCU-015/016 RCU-014 2.
Page 34: Processor Unit
1. INSTALLATION 1.4.4 How to change the cable entry of RCU-015/016 To change the cable entry from the side (default) to the bottom, modify the unit as shown in the following procedure. 1. Turn the chassis upside-down and remove four screws (M3 8) to open the back cover.
Page 35 1. INSTALLATION • A magnetic compass will be affected if the processor unit is placed too close to the magnetic compass. Observe the compass safe distances in the SAFETY IN- STRUCTIONS to prevent interference to a magnetic compass. • Allow for a service clearance of 100 mm in front of the vent hole (front and rear sides).
Page 36 1. INSTALLATION 1.5.2 How to install the processor unit Use four bolts (M6, local supply) to fasten the processor unit. For bulkhead mounting, fasten two Bolt holes bolts for the lower notches, leaving 5 mm of thread exposed from the bolt head.
Page 37: Transceiver Unit
1. INSTALLATION Transceiver Unit The transceiver unit is required for TR-DOWN Radar. Installation considerations Keep in mind the following points when selecting a location. • Locate the unit away from heat sources because of heat that can build up inside the cabinet.
Page 38: Switching Hub (Option)
1. INSTALLATION How to install the Intelligent Hub 1. Use two binding screws (M3 6, supplied) to attach the cable clamp (supplied) to the bottom of the HUB-3000. Binding screw (M3×6, 2 pcs) Cable clamp Bottom view 2. Fasten four self-tapping screws ( 4 20, supplied) to secure the unit. : Screw holes Switching Hub (option) Use the HUB-100 to connect sensor networks.
Page 39: Junction Box (Option)
1. INSTALLATION • A magnetic compass will be affected if the hub is placed too close to the compass. Observe the compass safe distances in the SAFETY INSTRUCTIONS to prevent compass malfunction. Junction Box (option) If the length of the antenna cable is more than 100 m, junction boxes are required. In- stall the boxes in a location protected from the weather, because their waterproofing standard is IPX3.
Page 40 1. INSTALLATION This page is intentionally left blank. 1-22...
Page 41: Wiring
WIRING Overview Cable considerations To lessen the chance of picking up electrical interference where possible, avoid routing the antenna cable (power and LAN lines) near other onboard electrical equipment (ra- dars, TX radio antennas, etc.). Also avoid running the cable in parallel with power ca- bles.
Page 42: Standard Wiring
2. WIRING 2.1.1 Standard wiring A Cat 5e LAN cable (RW-00135) connects between the antenna unit and the Proces- sor Unit. The maximum length of the cabling between the Processor Unit and the an- tenna unit is 80 m. Retrofit (using antenna cable RW-9600/4896) 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 Processor Unit.
Page 43 2. WIRING X-band/S-band (TR-DOWN) radars The appropriate radars are FAR-2328W and FAR-2338SW. 100-115/220-230 VAC ANTENNA DPYCY-1.5 : Standard supply 1ø, 50-60 Hz UNIT : Optional or local supply (for de-icer) X-band FR-9 Waveguide, 20/30/50 m TTYCYSLA-10 S-band 15/30/40/50 m LHPX-20-ASSY or WF-H50-7S, 20/30 m TRANSCEIVER UNIT S03-92-* (8P)
Page 44: Antenna Unit For X-Band, Tr-Up Radar
2. WIRING Antenna Unit for X-band, TR-UP Radar 2.2.1 How to fabricate the cables LAN cable 25 mm approx. 9 mm Expose inner vinyl sheath. Remove the inner vinyl sheath by Fold back the shield, wrap it onto approx. 25 mm. Be careful not to the inner vinyl sheath and cut it, damage inner shield and cores.
Page 45 2. WIRING WAGO connector Press downward. Procedure 1. Twist the cores. 2. Press the terminal opener downward. 3. Insert the wire to hole. Terminal 4. Remove the terminal opener Wire opener. 5. Pull the wire to confirm WAGO that it is secure. connector Twist A terminal opener is provided on the circuit board as below.
Page 46 2. WIRING For wiring the RW-9600 cable via the cable cover, the cable fabrication is shown be- low. In other cases, see the installation manual in the optional kit. The unused power lines are tied up and attached to the crimp-on lug FV5.5-S4 (LF), supplied locally.
Page 47 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 for X-band radar (TR-UP) 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 48 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) J804 (motor) J804 (motor) J807 (performance monitor) J807 (performance monitor) J803 (motor) J803 (motor) REAR...
Page 49 2. WIRING Available derection of cable entrance (Bow direction →) Deck entrance Mid-stern Stern (Factory setting) entrance entrance Remove four screws to change the direction of cable cover. 5. Unfasten the two screws fixing the cable clamp for antenna cable, then pass the antenna cable through the cable entrance.
Page 50 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 51 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 52 2. WIRING 3) Set the Voltage Setting switch according to the power source for the de-icer; 115 V or 230 V. The default setting is 230 V. 4) Apply power to the de-icer then press and hold the TEST button for about ten seconds.
Page 53 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 54: Antenna Unit For X-Band, Tr-Down Radar
2. WIRING Antenna Unit for X-band, TR-DOWN Radar 2.3.1 How to fabricate the cables Three cables are connected to the antenna unit: the serial cable from the transceiver unit, waveguide, and de-icer power cable (option). For how to connect the WAGO connector, see "WAGO connector" on page 2-5. TTYCYSLA-10 (for serial cable) Clamp the armor with the cable clamp.
Page 55 2. WIRING 2.3.2 How to connect the cables for X-band (TR-DOWN) radar 1. Unfasten four bolts from the rear cover to remove the rear cover. If the de-icer is already installed or will be installed, remove two bolts inside the antenna to re- move the front cover.
Page 56 2. WIRING 4. Unfasten the two screws fixing the cable clamp for the serial cable, then pass the serial cable (TTYCYSLA-10) through the cable entrance. Cable entrance Cable entrance Serial cable Remove two screws to remove the cable clamp for serial cable. If applicable, unfasten the two screws fixing the cable clamp for the de-icer power cable, then pass the cables through the cable entrance.
Page 57 2. WIRING Destination of serial cable Serial line: TB802 (8-pin) and TB803 (16-pin) Shield (drain wire): Screw (A) Attach crimp-on lug Attach crimp-on lug (pre-attached) to drain (pre-attached) to drain wire and connect to wire and connect to chassis. chassis. TB802 TB803 REAR...
Page 58 2. WIRING the band. Connect the cable to TB901 on the DE-ICER board (03P9573), us- ing the supplied crimp-on lugs. *: For the DE-ICER installation kit, unfasten the cable band on the supplied cover. (The original cover can be discarded.) 3) Set the Voltage Setting switch according to the power source for the de-icer;...
Page 59 10. Reconnect the performance monitor connector (J807) to the RF-TB Board. 11. Connect the waveguide to the antenna with either an E-bend or H-bend wave- guide. See FURUNO Technical Information TIE-00160 for further information. 1) Wipe the surface of the waveguide flange with a clean, dry cloth to remove any foreign material.
Page 60: Antenna Unit For S-Band, Tr-Up Radar
2. WIRING 4) Connect the waveguide flange and then fix with the bolt. Note 1: If it is necessary to open the front cover after installing the de-icer kit, remove the de-icer power cable from the locking wire saddle shown in the fol- lowing figure then detach the cover slowly to prevent damage to the heater element.
Page 61 2. WIRING Note: The maximum antenna cable length is 100 m for RW-9600, 50 m for RW-6895. If the existing antenna cable is longer than the above maximum length, replace the antenna cable with RW-00135. For cable fabrications and wiring, see the installation manuals in the optional kits. The unused power lines are tied up and attached to the crimp-on lug FV5.5-S4 (LF), supplied locally.
Page 62 2. WIRING De-icer power cable Antenna cable Sub monitor cable Antenna motor switch REAR REAR 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 waterproofing.
Page 63 2. WIRING 3. Disconnect the coaxial cable and unfasten four bolts to enable removal of the RF unit. Clockwise when Clockwise when viewed from the stern viewed from the stern Handle Handle Remove four bolts. Remove four bolts. 4. Remove the RF unit with the handle. Note: Lay the unit on its side or on top of non-ferrous material, to prevent demag- netization.
Page 64 2. WIRING 12. Re-mount the RF unit then reconnect the connectors for the motor (J803, J804 and J808), the four bolts and the coaxial cable (see step 3). The torque for fixing the coaxial cable must be 27.5 N•m. 13. Attach the appropriate WAGO connectors (pre-attached) to the appropriate ca- bles, and then connect the antenna and sub monitor cables to the RF-TB Board shown in the following figure.
Page 65 2. WIRING ( B ) TB804 NOTE: Do not use crimp-on lug, to prevent contact resistance from Fasten conductor Fasten shield increasing. with screw. with clamp. ( B ) Remove Remove Loosen Loosen REAR REAR TB803 ( C ) 14. DE-ICER INSTALLATION. See “De-icer Kit Installation Instructions” (for TR-UP radar, C32-01313), issued separately, for the de-icer not fitted at the factory.
Page 66 2. WIRING in the following figure. Pass the de-icer power cable through the locking wire saddles (1) to (6) and it to the front side. Spiral tube REAR REAR 5) Unfasten the cable band* on the front cov- er. Pass the de-icer power cable through the band then fasten the band.
Page 67 2. WIRING 10) Attach the supplied earth label over the earth label currently attached near the grounding terminal. Grounding terminal Grounding terminal Earth label Note: If it is necessary to open the front cover after installing the DE-ICER kit, re- move the de-icer power cable from the locking wire saddle shown in the following figure then detach the cover slowly to prevent damage to the heater.
Page 68 2. WIRING 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 waterproofing. Be sure to remove the tape after completing the installation. Some parts or wiring have been omitted from the illustrations for clarity. 1.
Page 69 2. WIRING 3. Disconnect the coaxial cable and unfasten four bolts to enable removal of the RF unit. Clockwise when Clockwise when viewed from the stern viewed from the stern Remove four bolts. Remove four bolts. 4. Remove the RF unit. 5.
Page 70 2. WIRING 13. Attach the appropriate WAGO connectors (pre-attached) to the appropriate ca- bles, and then antenna and sub monitor cables to the RF-TB Board shown in the following figure. For how to connect the WAGO connector, see "WAGO connector" on page 2-5. For pin arrangement, see the interconnection diagram at the back of this manual.
Page 71 2. WIRING RF-TB board (03P9570) ( B ) TB804 Fasten conductor with screw. Fasten shield with clamp. REAR REAR TB803 NOTE: Do not use crimp-on ( B ) lug, to prevent contact resistance from increasing. ( C ) 14. DE-ICER INSTALLATION. See “De-icer Kit Installation Instructions” (for TR-UP radar, C32-01313), issued separately, for the de-icer not fitted at the factory.
Page 72 2. WIRING lowing figure. Pass the de-icer power cable through locking wire saddles (1) to (6). ( 1 ) ( 2 ) ( 3 ) Spiral tube ( 4 ) ( 5 ) REAR REAR ( 6 ) 5) Unfasten the cable band* on the front cover.
Page 73: Antenna Unit For S-Band, Tr-Down Radar
2. WIRING 10) Attach the supplied earth label over the earth label currently attached near the grounding terminal. Grounding terminal Grounding terminal Earth label Note: If it is necessary to open the front cover after installing the DE-ICER kit, remove the de-icer power cable from the locking wire saddle shown in the fol- lowing figure then detach the cover slowly to prevent damage to the heater.
Page 74 Vinyl tape Spiral tubing (unit: mm) Microwave coaxial cable See the FURUNO Installation Handbook (publication no. TIE-00160) for how to treat this cable. 2.5.2 How to connect the cables for S-band (TR-DOWN) radar Three cables are connected to the antenna unit: serial cable from the transceiver unit, microwave coaxial cable and de-icer power cable (option).
Page 75 2. WIRING 1. Loosen four bolts on the rear cover to remove the rear cover. If the de-icer is al- ready installed or will be installed, remove also four bolts on the front cover to re- move the front cover. Performance Performance monitor...
Page 76 2. WIRING 7. Pass the serial cable through the cable entrance. If applicable, unfasten the appropriate cable gland and pass the de-icer power ca- ble through the cable entrance. Pass the cable through appropriate locking wire saddle. 8. Apply the supplied adhesive to the threads of the cable glands, and then fasten it tightly with the hook spanner wrench.
Page 77 2. WIRING 2) Unfasten four bolts to open the front cover. Remove the cover, being careful not to hit the elements on the chassis or radiator. 3) Unfasten two bolts to remove the RF-TB assembly, then pass the de-icer power cable through the cable entrance. Cable entrance for de-icer poewr cable REAR...
Page 78 2. WIRING 9) Fasten the two heater elements to the chassis with removed four bolts at step 1). Fasten the base of the heater with two bolts coated with the supplied adhesive. Fasten the installation materials to each of the cover bolts. M5 screw M5 screw (Do not apply adhesive.)
Page 79: Transceiver Unit
2. WIRING 13. Fasten the coaxial connector to the waveguide flange with three sets of M6 20 hex bolts, M6 spring washers and M6 nuts. Coat surface of flange with waterproofing compound. Hex bolt Spring washer REAR REAR REAR 14. Tape the cable with two or more Coaxial 5 cm turns of self-bonding tape then wrap...
Page 80 2. WIRING 35 35 Drain wire Drain wire Pass the heat shrink tubing (local supply) Outer sheath Armor Inner sheath onto the drain wire. Crimp-on lug (FV1.25-3(LF) RED for X-band, FV1.25-4(LF) RED for S-band) (unit: mm) Vinyl tape RW-00135 (unit: mm) L2 L2 Radar type X-band...
Page 81 2. WIRING 2. Unfasten three bolts from the cable clamp. Lay the cables in respective cable slots so their armors rest in the slots. For Serial cable For Antenna cable For Sub monitor cable Loosen eight bolts. Remove three bolts. 3.
Page 82 2. WIRING TB803 TB804 • Destination of Serial cable from the Antenna unit Serial cable: TB802 and TB803 through the locking wire saddle (A). Shield of serial cable: Screw on fixing plate (C) TB803 TB802 4. Bind all cables with cable ties supplied locally (two places). Cable tie Cable tie 5.
Page 83 2. WIRING With a waveguide and magnetron, however, mismatch of impedance causes “fre- quency pulling.” For this reason, the number of possible mismatches in a waveguide run, i.e., joins and bends, must be kept minimum. • Each pair of flanges should be coupled with one O-ring, four bolts and spring wash- ers and the choke flange must be in the upper position.
Page 84 2. WIRING • Destination of Antenna cable Power line: TB801 through the locking wire saddle (A). LAN cable: J821 through the locking wire saddle (A) Shield of power line: Screw (C) Shield of LAN cable: Screw (D) TB801 J821 ( D ) ( A ) LAN cable LAN cable...
Page 85: Processor Unit
5. Check that armor of cables are lying in their respective cable slots then fasten the cable clamp. Microwave coaxial plug Attach the microwave coaxial plug to the coaxial cable. See the applicable FURUNO technical information for the procedure. Attach the coaxial cable assembly to the transceiver unit as follows: 1.
Page 86 2. WIRING RW-00135 (for Antenna cable) 80 80 (unit: mm) 15 15 Power line Outer LAN cable LAN cable Armor Vinyl tape sheath Shield Shield RW-9600/6895/4873 (for retrofit or foremast installation) The existing cable can be used for the following cases. In these cases, the optional LAN Signal Converter is required.
Page 87 2. WIRING TTYCSLA series cable (for serial) (unit: mm) 80 80 Cable type (JIS) TTYCSLA-1Q Drain wire Drain wire TTYCSLA-4 Armor Sheath TTYCSLA-7 Pass the heat-resistant tubing (supplied) onto the drain wire. Crimp-on lug Vinyl tape 2.7.2 How to connect cables inside the processor unit Connect the ground wire between the ground termi- Ground terminal nal on the chassis and the ship’s earth.
Page 88 2. WIRING 3. Pass the cable to connect the WAGO connector on the TB Board 03P9648 through the locking wire saddles as below. For retrofit, the extra cables should be grounded on the ground terminal shown as below. For the connection between the BNC case and the coaxial cable, see section 2.9.3.
Page 89 2. WIRING Connection of cables for serial, contact signal lines and sub monitors of EC- 1. Unfasten the four bolts dashed circled below to remove the upper plate of the ca- ble clamp. 2. Remove the spacers to pass the appropriate cables on the upper and lower plates.
Page 90 2. WIRING 5. Connect the connectors to the TB Board. referring to the interconnection diagram. J620 J617 J616 J614 (AD-10, GYRO) (LOG) (GPS) (HDG) J618 (AMS serial) J615 (AIS) J619 (ECDIS) J611 (Control Unit) J613 (AMS contact) J510/J511 Connect cable for sub monitors of ECDIS.
Page 91 2. WIRING 4. Pass the cables to the TB board 03P9648 and clamp the shield of the cable with the cable clamp (A) shown in the following figure. Then, connect to J611 and J612. J611 (10 lines) 03P9648 J612 (2 lines) ( A ) Clamp the shield.
Page 92: Monitor Unit
2. WIRING Fixing plate Grounding Cable of VDR Cable Fix with two Assembly M5 screws. Monitor Unit For the wiring of the monitor unit, see the operator’s manual supplied with the monitor unit. Mounting considerations Standard type • Connect the radar main monitor to the DVI1. •...
Page 93 2. WIRING Slide switch Set the slide switch to "ON" (default setting). This setting automatically powers the monitor unit on or off according to the DVI signal input. The power switch of the mon- itor unit is inoperative. Note: The OFF position provides control of the monitor unit power with the power switch of the monitor unit.
Page 94: Lan Signal Converter
2. WIRING LAN Signal Converter The LAN Signal Converter allows the use of existing antenna cable RW-9600/6895/ 4873 for TR-UP radar. If the LAN Signal Converter is not attached in the antenna and processor units, the required LAN Signal Converter Kit (available as an optional extra) is listed below. For X-band radar only, you can select a specification with the LAN Signal Converter pre-installed at the factory.
Page 95 2. WIRING Coaxial cable, power cable (DPYCY x3), 400 m Antenna Unit side Processor Unit side Power Power RF-TB Antenna Processor Junc. Junc. Unit Unit LAN↔Coax LAN↔Coax Converter* Converter* Power Power * Installed inside respective unit. Antenna cable Antenna cable (30 m) (30 m) Method 2: Using antenna cable RW-9600...
Page 96 2. WIRING 4. Fasten the BNC case to the original position in the antenna unit with original two screws, referring to step 2. 5. Mount the transceiver unit to the antenna unit. 6. Re-connect the coaxial cable (disconnected at step 1). 2.9.3 Wiring in the processor unit installed the LAN Signal Convert- er already (X-band radar only)
Page 97: Junction Box (Option)
2. WIRING State Meaning Link down Lighting green 100 M link up Flashing green 100 M active Lighting orange 10 M link up Flashing orange 10 M active Coax/PLC Link down Lighting green Link up Master/Slave Lighting green Master mode Lighting orange Slave mode Note: The TEST button is for factory use.
Page 98: Intelligent Hub (Option)
2. WIRING 2.11 Intelligent HUB (option) Secure the LAN cables to the cable clamps on the HUB-3000 with cable ties (sup- plied). Power Fail Power port Ground wire DPYC-1.5 DPYC-1.5 (IV-1.25sq., supplied) LAN cable No use. LAN port To gateway network (ECDIS, radar, etc.) Attach the supplied LAN caps to unused connector holes to comply with waterproofing standard IPX2.
Page 99: Adjustments
ADJUSTMENTS Note: After completing the settings and adjustments, copy the setting data to a SD- card (SD card slot is in front of the processor unit), referring to the Operator's Manual. This will allow easy restoration of setting data after the MAIN Board is replaced, etc. At the first start-up after installation, turn on the processor unit with the main switch.
Page 100: How To Open The Radar Installation Menu
3. ADJUSTMENTS How to Use the Menu 1. Press the Power key to turn on the unit. 2. Press the MENU key or click the [MENU] box to open the main menu. The [RADAR INSTALLATION] menu does not ap- pear when the unit is first turned on. It appears on the main menu after displaying it by following the procedures on the section 3.1 and is displayed until the unit is turned off.
Page 101: How To Align The Heading
3. ADJUSTMENTS Tuning initialization Tuning initialization is required before setting up the radar. Open the main menu then select [ECHO] [TUNING INITIALIZE] to start initialization. "TUNE INIT" appears on the top of the dis- play during the initialization. Tuning bar After tuning is completed, right-click twice to close the menu.
Page 102: How To Adjust The Sweep Timing
3. ADJUSTMENTS How to Adjust the Sweep Timing Sweep timing differs with respect to the length of the signal cable between the antenna unit and the processor unit. Adjust sweep timing at installation to prevent the following symptoms: • The echo of a "straight" target (for example, pier), on the 0.25 NM range, appears on the display as being pulled inward or pushed outward.
Page 103: Other Settings
3. ADJUSTMENTS Other Settings This section describes the menu items not previously described. 3.5.1 [ECHO ADJUSTMENT] menu Open the main menu then select [RADAR INSTALLA- TION] [ECHO ADJUSTMENT] to open the [ECHO ADJUSTMENT] menu. [VIDEO ADJUST VALUE] Adjust the video level manually to remove noise. Preset the radar as follows: •...
Page 104 3. ADJUSTMENTS 3.5.2 [OWN SHIP INFO] menu Enter the length and width of the ship, and scanner, GPS antenna and conning posi- tions, referring to the description and figure below. Note: This radar uses [CONNING POSITION] for CCRP and [SCANNER POSITION] for ANT as reference points for measurements and calculations.
Page 105 3. ADJUSTMENTS 3.5.3 [SCANNER] menu Open the main menu then select [RADAR INSTALLA- TION] [SCANNER] to open the [SCANNER] menu. [SECTOR BLANK1(2)] Set area(s) where to prevent transmission. Heading must be properly aligned (see section 3.2) before set- ting any blind sector. For example, set the area where an interfering object at the rear of the antenna would produce a dead sector (area where no echoes appear) on the display.
Page 106 Confirm the model of your radar. This menu is set automatically according to the an- tenna. If this setting is different from your model, the radar will not function properly. Note: This menu is not restored after [FACTORY DEFAULT] is run. • For FAR-2218(-BB)/2318: [12] • For FAR-2228(-BB)/2328: [25UP] • For FAR-2328W: [25DOWN] •...
Page 107 3. ADJUSTMENTS • For FAR-2238S-NXT(-BB)/2338S-NXT: [S-NXT] [TYPE] Select the type of radar. • [IMO]: IMO specifications • [A]: Near-IMO specifications • [B]: Non-Japanese fishing vessel specifications • [R]: Not used. [ON TIME], [TX TIME] These items show the number of hours the radar has been turned on and transmitted, respectively.
Page 108 3. ADJUSTMENTS [MONITOR TYPE] The monitor type is preset at factory according to the ra- dar type. For BB type radar, [MU-190•231] is set in ad- vance. For other wide monitor, select [OTHER(W)]. Note: Select the monitor type correctly. If this menu is set to [MU-270W] or [OTHER(W)] and no wide monitor is connected, the screen blacks out.
Page 109 3. ADJUSTMENTS 3.5.5 [TT PRESET] menu Open the main menu then select [RADAR INSTAL- LATION] [ TT PRESET] to open the [TT PRESET] menu. [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 110 3. ADJUSTMENTS [ACQ PRESET] Show the [ACQ PRESET] menu. • [LAND SIZE]: Set the land size in units of 100 m. The setting range is 100 to 3000 m (default: 1600 m). A target whose length is equal to or greater than the length set here is judged as a land target.
Page 111 3. ADJUSTMENTS 3.5.6 [BAUD RATE] menu Set the baud rate, 4800 or 38400 (bps), for connected equipment - heading sensor, AIS transponder, GPS navigator, Log, AMS, and ECDIS. Note: For IMO-type radar, [HDG] and [AIS] is fixed to [38400]. 3.5.7 [ALERT I/F SETTINGS] menu Four alert contact outputs are available, [ALERT OUT1] to [ALERT OUT4].
Page 112 3. ADJUSTMENTS Page 1 Page 2 Page 3 [NEXT]: Go to next page. Setting alert list [BACK]: Go back to previous page. To monitor for processor unit failure, connect SYS_FAIL and PWR_FAIL from terminal J613 in the processor unit to the AMS. •...
Page 113 3. ADJUSTMENTS • Setting alert list: Select the alert to activate. The ac- tivated alerts are indicated with an underline. For example shown in the right figure, [TT NEW TARGET(A)] and [TT TARGET LOST(A)] are acti- vated. The available alerts as as follows; •...
Page 114 3. ADJUSTMENTS 3.5.8 [INPUT PORT SETTINGS] menu The input signals to the ports on the processor unit are shown below. Default setting Gyrocompass Heading signal (IEC61162 format) AIS signal AIS Transponder (FA-170) EPFS data EPFS (GPS) (GP-170) (Position, COG/SOG) PROCESSOR UNIT Speed signal RPU-025...
Page 115 3. ADJUSTMENTS The input signal setting for each port can be set in the [INPUT PORT SETTINGS] menu. Open the main menu then select [RADAR INSTALLA- TION] [INPUT PORT SETTINGS] to open the [IN- PUT PORT SETTINGS] menu. How to set the port setting of each data; 1.
Page 116 3. ADJUSTMENTS [GYRO2 SERIAL SETTINGS] [ECDIS] Note: Do not set the same value for port1 and port 2. For example, where [EPFS1] is set as [GPS], [EPFS2] must be set to other than [GPS]. [AIS], [WIND], [CURRENT], [WATER TEMP], [DEPTH] Select the input source for each data type;...
Page 117 3. ADJUSTMENTS CLASS C CLASS B Radar Radar LAN1 LAN3 LAN1 LAN3 No.1 192.168.31.21 192.168.31.101 No.1 172.31.3.35 172.31.3.6 No.2 192.168.31.22 192.168.31.102 No.2 172.31.3.36 172.31.3.7 No.3 192.168.31.23 192.168.31.103 No.3 172.31.3.37 172.31.3.8 No.4 192.168.31.24 192.168.31.104 No.4 172.31.3.38 172.31.3.9 No.5 192.168.31.25 — No.5 172.31.3.39 —...
Page 118 3. ADJUSTMENTS [RX SETTINGS] Select [ON] to receive the following data signals: • [MISC]: Other equipment data (sensor of engine etc.) • [TGTD]: Target data • [SATD]: Satellite data • [NAVD]: Navigation data • [TIME]: Time • [PROP]: Specified data by manufacturer or user 3.5.10 [OTHER SETTINGS] menu Open the main menu then select [RADAR INSTALLA-...
Page 119 3. ADJUSTMENTS [OVERLAY1 (2)] When an ECDIS is connected, the radar picture can be overlaid on the ECDIS. Set the items on this menu to correctly overlay the radar picture on ECDIS. Note: The overlay output is less accurate than the sub monitor output from the antenna unit, especially in the areas mentioned below.
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Page 121: Input/Output Data
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 122 4. INPUT/OUTPUT DATA Output Data Specification Contents Remarks Radar system IEC 61162-1, RSD, OSD, TLL For ECDIS, PC plotter data RS-232C, IEC 61162-450 TT data** IEC 61162-1, TTD, TTM, TLB For ECDIS IEC 61162-450 Alert handling IEC 61162-1, ALR, ALF, ALC, For BAMS signal IEC 61924-2,...
Page 123: Sub Monitor
4. INPUT/OUTPUT DATA IEC 61162 output sentence Contents Sentence and priority Target L/L TLL * Radar system data Own ship data TT target data TTD, TLB, TTM Alert handling ALR, ALF, ALC, ARC, HBT Activity information AIS target message, alert ABM, BBM, ACK, VSD Monitor Setting : B-type radar only.
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Page 125: Appendix 1 Jis Cable Guide
EX: TTYCYSLA - 4 MPYC - 4 TTYCSLA-4 # of cores Designation type Designation type # of twisted pairs The following reference table lists gives the measurements of JIS cables commonly used with Furuno products: Cable Core Core Cable Diameter Type...
Page 126: Appendix 2 Digital Interface
APPENDIX 2 DIGITAL INTERFACE Digital Interface Input sentence (*: For retrofit) ABK, ACK, ACN, ALR, BWC, BWR, CUR, DBK*, DBS*, DBT, DDC, DPT, DTM, GGA, GLL, GNS, HBT, HDT*, MTW, MWV, OSD, RAQ, RMB, RMC, ROT, RTE, THS, VBW, VDM, VDO, VDR, VHW, VSD, VTG, VWR*, VWT*, WPL, ZDA Output sentences (**: For B-type radar only) ABM, ACK, AIQ, ALC, ALF, ALR, ARC, BBM, DDC, EVE, HBT, OSD, RSD, TLB, TLL**, TTD,...
Page 127 APPENDIX 2 DIGITAL INTERFACE ACN - Alert command $**ACN,hhmmss.ss,aaa,x.x,x.x,c,a*hh<CR><LF> 3 4 5 6 1. Time (No use) 2. Manufacturer mnemonic code (3 digit alphanumeric code, null) 3. Alert identifier (0 to 999999) 4. Alert instance (1 to 999999, null) 5. Alert command (A=Acknowledge, Q=Request /Repeat information, O=Responsibility transfer, S=Silence) 6.
Page 128 APPENDIX 2 DIGITAL INTERFACE CUR - Water current layer – Multi-layer water current data $**CUR,A,x,x.x,x.x,x.x,a,x.x,x.x,x.x,a,a,*hh<CR><LF> 1 2 3 4 5 6 7 8 9 1011 1. Validity of data (A=Valid) 2. Data set number (No use) 3. Layer number (1 to 3) 4.
Page 129 APPENDIX 2 DIGITAL INTERFACE DPT - Depth $**DPT,x.x,x.x,x.x,*hh<CR><LF> 1 2 3 1. Water depth relative to the transducer, meters (0.00 to 99999.99) 2. Offset from transducer, meters (-99.99 to 99.99) 3. Minimum range scale in use (No use) DTM - Datum reference $**DTM,ccc,a,x.x,a,x.x,a,x.x,ccc,*hh<CR><LF>...
Page 130 APPENDIX 2 DIGITAL INTERFACE GNS - GNSS fix data $**GNS,hhmmss.ss,llll.ll,a,yyyyy.yy,a,c--c,xx,x.x,x.x,x.x,x.x,x.x,a*hh<CR><LF> 7 8 9 10 11 12 13 1. UTC of position (No use) 2. Latitude (0000.0000 to 9000.0000) 3. N/S 4. Longitude (00000.0000 to 18000.0000) 5. E/W 6. Mode indicator (A, D, E, F, M, N, P, R, S) A=Autonomous, D=Differential, E=Estimated Mode, F=Float RTK, M=Manual Input Mode, N=No fix, P=Precise, R=Real Time Kinematic, S=Simulator Mode 7.
Page 131 APPENDIX 2 DIGITAL INTERFACE OSD - Own ship data $**OSD,x.x,A,x.x,a,x.x,a,x.x,x.x,a*hh<CR><LF> 1 2 3 4 5 6 7 1. Heading, degrees true (No use) 2. Heading status (No use) 3. Vessel course, degrees true (0.0 to 359.9) 4. Course reference (B=Bottom tracking log, M=Manually entered, W=Water referenced, P=Positioning system ground reference) 5.
Page 132 APPENDIX 2 DIGITAL INTERFACE ROT- Rate of turn $**ROT,x.x,A*hh<CR><LF> 1. Rate of turn, deg/min, "-"=bow turns to port (No use) 2. Status (No use) RTE - Routes $**RTE,x.x,x.x,a,c--c,c--c, ,c--c*hh <CR><LF> ● ● 2 3 4 ● ● 1. Total number of messages being transmitted (1 to 50, null) 2.
Page 133 APPENDIX 2 DIGITAL INTERFACE VDR - Set and drift $**VDR,x.x,T,x.x,M,x.x,N,*hh <CR><LF> 1 2 3 4 5 6 1. Direction, degrees (0.0 to 359.9, null) 2. T=True (fixed) 3. Direction, degrees (No use) 4. M=Magnetic (No use) 5. Current speed (0.0 to 99.9) 6.
Page 134 APPENDIX 2 DIGITAL INTERFACE VWR - Measured wind angle relative to the vessel $**VWR,x.x,a,x.x,N,x.x,M,x.x,K<CR><LF> 1 2 3 4 5 6 7 8 1. Measured wind angle relative to the vessel, degrees (0.0 to 180.0) 2. L=Left semicircle, R=Right semicircle 3. Velocity, knots (0.0 to 999.9) 4.
Page 135 APPENDIX 2 DIGITAL INTERFACE ACK - Acknowledge alarm $**ACK,xxx,*hh<CR><LF> 1. Local alarm number (identifier) (000 to 999) AIQ - Query sentence $**AIQ,ccc,*hh<CR><LF> 1. Requested sentence (VSD) ALC - Cyclic alert list $**ALC,xx,xx,xx,xx,aaa,x.x,x.x,x.x,’’’’’’’’’,*hh<CR><LF> 1 2 3 4 1. Total number of sentences this message (01 to 16) 2.
Page 136 APPENDIX 2 DIGITAL INTERFACE ARC - Alert command refused $**ARC,hhmmss.ss,aaa,x.x,x.x,c*hh<CR><LF> 3 4 5 1. Release time of the alert command refused (000000.00 to 235959.99, 235960.00 to 235960.99, 240000.00 to 240000.99, 240001.00 to 240001.99, null) 2. Used for proprietary alerts, defined by the manufacturer (FEC, null) 3.
Page 137 APPENDIX 2 DIGITAL INTERFACE OSD- Own ship data $**OSD,x.x,A,x.x,a,x.x,a,x.x,x.x,a*hh<CR><LF> 1 2 3 4 5 6 7 1. Heading, degrees true (0.0 to 359.9, null) 2. Heading status (A:data valid, V:data invalid) 3. Vessel course, degrees true (0.0 to 359.9, null) 4.
Page 138 APPENDIX 2 DIGITAL INTERFACE TLL - Target latitude and longitude $**TLL,xx,llll.ll,a,yyyyy.yy,a,c--c,hhmmss.ss,a,a*hh<CR><LF> 1. Target number (Fixed at null) 2. Target Latitude (0000.0000 to 9000.0000) 3. Target N/S (N/S) 4. Target Longitude (00000.0000 to 18000.0000) 5. Target E/W (E/W) 6. Target name (Fixed at null) 7.
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Far-2218-bb Far-2228 Far-2238s Far-2328 Far-2238s-nxt Far-2238s-bb ... Show all

Furuno FAR-2218 Installation Manual

Safety Instructions

System Configuration

Equipment Lists

1 Installation

2 Wiring

3 Adjustments

4 Input/Output Data

Appendix 1 Jis Cable Guide

Appendix 2 Digital Interface