Furuno USA 9ZWRTR081A Marine Radar User Manual inst manual part 1
Furuno USA Inc Marine Radar inst manual part 1
Contents
- 1. op manual
- 2. inst manual part 1
inst manual part 1
Back MARINE RADAR/ARPA FAR-2827W/2837SW Installation Manual SAFETY INSTRUCTIONS....................... i Comply with MSC.192(79) 3.3 Heading Alignment ............................... 3-3 3.4 Adjusting Sweep Timing ....................... 3-6 EQUIPMENT LISTS .............................. iii SYSTEM CONFIGURATION ................. vi 1. MOUNTING ..................................... 1-1 3.5 Suppressing Main Bang ....................... 3-7 3.6 Other Settings ...................................... 3-8 3.7 Dual Radar Display (non IMO-type only) . 1.1 Antenna Unit .........................................1-1 ...................................................... 3-16 1.2 Monitor Unit.........................................1-12 1.3 Control Unit .........................................1-16 4. INSTALLING OPTIONAL EQUIPMENT........................................4-1 1.4 Processor Unit ....................................1-21 4.1 Gyro Converter GC-10 ......................... 4-1 1.5 Transceiver Unit ..................................1-22 4.2 Memory Card Interface Unit ................. 4-9 1.6 Power Supply Unit ..............................1-23 4.3 DVI-RGB Conversion Kit (for VDR connection)........................................ 4-12 2. WIRING ........................................... 2-1 2.1 Interconnection .....................................2-1 4.4 BNC Connector Converter ................. 4-15 4.5 Junction Box RJB-001........................ 4-16 2.2 Antenna Unit .........................................2-3 2.3 Transceiver Unit ..................................2-12 2.4 Monitor Unit.........................................2-23 2.5 Processor Unit ....................................2-24 2.6 Changing AC Power Specification of 5. INPUT/OUTPUT DATA ....................5-1 INSTALLATION MATERIALS, ACCESSORIES, SPARE PARTS ....... A-1 OUTLINE DRAWINGS ....................... D-1 Processor Unit ...................................2-29 2.7 Power Supply Unit ..............................2-30 INTERCONNECTION DIAGRAMS..... S-1 3. SETTING AND ADJUSTMENT ....... 3-1 3.1 DIP Switch Setting ................................3-1 3.2 Initializing Tuning ..................................3-2 www.furuno.co.jp The paper used in this manual is elemental chlorine free. ăťFURUNO Authorized Distributor/Dealer 9-52 Ashihara-cho, Nishinomiya, 662-8580, JAPAN Telephone : +81-(0)798-65-2111 Fax : +81-(0)798-65-4200 All rights reserved. Printed in Japan A : JUN . 2004 H1 : FEB. 28, 2011 Pub. No. IME-35270-H1 (HIMA ) FAR-2827W/2837SW *00014869416* *00014869416* * 0 0 0 1 4 8 6 9 4 1 6 * SAFETY INSTRUCTIONS The operator and installer must read the applicable safety instructions before attempting to install or operate the equipment. WARNING Indicates a potentially hazardous situation which, if not avoided, could result in death or serious injury. CAUTION Indicates a potentially hazardous situation which, if not avoided, can result in minor or moderate injury. Warning, Caution Mandatory Action Prohibitive Action DANGER Wear a safety belt and hard hat when working on the antenna unit. Serious injury or death can result if someone falls from the radar antenna mast. WARNING Radio Frequency Radiation Hazard The radar antenna emits electromagnetic radio frequency (RF) energy which can be harmful, particularly to your eyes. Never look directly into the antenna aperture from a close distance while the radar is in operation or expose yourself to the transmitting antenna at a close distance. Distances at which RF radiation levels of 100, 50 and 10 W/m2 are given in the table below. Note: If the antenna unit is installed at a close distance in front of the wheel house, your administration may require halt of transmission within a certain sector of antenna revolution. This is possible. Ask your FURUNO representative or dealer to provide this feature. Model FAR-2827W FAR-2837SW *XN20AF: 6.5 ft Transceiver Magnetron Antenna * RTR-081A (X-25 kw) MG5436 RTR-082 (S-30 kw) MG5223F SN-36AF 100W/m XN-20AF XN-24AF XN24AF: 8 ft SN36AF: 12 ft 50W/m 10W/m 0.4 m 0.2 m 1.0 m 0.5 m 5.6 m 3.4 m -- 0.2 m 1.9 m CAUTION WARNING Do not open the equipment unless totally familiar with electrical circuits and service manual. ELECTRICAL SHOCK HAZARD Observe the following compass safe distances to prevent deviation of a magnetic compass: Only qualified personnel should work inside the equipment. Standard compass Steering compass 1.15 m 0.70 m 1.35 m 0.85 m 1.85 m 1.20 m 1.35 m 0.85 m 0.30 m 0.30 m 0.95 m 0.60 m 0.65 m 0.45 m Transceiver Unit (RTR-081A) 2.00 m 1.30 m Transceiver Unit (RTR-082) 4.25 m 2.75 m Antenna Unit (RSB-103, 25 kw, X-band, TR-down) Antenna Unit (RSB-104/105, 30 kw, S-band, TR-down) Monitor Unit (MU-231CR) Processor Unit (RPU-013) Control Unit (RCU-014) Construct a suitable service platform from which to install the antenna unit. Serious injury or death can result if someone falls from the radar antenna mast. Turn off the power at the mains switchboard before beginning the installation. Control Unit (RCU-015) Control Unit (RCU-016) Fire, electrical shock or serious injury can result if the power is left on or is applied while the equipment is being installed. Be sure that the power supply is compatible with the voltage rating of the equipment. Connection of an incorrect power supply can cause fire or damage the equipment . Use only the specified power cable. Fire or damage to the equipment can result if a different cable is used. Do not install the monitor unit, processor unit or control unit where they may get wet from rain or water splash. Water in the units can result in fire, electrical shock, or damage the equipment. Attach securely protective earth to the ship's body. The protective earth (grounding) is required to the AC power supply to prevent electrical shock. ii RJB-001 1.10 m 0.70 m Switching HUB 1.00 m 0.60 m CU-200-FAR 0.90 m 0.60 m Power Supply Unit (PSU-011) 0.30 m 0.30 m EQUIPMENT LISTS Standard Supply (For FAR-2827W) Name Antenna Unit Type XN20AF-RSB103 XN24AF-RSB103 Transceiver Unit RTR-081A Monitor Unit MU-231CR Processor Unit RPU-013 Power Supply Unit PSU-011 Control Unit Installation Materials Rectangular waveguide installation materials Rectangular guide installation materials Accessories Spare Parts Code No. Qty RCU-015 24 rpm, 2400 mm w/CP03-19101 25 kW, X-band RCU-014 24 rpm, 2000 mm w/CP03-19101 Remarks Russian flag vessel only Standard type Trackball type CP03-25700 000-080-435 CP03-25710 000-080-436 CP03-25730 000-082-191 CP03-25720 000-080-437 CP03-27502 008-540-140 For antenna unit CP03-25800 000-080-434 For monitor unit CP03-27501 008-540-200 For transceiver unit CP03-25602 008-535-940 For processor unit (AC set) CP03-16400 000-086-743 CP03-16410 000-086-744 CP03-16420 000-086-745 CP03-16430 000-086-746 FP03-09810 008-536-010 FP03-09850 008-535-610 FP03-09860 008-535-690 SP03-12501 008-485-360 SP03-14401 008-536-990 SP03-14404 008-535-910 SP03-14405 008-535-920 iii For 15 m signal cable, RW-9600 For 30 m signal cable, RW-9600 For 40 m signal cable, RW-9600 For 50 m signal cable, RW-9600 20 m, w/CP03-16411 30 m, w/CP03-16411 50 m, w/CP03-16411 For monitor unit For RCU-014 For RCU-015 For antenna unit For monitor unit (AC spec) For processor unit 100 VAC set For processor unit 220 VAC set Standard Supply (FAR-2837SW) Name Type Code No. SN30AF-RSB104 SN30AF-RSB105 SN36AF-RSB104 SN36AF-RSB105 Transceiver Unit RTR-082 Monitor Unit MU-231CR Processor Unit RPU-013 Power Supply Unit PSU-011 Antenna Unit Control Unit Installation Materials Coaxial Cable Installation materials Accessories Spare Parts Qty 21 rpm, 3000 mm 26 rpm, 3000 mm 21 rpm, 3600 mm 26 rpm, 3600 mm 30 kW, S-band AC spec only RCU-014 Remarks Russian flag vessel only Standard type CP03-25800 000-080-434 For monitor unit CP03-25602 008-535-940 For processor unit, AC set CP03-27601 008-540-570 For transceiver unit CP03-25700 000-080-435 CP03-25710 000-080-436 CP03-25730 000-082-191 CP03-25720 000-080-437 CP03-27602 008-540-520 CP03-14900 000-086-325 RCU-015 For 15 m signal cable, RW-9600 008-536-010 FP03-09850 008-535-610 FP03-09860 008-535-690 FP03-10101 008-538-730 SP03-14404 008-535-910 SP03-14405 008-535-920 SP03-14401 008-536-990 For 40 m signal cable, RW-9600 For antenna unit Coax. Cable LHPX-20DASSY (L=20) (20 000-086-326 FP03-09810 For 30 m signal cable, RW-9600 For 50 m signal cable, RW-9600 CP03-14910 Trackball type m), Converter PA-5600, CP03-13948 Coax. Cable LHPX-20DASSY (L=30) (30 m), Converter PA-5600, CP03-13948 For monitor unit For RCU-014 For RCU-015 For antenna unit For processor unit 100 VAC set For processor unit 220 VAC set For monitor unit (AC spec) Optional Equipment Name Gyro Converter Performance Monitor Transformer Unit Memory Card Interface Unit GC-10-2 PM-31 PM-51 Type Code No. 000-080-440 RU-1803 000-030-420 RU-3305 000-030-448 RU-5693 000-030-456 RU-6522 000-030-410 RU-5466-1 000-030-453 CU-200-FAR 000-081-568 iv Remarks See chapter 4. Mandatory for IMO radar (2827W) Mandatory for IMO radar (2837SW) Converts 440 VAC to 100 VAC, For processor unit Converts 110/115/220/230 VAC to 100 VAC, de-icer Converts 110 VAC to 220 VAC, 2837SW only Converts 220 VAC to 200 VAC, 2837SW only Converts 440 VAC to 220 VAC, 2837SW only w/CP03-27430 External Buzzer Control Unit RAM Card DVI-RGB Converter Kit Cable Assy. LAN Cable Kit Accessories Hand Grip Dust Cover Hood Clamp Plate Flush Mount Kit BNC Connector Converter Junction Box Switching Hub Coupling Pedestal Desktop Mount Kit Console Mount Kit H-type Waveguide Clamp Waveguide Drain E-bend Waveguide Waveguide Twist Rectangular Guide Clamp FR-9 Rectangular Guide Tool FR-9 Electric Tool FR-9 Termination Thru-Deck Cable Gland Deck-Thru Cable Gland Waveguide clamp Slim Hood OP03-21 RCU-016 00RAM08MC-005 OP03-180-1 OP03-180-2 OP03-180-3 OP03-180-4 XH10P-W-6P L=20M XH10P-W-6P L=30M S03-9-5 S03-9-10 S03-9-15 XH10P-W-5P-A L=10M XH10P-W-5P-A L=20M XH10P-W-5P-A L=30M DVI-D/D S-LINK 10M CP03-28900 CP03-28910 CP03-28920 FP03-09830 FP03-09840 03-163-2101 FP03-11000 OP03-182 FP03-09870 OP03-198 DSUB-BNC-1 RJB-001 HUB-100 OP03-184 OP03-185 FP03-10201 FP03-10202 CP03-00600-W 03-009-0360 RWA-1030 B-107 RWA-1050 C-109 OP03-148 OP03-123 03S9199 FR-9000 000X5-01 000X6-01 000X7-01 CP03-00702 03-011-3228 FP03-11010 000-030-097 000-080-299 004-376-740 008-545-590 008-536-070 008-545-610 008-545-600 000-149-748 000-149-749 008-206-640 008-206-650 008-209-160 000-149-050 000-149-051 000-149-052 000-150-200 000-082-658 000-082-659 000-082-660 008-536-020 008-535-570 100-307-270 008-571-680 008-535-620 008-535-630 001-008-050 000-148-528 008-535-650 008-535-660 008-539-530 008-539-540 008-198-420 300-903-600 310-100-140 310-100-180 008-477-540 008-448-870 000-805-737 000-805-741 000-879-234 000-879-235 000-879-236 008-197-350 100-049-620 001-033-140 Remote type, w/FP03-09860 8 MB Assembled in factory. Assembled in field, see CH 4. For console, assembled in factory. For console, assembled in field. For control unit, 20 m For control unit, 30 m For external radar, 5 m, 8-8P For external radar, 10 m, 8-8P For external radar, 15 m, 8-8P For remote control, 10 m For remote control, 20 m For remote control, 30 m For monitor, 10 m FR-FTPC-CY 10 m, connector FR-FTPC-CY 20 m, connector FR-FTPC-CY 30 m, connector Hanger assy. for MU-231CR For monitor unit For MU-231CR For MU-231CR For RCU-014 For control unit RCU-014/015/016 For VDR For more 100 m antenna cable For RCU-014 and MU-231CR For RCU-014 For CU-200 For CU-200 For FAR-2827W For FAR-2827W For FAR-2827W For FAR-2827W For FAR-2827W For FAR-2827W For FAR-2827W For FAR-2837SW For FAR-2837SW For MU-231CR display unit SYSTEM CONFIGURATION FAR-2827W Antenna Unit XN20AF-RSB-103 XN24AF-RSB-103 Performance Monitor (For de-icer) MU-231CR * RU-3305 Waveguide WRJ-9 or FR-9 Transceiver unit RTR-081A Control Unit RCU-014 (Standard) or RCU-015 (Trackball) RJB-001*1 RJB-001* 1) Navigator IEC-61162-1 Serial Data*2 (Input/Output) 100-230 VAC Control Unit RCU-016 (Remote) Processor Unit RPU-013 2) Speed Log IEC-61162-1 Serial Data (Input) 3) Gyro Compass Step or synchro signal Sub Display Gyro Converter GC-10 Alarm*4 AD-100 IEC-61162-2 AIS Switching HUB HUB-100 VDR External Monitor Track Control Unit Memory Card Interface Unit CU-200-FAR Power Supply Unit*3 PSU-011 : Standard : Option : Dockyard supply Transformer Unit RU-1803 *1 When length of antenna cable is more than 100 m. *2 For IMO spec, IEC-61162-1 Edition 2 is required. *3 Russian flag vessels only. *4 Contact output for Alarm (Load current) 120 mA, (Polarity) No.1/2: Normally Close, No.3/4: Normally Open Serial I/O for alarm is also possible, which complies with IEC 61162-1. *5 This monitor has been approved by the IMO (CAT1). If a different monitor is to be used, its effective diameter must meet the applicable Category requirements (effective diameter 320 mm or higher). Refer to its operator's manual for details. Category of Units Antenna unit: Exposed to weather All other units: Protected from weather 1) Connect the EPFS which is approved in accordance with the requirements of the IMO in resolution MSC.112(73) is used. 2) Connect the SDME which is approved in accordance with the requirements of the IMO in resolution MSC.96(72) is used. 3) Use the gyrocompass having an update rate that is adequate for the shipâs rate of turn. vi FAR-2837SW Antenna Unit SN30AF/SN36AF Performance Monitor RSB104 RSB105 (For de-icer) Coaxial cable CX-20DF or Waveguide WRJ-3 RU-3305 Transceiver Unit RTR-082 RJB-001* *4 Control Unit RCU-014 or RCU-015 RU-5693 *4 RU-6522 *4 MU-231CR * RJB-001* 100-230 VAC RU-5466-1 1) IEC-61162-1 Serial data*2 Navigator (Input/output) 2) Speed Log 3) Gyro Compass Processor Unit RPU-013 Remote Controller RCU-016 IEC-61162-1 Serial data (Input) Step or synchro signal Sub Display Gyro Converter GC-10 AD-100 IEC-61162-2 VDR AIS Switching HUB HUB-100 External Monitor Track control unit Memory Card Interface Unit CU-200-FAR Alarm*5 AC spec Power Supply Unit*3 PSU-011 Transformer Unit RU-1803 Category of Units Antenna Unit: Exposed to weather All other units: Protected from weather *1 When length of antenna cable is more than 100 m. *2 For IMO spec, IEC-61162-1 Edition 2 is required. *3 Russian flag vessels only. *4 Not available with HSC spec. *5 Contact output for Alarm (Load current) 120 mA, (Polarity) No.1/2: Normally Close, No.3/4: Normally Open Serial I/O for alarm is also possible, which complies with IEC 61162-1. *6 This monitor has been approved by the IMO (CAT 1). If a different monitor is to be used, its effective diameter must meet the applicable Category requirements (effective diameter 320 mm or higher). Refer to its operator's manual for details. : Standard Supply : Option : Shipyard Supply 1) Connect the EPFS which is approved in accordance with the requirements of the IMO in resolution MSC.112(73) is used. 2) Connect the SDME which is approved in accordance with the requirements of the IMO in resolution MSC.96(72) is used. 3) Use the gyrocompass having an update rate that is adequate for the shipâs rate of turn. vii About the category sticker This radar meets the requirements in IEC62388 (Marine navigation and radio communication equipment and systems â Shipborne radar â Performance requirements, method of testing and required test results). Check the appropriate box on the sticker which is pre-attached on the processor unit., according to your radarâs specification. Refer to the table shown below to confirm your category. Category Radar type Antenna rotation speed CAT 1 CAT 1H CAT 2 CAT 2H FAR-2817, FAR-2827, FAR-2837S, FAR-2827W, FAR-2837SW FAR-2817, FAR-2827, FAR-2837S FR-2117/BB, FAR-2127/BB, FAR-2137S FAR-2117/BB, FAR-2127/BB, FAR-2137S/BB viii Normal speed HSC Normal speed HSC 1. MOUNTING 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. 1.1 Antenna Unit Mounting considerations ⢠The antenna unit is generally installed either on top of the wheelhouse or on the radar mast, on a suitable platform Locate the antenna unit in an elevated position to permit maximum target visibility. ⢠A line of sight from the antenna unit to the bow of the ship should hit the surface of the sea in not more than 500 m or twice the shipâs length, depending which value is smaller, for all load and trim conditions. less than 500 m or twice the shipâs length ⢠Mount the antenna unit so that any blind sectors caused by objects (mast, etc.) are kept to a minimum. No blind sector should exist in arc of the horizon from right ahead to 22.5° aft of the beam to either side (see Figure 1 below). Also, individual blind sectors of more than 5°, or the total arc of both blind sectors of more than 20°, should not occur in the remaining arc (Figure 2). Note that any two blind sectors separated by 3° or less are regarded as one sector. 270 90 22.5 22.5 a, b, c: less than 5 respectively a+b+c+... : less than 20 less than 3 Figure 1 Figure 2 1-1 1. MOUNTING ⢠Install the antenna unit safely away from interfering high-power energy sources and other transmitting radio antenna. ⢠Keep the lower edge of the antenna unit (antenna radiator) above the safety rail by 500 mm or more. ⢠Two antenna units should be mounted as below: more than 20 more than 1 m ⢠No funnel, mast or derrick should be within the vertical beamwidth of the antenna unit in the bow direction, especially zero degrees Âą5°, to prevent blind sectors and false echoes on the radar picture. ⢠It is rarely possible to place the antenna unit where a completely clear view in all directions is available. Thus, you should determine the angular width and relative bearing of any shadow sectors for their influence on the radar at the first opportunity after fitting. ⢠Locate a direction finder antenna clear of the antenna unit to prevent interference to the direction finder. A separation of more than two meters is recommended. ⢠A magnetic compass will be affected if the antenna unit is placed too close to the magnetic compass. Observe the compass safe distances on page ii to prevent deviation of the magnetic compass. ⢠Do not paint the radiator aperture, to ensure proper emission of the radar waves. ⢠The antenna base is made of cast aluminum. To prevent electrolytic corrosion of the antenna base, use the seal washers and corrosion-proof rubber mat and ground the unit with the ground wire (supplied). ⢠Deposits and fumes from a funnel or other exhaust vent can adversely affect the aerial performance and hot gases may distort the radiator portion. The antenna unit must not be mounted where the temperature is more than 70°C. ⢠Leave sufficient space around the unit for maintenance and servicing. See the antenna unit outline drawing for recommended maintenance space. 1-2 1. MOUNTING 1.1.1 FAR-2827W antenna unit Assembling 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. Attach two guide pins (supplied as installation) materials to the underside of the antenna radiator. 2. Remove the waveguide cap from the radiator bracket. The cap may be discarded. 3. Coat the waveguide flange with anticorrosive sealant as shown below. 10 mm O-ring Waveguide cap Hole for a guide pin Hole for a guide pin 5 mm Anticorrosive sealant Coating the waveguide flange with anticorrosive sealant 4. 5. 6. 7. Coat fixing holes for the antenna radiator with anticorrosive sealant. Grease the O-ring and set it to the O-ring groove of the radiator flange. Set the antenna radiator to the radiator bracket. Coat hex bolts M8 x 40 with anticorrosive sealant and use them to loosely fasten the antenna radiator to the antenna unit chassis. 8. Remove two guide pins (inserted at step 1), and then tighten fixing bolts. CAUTION Be sure to remove the guide pins. Injury may result if the guide pins loosen and fall. 1-3 1. MOUNTING Antenna radiator Waveguide Radiator bracket Hex bolt (M8x40), 8 pcs. O-ring Fastening the radiator to the radiator bracket Coating the waveguide flange with silicone sealant 1. Do not coat O-ring with silicone sealant; use grease. 2. Clean the surface of the waveguide flange, if necessary. Evenly coat the waveguide flange with silicone sealant as shown in the illustration below. Apply silicone sealant here. O-ring Choke groove O-ring Apply silicone sealant here. Evenly coat the waveguide flange with silicone sealant. Apply sealant sparingly; it leaks out slightly when the fixing bolts are tightened. Be sure no sealant contacts the choke groove and waveguide. Coating the waveguide flange with silicone sealant 1-4 1. MOUNTING Fastening the antenna unit to the mounting platform The antenna unit may be assembled before hoisting it to the mounting platform. However, do not lift the antenna unit by the radiator. Always hold the unit by its housing. When using a crane or hoist, lift the unit by the hoist rings which should be fastened to the bolt fixing covers of the antenna housing. NOTICE - To hoist antenna unit aboard vessel, attach ropes to lifting fixtures and hoist unit with crane. - To remove load from radiator when hoisting, the length of the rope between the radiator base and the hook on the should be at least 130 cm. - To keep the rope away from the radiator, turn the radiator and chassis approx. 30 degrees as shown below. - Be sure to remove the lfiting fixtures after hoisting is completed. Lifting fixture NO! NO! 130cm Crane Lifting fixture Approx. 30 deg. Lifting fixture (Top view) 1. Construct a suitable mounting platform referring to the outline drawing at the end of this manual. 2. Drill four mounting holes of 15 mm diameter and one cable entry hole of about 50 mm diameter in the mounting platform. 3. Lay the rubber mat (supplied) on the mounting platform. 4. Place the antenna unit on the rubber mat, orienting the unit so the antenna switch on it is facing the shipâs bow. Antenna switch Antenna unit, front view 5. Fasten the antenna unit to the mounting platform with M12x60 hex bolts, nuts, flat washers and seal washers. 1-5 1. MOUNTING 6. Using hex bolt (M6x25), nut (M6) and flat washer (M6), establish the ground system on the mounting platform as shown below. The location should be within 340 mm of the ground terminal on the antenna unit. Connect the ground wire (RW-4747, 340 mm, supplied) between the grounding point and ground terminal on the antenna unit. Coat the entire ground system with silicone sealant (supplied). Ground wire Hex bolt Anticorrosive sealant Seal washer Spring washer Rubber mat Anticorrosive sealant Anticorrosive sealant Spring washer Hex nut OR Ground wire Hex nut Spring washer Flat washer Hex bolt welded to ship's superstructure Anticorrosive sealant Ground terminal Ground wire Antenna base How to mount the antenna unit 1-6 1. MOUNTING 1.1.2 FAR 2837SW antenna unit Installation precaution for S-band antenna unit If an S-band antenna unit is mounted near the end of a platform to provide sufficient rotation clearance for the radiator, the antenna unit, because of its weight, swings up and down by shipâs vibration and rolling, exerting excessive levels of stress at the base of the radiator, which can damage the radiator. To prevent this, relocate the antenna unit, or if relocation is not possible, reinforce the platform. Mounting of S-band antenna unit 1-7 1. MOUNTING Antenna unit assembling The antenna radiator and the antenna housing are shipped in separate packages. Assemble them as below. The antenna unit may be assembled before hoisting it to the mounting platform. However, do not lift the antenna unit by the radiator. Antenna unit assembling procedure 1. Screw the guide pins (2 pcs.) in the radiator. 2. Remove the protective cap from the choke guide. 3. Grease O-ring and set it to the groove of the choke guide. 4. Place the radiator on the radiator bracket. (Radiator direction is shown by the logo on the bracket. If reversely oriented the radiator cannot be set to the bracket.) 5. Loosely fix the radiator to the radiator bracket with hex. bolts (M10x25), spring washers and flat washers. 6. Remove the guides pins and tighten hex. bolts. Antenna radiator Spring washer, flat washer, 10 pcs. each, M10x25 Protective cap Radiator bracket Choke guide O-ring (JIS B24011A-G60, 2 pcs) Guide pin (2 pcs.) Instruction label for antenna aperture direction Assembling the radiator bracket CAUTION Be sure to remove the guide pins. Injury may result if the guide pins loosen and fall. 1-8 1. MOUNTING How to lift antenna unit 1. Fix the antenna radiator to the antenna unit chassis. 2. Attach the lifting fixtures and collars as shown in figures in below. 3. Position the radiator as shown in figure below and arrange the ropes A= 2.0 m and B= 1.8 m. (M12x20) Attachment of lifting fixtures, collar and lopes 1-9 1. MOUNTING Fastening the antenna unit to the mounting platform See the figure on the next page for antenna unit mounting. 1. Referring to the antenna outline drawing, drill four bolt holes (15 mm diameter) in the radar mast platform or the deck. a) The diameter of the mast for fixing the antenna unit platform must be over 15 mm. b) The thickness of the antenna unit platform must be over 15 mm. c) The reinforcement rib must be installed diagonally as shown below. Installation of reinforcement ribs 2. Place the corrosion-proof rubber mat (supplied) on the mounting platform. 3. Hoist the antenna unit as shown on page 1-9 and place it on the rubber mat. Orient the cable gland toward the shipâs stern (or port, starboard). Remove the lifting fixtures and collars. 4. Fix the antenna base to the mounting platform with four M12x70 hex. bolts, nuts, washers and seal washers (supplied). 5. Arrange the grounding terminal at the nearest grounding spot with the M6x25 hex. bolt, nut and washers (supplied). Then, fix a ground wire (RW-4747, 340 mm) to the terminal. 6. Connect the other end of the ground wire to the earth terminal of the antenna unit. 7. Coat earth terminal and fixing bolts on the antenna unit with silicone sealant (supplied). 1-10 1. MOUNTING Mounting of antenna unit 1-11 1. MOUNTING 1.2 Monitor Unit The monitor unit can be flush mounted in a console panel, or mounted on a desktop using the optional accessories. The optimal viewing distances for the radar display units are: MU-170C: 920 mm, MU-201CR: 1080 mm, MU-231CR: 1200 mm. Mounting considerations When selecting a mounting location, keep in mind the following points: ⢠Select a location where the display unit can be viewed conveniently and where the screen can be viewed while facing towards the bow. ⢠Locate the unit out of direct sunlight and away from heat sources because of heat that can build up inside the cabinet. ⢠Locate the equipment away from places subject to water splash and rain. ⢠Leave sufficient space on the sides and rear of the unit to facilitate maintenance. ⢠A magnetic compass will be affected if the monitor unit is placed too close to the magnetic compass. Observe the compass safe distances on page ii to prevent deviation of a magnetic compass. Mounting procedure Flush mounting Follow the procedure below to mount the monitor unit in a console panel. 1. Make cutout in mounting location referring to the outline drawing shown below. 2. Insert the monitor unit to the hole and fix it by four tapping screws (6x30). 3. Attach panel hooks near the fixing holes. These are used to pull out the monitor unit from a console panel for servicing. 4. Attach four panel covers to the fixing holes. 4-Ď9 FIXING HOLES 313+1 505 4-FIXING HOLES (96) 313+1 471 570+1 554 570+1 598 30 Monitor unit MU-231CR Flush mounting of monitor unit 1-12 80 1. MOUNTING Panel hook Panel cover Fixing screw Attaching panel hook and panel cover Note: If you need to remove the monitor unit from the panel, remove the four panel covers with your fingernail and use two panel hooks supplied as accessories to lift the monitor unit. Desktop mounting Use the optional accessories to mount the monitor unit on a desktop. ⢠Necessary parts: FP03-09830 (Code No.: 008-536-020) Name Type Code No. Qty Hanger L 03-163-1111-0 100-305-141 Hanger R 03-163-1112-0 100-305-181 Hanger stay 03-163-2071-0 100-305-371 Hole plug CP-30-HP-13 000-160-074-10 Plastic rivet KB-13 Rivet Black 000-570-276-10 Hex. bolt M6x25 000-162-949-10 Hex. bolt M10x30 000-162-884-10 Spring washer M10 000-864-261 Flat washer M10 000-864-131 Remarks 1. Assemble two hangers and hanger stay with two hex bolts (M10x30), flat washers and spring washers and cover each hex bolt with hole plug. 2. Fix the above assembly to the mounting location with four hex bolts (M12, dockyard supply). 3. Fasten the monitor unit to the mounting hanger assembly with four hex bolt (M6x25, supplied). 4. Cover each hex bolts with panel cover. 5. Cover each holes for hand grip on the hangers with plastic rivet (4 pcs). 1-13 1. MOUNTING Hanger M12 bolts for fixing (Dockyard supply) Panel cover Hanger stay Hanger Hex bolt (M6x25) Hex bolt M10x30 Hole plug Plastic rivet Monitor Unit The hand grip is optionally available for the desktop mounting. Wave washer Rosette washer Screw Handle Monitor unit, attaching hand grip 1-14 1. MOUNTING Hood (option) When it is too bright in the daytime, use the optional hood (Type: FP03-11000, Code No.: 008-571-680) to shade the screen. Name Hood Fixing plate Screw Contents of hood Type FP03-11001 03-163-2202-0 M4x10 D=13 SUS304 Code No. 008-571-700 100-335-560-10 000-862-543 Qty. 1. Desktop mounting: Fasten the fixing plates to the fixing holes with the hex head bolts (supplied). Flush mounting: Fasten the display unit to the mounting location, and then attach the fixing plates with four self-tapping screws. Hex head bolt Fixing plate Fixing hole 2. Attach the hood to the display unit (the hood is outside of the fixing plates). 3. Fasten the hood to the fixing plates with four screws supplied (M4x10). 1-15 1. MOUNTING 1.3 Control Unit The control unit may be mounted on a tabletop, with or without the KB fixing metal (supplied), which mounts the control unit at an angle. Mounting considerations When selecting a mounting location, keep in mind the following points: ⢠Select a location where the control unit can be operated conveniently. ⢠Locate the unit away from heat sources because of heat that can build up inside the cabinet. ⢠Locate the equipment away from places subject to water splash and rain. ⢠Determine the mounting location considering the length of the signal cable between the control unit and the processor unit. (The signal cable comes in lengths of 10 m). ⢠A magnetic compass will be affected if the control unit is placed too close to the magnetic compass. Observe the compass safe distances on page ii to prevent deviation of a magnetic compass. Fixing without KB fixing plate 1. Fix the KB fixing plate to the rear panel of the control unit. 2. Attach cushions (three for RCU-014, two for RCU-015/016) to the bottom of the control unit as shown below. 3. Fix it to a desired location with tapping screws. KB fixing plate Cushion RCU-014/015/016, side view 1-16 1. MOUNTING Fixing without KB fixing metal 180 136Âą1 #70 1. Drill four mounting holes of 5 mm diameter referring to the outline drawing at the back of this manual. 2. Fix the control unit with four screws (M4) from under side of the tabletop. (The M4 screws with a sufficient length for the thickness of the tabletop should be provided locally.) 4-M4 (Fixing holes) (bottom) 308Âą1 398 Control Unit 24 32 F3 180 136Âą1 F1 F2 F4 110Âą1 160 4-M4 (Fixing holes) (REAR) RCU-015/016 Flush mounting Use the optional flush mount kit FP03-09870 to mount the control unit RCU-014, RCU-015 and/or RCU-016 to a console panel. For detail, see the outline drawing at the back of this manual Name: Flush mount kit, Type: FP03-09870, Code No.: 008-535-630 Name Type Code No. Flush Mount Fixture 03-163-7531 100-306-261 Hex Nut M5 000-863-108 Wing Bolt M5x40 000-162-682-010 Pan Head Screw M4x12 000-163-192-10 Qty 1-17 1. MOUNTING 1. Prepare a cutout in the mounting location as shown in the figure below. 170Âą2 176Âą2 388 Âą2 150Âą2 For RCU-014 For RCU-015 and RCU-016 Set the control unit to the cutout. Screw four wing bolts into hex. nuts. Screw the above wing bolts into mounting plates. Attach the mounting plate to the control unit with four screws (M4x12, supplied with the control unit) from the bottom side. 6. Fasten four wing screws, and then fasten hex. nuts to fix four wing screws. 171 #100 53 (P) #100 #70 92 53 #70 86 (P) 2. 3. 4. 5. P: Thickness (Max. 10 mm) RCU-014 1-18 RCU-015/016 1. MOUNTING To connect RCU-016 in series with RCU-014 1. Pass the cable derived from RCU-016. 2. Connect the connector of the cable to J502. 3. Clamp the copper part of the cable with the cable clamp. Inside of RCU-014 1-19 1. MOUNTING To change the cable entry To change the cable entry from the side (default) to the bottom, modify the unit as shown below. Bottom of the unit Screw M3x8 (Torque 0.78Nm) 2. Pull out the cable. 3. Pass the cable from this hole. Cable clamp 03-163-7804 Screw M4x8 (Torque 1.47Nm) 4. In here, clamp the copper part of the cable with the cable clamp removed at step1. 1. Remove the cable clamp. (Torque 1.47Nm) J522: If you connect RCU-016 in series with RCU-015, plug in here. RCU-015/016; Changing cable entry 1-20 1. MOUNTING 1.4 Processor Unit Mounting considerations When selecting a mounting location, keep in mind the following points: ⢠Locate the processor unit away from heat sources because of heat that can build up inside the cabinet. ⢠Locate the equipment away from places subject to water splash and rain. ⢠Leave sufficient space at the sides and rear of the unit to facilitate maintenance. ⢠A magnetic compass will be affected if the processor unit is placed too close to the magnetic compass. Observe the compass safe distances on page ii to prevent deviation of a magnetic compass. Mounting procedure 1. Fix the unit with four M6 bolts, or tapping screws. #50 2-Ď7 FIXING HOLES 340Âą1 409 378 23.5 385 370Âą1 R3 .5 350Âą1 2-FIXING NOTCH Floor mounting or bulkhead mounting Note: If you fix the unit, cable entry upside, never remove the screw M3x10 that joints the upper case assy. and lower case assy. of the processor unit. Upper case assy. Lower case assy. Screw M3x10 Never remove this screw. Processor unit 1-21 1. MOUNTING 1.5 Transceiver Unit The transceiver unit is designed for bulkhead mounting, and may be mounted in any dry, well-ventilated place. Ensure the mounting location is strong enough to support the weight of the unit under the continued shock and vibration normally encountered onboard. The transceiver must not be installed in close proximity of a magnetic compass; observe the compass safe distances. 320 250Âą1 100 4-Ď8 26 12 Fix the unit to bulkhead with bolts (RTR-081A: M6, 4 pcs., RTR-082: M8, 6 pcs.). Run a ground wire (8 mm2) between the shipâs body and the transceiver unit, using the lug supplied to make the connection at the earth stud on the transceiver unit. Keep the length of the ground wire as short as possible. 198 70 157 150 (25) 404 353 380Âą1 (38) 149 Transceiver unit RTR-081A (for FAR-2827W) 420+2 6- 10 457 15 427+1 192 15 88 Transceiver unit RTR-082 (for FAR-2837SW) 1-22 1. MOUNTING 1.6 Power Supply Unit The Power Supply Unit PSU-011 is required for Russian flag vessels. The unit can be installed almost anywhere. The location should be dry and well-ventilated, provide sufficient maintenance space, and satisfy the compass safe distances mentioned on page ii. Fix the unit to the mounting location with 5Ă20 self-tapping screws. 1-23 1. MOUNTING This page is intentionally left blank. 1-24 2. WIRING Wiring consideration ⢠To lessen the chance of picking up electrical interference, avoid where possible routing the signal cable near other onboard electrical equipment (radars, transmitting radio antennas, etc.) Also avoid running the cable in parallel with power cables. When crossing with other cable, the angle should be 90°to minimize the magnetic field coupling. ⢠The signal cable run between the antenna and processor units is available in lengths of 15 m (standard), 30 m, 40 m and 50 m. Whatever length is used it must be unbroken; namely, no splicing allowed. Use the signal cable as short as possible to minimize attenuation of the signal. ⢠The radar should be connected to an emergency power source, as required by SOLAS II-1. 2.1 Interconnection FAR-2827W Monitor unit Antenna unit Waveguide WRJ-9 or FR-9 100 VAC, 1 , 50/60 Hz DVI-D/D SINGLE LINK 5M/10M TB803 For De-icer : Cable requires fabrication MPYCY-19 (Max. 30 m) RU-3305 110/115/ 220/230 VAC, 1 , 50/60 Hz Transceiver unit RTR-081A TB801 TB803 Processor unit RPU-013 Junction box RJB-001* Control unit (RCU-014 or RCU-015) DPYC-2.5 XH10P-W-5P-A, 10/20/30 m 100-230 VAC F1 F2 Antenna cable* F3 F4 XH10P-W-6P, 1.5/10/20/30 m Control unit (RCU-016) DPYC-2.5 Memory card I/F unit CU-200-FAR Junction box RJB-001* AC spec Russian flag vessel only Power Supply Unit PSU-011 100-115 VAC/ 220-230 VAC 1Ď, 50-60 Hz Transformer Unit RU-1803 *: If the length of the antenna cable is less than 100 m, use RW-9600. If it is more than 100 m, see section 4.5 "Junction Box RJB-001". 440 VAC 1Ď, 50-60 Hz 2-1 2. WIRING FAR 2837SW Antenna unit For De-icer RU-3305 100 VAC, 1 , 50-60 Hz 110/115/ 220/230 VAC, 1 , 50-60 Hz Monitor unit TB803 Coaxial cable (Max. 30 m) or WRJ-3 Transceiver unit RTR-082 MPYCY-12 (Max. 30 m) TB803 440 VAC, 3 , 60 Hz 380 VAC, 3 , 50 Hz 110 VAC, RU-5693 3 , 60 Hz 220 VAC, RU-6522 3 , 50 Hz 440 VAC, 3 , 50 Hz RU-5466-1 TPYCY-2.5 TB801 Junction box RJB-001* Processor unit RPU-013 DPYC-2.5 Control unit (RCU-014 or RCU-015) Antenna cable* 100-230 VAC Memory card I/F unit Junction box DPYC-2.5 CU-200-FAR RJB-001* Russian flag vessel only XH10P-W-5P-A 10/20/30 m 220 VAC, 3 , 60 Hz 200 VAC, 3 , 50 Hz DVI-D/D SINGLE LINK 5M TPYCY-2.5 XH10P-W-6P, 1.5/10/20/30 m Power Supply Unit PSU-011 F1 F2 F3 F4 Transformer Unit RU-1803 100-115 VAC/ 220-230 VAC 1Ď, 50-60 Hz Control unit (RCU-016) 440 VAC 1Ď, 50-60 Hz *: If the length of the antenna cable is less than 100m, use RW-9600. If it is more than 100 mm, see section 4.5 "Junction Box RJB-001". : Cable requires fabrication Standard Interconnection (FAR-2837SW) 2-2 2. WIRING 2.2 Antenna Unit 2.2.1 FAR-2827W (RSB-103) The antenna unit requires the MPYCY-19 (Japan Industrial Standard cable) or equivalent to connect to the transceiver unit RTR-081A. MPYCY-19 = 22.0 mm Sheath Armor Insulator Sheath Conductor S = 1 mm 2 = 1.29 mm MPYCY-19 cable, sectional view 1. Remove the antenna covers. 2. Unscrew the clamping gland and take out the washers, rubber packing and cover. 3. Fabricate the cable as below. 6 mm 5 mm 20 mm 450 mm Vinyl sheath Vinyl sheath Armor Core Wind vinyl tape around unused cores to insulate them. For not used cores, wind the vinyl tape around them to prevent the short circuit. 4. Slide the clamping gland, washer, gasket and washer in that order on to the cable as shown below. 5. Fold back the armor by 5 mm, then put it between washers. Flat washer 5 mm Vinyl sheath Clamping gland 5 mm Gasket Trim the armor with width of washer (5 mm). 6. Tighten the cable gland, and then cover the junction with putty for waterproofing. 7. Connect the cores to the connector plug TB803 by referring to the interconnection diagram. Leave âslackâ in the coaxial wire to prevent breakage. Use the terminal opener to insert each core. 2-3 2. WIRING Wiring for WAGO connector Press downward. Terminal opener Wire Twist WAGO Connector Procedure 1. Twist the cores. 2. Press the terminal opener downward. 3. Insert the wire to hole. 4. Remove the terminal opener. 5. Pull the core to confirm that it is ecure. S901 03P9349 Connector plug MPYCY-19 cable Antenna unit, internal view 8. Confirm that all screws are tightened and all wiring is properly made. Confirm that waterproofing gasket, bolts and tapping holes of antenna unit are coated with silicone grease. 9. Attach the antenna covers (torque: 2.5 N¡m). 2-4 2. WIRING Waveguide connection at antenna unit The signal cable entrance (cable gland) is located directly below the waveguide outlet. If the waveguide is installed downward from the waveguide outlet position using an E-bend waveguide, you may not be able to insert the signal cable into the cable gland. To avoid this inconvenience, shift the waveguide run left or right using an H-bend waveguide as shown below. The E-band and H-band waveguides are contained in the waveguide materials set 22X-CW or 52X-CW. E-bend type RWA-1030 B-107, Code No. 310-100-140 H-bend type RWA-1050 C-109, Code No. 310-100-180 When the de-icer is installed ⢠Before beginning any work on the antenna unit, turn off the breaker for the de-icer line at the main switchboard to remove the power (100 VAC, 1Ф) to the de-icer. (Turning off the power to the display unit has no effect.) ⢠The neck of the antenna unit becomes VERY HOT when the de-icer is working. (The de-icer turns on when ambient temperature is below 0 C.) 2-5 2. WIRING 2.2.2 FAR-2837SW (RSB-104/105) The signal cable MPYCY-12 (Japan Industrial Standard cable or equivalent), power cable TPYCY-2.5 (Japan Industrial Standard cable or equivalent) and microwave coaxial cable (LHPX-20-ASSY) are used between the antenna unit and transceiver unit. MPYCY-12 single cable MPYCY-12 = 19.0 mm Sheath Armor Insulator Sheath Conductor S = 1 mm 2 = 1.29 mm MPYCY-12 cable, sectional view Antenna switch Power cable Signal cable (MPYCY-12) Antenna unit, front view 1. Remove the right-hand side cover from the antenna unit by unscrew ten bolts (13 mm). 2. Unfasten the clamping gland (for signal cable), and remove the gasket, flat washers and cover. 3. Fabricate MPYCY-12 cable as below. Vinyl sheath Armor Vinyl sheath 20 mm 6 mm 360 mm 5 mm 4. Slide the clamping gland, flat washer, gasket and flat washer in that order on to the cable. (See the figure on the next page.) 5. Fold back the armor by 5 mm, then put it between washers. 2-6 2. WIRING Flat washers 5 mm Vinyl sheath 5 mm Clamping gland Gasket Trim the armor with the width of the washer (5 mm). Passing clamping gland, washers and gasket on the signal cable 6. Catch the armor between two flat washers for grounding. 7. Apply sealant 1211 (supplied as installation material) to threads of the clamping gland, and then fasten it tightly. 8. Determine the length of the cores considering their location on the terminal board TB803, and then connect cores to TB803 by using the terminal opener. Wiring for WAGO connector Press downward. Terminal opener Wire Twist WAGO Connector Procedure 1. Twist the cores. 2. Press the terminal opener downward. 3. Insert the wire to hole. 4. Remove the terminal opener. 5. Pull the core to confirm that it is ecure. 2-7 2. WIRING TB803 Antenna unit, cover removed 9. Reattach the antenna cover (torque: 7.65 N¡m), and then cover the gland junction with putty for waterproofing. 2-8 2. WIRING TPYCY-2.5 power cable TPYCY-2.5 Armor Sheath Ď = 15.5 mm Conductor S = 2.5 mm 2 Ď = 2.01 mm TPYCY-2.5 cable, sectional view 1. Remove the left-hand side cover from the antenna unit by unscrew ten bolts (13 mm). 2. Fabricate the cable as below. Approx. 170 mm 25 mm 5 mm FV5.5-4 Vinyl sheath Armor Sheath Fabricating of TPYCY-2.5 3. Unfasten the clamping gland (for power cable) to remove the gasket, flat washers and cover. 4. Slide the clamping gland, flat washer, gasket and flat washer in that order on to the cable. (See the figure in below.) 5. Fold back the armor by 5 mm, then put it between washers. Flat washer 5 mm Vinyl sheath Clamping gland 5 mm Gasket Trim the armor with width of washer (5 mm). Clamping gland (for power cable) 6. Run the power cable behind of the terminal board, and then fix it with the clamp. 2-9 2. WIRING TB902 Clamp Antenna unit, cover removed (left-hand side) 7. Determine the length of the cores considering their location on the terminal board TB902, and then connect cores to TB902 by using the terminal opener. 8. Reattach the antenna cover (torque: 7.65 N¡m). 9. Cover the gland junction with putty for waterproofing. 2-10 2. WIRING When the De-icer is installed: 1. Before beginning any work on the antenna unit, turn off the breaker for the de-icer line at the main switchboard to remove the power (100 VAC, 1ø) to the de-icer. (turning off the power to the display unit has no effect.) 2. The neck of the antenna unit becomes VERY HOT when the de-icer is working. (The de-icer turns on when ambient temperature is below 0ÂşC.) 2.2.3 Coaxial cable When connecting the coaxial cable to the antenna unit, do the followings. 1. Unfasten eight bolts (M6x20) to remove the flange cover from the antenna unit. 2. Apply grease to the O-ring located in the flange. 3. Coat between mating surfaces of the coupler at the end of the coaxial cable and waveguide flange as below with waterproofing compound (supplied with installation materials). Do not coat the O-ring. O-ring Choke O-ring Coat with waterproofing compound (supplied). 4. Screw eight bolt unfastened at step 1 to fix the coupler to the flange. Lying of microwave coaxial cable Secure the cable with fixing bands (supplied) or clamping metal (option, type: 03-011-3228, code no.: 100-049-620) to the mast and to the wheelhouse structure. For the optional deck-thru cable gland, see the outline drawing at the back of this manual. Clamping metal (option) 2-11 2. WIRING 2.3 Transceiver Unit For FAR-2827W Fabricating of RW-9600 1. Fabricate the RW-9600 cable as shown right. 2. Trim each wire (except coaxial wire) considering its location on the terminal board. 4. Trim the shield leaving 30 mm and then fold back it. 5. Remove insulation of each wire by about 6 mm. 6. Using the terminal opener, insert each core (except coaxial cable) to appropriate connector plug. 7. Insert the coaxial cable to the TB802 on TB Board and fix the shield with cable clamp. 30 Approx. 250 Armor Shield Unit: mm Vinyl sheath Fold back the shield. 14 5 9 Shield (30 mm) Wiring for WAGO connector Press downward. Conductor Fold back shield. Coaxial cable Wiring for Coaxial cable Clamp shied with bracket. Terminal opener Wire Twist WAGO connector Procedures 1. Twist the conductor. 2. Press the terminal opener downward. 3. Insert the wire to hole. 4. Remove the terminal opener. 5. Pull the wire to confirm that it is ecure. 2-12 Tighten conductor with screw. CAUTION Do not use crimp-on lug to prevent contact resistance from increasing. 2. WIRING Fabricating of MPYCY-19 1. Fabricate the cable as below. Vinyl sheath 30 Approx. 250 Armor Vinyl sheath Unit: mm 2. For not used cores, wind the vinyl tape around them to prevent the short circuit. Wiring 1. Remove the cover from the RTR-081A. 2. Pass the cables through the cable entrance of the RTR-081A, and then fix the armors with the cable clamp. Do not remove this film. TB801 TB803 TB Board TB802 TB804 Cable entrance Transceiver unit RTR-081A, internal view 3. Connect each cores to TB801, TB802, TB803 and TB804 referring to the interconnection diagram. 4. Connect the grounding wire (shipyard supply) between the ground terminal (behind of the cable clamp) and the grounding point. 2-13 2. WIRING Installing the Rectangular Waveguide (WRJ-9) The RF interconnection between the antenna unit and the transceiver can be made with a rectangular waveguide (WRJ-9) or flexible (FR-9). If the rectangular waveguide is used, observe the following installation guidelines. ⢠Correctly installed waveguide runs ensure the most efficient transmission of electrical energy at high frequencies. Electrical losses, however, occur in the waveguide runs. To minimize them the following factors are of great importance: minimum length, airtightness and electrical continuity. ⢠Another consideration required is that of frequency disturbance. The transmitting valve, a magnetron, is the primary oscillator in the radar. This is different from the oscillation system at lower frequencies in which conventional radio valves are used. In the latter case, the primary oscillator is always protected from the effects of load impedance by a buffer stage so that frequency and waveform are left unobstructed. With a waveguide and magnetron, however, mismatch of impedance causes âfrequency pulling.â 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 washers and the choke flange must be in the upper position. The bolts and O-ring must be greased before insertion to facilitate removal if required at a later date. ⢠The transceiver unit output flange is a plain type and the antenna unit output flange is a choke type, and it is important to maintain this relationship throughout the waveguide run. Thru-deck hole Weld here. Deck TRANSCEIVER UNIT Drain waveguide Watertight film Flange connection ⢠After installation of the waveguide is completed, the coupling portions must be sealed by using the adhesive supplied. ⢠In a very short time the surface of the waveguide becomes green with verdigris. Therefore, paint both the surface of the waveguide and flanges to avoid corrosion and water penetration. Paint must not be allowed to reach the inner surface of the waveguide or the mating surface of any flange. 2-14 2. WIRING For FAR-2837SW Fabricating of RW-9600 1. Fabricate the signal cable RW-9600 as shown right. 2. Unravel the shield to expose the wires in the inner layer. 3. Shorten each core considering its location on the terminal board. 4. Trim each wire (except coaxial wire) considering its location on the terminal board. 5. Trim the shield leaving 30 mm and fold back it. 6. Remove insulation of each wire by about 6 mm. 7. Insert each wire into the connector using the terminal opener. 8. Connect the coaxial wire to TB802 on the TB Board, and then fix its shield to the cable clamp. Wiring for WAGO connector Press downward. 30 Approx. 250 Shield Armor Vinyl sheath Fold back the shield. Unit: mm 14 5 9 Shield (30 mm) Conductor Fold back shield. Coaxial cable Wiring for Coaxial cable Clamp shied with bracket. Terminal opener Wire Twist WAGO connector Procedures 1. Twist the conductor. 2. Press the terminal opener downward. 3. Insert the wire to hole. 4. Remove the terminal opener. 5. Pull the wire to confirm that it is ecure. Tighten conductor with screw. CAUTION Do not use crimp-on lug to prevent contact resistance from increasing. 2-15 2. WIRING Fabricating of MPYCY-12 1. Fabricate the cable as below. Vinyl sheath 30 Approx. 250 Armor Vinyl sheath Unit: mm 2. For not used wires, wind vinyl tape around the core to prevent short circuit. Fabricating of TPYCY-2.5 1. Fabricate the cable as below. Approx. 170 mm 30 mm 5 mm FV5.5-4 Vinyl sheath Armor Sheath 2. Fix the crimp-on lug (FV5.5-4, yellow) to each conductor. 2-16 2. WIRING Wiring 1. Remove the cover from the RTR-082. 2. Pass the cables through the cable entrance, and then fix the armor with the cable clamp. 3. Connect each wires to TB801, TB802, TB803, TB911 and TB912 referring to the interconnection diagram. TB802 TB803 TB801 TB911 TB912 Transceiver unit RTR-082, internal view 4. Connect the grounding wire (shipyard supply) between the grounding terminal (behind the cable clamp) and grounding point. 2-17 2. WIRING How to fit microwave coaxial plug The tool kit KZ-0244B (Code No. 000-830-258) is optionally available for fitting the coaxial plug to the microwave coaxial cable. The contents of the kit are listed below. Name Hacksaw Tubing Cutter Ruler Diagonal cutting Pliers Knife Bendix Brake Pliers Ball Peen Hammer Metal Rod Gauge Flat file Cutting Off Tool Brush Pliers C-spanners Copper Tape Tool Box Necessary materials ⢠Gasoline ⢠Clean cloths ⢠Burner 2-18 Code No. 000-830-260 000-830-261 000-830-263 000-830-264 000-830-265 000-830-266 000-830-267 000-830-268 000-830-270 000-830-270 000-830-274 000-830-274 000-830-275 000-830-278 000-830-279 000-830-257 Qty 2. WIRING Outline A coaxial plug is made up of the following parts: (2) (1) (3) (4) (7) (8) (5) (B) (6) (A) Note 1: When sawing or filing the cable, keep it horizontal to keep shavings out of the cable. To remove shavings which may have fallen into the cable, hold the cable end downward and tap the cable lightly. Note 2: A minimum cable bend radius of 150 mm must be observed at the cable run. If it is necessary to bend the cable twice or more in a tight area, the bending radius should be more than 250 mm. How to fit the coaxial plug 1. Cut the cable with a hacksaw for the length desired, taking into account that the length of the outer body of the coaxial plug is 77 mm. Cut here. 39 Sheath 2. Remove any shavings from the cable. Using the tubing cutter, cut the vinyl jacket, the outer conductor and the insulator to expose the inner conductor by 40 mm. Be careful not to damage the inner conductor. Cut here. 40 Outer conductor 2-19 2. WIRING 3. Taking care not to scratch the outer conductor, remove the jacket: Cut the jacket circularly first with a tubing cutter, cut in a straight line with a knife, then remove the jacket with a cutting pliers. 24.5 to 25 mm Remove burrs. 4. Clean the outer conductor with a gasoline and cloth. 5. Heat the cutting off tool (or hacksaw and cutter) with the burner. Then, remove with the cutting off tool the insulator between the inner and outer conductors by the depth of 6 mm. Insulator Outer conductors 6. Clean the outer and inner conductor with gasoline and cloth. Slip the clamping nut, spacer, gasket and outer clamp on the cable in that order. (Parts No. 1, 2 and 3 in the figure shown in page 2-19) Clamping nut Coaxial cable Assembled with (1), (2) and (3) 2-20 2. WIRING 7. Flare the outer conductor against the edge of the outer clamp coarsely with the Bendix brake pliers. (Wind copper tape over the outer clamp to protect its surface.) Connector Bendix brake plier Outer conductor 8. Trim and file any portion of the outer conductor that protrudes beyond the diameter of the outer clamp. Note: Put a piece of cloth into the conductors temporarily so as not to let any particles in the conductors. Remove these projection. Connector Coaxial cable 9. Insert the gauge through the inner conductor until it is covered by the outer clamp. Then, tap the gauge gently with the hammer to position it. 10. Cut the inner conductor along the gauge and file its end. Connector Gauge 1 mm Coaxial cable Remove inner conductor so 1 mm remains. 11. Remove the gauge. Remove any burrs with a knife. 12. Assemble (4) through (8) as below. a) Screw (5) into (6). b) Attach (8) to (7). c) Attach (A) to (B), and then screw it into (4). (2) (1) (3) (4) (7) (8) (5) (B) (6) (A) 2-21 2. WIRING 13. If the coaxial cable connector is installed outdoors, follow the steps in below. a) Tape the junction with self-bonding tape. b) Wind vulcanizing tape around the self-bonding tape. c) Finally, wrap vinyl tape over the vulcanizing tape. Vinyl tape Vulcanizing tape Self-bonding tape Vinyl sheath Assembled connector Connecting the coaxial cable Connect the coaxial cable to the transceiver unit as below. 1. Loosen eight bolts (M6x20) to remove the dust cover from the output WG adapter. 2. Fasten eight bolts (removed at step 1) to attach the flange to the transceiver unit. 3. Attach the coaxial cable to the converter of the flange. Coaxial cable M6x20 (8 pcs.) Converter ďźM6x20 (8 pcs.) Circulator Adapter Output WG adapter Transceiver unit, internal view 2-22 Flange 2. WIRING 2.4 Monitor Unit Two cables are terminated at the monitor unit: the signal cable from the processor unit and the power cable from the shipâs mains. The signal cable comes with a connector preattached to it for connection to the monitor unit. Fabricate the power cable as below. Use DPYC-2.5 (Japan Industry Standard) cable or the equivalent. Fabricating the power cable 1. 2. 3. 4. 5. Cut armor of the cable by 40 mm. Cut vinyl sheath by 35 mm. Remove insulation of wires by about 10 mm. Fix crimp-on lugs to the cores. Peel point of the armor by 40 mm. Cover the end of armor with vinyl tape. (a) Armor DPYC-xx Approx. 40 mm 35 mm (b) Vinyl sheath 10 mm Armor (c) 40 mm: Peel paint. (d) Conductor S = 2.5 mm Ď = 2.01 mm (sectional view) Taping Fabricating power cable DPYC-2.5 Cable entrance for power cable Cable entrance for signal cable (The connector side which EMI core is attached should be connected to the processor unit.) Monitor unit (rear panel) 2-23 2. WIRING 2.5 Processor Unit Four cables are terminated at the processor unit: the antenna unit cable, display unit cable, control unit cable and the power cable. Cables other than the power cable come with a connector preattached to them for connection to the processor unit. Fabricate the power cable as below. For the power cable, use DPYC-2.5 (Japan Industry Standard) cable for DC unit or DPYC-6 for AC unit, or the equivalent. Fabricating the power cable 1. 2. 3. 4. 5. Cut armor of the cable by 40 mm. Cut vinyl sheath by 35 mm. Remove insulation of wires by about 10 mm. Fix crimp-on lugs to the cores. Peel point of the armor by 40 mm. Cover the end of armor with vinyl tape. (a) DPYC-xx Approx. 40 mm Armor 35 mm (b) Vinyl sheath 10 mm (c) 40 mm: Peel paint. (d) Taping Armor Conductor of DPYC-2.5 S = 2.5 mm 2 Ď = 2.01 mm Conductor of DPYC-6 S = 6.0 mm Ď = 3.12 mm (sectional view) Fabricating power cable DPYC 2-24 2. WIRING Connection of cables The power cable is connected to the terminal board on the rear panel and the signal cable from the display unit is connected to the DVI-D connector. Other cables are connected to the printed circuit board 03P9342. Power cable clamp Monitor unit Power cable terminal board Network DVI-D monitor Remove the protection cover. F70 FUSE 15 DC/AC F1 Control unit** Heading senor Speed log Navigator Power cable 9 14 ACK Cable clamp 17 21 HDG Ď9 18 19 20 RSD Ď18.9 AIS AD100 24 28 GYRO PSU004 Ď7.4 26 VDR OUT Memory Card IF unit VDR OUT Antenna unit GND terminal VDR IN 24' Ď7 VDR IN Gyrocompass AD-100 AIS Processor unit (rear panel) *: The connector side which EMI core is attached should be connected to the processor unit. **: The configuration of optional cables between the processor unit and the control unit is as follows. Note that the cable fabrication for each end is different. Control unit Processor unit 150 mm 20/30 m 300 mm Cable XH10P-W-6P L=20/30M When the RCU-016 is installed, optional cable (XH10P-W-5P-A, L=10/20/30M) is required. Cable fabrication for each end is the same. Control unit Control unit 150 mm 10/20/30 m 150 mm XH10P-W-5P-A L=10/20/30M 2-25 2. WIRING Location of connectors Open appear part of the processor unit. Cable clamp 03P9342 J621 J612 J608 Gyro converter board or AD-100 External alarm J607 Speed log J620 Track control AIS J611 J606 Navigator J619 J605 J603 ECDIS Sub display* (SEMI-LOG) Sub display* (FULL-LOG) Master radar Gyro converter board J618 J604 J610 J602 PSU J617 Cable from Power supply unit Cable from antenna unit J614 J615 J601 + 12 V for card I/F PC J609 J654 Tx HV line Coaxial wire 03P9342 *: For details, see page 2-28. 2-26 Cable from control unit J616 J613 Heading sensor 2. WIRING Cable fabrication for the cables connected to the 03P9342 board ⢠Signal cable RW-9600 (Between antenna unit and processor unit) Vinyl sheath Armor Shield 450 60 After exposing cores, wind shield around the armor. Vinyl tape 14 5 9 Coaxial cable Conductor Clamp here by cable clamp. Coaxial cable Fold back shield. ⢠Other cables for optional units Use TTYCS-1 or TTYCS-4 (Japan standard cable) or equivalent. Ď = 18.5 mm Armor Armor Sheath Sheath Shield Ď = 10.1 mm Shield Conductor S = 0.75 mm 2 Ď = 1.11 mm Conductor S = 0.75 mm 2 Ď = 1.11 mm TTYCS-1 Armor TTYCS-4 60: Peel paint. Shield L= Depends on equipment connected. Measure at the processor unit. Vinyl tape After exposing cores, wind shield around the armor. Clamp here by cable clamp. Wiring for WAGO connector Press downward. Wiring for Coaxial cable Clamp shied with bracket. Terminal opener Wire Twist WAGO connector Procedures 1. Twist the conductor. 2. Press the terminal opener downward. 3. Insert the wire to hole. 4. Remove the terminal opener. 5. Pull the wire to confirm that it is ecure. Tighten conductor with screw. CAUTION Do not use crimp-on lug to prevent contact resistance from increasing. 2-27 2. WIRING Connection of Sub-display A conventional remote display and/or FAR-2107 series radar can be connected to J617 and J618 in the processor unit as a sub-display. However, the control for GAIN and STC are different depending on J617 and J618. Refer to the table to connect sub-displays. Port J617 Conventional remote display FAR-2107 series radar Overall gain Even if input video level is adjusted to 4 Vp-p, the gain is 8 db lower than that on the master radar. The gain is 8 dB lower than that on the master radar. GAIN control The GAIN control is effective. The GAIN control has no effect. STC control The STC control is effective. The STC control has no effect. Overall gain When input video level is adjusted to 4 Vp-p, the gain becomes the same as that on the master radar. The gain is almost same as that on the master radar. GAIN control The GAIN control is effective. The GAIN control has no effect. STC control The STC control is effective, however this control is added on the signal adjusted by the master radar. So this port is not recommended to use . The STC control has no effect. (FULL-LOG) J618 (SEMI-LOG) 2-28 2. WIRING 2.6 Changing AC Power Specification of Processor Unit To change AC power specification between 100 VAC and 220 VAC, add or remove jumper connector P108 on the PWR board 03P9339 and change the fuse on the processor unit according to shipâs mains as shown in the table below. The figure on the next page shows the location of the fuse and the jumper connector on the PWR board. Also, adjustment of the overvoltage detection circuit is required. Note: To change from 220VAC to 100VAC, locally prepare the jumper connector, referring to the figure on the next page (VH8P connector housing is fitted at J108). Power supply Fuse Jumper connector P108 100 VAC 10A Added 220 VAC 5A Removed Cover of PWR board Fuse PWR board Upper part of processor unit (SPU assembly omitted) 2-29 2. WIRING J105 PWR board J106 (P)HV J104 J103 R21 (OVER) P108/J108 J101 AC FIL 87654321 Jumper connector (VH8P) How to adjust the overvoltage detection circuit: 1. Add or remove the jumper connector P108 and change the fuse. 2. Rotate R21 fully clockwise on the PWR board. 3. Connect a variable transformer between ship's mains and the input power terminal board TB-1 of the processor unit. 4. Adjust the variable transformer output (i.e., input voltage to the processor unit) as follows. For 100 VAC set: 144 VAC For 220 VAC set: 288 VAC 5. Turn on the radar and rotate the R21 counterclockwise gradually until the overvoltage detection circuit functions (i.e., power supply cuts off). 6. Lower the output voltage of the variable transformer and confirm that the radar automatically turn on with a voltage lower than 142VAC or 284VAC. 7. Gradually increase the output voltage of the variable transformer and confirm that the overvoltage detection circuit functions at 144V or 288VAC of the variable transformer output. 8. Assemble and connect the processor unit. 2.7 Power Supply Unit Refer to the interconnection diagrams for wiring details. 1. Unfasten the cable clamp. 2. Open the cover. 3. Connect the power cable (DPYC-2.5) between the PSU-011 and TB1 on the processor unit. (See page 2-4 for how to fabricate the cable.) 4. Connect the power cable (DPYC-2.5) between the PSU-011 and power source. 5. Fasten the cable clamp and close the cover. 2-30 3. SETTING AND ADJUSTMENT 3.1 DIP Switch Setting The DIP switch setting as follows. 1. Remove the top cover of the processor unit. 2. Open the SPU assembly block. Shield cover SPU assembly block SPU board 03P9337 DIP switch S1 3. Set the DIP switch S1 as follows. OFF ON S1 Monitor SXGA (1024x1280, Default) OFF OFF Monitor UXGA (1024x1360) ON OFF Not used. S1 Note: Set #1 and #2 of S1 to OFF for MU-231CR S. No. 0268 and earlier. 3-1 3. SETTING AND ADJUSTMENT 3.2 Initializing Tuning 1. Transmit the radar on 48 nm range and rotate the GAIN knob to show 70-80 of the gain bar. 2. Roll the trackball to choose the MENU box at the right side of the screen and then push the left button. 3. Roll the wheel to choose 1 ECHO and then push the wheel. [ECHO] 1 BACK ND 2 2 ECHO REJ OFF/ON 3 TUNE INITIALIZE 4 PM OFF/ON 5 SART OFF/ON 6 WIPER OFF/1/2 7 ECHO AREA* CIRCLE/WIDE/ALL 8 [PICTURE SELECT] 9 STC RANGE +00 Bold: Default settings (Same for all menu illustrations) *: non IMO-type only. ECHO menu 4. Roll the wheel to choose 3 TUNE INITIALIZE. 5. Push the wheel to initialize automatic tuning. After a while, echoes appear on the screen. The message âTUNE INITIALIZEâ appears in red during automatic tuning. When this message disappears, the tuning is completed. If necessary adjust the GAIN to show echoes clearly. 6. Push the right button twice to close the menu. 3-2 3. SETTING AND ADJUSTMENT 3.3 Heading Alignment You have mounted the antenna unit facing straight ahead in the direction of the bow. Therefore, a small but conspicuous target dead ahead visually should appear on the heading line (zero degrees). In practice, you will probably observe some small bearing error on the display because of the difficulty in achieving accurate initial positioning of the antenna unit. The following adjustment will compensate for this error. Correct bearing relative to heading Îą Target 340 350 Îą 000 010 020 330 030 320 040 310 050 060 300 070 290 280 080 270 090 260 100 250 110 240 120 230 130 140 220 210 150 200 190 180 160 170 Picture appears deviated clockwise. Antenna mounted error to port (HDG SW advance) β Apparent position of target β Target 340 350 000 010 020 330 030 320 040 310 050 060 300 070 290 280 080 270 090 260 100 250 110 240 120 230 130 140 220 210 150 200 Antenna mounted error to starboard (HDG SW delayed) Apparent position of target 190 180 170 Correct bearing relative to heading 160 Picture appears deviated counterclockwise. Heading alignment 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. 3-3 3. SETTING AND ADJUSTMENT 3. Read the target bearing. 4. Measure the bearing of the stationary target on the navigation chart and calculate the difference between actual bearing and apparent bearing on the radar screen. 5. Press the [MENU] key to show the main menu. 6. While pressing and holding down the [HL OFF] key, press the [MENU] key five times. 7. Press the [0] key to show the [INITIALIZE] menu. [INITIALIZE] BACK [ECHO ADJ] [SCANNER] [INSTALLATION] [OWN SHIP INFO] [TT PRESET] [NETWORK] [OTHER] [FACTORY] Note: See next page to access the INITIALIZE menu with the trackball style control unit RCU-015. 8. Press the [2] key to open the [ECHO ADJ] menu. [ECHO ADJ] 1 BACK 2 CABLE ATT ADJ AUTO/MANUAL 30 3 HD ALIGN 000.0° 4 TIMING ADJ 5 MBS 6 DEFAULT ANT HEIGHT 5/7.5/10/15/20/ 25/30/35/40/45/ more 50 m 7 NEAR STC CURVE 2/2.5/3/3.5/4.2 8 MID STC CURVE 3/4/5/6 9 FAR STC CURVE 6/7/8 0 RING SUPPRESSION ECHO ADJ menu 9. Press the [3] key to choose the HD ALIGN option. 10. Key in the bearing difference. The setting range is 0 to 359.9°. 11. Confirm that the target echo is displayed at correct bearing on the screen. 12. Press the [MENU] key to finish. 3-4 3. SETTING AND ADJUSTMENT How to Access the Installation Mode with the RCU-015 Trackball Style Controller 1. By using the trackball, move the pointer until it highlights the MENU box as shown. DO NOT CLICK the menu box, just leave the arrow over the menu. 2. Press and hold down the F1 key. Keep it held down during the next step. 3. Then, click on the right controller button 5 times. You should hear a âtriple Beepâ on the fifth press. The INITIALIZE menu will appear. Click on INSTALLATION to access the installation menus. 3-5 3. SETTING AND ADJUSTMENT 3.4 Adjustment 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 âstraightâ target (for example, pier), on the 0.25 m range, will appear on the display as being pulled inward or pushed outward. See Figure below. ⢠The range of target echoes will also be incorrectly shown. (1) Correct (2) Target pushed inward (3) Target pushed outward Examples of correct and incorrect sweep timings 1. 2. 3. 4. Transmit on the 0.25 nm range. Adjust radar picture controls to display picture properly. Select a target echo which should be displayed straightly. Press the [4] key to choose the [TIMING ADJ] on the [ECHO ADJ] menu. [ECHO ADJ] 1 BACK 2 CABLE ATT ADJ AUTO/MANUAL 30 3 HD ALIGN 000.0° 4 TIMING ADJ 5 MBS 6 DEFAULT ANT HEIGHT 5/7.5/10/15/20/ 25/30/35/40/45/ more 50 m 7 NEAR STC CURVE 2/2.5/3/3.5/4.2 8 MID STC CURVE 3/4/5/6 9 FAR STC CURVE 6/7/8 0 RING SUPPRESSION 5. Rotate the wheel to set a suitable value which causes the target to be displayed straightly. The setting range is 0 to 4095. 6. Press the [MENU] key to finish. 3-6 3. SETTING AND ADJUSTMENT 3.5 Suppressing Main Bang If main bang appears at the screen center, suppress it as follows. 1. 2. 3. 4. Transmit the radar on a long range and then wait ten minutes. Adjust gain to show a slight amount of noise on the display. Select the 0.25 nm range. Adjust sea clutter control to suppress sea clutter. Press [5] key to choose the MBS on the [ECHO ADJ] menu. [ECHO ADJ] 1 BACK 2 CABLE ATT ADJ AUTO/MANUAL 30 3 HD ALIGN 000.0° 4 TIMING ADJ 5 MBS 6 DEFAULT ANT HEIGHT 5/7.5/10/15/20/ 25/30/35/40/45/ more 50 m 7 NEAR STC CURVE 2/2.5/3/3.5/4.2 8 MID STC CURVE 3/4/5/6 9 FAR STC CURVE 6/7/8 0 RING SUPPSSION 5. Rotate the wheel to set a suitable value so that the main bang disappears. The setting range is 0 to 255. 6. Press the [MENU] key to finish. 3-7 3. SETTING AND ADJUSTMENT 3.6 Other Settings ECHO menu setting Open the ECHO ADJ menu as described on page 3-3 and 3-4. [ECHO ADJ] 1 BACK 2 CABLE ATT ADJ AUTO/MANUAL 30 3 HD ALIGN 000.0° 4 TIMING ADJ 5 MBS 6 DEFAULT ANT HEIGHT 5/7.5/10/15/20/ 25/30/35/40/45/ more 50 m 7 NEAR STC CURVE 2/2.5/3/3.5/4.2 8 MID STC CURVE 3/4/5/6 9 FAR STC CURVE 6/7/8 0 RING SUPPRESSION To close the menu, press the [MENU] key. CABLE ATT ADJ Before adjusting, set the radar as follows: IR: 2, ES: off, EAV: off, 24nm range, long pulse (Same as default setting of PICTURE1) To adjust the cable attenuation manually, choose MANUAL by pressing [2] and the [ENTER] key, and then rotate the wheel so that noise just appears on the screen when the gain is set to 80. Default setting is 30 for the antenna cable length of 15m. The setting range is 0 to 73. To adjust automatically, choose AUTO and press the [ENTER] key. The message âCABLE ATT ADJâ appears in red at the bottom of the screen. It takes about five minutes to complete the adjustment, after which the radar goes into stand-by. DEFAULT ANT HEIGHT Select height (m) of the radar antenna unit from the sea surface among 5, 7.5, 10, 15, 20, 25, 30, 35, 40, 45 and âmore 50 mâ. NEAR STC CURVE, MID STC CURVE AND FAR STC CURVE Use the default setting. Change the setting if desired according to sea condition. RING SUPPRESSION This is mainly used to removes âringâ noise which appears in the waveguide-type radar. Adjust so the rings disappear at the range of 0.125 nm. The setting range is 0 to 255. 3-8 3. SETTING AND ADJUSTMENT Scanner setting 1. Open the INITIALIZE menu described on page 3-2. 2. Press [3] key to open the SCANNER menu. [SCANNER] 1 BACK 2 BLIND SECTOR 1 START 000° ANGLE 000° 3 BLIND SECTOR 2 START 000° ANGLE 000° 4 ANT REVOLUTION LO/HI/AUTO 5 ANT SW OFF/ON/EXT 6 ANT STOPPED STBY/TX 7 M SPEC OFF/ON 8 BB TYPE NORMAL/BB 9 [DUAL RADAR]* Note 1: Set the blind sector as minimum as possible. Note 2: Do not set the blind sector in the bow direction. *non IMO-type only To close the menu, press the [MENU] key. BLIND SECTOR 1 and BLIND SECTOR 2 Set area (up to 2) where no radar pulses will be transmitted, and heading should be adjusted before setting any blind sector. For example, set the area where an interfering object at the rear of the scanner would produce a dead sector (area where no echoes appear) on the display. To enter an area, enter start bearing relative the heading and dead sector angle. To erase the area, enter 0 for both the START and ANGLE sections. The setting range of START is 0 to 359° and ANGLE is 0 to 180°. ANT REVOLUTION This menu item is used for 42 rpm antenna unit. The default is AUTO, where antenna revolution speed is high for short range setting and low speed for long range setting. When LO is selected, the antenna always rotate in 36 rpm, and HI, 42 rpm. ANT SW and ANT STOPPED This is used for antenna maintenance by serviceman. Note: Choose OFF at ANT SW to prevent the antenna rotation. As for ANT STOPPED, choose STBY to prevent transmission while the antenna is stopped. M SPEC and BB TYPE Not used. DUAL RADAR See section 3.7. 3-9 3. SETTING AND ADJUSTMENT INSTALLATION menu setting Open the INSTALLATION menu by pressing [4] key on the INITIALIZE menu. [INSTALLATION] 1 BACK 2 RADAR* MAIN/SUB 3 RANGE UNIT ** NM/SM/km/kyd 4 RADAR NO*** 1/2/3/4/5/6/7/8 5 RADAR POSN FORE/MAIN TOP/ MAIN 2ND/MAIN 3RD/ AFT/PORT/ STAR BOARD 6 MODEL 6/12/25 UP/25 DOWN/ 50/30 UP/30 DOWN/60 7 TYPE IMO/A/B/C/W 8 ON TIME XXXXXXX.X H 9 TX TIME XXXXXXX.X H 0 PM GAIN ADJ *: Cannot be selected. **: non IMO-type only. ***: No.1-4: with antenna unit No.5-8: without antenna unit RADAR Choose main radar or sub radar. RANGE UNIT Choose NM, SM, km or kyd (kilo yard) as appropriate, however-IMO type radar is âNMâ only. RADAR NO and RADAR POSN For multiple radar system using the network hub, set number (name) and antenna position for each system to easily distinguish the radar configuration. MODEL Confirm the model of your radar. If the setting of this item is different from your model (combination of the antenna unit), the radar functions abnormally. 25 DOWN: for FAR-2827W 30 DOWN: for FAR-2837SW TYPE Choose type of radar: IMO, A, B, C, or W. 3-10 3. SETTING AND ADJUSTMENT ON TIME and TX TIME These items show number of hours the radar has been turned on and transmitted, respectively. Value can be changed; for example, after replacing magnetron TX Time can be reset to 0. PM GAIN ADJ Note: If you install the Performance Monitor PM-31 at field, see section 4.4 on page 4-16. When you choose this item, the radar setting changes as follows. RANGE: 24 NM PULSE: LONG BLIND SECTOR: OFF STC: OFF by Manual RAIN: OFF by Manual ECHO AVERAGE: OFF VIDEO CONTRAST: 2-B TUNE: AUTO 1. Adjust the GAIN control so that a slight amount of white noise appears on the screen. Arcs for performance monitor appear on the screen (Fig.1). 2. Adjust PM GAIN ADJ so that outer arc just disappears (Fig.2). The setting range is 0 to 255. 13.5 - 18.5 nm 13.5 - 18.5 nm Approx. 0.6 nm (10 dB) Fig.1 Fig.2 3-11 3. SETTING AND ADJUSTMENT OWN SHIP INFO menu setting Open the OWN SHIP INFO menu by pressing the [5] key on the INITIALIZE menu. [OWN SHIP INFO] 1 BACK 2 LENGTH/WIDTH LENGTH 100 m WIDTH 50 m 3 SCANNER POSN BOW 0 m PORT 0 m 4 GPS1 ANT POSN BOW 0 m PORT 0 m 5 GPS2 ANT POSN BOW 0 m PORT 0 m 6 CONNING POSN BOW 0 m PORT 0 m LENGTH/WIDTH and SCANNER POSN To inscribe own ship shape on the screen when you choose it on the menu, enter length and width of the ship and antenna position from the bow and left sides. The setting ranges are as follows. LENGTH: 0 to 999 m WIDTH: 0 to 999 m BOW: 0 to 999 m LEFT: 0 to 999 m GPS 1 ANT POSN and GPS 2 ANT POSN These items are needed for AIS information. Enter the GPS antenna position from the bow and left sides. The setting ranges are the same as above. CONNING POSN Enter the conning position in the wheelhouse, from the bow and left sides. The setting ranges are the same as above. When you set the display reference point to the conning position, these values are used to correct the radar antenna position. Note: If two or more radars are installed, items other than 3 SCANNER should be the same on each radar. 3-12 3. SETTING AND ADJUSTMENT TT PRESET menu setting Open the TT PRESET menu by pressing [6] key on the INITIALIZE menu. [TRACK PRESET] [TT PRESET] 1 BACK 2 TT DATA OUTPUT OFF/TTM/TTD REL/TRUE 4800/9600/ 19200/38400 3 MAX RANGE 24/32 4 ECHO LEVEL 16 5 QV DISPLAY OFF/ON 6 TT W/O GYRO* OFF/ON 7 [TT PRESET] 8 [TRACK PRESET] 9 [TT SENSOR DATA] 0 DEFAULT [TT PRESET] 1 BACK 2 LAND SIZE 1600 M 3 ANT SELECT XN12AF/XN20AF/ XN24AF/XN4A/XN5A SN30AF/SN36AF/ SN4A/SN5A 4 AUTO ACQ CORRE 5 SCAN 5 AUTO ACQ WEED 1 SCAN 6 [TT DETAIL DATA] 1 BACK 2 GATE SIZE S/ M /L/LL 3 FILTER RESPONSE 1/ 2 /3/4 4 LOST COUNT 9 SCAN 5 MAX SPEED 100 KTS 6 TRACKING MODE 1 /2/3/4 7 START TIME TGT VECT TIME /SCAN 50 SEC 20 SCAN *: Not on IMO radar TT DATA OUTPUT Set the output format from J691 port (sentence, bearing and baud rate) of tracked targets. Sentence: (OFF: No output, TTM: Tracked target information, TTD: Tracked target data) Bearing: REL: Target bearing from own ship, degree relative, target course, degree relative. TRUE: Target bearing, degree true, target course, degree true. Baud rate: (4800, 9600, 19200 or 38400 bps) NOTE: The TT OUTPUT port changes according to the setting for INS as described on page 3-15. INS-OFF: Output from J619 port only INS-SERIAL: Output from J619 and J620 (TTM only) ports INS-LAN: Output from J619 and NETWORK (TTM only) ports MAX RANGE Choose the target tracking range, 24 or 32 nm. ECHO LEVEL Set the detection level of echoes. The setting range is 1 to 31. QV DISPLAY OFF: Normal picture ON: Quantized picture; always off at power on 3-13 3. SETTING AND ADJUSTMENT TT W/O GYRO (Not on IMO radar) If a gyrocompass is not connected, choose the TT function, ON(working) or OFF (no working). LAND SIZE Set the land size in units of 100 m. The setting range is 100 to 3000 m. ANT SELECT Set the antenna radiator type of your radar. AUTO ACQ CORRE Set the correlation count of automatic acquisition. The setting range is 3 to 10. AUTO ACQ WEED Set the cancel count of automatic acquisition. The setting range is 1 to 5. 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. LOST COUNT Set the lost count. The setting range is 1 to 20. MAX SPEED Set the maximum tracking speed. The setting range is 40 to 150. TRACKING MODE Set the tracking mode among 1 to 4. START TIME TGT VECT Choose time which a vector appears after acquisition, TIME or SCAN and set seconds or scan counts. 3-14 3. SETTING AND ADJUSTMENT OTHER menu setting Open the OTHER menu by pressing [8] key on the INITIALIZE menu. [OTHERS] BACK DEMO ECHO OFF/EG/TT-TEST/PC EAV W/O GYRO OFF/ON TT CATEGORY SELECT CAT1/CAT2 3 INS OFF/SERIAL/LAN EAV w/o GYRO If a gyrocompass is not connected, choose the echo average function, ON (working) or OFF (no working). TT CATEGORY SELECT Choose CAT1 or CAT2â˘3 depending on your shipâs size. CAT1: All ships over than 10,000 GT CAT2: All ships between 500 and 10,000 GT CAT3: All ships less than 500 GT INS Choose appropriate item according to the ECDIS connected. OFF: No connection SERIAL: When connecting FEA-2105 series ECDIS. LAN: When connecting FEA-2107 series ECDIS. 3-15 3. SETTING AND ADJUSTMENT 3.7 Dual Radar Display (non IMO-type only) The image from two or more radars may be shown together on one radar display. This allows you to take advantage of the best characteristics radars has to offer. Image from main radar Image from external radar Separate internal and external images ("COMBINE" setting) The following should be done in order to enable the dual radar display: ⢠Set antenna position correctly on both the main radar and the external radar. ⢠Select external radar to use, from the DUAL RADAR menu. (See paragraph 3.7.3.) 3.7.1 Enabling/Disabling the Dual Radar Display Enable or disable the dual radar display as shown in this section. Note 1: The Tx blanking sector boundary lines are not shown when the dual radar display is active. Further, neither the internal or external image is shown in the Tx blanking sector. Tx blanking sector Tx blanking sector is not shown. No image in Tx blanking sector. Display area Tx blanking sector 3-16 Dual radar display with Tx blanking sector 3. SETTING AND ADJUSTMENT Note 2: In the dual radar display, a guard zone set on the main radar is also accommodated on the external radar. When the position of the antennas for the main and external radars is different and the No. 2 guard zone is set on a close-in range, the on-screen guard zone may be shifted slightly from both the main radar antenna reference and external radar antenna reference. Accordingly, on the dual radar display, the actual guard zone area may be shifted slightly. For example, the guard alarm sounds against a target which has almost entered the guard zone. The further the range the smaller the shift; however, there is little shift with the No.1 guard zone (3-6 mile range, fixed). Further, do not set a guard zone such that it straddles a boundary line of the dual radar sector. A guard zone cannot be set while the dual radar display is active. Set a zone before activating the dual radar display. 1. Open the INITIALIZE menu. See page 3-4. 2. Press the [3] key to show the SCANNER menu. 3. Select 9 [DUAL RADAR] and push the left button. [DUAL RADAR] 1 BACK 2 DUAL RADAR OFF/ COMBINE 3 COMBINE MODE OWN/EXT 4 COMBINE SECTOR START 000° ANGLE 000° 5 COMBINE RANGE START 00.00NM LENGTH 00.00NM 6 EXT RADAR 1/2/3/4 4. Select 2 [DUAL RADAR] and push the left button. 5. Select OFF or COMBINE as appropriate and push the left button. For COMBINE, the ANTENNA box at the top left-hand side becomes gray. OFF: Turn off the dual radar display. COMBINE: Display a part of the external radar image in the window on the main radar. 3-17 3. SETTING AND ADJUSTMENT Push the right button four times to close the menu. Note 1: The dual radar function becomes inoperative when the external radar is turned off, set to stand-by, or set as sub display. When this happens, the buzzer sounds and the message "EXT RADAR STBY" (power off, stand-by only) appears. Note 2: The dual radar display is inoperative on the stern-up and shuttle ferry modes. Note 3: Some functions of the external radar image, listed below, may be adjusted from the main radar. 1) Left-click the radar selection indication "CTRL OWN" at the top-left side of the screen to switch control to the external radar. The indication then shows "CTRL EXT". Each click of the indication switches control between the main and external radar alternately. 2) The external image may be adjusted from the main radar. The following functions may be adjusted: ⢠Transmit/stand-by switching ⢠PICTURE box setting ⢠GAIN ⢠A/C SEA ⢠A/C RAIN ⢠Tuning ⢠ECHO menu setting (2nd trace echo rejector, performance monitor) ⢠Range scale ⢠TT functions. ⢠CPA/TCPA box settings 3-18 3. SETTING AND ADJUSTMENT 3.7.2 Specifying Sector Width and Length When 2 DUAL RADAR in the DUAL RADAR menu is set for "COMBINE", specify the width and length of the sector from the external radar to display on own radar. 1. Open the INITIALIZE menu. 2. Press the [3] key to show the SCANNER menu. 3. Select 9 [DUAL RADAR] and push the left button. 4. Select 3 COMBINE MODE and push the left button. 5. Select OWN or EXT and push the left button. OWN: Set own radarâs antenna as reference point and set display area of own radar. The area outside that set here is where the image from the external radar will be displayed. EXT: Set external radarâs antenna as reference point and set display area of external radar. The area outside that set here is where the image from own radar will be displayed. Radar selected for COMBINE: Own START: 45 degrees ANGLE: 270 degrees START: 00.00 nm LENGTH: 99.99 nm Radar selected for COMBINE: External START: 315 degrees ANGLE: 90 degrees START: 00.00 nm LENGTH: 99.99 nm Picture from external radar Position of antenna for external radar Position of antenna for own radar Picture from own radar 6. Select 4 COMBINE SECTOR and push the left button. 3-19 3. SETTING AND ADJUSTMENT 7. Use the scrollwheel to set START and ANGLE, referring to the description and 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) ⢠ANGLE: Width of the sector (in degrees, 000-359) In the example below, START is 130° and ANGLE is 100°. Width of sector ANGLE (Example: 100°) START (Example: 130°) 8. Select 5 COMBINE RANGE and push the left button. 9. Use the scrollwheel to set START and LENGTH, referring to the example below. Spin the scrollwheel to set and push it to confirm. ⢠START: Set range start point. ⢠LENGTH: Set length of sector. START LENGTH Example: START: 01.00 nm LENGTH: 02.00 nm Push the right button four times to close the menu. 3-20 3. SETTING AND ADJUSTMENT 3.7.3 Choosing External Radar (image source) Select the external radar to use in the dual radar display. 1. Open the INITIALIZE menu. 2. Press the [3] key to show the SCANNER menu. 3. Select 9 [DUAL RADAR] and push the left button. [DUAL RADAR] 1 BACK 2 DUAL RADAR OFF/ COMBINE 3 COMBINE MODE OWN/EXT 4 COMBINE SECTOR START 000° ANGLE 000° 5 COMBINE RANGE START 00.00NM LENGTH 00.00NM 6 EXT RADAR 1/2/3/4 4. Select 6 EXT RADAR and push the left button. 5. Select desired radar no. and push the left button. Only the numbers of connected radars are valid. Radar no. is set on the Installation Setting menu. 6. Press the [MENU] key to close the menu. 3-21 3. SETTING AND ADJUSTMENT This page is intentionally left blank. 3-22 4. INSTALLING OPTIONAL EQUIPMENT 4.1 Gyro Converter GC-10 The Gyro Converter GC-10, incorporated inside the processor unit, converts analog gyrocompass reading into digital coded bearing data for display on the radar screen. This section explains how to install the GC-10 (mainly consisting of the GYRO CONVERTER board) and set it up according to gyrocompass connected. Installing the GYRO CONVERTER board Necessary Parts: GC-10-2 (Code number 000-080-440) See packing list for details at the back of this manual. 12 1. Open the processor unit. 12 Processor unit (Opened) 4-1 4. INSTALLING OPTIONAL EQUIPMENT 2. Fasten the GYRO CONVERTER board in the processor unit with five washer head screws and male connector 231-607/019-FUR (called J602) with two screws. Screw M3X8 5 pcs (Torque 0.78Nm) GYRO CONVERTER board 64P1106A Screw M2.6X10 2 pcs (Torque 0.39Nm) Connector (231) 231-107/026-FUR Connector (231) 231-607/019-FUR Attaching GYRO CONVERTER board in the processor unit 3. Connect the GYRO CONVERTER board and the 03P9342 board with connector assemblies 03-2088 and 03-2091. 4-2 4. INSTALLING OPTIONAL EQUIPMENT 4. Connect the GYRO CONVERTER board and J602 with two connector assemblies 03-2089 and 03-2090. Wiring for WAGO connector Press downward. Terminal opener Connection for J602 J602 P608 1 2 3 4 7 6 5 4 3 2 1 PPL BLU GRN YEL ORG From J5 RED BRN YEL ORG RED BRN WAGO connector Twist Wire Procedures 1. Twist the cores 2. Press the terminal opener downward. 3. Insert the wire to hole. 4. Remove the terminal opener. 5. Pull the wire to confirm that it is secure. 2 VH connector assy. 03-2089 (5P) 2 VH connector assy. 03-2090 (3P) 1 NH connector assy. 03-2091 (5P) To J602 P5 XH-PH connector assy. 03-2088 (6-14P) To P608 P7 P4 P1 P603 J5 GYRO CONVERTER J1 64P1106A J4 P608 12 J7 J602 12 J603 From J4 Connection for P608 TB 03P9342 Connecting connector assemblies 4-3 4. INSTALLING OPTIONAL EQUIPMENT 5. Confirm gyrocompass specifications and set up the DIP switches and jumper wires on the GYRO CONVERTER board according to gyrocompass connected: ⢠Setting jumper wires and DIP switches by gyrocompass specifications: page 4-5 ⢠Setting jumper wires and DIP switches by make and model of gyrocompass: page 4-7 ⢠Location of jumper wires and DIP switches: page 4-8 6. Pass gyrocompass cable through the cable clamp and connect it to connector J602 as shown in the figure on page 4-3. 7. Attach the clamps on the plastic cover and then attach the cover to the chassis as shown in the figure below. Insert cables to the clamp ED-1, respectively. Screw M4X8 3 pcs (Torque 0.98Nm) Plastic cover Clamp CKS-10-L Clamp EDS-1 Insert cables to these clamp. 12 12 Clamp CKS-13-L Attaching plastic cover for GYRO CONVERTER board 8. Close the processor unit. 4-4 4. INSTALLING OPTIONAL EQUIPMENT Connection of external power supply An external power supply is necessary when the repeater signal is step-by-step type and the step voltage is below 20 V or output voltage is less than 5 W. 1. Cut jumper wire JP1 on the GYRO CONVERTER board when an external power supply is used. 2. Connect gyro cable and power cable as shown below. GYRO CONVERTER board [A] 64P1106 External Power Supply 20 - 135 VAC 20 - 100 VDC J5 1 > R2 2 > R1/COM Either connection in case of DC polarity. S2 J4 1 > S1 2 > S2 S3 3 > S3 S1 Gyrocompass (Step type) COM F.G. 4>T 5 > F.G. Connection of external power supply to GYRO CONVERTER board DIP switch, jumper wire settings Default setting The gyro converter GC-10 is set at the factory for connection with the gyrocompass specifications below. AC synchronous signal: 50/60 Hz Rotor voltage: 60 V to 135 V AC Stator voltage: 60 V to 135 V AC Gear ratio: 360x Supply voltage: 30 V to 135 V AC If the specifications of the gyrocompass differ from those mentioned above, change jumper wire and DIP switch settings on the GYRO CONVERTER board. Settings may be changed according to gyrocompass specifications (see page 4-6) or make and model of gyrocompass (see page 4-7). For the location of DIP switches and jumper wires, see page 4-8. Note: If you change the setting with power supplied, set #8 of SW2 from OFF to ON, then OFF again. 4-5 4. INSTALLING OPTIONAL EQUIPMENT Setting method 1: DIP switch settings and gyrocompass specifications 1) Gyrocompass type 2) Frequency Gyrocompass type SW 1-4 SW 1-5 SW 1-6 JP1 SW 1-7 SW 1-8 AC synchronous OFF OFF OFF #1, #2, #3 50/60 Hz OFF OFF AC synchronous pulsating current DC synchronous OFF OFF OFF #2, #3, #4 400 Hz ON OFF AC synchronous pulsating current DC step ON OFF OFF #4, #5, #6 500 Hz OFF ON AC synchronous pulsating current Full-wave pulsating current OFF ON OFF #4, #5, #6 DC ON ON DC synchronous DC step Half-wave pulsating current ON ON OFF #4, #5, #6 3) Rotor Voltage (between R1 & R2) Frequency Remarks 4) Stator Voltage (between S1 & S2) Stator Voltage SW 2-2 SW 2-3 JP2 #2 20 to 45 VAC, or 20 to 60 VDC ON OFF #2 OFF #2 30 to 70 VAC, or 40 to 100 VDC OFF OFF #2 40 to 90 VAC ON #1 40 to 90 VAC ON OFF #1 60 to 135 VAC OFF #1 60 to 135 VAC OFF OFF #1 Rotor Voltage SW 2-1 JP3 20 to 45 VAC ON 30 to 70 VAC 5) Ratio 6) Supply Voltage Ratio SW 1-1 SW 1-2 SW 1-3 Stator Voltage 360X OFF OFF OFF 180X ON OFF OFF 90X OFF ON OFF 36X ON ON OFF JP4 JP5 20 to 45 VAC, or 20 to 60 VDC #2 #2 30 to 70 VAC, or 40 to 100 VDC #1 #1 7) AD-10 format data Tx interval 8) NMEA-0183 Tx interval and Output sentence Select data transmitting interval for ports 1 to 6 with jumper wires JP6 and JP7. Tx interval Note: The Tx interval is available in 25 msec or 200 msec. Use 25 msec is for radar: 9) NMEA-0183 Version no. 10) NMEA-0183 Baud rate SW 2-5 SW 2-6 1s OFF OFF HDT+VHW 200 ms ON OFF HDT 100 ms OFF ON HDT 25 ms ON ON HDT 11) NMEA-0183 Talker Version no. SW3-1 Baud rate SW3-2 Talker SW3-3 1.5 OFF 4860bps OFF AG OFF 2.0 ON 38400bps ON 4-6 HE ON Use OFF for radar. Output sentence 12) Stator signal breaking detection Detection SW2-7 Execute OFF No execute ON SW2-4: factory use only SW3-4: not used 4. INSTALLING OPTIONAL EQUIPMENT Setting method 2: by make and model of gyrocompass Maker Models Specification SW 1-1 SW 1-2 SW 1-3 SW 1-4 SW 1-5 SW 1-6 SW 1-7 SW 1-8 SW 2-1 SW 2-2 SW 2-3 JP 1 JP 2 JP 3 JP 4 JP 5 Anschutz Standard 2,3 AC synchronous 50/60Hz Rotor voltage: 50/60V Stator voltage: 22V 360x OFF OFF OFF OFF OFF OFF OFF OFF OFF ON OFF #1, #2,#3 #2 #2 #1 Standard 4,6 AC synchronous 50/60Hz Rotor voltage: 50/60V Stator voltage: 90V 360x OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #2,#3 #2 #1 #1 Standard 20 DC step 35V 180x COM(-) ,3-wire(+) ON OFF OFF ON OFF OFF ON ON ON OFF #4, #5,#6 #2 #2 C-1/1A/2/3 A-55, B-55 AC synchronous 50/60Hz Rotor voltage: 50/60V Stator voltage: 22V 360x OFF OFF OFF OFF OFF OFF OFF OFF OFF ON OFF #1, #2,#3 #2 #2 #1 CMZ-700 DC step 24V 180x COM(+), 3-wire(-) ON OFF OFF ON OFF OFF ON ON ON OFF Remove #2 CMZ-250X/ 300X/500 DC synchronous 360x OFF OFF OFF OFF OFF OFF ON ON ON OFF Remove #2 DC step 35V 180x COM(+),3-wire(-) ON OFF OFF ON OFF OFF ON ON ON OFF #4, #5,#6 #2 #2 #2 AC synchronous 50/60Hz Rotor voltage: 100V Stator voltage: 90V 360x OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #2,#3 #1 #1 #1 #1 step 35V 180x See note below. COM(+),3-wire(-) ON OFF OFF ON OFF OFF ON ON ON OFF Remove #2 Pla th NAVGAT II/III AC synchronous 50/60Hz Rotor voltage: 50/60V Stator voltage: 68V 360x OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #2,#3 #2 #2 #1 #1 Tokimec (Sperry type) ES-1/2/11 GLT-101/102/ 103/106K/107 AC synchronous 50/60Hz Rotor voltage: 100/110V Stator voltage: 90V 36x ON ON OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #2,#3 #1 #1 #1 #1 ES-11A/110 TG-200 PR222R/2000 PR237L/H GM 21 AC synchronous 50/60Hz Rotor voltage: 100/110V Stator voltage: 22V 90x OFF ON OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #2,#3 #1 #1 #1 #1 MK-14 MOD-1/2/T NK-EN,NK-EI DC step 70V 180x COM(-), 3-wire(+) ON OFF OFF ON OFF OFF ON ON OFF OFF #4, #5,#6 #2 #1 #1 SR-130/140 DC step 70V 180x 5-wire, open collector ON OFF OFF OFF ON OFF OFF OFF OFF OFF #4, #5,#6 #2 #1 #1 TG-100/5000 PR-357/130/ 140, ES-17 GLT-201/202 /203 DC step 70V 180x COM(+), 3-wire(-) ON OFF OFF ON OFF OFF ON ON OFF OFF #4, #5,#6 #2 #1 #1 TG-6000 DC step 24V 180x ON OFF OFF ON OFF OFF ON ON ON OFF #4, #5,#6 #2 #2 #2 GM-11 AC synchronous 50/60Hz Rotor voltage: 100V Stator voltage: 90V 90x OFF ON OFF OFF OFF OFF OFF OFF OFF OFF OFF #1, #2,#3 #1 #1 #1 #1 SR-120,ES-16 MK-10/20/30 DC step 35V 180x ON OFF OFF ON OFF OFF ON ON ON OFF #4, #5,#6 #2 #2 #2 Kawasaki GX-81 AC synchronous 50/60Hz Rotor voltage: 100/110V Stator voltage: 90V 90x OFF ON OFF OFF OFF OFF OFF OFF OFF #1, #2,#3 #1 #1 #1 #1 Armabrown MK-10,MKL-1 SERIES1351, MOD-4 DC step 50V 180x COM(+), 3-wire(-) ON OFF OFF ON OFF OFF ON ON OFF OFF #4, #5,#6 #2 #1 #1 Robertson SKR-80 DC step 35V 180x COM(-), 3-wire(+) ON OFF OFF ON OFF OFF ON ON ON OFF #4, #5,#6 #2 #2 #2 Yokogawa Navtec (Pla th type) CMZ-100/200/ 300 C-1Jr,D-1Z/1/3 IPS-2/3 CMZ-50 OFF OFF *: Set JP4 and JP5 according to the voltage of the external power supply. Note: If CMZ-50 has 35VDC, set JP1 to #4, #5, #6. 4-7 4. INSTALLING OPTIONAL EQUIPMENT Location of DIP switches, jumper wires on the GYRO CONVERTER board JP5, JP4 (Supply voltage) JP2 (Rotor voltage) JP3 (Stator voltage) SW3 DIP switch J12 (Data output port #6) J11 (Data output port #5) J10 (Data output port #4) 64P1106 JP1 (Gyro type) SW2 DIP switch Fuse (2A) SW1 J4 DIP switch (Stator signal input) J5 (Rotor signal input, external power input) J6 (IEC-61162-1 output port) JP6, JP7 (AD format data Tx interval) J9 (Data output port #3) J8 (Data output port #2) J7 (Data output port #1) GYRO CONVERTER board Setting the heading readout on the radar display Confirm that the gyrocompass is giving a reliable readout. Then, set the heading readout on the radar display with the gyrocompass readout as follows: 1. Roll the trackball to place the arrow in the HDG box at the top right corner of the screen. 2. Push the right button on the trackball module to open the HDG menu. [HDG MENU] 1 HDG SOURCE AD-10/SERIAL 2 GC-10 SETTING 000.0 HDG menu 3. 4. 5. 6. Press the [1] key to choose the HDG SOURCE and choose AD-10. Press the [2] key to choose the GC-10 SETTING option. Roll the wheel to set gyrocompass reading. Press the [MENU] key to close the menu. 4-8 4. INSTALLING OPTIONAL EQUIPMENT 4.2 Memory Card Interface Unit Mounting considerations When selecting a mounting location, keep in mind the following points: ⢠Locate the memory card interface unit away from heat sources because of heat that can build up inside the cabinet. ⢠Locate the unit away from places subject to water splash and rain. ⢠Leave sufficient space at the sides and rear of the unit to facilitate maintenance. ⢠A magnetic compass will be affected if the unit is placed too close to the magnetic compass. Observe the compass safe distances on page ii to prevent deviation of a magnetic compass. Flush mounting This unit can be flush-mounted in a panel with the standard installation materials. 1. Prepare a cutout in the mounting location, referring to the outline drawing at the end of this manual. 2. Screw in the threaded rods to the flange of the front panel of the unit securely by hands. 3. Set the unit to the cutout. 4. Insert the flat washer, spring washer and nut in that order for each rod and fasten the nuts. Flush mounting 4-9 4. INSTALLING OPTIONAL EQUIPMENT Desktop mount For desktop mount, the optional desktop mount kit FP03-10201 is required. Refer to the end of this manual. 1. Fix the mounting bracket 19-023-3081 on the unit with four screws. 2. Mount the above assembly on a desktop with four tapping screws. Console mount For console mount, the optional console mount kit FP03-10202 is required. Refer to the end of this manual. 1. Fix the mounting bracket 19-023-3091 on the unit with four screws. 2. Mount the above assembly to the console with four sets of nut, spring washer and flat washer. Connection 1) Connection between one processor unit and one memory card IF unit Connect as shown in the figure below. Processor unit J614 12 VDC MJ-A3SPF0015-100 (10 m) PSE-4PTX-BL (10 m) NETWORK Memory card IF unit 12 VDC two mini-cards NETWORK RJ-45 2) Connection between one memory card IF unit and multiple processor units Prepare optional cable FR-FTPC-CY (10, 20 or 30 m), and HUB-100 (option). Connect as shown in the next page. Set the radar number on the INSTALLATION menu (see page 3-10), and then turn the power off and on. LAN cable Type Length Code number OP03-28900 000-082-658 Cable FR-FTPC-CY (10 m), Modular connector 2 pcs. OP03-28910 000-082-689 Cable FR-FTPC-CY (20 m), Modular connector 2 pcs. OP03-28920 000-082-660 Cable FR-FTPC-CY (30 m), Modular connector 2 pcs. 4-10 4. INSTALLING OPTIONAL EQUIPMENT No.1 J614 Processor unit NETWORK Memory card IF unit MJ-A3SPF0015-100 (10 m) 12 VDC FR-FTPC-CY (10/20/30 m) (straight) two mini-cards NETWORK FR-FTPC-CY (10/20/30 m) (straight) No.2 Processor unit No.3 Processor unit No.4 Processor unit Switching hub FR-FTPC-CY (10/20/30 m) (straight) HUB-100 (option) FR-FTPC-CY (10/20/30 m) (straight) FR-FTPC-CY (10/20/30 m) (straight) Note: When two memory card interface units are connected via network, change ID code for the second unit. 1. Remove the cover and set IP0 bit of the DIP switch S1 to ON on the CARDCPU board 03P9333. 2. Set INIT bit of S1 to ON and turn on the power of the radar. Wait till CR2 starts blinking. Never turn off the power until CR2 starts blinking. 3. Turn off the power and set INIT bit to OFF. ON J314 OFF IP0 IP1 IP2 CR2 S1 INIT (Default: all OFF) CARDCPU board 03P9333 4-11 4. INSTALLING OPTIONAL EQUIPMENT 4.3 DVI-RGB Conversion Kit (for VDR connection) This information provides the procedure necessary for the installation of the DVI-RGB conversion kit. This kit is installed in the processor unit to enable connection of a VDR (Voyage Data Recorder) or RGB monitor to record radar pictures into a VDR. When changing the D-sub 15P of the RGB cable to the BNC connector, use the BNC connector converter described on page 4-15. This RGB output complies with the image test defined in the VDR test standard, IEC 61996. Name: Type: Code no.: Resolution: DVI-RGB conversion kit OP03-180-2 008-536-070 Outputs RGB with the resolution of DVI input. Display unit Resolution DIP switch setting (S-1#1) MU-201CR 1024x1280 OFF MU-231CR 1024x1365 ON Output signal specification: Video; 0.7Vp-p, 75⌠termination, positive polarity Horizontal sync signal; TTL level, negative polarity Vertical sync signal; TTL level, negative polarity See packing list for contents. Refer to the figure below for modification. DVI-RGB Conversion board (SLB-FRN4-A) DVI cable M3x8 6 pcs J9 (10 pin) J4 (6 pin) DVI video input J3 J615 03-2092 03-2094 03P9342 board 03-2093 SQ-35 Spacer 6 pcs M3x8 4 pcs J1 (13 pin) J3 (3 pin) RGB-BUFF board* (03P9229B) D-sub 15P Female J2 RGB Cable (User supply) Spring washer Fixing holes Boss RGB video output Ferrite core Clamp copper tape section by cable clamp. To external RGB monitor or BNC connector converter for VDR connection (see page 4-17). Ferrite core side: Connect to DVI-D port on the upper part of the processor unit. *Indepent of the MAIN board. 4-12 4. INSTALLING OPTIONAL EQUIPMENT 1. Remove the top cover and open the upper part of the processor unit. DVI-D port (Connect DVI cable at step 13) Processor unit 2. Fix the 03P9229A board (RGB-BUFF) with four screws. (See the figure below.) 3. Attach the connector assemblies to J1 and J3 on the 03P9229A board as follows. J1ďź13-pin connector of the connector assembly 03-2094 J3ďź3-pin connector of the connector assembly 03-2093 4. Attach six sets of spring washers and spacers to the positions shown below. Spring washer, spacer J1 03P9229A board J2 (Connect RGB Cable at step 11.) J3 J2 03P9342 board J615 (Connect connector assembies at step 9.) Processor unit (Lower part) 5. Attach the DVI-RGB conversion board to the location shown in the figure on the next page. 4-13 4. INSTALLING OPTIONAL EQUIPMENT DVI-RGB Conversion board J3 (Connect DVI cable at step 10.) J9 J4 Fixing the DVI-RGB conversion board 6. Attach the 10-pin connector from J1 on the 03P9229A board to J9 on the DVI-RGB board. 7. Attach the connector assembly 03-2092 to J4 on the DVI-RGB conversion board. 8. Remove connector housing J615 from the 03P9342 board. Connect the cable from J3 on the 03P9229A board and the cable from J4 on the DVI-RGB conversion board to J615. After connection, attach J615 to the 03P9342 board. To connect wires to the connector housing, use the terminal opener (supplied as installation materials) as shown below. Terminal opener J615 Housing jPress downward BRN RED ORG YEL GRN kInsert core Connecting wires to the housing 9. Connect the DVI cable to J3 on the DVI-RGB conversion board. Connect the end which does not have the ferrite core. 10. Pass an RGB cable (local supply) through the cable clamp and connect it to J2 on the 03P9229A board. 11. Pass the DVI cable through the cable clamp, laying the section with copper tape in the cable clamp. 12. Assemble the processor unit and connect the other end of the DVI cable to DVI-D port. 4-14 4. INSTALLING OPTIONAL EQUIPMENT 4.4 BNC Connector Converter To connect the VR-5000 (FURUNO Voyage Data Recorder) to this radar, the DVI-RGB conversion kit (mentioned at previous paragraph) and the BNC connector converter are required. Also VGA cable (between the processor unit and the BNC connector converter) and five 75 ohms coaxial cables (between the BNC connector converter and VR-5000) are required. FAR-2107 Processor Unit BNC connector converter DSUB-BNC-1 VGA cable DVI-RGB Conversion kit D-sub 15P Female D-sub 15P Male 75 ⌠coax. cable VD1 VR-5000 Data collecting unit HS VS 4-15 4. INSTALLING OPTIONAL EQUIPMENT 4.5 Junction Box RJB-001 If the length of the antenna cable is more than 100 m, the optional junction boxes are required. These boxes should be mounted at the location protected because its waterproofing is IPX3. Transceiver unit Processor unit RW-9600 (Max 15 m) RW-9600 (Max 15 m) Junction box RJB-001 DPYCY-6 (2 or 3 pcs.) TTYCY-4 (1 pc.) RG-12/UY (1 pc.) (Max 270 m) Shipyard supply Junction box RJB-001 Mounting Fasten the junction box to the mounting location with four self-tapping screws (M8, local supply). 514 474 270 280 320 NAMEPLATE 139 60 Mass: 12kg 360 430 4-16 FIXING HOLES 4-Ď10 4. INSTALLING OPTIONAL EQUIPMENT Cable Fabrication RW-9600 20 approx. 450 Units: mm Shield Armor Vinyl sheath Pull out inner cables from here. 14 5 9 Shield Coaxial cable Crimp on lug for M8 DPYCY-6 and TTYC-4 DPYC-6: approx. 130 TTYCY-4: approx. 150 Ď = 13.9 mm 20 TTYCY-4 (Four twisted pairs) DPYCY-6 Ď = 17.7 mm Armor Sheath Armor Taper for unused wires. Sectional view of DPYCY-6 Sheath Conductor S = 0.75 mm 2 Ď = 1.11 mm Conductor S = 6 mm 2 Ď = 3.12 mm Vinyl sheath Sheath Armor Fabrication of DPYCY-6 RG-12/UY 20 60 14 5 9 Inner conductor Vinyl sheath Armor Outer conductor Sectional view of TTYCY-4 4-17 4. INSTALLING OPTIONAL EQUIPMENT Connection Insert each cable to the cable gland as follows. Flat washer 5 mm Vinyl sheath 5 mm Clamping gland Gasket Trim the armor with width of washer (5 mm). Connect each cable cores to the terminal board, referring to the interconnection diagram on next page. Clamp outer conductor of coaxial cables. Fix wires with cable-tie. 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 RG12/UY RG-12/UY TTYCY-4 Connect inner conductors. 4-18 DPYCY-6 RW-9600 M8 screw for grounding 4. INSTALLING OPTIONAL EQUIPMENT FR-2827W Junction Box Transceiver unit 03P9349 TB801 TX-HV 1 N.C. 2 24V_PLUS 3 24V_MINUS 4 MOTOR(+) 5 MOTOR(+) 6 MOTOR(-) 7 MOTOR(-) 8 SPU_RF_D_A SPU_RF_D_B RF_SPU_D_A RF_SPU_D_B SIG-GND GND 10 11 12 13 14 TB802 IF_VIDEO_IN 1 GND 2 RED[B] BRN DPYCY-6 ORG[B] YEL[B] BLU[B] GLY[B] PPL[B] 8 N.C. 9 N.C. 8 N.C. 9 N.C. ORG[B] YEL[B] BLU[B] WHT[B] RED GRN BLK WHT GRN[B] DPYCY-6 TTYCY-4 PPL[B] WHT[B] 10 11 12 13 14 15 N.C. RG-12/UY COAX GLY[B] 10 11 12 13 14 15 N.C. 03P9342 RW-9600 DPYCY-6 BRN Processor unit Junction Box RED GRN BLK WHT GRN[B] RED[B] TX-HV N.C. J610 3 24V_PLUS 4 24V_MINUS 5 MOTOR(+) 6 MOTOR(+) 7 MOTOR(-) 8 MOTOR(-) 9 N.C. 10 SPU_RF_D_A 11 SPU_RF_D_B 12 RF_SPU_D_A 13 RF_SPU_D_B 14 SIG-GND 15 GND J613 IF_VIDEO GND IV-1.25 Clamp with cable gland. FR-2837SW Junction Box Transceiver unit 03P9349 TB801 TX-HV 1 N.C. 2 24V_PLUS 3 24V_MINUS 4 MOTOR(+) 5 MOTOR(+) 6 MOTOR(-) 7 MOTOR(-) 8 SPU_RF_D_A SPU_RF_D_B RF_SPU_D_A RF_SPU_D_B SIG-GND GND 10 11 12 13 14 TB802 IF_VIDEO_IN 1 GND 2 Junction Box RW-9600 DPYCY-6 BRN RED[B] BLU[B] GLY[B] PPL[B] RED GRN BLK WHT GRN[B] COAX BRN DPYCY-6 ORG[B] YEL[B] WHT[B] Processor unit ORG[B] YEL[B] N.C. N.C. TTYCY-4 10 11 12 13 14 15 N.C. RG-12/UY IV-1.25 J610 PPL[B] 7 MOTOR(-) 8 N.C. 9 N.C. 10 11 12 13 14 15 N.C. TX-HV N.C. WHT[B] GLY[B] 3 24V_PLUS 4 24V_MINUS 5 MOTOR(+) 6 MOTOR(+) BLU[B] 03P9342 J613 RED GRN BLK WHT GRN[B] RED[B] 8 MOTOR(-) 9 N.C. 10 SPU_RF_D_A 11 SPU_RF_D_B 12 RF_SPU_D_A 13 RF_SPU_D_B 14 SIG-GND 15 GND IF_VIDEO GND Clamp with cable gland. Interconnection for FAR-2827W/2837SW 4-19 4. INSTALLING OPTIONAL EQUIPMENT This page is intentionally left blank. 4-20 5. INPUT/OUTPUT DATA Input and output data are shown in the table below. Note: This radar accepts position data fixed by WGS-84 geodetic datum only. Set the datum to WGS-84 on the EPFS (GPS, etc.) connected to this radar. If other type of datum is input, the error message "DATUM" appears and the AIS feature is inoperative. Baud rate for the serial input is automatically set to 4800, 9600, 19200 or 38400 as appropriate. Input Data Specifications Contents Remarks Heading signal synchro or step GC-10 required AD-10 format External AD-100 AD-10 and IEC 61162 are switched by menu setting. IEC 61162-2** Speed signal IEC 61162-1 Navaid data IEC 61162-1 Position, course, For IMO spec, IEC-61162-1 speed, waypoint, Edition 2 is required. route, time, wind data, current data, depth, temperature, roll, pitch External radar signal Heading, Bearing, Trigger, Video No STC control Alarm ACK input Contact closure IEC61162-1 Track Control unit Operate as remote display Input from alarm system ACK RS-422 Input from alarm system Option Output Radar system data RS-232C RSD, OSD, TLL, For PC plotter TT data* IEC 61162-1 TTD, TTM, TLB For ECDIS ALARM data IEC 61162-1 ALR For ALARM system Remote display signal HD, BP Trigger, Video External LCD monitor signal DVI Same as main display unit 2 systems in total External CRT monitor signal R, G, B, H, V Same as main display unit Option Alarm signal Contact closure Output to alarm system by using photo-relay 4 systems, Output contents are selected by menu. 2 ports *The output sentence, mode and baud rate can be set at the TT Preset menu. **Data cycle should be input with more than 40 Hz (HSC) or 20 Hz (normal speed). 5-1 5. INPUT/OUTPUT DATA IEC 61162 input sentence and priority Contents Sentence and priority Speed (STW) VBW>VHW Speed (SOG) VBW Speed (position) VTG>RMC Heading (True) THS*>HDT* Position GNS>GGA >RMC>GLL Datum DTM Waypoint BWR>BWC>RMB Route WPL, RTE Date ZDA Depth DPT>DBT>DBS>DBK Temperature MTW Wind MWV>VWT>VWR Set and Drift VDR ALARM ACK ACK *: THS and HDT: IEC61162-2. OTHERS: IEC61162-1 ed2. IEC 61162 output sentence Contents Sentence Target L/L TLL* Radar system data RSD Own ship data OSD TT target data TTD, TLB, TTM ALARM data ALR *non IMO-type only 5-2 +056#..#6+10/#6'4+#.5 52#4'2#465 70+6 176.+0' )/: %2 52 45$05 &'5%4+26+10%1&'Íł )/: ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠ăŞăŞ äăŞä˘äźâภá§á¨äąăŞ˛ăŞăŞăŞ´ä˛äŽăŹáŻŕş äąŕŞâ´ŤáłáźăŞäää˘äźäâ´ŤääääŻ ăŞăŞŚăŞăŞăŠˇăŞĽăŞŹăŞ¤ăŞăŞăŞŠăŠˇăŞăŞĽăŞăŞăŞăŠˇăŞăŞ°ăŠˇăŠšăŞăŞăŠšăŠˇăŞ ăŞĽăŞăŞ ăŞăŞăŞŤăŞăŞŞăŠˇăŞŤăŞăŞăŠˇăŞĽăŞŹăŞ¤ăŞăŞăŞŠăŠˇăŞŚăŞăŠˇăŞŤăŞ°ăŞ§ăŞ ăŞăŞăŞŁăŠˇăŞ¤ăŞăŞŤăŞăŞŠăŞ ăŞăŞŁăŞ +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ą áżŕŠá§á˘ą 52#4'2#465 ŕŠŕŽťŕş ŕŠŕŽťŕş #06'00#70+6 â¨ŕ¨â˘á§ŕŤăą ŕĄŕ žŕ śŕ ť 0#/' 45$ 㧟ă§ă§Żă§ˇă§ľă§şă§łâŤŢâŹă§¸ă§ľă§żă¨ 3 6; A-1 524+0)9#5*'4 ăŠăŠ¨ăŠáłă (.#69#5*'4 ăŠăŠăŠ¨ăŠááłă *':$1.6 ŕąâˇşăŠăŠ¨ăŠŁăŠă§ŕąăŠăŠăŠ¨ă§ *':076 ŕąâˇşăŠă¨šăŠăŠă¨ˇ (.#69#5*'4 ăŠăŠăŠ¨ăŠăŠăŠŁááłă 524+0)9#5*'4 ăŠăŠ¨ăŠáłă %4+/210.7) ŕżśââľáś 6'4/+0#.12'0'4 á ˛ŕŤăŠ¤ăŠăŠ¨ă¨ş 5'#.9#5*'4 ăŠă¨şăŠŁăŠŚă¨šăŠă¨ś %14415+10 2411(47$$'4 /#6 ăâ˛ŕ §ŕĄ ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 /575 %1&' 01 /575 %1&' 01 /:575 %1&' 01 /575 %1&' 01 /575 %1&' 01 /575 %1&' 01 (8 %1&' 01 %1&' 01 41*5 %1&' 01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 %2 6;2' á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 )/: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)/: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť %1&'01 A-2 )4170&9+4' 㨝㨺ăŠâ˘ *':$1.6 ŕąâˇşăŠăŠ¨ăŠŁăŠ *':076 ŕąâˇşăŠă¨šăŠăŠă¨ˇ ââŤŢŢâŹŕż 176.+0' %1&' 01 49 %1&' 01 /:575 %1&' 01 /575 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)/: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' ฏâŤŢŢâŹâ 0#/' 5+.+%1047$$'4 ăŠăŠăŠă¨şăŠŁ *':$1.6 5.166'&9#5*'4 *'#& ŕąâˇşăŠăŠ˘ăŠŚăŠ˘ăŠăŠăŠ$ 14+0) 1㊢㊧ăŠăŠ¨ 2+0 ăŠăŠŠăŠ§ ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' áłŕ¸Źă§âˇáŠ° &'5%4+26+105 %2 %1&' 01 59㨝㊣ăŠăŠă¨ˇă¨şăŠăŠ¨) %1&' 01 /:575 /:575 %1&' 01 ,$2 %1&' 01 á˘ă 3 6; 6;2' %1&'01 âŞă ă§ŕŽťâ ¨ 4'/#4-5 (5: A-4 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠(5: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 +056#..#6+10/#6'4+#.5 âภ01 +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť %2 6;2' )/: áżŕŠá§á˘ąâ´Ť %1&'01 A-3 á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 9#8')7+&' (4㊤ăŠăŠăŠăŠ¨ă¨źăŠăŠ¨ 9#8')7+&' (4㊤ăŠăŠăŠăŠ¨ă¨źăŠăŠ¨ 9#8')7+&' (4㊤ăŠăŠăŠăŠ¨ă¨źăŠăŠ¨ ฏâŤŢŢâŹâ 0#/' +056#..#6+10/#6'4+#.5 âภ01 ââŤŢŢâŹŕż 176.+0' %1&'01 (4 %1&'01 (4 %1&'01 (4 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 ㊤㨺ăŠăŠ¨ă¨şăŠ¤ăŠăŠăŠăŠ¨ă¨źăŠăŠ¨ (4 á˘ă 3 6; ăŹáŻâŤŢŢŢŢ⏠61$'5'.'%6'& ăŹáŻâŤŢŢŢŢ⏠61$'5'.'%6'& ăŹáŻâŤŢŢŢŢ⏠61$'5'.'%6'& âŞă ă§ŕŽťâ ¨ 4'/#4-5 %3: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠%3: âŤÚ⏠㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠%3: 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 37#.+6;+56*'5#/' %1&'01 /:575 %1&'01 ,+5(# %1&'01 #5 %1&'01 41*5 %1&'01 41*5 %1&'01 41*5 %1&'01 41*5 %1&'01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 áżŕŠá§á˘ąâ´Ť 4#4'%6)7+&' 6;2' %1&'01 áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšßŕ âŤŢ⏠ââŤŢŢâŹŕż 176.+0' %3: 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 37#.+6;+56*'5#/' *':*'#&5.16$1.6$ 9#5*'4 ŕąâˇşăŠăŠ˘ăŠŚăŠ˘ăŠăŠăŠ$ )..#0& âŚŕŞăŠăŠ¨ăŠĄăŠ§ăŠăŠ¨ 14+0) 1㊢㊧ăŠăŠ¨ 47$$'42#%-+0) ăŠăŠŠă¨šăŠăŠ§ 47$$'42#%-+0) ăŠăŠŠă¨šăŠăŠ§ă§ă§ 9#5*'4 áłă 647-&'%-%#$.').#0& ăŠăŠ¨ăŠĄăŠ§ăŠăŠ¨á§ŕŤ 9#6'46+)*6(+./ ăáłăŠă¨˛ăŠŁăŠ ฏâŤŢŢâŹâ 0#/' (14(4âŤŢâŹ4'%6)7+&' (.':+$.'9#8')7+&' %2 6;2' A-6 áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšßŕ âŤŢ⏠âภ01 +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť /#4+0'4#&'4 %1&'01 A-5 A-7 A-8 +056#..#6+10/#6'4+#.5 70+6 176.+0' )/: %2 464*- &'5%4+26+10%1&'Íł )/: ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠ăŞăŞ äăŞä˘äźâภá§á¨äąăŞ˛ăŞăŞăŞ´ä˛äŽăŹáŻŕş äąŕŞâ´ŤáłáźăŞäää˘äźäâ´ŤääääŻ ăŞăŞŚăŞăŞăŠˇăŞĽăŞŹăŞ¤ăŞăŞăŞŠăŠˇăŞăŞĽăŞăŞăŞăŠˇăŞăŞ°ăŠˇăŠšăŞăŞăŠšăŠˇăŞ ăŞĽăŞăŞ ăŞăŞăŞŤăŞăŞŞăŠˇăŞŤăŞăŞăŠˇăŞĽăŞŹăŞ¤ăŞăŞăŞŠăŠˇăŞŚăŞăŠˇăŞŤăŞ°ăŞ§ăŞ ăŞăŞăŞŁăŠˇăŞ¤ăŞăŞŤăŞăŞŠăŞ ăŞăŞŁăŞ +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ą áżŕŠá§á˘ą 64#05%'+8'470+6 ă ŕ¸ŕŹžăą ŕĄŕ žŕ śŕ ť 0#/' 464*-5 㧟ă§ă§Żă§ˇă§ľă§şă§łâŤŢâŹă§¸ă§ľă§żă¨ 3 6; 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A-11 (.#69#5*'4 ăŠăŠăŠ¨ăŠááłă *':$1.6 ŕąâˇşăŠăŠ¨ăŠŁăŠâŤŢâŹă§ŕąăŠăŠăŠ¨ă§ *':076 ŕąâˇşăŠă¨šăŠăŠă¨ˇ (.#69#5*'4 ăŠăŠăŠ¨ăŠăŠăŠŁááłă 524+0)9#5*'4 ăŠăŠ¨ăŠáłă %4+/210.7) ŕżśââľáś %4+/210.7) ŕżśââľáś 6'4/+0#.12'0'4 á ˛ŕŤăŠ¤ăŠăŠ¨ă¨ş %14415+102411( 47$$'4/#6 ăâ˛ŕ §ŕĄ 5'#.9#5*'4 ăŠă¨şăŠŁăŠŚă¨šăŠă¨ś ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 /575 %1&' 01 /:575 %1&' 01 /575 %1&' 01 /575 %1&' 01 /575 %1&' 01 (8 %1&' 01 (8 %1&' 01 %1&' 01 41*5 %1&' 01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 %2 6;2' á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 )2: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)2: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť %1&'01 A-12 )4170&9+4' 㨝㨺ăŠâ˘ *':$1.6 ŕąâˇşăŠăŠ¨ăŠŁăŠ *':076 ŕąâˇşăŠă¨šăŠăŠă¨ˇ 524+0)9#5*'4 ăŠăŠ¨ăŠáłă ââŤŢŢâŹŕż 176.+0' %1&' 01 49 %1&' 01 /:575 %1&' 01 /575 %1&' 01 /575 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)2: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' ฏâŤŢŢâŹâ 0#/' %1..#4(14.+(6+0) (+:674' ŕ¸ŕŞâŞăŠăŠĄă¨ş .+(6+0)(+:674' ชŕ ŕ¨ßă๠ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' áłŕ¸Źă§âˇáŠ° &'5%4+26+105 (2 %1&'01 41*5 %1&'01 41*5 6;2' %1&'01 á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 )1: A-14 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)1: 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 37#.+6;+56*'5#/' áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšßŕ âŤŢ⏠âภ01 #%%'5514+'5 âภ01 +056#..#6+10/#6'4+#.5 )2: ŕŞáťŕş â´Ť %2 6;2' áżŕŠá§á˘ąâ´Ť %1&'01 A-13 ANTENNA INSTALLATION MATERIALS UNIT O U T L I N E  ďźçĽĺłăŽĺŻ¸ćłăŻăĺčĺ¤ă§ăă 03FT-X-9851 -0 008-254-590 SN5AF/7AF/30AF/36AF 008-505-950 ** SN30AF DESCRIPTION/CODE â 03FT-X-9851 DIMENSIONS IN DRAWING FOR REFERENCE ONLY.ďź 1.ä-ä˘äźâภá§á¨äą[**]ä˛äŽăŹáŻŕş äąŕŞâ´Ťáłáź/äää˘äźäâ´ŤääääŻ CODE NUMBER ENDED BY "**" INDICATES THE NUMBER OF TYPICAL MATERIAL. INSTALLATION MATERIALS 塼äşćć ケďžďžďž 塼ć ANTENNA ケďžďžďž çľĺ ăŚăăă N A M E SN30AF/SN36AF  Q'TY 1/1 A-15 5+.+%1047$$'4 ăŠăŠăŠă¨şăŠŁ *':$1.6 ŕąâˇşăŠăŠ¨ăŠŁăŠ 524+0)9#5*'4 ăŠăŠ¨ăŠáłă (.#69#5*'4 ăŠăŠăŠ¨ăŠááłă 14+0) 1㊢㊧ăŠăŠ¨ )7+&'2+0 ăŠăŠŠăŠ§ ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' áłŕ¸Źă§âˇáŠ° &'5%4+26+105 %1&'01 59㨝㊣ăŠăŠă¨ˇă¨şăŠăŠ¨) %1&'01 /:575 %1&'01 /575âŤŢ⏠%1&'01 /575 %1&'01 ,$#) %1&'01 41*5 50#(#(#(/5##(#( 008-254-590 á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 %3: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠%3: 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 37#.+6;+56*'5#/' áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšßŕ âŤŢ⏠âภ01 +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť 6;2' %1&'01 A-16 %#$.'$#0& ăŠă¨şăŠăŠ¨ăŠŁâŞăŠăŠ¨ăŠ§ăŠăŠ¨ %#$.'%100'%614 ăŠă¨şăŠăŠ¨ăŠŁâŞăŠăŠăŠăŠ 2.#56+%06#2' 㨝㊠ăŠ0ăŠă¨şăŠăŠŠ )#7)' ŕ´áżăŠăŠ¨ă¨şăŠăŠ¨ 87.%#0+<+0)6#2' ăŠăŠăŠă¨şăŠăŠŠ% ââŤŢŢâŹŕż 176.+0' %1&'01 *# %1&'01 &&*9( # %1&'01 //:/ %1&'01 %1&'01 ÂÂâŤŢâŹăŠăŠĽâŤŢŢŢ⏠áłŕ¸Źă§âˇáŠ° &'5%4+26+105 á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠$(: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠'2: 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 37#.+6;+56*'5#/' ฏâŤŢŢâŹâ 0#/' '2: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšßŕ âŤŢ⏠%1&'01 /:575 %1&'01 /:575 /:575 %1&'01 /:575 /575 %1&'01 /575 /575 %1&'01 /575 /575 /575 %1&'01 #42# %1&'01 âภ01 ญă˛ăŠă¨şăŠăŠ¨ăŠŁáżŕŠâŞ (14 4#âŤŢâŹ%1#:%#$.' +056#..#6+10 %2 6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4241&7%6 37#.+6;+56*'5#/' *':$1.6 5.166'&*'#& ŕąâˇşăŠăŠ¨ăŠŁăŠăŠăŠ˘ŕ´ŕŞ *':$1.6 5.166'&*'#& ŕąâˇşăŠăŠ˘ăŠŚăŠ˘ăŠăŠăŠ# 524+0)9#5*'4 ăŠăŠ¨ăŠáłă (.#69#5*'4 ăŠăŠăŠ¨ăŠááłă *':076 ŕąâˇşăŠă¨šăŠâŤŢâŹă§âł 14+0) 1㊢㊧ăŠăŠ¨ %172.'4 ááľŕ˝şâľŕş ฏâŤŢŢâŹâ 0#/' /#4+0'4#&'4 6;2' %1&'01 A-18 áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšßŕ âŤŢ⏠âภ01 +056#..#6+10/#6'4+#.5 âŞă ă§ŕŽťâ ¨ 4'/#4-5 +056#..#6+10/#6'4+#.5 á˘ă 3 6; $(: áżŕŠá§á˘ąâ´Ť áłŕ¸Źă§âˇáŠ° &'5%4+26+105 2# 6;2' áżŕŠá§á˘ąâ´Ť ââŤŢŢâŹŕż 176.+0' %1&'01 A-17 âภ01 %#$.'#55; ăŠă¨şăŠăŠ¨ăŠŁâľŕş %#$.'#55; ăŠă¨şăŠăŠ¨ăŠŁâľŕş ââŤŢŢâŹŕż 176.+0' á˘ă 3 6; )2: ăŹáŻâŤŢâŹ61$'5'.'%6'& ăŹáŻâŤŢâŹ61$'5'.'%6'& âŞă ă§ŕŽťâ ¨ 4'/#4-5 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° %1&'01 .*2:7 / %1&'01 .*2:7 / áłŕ¸Źă§âˇáŠ° &'5%4+26+105 )2: ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠ฏâŤŢŢâŹâ 0#/' +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť 6;2' %1&'01 A-19 0#/' 176.+0' +056#..#6+10/#6'4+#.5 70+6 )2: %2 4645 &'5%4+26+10%1&'Íł )2: ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠ăŞăŞ äăŞä˘äźâภá§á¨äąăŞ˛ăŞăŞăŞ´ä˛äŽăŹáŻŕş äąŕŞâ´ŤáłáźăŞäää˘äźäâ´ŤääääŻ ăŞăŞŚăŞăŞăŠˇăŞĽăŞŹăŞ¤ăŞăŞăŞŠăŠˇăŞăŞĽăŞăŞăŞăŠˇăŞăŞ°ăŠˇăŠšăŞăŞăŠšăŠˇăŞ ăŞĽăŞăŞ ăŞăŞăŞŤăŞăŞŞăŠˇăŞŤăŞăŞăŠˇăŞĽăŞŹăŞ¤ăŞăŞăŞŠăŠˇăŞŚăŞăŠˇăŞŤăŞ°ăŞ§ăŞ ăŞăŞăŞŁăŠˇăŞ¤ăŞăŞŤăŞăŞŠăŞ ăŞăŞŁăŞ +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ą áżŕŠá§á˘ą 64#05%'+8'470+6 ă ŕ¸ŕŹžăą ŕĄŕ žŕ śŕ ť 464 㧟ă§ă§Żă§ˇă§ľă§şă§łâŤŢâŹă§¸ă§ľă§żă¨ 3 6; A-20 %4+/210.7) ŕżśââľáś %4+/210.7) ŕżśââľáś 6'4/+0#.12'0'4 á ˛ŕŤăŠ¤ăŠăŠ¨ă¨ş 2+0 ŕŤâáłżßźŕĄŕĄŚ %㧠ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 (8 .( %1&' 01 (8 %1&' 01 %1&' 01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)2: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 %#$.' ăŠă¨şăŠăŠ¨ăŠŁ % %#$.' ăŠă¨şăŠăŠ¨ăŠŁ % %#$.' ăŠă¨şăŠăŠ¨ăŠŁ % %#$.' ăŠă¨şăŠăŠ¨ăŠŁ % ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' FAR-2117 series (#4 (%4 %1&' 01 49 / %1&' 01 49 / %1&' 01 49 / %1&' 01 49 / áłŕ¸Źă§âˇáŠ° &'5%4+26+105 %1&'01 6;2' á˘ă 3 6; ăŹáŻâŤŢâŹ61$'5'.'%6'& ାภăŠă¨şăŠăŠ¨ăŠŁâŤŢŢ⏠5+)0#.%#$.' ăŹáŻâŤŢâŹ61$'5'.'%6'& ାภăŠă¨şăŠăŠ¨ăŠŁâŤŢŢ⏠5+)0#.%#$.' ăŹáŻâŤŢâŹ61$'5'.'%6'& ାภăŠă¨şăŠăŠ¨ăŠŁâŤŢŢ⏠5+)0#.%#$.' ăŹáŻâŤŢâŹ61$'5'.'%6'& ାภăŠă¨şăŠăŠ¨ăŠŁâŤŢŢ⏠5+)0#.%#$.' âŞă ă§ŕŽťâ ¨ 4'/#4-5 ).: A-22 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠).: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 +056#..#6+10/#6'4+#.5 +056#..#6+10/#6'4+#.5 )2: áżŕŠá§á˘ąâ´Ť %2 6;2' áżŕŠá§á˘ąâ´Ť %1&'01 A-21 176.+0' 0#/' 176.+0' ).: ä¨âŕżäąá¸á´şä˛äŽŕˇłâ ¨ŕŻäŞääŻăŠˇăŠˇăŞăŞ ăŞ¤ăŞăŞĽăŞŞăŞ ăŞŚăŞĽăŞŞăŠˇăŞ ăŞĽăŠˇăŞăŞŠăŞăŞŽăŞ ăŞĽăŞăŠˇăŞăŞŚăŞŠăŠˇăŞŠăŞăŞăŞăŞŠăŞăŞĽăŞăŞăŠˇăŞŚăŞĽăŞŁăŞ°ăŞ äŠ )/: ä¨âŕżäąá¸á´şä˛äŽŕˇłâ ¨ŕŻäŞääŻăŠˇăŠˇăŞăŞ ăŞ¤ăŞăŞĽăŞŞăŞ ăŞŚăŞĽăŞŞăŠˇăŞ ăŞĽăŠˇăŞăŞŠăŞăŞŽăŞ ăŞĽăŞăŠˇăŞăŞŚăŞŠăŠˇăŞŠăŞăŞăŞăŞŠăŞăŞĽăŞăŞăŠˇăŞŚăŞĽăŞŁăŞ°ăŞ äŠ 3 6; 㪍㪎㪌㊡㪍㪰㪧ăŞăŞŞăŠˇăŞăŞĽăŞăŠˇăŞăŞŚăŞăŞăŞŞăŠˇăŞ¤ăŞăŞ°ăŠˇăŞăŞăŠˇăŞŁăŞ ăŞŞăŞŤăŞăŞăŠˇăŞăŞŚăŞŠăŠˇăŞăŞĽăŠˇăŞ ăŞŤăŞăŞ¤ăŞ ăŠˇăŠˇăŞŤăŞăŞăŠˇăŞŁăŞŚăŞŽăŞăŞŠăŠˇăŞ§ăŞŠăŞŚăŞăŞŹăŞăŞŤăŠˇăŞ¤ăŞăŞ°ăŠˇăŞăŞăŠˇăŞŞăŞăŞ ăŞ§ăŞ§ăŞăŞăŠˇăŞ ăŞĽăŠˇăŞ§ăŞŁăŞăŞăŞăŠˇăŞŚăŞăŠˇăŞŤăŞăŞăŠˇăŞŹăŞ§ăŞ§ăŞăŞŠăŠˇ 㪧㪊㪌ăŞăŞŹăŞăŞŤăŞ ăŠˇăŞ¨ăŞŹăŞăŞŁăŞ ăŞŤăŞ°ăŠˇăŞ ăŞŞăŠˇăŞŤăŞăŞăŠˇăŞŞăŞăޤăŞăŞ 15 +/ 1/ 1/ %2 %2 52 52 52 427 &'5%4+26+10%1&'Íł áłáźăŞäää˘äźâภää˛á˛äąáวäŽŕ¨ á˛ääŕ¨á˛äŽŕŞääăᡰጟຠäŞä ääŽäŹä¤äääŕąäŚäŠääääŻääääŽŕş âž°ä˛áääääääŻ &1%7/'06 +056#..#6+10/#6'4+#.5 52#4'2#465 70+6 㪍㪎㪌㊡㪍㪰㪧ăŞăŞŞăŠˇăŞăŞĽăŞăŠˇăŞăŞŚăŞăŞăŞŞăŠˇăŞ¤ăŞăŞ°ăŠˇăŞăŞăŠˇăŞŁăŞ ăŞŞăŞŤăŞăŞăŠˇăŞăŞŚăŞŠăŠˇăŞăŞĽăŠˇăŞ ăŞŤăŞăŞ¤ăŞ ăŠˇăŠˇăŞŤăŞăŞăŠˇăŞŁăŞŚăŞŽăŞăŞŠăŠˇăŞ§ăŞŠăŞŚăŞăŞŹăŞăŞŤăŠˇăŞ¤ăŞăŞ°ăŠˇăŞăŞăŠˇăŞŞăŞăŞ ăŞ§ăŞ§ăŞăŞăŠˇăŞ ăŞĽăŠˇăŞ§ăŞŁăŞăŞăŞăŠˇăŞŚăŞăŠˇăŞŤăŞăŞăŠˇăŞŹăŞ§ăŞ§ăŞăŞŠăŠˇ 㪧㪊㪌ăŞăŞŹăŞăŞŤăŞ ăŠˇăŞ¨ăŞŹăŞăŞŁăŞ ăŞŤăŞ°ăŠˇăŞ ăŞŞăŠˇăŞŤăŞăŞăŠˇăŞŞăŞăޤăŞăŞ 12'4#614 5)7+&' á ˛ŕŤâˇăጠ+056#..#6+10/#07#. âľŕŽťâˇăጠ12'4#614 5/#07#. ŕ¸áâşáŁżáŚ 12'4#614 5/#07#. ŕ¸áâşáŁżáŚ ŕżáŚ +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ą +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ą áżŕŠá§á˘ą 52#4'2#465 ŕŠŕŽťŕş 52#4'2#465 ŕŠŕŽťŕş 52#4'2#465 ŕŠŕŽťŕş ŕŠŕŽťŕş 241%'551470+6 ŕłáŽăą ŕĄŕ žŕ śŕ ť A-24 áłáźăŞäää˘äźâภää˛á˛äąáวäŽŕ¨ á˛ääŕ¨á˛äŽŕŞääăᡰጟຠäŞä ääŽäŹä¤äääŕąäŚäŠääääŻääääŽŕş âž°ä˛áääääääŻ &%⪠#%⪠3 6; ).: ăŞăŞ ä¨ăŞăŞäŠä¨ăŞăŞäŠä˛äŽä ääĄäŕŞá˝ăŹáŻŕş äâ´ŤääääŻ ä¨ăŞăŞäŠä¨ăŞăŞäŠăŞ ăŞĽăŞăŞ ăŞăŞăŞŤăŞăŠˇăŞŞăŞ§ăŞăŞăŞ ăŞăŞ ăŞăŞăŞŤăŞ ăŞŚăŞĽăŠˇăŞŞăŞăŞŁăŞăŞăŞŤăŞ ăŞăŞăŠˇăŞ ăŞŤăŞăŞ¤ăŞ ăŞăŞ ăŠżăŞăŞăŞăŠˇăŞăŞăŞŠăŞăŞăŞăŞăŞăŞăŞăŞăŞăŞăŞăŞŞŕŞá˝äąá¤¨äąäáˇŕŞäääääŻ ăŞŞăŞŹăŞ§ăŞ§ăŞŁăŞ°ăŞăŞăŠˇăŞŽăŞ ăŞŤăŞăŠˇăŞăŞăŞŠăŞăŞăŞăŞăŞăŞăŞăŞăŞăŞăŞăŞŞăŠˇăŞŚăŞĽăŞŁăŞ°ăŞ &8+&&5+0).'.+0-/ (2 52 52 /7%4 5 *-#4 &'5%4+26+10%1&'Íł 427 㧟ă§ă§Żă§ˇă§ľă§şă§łâŤŢâŹă§¸ă§ľă§żă¨ ăŞăŞ ŕŠŕŽťŕş ä˛äăŞăŞăŞăŞăŞäŞăŹáŻăżääääŻ ăŞăŞăŞŚăŞŚăŞŞăŞăŠˇăŞŞăŞ§ăŞăŞŠăŞăŠˇăާăŞăŞŠăŞŤăŞŞăŠˇăŞăŞăާăŞăŞĽăŞăŞ ăŞĽăŞăŠˇăŞŚăŞĽăŠˇăŞăŞăŠˇăŞŚăŞŠăŠˇăŞăŞăŠˇăŞ§ăŞŚăŞŽăŞăŞŠăŞ +056#..#6+10/#6'4+#.5 #%%'5514+'5 52#4'2#465 52#4'2#465 70+6 A-23 ăŞăŞ äăŞä˘äźâภá§á¨äąăŞ˛ăŞăŞăŞ´ä˛äŽăŹáŻŕş äąŕŞâ´Ťäää˘äźäâ´ŤääääŻ ăŞăŞŚăŞăŞăŠˇăŞĽăŞŹăŞ¤ăŞăŞăŞŠăŠˇăŞăŞĽăŞăŞ ăŞĽăŞăŠˇăŞŽăŞ ăŞŤăŞăŠˇăŠšăŞăŞăŠšăŠˇăŞ ăŞĽăŞăŞ ăŞăŞăŞŤăŞăŞŞăŠˇăŞŤăŞăŞăŠˇăŞăŞŚăŞăŞăŠˇăŞĽăŞŹăŞ¤ăŞăŞăŞŠăŠˇăŞŚăŞăŠˇăŞŠăŞăŞ§ăŞŠăŞăŞŞăŞăŞĽăŞŤăŞăŞŤăŞ ăŞăŞăŠˇăޤăŞăŞŤăŞăŞŠăŞ ăŞăŞŁăŞ 0#/' )/: ăŞăŞ äää˘äźá§á¨äŽăŞ˛ăŞăŞăŞ´äąŕŞää˘äłä¤ää˘ä˛ŕŞâ´ŤäąáłáźăŞäää˘äźäâ´ŤâääŠääääŻ ăŞăŞŚăŞŹăŞăŞŁăŞăŠˇăŞăŞŞăŞŤăŞăŞŠăŞ ăŞŞăŞ˘ăŠˇăŞăŞăŞĽăŞŚăŞŤăŞăŞŞăŠˇăŞăŞŚăŞ¤ăŞ¤ăŞŚăŞĽăŞŁăŞ°ăŠˇăŞŹăŞŞăŞăŞăŠˇăŞăŞ¨ăŞŹăŞ ăŞ§ăŞ¤ăŞăŞĽăŞŤăŞ %#$.'#55; ăŠă¨şăŠăŠ¨ăŠŁâľŕş áżŕŠá§á˘ą #%%'5514+'5 ŕŞáťŕş ŕŞáťŕş 52#4'2#465 ŕŠŕŽťŕş ŕŠŕŽťŕş 52#4'2#465 ŕŠŕŽťŕş ŕŠŕŽťŕş &+52.#;70+6 â´Ťâăą ŕĄŕ žŕ śŕ ť /7%4 㧟ă§ă§Żă§ˇă§ľă§şă§łâŤŢâŹă§¸ă§ľă§żă¨ %4+/210.7) ŕżśââľáś 6'4/+0#.12'0'4 á ˛ŕŤăŠ¤ăŠăŠ¨ă¨ş 6'4/+0#.12'0'4 á ˛ŕŤăŠ¤ăŠăŠ¨ă¨ş ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' (QT427#%UGV %1&' 01 (8 %1&' 01 %1&' 01 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 á˘ă 3 6; ŕłáŽăąâŞâŤŢŢŢŢŢ⏠âŤ(ŢâŹ14241%'5514 70+6 ŕłáŽăąâŞâŤŢŢŢŢŢ⏠âŤ(ŢâŹ14241%'5514 70+6 ŕłáŽăąâŞâŤŢŢŢŢŢ⏠âŤ(ŢâŹ14241%'5514 70+6 âŞă ă§ŕŽťâ ¨ 4'/#4-5 ).: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠).: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť %2 6;2' #%⪠%1&'01 A-25 %75*+10 ăŠăŠ˘ă¨ťăŠăŠ¨ăŠ§ăŠăŠŠăŠ§ 9#5*'4*'#&5&4'9 $ ăŠăŠăŠ¨ăŠăŠăŠ$ )41//'6 ăŠăŠ¨ăŠĽăŠă¨šăŠ -$(+:+0)/'6#. -$âĽŕŞă๠ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 6/ %1&' 01 /:%9/$0+ %1&' 01 ) %1&' 01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 (QT4%7&GUMVQROQWPVMKV (2 á˘ă 3 6; á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 âŞă ă§ŕŽťâ ¨ 4'/#4-5 ).: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠).: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 #%%'5514+'5 ŕŞáťŕş â´Ť 6;2' %1&'01 A-26 47$$'4(116 ăŠăŠ˘ă¨ťăŠăŠ¨ăŠ§ăŠăŠŠăŠ§ 9#5*'4*'#&5&4'9 $ ăŠăŠăŠ¨ăŠăŠăŠ$ )41//'6 ăŠăŠ¨ăŠĽăŠă¨šăŠ $.+0&5'#. ăŠăŠ¨ăŠĄă¨źăŠ§ăŠăŠ¨ăŠă¨şăŠŁ -';$1#4&(+:674' -$âĽŕŞăŕą 6 ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 6/ %1&' 01 /:%9/$0+ %1&' 01 ) %1&' 01 41*5 %1&' 01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 (QT4%7&GUMVQROQWPVMKV (2 6;2' á˘ă 3 6; á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 á ˛ŕŤăąâŞâŤŢŢŢ⏠âŤ(ŢâŹ14%10641.70+6 âŞă ă§ŕŽťâ ¨ 4'/#4-5 ).: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠).: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 #%%'5514+'5 ŕŞáťŕş â´Ť %1&'01 A-27 9+0)5%4'9 â˛ăŠăŠ¨ăŠŁăŠ *':076 ŕąâˇşăŠă¨šăŠâŤŢâŹă§âł 9#5*'4*'#&5&4'9 $ ăŠăŠăŠ¨ăŠăŠăŠ$ (.75*/1706+0)2.#6' ăŠăŠĄă¨šăŠă¨ˇăŠă¨˝ăŠ§ăŠă๠ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 /:575 %1&' 01 /575 %1&' 01 /:%9/$0+ %1&' 01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 (QT4%7(NWUJOQWPVMKV (2 á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 1RVKQP ).: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠).: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 #%%'5514+'5 ŕŞáťŕş â´Ť 6;2' %1&'01 A-28 ď˝˝ďžďžďž ACCESSORIES 1/1 A-29 ďžďžďžďžď˝¸ďž 100-305-370 03-163-2071-0 100-305-190 03-163-1113-0 100-305-140 03-163-1111-0 100-305-180 03-163-1112-0 000-147-143 CP-30-HP-13 000-570-276 KB-13ďžď˝ł 000-864-131 M10 SUS304 000-864-261 M10 SUS304 000-802-182 M10X30 SUS304 000-802-771 M6X25 SUS304 03GL-X-9859 (*2) (*1) DESCRIPTION/CODE â Q'TY FP03-09820/09830 DIMENSIONS IN DRAWING FOR REFERENCE ONLY.ďź O U T L I N E (QT/7%4%4&GUMVQROQWPVMKVâŤŢŢŢâŹ1RVKQP ďźçĽĺłăŽĺŻ¸ćłăŻăĺčĺ¤ă§ăă (*2)ä˛äŽFP03-09830âŞäŞääŻ *2:äFOR FP03-09830. (*1)ä˛äŽFP03-09820âŞäŞääŻ *1:äFOR FP03-09820. HANGER STAY ďžďžď˝śďžď˝°ď˝ťď˝ťď˝´(23) HANGER STAY ďžďžď˝śďžď˝°ď˝ťď˝ťď˝´(20) HANGER L ďžďžď˝śďžď˝°L(20) HANGER R ďžďžď˝śďžď˝°R(20) HOLE PLUG ďžď˝°ďžďžďžďžď˝¸ďž PLASTIC RIVET ď˝˝ďž ď˝Żďžďžďžďžďžďž FLAT WASHER ďžď˝śďžď˝ˇĺšłĺş§é SPRING WASHER ďžďžďžĺş§é HEX.BOLT ĺ č§ďžďžďžďž ď˝˝ďžďžďž HEX.BOLT (SLOTTED,WASHER HEAD) ĺ č§ď˝žďžď˝˝B äťĺąĺ N A M E FP03-09820/09830   03GL-X-9859 -0 9#8'9#5*'4 áľáłă 18#.*'#&5%4'9 ਣâáăŠăŠăŠ¨ 415'66'9#5*'4 ㊼㨺ăŠăŠ¨ă¨šăŠáłă *#0&.' ŕ¸áť ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' (QT/7%4/7%4 %1&' 01 99575 %1&' 01 /:%9ăŠăŠŠăŠ˘ăŠă¨şăŠŁ %1&' 01 /%9ăŠăŠŠăŠ˘ăŠă¨şăŠŁ /%9ăŠăŠŠăŠ˘ăŠă¨şăŠŁ %1&' 01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 (2 6;2' á˘ă 3 6; 1RVKQP âŞă ă§ŕŽťâ ¨ 4'/#4-5 ).: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠).: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 #%%'5514+'5 ŕŞáťŕş â´Ť %1&'01 A-30 16*'4+056#..#6+10/#6'4+#.5 +056#..#6+10/#6'4+#.5 70+6 176.+0' /,#52(% 2'26:$. 2'26:$. %2 %7 &'5%4+26+10%1&'Íł ä¨âŕżäąá¸á´şä˛äŽŕˇłâ ¨ŕŻäŞääŻăŠˇăŠˇăŞăŞ ăŞ¤ăŞăŞĽăŞŞăŞ ăŞŚăŞĽăŞŞăŠˇăŞ ăŞĽăŠˇăŞăŞŠăŞăŞŽăŞ ăŞĽăŞăŠˇăŞăŞŚăŞŠăŠˇăŞŠăŞăŞăŞăŞŠăŞăŞĽăŞăŞăŠˇăŞŚăŞĽăŞŁăŞ°ăŞ äŠ )1: 㪍㪎㪌㊡㪍㪰㪧ăŞăŞŞăŠˇăŞăŞĽăŞăŠˇăŞăŞŚăŞăŞăŞŞăŠˇăŞ¤ăŞăŞ°ăŠˇăŞăŞăŠˇăŞŁăŞ ăŞŞăŞŤăŞăŞăŠˇăŞăŞŚăŞŠăŠˇăŞăŞĽăŠˇăŞ ăŞŤăŞăŞ¤ăŞ ăŠˇăŠˇăŞŤăŞăŞăŠˇăŞŁăŞŚăŞŽăŞăŞŠăŠˇăŞ§ăŞŠăŞŚăŞăŞŹăŞăŞŤăŠˇăŞ¤ăŞăŞ°ăŠˇăŞăŞăŠˇăŞŞăŞăŞ ăŞ§ăŞ§ăŞăŞăŠˇăŞ ăŞĽăŠˇăŞ§ăŞŁăŞăŞăŞăŠˇăŞŚăŞăŠˇăŞŤăŞăŞăŠˇăŞŹăŞ§ăŞ§ăŞăŞŠăŠˇ 㪧㪊㪌ăŞăŞŹăŞăŞŤăŞ ăŠˇăŞ¨ăŞŹăŞăŞŁăŞ ăŞŤăŞ°ăŠˇăŞ ăŞŞăŠˇăŞŤăŞăŞăŠˇăŞŞăŞăޤăŞăŞ 3 6; A-31 )1: áłáźăŞäää˘äźâภää˛á˛äąáวäŽŕ¨ á˛ääŕ¨á˛äŽŕŞääăᡰጟຠäŞä ääŽäŹä¤äääŕąäŚäŠääääŻääääŽŕş âž°ä˛áääääääŻ %#$.'#55; ăŠă¨şăŠăŠ¨ăŠŁâľŕş /, %#$.'#55; ăŠă¨şăŠăŠ¨ăŠŁâľŕş ßߊŕŞáżá§ +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ą áżŕŠá§á˘ą /'/14;%#4&+06'4(#%' ăŠăŠăŠ˘ă¨şăŠă¨şăŠăŠ¨ă¨źăŠ§ăŠă¨şăŠă¨´ă¨źăŠ ŕĄŕ žŕ śŕ ť 0#/' %7(#4 㧟ă§ă§Żă§ˇă§ľă§şă§łâŤŢâŹă§¸ă§ľă§żă¨ .#$'.#66#%*+0) 241%'&74' ⼽ăăŠă¨şăŠâžŕŞâˇă 6*4'#&'&41& á¸ŕ˛žăŠăŠ¨ăŠŁăŠ *':076 ŕąâˇşăŠă¨šăŠăŠă¨ˇ (.#69#5*'4 ăŠăŠăŠ¨ăŠŕ¨Łááłă 524+0)9#5*'4 ăŠăŠ¨ăŠáłă 56''4+0)9*''..#$'. ⼽ăâžŕ ăŠă¨şăŠ $5* ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 % ㊌㨞㨟 %1&' 01 /:575 %1&' 01 /575 %1&' 01 /575 %1&' 01 /575 %1&' 01 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 %2 6;2' á˘ă 3 6; âŞă ă§ŕŽťâ ¨ 4'/#4-5 )1: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)1: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť %1&'01 A-32 9#5*'4*'#&5%4'9 ăŠăŠăŠ¨ăŠăŠăŠ# 5'.(6#22+0)5%4'9 ăŠăŠĄăŠăŠă¨šăŠăŠŠăŠ§ăŠăŠăŠ¨âŤŢâŹăŠă¨ˇ /1706+0)$4#%-'6 ăŠăŠ§ăŠăŠ¨ă¨ş ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 /:%9/$0+ %1&' 01 :575 %1&' 01 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 For CU-200 Desktop mount kit á˘ă 3 6; (2 6;2' âŞă ă§ŕŽťâ ¨ 4'/#4-5 Option )1: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)1: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 #%%'5514+'5 ŕŞáťŕş â´Ť %1&'01 A-33 9#5*'4*'#&5%4'9 ăŠăŠăŠ¨ăŠăŠăŠ# *':076 ŕąâˇşăŠă¨šăŠăŠă¨ˇ (.#69#5*'4 ăŠăŠăŠ¨ăŠŕ¨Łááłă 524+0)9#5*'4 ăŠăŠ¨ăŠáłă )41//'6 ăŠăŠ¨ăŠĽăŠă¨šăŠ /1706+0)$4#%-'6 ăŠăŠ§ăŠă¨şăŠŁăŠ 㨽ŕ¸ŕŞá§ ฏâŤŢŢâŹâ 0#/' ââŤŢŢâŹŕż 176.+0' %1&' 01 /:%9/$0+ %1&' 01 /575 %1&' 01 /575 %1&' 01 /575 %1&' 01 %0)37. %1&' 01 41*5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 (2 á˘ă 3 6; A-34 âŞă ă§ŕŽťâ ¨ 4'/#4-5 )1: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠)1: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' âภ01 #%%'5514+'5 ŕŞáťŕş â´Ť 6;2' %1&'01 %172.+0)2.#6'#55; ă Şâżŕ¸ âľŕş 9#5*'4*'#&5&4'9 $ ăŠăŠăŠ¨ăŠăŠăŠ$ 0#/' ŕŠŕŽťŕş 176.+0' ).: )% &'5%4+26+10%1&'Íł 3 6; 52#4'2#465 ŕŠŕŽťŕş 52 52#4'2#465 16*'42#465 )%ăŠăŠăŠ¨ă¨şâľŕş /:%9/$0+ ).: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° 3 6; /:%9/$0+ 9#5*'4*'#&5%4'9 ăŠăŠăŠăŠ 2 2 (74 %100'%614 ăŠăŠăŠăŠ 0*%100'%614#55; 8*ăŠăŠăŠăŠ &'5%4+26+10%1&'Íł )%%18'4#55; 0*ăŠăŠăŠăŠ 176.+0' 9#5*'4*'#&5%4'9 ăŠăŠăŠ¨ăŠăŠăŠ# ßߊŕŞăąŕş 0#/' ăŠăŠăŠ¨ăŠăŠăŠ$ ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪáŕ ŕ ßšß ŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*'722'4 241&7%637#.+6;+56*'5#/' %1&' 01 12 %1&' 01 /:%9/$0+ âŞă ă§ŕŽťâ ¨ 4'/#4-5 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 ââŤŢŢâŹŕż 176.+0' ฏâŤŢŢâŹâ 0#/' âภ01 Coupling pedestal kit RCU-014 + MU-231CR +056#..#6+10/#6'4+#.5 12 6;2' áżŕŠá§á˘ąâ´Ť %1&'01 á˘ă 3 6; Option ).: A-36 A-35 㧟ă§ă§Żă§ˇă§ľă§şă§łâŤŢâŹă§¸ă§ľă§żă¨ (74 %100'%614 8*%100'%614#55; 8*ăŠăŠăŠăŠ 2 8*%100'%614#55; :*2*ăŠăŠăŠăŠ 2 :*2*%100'%614#55; ášśâăŠăŠŠăŠ˘ăŠ§ăŠ 2# .( 241%'5514$1#4& ăŠăŠăŠ¨ăŠăŠăŠ$ /:%9/$0+ 9#5*'4*'#&5%4'9 $ áłáźä乤äąäąŽä˛âภäŹäŻžá˛äŹ˝áว䍺ਠá˛ääŕ¨á˛äŹşŕŞääăᡰጟຠ䏜äŹä䍺䏸䏰ääŹäŹŕąäŹ˛äŹľäŹä䏨䍝䍚䏚äŹäŤşŕş ➰䏞áäää䏪ä˘äŤť 䯴âŕżäŹ˝á¸á´şäŹžäŤşŕˇłâ ¨ŕŻäŹśäŹ¨äŤťää§äŹä°ä¨äąäśäŹä˛äąäśääŹäąää§äľä¤äşäŹäąäŞääŠä˛äľääľä¨äŠä¨äľä¨äąäŚä¨ää˛äąäŻäźä䯾 äˇäşä˛ääˇäźäłä¨äśää¤äąä§ääŚä˛ä§ä¨äśää°ä¤äźääĽä¨ääŻäŹäśäˇä¨ä§ääŠä˛äľää¤äąääŹäˇä¨ä°ääääˇäŤä¨ääŻä˛äşä¨äľääłäľä˛ä§ä¸äŚäˇää°ä¤äźääĽä¨ääśäŤäŹäłäłä¨ä§ääŹäąääłäŻä¤äŚä¨ää˛äŠääˇäŤä¨ä ä¸äłäłä¨äľääłäľä˛ä§ä¸äŚäˇäää´ä¸ä¤äŻäŹäˇäźääŹäśääˇäŤä¨ääśä¤ä°ä¨ä ).: 16*'42#465 Option /%9/$0+ 53 53 &8+&&5.+0-/ 2 2 2 2$ 5.$(40# /:%9/$0+ &'5%4+26+10%1&'Íł DVI-RGB conversion kit 176.+0' ).: 3 6; A-37 ä¨âŕżäąá¸á´şä˛äŽŕˇłâ ¨ŕŻäŞääŻăŠˇăŠˇăŞăŞ ăŞ¤ăŞăŞĽăŞŞăŞ ăŞŚăŞĽăŞŞăŠˇăŞ ăŞĽăŠˇăŞăŞŠăŞăŞŽăŞ ăŞĽăŞăŠˇăŞăŞŚăŞŠăŠˇăŞŠăŞăŞăŞăŞŠăŞăŞĽăŞăŞăŠˇăŞŚăŞĽăŞŁăŞ°ăŞ äŠ ).: 㪍㪎㪌㊡㪍㪰㪧ăŞăŞŞăŠˇăŞăŞĽăŞăŠˇăŞăŞŚăŞăŞăŞŞăŠˇăŞ¤ăŞăŞ°ăŠˇăŞăŞăŠˇăŞŁăŞ ăŞŞăŞŤăŞăŞăŠˇăŞăŞŚăŞŠăŠˇăŞăŞĽăŠˇăŞ ăŞŤăŞăŞ¤ăŞ ăŠˇăŠˇăŞŤăŞăŞăŠˇăŞŁăŞŚăŞŽăŞăŞŠăŠˇăŞ§ăŞŠăŞŚăŞăŞŹăŞăŞŤăŠˇăŞ¤ăŞăŞ°ăŠˇăŞăŞăŠˇăŞŞăŞăŞ ăŞ§ăŞ§ăŞăŞăŠˇăŞ ăŞĽăŠˇăŞ§ăŞŁăŞăŞăŞăŠˇăŞŚăŞăŠˇăŞŤăŞăŞăŠˇăŞŹăŞ§ăŞ§ăŞăŞŠăŠˇ 㪧㪊㪌ăŞăŞŹăŞăŞŤăŞ ăŠˇăŞ¨ăŞŹăŞăŞŁăŞ ăŞŤăŞ°ăŠˇăŞ ăŞŞăŠˇăŞŤăŞăŞăŠˇăŞŞăŞăޤăŞăŞ áłáźăŞäää˘äźâภää˛á˛äąáวäŽŕ¨ á˛ääŕ¨á˛äŽŕŞääăᡰጟຠäŞä ääŽäŹä¤äääŕąäŚäŠääääŻääääŽŕş âž°ä˛áääääääŻ 524+0)9#5*'4 ăŠăŠ¨ăŠăŠ ㊨ăŠăŠ¨ăŠ 52#%'4 ăŠăŠăŠŠă¨şăŠ 㨺 %#$.'#55; ăŠă¨şăŠăŠ¨ăŠŁâľŕş :*%100'%614#55; :*ăŠăŠăŠăŠâľŕş :*%100'%614#55; :*ăŠăŠăŠăŠâľŕş 8*%100'%614#55; 8*ăŠăŠăŠăŠâľŕş 4)$$7(($1#4& 4)$$7((ăŠăŠŠăŠ˘ăŠ§ăŠ &8+4)$#55; &8+4)$âľŕş 9#5*'4*'#&5%4'9 ăŠăŠăŠ¨ăŠăŠăŠăŠăŠăŠ¨$ 0#/' ßߊŕŞăąŕş 12 㧟ă§ă§Żă§ˇă§ľă§şă§łâŤŢâŹă§¸ă§ľă§żă¨ âภ01 ââŤŢŢâŹŕż 176.+0' á˘ă 3 6; ).: âŞă ă§ŕŽťâ ¨ 4'/#4-5 Option ).: 㧲ă¨ă§žă¨ă§şă§ťâŤŢâŹă§ąă§¸ă§ąă§Żă¨ă§žă§ľă§ŻâŤŢâŹă§Żă§ťâŤŢâŹă§ă§ă§¸ă¨ă§° %1&'01 áłŕ¸Źă§âˇáŠ° &'5%4+26+105 /25% For LAN cable kit %2 6;2' ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)(144'('4'0%'10.;㧠/1&7.#4%100%614 ăŠăŠăŠăŠ ăŠăŠăŠ¨ă¨ˇăŠĄă¨ş ฏâŤŢŢâŹâ 0#/' +056#..#6+10/#6'4+#.5 áżŕŠá§á˘ąâ´Ť %1&'01 A-38 ăŠă¨ˇă¨şăŠăŠ¨ (75' ()/$#8 ()/$8# 2$( &9)01 14 6;2'01 2'4 8'5 â´ŤâăąâŞ (14&+52.#;70+6 ()$18 #2$( (74701'.'%64+%%1.6& 176.+0' &9)01 14 6;2'01 2'4 8'5 &9)01 2'4 5'6 52#4' 5'652'4 8'55'. #%âŞâŤŢŢŢŢŢŢŢŢ⏠(14241%'551470+6 4'/#4-5%1&'01 ).: 37#06+6; 914-+0) RPU-013 100 VAC set 75' áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪ áŕ ŕ ßšßŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*' 722'4241&7%637#.+6;+56*'5#/' /(4 50#/' (75' ăŠă¨ˇă¨şăŠăŠ¨ 0#/'1( 2#46 52#4'2#465.+56(14 ).: $1:012 ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)âŤ(ŢâŹ144'('4'0%'10.;㧠+6'/ 01 5*+201 52 áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪ áŕ ŕ ßšßŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*' 722'4241&7%637#.+6;+56*'5#/' ).: 52#4' 4'/#4-5%1&'01 5'652'4 8'55'. 6;2' %1&'01 A-40 ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)âŤ(ŢâŹ144'('4'0%'10.;㧠&9)01 2'4 5'6 914-+0) 37#06+6; 75' 52 6;2' MU-231CR (74701'.'%64+%%1.6& 176.+0' 52#4'2#465.+56(14 0#/'1( 2#46 /(4 50#/' +6'/ 01 5*+201 ).: $1:012 %1&'01 A-39 (75' ăŠă¨ˇă¨şăŠăŠ¨ ()$18# 2$( &9)01 14 6;2'01 2'4 8'5 ).: 5'652'4 8'55'. $1:012 (14241%'551470+6 áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪá ŕ ŕ ßšßŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*' 722'4241&7%637#.+6;+56*'5#/' #%âŞâŤŢŢŢŢŢŢŢŢ⏠4'/#4-5%1&'01 ).: 52#4' ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)âŤ(ŢâŹ144'('4'0%'10.;㧠&9)01 2'4 5'6 914-+0) 37#06+6; 75' 52 6;2' RPU-013 220 VAC set (74701'.'%64+%%1.6& 176.+0' 52#4'2#465.+56(14 0#/'1( 2#46 /(4 50#/' +6'/ 01 5*+201 %1&'01 A-41 CARBON BRUSH |ーďžďžďžďžďžďžď˝ź ELECTRIC ďźçĽĺłăŽĺŻ¸ćłăŻăĺčĺ¤ă§ăă FURUNO OUTLINE SPARE PARTS LIST FOR NAME OF PART MFR'S NAME ITEM NO. SHIP NO. 000-631-716 FOR REFERENCE ONLY.ďź DWG NO. PER VES SETS PER VESSEL 03FS-X-9301 -4 1/1 BOX NO. 1/1 REMARKS/CODE NO. 03FS-X-9301 QUANTITY WORKING PER SET DIMENSIONS IN DRAWING CO.,LTD. MG120-5X6X11 D8G DWG. NO. OR TYPE NO. SPARE SP03-12501 008-485-360 Antenna unit motor TYPE CODE NO. A-42 (75' ăŠă¨ˇă¨şăŠăŠ¨ ()/$#8 ()/$8# 2$( &9)01 14 6;2'01 2'4 8'5 ).: áłáźăŠă¨şăŠăŠ¨âภßă§á˛ßŠáวâŤŢâŹŕ¨ á˛ŕ ŕ ŕ¨á˛ßŚŕŞŕ ŕ ăᡰጟຠߢ޽ŕ âŤŢß ßĽŢŢßߚ޿ߥßŕąßßŕ ßߤŢâŹŕş ➰ߪá ŕ ŕ ßšßŕ âŤŢ⏠6916;2'5#0&%1&'5/#;$'.+56'&(14#0+6'/6*'.19'4241&7%6/#;$'5*+22'&+02.#%'1(6*' 722'4241&7%637#.+6;+56*'5#/' 5'652'4 8'55'. $1:012 4'/#4-5%1&'01 ).: 52#4' ă§âŕżßŠá¸á´şßŞâŤŢâŹŕˇłâ ¨ŕŻß˘ßâŤ&ŢŢâŹ+/'05+105+0&4#9+0)âŤ(ŢâŹ144'('4'0%'10.;㧠&9)01 2'4 5'6 914-+0) 37#06+6; 75' 52 6;2' GC-10 (74701'.'%64+%%1.6& 176.+0' 52#4'2#465.+56(14 0#/'1( 2#46 /(4 50#/' +6'/ 01 5*+201 %1&'01 A-43 D-1 Oct.31'06T.Matsuguchi D-2 Jan.24'07 R.Esumi D-3 Y. Hatai D-4 D-5 May 17'07 R.Esumi Y. Hatai Takahashi T. D-6 Y. Hatai Takahashi T. D-7 Jan.18'08 R.Esumi D-8 Apr.23'07 R.Esumi D-9 Apr.23'07 R.Esumi D-10 Apr.23'07 R.Esumi D-11 Apr.23'07 R.Esumi D-12 Apr.23'07 R.Esumi D-13 D-14 D-15 D-16 Y. Hatai D-17 Y. Hatai D-18 Y. Hatai D-19 Y. Hatai D-20 Apr.05'04 D-21 D-22 D-23 äżčˇă˘ăźăš PE *1 *5 IV-8sq. ćł¨č¨ *1: é čšććé *2: ăŞăăˇă§ăł *3: ćéˇ 100m (ĺťśéˇăăă¨ăăŻćĽçśçŽąRJB-001ăĺż čŚ )ă *4: čšĺ é éťç¤ă§ăŻ3AăŽăăŹăźăŤă使ç¨ă *5: äżčˇă˘ăźăšç¨ăąăźăăŤăŻçˇďźéťăŽçľśç¸çˇă使ç¨ăŽăă¨ă *6: ăăˇă˘ĺć¤äťć§ăŽăżă *7: ăăŹăźăăŚăăăăŽćĽçśăŻăăăăăé¸ćă PE *1 *5 äżčˇă˘ăźăš IV-8sq. BNCコďžď˝¸ďžď˝şďžďžďžď˝°ďž BNC CONNECTOR CONVERTER *2 DSUB-BNC-1 ăăŠăłăš TRANSFORMER RU-1803 *2 éťćşĺśĺžĄé¨ POWER SUPPLY UNIT *6 PSU-011 äżčˇă˘ăźăš PE *1 *5 IV-8sq. NOTES *1: SHIPYARD SUPPLY *2: OPTION *3: MAX. 100m. (JUNCTION BOX RJB-001 IS REQUIRED FOR EXTENSION.) *4: USE 3A BREAKER IN SHIP'S MAINS SWITCH BOX. *5: USE GRN/YEL WIRE FOR PROTECTIVE EARTH. *6: FOR RUSSIAN FLAG VESSELS ONLY. *7: SELECT 1 OR 2 FOR CONNECTION OF BREAK UNIT. äżčˇă˘ăźăš PE *1 *5 IV-8sq. APPROVED SCALE DWG.No. TXP TXN RXP NC NC RXN NC NC AC AC GND čĄ¨ç¤şé¨ MONITOR UNIT MU-231CR J302 TXP TXN RXP NC NC RXN NC NC DRAWN CHECKED 25/Sep/08 25/Sep/08 é˛ć°´ĺ|ーďžďžď˝˛ďžďžď˝°ďžď˝Şď˝˛ď˝˝ MEMORY CARD I/F UNIT CU-200 C3527-C01- M REF.No. WHT/GRN GRN WHT/ORG BLU WHT/BLU ORG WHT/BRN BRN NR203PF-VVS1.25 3.5m, Ď8.6 ăˇă/ďžďžďžďž ăă㪠ăˇă/ă㤠ă˘ăŞ ăˇă/ă˘ăŞ ă㤠ăˇă/ă㣠ă㣠*2 スイッďžďžď˝¸ďž ďžďžďž *2 SWITCHING HUB HUB-100 (8 PORTS) *1 IV-1.25sq. äżčˇă˘ăźăš PE IV-1.25sq. *1 *5 T.YAMASAKI T.TAKENO MASS kg 03-163-6003-3 J1 *1 DPYC-1.5 100-230VAC 1Ď,50/60Hz *1 LAN CABLE(CAT5) OR FR-FTPC-CY,10/20/30m,Ď13 P5E-4PTX-BL,10m,Ď6.3 MJ-A3SPF0015-100C,10m,Ď6 24 BRC LAN J662 1 MOTOR_DO 2 MOTOR_C 03P9485 TYPE ĺ 称 8/Oct/08 R.Esumi NAME 10 J652 10 J611 AIS_TD-A 1 AIS_TD-B 2 AIS_RD-A 3 AIS_RD-B 4 AIS_GND 5 J618(NH) GND 1 OP_HD_2 2 GND 3 OP_BP_2 4 GND 5 OP_TRIG_2 6 GND 7 OP_VIDEO_2 8 J617(NH) GND 1 OP_HD_1 2 GND 3 OP_BP_1 4 GND 5 OP_TRIG_1 6 GND 7 OP_VIDEO_1 8 J616(NH) GND 1 OP_HD_IN 2 GND 3 OP_BP_IN 4 GND 5 OP_TRIG_IN 6 GND 7 OP_VIDEO_IN 8 J612 ALARM1_0 1 ALARM1_1 2 ALARM2_0 3 ALARM2_1 4 ALARM3_0 5 ALARM3_1 6 OPERATOR_FITNESS_0 7 OPERATOR_FITNESS_1 8 EXT_ALM_ACK_N 9 GND 10 SYS_FAIL-H 11 SYS_FAIL-C 12 J614 1 +12V 2 GND J619 ARPA-A 1 ARPA-B 2 NC 3 RW-4864,Ď9.5 RW-4864,Ď9.5 SUB DISPLAY2 (SEMI-LOG) SUB DISPLAY1 (FULL-LOG) MASTER RADAR ALARM SYSTEM (IEC-61162-2) AIS (IEC-61162-1) TRACK_CONTROL (IEC-61162-1) ECDIS (IEC-61162-1) SPEED LOG (IEC-61162-1) NAVIGATOR (IEC-61162-2) HDG SENSOR RW-4864,Ď9.5 *1 TTYCS-7 *1 TTYCS-4 *1 TTYCS-4 *1 TTYCS-1 *1 TTYCS-1 *1 TTYCS-1 *1 TTYCS-1Q PC J501 KEY_TXD-B KEY_TXD-A KEY_RXD-B KEY_RXD-A PWR_SW GND +12V GND NC NC J1 *1 DPYC-1.5 J105 TXP TXN RXP NC NC RXN NC NC NETWORK SAME AS AVOBE J607 LOG-A 1 LOG-B 2 NC 3 J606 NAV-A 1 NAV-B 2 NC 3 J620 TRK_TD-A 1 TRK_TD-B 2 TRK_RD-A 3 TRK_RD-B 4 GND 5 J605 HDG-A 1 HDG-B 2 HDG_GND 3 RS-232C CABLE *1 10 MPS588-C MPS588-C ăˇă WHT ăŻă BLK MJ-A3SPF DVI-D/D SINGLELINK 5M/10M 5/10m,Ď7 J1 +12V 1 GND 2 FG 3 RGBďžďžďžďžď˝ľď˝şďžďžďžď˝°ďž RGB VIDEO CONVERTER DVI-RGB-1 *2 ĺśĺžĄé¨ PROCESSOR UNIT RPU-013 DVI-D MONITOR J205 J601 NC RXD TXD NC GND NC NC NC NC RS-232C *2 DVI CABLE J622 SYS_ACK-H SYS_ACK-C 10 ĺ¤é¨ă˘ăăżăź EXT. MONITOR 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 J615 +12V GND +5V GND -12V J502/J522 KEY_TXD-B KEY_TXD-A KEY_RXD-B KEY_RXD-A PWR_SW GND +12V GND NC NC XH10P-W-5P-A 1.5/10/20/30m,Ď9 TB803 1 +12V 2 HD 3 BP 4 -12V 5 PM-TRIG 6 PM-LEVEL 7 PM-ENABL 8 GND 9 GND 10 NC 11 NC TB801 5 MOTOR-H 6 MOTOR-H 7 MOTOR-C 8 MOTOR-C *1 100-230VAC DPYC-2.5 1Ď,50-60Hz 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 J501/J521 1 KEY_TXD-B 2 KEY_TXD-A 3 KEY_RXD-B 4 KEY_RXD-A 5 PWR_SW 6 GND 7 +12V 8 GND 9 SYS_FAIL-H 10 SYS_FAIL-C J507/J527 1 SYS_FAIL-H 2 SYS_FAIL-C 3 SYS_ACK-H 4 SYS_ACK-C ćä˝é¨ CONTROL UNIT RCU-014/015 DVI-D MONITOR J204 DVI0TX2_N DVI0TX2_P A_GND NC NC NC NC NC DVI0TX1_N DVI0TX1_P A_GND NC NC VCC GND NC DVI0TXD_N DVI0TXD_P A_GND NC NC A_GND DVI0TXC_P DVI0TXC_N BRN RED ORG YEL GRN J602 KEY_TXD-B 1 KEY_TXD-A 2 KEY_RXD-B 3 KEY_RXD-A 4 PWR_SW 5 GND 6 +12V 7 GND 8 SYS_FAIL-H 9 SYS_FAIL-C 10 ĺč¨ďź31.5mäťĽä¸ TOTAL: UP TO 31.5m XH10P-W-6P 2.3/10/20/30m,Ď9 MPYCY-19 MAX.30m *1 *2 TMDS_DATA2(-) TMDS_DATA2(+) TMDS_DATA2/4_SHIELD TB1 NC 1 H NC 2 C DDC_CLOCK DDC_DATA NC TMDS_DATA(-) TMDS_DATA(+) TMDS_DATA1/3_SHIELD NC NC +5V_POWER GND HOT_PLUG_DETECT TMDS_DATAB(-) TMDS_DATAB(+) TMDS_DATA0/5_SHIELD NC NC TMDS_CLOCK_SHIELD TMDS_CLOCK(+) TMDS_CLOCK(-) J3 J3 VCC GND -5/-12V ă㣠ă˘ăŤ ă㤠ă ďžďžďžďž 23 24 ORG[B] YEL[B] BLU[B] GRY[B] PPL[B] WHT[B] RED GRN BLK WHT GRN[B] RED[B] ăă¤(太) ă(太) ă˘ăŞ(太) ăă¤(太) ďžďžď˝ťď˝ˇ(太) ăˇă(太) ă˘ăŤ ďžďžďžďž ăŻă ăˇă ďžďžďžďž(太) ă˘ăŤ(太) TB801 TB803 1 TX_HV +12V 1 2 NC HD 2 3 24V_PLUS BP 3 4 24V_MINUS -12V 4 5 MOTOR(+) PM-TRIG 5 6 MOTOR(+) PM-LEVEL 6 7 MOTOR(-) PM-ENABL 7 8 MOTOR(-) GND 8 9 SPU_RF_D-A GND 9 10 SPU_RF_D-B NC 10 11 RF_SPU_D-A TX-STC 11 12 RF_SPU_D-B TB804 13 SG MOTOR-H 1 14 GND NC 2 MOTOR-C 3 TB802 IF_VIDEO GND TB901 1 100VAC-H 2 100VAC-C 3 NC ćä˝é¨ CONTROL UNIT RCU-016 1 H H 5 2 C C 6 J3 J4 +12V +12V GND GND NC NC TB1 1 H 2 C RGB ďžďžď˝Żďžď˝§ ĺşćż RGB BUFFER PCB 03P9229A *1 DPYC-2.5 J9 GND GND GND HS GND VS GND TB BOARD 03P9342 100-120/ 200-230VAC 1Ď,50-60Hz 10 DVI-RGBĺ¤ćĺşćż DVI-RGB CONVERSION BOARD SLB-FRN4-A *1 440VAC DPYC-1.5 1Ď,50-60Hz J1 R_VIDEO 1 GND 2 G_VIDEO 3 GND 4 B_VIDEO 5 GND 6 H_SYNC 7 GND 8 V_SYNC 9 GND 10 VCC 11 GND 12 -5/-12V 13 03-2091(5P) ă㣠BRN ă˘ăŤ RED ă㤠ORG ă YEL BRN ă㣠RW-9600 *3 15/30/40/50m,Ď22 *1 IV-8sq. VDR J2 R_VIDEO G_VIDEO B_VIDEO NC NC GND GND GND NC GND GND NC H_SYNC Y_SYNC NC J613 J603(XH) GC_LED TX_HV 1 GC_HOLD NC 2 GC_UP J610 24V_PLUS 1 GC_DOWN GC_0V 24V_MINUS 2 MOTOR(+) 3 GC_5V MOTOR(+) 4 J608 AD_DATA-H MOTOR(-) 5 AD_DATA-C MOTOR(-) 6 AD_CLK-H SPU_RF_D-A 7 AD_CLK-C SPU_RF_D-B 8 RF_SPU_D-A 9 RF_SPU_D-B 10 SG 11 GND 12 J609 IF_VIDEO GND éĺäżĄé¨ TRANSCEIVER UNIT RTR-081A *1 COAX.(75Ί)ď˝5 10 11 12 13 14 15 J7(NH) DATA1-H DATA1-C SHIFT1-H SHIFT1-C FG GYRO CONVERTER BOARD 64P1106A *2 RGB EXT. MONITOR VGA CABLE *1 *1 TTYCS-4 BRN RED ORG YEL GRN BLU PPL 03-2089(5P) J5(VH) GYRO_R2 GYRO_R1 NC J4(VH) GYRO_S1 GYRO_S2 GYRO_S3 GYRO_T GYRO_FG 03-2088(6-14P) 1 IV-3.5sq. äżčˇď˝ąď˝°ď˝˝ PE *1 *5 犺ä¸çˇé¨ ANTENNA UNIT RSB-103 A-D CONVERTER GYROCOMPASS J602 ă㣠ă˘ăŤ ă㤠ă ďžďžďžďž ă˘ăŞ ďžďžď˝ťď˝ˇ 10 11 12 13 14 RW-4747 *1 MPYC-7 03-2090(3P) J1 FR-9-20/30/50 20/30/50m *1 110/115/ *2 220/230VAC, DPYC-1.5 RU-3305 1Ď,50-60Hz DPYCY-1.5 *1 100VAC,1Ď, 50-60Hz ć°ˇçľé˛ć˘ç¨ FOR DE-ICER *4 S-1 ăăăŠăźăăłăšă˘ăăżăź PERFORMANCE MONITOR PM-31 ăăŹăźăăŚăăă BREAK UNIT *2 BRU-001/002 ăăŹăźăăŚăăăćĽçśďźďźďź CONNECTION FOR BREAK UNIT (2) *7 03P9339 PWR PCB ăăŹăźăăŚăăă BREAK UNIT *2 BRU-001/002 ăăŹăźăăŚăăăćĽçśďźďźďź CONNECTION FOR BREAK UNIT (1) *7 FAR-2827W čščśç¨ăŹăźăăź/ARPA ç¸äşçľçˇĺł MARINE RADAR/ARPA INTERCONNECTION DIAGRAM BNCコďžď˝¸ďžď˝şďžďžďžď˝°ďž BNC CONNECTOR CONVERTER *2 DSUB-BNC-1 1 H 2 C H 5 C 6 äżčˇă˘ăźăš PE *1 *5 IV-8sq. ăăŠăłăš TRANSFORMER RU-1803 *2 *7 éťćşĺśĺžĄé¨ POWER SUPPLY UNIT PSU-011 äżčˇă˘ăźăš PE IV-8sq. äżčˇă˘ăźăš PE *1 *5 IV-8sq. ćł¨č¨ *1 : *2 : *3 : *4 : *5 : *6 : *7 : DRAWN Jan. 26, '07 CHECKED APPROVED SCALE DWG.No. TXP TXN RXP NC NC RXN NC NC AC AC GND čĄ¨ç¤şé¨ MONITOR UNIT MU-231CR é˛ć°´ĺ|ーďžďžď˝˛ďžďžď˝°ďžď˝Şď˝˛ď˝˝ MEMORY CARD I/F UNIT CU-200 E.MIYOSHI TAKAHASHI.T MASS kg C3528-C01- M *2 é čšććé ăŞăăˇă§ăł ćéˇ 100m (ĺťśéˇăăă¨ăăŻćĽçśçŽąRJB-001ăĺż čŚ )ă čšĺ é éťç¤ă§ăŻ3AăŽăăŹăźăŤă使ç¨ă äżčˇă˘ăźăšç¨ăąăźăăŤăŻçˇďźéťăŽçľśç¸çˇă使ç¨ăŽăă¨ă 交ćľăŻä¸ĄćĽľĺăăăŹăźăŤďźé čšććé ďźăçľçąăăăă¨ă ăăˇă˘ĺć¤äťć§ăŽăżă ăˇă/ďžďžďžďž ăă㪠ăˇă/ă㤠ă˘ăŞ ăˇă/ă˘ăŞ ă㤠ăˇă/ă㣠ă㣠WHT/GRN GRN WHT/ORG BLU WHT/BLU ORG WHT/BRN BRN NR203PF-VVS1.25 3.5m, Ď8.6 MPS588-C 100-230VAC 1Ď,50/60Hz *1 LAN CABLE(CAT5) OR FR-FTPC-CY,10/20/30m,Ď13 P5E-4PTX-BL,10m,Ď6.3 MJ-A3SPF0015-100C,10m,Ď6 TXP TXN RXP NC NC RXN NC NC NETWORK SAME AS AVOBE J619 ARPA-A 1 ARPA-B 2 NC 3 J611 AIS_TD-A 1 AIS_TD-B 2 AIS_RD-A 3 AIS_RD-B 4 AIS_GND 5 *1 IV-1.25sq. TYPE ĺ 称 TAKAHASHI.T NAME RW-4864,Ď9.5 RW-4864,Ď9.5 SUB DISPLAY2 (SEMI-LOG) SUB DISPLAY1 (FULL-LOG) MASTER RADAR ALARM SYSTEM (IEC-61162-2) AIS (IEC-61162-1) TRACK_CONTROL (IEC-61162-1) ECDIS (IEC-61162-1) SPEED LOG (IEC-61162-1) NAVIGATOR (IEC-61162-2) HDG SENSOR RW-4864,Ď9.5 *1 TTYCS-7 *1 TTYCS-4 *1 TTYCS-4 *1 TTYCS-1 *1 TTYCS-1 *1 TTYCS-1 *1 TTYCS-1Q PC J501 KEY_TXD-B KEY_TXD-A KEY_RXD-B KEY_RXD-A PWR_SW GND +12V GND NC NC J618(NH) GND 1 OP_HD_2 2 GND 3 OP_BP_2 4 GND 5 OP_TRIG_2 6 GND 7 OP_VIDEO_2 8 J617(NH) GND 1 OP_HD_1 2 GND 3 OP_BP_1 4 GND 5 OP_TRIG_1 6 GND 7 OP_VIDEO_1 8 J616(NH) GND 1 OP_HD_IN 2 GND 3 OP_BP_IN 4 GND 5 OP_TRIG_IN 6 GND 7 OP_VIDEO_IN 8 J612 ALARM1_0 1 ALARM1_1 2 ALARM2_0 3 ALARM2_1 4 ALARM3_0 5 ALARM3_1 6 OPERATOR_FITNESS_0 7 OPERATOR_FITNESS_1 8 EXT_ALM_ACK_N 9 GND 10 SYS_FAIL-H 11 SYS_FAIL-C 12 J614 1 +12V 2 GND J607 LOG-A 1 LOG-B 2 NC 3 J606 NAV-A 1 NAV-B 2 NC 3 J620 TRK_TD-A 1 TRK_TD-B 2 TRK_RD-A 3 TRK_RD-B 4 GND 5 J605 HDG-A 1 HDG-B 2 HDG_GND 3 RS-232C CABLE *1 10 MPS588-C ăˇă WHT ăŻă BLK MJ-A3SPF DVI-D/D SINGLELINK 5M/10M 5/10m,Ď7 J302 TXP TXN RXP NC NC RXN NC NC 24 ĺśĺžĄé¨ PROCESSOR UNIT RPU-013 J1 +12V 1 GND 2 FG 3 RGBďžďžďžďžď˝ľď˝şďžďžďžď˝°ďž RGB VIDEO CONVERTER DVI-RGB-1 *2 J601 NC RXD TXD NC GND NC NC NC NC RS-232C DVI-D MONITOR J205 J622 SYS_ACK-H SYS_ACK-C 10 犺ä¸çˇĺĺź ANT. TYPE RSB-104 RSB-105 *2 DVI CABLE 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 TB BOARD 03P9342 J615 +12V GND +5V GND -12V J502/J522 KEY_TXD-B KEY_TXD-A KEY_RXD-B KEY_RXD-A PWR_SW GND +12V GND NC NC XH10P-W-5P-A 1.5/10/20/30m,Ď9 ĺ¤é¨ă˘ăăżăź EXT. MONITOR 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 J501/J521 1 KEY_TXD-B 2 KEY_TXD-A 3 KEY_RXD-B 4 KEY_RXD-A 5 PWR_SW 6 GND 7 +12V 8 GND 9 SYS_FAIL-H 10 SYS_FAIL-C J507/J527 1 SYS_FAIL-H 2 SYS_FAIL-C 3 SYS_ACK-H 4 SYS_ACK-C ćä˝é¨ CONTROL UNIT RCU-014/015 DVI-D MONITOR J204 DVI0TX2_N DVI0TX2_P A_GND NC NC NC NC NC DVI0TX1_N DVI0TX1_P A_GND NC NC VCC GND NC DVI0TXD_N DVI0TXD_P A_GND NC NC A_GND DVI0TXC_P DVI0TXC_N BRN RED ORG YEL GRN J602 KEY_TXD-B 1 KEY_TXD-A 2 KEY_RXD-B 3 KEY_RXD-A 4 PWR_SW 5 GND 6 +12V 7 GND 8 SYS_FAIL-H 9 SYS_FAIL-C 10 XH10P-W-6P 2.3/10/20/30m,Ď9 ĺč¨ďź33mäťĽä¸ TOTAL: UP TO 33m *2 TB1 1 H 2 C J3 VCC GND -5/-12V ă㣠ă˘ăŤ ă㤠ă ďžďžďžďž 23 24 ćä˝é¨ CONTROL UNIT RCU-016 TMDS_DATA2(-) TMDS_DATA2(+) TMDS_DATA2/4_SHIELD NC NC DDC_CLOCK DDC_DATA NC TMDS_DATA(-) TMDS_DATA(+) TMDS_DATA1/3_SHIELD NC NC +5V_POWER GND HOT_PLUG_DETECT TMDS_DATAB(-) TMDS_DATAB(+) TMDS_DATA0/5_SHIELD NC NC TMDS_CLOCK_SHIELD TMDS_CLOCK(+) TMDS_CLOCK(-) J3 *1 *6 100-230VAC DPYC-2.5 1Ď,50-60Hz RGB ďžďžď˝Żďžď˝§ ĺşćż RGB BUFFER PCB 03P9229A J4 +12V +12V GND GND NC NC J3 J9 GND GND GND HS GND VS GND DVI-RGBĺ¤ćĺşćż DVI-RGB CONVERSION BOARD SLB-FRN4-A TB1 1 H 2 C 10 PM-51 *1 100-120/ *6 DPYC-2.5 200-230VAC 1Ď,50-60Hz J1 R_VIDEO 1 GND 2 G_VIDEO 3 GND 4 B_VIDEO 5 GND 6 H_SYNC 7 GND 8 V_SYNC 9 GND 10 VCC 11 GND 12 -5/-12V 13 03-2091(5P) ă㣠BRN ă˘ăŤ RED ă㤠ORG ă YEL TB803 1 +12V 2 HD 3 BP 4 -12V 5 PM-TRIG 6 PM-LEVEL 7 PM-ENABL 8 GND 9 GND 10 NC 11 NC ăăăŠăźăăłăšă˘ăăżăź PERFORMANCE MONITOR *1 440VAC *6 DPYC-1.5 1Ď,50-60Hz VDR J2 R_VIDEO G_VIDEO B_VIDEO NC NC GND GND GND NC GND GND NC H_SYNC Y_SYNC NC ORG[B] YEL[B] BLU[B] GRY[B] PPL[B] WHT[B] RED GRN BLK WHT GRN[B] RED[B] ăă¤(太) ă(太) ă˘ăŞ(太) ăă¤(太) ďžďžď˝ťď˝ˇ(太) ăˇă(太) ă˘ăŤ ďžďžďžďž ăŻă ăˇă ďžďžďžďž(太) ă˘ăŤ(太) LHPX-20D-ASSY, 20/30m *1 COAX.(75Ί)ď˝5 10 11 12 13 14 15 J7(NH) DATA1-H DATA1-C SHIFT1-H SHIFT1-C FG GYRO CONVERTER BOARD 64P1106A *2 *1 VGA CABLE BRN RED ORG YEL GRN BLU PPL 03-2089(5P) MPYCY-12,MAX.30m *1 RGB EXT. MONITOR äżčˇă˘ăźăš PE *1 *5 IV-8sq. *1 TTYCS-4 J602 ă㣠ă˘ăŤ ă㤠ă ďžďžďžďž ă˘ăŞ ďžďžď˝ťď˝ˇ éĺäżĄé¨ TRANSCEIVER UNIT RTR-082 TB803 TB801 1 TX_HV +12V 1 2 NC HD 2 3 24V_PLUS BP 3 4 24V_MINUS -12V 4 5 NC PM-TRIG 5 6 NC PM-LEVEL 6 7 NC PM-ENABL 7 8 NC GND 8 9 SPU_RF_D-A GND 9 10 SPU_RF_D-B NC 10 11 RF_SPU_D-A NC 11 12 RF_SPU_D-B 13 SG 14 GND TB802 IF_VIDEO GND TB902 1 U 2 V 3 W TB901 1 100VAC-H 2 100VAC-C 3 NC 犺ä¸çˇé¨ ANTENNA UNIT RSB-104/105 A-D CONVERTER BRN ă㣠*1 TPYCY-2.5 *1 MPYC-7 J5(VH) GYRO_R2 GYRO_R1 NC J4(VH) GYRO_S1 GYRO_S2 GYRO_S3 GYRO_T GYRO_FG RW-9600, *3 15/30/40/50m,Ď22 J613 J603(XH) GC_LED TX_HV 1 GC_HOLD NC 2 GC_UP J610 24V_PLUS 1 GC_DOWN GC_0V 24V_MINUS 2 MOTOR(+) 3 GC_5V MOTOR(+) 4 J608 AD_DATA-H MOTOR(-) 5 AD_DATA-C MOTOR(-) 6 AD_CLK-H SPU_RF_D-A 7 AD_CLK-C SPU_RF_D-B 8 RF_SPU_D-A 9 RF_SPU_D-B 10 SG 11 GND 12 J609 IF_VIDEO GND PE *1 *5 IV-8sq. äżčˇă˘ăźăš 03-2088(6-14P) 1 TB912 U 1 V 2 W 3 IV-3.5sq. äżčˇď˝ąď˝°ď˝˝ PE *1 *5 10 11 12 13 14 TB911 1 U 2 V 3 W RW-4747 J1 RU-5466-1 *2 RU-6522 *2 RU-5693 *2 *1 110/115/ *2 220/230VAC, DPYC-1.5 RU-3305 1Ď,50-60Hz DPYCY-1.5 *1 100VAC,1Ď, 50-60Hz ć°ˇçľé˛ć˘ç¨ FOR DE-ICER *4 GYROCOMPASS 03-2090(3P) *1 200/380VAC,3Ď,50Hz TPYC-2.5 220/440VAC,3Ď,60Hz *1 TPYC-2.5 110VAC,3Ď,60Hz *1 TPYC-2.5 220VAC,3Ď,50Hz *1 TPYC-2.5 440VAC,3Ď,50Hz S-2 éťćş POWER SUPPLY 200/220VAC 380/440VAC LAN スイッďžďžď˝¸ďž ďžďžďž *2 SWITCHING HUB HUB-100 (8 PORTS) äżčˇă˘ăźăš PE IV-1.25sq. *1 *5 NOTES *1: SHIPYARD SUPPLY *2: OPTION *3: MAX. 100m. (JUNCTION BOX RJB-001 IS REQUIRED FOR EXTENSION.) *4: USE 3A BREAKER IN SHIP'S MAINS SWITCH BOX. *5: USE GRN/YEL WIRE FOR PROTECTIVE EARTH. *6: PASS THE AC LINE THROUGH A DOUBLE-CONTACT BREAKER (SHIPYARD SUPPLY). *7: FOR RUSSIAN FLAG VESSELS ONLY. FAR-2837SW čščśç¨ăŹăźăăź/ARPA ç¸äşçľçˇĺł MARINE RADAR/ARPA INTERCONNECTION DIAGRAM
Source Exif Data:
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