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Furuno FAR-2107 Series Service Manual

Furuno FAR-2107 Series Service Manual

Marine radar/arpa

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MARINE RADAR/ARPA

FAR-2107/2807 series

FAR-2117/2127

FAR-2817/2827

FAR-2827W

FAR-2137S/2837S

FAR-2837SW

Important;

This manual is intended for use by authorized

FURUNO service technicians for the installation

of this equipment.

Under no circumstances should the contents of

this manual be released to the user.

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Questions and answers

jose protacio

January 27, 2025

how to adjust tx hv far 2127

0

1 comments:

Mr. Anderson

February 10, 2025

To adjust the transmission high voltage (TX HV) on the Furuno FAR-2107 Series, follow these steps:

1. Identify the HV-9017 Board:
- The TX HV setting is controlled by the HV-9017 board.
- Check the serial number on the nameplate of the RPU-013 unit to determine the current setting.

2. Change Jumper Settings (JP1 and JP2):
- Adjust the jumpers JP1 and JP2 to change the TX HV.
- For a 12 kW unit, set HV-9017 A (310 to 350 V).
- For a 25 kW or higher unit, set HV-9017 B (520 to 580 V).

3. Verify the TX Output:
- Check the TX output value on the nameplate.
- Ensure the correct voltage range is applied according to the unit's specifications.

These steps ensure the proper adjustment of the TX HV for the Furuno FAR-2107 Series radar system.

This answer is automatically generated

0

Summary of Contents for Furuno FAR-2107 Series

Page 1 MARINE RADAR/ARPA FAR-2107/2807 series FAR-2117/2127 FAR-2817/2827 FAR-2827W FAR-2137S/2837S FAR-2837SW Important; This manual is intended for use by authorized FURUNO service technicians for the installation of this equipment. Under no circumstances should the contents of this manual be released to the user.
Page 2 The paper used in this manual is elemental chlorine free. ・FURUNO Authorized Distributor/Dealer 9-52 Ashihara-cho, Nishinomiya, 662-8580, JAPAN Telephone : +81-(0)798-65-2111 : +81-(0)798-65-4200 A : MAR 2005 Printed in Japan All rights reserved. D4 : AUG . 20, 2007 Pub. No. SME-35190-D4...
Page 7 Following tables show normal value in RF Monitor display. Keystroke: MENU>9>8>2 (Selftest) FAR-2827W, 2x27 Monitor Item L: 48NM M2: 6NM M1: 3NM S2: 1.5NM S1: 0.125NM TUNE IND R MONITOR MAG CURRENT HEATER TUNE OUT 16.0 16.0 16.3 16.2 16.2 FAR-2837SW, 2x37S Monitor Item L: 48NM...
Page 8 FAR-2xx7 series Radar Modifications 1. 10kW/25kW X band Radar 1. 12 kW/25 kW X-band Radar 1.1 Necessary Parts Table 1.1 Parts list Necessary parts Q’ty Modification No. RFC cover: 27/27W 1 pc. Fig. 1.1 Spacer for RFC cover: M3 x 15 7 pcs.
Page 9 1. 10kW/25kW X band Radar 3. Link the magnetron chassis and the GND of MD board with jumper wire. Fig. 1.4 Fig. 1.5 Fig. 1.6...
Page 10 2. 30 kW TR UP modification 2. 30 kW TR UP Radar 2.1 Necessary Parts Table 2.1 Parts list Necessary parts Q’ty Modification No. RFC cover: 37S 1 pc. Fig. 2.1 Spacer for RFC cover: M3 x 15 7 pcs. Fig.
Page 11 2. 30 kW TR UP modification 5. Fix the RFC cover by the screws. Cable tie is not supplied one. Fig. 2.3 6. Fit the cables by the EMI cores and bind it by the cable tie. Cable ties in photo are not supplied one.
Page 12 2. 30 kW TR UP modification 2.3 Addition of EMI core to the interconnection cable between RFC and IF board. Use M3 x 12 screw and fix the EMI core with cable clump. Fig. 2.7 Fig. 2.6 EMI core w/cable clump and screw 2.4 Adhere the microwave absorbent inside the MD cover as in Fig.
Page 13: Necessary Parts
3. 30 kW TR Down modification 3. 30 kW TR DOWN Radar 3.1 Necessary Parts Table 3.1 Parts list Necessary parts Q’ty Modification No. RFC cover: 37SW 1 pc. Fig. 3.1 Spacer for RFC cover: M3 x 15 9 pcs. Fig.
Page 14 3. 30 kW TR Down modification 3.2 Shielding to IF-RFC interconnection cable 1. Add the shield to IF-RFC cable. 2. Use metal clump to ground the shield at both sides. 3. The shield should not be applied to the cable inside EMI core 4.
Page 15 3. 30 kW TR Down modification 3.4 Jumper to magnetron and MD board GND Add jumper wire between the chassis of magnetron and the ground of MD board. Use original screws to fix the jumper. Fig. 3.4 3.5 Soldering of magnetron heater cable to the pulse transformer 1.
Page 16 3. 30 kW TR Down modification 3.6 Addition of microwave absorbent Adhere the microwave absorbent inside the RT cover. 65 mm Microwave absorbent 75 mm Fig. 3.6 RT cover (inside view)
Page 18 Changes to be made on Ver. 2.22 SPU The eliminated problems are; 1) Keyboard locks up when the route (in RTE sentence) contains 31 or more waypoints, including own ship’s number (00). Note: Maximum 30 waypoints can be processed as one route in FAR2xx7 radar. When connecting to GP-90 for external route navigation, the number of waypoint should be 29 or less for one route.
Page 19 How to read program versions 1. Press [2], [3] and [4] keys in this order while pressing [1:HL OFF] key. 2. Select “4: FACTORY TEST”. The FACTORY TEST screen looks like below. FPGA program version FPGA program version and RFC program version are displayed as below. Version of FPGA on SPU board 004F 0009...
Page 20 History of RFC board As of March 2005, the current RFC board is 03P9346-33A. When RFC 03P9346-33A (with J806) is used: In X-band, J806 is not used (open). In S-band having MD board 03P9244-55E, connect J806 to J816 on MD board. In S-band having MD board 03P9244-33E, J806 is not used.
Page 22 How to change DVI I/F board To replace DVI I/F board; 1. Place the monitor face down on a soft flat surface. 2. Remove 28 screws from the back of the monitor. 3. Unplug CN10, CN14, and CN16 and remove five screws from DVI I/F board. 4.
Page 23 How to check modification on Inverter board Diodes, D23 and D24 are removed from Inverter board to disable low-current protector. Use the following steps to gain access to diodes. 1. Take steps 1 and 2 on the previous page. 2. Unplug J3 on 03P9360 and CN10 on DVI I/F board. 3.
Page 28 7) Ten ARPA symbol marks are added. To change the symbol mark, press TARGET DATA key more than twice within two seconds. - RADAR type B/C/W 8) NORMAL/12H/24H is added in TRAIL menu > 8 TRAIL LENGTH. When 12H or 24H is selected, TRAIL time selection at the bottom of the screen is disabled, but the trail time is set through TRAIL menu >...
Page 31 FAR-2117/2127/2817/2827 RADAR MODIFICATIONS FOR RFI (X-UP) Necessary Parts for RFI (X-UP) Type：RFI MOD KIT X-TRUP Code NO.：008-552-370 Parts Type Code No. Q’ty Remarks RFC board cover 03-154-5613-1 100-327-461 RFC board case 03-154-5611-1 100-304-431 Cap Spacer CS-10S 000-809-335 For setting position of the RFC board Clamp CSK-10-L...
Page 32 4. Remove the RFC board and its case from the RF unit. 5. Attach new RFC board case and then RFC board on it with seven spacer screws. Lead the cables through the edge saddle or square bushes. 6. Fix the RFC board cover on the RFC board with the original fixing screws. RFC board RFC board cover Fixing RFC board cover...
Page 33 3. Adding shims to the RF unit Insert one or two shims (0.8mm) as appropriate between the fixing rail for RF unit and RF unit itself so that the gap between the RF waveguide and rotary joint is 0.1 mm to 0.5 mm. Rail Rail Shim...
Page 34 FAR-2827W RADAR MODIFICATIONS FOR RFI (X-DN) Necessary parts for RFI (X-DN) Type：RFI MOD KIT X-TRDN Code No. : 008-552-380 Parts Type Code No. Q’ty Remarks RFC board cover 03-154-5613-1 100-327-461 RFC board case 03-154-5611-1 100-304-431 Cap Spacer CS-10S 000-809-335 For setting position of the RFC board Clamp CSK-10-L...
Page 35 4. Remove the RFC board and its case from the RF unit. 5. Attach new RFC case and then RFC board on it with seven spacer screws. board Lead the cables through the edge saddle or square bushes. 6. Fix the RFC cover on the RFC board with the original fixing screws.
Page 36 3. Fixing the RF unit This modification is not necessary if Guide Pins are added to the waveguide as described in F3-2005-025. To fix the RF unit, insert two screws into the joint between the waveguide of the RF unit and the waveguide inside of the chassis, so that the gap on the waveguide is as small as possible.
Page 37 FAR-2137S/2837S/2137S-BB MODIFICATION FOR RFI (S-UP) PARTS LIST Name: RFI Remedy Kit Type: RFI MODS KIT S-TRUP Code No.: 008-552-390 Name Type Code No. Remarks RFC-13 000-141-084 EMI core RFC-10 000-141-085 RFC-8 000-141-448 LES-1010 000-150-110 Small Locking saddle edge LES-1017 000-150-111 Large Ground wire AF3120VR-L150 000-153-847...
Page 38 c) Cut the shield foam (71TS-5-1, supplied) into two, and attach the shield foams to the RFC cover as shown below. d) Attach the microwave absorber (100x60 mm, supplied) to the reverse side of the RFC cover. Peel the paper off from the absorber, and then attach it tightly. Shield foam Microwave absorber 45 mm...
Page 39 RFC cover Fix EMI cores with cable ties. Reinforcement of grounding magnetron 9. Remove the shield cover from the RF unit. 10. Run the ground wire (AF3120VR-L150, supplied) between fixing screws for magnetron and pulse transformer. Fixing screw Fixing screw for magnetron for pulse-trans.
Page 40 Attaching EMI cores (for IF AMP Board) 11. Remove the IF AMP Board cover, and attach the EMI core (RFC-10, supplied) to two cables from J821/822 on the IF AMP Board at the point below the IF AMP Board. 12. Attach the clamp to the EMI core attached at step 11, fix it with a pan head screw (M3x10, supplied) as below, and re-attach the IF AMP Board cover.
Page 41 FAR-2837SW MODIFICATION FOR RFI (S-DN) PARTS LIST Name: RFI Remedy Kit Type: RFI MODS KIT S-TRDN Code No.: 008-552-400 Name Type Code No. Remarks EMI core RFC-10 000-141-085-10 LES-1010 000-150-110 Small Locking saddle edge LES-1017 000-150-111 Large Ground wire AF3120VR-L360 000-153-347 000-153-869-10 100x100 mm...
Page 42 4. Disconnect the connector from J803 on the RFC Board (in the transceiver unit). RFC Board IF AMP Board 5. Unfasten seven screws and washers fixing the RFC Board. Save these for later use. (Step 12) 6. Screw seven spacers (SQ-15, supplied) onto the RFC Board, using the holes of the screws removed at step 5.
Page 43 11. Replace the cable between J802 on the RFC Board and J812 on the MD Board with NH-XH connector (03-2150, supplied). 12. Fasten the RFC cover on the RFC Board as follows: a) Set RFC cover to the RFC Board. b) Fasten the cover with two spacers (SQ-15, supplied) for fixing holes at back side and five screws and washers (unfastened at step 5) for remaining fixing holes.
Page 44 Reinforcement of grounding magnetron 16. Pass the ground wire (AF3120VR-L360, supplied) through the bush on the MD Board case, and fix it with fixing screw for magnetron. 17. Twist the ground wire mentioned above and the heater wire (J814, BROWN/ORANGE) together. 18.
Page 45 Attaching the microwave absorber 21. Attach the microwave absorber (ED-70, 100x100 mm, supplied) to the reverse side of the transceiver unit cover dismounted at step 3. 65 mm Microwave absorber 75 mm 22. Re-mount the transceiver unit cover.
Page 49 Change to be made 1) Following FTC problems are eliminated: (a) FTC and GAIN filter out targets in long distance together with rain clutter and (b) Targets in rain cannot be discriminated. With new software, when Auto FTC function (AUTO RAIN 1 to 4) is applied, the strong targets in long distance is AGC-controlled to prevent it from saturating in the IF amplifier.
Page 50 8) When external route data is input, both internal and external routes are displayed. This problem is removed. 9) When a target locates in the guard area, the alarm sounds twice: one is actual and the other is false with the sweep line outside of guard area. 10) When Safety is selected in AIS message type menu (AIS >...
Page 52 1’/6 Serial Numbers of LCD Unit which may exhibit problem 5700U00212 5700U00315 5800U00046 5800U00223 5700U00215 5700U00318 5800U00047 5800U00229 5700U00217 5700U00319 5800U00048 5800U00230 5700U00219 5700U00320 5800U00049 5800U00232 5700U00221 5700U00321 5800U00050 5800U00238 5700U00222 5700U00322 5800U00052 5800U00239 5700U00224 5700U00323 5800U00053 5800U00243 5700U00226 5700U00324 5800U00054 5800U00244 5700U00227...
Page 53 List of MU-231CR which may exhibit problem The following monitors may have the LCD unit which probably shows unwanted signal(s). Monitors in red background have the LCD unit which probably shows unwanted signal(s). Monitor Date of Country Serial No. Serial No. Serial No.
Page 54 Monitor Date of Country Serial No. Serial No. Serial No. Shipment 1492 4318-2667 2005/09/05 JAPAN 1493 4318-2662 2005/09/05 JAPAN 1494 4318-2532 2005/09/12 JAPAN 1495 4318-2791 2005/09/12 JAPAN 1496 4318-2624 2005/09/30 KOREA 1497 4318-2713 2005/09/30 KOREA 1498 4318-2622 2005/09/30 KOREA 1499 4318-2634 2005/09/30 KOREA...
Page 55 Monitor Date of Country Serial No. Serial No. Serial No. Shipment 1549 4318-2743 2005/09/28 1550 4318-2744 2005/09/28 1551 4318-2745 2005/09/28 1552 4318-2706 2005/09/28 1553 4318-2707 2005/09/28 1554 Spare Parts 2005/09/09 1555 4318-1767 2005/10/06 CHINA 1556 4318-2708 2005/09/27 CHINA ELETEK 1557 4318-2756 2005/09/27 CHINA...
Page 56 Monitor Date of Country Serial No. Serial No. Serial No. Shipment 1617 4318-2753 2005/09/26 1618 4318-2754 2005/09/27 1619 4318-1909 2005/10/28 CROATIA 1620 4318-2747 2005/09/23 DENMARK 1622 4318-2704 2005/09/30 SINGAPORE RICO 1623 4318-2705 2005/09/30 SINGAPORE RICO 1624 4318-2702 2005/09/30 SINGAPORE RICO 1625 4318-2703 2005/09/30...
Page 57 FAR-28X7 Series Console type FAR-28X7 Date of Country Serial No. Serial No. Shipment 4318-2786 2005/10/13 4318-2789 2005/10/12 JAPAN 4318-2792 2005/09/21 JAPAN 4318-2793 2005/09/15 JAPAN 4318-2794 2005/09/27 JAPAN 4318-2800 2005/10/12 JAPAN 4318-2801 2005/09/08 JAPAN 4318-2806 2005/09/30 KOREA 4318-2807 2005/09/20 JAPAN 4318-2810 2005/09/21 JAPAN 4318-2811...
Page 60 25 kW X-band radars (RSB-096XXX) 03P9348B Date of Type of RSB S/No. of RSB S/No. of RPU Shipment to shipment RSB-096-079-NA-HK1 R136-1891 4318-3088 11/08 SNo.701 RSB-096-079-NA-IM R136-1785 4318-2863 11/29 Greece RSB-096-079-NA-IM R136-1821 4318-2781 11/09 RSB-096-079-NA-IM R136-1841 4318-2855 11/08 VM-5100 RSB-096-079-NA-IM R136-1842 4318-2856 11/08...
Page 61 RTR for 25 kW X-band radars (RTR-081-S) 03P9348B Date of Type of RTR S/No. of RTR S/No. of RPU Shipment to shipment RTR-081-S R147-0198 4318-3133 11/11 HJH-146 RTR-081-S R147-0199 4318-3132 11/17 HJH-145 RTR-081-S R147-0200 4318-1280 11/09 SNo.1091 RTR-081-S R147-0202 4318-3175 11/24 HHI-1729 RTR-081-S...
Page 68 Remedy RFC board When IF amplifier board is 03P9335–55A/B and –66, replace the RFC board with one having FPGA program V0023 and diodes, 1SS396. The FPGA program number is displayed on “4. Factory Test” in Factory menu. After replacing the RFC board, update Main and RFC program to the current versions, V02.35 and V01.24 respectively.
Page 69 Antenna units which require modifications Antenna Unit Having 03P9335-55A/B Having modified 03P9335-66 RTR-081 R147-0237 to 0265, 0267 R147-0266, 0268 to 0283, 0285 RTR-082 R148-0210 to 0234 R148-0235 R134-2260 to 3091, 3115 to R134-3092 to 3114, 3128 to 3159, 3163 RSB-096-078 3127, 3160 to 3162, 3198 to to 3197, 3203 to 3214, 3216 to 3248, 3202, 3215, 3249, 3278,...
Page 71 Note; 1) The model name is changed from RTR-081 to RTR-081A, but this change is not applied to Installation and Operator’s manuals, including the outline drawing. 2) The RF unit as spare parts is shipped without the waveguide adapter. Use one mounted on the RF unit to be replaced.
Page 74 Parts Name Type Code Number Remarks MD board 03P9244B 008-554-990 FAR-2827/2827W MD board 03P9244C 008-555-020 FR-2135S MD board 03P9244E 008-555-090 FAR-2837S/2837SW Factory-modified sets Model RF/TR Unit MD board Serial Number Date FAR-2127-5A RSB-109-079-NA 03P9244B R155-0105 and 07/2007 after FAR-2127/2827/2127- RSB-096-079 03P9244B R136-3989 to 4039, 06/2007...
Page 76 Factory-modified sets: From production in August 2007 RSB-098-080: R138-1843 and after RSB-099-080: R139-0888 and after RSB-101-080: R141-0104 and after Fixing EMI Core onto New IF AMP Case The EMI core is fixed onto new IF AMP case as illustrated below. 1.
Page 77: Table Of Contents
Contents Introduction ..................1 1. Calling up an operational menu...................1 2. Do not turn off the power immediately after changing the setting ......1 3. Changing of IP address ....................1 4. Display of HDG, SPD and POSN................1 5. Notes for setting ......................1 6.
Page 78 Contents Chapter 2. Location of Parts ............2-1 2.1 Processor Unit: RPU-013 ..................2-1 2.2 Scanner Unit ......................2-11 2.2.1 FAR-2xx7 ......................2-11 2.2.2 FAR-2827W scanner unit ................2-20 2.2.3 FAR-2837S scanner unit ................2-24 2.2.4 FAR-2827SW scanner unit ................2-30 2.3 Monitor Unit ......................2-34 2.4 Control Unit ......................2-37 2.5 Optional Unit ......................2-40 2.6 Radar Console ......................2-45 2.6.1 RCN-003/004: Standard type ................2-45...
Page 79 Contents Chapter 4. System Setting ............4-1 4.1 Optional Menus ......................4-1 4.2 Overview of [FACTORY] Menu ................4-2 4.3 Overview of [INITIALIZE] Menu................4-3 4.4 Initialize Setting......................4-13 4.4.1 CABLE ATT ADJ....................4-13 4.4.2 TIMING, MBS, RING SUPPRESSION............4-14 4.4.3 DEFAULT ANT HIEGHT, NEAR/MID/FAR STC CURVE ......4-15 4.4.4 ANT REVOLUTION ..................4-17 4.4.5 RADAR NO.
Page 80 Contents 4.9 Selection of NAV DATA Input: [OS POSN] .............4-50 4.9.1 Setting of [OS POSN] -> 1: NAV AID ............4-50 4.9.2 Setting of [OS POSN] -> 3: SIO DATA LAN OUTPUT.........4-51 4.10 Setting of RGB BUFF Board: 03P9229B..............4-55 4.10.1 Jumper Setting....................4-55 4.10.2 Output of RGB BUFF board on FAR-2127...........4-56 4.10.3 Setting of the Video Channel in the VDR .............4-57 4.11 Alarm Output Setting...................4-58...
Page 81 Contents Chapter 5. Updating Program............5-1 5.1 Overview .........................5-1 5.1.1 Program file ....................5-1 5.1.2 Preparation .....................5-3 1. To check program numbers; ...............5-3 2. Connection of PC to Processor unit (RPU-013) .........5-4 3. Notes for updating ..................5-4 5.2 Updating Program ....................5-6 5.3 Updating with a Card ....................5-9 Chapter 6.
Page 82 Contents 6.5 Replacement of Major Parts ..................6-37 6.5.1 Configuration of boards .................6-37 1. Processor unit: RPU-013 ................6-37 2. Antenna unit ....................6-38 3. Control unit: RCU-014, RCU-015, RCU-016 ..........6-39 4. Monitor unit: MU-231CR, MU-201CR .............6-39 5. Card Interface unit: CU-200 ...............6-39 6.5.2 Replacement of boards incorporated in RPU-013 .........6-40 1.
Page 83 Contents 7.2.6 MSS board (MSS7497) .................7-21 7.2.7 Turning operation ..................7-23 1. Automatic tuning operation ................7-23 2. Manual tuning .....................7-24 3. Tuning indicator presentation ..............7-24 7.2.8 Automatic STC (SEA AUTO) ...............7-25 7.3 Processor Unit (RPU-013) ..................7-27 7.3.1 Overview .......................7-27 7.3.2 TB board (03P9342) ..................7-28 1.
Page 84 Contents Chapter 8. Q & A ................8-1 1. How to call up the INITIALIZE and FACTORY menus ...........8-1 2. How to change the language display (Japanese/English) See page.4-2.......................8-1 3. Which cable should be used for LAN CA, Cross CA or Straight CA? See page.3, 7-70 and the Operator’s Manual of “HUB-100”.
Page 85 Contents 25. When the power is restarted immediately after turning the power off, the ST-BY status starts within 3 minutes..............8-6 26. What is the difference among the IMO, A, B, C and W types? See page. 4-25......................8-7 27. When the [1:HL OFF] key is pressed, the range ring and all marks disappear. Is this normal? ......................8-7 28.
Page 86 Contents 50. Is it possible to make the setting of AIS static information and to send AIS messages from the FAR? See page.3-13......................8-12 51. What are the conditions for the loss of AIS targets? ..........8-12 52. Show the symbol marks of the AIS and ARPA. See the Operator’s Manual of the FAR.
Page 87 Contents 6) Equation of wave propagation ..............8-21 7) False echoes....................8-22 Appendix 1) Sentences ..............AP-1 AP1.1 OVERVIEW of NMEA-0183 Ver-3.00 ..............AP1-1 1.1.1 Overview of connection .................AP1-1 1. Connection ....................AP1-1 2. Data configuration ..................AP1-1 3. Talker names list ..................AP1-4 AP1.2 Configuration of NMEA Ver-3.00 Sentence ............AP1-5 1.2.1 ACK - Acknowledge Alarm ................AP1-5 1.2.2 BWC - Bearing and distance to waypoint .............AP1-5 1.2.3 BWR - Bearing and distance to waypoint –...
Page 88 Contents AP1.3 Configuration of the Sentence from ARPA(FAR) to ECDIS(FEA.) ....AP1-20 1.3.1 OSD - Own Ship Data ...................AP1-20 1.3.2 PAESP - Position Adjust ................AP1-20 1.3.3 TTM - Target ....................AP1-21 1.3.4 PFEC, RAssd - Antenna Location ..............AP1-21 1.3.5 RSD - Radar System Data ................AP1-22 AP1.4 Configuration of the Sentence from ECDIS(FEA) to ARPA(FAR.) ....AP1-23 1.4.1 GLL - Position ....................AP1-23 1.4.2 GGA - Position ....................AP1-23...
Page 89 Introduction Introduction This section describes minimum information required for settings and on equipment. 1. Calling up an operational menu: See page.4-1. - INITIALZIZE menu: Press the [Menu] key 5 times while holding down the [1: HL OFF] key. - FACTORY menu: Press the [2], [3] and [4] keys in order while holding down the [1: HL OFF] key.
Page 90 Introduction 6. Checking on NMEA data interface: See page.6-9. Execute “[Menu] -> 9 -> 8 -> 2: TEST” to check inputted NMEA data. The display box <GPS-1> displays GPS data inputted from the [NAV] port (J606) and the box of <GPS-2> displays GPS data inputted from a port other than the [NAV] port. NAV data of the <SPEED>...
Page 91 Introduction 11. LAN connection: See page.7-70. Use cross cables for the LAN connection between FAR and FAR, and FAR and CU-200. For connection via HUB-10, either a cross cable or straight cable can be used. HUB-100 has the Auto-MDIX function and automatically recognizes a cable. Use cables of Category 5.
Page 92 Introduction 12. Connection with ECDIS: See page.4-83. For related setting, select SERIAL or LAN in the setting of “[Menu] –> 0 -> 8 -> 5: INS”, and select TRUE in the setting of “[Menu] –> 0 -> 6 -> 2: TTM OUTPUT”.
Page 93: Chapter 1. Configuration
Chapter 1. Configuration 1.1 Overview 1.1 Overview 1) The system consists of a Processor unit, Monitor unit, Control unit and Transceiver/Antenna unit. Communication between Transceiver/Antenna unit and Processor unit, and Control unit by means of serial data (RS-422) 2) The ARPA and the Video plotter functions are incorporated in the SPU board as standard.
Page 94: Samples
1.1 Overview 1.1.1 Samples 1. FAR-2127 and FAR-2827 Monitor unit Antenna unit (MU-201 or 231CR) Power (AC or DC) RW-9600 Remote CONT unit Power (AC or DC) (RCU-016) Processor unit STD CONT unit (RCU-014) or (RPU-013) Trackball CONT unit (RCU-015) Fig.
Page 95: Far-2827W
1.1 Overview 3. FAR-2827W Antenna unit ANT Power (1 phase) Waveguide MPYCY-19 Monitor unit Transceiver unit (MU-231CR) (RTR-081) Power (AC) RW-9600 Power (AC) Remote CONT unit (RCU-016) Processor unit STD CONT unit (RCU-014) or (RPU-013) Trackball CONT unit (RCU-015) Fig. 1.1.4 FAR-2827W 4.
Page 96: Inter-Switch
1.1 Overview 1.1.2 Inter-switch For example, when Processor units are connected with the LAN via Hub, each Processor unit can control the other Transceiver unit. Maximum eight Processor/Display units can be controlled via Hub as Fig.1.1.6, and any of four Transceiver units are selected from a Processor/Display unit by clicking the icon of ANT-X.
Page 97: Configuration
1.2 Configuration 1.2 Configuration 1.2.1 System configuration table Table 1.2.1(1/3) System Configuration Radar Model: FAR- Item Remarks 2xx7 2827W 2x37S 2837SW 10 ft XN-5A (For RSB-109) 4 ft XN-12AF (For RSB-096/097) 6.5 ft Antenna Radiator XN-20AF (For RSB-096/097) 8 ft XN-24AF (For RSB-096/097) SN-30AF...
Page 98 1.2 Configuration Table 1.2.1(2/3) System Configuration Radar Model: FAR- Item Remarks 2xx7 2827W 2x37S 2837SW 115/230 VAC, 1 Ph. 50/60 Hz RU-3424 -> 24 VDC (20 A Max.) (For 25 kW//RPU-013) 100/110/115/220/230 VAC, 1 ph. Rectifier RU-3423 50/60 Hz -> 24 VDC (7A Max) (For MU-2x1CR) 115/230 VAC, 1 ph.
Page 99 1.2 Configuration Table 1.2.1(3/3) System Configuration Radar Model: FAR- Item Remarks 2xx7 2827W 2x37 S 2837 SW CP03-28900 FR-FTPC-CY-10 m Modular: LAN cable kit MPS588-C, CP03-28910 FR-FTPC-CY-20 m (with armor) 2pcs CP03-28920 FR-FTPC-CY-30 m Accessories FP03-09820 For MU-201CR Hanger assy. FP03-09830 For MU-231CR For Monitor unit;...
Page 100: Processor Unit: Rpu-013
1.2 Configuration 1.2.2 Processor unit: RPU-013 As for FAR-2xx7 series, the processor unit (RPU-013) is commonly used. However, PWR board and TX-HV board are different. - PWR board depends on Power source and antenna motor type: Antenna revolution. - TX - HV board depends on the output power (12 kW or 25 kW more). ANT unit / TR unit Scanner unit PSU-007...
Page 101: Cable
1.2 Configuration 1.2.3 Cable 1. Cable length for each unit F U R U N O RW-9600 15/30/40/50m, Max. 100m 10/20/30m HUB-100 (LAN cable: FR-FTPC-CV ) DVI-D 5/10m MU-201CR MU-231CR DVI-D/D 10/20/30m SIGNAL LINK 5M/10M RPU-013 (LAN cable: FR-FTPC-CV ) DVI-D NETWORK 10/20/30m...
Page 102: Extending Cables Between Antenna Unit And Processor Unit
1.2 Configuration 3. Extending cables between Antenna unit and Processor unit The Antenna cable; RW-9600 for connecting between the Transceiver/Antenna unit and Processor unit is available in 15/30/40/50 m. (Available for max.100 m.) Besides, extending the cable more than 100 m (Available for max.300 m.) is possible with the Junction boxes: RJB-001 as shown below.
Page 103: Antenna Unit
1.2 Configuration 1.2.4 Antenna unit 1. Applicable model: FAR-2117, 2127, 2817, 2827, 2117-BB and 2127-BB Table 1.2.2 Configuration of 12 kW and 25 kW X-band Radar Transceiver Gear box Radiator Model Motor Type Type Output Type (24 VDC) icer (Length) FAR-2117 XN-12AF RSB-096...
Page 104: Applicable Model: Far-2827W
1.2 Configuration 2. Applicable model: FAR-2827W Table 1.2.3 Configuration on 25 kW X-band Waveguide Type Radar Transceiver Gear box Radiator Model Motor Type Type Output Type De-icer (24 VDC) (Length) XN-20AF (6.5 ft) RTR-081 25kW RSB-103 D8G-516 PM-31 -2827W XN-24AF (8 ft) The De-icer must be incorporated in the factory.
Page 105: Applicable Model: Far-2137S, 2837S And 2137S-Bb
1.2 Configuration 3. Applicable model: FAR-2137S, 2837S and 2137S-BB Table 1.2.4 Configuration of 30 kW S-band Type Radar Transceiver Gear box Radiator Model Motor Type Type Output Type Motor De-icer power (Length) 200 VAC 3 Ph. 50 Hz RSB-098 RM7398 220 VAC 3 Ph.
Page 106 1.2 Configuration F U R U N O Transformer unit For De-Icer 100VAC 1 50/60Hz 100/110/200/220VAC 50/60Hz RU-3305 (Transformer) PSU-007 200VAC 3 50Hz 220VAC 3 60Hz TPYCY-2.5 (Transformer) 110VAC 3 60Hz RU-5693 220VAC (Transformer) 220VAC 3 50Hz RU-6522 200VAC PSU-007 Scanner (Transformer) 440VAC 3...
Page 107: Applicable Model: Far-2837Sw
1.2 Configuration 4. Applicable model: FAR-2837SW Table 1.2.6 Configuration of 30 kW Waveguide Type S-band Radar Transceiver Gear box Radiator Model Type Type Output Type Motor De-icer (Length) RM-7398 (200 VAC/3 Ph/50 Hz) RSB-104 RM-7398 SN-30AF (220 VAC/3 Ph/60 Hz) (10 ft) RTR-082 30 kW...
Page 108: Specifications
1.3 Specifications 1.3 Specifications 1.3.1 TR unit and Antenna Radiator Table 1.3.1 List of Transceiver Unit Type of T/R Unit RTR-078 RTR-079 RTR-080 RTR-081 RTR-082 FAR-2117 FAR-2127 FAR-2137S Model FAR-2827W FAR-2837SW FAR-2817 FAR-2827 FAR-2837S Output 12 kW 25 kW 30 kW 25 kW 30 kW Frequency...
Page 109 1.3 Specifications Table 1.3.3 Transmitted Pulse Width and PRF Pulse Range (NM) Width 0.125 0.25 0.75 (u-sec) B.W: 40 MHz PRF: 3000 Hz S1: 0.07 *ARPA 32 NM: 2200 Hz *2nd: 3000 Hz B.W: 40 MHz PRF: 3000 Hz S2: 0.15 *ARPA 32 NM: 2200 Hz *2nd: 3000 Hz B.W: 10 MHz...
Page 110: Monitor Unit
1.3 Specifications 1.3.2 Monitor unit Table 1.3.4 List of Monitor Unit Monitor Unit MU-231CR MU-201CR Monitor size 23.1 inch 20.1 inch Monitor type Color LCD Arrangement Desktop or Flush Mounting Display area 470.4 x 352.8 mm 399.36 x 319.49 mm Effective monitor 340 mm 308 mm...
Page 111: Current Power Consumption
1.3 Specifications 1.3.3 Current power consumption Table 1.3.6 Current Consumption MU-231CR/MU-201CR: RPU-013: Monitor Unit Input Voltage Processor Unit Input Voltage (100 knot) Model: FAR- 24 VDC 100 - 115 VAC 220 - 230 VAC 24 VDC 100 - 230 VAC 24/42 rpm* 24/42 rpm* 24/42 rpm*...
Page 112: List Of Functions
1.4 List of Functions 1.4 List of Functions Table 1.4.1 (1/5) List of Functions Function Description Remarks TUNE Auto/Manual Executed by Antenna unit Continuously variable in Manual mode only, 100 GAIN Executed by Antenna unit steps A/C SEA Auto/Manual Executed by Antenna unit - Executed by the Processor unit in the Automatic mode A/C RAIN...
Page 113 1.4 List of Functions Table 1.4.1 (2/5) List of Functions Function Description Remarks Two times zoom/Three times zoom Zoom Zoomed area is marked by a box. Screen fixed/GND fixed/Target tracking Brightness 100 steps Adjusted by the encoder. Panel brightness 16 steps Range scale nm/km/sm/kyd IMO, A type: nm...
Page 114 1.4 List of Functions Table 1.4.1 (3/5) List of Functions Function Description Remarks - Targets: The manual acquired targets: 100. In other words, the total of the manual acquired targets and the auto acquired targets: 100 The maximum number of 100 targets - Vector time OFF/30 S/1 M/3 M/6 M/15 M/30 M Vector can be changed between REL and TRUE.
Page 115 Function Description Remarks Radar map Maximum number of points memorized: 20,000 Coast line Data: FURUNO/C-MAP/Navionics/ERC - Mercator projection - Effective plot area Latitude 85 deg. or less - Number of stored points Own ship trail 20,000/Mark 20,000 - ARPA other ship trail:...
Page 116 MBS adjustment 0 to 255 Radar display/ Selection: MAIN/SUB Monitor display SPU and PC: Demo Mode OFF/EG/SPU/PC FURUNO development Type of Mode IMO/A/B/C/W Selected when installing. Switching of Model Available (X-band and S- band/Output power) Selected when factory setting. Wheel direction...
Page 117: Chapter 2. Location Of Parts
Chapter 2. Location of Parts 2.1 Processor Unit 2.1 Processor Unit: RPU-013 DVI-D Connectors for LCD Display Unit (Both are identical.) 100 VAC: 10 A (125 V) 220 VAC: 5 A (250 V) LAN Port (RJ45) for 24 VDC: 20 A (125 V) FAR-21X7/28X7, Network Hub (HUB-100), CARD I/F (CU-200) or...
Page 118 2.1 Processor Unit Fig. 2.1.3 Processor Unit with hinged cover opened HV9017 Board HV-9017A: 12 kW (330 V) HV-9017B: 25 kW (550 V) SPU Board 03P9337 PRW Board AC Power Supply: 03P9339A/B/C/D DC Power Supply: NET Board 03P9338A/B/C/D NET100 基板 03P9332 * 03P9338A/B: 12V SPEC 03P9332...
Page 119 2.1 Processor Unit LAN Port (100 BASE-T) Digital Video Output (DVI-D) GND Terminal Power Supply Terminal Fig. 2.1.5 Processor Unit, bottom chassis DVI-RGB I/F Board DVI-RGB I/F Board Stopper RGB BUFF Board (03P9229B) Hinge ** Possible to separate between bottom and GC-10 Board upper chassis.
Page 120 2.1 Processor Unit S1 (Selection of monitor type) Model FAR-21x7 (MU-201CR) FAR-28x7 (MU-231CR) FAR-21x7-BB CR4 (Blinks every second.) (Blinks every Mounting part 0.5 second.) of NET-100. MAIN CPU (U21) ARPA CPU (U74) DVI-D J204 (Reset SW) DVI-D J205 DRW CPU (U19) CR2/CR3 (Always ON) TP58 (2Vp-p)
Page 121 2.1 Processor Unit 100BASE-T (RJ-45) CR1 (LED-B) (Blinks when LAN port is used.) CR2 (LED-A) (Lights when data flows through LAN port.) ** This board is also used in CU-200. Fig. 2.1.8 NET-100 Board, 03P9332...
Page 122 2.1 Processor Unit TP1: Main Inverter Output Voltage (34.7 to 35.3 VDC) TP2: SW Reg. Common Line TP3: Sub Inverter SW Freq. (42.75 to 47.25 kHz) TP4: Main Inverter SW Freq. (42.75 to 47.25 kHz) VR1 (Main Inverter Output Adj.) CR23 (GRN) CR21 (RED) JP1 (COM/300 V/ 500 V)
Page 123 2.1 Processor Unit Setting of Antenna Rotation Speed 24 rpm: 144 Hz at TP17 with R168, J161 and J162 opened 42 rpm: 252 Hz at TPI7 with R168, J161 and J162 shorted JP161 (42 rpm) JP162 (42 rpm) TP13 R168 (RT) TP17 (BP) TP14 (32 V) TP15...
Page 124 2.1 Processor Unit Setting of Antenna Rotation 24 rpm: 144 Hz at TP17 with R168, J161 and J162 opened 42 rpm: 252 Hz at TP17 with R168, J161 and J162 shorted JP161 (42 rpm) JP162 (42 rpm) TP17 (B.P) R168 J105 J106 R106 TP19...
Page 125 2.1 Processor Unit J654 (SPU) J652 (PWR) J651 (HV) 12 kW: 310-350 V 25 kW: 520-580 V J613 (SCANNER) J601 (RS-232C) J614 (CARD I/F) (9P D-SUB) J615 (OPTION) J616 (From Master) J610 (SCANNER) J617 (To Slave 1) J602 (KEY) J604 (PSU) J618 (To Slave 2) J606 (HEADING) J656...
Page 126 2.1 Processor Unit a..b..231-131 L=20 mm L=19 mm 734-230 Fig. 2.1.15 WAGO Connector and Terminal Opener 2-10...
Page 127: Scanner Unit
2.2 Scanner Unit 2.2 Scanner Unit 2.2.1 FAR-2xx7 Performance Monitor (PM-31) Antenna Fig. 2.2.1 Scanner Unit (RSB-096 with PM-31) 2-11...
Page 128 2.2 Scanner Unit FAN (24 VDC) Internal heat is agitated. J921 (TX_HV) RTR-079 (25 kW) VR1 (Power Adj.) This hole is used to access VR1 on MD board (03P9244) for magnetron current adjustment at factory. Fig. 2.2.2 Scanner Unit with Cover Removed (1) IF Board (03P9335A) PM-31 Connection J921 (HV)
Page 129 2.2 Scanner Unit O-Ring Rotary Joint Guide Pin Hole Guide Pin Hole Fig. 2.2.4 Antenna Bracket PM-31 Antenna (03P9361) PM-31/B3RX1626 Fig. 2.2.5 Performance Monitor, PM-31 2-13...
Page 130 2.2 Scanner Unit Motor Brush Holder (x2) Motor Brush (MG120-5x6x11) Wear Line (When bush wears to white line, it must be replaced.) Fig. 2.2.6 Antenna Motor Motor Type Antenna Speed Scanner Unit D8G-516 24 rpm RSB-096 D8G-571 42 rpm RSB-097 Magnet for Heading Lead Switch Antenna Turning Gear Gear Retainer...
Page 131 2.2 Scanner Unit Heading Lead SW J916 B.P GEN Board (03P9347) (HD/B.P) IF AMP Board OUTPUT Terminal J918 (FAN 24V) RT TB Board (03P9349) J914 (ANT 24V) J915 (TX_HV) TB803 TB803 TB801 TB801 TB801 TB801 TB803 TB803 J917 3 Units are used. (FAR-2837SW: RTR-082) TB804 (Antenna Motor Power Supply)
Page 132 2.2 Scanner Unit RFC Board (03P9346A) Circulator Diode Limiter IF Board (03P9335A) PWR (RF) Board - 03P9348A: 12 kW - 03P9348B: 25 kW MIC (RU-9601) Fig. 2.2.10a RTR-079 (25 kW) Fig. 2.2.10 b RTR-079 (25 kW) 2-16...
Page 133 2.2 Scanner Unit IFAMP OUT （J823） 1. Mag.Cur 3. GND (RTR-078 and -079 use the board.) (Blinks every second, CPU (U19) operations) Fig. 2.2.11 RFC Board, 03P9346A Mag. Heater Volt ADJ. (J833-#11) R28 (Maｇ. H) マグネトロン R32 (Mag. L) MG5439 J833 R62 (ADJ) (MIC...
Page 134 2.2 Scanner Unit J823 (IF Output) J824 (IF Input) Fig. 2.2.13 IF AMP Board, 03P9335A 60 MHz IF Output VR1 (Power) Used to adjust magnetron current at factory. 03P9244A: X band 12 kW 03P9244B: X band 25 kW 03P9244E: S band 30 kW Fig.
Page 135 2.2 Scanner Unit MD Board (03P9244B) Pulse Transformer (RT9023) Magnetron (MG5436) Fig. 2.2.15 RTR-079 (25 kW) MD Board (03P9244A) Magnetron Pulse Transformer (MG4010 or MAF1425B) (RT9025) Fig. 2.2.16 RTR-078 (12 kW) 2-19...
Page 136: Far-2827W Scanner Unit
2.2 Scanner Unit 2.2.2 FAR-2827W scanner unit TB Board (03P9349) Waveguide Joint DC Motor (D8G-516, 24 rpm) Cable Grand De-Icer Fig. 2.2.17 (a) RSB-103 Heading Lead SW Drive Gear Scanner Turning Gear B.P GEN Board (03P9347) TB804 (Antenna Motor Power Supply) Fig.
Page 137 2.2 Scanner Unit Fig. 2.2.18 (a) RSB-103 Waveguide Magnet for Heading Lead Switch Gear Retainer Waveguide Fig. 2.2.18 (b) RSB-103 Waveguide 2-21...
Page 138 2.2 Scanner Unit Waveguide Joint RF Unit TB Board (03P9349A) Cable Entry Fig. 2.2.19 RTR-081 (FAR-2827W, 25 kW) Added 2P connector: IF AMP Board Ver.33A and after RFC Board (03P9346A) (03P9335A) MIC: RU-9601 or RU-9603 TR Limiter PWR (RF) Board (03P9348B) Fig.
Page 139 2.2 Scanner Unit Pulse Transformer (RT9023) Magnetron (MG5436) Magnetron Cooling Fan MD Board (03P9244B) Fig. 2.2.21 (a) RTR-081 RF Unit with Shield Cover Removed (1) Fig. 2.2.21 (b) RTR-081 RF Unit with Shield Cover Removed (2) 2-23...
Page 140: Far-2837S Scanner Unit
2.2 Scanner Unit 2.2.3 FAR-2837S scanner unit Performance Monitor Antenna Antenna Motor (SW) Cable Gland Fig. 2.2.22 RSB-098 IF AMP Board (03P9335B) with shield cover removed MIC (RU-9427) TB Board (03P9349A) Antenna Motor (RM-7398) Fig. 2.2.23 RSB-098 with Cover Removed 2-24...
Page 141 2.2 Scanner Unit TB Board (03P9349A) Fig. 2.2.24 RSB-098 with TB Board Removed Performance Monitor Antenna PM-51 Diode Limiter Fig. 2.2.25 RSB-098 with MIC removed 2-25...
Page 142 2.2 Scanner Unit RFC Board (03P9346-33A) Antenna Motor Power Supply Terminal Fig. 2.2.26 RSB-098 with Cover Removed MSS-7497 Board PWR(RF) Board (03P9348C) Fig. 2.2.27 RSB-098 with RFC Board Chassis Removed 2-26...
Page 143 2.2 Scanner Unit Magnetron (MG5223F) MD Board (03P9244E) Pulse Transformer (RT9273) Fig. 2.2.28 RSB-098 with Shield Cover Removed Magnetron Cooling Fan Fig. 2.2.29 RSB-098 with Magnetron Removed 2-27...
Page 144 2.2 Scanner Unit Antenna Motor SW Circulator Fig. 2.2.30 RSB-098 with Pulse Mounting Chassis Removed Transformer And MD Board B.P GEN Board (03P9347) Fig. 2.2.31 RSB-098, Rotary Joint 2-28...
Page 145 2.2 Scanner Unit Antenna Motor Mounting Plate MD Board Antenna Motor (MSS-7497 Board Removed) TB Board Fig. 2.2.32 RSB-098 Antenna Motor 2-29...
Page 146: Far-2827Sw Scanner Unit
2.2 Scanner Unit 2.2.4 FAR-2827SW scanner unit Performance Monitor Antenna Performance Monitor (PM-51) MSS-7497 Board TB for Antenna Motor Power Supply Fig. 2.2.33 RSB-104 with Cover Removed Antenna Switch Waveguide Flange Fig. 2.2.34 RSB-104 with Cover Removed 2-30...
Page 147 2.2 Scanner Unit Antenna Motor (RM-7398) B.P GEN Board (03P9347) Fig. 2.2.35 RSB-104 with MSS-7497 Board Removed Performance Monitor (PM-51) Antenna Motor Mounting Plate TB Board (03P9349A) Fig. 2.2.36 RSB-104 with Cover Removed 2-31...
Page 148 2.2 Scanner Unit Cable Clamp Waveguide Joint Fig. 2.2.37 RTR-082（FAR-2837SW: 30 kW） MD Board (03P9244E) PWR (RF) Board (03P9348C) Magnetron (MG5223F) RFC Board (03P9346-33A) TB Board (03P9349A) IF AMP Board (03P9335B) with a shield cover removed Use this hole to adjust breaker current. Fig.
Page 149 2.2 Scanner Unit MD Board (03P9244E) 図 2.2.37 RTR-0828 マグネトロン、TB 基板取り外し PWR Board (03P9348C) Waveguide Flange RFC Board (03P9346A) Circulator MIC Wiring Antenna Motor Breaker Shield Cover (Current Adjustment) (RU-9427) TR Limiter Fig. 2.2.39 RTR-082 with Magnetron Removed 2-33...
Page 150: Monitor Unit
2.3 Monitor Unit 2.3 Monitor Unit - MU-201CR (20 inch LCD) - MU-231CR (23 inch LCD) 534 (598) Hanger φ 454 (505) 35° (451) Hanger Stay 2-M10 x 30 Hanger Mounting Hole (x4) 352 (351) with Cover (M6 x 25) Fig.2.3.1 Monitor Unit (MU-201CR/MU-231CR) Power Supply Terminal VIDEO IN...
Page 151 2.3 Monitor Unit Fuse (2 A) Power Supply DVI I/F Board AC: DC-DC Board (03P9359) (SLB-FRN3-A) DC: PWR Unit (RKW-12-13RE) Noise Filter LF-205A (AC) MXB-1206-33 (DC) LED1 (Always ON) Fig. 2.3.3 Monitor Unit (MU-201CR) with Cover Removed LCD Board (201PW023-H) Inverter Board (210PW021-C) LCD Unit...
Page 152 2.3 Monitor Unit (MMS-06C12DS 12VDC 0.17A) FIL Board (03P9360) Power Supply AC: DC-DC Board (03P9359) DVI I/F Board DC: PWR Unit (RKW-12-13RE) (BSM-501 FN1) Noise Filter LF-205A (AC) MXB-1206-33 (DC) Fig. 2.3.5 Monitor Unit (MU-231CR) with Cover Removed LCD Unit (FLC59UXC8V-04) Inverter Board (NA19002-4241)
Page 153: Control Unit
2.4 Control Unit 2.4 Control Unit XH10P-W-5P L=1.5/10/20/30 m Left Button Wheel Right Button Power Switch Trackball Fig. 2.4.1 Standard Control Unit (RCU-014J) Japanese version Fig. 2.4.2 Standard Control Unit (RCU-014E) English version 2-37...
Page 154 2.4 Control Unit J505 (For PROGRAM update port, J502 (REMOTE) for RCU-016 Factory use) Cable Clamp J501 (PROCESSOR) for PRU-013 J506 (EMRI) for EMRI Trackpilot J507 (SYSTEM FAIL) CR10 (Option of CPU, U8, Blinks every second) U8(CPU) U8(CPU) U8(CPU) U8(CPU) Buzzer Board (03P9362) PNL Board (03P9343) S36 (DIP SW)
Page 155 2.4 Control Unit Power Switch RCU-015: Provided RCU-016: Not provided XH10P-W-5P-A L=1.5/10/20/30 m Fig. 2.4.4 Trackball /Remote Control Unit, RCU-015/016 J521 (PROCESS0R) CR11(U5 CPU RUN) - RCU-013 Connector Blinks every second. - RCU-016 connects with RCU-015 (Remote Panel.) トラックボール部 Open (Write Program) Short (Default) J527 (SYSTEM FAIL) J524 (TB)
Page 156: Optional Unit
2.5 Optional Unit 2.5 Optional Unit LAN Port (100BASE-T) Mini Card Slot (x2) for C-MAP, NAVIONICS, Power Supply and FURUNO chart card. (12 VDC) Port A Port B Fig. 2.5.1 Card Interface Unit, CU-200 S1 (DIP SW) #1: INIT #3: IP1...
Page 157 2.5 Optional Unit 100 – 230VAC Fuse (1 A) Port Number: 1 to 8 (Lights when in use.) Link/Act FDx/Col 10M/100M RJ45 Fig. 2.5.3 HUB-100 Flip up rotary-lock (a) to release lock and remove flat cable. 03P9364 Fig. 2.5.4 HUB-100 with Cover Removed 2-41...
Page 158 2.5 Optional Unit LED1 (Always lights.) Fuse (2 A) Fig. 2.5.5 DVI I/F Board A J5 B A J4 B (Jumper) (Jumper) A J6 B Fig. 2.5.6 RGB Buffer Board (03P9229B) 2-42...
Page 159 2.5 Optional Unit SW3 (Baud Rate, Version and Talker) R42 (+5.2 V ADJ, TP1) CR22 (+5.2 V) Supplied Power JP8: BATT Backup (Gear ratio, Type of gyrocompass and (Stator Voltage) frequency) TP1:+5.2V (Rotor Voltage) (Type of gyrocompass) (Rotor Voltage, Stator Voltage, Self-test, NMEA Transmitting interval, CPU reset)
Page 160 2.5 Optional Unit *This unit is used to extend the antenna cable. Fig. 2.5.8 Junction Box (RJB-001) Antenna Motor Power Supply Current Adjustment Fig. 2.5.9 FAR-2137S/2837S Power Supply Control Unit (PSU-007) 2-44...
Page 161: Radar Console
2.6 Radar Console 2.6 Radar Console 2.6.1 RCN-003/004: Standard type 1100 RCN-003 (23-inch Display) RCN-004 (20-inch Display) *The dimension of both consoles is the same. Fig. 2.6.1 RCN-003 Service Window in the rear panel Cable Entry (Both sides) Fig. 2.6.2 RCN-003, Side View Fig.
Page 162 2.6 Radar Console Mounting of CU-200 Mounting screw for RCU-014 Unit (x4) Put the panel lower part by pinching. Fig. 2.6.4 RCN-003 with Cover Removed Cable Entry Ground Terminal Mounting ECDIS (Non Rader Console Mounting PSU-007 GYRO Input Terminal PSU-007 (Right side of TB Board) Power-Supply Terminal Output TB Board...
Page 163 2.6 Radar Console For VDR BNC connector converter Foe De-Icer breaker Fig. 2.6.6 RCN-003 (FAR-2827) PSU-007 Fig. 2.6.7 RCN-003 (FAR-2837S) 2-47...
Page 164: Rcn-001/002: Slim Type
2.6 Radar Console 2.6.2 RCN-001/002: Slim type Fig. 2.6.8 RCN-001 (1/2) Fig. 2.6.9 RCN-001 (2/2) RCN-001 (23 inch Display) RCN-002 (20 inch Display) *The dimension of both consoles is the same. Mounting CU-200 RPU-013 Power Supply Terminal Board Cable Entry Fig.
Page 165 2.6 Radar Console TB Board Ground Terminal Fig. 2.6.11 RPU-013, Open View (1/2) Fig. 2.6.12 RPU-013, Open View (2/2) 2-49...
Page 166: Chapter 3. Menu Tree
Chapter 3. Menu Tree 3.1 Overview of Menu Operation 3.1 Overview of Menu Operations 3.1.1 Access the menus - MAIN menu Press the [MENU] key or place the cursor on the [MENU] box and click the left button. - Box marked with [ ] Place the cursor on the box and click the right button.
Page 167: Arrangement Of Icon Boxes
3.1 Overview of Menu Operation 3.1.2 Arrangement of icon boxes Reference Point Box Trial Maneuver (Elapsed time shown when trial maneuver is active.) PICTURE Box, Main Picture Settings SET and DRIFT Boxes PULSE LENGTH Box CURSOR DATA Box ANTENNA Box PRESENTATION MODE Box GAIN Setting RANGE Box...
Page 168 3.1 Overview of Menu Operation AIS Targets To erase a Lost target of AIS, press the [ALARM ACK] key. Expanded data Click the left button on the data display area. ARPA Targets [ARPA TARGET DATA] Own ship vectot - ARPA: ON - Vector: True...
Page 169: Hdg/Spd/Pos Display
3.1 Overview of Menu Operation 3.1.3 HDG/SPD/POS display Heading Speed, Source 0.0 kt Log Speed Course over Ground Speed over Ground, Source OS POSN Position DGPS Fig. 3.1.3 HDG/SPD/POS Display Table3.1.1 HDG/SPD/POS Display Data Input Data Display Remarks Display Select AD-10 or SERIAL in [HDG] box HDT, AD-10 xxx.x deg T (TRUE) menu...
Page 170: Box Menu
Box Menu Box Menu Box Menu Box Menu 3.2 Box Menu 3.2.1 Overview Table 3.2.1 Overview of Box menu Pop-up Cyclic change Description Menu The range of 4, 8, 16 and 32 NM are not RANGE UP/DOWN of RANGE available on the IMO and A type radar. DISPLAY DISPLAY>DISPLAY+PLOTTER PLOTTER mode is not available on the...
Page 171 Box Menu Box Menu Box Menu Box Menu When this turned on, the EBL bearing is displayed. Note: In the setting [Menu] -> 2 -> 8, 9, the EBL 1, 2 EBL ON/OFF relative and true bearing can be toggled in the HD-UP and Cursor gyro modes.
Page 172 Box Menu Box Menu Box Menu Box Menu When STATIC or DYNAMIC mode is selected in the [Menu] -> 4 -> 4 -> 2, [TRIAL] box is displayed. When toggling “TRIAL OFF” to “SET” DYNAMIIC in the [TRIAL] box, [CSE] and [SPD] - OFF>SET>START TRIAL boxes are displayed.
Page 173 Box Menu Box Menu Box Menu Box Menu OFF>00:15>0030>01:00> -- > TRAIL MODE Can be set for each 30 seconds. 30:00>CONT When this function is turned on, the VRM 1, 2 VRM ON/OFF VRM is displayed. While CU is active, CU is reset by clicking the lift button.
Page 174: Content
Box Menu Box Menu Box Menu Box Menu 3.2.2 Content [HDG] Table 3.2.2 HDG Box Menu Menu Submenu Description Allows the selection of the heading data. - AD-10: AD format (25 msec) - SERIAL: HDT (IEC61162-2: 38.4 kbps) 1 HDG SOURCE AD-10/SERIAL Without the HDG data, the radar operation is restricted only to the Head-up mode and the ARPA...
Page 175: Speed]
Box Menu Box Menu Box Menu Box Menu [SPEED] [SPEED MENU] 1 SHIP SPEED LOG(BT)/LOG(WT)/ GPS/MANUAL*/REF* 2 MANUAL SPEED 0.0kt 3 SET DRIFT OFF/ON* * Not available on IMO radar. Table 3.2.4 SPEED Box Menu Menu Submenu Description Allows the selection of ship speed data. The sentences are;...
Page 176: Cursor]
Box Menu Box Menu Box Menu Box Menu [CURSOR] [CURSOR MENU] TARGET DATA & ACQ/ TARGET CANCEL/ ARP TGT DATA & ACQ/ TARGET TRACK ON/* TARGET TRACK OFF/* REF MARK/ EBL OFFSET OFFCENTER/ ZOOM/ MARK DELETE/ CHART ALIGN *Not available on IMO radar. Table 3.2.6 CURSOR Menu Menu Submenu...
Page 177: Arp]
Box Menu Box Menu Box Menu Box Menu [ARP] [ARP TARGET MENU] 1 ARP SELECT MANUAL 100/ AUTO AUTO AUTO AUTO ALL CANCEL NO/YES 3 REF TARGET VECTOR OFF/ON Table 3.2.7 ARP Box Menu Menu Submenu Description The FAR-2xx7 series can acquire a maximum of 100 targets, the number of auto/manual acquire targets are determined by the ARP SELECT MANUAL 100/...
Page 178: Ais]
Box Menu Box Menu Box Menu Box Menu [AIS] [TRANSMIT MESSAGE] [AIS TARGET MENU] 1 BACK 1 SLEEP ALL TRGTS 2 ADDRESS TYPE NO/YES ADDRESSED/BROADCAST 2 ACTIVATE ALL TRGTS 3 MESSAGE TYPE NO/YES SAFETY/BINARY 3 AUTO DISP MESSAGE 4 MMSI NO. 000000000 OFF/ON 5 CHANNEL 4 [RECEIVED MESSAGES]...
Page 179 Box Menu Box Menu Box Menu Box Menu AIS messages created here are set to the AIS with the AI ABM, the BBM sentence and then 1 BACK transmitted from the AIS. 2 ADDRESSED TYPE - MSG 12: ADDRESSED SAFETY Related MSG. 3 MESSAGE TYPE - MSG 6: BINARY ADDRESSED MSG.
Page 180: Picture]
Box Menu Box Menu Box Menu Box Menu [PICTURE] Optimum picture setting can be made individually according to the sea conditions, for instance, for seeing a far target or the near target. See the next page for the default setting. Setting values are not dependant on the type of IMO, A, B C and W.
Page 181 Box Menu Box Menu Box Menu Box Menu Adjusts the contrast of echoes. Sets the gradient of the video level projected as 1/2/3/4 echo. When this is set to 4 (Dynamic range; Small) 7 VIDEO CONTRAST A/B/C and Curve C, weaker echoes can be clearly presented.
Page 182: Brill]
Box Menu Box Menu Box Menu Box Menu [BRILL] [BRILL1 MENU (1/2)] [BRILL1 MENU (2/2)] 1 ECHO COLOR** 1 BACK YEL/GRN/ 2 BRG CURSOR **: Settings for brilliance sets BRILL2-BRILL4 WHT/COLOR*1 3 EBL BRILL2: ECHO COLOR: YEL 2 BKGD COLOR** 4 VRM BKGD COLOR: BLK-RED BLK-GRN/...
Page 183: Trail]
Box Menu Box Menu Box Menu Box Menu [TRAIL] [TRAIL MENU] 1 TRAIL MODE REL/TRUE 2 TRAIL GRAD SINGLE/MULTI 3 NARROW TRAIL* OFF/ON 4 TRAIL LEVEL 1/2/3/4 5 TRAIL RESTART OFF/ON 6 TRAIL COPY OFF/ON 7 OS TRAIL OFF/ON * Not available on IMO and A type radar. Table 3.2.12 TRAIL Box Menu Menu Submenu...
Page 184: Mark]
Box Menu Box Menu Box Menu Box Menu [MARK] [MARK MENU] 1 ORIGIN MARK STAB GND/SEA 2 MARK KIND ORIGIN MARK(No.)/ ORIGIN MARK(SYM)/ MAP MARK/ WP 1~50/ WP 51~100/ WP 101~150/ WP 151~198/ OWN SHIP SHAPE 8 MARK POS CURSOR/OS/L/L 00 00.000 N 000 00.000 E 9 MAP DISPLAY...
Page 185: Ant Information]
Box Menu Box Menu Box Menu Box Menu [ANT INFORMATION] [ANT INFORMATION] ANT NO 1 BAND : X-BAND MODEL: 25 UP : FORE ANT NO 2 BAND : X-BAND MODEL: 12 : MAIN TOP ANT NO 3 BAND : MODEL : POS : ANT NO 4 BAND :...
Page 186: Main Menu Tree
3.3 Main Menu Tree 3.3 Main Menu Tree 3.3.1 Overview Table 3.3.1 Overview of Main menu tree MAIN menu Submenu Description 1 BACK In certain situations, echoes from great distance targets may appear as false echoes (second-trace echoes) on the 2 2ND ECHO REJ screen.
Page 187 3.3 Main Menu Tree 1 BACK Sets whether to display the own ship mark or not. The own ship mark corresponds to the dimensions of the own ship. The size of the own ship mark is set in [Menu] -> 0 -> 5 -> 2: LENGTH/WIDE and “REF POINT”...
Page 188 3.3 Main Menu Tree 1 BACK Turns on and off an alarm to be given when the target 2 GURD ALARM MODE inward or outward the alarm range set in ALARM 1 and 2. Adjusts the target echo level. It is dependent on the adjustment of GAIN, STC and FTC.
Page 189 3.3 Main Menu Tree 1 BACK Specifies the chart color 2 CHART COLOR A chart is drawn in PLOTER and RADAR + PLOTER. 3 OWN TRACK INTERVAL Sets the track interval and track color of the own ship and 4 OWN TRACK COLOR other ship.
Page 190 3.3 Main Menu Tree [CARD2/2] 1 BACK 6 CARD 2 [FILE DELETE] Deletes a selected file stored on the RAM card. Initializes the RAM card. 3 [CARD INITIALIZE] 1 BACK Allows displaying the following data in the data box. To 2 DEPT display them, turn on the setting in [Menu] ->...
Page 191 3.3 Main Menu Tree 0 NEXT [NAV LINE WPT 2/2] 1 BACK Allows the setting of arrival ranges (presented in a circle) 2 ARRIVAL WPT ALARM of the set waypoints and ON/OFF setting of the alarm. 8 NAV LINE Displays the turning line. The ship data like the trial turn rate is registered in [Menu] ->...
Page 192 3.3 Main Menu Tree SELF TEST: Displays the program versions, key test and the serial input data. ARPA TEST: 9 CUSTOMIZE/ 8 [TEST] TEST Allow checking ARPA functions with echoes created by CPU. During the execution, “XX” is displayed in the display.
Page 193: Main Menu
3.3 Main Menu Tree 3.3.2 List of main menu Shaded settings are factory default. The TYPE column shows the type of IMO, A, B and C radars. The type W (Washington state ferry) is not mentioned here since it is a special type with some functions added to the B type.
Page 194 3.3 Main Menu Tree 1 BACK 2 TARGET ALARM IN/OUT MODE 3 TARGET 1/2/3/4 ALARM LEVEL OFF/6 M/10 M/12 M/15 M/ 4. WATCH ALARM 5 ALARM LOW/MID/HIGH SOUND LEVEL 1 BACK TARGET ALARM/ WATCH ALARM/ GUARD ZONE/ LOST TARGET/ CPA LIMIT/ 3 [ALARM] AUTO ACQ TAG FULL/ 6 [ALARM OUT1]...
Page 195 3.3 Main Menu Tree 3 AIS SYMBOL SIZE SMALL/STD/LARGE 4 ROT TAG LIMIT 000.1°/MIN 6 [AIS SYMBOL] RED/GRN/BLU/YEL/CYA/ 5 PAST POSN COLOR MAG/WHT) 6 PAST POSN POINTS 5/10 1 BACK 2 FUSION TARGET OFF/ON 3 GAP 0.000 NM 4 [ARP/AIS] 4 RANGE 0.000 NM 7 [FUSION]...
Page 196 3.3 Main Menu Tree [DISPLAY (2/2)] 1 BACK 2 NAV LINE (MAP) OFF/ON 9 [DISPLAY] 5 [PLOTTER] 3 DANGER HIGHLIGHT OFF/ON 4 PROHIBITED AREA OFF/ON 5 BUOY OFF/ON [CARD1/2] 1 BACK 2 DRIVE SELECT 3 [READ CARD] 1 BACK 4 [WR MARK] 2 NAME M0000000 1 BACK...
Page 197 3.3 Main Menu Tree 1 BACK 2 WPT NO. SELECT 3 WPT NAME 6 [WPT SET] --°--.--- N 4 WPT L/L ---°--.--- E 5 CLEAR DATA NO/YES 7 [WPT LIST] [WPT LIST1 (1/25) - (25/25)] 001 - 200 1 BACK 2 NAV LINE NO.
Page 198 3.3 Main Menu Tree 1 BACK 1 BACK PICTURE/IR/ES/EAV/ NOISE REJ/ ANT SELECT/ PULSE LENGTH/ 2 [ECHO] A/C SEA SELECT/ AUTO RAIN SELECT/ TUNE SELECT/ ANT HEIGHT/ SEA CONDITION/ 2ND ECHO REJ/PM/SART 1 BACK ALARM ACK/STBY TX/ HL OFF/EBL OFF SET/ MODE/OFF CENTER/ CU TM RESET/INDEX LINE/ VECTOR TIME/...
Page 199 3.3 Main Menu Tree 1 BACK 2 WHEEL DRIVE NORMAL/REVERSE 3 KEY BEEP OFF/LO/MOD/HI 4 REMOTE KEY F*-KEY/DISPLAY SELECT IMO/A 7 [OPERATION] 5 POP UP GUIDANCE (OFF/ON) available 6 OWN SHIP VECTOR OFF/HDG/COURSE 7 STERN UP OFF/ON 8 SHAUTTLE FERRY OFF/MODE1/MODE2 1 BACK [CUSTOMIZE/...
Page 200: Initialize Menu
3.3 Main Menu Tree 2. Initialize menu To access the Initialize Menu, press the [MENU] key five times while pressing the [1: HL OFF] key. Table 3.3.3 Default Setting Menu Main Menu Submenu (1) Submenu (2) Submenu (3) Type 1 BACK 1 BACK 2 CABLE ATT ADJ AUTO/MANUAL 30 (0-73)
Page 201 3.3 Main Menu Tree 6/12/25UP/ 6 MODEL 25DOWN/50/30UP/ 30DOWN/60 4 [INSTALL- 7 TYPE IMO/A/B/C/W ATION] 8 ON TIME 000000.0H 9 TX TIME 000000.0H 0 PM GAIN ADJ 0-255 1 BACK LENGTH 0 m (0-999) 2 LENGTH/WIDTH WIDTH 0 m (0-99) BOW 0 m (0-999) 3 SCANNER POSN...
Page 202 3.3 Main Menu Tree 1 BACK 2 GATE SIZE S/M/L/LL 3 FILTER RESPONSE 1/2/3/4 9 SCAN 4 LOST COUNT (1-20) 8 [TRACK PRESET] 100 KTS 5 MAX SPEED (40-150) 6 TRACKING MODE 1/2/3/4 TIME/SCAN/ 7 START TIME TGT 50 SEC (20-100) VECT /20 SCAN (8-40) 1 BACK...
Page 203: Factory Menu
3.3 Main Menu Tree 3. Factory menu To access the Factory Menu, press the [2], [3] and [4] keys in sequence while pressing the [1: HL OFF] key. Table 3.3.4 Factory Menu Main menu Submenu (1) Submenu (2) Submenu (3) Type 1 BACK 2 LANGUAGE...
Page 204: Chapter 4. System Setting
Chapter 4. System Setting 4.2 Overview of [FACTORY] menu When you change the setting of a menu or on-screen icon menu, wait for six seconds or more before tuning off the power. If the power is turned off in less than six seconds, the data is not saved in the flash memory.
Page 205: Overview Of [Factory] Menu
4.2 Overview of [FACTORY] Menu 4.2 Overview of [FACTORY] Menu Table 4.2.1 [FACTORY] Menu Menu Sub Menu-1 Remarks Menu-2 1 BACK Switch the language display. (English/Japanese) 2 LANGUAGE When changing the language display, turn off the power once. FACTORY Return all the settings to the factory default setting. 3 FACTORY Select “FACTORY DEFAULT”...
Page 216: Initialize Setting
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4 Initialize Setting 4.4.1 CABLE ATT ADJ INITIALIZE -> 2: ECHO -> 2 The level of video signals inputted into the processor unit differ depending on the antenna cable length. To adjust the loss correction for it, two types of adjustment methods are available (AUTO or MANUAL).
Page 217: Timing, Mbs, Ring Suppression
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.2 TIMING, MBS, RING SUPPRESSION INITIALIZE -> 2: ECHO -> 4, 5, 0 Timing control is executed on the SPU board, and MBS (40 dB attenuation) and ring suppression (20 dB attenuation) control are executed by the IF board of the TR unit. The adjusted data is saved on the SPU board.
Page 218: Default Ant Hieght, Near/Mid/Far Stc Curve
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.3 DEFAULT ANT HIEGHT, NEAR/MID/FAR STC CURVE INITIALIZE -> 2: ECHO -> 6, 7, 8, 9 Parameters determining the STC curve are listed below. Table 4.4.1 Setting Values Related to STC Curve Item Setting Parameter Default...
Page 219 Initialize Setting Initialize Setting Initialize Setting Initialize Setting The photos shown below are given as examples for comparison of pictures when the setting of the SEA CONDITION and the ANT HIEGHT are changed in FAR-2837S. These are pictures when the range is set to 24 NM, and also AUTO STC, IR, ES and EAV AUTO RAIN were set to OFF.
Page 220: Ant Revolution
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.4 ANT REVOLUTION INITIALIZE -> 3: SCANNER -> 4 In case that the gearbox RSB-097 (42 rpm/DC motor: D8G-571) is used for the radar FAR2xx7, the antenna speed can be switched to 36 rpm or 42 rpm. This is selected by the ANT REVOLUTION menu.
Page 221 Initialize Setting Initialize Setting Initialize Setting Initialize Setting 2. In case that the antenna motor power is the AC type (FAR-2137S/2837S) The ANT ON signal controls the relay of the PSU-007. ANT Motor AC power AC in PSU-007 RPU-013 J604 +12V ANT ON 2SC3265Y...
Page 222: Radar No
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.5 RADAR NO. INITIALIZE -> 4: INSTALLATION -> 4 This is the setting of the own radar (ANT) number. When the ANT number is specified, the IP address is automatically assigned. After you change the radar number, wait until a message “Completed!! Power on restart”...
Page 223: Radar
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.6 RADAR INITIALIZE -> 4: INSTALLATION -> 2 This is the setting for using this unit as, a sub monitor by signals from the master radar (external input of analog video). See page.4-23 for major items that are operable in SUB mode. Monitor J617: DISP-1 (FULL LOG)
Page 224: Inter -Switch
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.7 Inter-switch To view pictures of other radars of FAR-2xx7 series connected to the LAN, switch the radar No. (ANT NO.) to the number of the radar that you desire to view. On the switched picture, you can perform operations such as STC, and Range change.
Page 225 Initialize Setting Initialize Setting Initialize Setting Initialize Setting No.1 Radar No.2 Radar Radar Monitor RADAR echo RADAR echo RADAR echo processing processing processing Note: - HDG: Operation/Display Operation/Displaye Operation/Display Displays the data of the other radar. - L/L: Network (LAN) Displays the data of its own.
Page 226: Main Operations For Each Function
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 3. Main operations for each function Table 4.4.2 Functions of LAN and SUB FAR-2xx7 set LAN connection Main function as sub monitor (Inter switch function) (SUB function) PULSE LENGTH Linked RANGE Linked Enabled A/C SEA Linked...
Page 227: Model
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.8 MODEL INITIALIZE -> 4: INSTALLATION -> 6 Functions change according to the setting of MODEL. “A, B and C” in the table below represent parameters. For instance, the models specified as “A” in the column of the STC curve use the same parameters. Table 4.4.3 Main Functions Changed According to MODE Main function Transmission...
Page 228: Type: Imo/A/B/C/W
Initialize Setting 4.4.9 TYPE: IMO/A/B/C/W INITIALIZE -> 4: INSTALLATION -> 7 Specifications differ slightly according to the type setting. See table 4.4.4. - IMO: IMO compliant - A: Near-IMO specifications - B: Non-Japanese fishing vessels - C: Japanese fishing vessels - W: Washington state (USA) ferry Note: The W-type is added on the Ver-014 of the SPU program or later.
Page 229 Initialize Setting Table 4.4.4(2/2) Functions for Radar Type (Differences in Main Menus) Type Differences in Main Menus Menu – 6: CARD – 7: [WR TARGET TRACK] (To write the track of other ship or not) Menu – 8:NAV LINE WPT – 2:NAV LINE DATA – WPT MARK Menu –...
Page 230 Initialize Setting Initialize Setting Initialize Setting Initialize Setting Table 4.4.6 Functions for Radar Type Differences in Functions Type Functions IMO, A 0.125/0.25/0.5/0.75/1.5/3/6/12/24/48/96 Range B, C 0.125/0.25/0.5/0.75/1.5/3/4/6/8/12/16/24/32/48/96 IMO, A Rader/Rader+Plotter Handling of chart B, C Rader/Plotter/Rader+Plotter IEC61162 2 NMEA Ver-3.0 (Equivalent) NAV data A, B, C IEC61162...
Page 231: Pm Gain Adj
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.10 PM GAIN ADJ INITIALIZE -> 4: INSTALLATION -> 0 The performance monitor function allows checking for the reduction of transmission output, and reception sensitivity. Make adjustment of PM GAIN ADJ at the time of installing, and when Magnetron or RF unit is replaced.
Page 232: Turning On The Performance Monitor
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 2. Turning on the performance monitor 1. Set “[MENU] -> 1: [ECHO] -> 4: PM” to ON. Adjusted setting conditions are automatically set up. 2. Check the transmission/reception performance by observing the strength of ring echoes.
Page 233: Own Ship Info
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.11 OWN SHIP INFO INITIALIZE -> 5 5 5 5 “2: LENGTH/WIDTH” data is used to draw the OWN SHIP MARK. “3: SCANNER POSN” and “6: CONNING POSN” data determine the origin of a radar graphic data.
Page 234: Arp Preset
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.12 ARP PRESET INITIALIZE -> 6 1. Setting of TTM OUTPUT Specifies the ARPA output data among the “OFF/REL/TRUE”. The output port is selected in “[INITIALIZE] -> 8 -> 5: INS” - [J619]: ECDIS - [J620]: TRACK CONTROL - [NETWORK]: LAN See page.
Page 235 Initialize Setting Initialize Setting Initialize Setting Initialize Setting ARPA SENSOR DATA (1/2) Table 4.4.7 ARPA SENSOR DATA (1/2) ARPA SENSOR DATA Description (1/2) DRIFT= OFF/xx.xKT Indicates the manually set drift. When the ARPA CPU is activated, time is incremented up every CPU COUNTER= xxxxx second.
Page 236 Initialize Setting Initialize Setting Initialize Setting Initialize Setting Table 4.4.8 Overview of ARPA Software Part of processing Related setting Overview Echo detection 3 MAX RANGE Detects echoes and finds the (SPU FPGA: ARPA 4 ECHO LEVEL position. Front end) 5 QV DISPLAY Echo sorting Sort echoes appropriate for a 7 [ACQ PRESET]...
Page 237: Network
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.13 NETWORK INITIALIZE -> 7 1. Checking of IP address IP address when connected with the LAN can be checked in this menu. The radar IP address is automatically assigned by setting the radar number in [Menu] -> 0 -> 4 -> 4: RADAR NO.
Page 238: Changing Of Ip Address
Initialize Setting Initialize Setting Initialize Setting Initialize Setting 2. Changing of IP address Never change the IP address except for special types specified below. If the IP address is improperly changed, the system may fail to work properly. In order to allow the Inter switch function of the radar to work properly between networks, it is required to set up the IP address specified to the network, subnet mask, default gateway and destination.
Page 239 Initialize Setting Initialize Setting Initialize Setting Initialize Setting Open “INITIALIZE -> 7: NETWORK” menu. You can find “2 [NETWORK SETTIG]” menu added to the “NETWORK” menu. 6. When you open the “2 [NETWORK SETTIG]” menu, the “1 [RADAR]”, “2 [CARD 1]” and “3 [CARD 2]” menus are displayed. 7.
Page 240 Initialize Setting Initialize Setting Initialize Setting Initialize Setting Note 2: Changing the IP address of the CARD-1 and CARD-2 The IP address specified to the flash memory of CU-200 can be rewritten by the operation from the radar. Procedure 1. Follow the same steps 4 to 7 as for the procedure for changing the radar IP address. 2.
Page 241 Initialize Setting Initialize Setting Initialize Setting Initialize Setting 4.4.14 INS INITIALIZE -> 8: OTHER -> 5 This is for the selection of the port of the INS (Integrated Navigational System). Set [Menu] -> 0 ->6 -> 2:TTM OUTPUT to “REL” or “TRUE”. Table 4.4.11 TTM OUTPUT and INS Setting TTM OUTPUT setting...
Page 242: Jumper Setting Of Terminal Board
4.5 Jumper Setting of Terminal Board 4.5 Jumper Setting of Terminal Board [J656]: HDG port jumper [J655]: AIS port jumper Fig. 4.5.1 Location of Jumpers on Terminal Board The interface circuit of both ports is as shown below. TERMINAL p.c.b Set position GND2 Floating...
Page 243: Jumper Of Ais Port: [J655]
4.5 Jumper Setting of Terminal Board 4.5.1 Jumper of AIS port: [J655] This port complies with IEC-61162-2 (38.4 kbps/RS-422). This is the setting on whether to add terminator 100 ohm (330 ohm x 3) between AIS RD-A and RD-B or not. When multiple devices such as ECDIS and radar are connected to one TD-A/B port of the AIS unit, install a terminator on a device that has the longest wiring among these devices.
Page 244: Setting Of Monitor Unit
4.6 Setting of Monitor Unit 4.6 Setting of Monitor Unit This is the setting of S1 of the SPU board according to a connected monitor. It can be checked by executing [MENU] -> 9 -> 8 -> 2: SELF TEST. See Page.6-4 for details. Information related to the monitor is given in page.7-76.
Page 245: Setting Of Ad-100 Or Gc-10
- For input in AD format Set the transmission cycle to 25 msec. - For input in NMEA data Set to Ver-2.0, 38,400 bps and transmission cycle to 25 msec. For FURUNO technical information on the AD converter, refer to FQ4-2004-016. RPU-013 J7(5p) Gyro compass...
Page 246 4.7 Setting of AD-100 or GC-10 Table 4.7.2 Overview of Factory Setting *” Ver” represents the version of the program. Item Factory setting Recommended setting Gyro type AC synchro Excitation frequency 50/60 Hz Rotor voltage 60 VAC to 135 VAC Make the setting according Stator voltage 60 VAC to 135 VAC...
Page 247: Setting List
4.7 Setting of AD-100 or GC-10 4.7.1 Setting List Table 4.7.3(1/2) Setting List In the factory setting, all the DIP switches are set to OFF and jumpers are set to #1 except that JP1 is set to #1, #2 and #3. Segment Setting contents Setting conditions...
Page 248 4.7 Setting of AD-100 or GC-10 Table 4.7.3(2/2) Setting List SW 3 SW3-#1 NMEA Ver SW3-#1 OFF: Ver 1.5 ON: Ver 2.0 (See Table 4.7.5) SW3-#2 Baud rate SW3-#2 OFF: 4,800 bps / ON: 38,400 bps Ver03, 04: SW3-#3 SW3-#3 OFF: AG / ON: HE Talker name (Setting according...
Page 249 4.7 Setting of AD-100 or GC-10 Table 4.7.5 Setting of Baud Rate, Version and Talker Name Fucntion setting SW3 setting Note-1 NMEA version Baud rate Talker name/Power-off function SW3-#1 4,800 bps SW3-#2 38,400 bps AG (Heading/track Note-2 SW3-#3 Controller (autopilot) general) HE (Heading sensor;...
Page 250: Location Of Parts
4.7 Setting of AD-100 or GC-10 4.7.2 Location of Parts JP4, 5: Operating voltage setting SW3: Baud rate Version Ver03, 04: Talker name Ver05: Power-off function JP2: Stator voltage setting SW2: JP3: Rotor voltage setting - Rotor voltage - Stator voltage - Self test - NMEA output interval etc.
Page 251: Addition To The Memory Card I/F: Cu-200
4.8 Add to the Memory Card I/F: CU-200 4.8 Addition to the Memory Card I/F: CU-200 When the second CU-200 unit is connected to the network, the IP address of the second unit should be changed. Up to two units can be connected to the network. Note: No.2 NETWORK...
Page 252: Confirmation Of Ip Address
4.8 Add to the Memory Card I/F: CU-200 How to return the original setting 1. Turn the power off. 2. Set IP0 of DIP switch (S1) to OFF and INIT to ON. 3. Turn the power on and wait until CR2 starts to blink. 4.
Page 253: Selection Of Nav Data Input: [Os Posn]
4.9 Selection of NAV DATA Input: [OS POSN] 4.9 Selection of NAV DATA Input: [OS POSN] 4.9.1 Setting of [OS POSN] -> 1: NAV AID NAV DATA input can be selected by switching the “1: NAV AID” on the [OS POSN] box menu.
Page 254: Setting Of [Os Posn] -> 3: Sio Data Lan Output
4.9 Selection of NAV DATA Input: [OS POSN] Remarks: In IMO type When [MENU] -> 4 -> 8: AIS FUNCTION is set to ON, - [OWN POSN] -> 1.NAV AID -> DEAD RECKNING is disabled. - [SPD] -> 3. SET DRIFT is fixed to OFF. When DTM sentence is WGS-84 - [Menu] ->...
Page 255 4.9 Selection of NAV DATA Input: [OS POSN] Example of LAN connection setting 1. Setting for sharing NAV data from the radar No.1 Table 4.9.4 Sharing the NAV data via radar-1 No.1 No.2 No.x [OS POSN] (NAV data Tx) (NAV data Rx) (NAV data Rx) 1.
Page 256 4.9 Selection of NAV DATA Input: [OS POSN] The setting of TTM OUTPUT and INS shown in the Table below is for running TTM data over the LAN. It is not the setting for sharing NAV data. Table 4.9.5 Sharing NAV Data via INS-2 No.1 No.2 No.x...
Page 257 4.9 Selection of NAV DATA Input: [OS POSN] The setting of TTM OUTPUT and INS shown in the Table below is for running TTM data over the LAN. It is not the setting for sharing NAV data Table 4.9.6 Sharing the NAV Data via INS-3 No.1 No.1 ->...
Page 258: Setting Of Rgb Buff Board: 03P9229B
4.10 Setting of RGB BUFF Board: 03P9229B 4.10 Setting of RGB BUFF Board: 03P9229B When inputting radar video signals to VDR, you should install the optional DVI I/F board (SLB-FRN4-A), RGB BUFF board (03P9229-B) and RGB connector converter. The monitor unit MU-201CR is connected with similar DVI interface board (SLB-FRN3-A), which is not available for shared use.
Page 259: Output Of Rgb Buff Board On Far-2127
4.10 Setting of RGB BUFF Board: 03P9229B Note: Differences of each RGB BUFF Board Table 4.10.2 Setting of RGB BUFF Board 03P9229 Board 03P9229A 03P9229B (FR-1500III, Parts (FR-2xx5) (FAR-2xx7) FR-1700) 560 ohm 560 ohm 390 ohm Not required Not required Not required Label print None...
Page 260: Setting Of The Video Channel In The Vdr
4.10 Setting of RGB BUFF Board: 03P9229B 4.10.3 Setting of the Video Channel in the VDR Table 4.10.3 Setting of the Video Channel in VDR Item Setting Channel # VD 1 VD 1 VD 1 VD 1 FAR-28x7 FAR-21x7 FR-2105 FR2805 Channel ID (Input the model name)
Page 261: Alarm Output Setting
4.11 Alarm Output Setting 4.11 Alarm Output Setting 4.11.1 SYSTEM FAIL alarm output setting When the processor unit RPU-013 fails, SYSTEM FAIL ALARM detected by the control unit is outputted from EXT ALARM terminal J612-#11/12 of RPU-013. The setting for alarm output is executed as shown below.
Page 262: Rcu-015 And 016
4.11 Alarm Output Setting 2. RCU-015 and 016 Table 4.11.2 Setting of RCU-014:S6 Factory Function Setting Setting SYSTEM FAIL ALARM Output The same as described for RCU-014 Do not output RELAY STATUS Normally Close The same as as described for RCU-014 Normally Open J527: SYSTEM FAIL S6 (DIP SW)
Page 263 4.11 Alarm Output Setting RPU-013 RCU-014 J501 J602 REMOTE TX/RX 0 J502 TX/RX 1 SYS FAIL H SYS FAIL H SYS FAIL C SYS FAIL N SYS FAIL C MAIN CPU EXT ALARM ACK N J507 (PS7241 1B) J622 - ALARM 1 SYS FAIL H - ALARM 2 SYS FAIL C...
Page 264: Setting Of Alarm Output
4.11 Alarm Output Setting 4.11.2 Setting of Alarm Output This is the setting for outputting alarm detected by the processor unit (RPU-013). There are four talarm ports. Respective alarm output items are set in [MENU] -> 3-> 6, 7, 8, 9: ALARM OUT-1, 2, 3, 4.
Page 265 4.11 Alarm Output Setting Table 4.11.3 ALARM Output Setting ALARM OUT 1, 2, 3, 4 Remarks ALARM-1, 2: When applicable target within the TARGET ALARM setting range is detected TARGET ALARM Target alarm Note: [Menu]->3->2:GURD ALARM MODE (IN/OUT) [Menu]->3->3:GURD ALARM LEVEL (1-4) When WATCH ALARM is set and the set time has been reached WATCH ALARM Watch alarm...
Page 266 4.11 Alarm Output Setting Output of ALM-1, 2, 3 ALARM OUT POLARITY --> NORMAL Power ON ALARM Occur ALARM resolved Power OFF Closs Initializing Power OFF Open BZ ON BZ OFF [ALARM ACK] ON ALARM OUT POLARITY --> INVERT BZ ON BZ OFF Power ON ALARM Occur...
Page 267: Change Of Power Input Type
4.12 Change of Power Input Type 4.12 Change of Power Input Type The power specifications are: RPU-013: 100 VAC, 220 VAC, 24 VDC MU-201CR and MU-231CR: 100 VAC to 220 VAC, 24 VDC - 100 VAC: 10 A (125 V) PWR board - 220 VAC: 5 A (250 V) - 24 VDC: 20 A (125 V)
Page 268: Circuit Setting
4.12 Change of Power Input Type Adjustment method Overvoltage Type Setting of J108 Setting of input power protection Factory setting voltage adjustment 03P9339C, D Open 288 VAC 282 to 294 VAC (220 VAC) Point at which CR23 is turned on by 03P9339A, B adjusting R21 144 VAC...
Page 269: Jumper Setting
4.12 Change of Power Input Type 1. Jumper setting JP1:12V Board Type setting 03P9338A Jumper 12-24 V 03P9338B 03P9338C Open 24 V 03P9338D Fig. 4.12.4 DC PWR Board 4.12.3 Change of power (AC <-> DC) When you change the power between AC and DC, replace the FIL board and power fuse as well as the PWR board together.
Page 270: Change Of Antenna Speed: Rsb-096 And Rsb-097
4.13 Change of Antenna Speed: RSB-096 and RSB-097 4.13 Change of Antenna Speed: RSB-096 and RSB-097 4.13.1 Combination of PWR board and gearbox The model of antenna DC motor and the jumper setting of the PWR board determines the antenna speed. The models applicable to this are RSB-096 and RSB-097 for FAR-2xx7. S-band radars using the antenna AC motor are not applicable to this.
Page 271: Change And Adjustment Of Antenna Speed
4.13 Change of Antenna Speed: RSB-096 and RSB-097 4.13.2 Change and adjustment of antenna speed The PWR board of 42 rpm type is 03Pxxxxx-B and D types, and the PWR board of 24 rpm type is 03Pxxxxx-A and C types. When the Power SPEC is different from the Antenna motor SPEC, the desired antenna speed cannot be achieved.
Page 272: Change Of Transmission Hv Setting: Hv-9017
4.14 Change of Transmission HV setting: HV-9017 4.14 Change of Transmission HV setting: HV-9017 The setting of jumpers JP1 and JP2 changes the transmission high voltage for TR units of 12 kW and 25 kW to 60 kW. TX output can be checked on “SER.NO.” of the nameplate of RPU-013.
Page 273: Setup
4.14 Change of Transmission HV setting: HV-9017 4.14.1 Setup Table 4.14.1 Setting of HV-9017 HV-9017 Radar type Transmission RPU-013 Jumper setting (TR unit) output SER. NO. Type Adjustment Specification* FAR-2x17 12 kW 4317-xxxx COM-300V COM-330V 310 to 350 V Adjustment (RTR-078) of Main FAR-2x27...
Page 274 4.14 Change of Transmission HV setting: HV-9017 Transmission HV Protection Circuit For instance, if the transmission high voltage 500 V for 25 kW type is used with 12 kW TR unit, the protection circuit is activated to stop transmission. High voltage is detected in TX high voltage input circuit on the MD board by dividing the resistnace.
Page 275: Checking Of Thermal Relay Setting
4.15 Checking of Thermal Relay Setting 4.15 Checking of Thermal Relay Setting 4.15.1 PSU-007 In the FAR-2137S and 2837S, power is supplied to the antenna AC motor of the gearbox via PSU-007. The threshold current of the thermal relay of PSU-007 is set according to the type of the scanner unit.
Page 276: Thermal Relay Of Rtr-082
4.15 Checking of Thermal Relay Setting 4.15.2 Thermal Relay of RTR-082 In the FAR-2837SW, power is supplied to the antenna AC motor of the gearbox via RTR-082. The operating current of the thermal relay of RTR-082 is set according to the type of the scanner unit.
Page 277: Sub Monitor
4.16 Sub Monitor 4.16 Sub Monitor 4.16.1 Connection to “Slave” The TB board has [J617] and [J618] ports for the sub monitor. Each of these ports has merits and demerits as shown in the Table below. Select a port appropriate for your intended use.
Page 278: Change Of The Connecting Ports
4.16 Sub Monitor 2. Change of the connecting ports The output of slaves 1 and 2 can change to the Semi-log or the Full-log output. RPU-013 SPU p.c.b AD/DATA OP HD OUT-1 ARPA/MAIN CPU OP HD OUT-2 OP BP OUT-1 J617, J618 OP BP OUT-2 RF Tx/Rx...
Page 279: Slave Output Signal
4.16 Sub Monitor 3. Slave output signal 1. Bearing pulse: Slave-1, 2 (J617, 618-#4pin) Model ANT rpm Frequency Remarks 24 rpm 144 Hz - BP GEN out 360 pulse/rev. 36 rpm 216 Hz X-band - Slave-1, 2 OUT 42 rpm 252 Hz 12 V 360 pulse/rev.
Page 280: Video Signals Of S-Band Radar: Slave-1, 2 (J617, 618-#8Pin)
4.16 Sub Monitor 3. Heading pulse: Slave-1, 2 (J617, 618-#2pin) The pulse length changes according to the antenna speed. The heading pulse is turned ON in a range of 0 to 90 degrees and the duty ratio is 1:3. Model ANT rpm ANT/REV.
Page 281 4.16 Sub Monitor Picture of the Master 48 NM, Long pulse GAIN: 70, STC: 82, FTC: 33 IR: OFF, ES: OFF, EAV: OFF Auto FTC: OFF 5 Vp-p 5 Vp-p 1 V, 10 us/div 1 V, 10 us/div Trigger Slave-1 #8 Open: Video (Full-log) Slave-2 #8 Open: Video (Semi-log) 1 V/0.5 ms/div 1 V/0.5 ms/div...
Page 282: Examples Of S-Band Radar Monitors
4.16 Sub Monitor 5. Examples of S-band radar monitors Picture of the Master 6 NM, M2 pulse GAIN: 60, STC: 60, FTC: 15 IR: OFF, ES: OFF, EAV: OFF Auto FTC: OFF Fig. 4.16.9 Picture of the Master Radar Video signal is not controlled GAIN/STC by the master radar.
Page 283 4.16 Sub Monitor Picture of the Master 24 NM, Long pulse GAIN: 60, STC: 60, FTC: 15 IR: OFF, ES: OFF, EAV: OFF Auto FTC: OFF Fig. 4.16.12 Picture of the Master Radar Video signal is not controlled GAIN/STC by the master radar. Fig.
Page 284: When Using As Slave Radar
4.16 Sub Monitor 4.16.2 When using as slave radar FAR-2xx7 requires the signals in Table 4.16.2 to operate as slave radar display. Table 4.16.2 Input Types of Master Port Level Read 0 V ----- +5 VDC to +12 VDC Negative edge Duty: 50% 0 V ----- +5 VDC to +12 VDC 360 pulses/REV.
Page 285: Timing Adjustment
4.16 Sub Monitor 2. Timing adjustment Do the timing adjustments of slave display by [Menu] -> 0 -> 2 -> 4:TIMING ADJ. See page.4-14 for adjustments. 3. Switching for the sub monitor To display Full-log or Semi-log video signals inputted from the Master port [J616]: - B ,C and W types, Set “8.
Page 286: Connecting To The Fea-2X07
4.17 Connecting to the FEA-2x07 4.17 Connecting to the FEA-2x07 When FEA-2x07 is connected with FAR-2xx7, the setting items required on the FAR-2xx7 side are as shown below. For the setting of installation parameters on the FEA-2x07, see the Installation Manual of FEA-2x07. Procedure 1.
Page 287: Chapter 5. Updating Program
Chapter 5. Updating Program 5.1 Overview of Updating 5.1 Overview 5.1.1 Program file Programs to be updated are: - Processor unit: SPU board MAIN CPU, ARPA CPU, DRAW CPU and FPGA Program - Transceiver unit: RFC board RFC CPU Each program is updated in the same connection and method.
Page 288 5.1 Overview 3. Batch file SPU board: 0359204-02.xx - uparpa.bat uppg /lf ldarpa.bin /hf arparom.hex /port 1 /sp 9600 /t 9999 - updraw.bat uppg /lf lddraw.bin /hf drawrom.hex /port 1 /sp 9600 /t 9999 - upmain.bat uppg /lf ldmain.bin /hf fr2107r.hex /port 1 /sp 9600 /t 999999999 Correspond to C-MAP uppg /lf ldmain.bin /hf fr2107rc.hex /port 1 /sp 9600 /t 999999999 - upfpga.bat...
Page 289: Self Test
5.1 Overview 5.1.2 Preparation 1. To check program numbers; Carry out self-test: [MENU]-9-8-2(SELF TEST). Program numbers are displayed as below. <SELF TEST> PROGRAM No. DIP SW 0359204-02.xx 0000 0359202-01.xx 0359203-01.xx *******-**.** REMOTE1 REMOTE2 *******-**.** Program numbers are displayed. CARD 0359209-01.xx 0000 PROCESSOR UNIT MONITOR -12V...
Page 290: Connection Of Pc To Processor Unit (Rpu-013)
5.1 Overview 2. Connection of PC to Processor unit (RPU-013) Connect a cross cable 9P D-sub (female - female) between the serial port of the PC and the RS-232C port of the Processor unit as shown below. RS-232C Port Fig. 5.1.3 Connection for Program Updating 3.
Page 291 5.1 Overview 5) The preset data are not changed even after updating unless the program of the CPU board is substantially changed. If CU-200 is installed, we recommend you to save the preset data in the CU-200 card as a precaution. See p. 6-45 for details. 6) There is no need to set the data transfer speed of the serial port of the PC.
Page 292: Updating Program
5.2 Updating Program 5.2 Updating Program Procedure 1. Turn off the power to the radar. 2. Connect the cross cable 9P D-sub between the serial port of the PC and the RS-232C port on the TB board of the Processor unit. 3.
Page 293 5.2 Updating Program 6. When the PC displays “[Waiting For Target Wake up…] Time: xx (sec),” turn on the power to the radar. e.i. Updating of DRAW CPU [Waiting For Target Wake up …] is displayed, turn on the power to the radar. 7.
Page 294 5.2 Updating Program 8. When the PC displays “Upload complete,” updating is completed. On completion of updating, the radar screen returns to the normal screen. When “Upload complete” is displayed, updating is complete. 9. Turn off the power and update a next program. Start from Step 4. 10.
Page 295: Updating With A Card
5.2 Updating Program 5.3 Updating with a Card In the Mini-program card, related programs of the SPU board are saved. Procedure 1. Turn off the radar power supply. 2. Insert a Mini-program card to the Card slot: J206 on the SPU board. 3.
Page 296: Chapter 6. Maintenance
Chapter 6. Maintenance 6.1 Self-test DANGER Hazardous Voltage This equipment uses high voltage electricity which can SHOCK, BURN or use DEATH. Always make sure the electrical power is turned off before attempting to change a component or inspecting the inside of the equipment. A residual charge may exist in capacitors, even with the equipment turned off.
Page 297: Self-Test
6.1 Self-test 6.1 Self-test The self-test executes in “[MENU] -> 9 -> 8 -> 2: SELF TEST”. The items of self-tests are: - Buzzer check - Checking of program number - Checking of PROCESSOR UNIT MONITOR - Checking of “RF UNIT MONITOR” - Key checking - Checking of input sentences of serial ports on the terminal board in the Processor unit.
Page 298: Description
6.1 Self-test 3. Press the [F1] key 2 times to go to the next screen. This screen displays the input sentences of serial ports. There is no restriction on the display by Versions of input sentences. Fig. 6.1.2 Example of Self-Test NMEA Check Screen 5.
Page 299 6.1 Self-test ROM/RAM, DIP SW When executing “SELF TEST” or “FACTORY TEST”, ROM and RAM are checked. See page.6-18 for “FACTORY TEST”. OK or NG is displayed by the result of the Read/Write check of RAM, and Check-sum check of ROM. Table 6.1.2 ROM/RAM, DIP SW Display DIP SW...
Page 300 6.1 Self-test PROCESSOR UNIT MONITOR Monitor for the Processor unit: RPU-013. Fig. 6.1.4 Diagram of Processor Unit Monitor Table 6.1.3 Display of Processor Unit Monitor Display Description -12 V -12 VDC output on the PWR board. 3.3 V +5 VDC output on the PWR board is converted into +3.3 VDC and displayed. +5 VDC output on the PWR board.
Page 301 6.1 Self-test RF UNIT MONITOR Each monitor-value is detected in the transceiver unit. Note that monitor values of TUNE IND, R. MONITOR, HEATER, TUNE OUT, TRIGGER FREQ and MAG CURRENT vary with the setting of the Range/Pulse length. See pages 6-42 for details. TEMP OUT AD RFC p.c.,b TEMP sensor...
Page 302 6.1 Self-test Example: RF Monitor display FAR-2827W, 2x27 Table 6.1.5 FAR-2827W: RF Monitor Display Monitor Item L: 48NM M2: 6NM M1: 3NM S2: 1.5NM S1: 0.125NM TUNE IND R MONITOR CURRENT HEATER TUNE OUT 16.0 16.0 16.3 16.2 16.2 FAR-2837SW, 2x37S Table 6.1.6 FAR-2837SW: RF Monitor Display Monitor Item L: 48NM...
Page 303 6.1 Self-test Key check Key check is a function for checking the panel keys. The drawing on the left below corresponds to the arrangement of the keys, knobs and trackball of RCU-014 and the drawing on the right corresponds to those of RCU-015 and RCU-016 (but the power key is excluded.) The boxes numerically displayed are used for checking of the knobs and track ball showing changes in a range between 0 and 255.
Page 304: Self-Test Screen-2
6.1 Self-test 2. Self-test screen-2 The IEC-61162 sentences received can be checked on the screen. The sentences displayed are fixed and the data of input sentence is shown. There is no restriction on the display by IEC versions of input sentences. <GPS1>: displays position-related data inputted from the [NAVIGATOR] port: J606 on the TB board.
Page 305 6.1 Self-test <SELF TEST> <AIS> Displays AIS data inputted from the [AIS] port: J611. <INS> Displays the data inputted via LAN or from J620selected by "[Menu]->0->8->5: INS" FUGLL PAESP - LAN setting -- [NETWORK] port PAESC - SERIAL setting -- [TRACK CONTROL] port: J620 PAESF PLSPL PLSPS...
Page 306 6.1 Self-test 3) Priority of ports - The selection of input ports and priorities of GGA, GLL, DTM, RMC and VTG sentences for position and SOG/COG is determined by the selection of GPS1 or GPS2 in “1. NAV AID” of the “OS POSN” menu. GPS-1: J606: NAVIGATOR GPS-2: J607: LOG <...
Page 307 6.1 Self-test 4) Display of Position Data and Ship Speed Data Box When the position data and ship speed data are invalid, the data is displayed in red. The conditions for it are as shown below. The data varies with the input sentences. See p.3-4 for details. Heading When data is invalid in VBW Speed, Source...
Page 311 6.1 Self-test 6) Setting of data box menus and input port Table 6.1.10 Setting of Box Menus and Input Port Menu Setting Input port Sentences for use J606: NAVIGATOR LOG (BT) J601: RS-232C J605: HDG SENSOR J607: LOG LOG (WT) VBW>VHW J620: TRACK CONTROL LAN (INS)
Page 312 6.1 Self-test 7) Acceptable sentences Table 6.1.11 Acceptable Sentences Sentence Description Sentence Description Waypoint Arrival Alarm Tracked Target Message Acknowledge Alarm Dual Ground/Water Speed UAIS Addressed binary Water speed and Heading safety related message Set Alarm State UAIS VHF Data-link Message UAIS Broadcast Binary UAIS VHF Data-link Own-vessel Message...
Page 313: Factory Test
6.2 FACTORY TEST 6.2 FACTORY TEST 6.2.1 Overview In the factory test, checking and test are performed for the program numbers, ROM/RAM checks, I/O check and so on. The contents of tests and checking other than described here are the same as described in “Self-test 6.1”. Procedure 1.
Page 314: Contents
6.2 FACTORY TEST 3. Press the [F1] key to the next screen. 4. Beeps sound and the screen is changed to red (8 patterns). Press the [F1] key to stop beeps, then the beeps stop and the green pattern is displayed on the screen. Every time you press the [F1] key, the screen is changed to blue, white and then black.
Page 315 6.2 FACTORY TEST Note: The item “RFC” of the display No. 1 indicates the history of the hardware function of the RFC board. The history setting is made by the setting of JP3 to 6. This setting does not affect any function. To replace the RFC board Ver-UP: No problem is posed.
Page 316 6.2 FACTORY TEST Loopback test The I/O ports are checked by the loopback test. Procedure 1. Jumper the ports to be loopback on the TB board of RPU-013 as shown below. ** AIS port test ** ** NAV port test ** J611 AIS J606 NAVIGATOR J619 ECDIS...
Page 317 6.2 FACTORY TEST 4. The “FACTORY TEST” screen is displayed. The checking items of the SIO are switched in sequence. If a port jumpered in Step 1 functions properly, “OK” is displayed. If not, “—” is displayed. Table 6.2.3 Result in Loopback Test Test Test Result...
Page 318: Led Check
6.3 LED Check 6.3 LED Check 6.3.1 Processor unit：：：： RPU-013 1. SPU board Table 6.3.1 LEDs on SPU board Board Part number Normal status Function Check for Vcc: +5 VDC supply from PWR Light board. Check for Vcc: +3.3 VDC supply from PWR Light board.
Page 319: Net-100
6.3 LED Check 2. NET-100 This board is common to CU-200. LED operation is the same. Table 6.3.2 LED of NET-100 Board Part number Normal status Function NET-100 CR1 (LED-A) Light DATA: Displayed when there is data on LAN. (03P9332) CR2 (LED-B) Blink LINK: Displayed when connected with LAN.
Page 320: Pwr Board
6.3 LED Check 3. PWR board Table 6.3.3 LEDs on PWR board Part Normal Board Function number status Lights on when the over-current of antenna motor power supply (+24 VDC) is detected. Restart the power to reset. CR63 Note: (MTR) Since the antenna motor of S-band radar is of AC motor type, +24 VDC antenna motor power supply is not used.
Page 321 6.3 LED Check CR63 (MTR) CR63 (MTR) CR64 (RF) CR64 (RF) CR65 (Tx-HV) CR65 (Tx-HV) CR23 (IN ER) CR23 (IN ER) PWR board DC (03P9338) PWR board AC (03P9339) Fig. 6.3.4 Location of LEDs on PWR Board 6-26...
Page 322: Tx-Hv Board
6.3 LED Check 4. TX-HV board Table 6.3.4 LEDs on TX-HV board Board Part number Normal status Function Lights when the protection circuit is activated CR21: Red by 0.7 A, over-current of TX-HV board. HV9017 Restart the power to reset. CR23: Green Light Lights in normal condition.
Page 323: Gc-10 Board
6.3 LED Check 5. GC-10 board Table 6.3.5 LEDs on GC board Board Part number Normal status Function CR22 Light Check for +5 VDC output 64P1106-99 (A) Blink CR21 Check for AD data output every 0.2 second CR22 CR21 Fig. 6.3.6 Location on LEDs on GC Board 6.
Page 324: Rf Unit
6.3 LED Check 6.3.2 RF unit Table 6.3.7 LEDs on RFC Board Board Part number Normal status Function Blink RUN check of CPU (U19) (03P9346A) every 1 second RTR-082: FAR-2837SW RTR-079, 078: FAR-2xx7 RTR-081: FAR-2827W Fig. 6.3.8 RFC Board, 03P9346A The 03P9345-33A is added (Blink every 1 second) J806(2p) here.
Page 325: Control Unit
6.3 LED Check 6.3.3 Control unit 1. RCU-014 Table 6.3.8 LEDs on PNL Board Board Part number Normal status Function Blink 03P9343 CR10 RUN check of CPU (U8) every 0.5 second 2. RCU-015/RCU-016 Table 6.3.9 LEDs on PNL Board Board Part number Normal status Function...
Page 326: Error Messages
6.4 Error Messages 6.4 Error Messages 6.4.1 Messages of ALERT BOX When an alarm or error is detected, it is displayed in the ALERT BOX by characters. And also, available alarm and ALM output are continuously displayed, and outputted until the alarm condition is removed. The warning beeps stops when the [ALM ACK] key is pressed.
Page 327 6.4 Error Messages Table 6.4.1 List of SIGNAL MISSING Message SIGNAL MISSING Description Displayed when gyro signal cannot be inputted form [HDG SENSOR] GYRO and [GC-10] ports in the TB board. Displayed when the ship speed data is not inputted when LOG (BT) or LOG (WT) is selected on “1:SHIP SPEED”...
Page 328 6.4 Error Messages Table 6.4.2 List of ARPA ALARM Message ARPA ALARM Description Displayed when ARPA target within CPA and TCPA limit set in the [CPT LIMIT] box menu is detected. COLLISION This is processed as a dangerous target and the symbol of the applicable target is changed from a circle to a triangle in blinking red.
Page 329 6.4 Error Messages Table 6.4.3(2/2) List of AIS ALARM Message Displayed when Speed Over Ground (SOG) cannot be calculated, namely, when VHW (Water Speed and heading) is inputted and “OFF” is set in “[SPD] box menu ->2: SET DRIFT”. Displayed when “ON” is set in “[Menu] -> 4 -> 7:FUSION -> 2: FUSION TERGET”...
Page 330 6.4 Error Messages Table 6.4.4(2/2) List of OTHER ALARM Message Displayed when water depth is less than the depth set in “[Menu] -> 7 DEPTH -> 4:DEPTH MARK”. Displayed when the cross track error is out of the range set in “[Menu] ->...
Page 331: Ais Alarm Message
6.4 Error Messages 6.4.2 AIS ALARM message Alarm messages sent from the AIS unit can be displayed by “8. AIS ALM MESSAGE” in the [AIS] box menu. These messages are described by ALR sentences. When an alarm is detected on the FA-100 or the FA-150, the ALM sentences are outputted every 25 seconds.
Page 332: Replacement Of Major Parts
6.5 Replacement of Major Parts 6.5 Replacement of Major Parts 6.5.1 Configuration of boards “Common” means X-Band and S-Band. 1. Processor unit：：：： RPU-013 Table 6.5.1 RPU-013 List of Boards Incorporated in RPU-013 Board Model Code Remarks 03P9337 00853646000 Common 03P9339A...
Page 333: Antenna Unit
6.5 Replacement of Major Parts 2. Antenna unit Table 6.5.2 List of Major Parts Incorporated in Antenna Unit Board Type Code Remarks 03P9348A 00853628000 For X-Band, 12 kW 03P9348B 00853629000 For X-Band, 25 kW 03P9348C 00853960000 For S-Band, 30 kW 03P9346-33A 00854522000 Common (See p.6-19)
Page 334: Control Unit: Rcu-014, Rcu-015, Rcu-016
6.5 Replacement of Major Parts 3. Control unit: RCU-014, RCU-015, RCU-016 Table 6.5.3 Board Incorporated in Control Unit Board Type Code Remarks 03P9343 00853636000 RCU-014 CONTROL 03P9344 00853638000 RCU-015, RCU-016 BUZZER 03P9362 00853637000 RCU-014 TRACK BALL TA4726N 00014713900 Common 4. Monitor unit: MU-231CR, MU-201CR Table 6.5.4 Boards Incorporated in Monitor Unit Board Type...
Page 335: Replacement Of Boards Incorporated In Rpu-013
6.5 Replacement of Major Parts 6.5.2 Replacement of boards incorporated in RPU-013 1. SPU board The SPU board is commonly used for X-band and S-band radars. When replacing the SPU board, check and make the setting of the items listed in the table below at least. Table 6.5.6 Check Items in Replacing SPU Board Check item Remarks...
Page 336: Pwr, Hv And Fil Board
6.5 Replacement of Major Parts 2. PWR, HV and FIL board When replacing the PWR board, pay attention to the gearbox type (antenna speed) and power input type. When replacing the TX-HV board, pay attention to the radar output power. Table 6.5.7 Combination of PWR, HV and FIL Board PWR board FIL board...
Page 337: Replacement Of Major Parts Of Tr Unit
6.5 Replacement of Major Parts 6.5.3 Replacement of major parts of TR unit 1. Guarantee of Antenna Motor and Magnetron The life of parts varies with operating conditions. The table below shows the estimated lifetime to be used as a guide. Table 6.5.8 The Life of Antenna Motor and Magnetron Parts Type...
Page 338: References
6.5 Replacement of Major Parts 3. References 1) Method for adjusting magnetron current Basically, there is no need for adjusting the Magnetron current. Even if a Magnetron is replaced, it is not needed to adjust it. - Make a transmission at L pulse and adjust VR1 on the MD board so that voltage between J3 - #1 and #3 on the RFC board is within the voltage range specified.
Page 339: Replacement Of Mic
6.5 Replacement of Major Parts 2) Method for adjusting the heater voltage Basically, there is no need for adjusting the heater voltage in the field. The heater voltage is measured at J833-#11 and-#12 on the PWR (RF) board. - In ST-BY, S1-M1 pulse state: Adjust R28 on the PWR (RF) board so as to achieve the voltage specified.
Page 340: Saving To Card I/F Unit: Cu-200
6.6 Saving to Card I/F Unit: CU-200 6.6 Saving to Card I/F Unit: CU-200 6.6.1 Contents to be saved for CU-200 When the CU-200 is installed, the following items can be saved to the memory card in “[Menu] -> 6: CARD”. - 4.
Page 341 6.6 Saving to Card I/F Unit: CU-200 5. [8. WR SETTING DATA] (File name: Sxxxxxxx) Table 6.6.1 Items to be Saved in WR SETTING DATA Item Contents to be saved Remarks Range Range setting value in [Range] box 0.125 to 48 NM Setting value of presentation mode in HEAD UP RT to NORTH Disp mode...
Page 342 6.6 Saving to Card I/F Unit: CU-200 Alarm [Menu] -> 3: ALARM ARP/AIS [Menu] -> 4 4. ARP/AIS Plotter [Menu] -> 5 5. [Plotter] NAV Data [Menu] -> 7 7. [NAV data] 2. NAV LINE DATA NAV LINE WPT [Menu] -> 8 -> 2, 4, 5, 4.
Page 343: Battery Replacement Of Gc-10
6.7 Battery Replacement of CG-10 6.7 Battery Replacement of GC-10 CAUTION! Take care to avoid short-circuit of the battery. This could create a burn or fire hazard. Do not dispose of battery in a fire or an incinerator; this may cause an explosion! The life of a battery is approximately 5 years although it varies with the operating conditions of the unit.
Page 344: Connection Of Eg-3000
6.8 Connection of EG-3000 6.8 Connection of EG-3000 Follow the instructions given below for connecting EG-3000 for displaying demo pictures. But GAIN and STC cannot be adjusted. Adjustment of video signals Make adjustments of R401 so that the level of TP58 on the SPU board achieves 2Vp-p. See p.4-81.
Page 345: Chapter 7. Block Description
Chapter 7. Block Description 7.1 Overview 7.1 Overview The standard supply units are comprised of Processor unit, Monitor unit, Control unit and Antenna unit (TR unit). Serial signals are used as control signals between each unit. The ARPA and video plotter functions are incorporated in the SPU board as standard and a performance monitor is integrated into the Antenna unit as an option.
Page 346: Overall Block Diagram
7.1 Overview 7.1.2 Overall block diagram X-band: RSB-096/097, RTR-078/079 S band: RSB-098/099/100/101/102, RTR-080 From RFC Antenna unit PM Trig PM Enable PM Leve Motor +12/-12V IF AMP* X band: 03P9335A D MON IF AMP* IF-VIDEO MIX Limitter S band: 03P9335B HD SW (03P9335A/B) TUNE...
Page 347 7.1 Overview RSB-103 Motor HD SW BP GEN (03P9347) PM Trig PM Enable PM Leve +12/-12V Antenna unit (03P9349A) PM Trig PM Enable PM Leve +12/-12V RTR-081 T/R unit DI MON IF AMP IF-VIDEO MIX Limitter (03P9335A) TUNE PIN ATT Mag./ Cable ATT Data Pulse transformer...
Page 348 7.1 Overview RSB-104/105 Motor HD SW BP GEN (03P9347) PM Trig PM Enable PM Leve +12/-12V Antenna unit (03P9349) RTR-082 T/R unit DI MON IF AMP IF-VIDEO MIX Limitter (03P9335B) Motor 3ph TUNE PIN ATT Mag./ Cable ATT Data Pulse transformer MBS Enable STC Detect TUNE IND...
Page 349: Antenna Unit
7.2 Antenna Unit 7.2 Antenna Unit 7.2.1 RFC board (03P9346A) The RFC board is used commonly for X-band and S-band radars. The version of the RFC board can be checked in the “FACTORY TEST”. See page.6-19 for details. 1. Control signals The RFC board and the SPU board of the Processor unit communicate with each other through RS-422/115.2 kbps by the asynchronous communication method.
Page 350: Control Between Rfc Board And Md Board
7.2 Antenna Unit 2. Control between RFC board and MD board The RFC board outputs four TX triggers to the MD board to generate TX pulses corresponding to pulse length set in the Processor unit. Changing the timing of each trigger and pulse length controls the TX pulse length and waveform.
Page 351 7.2 Antenna Unit RFC (03P9346A) PIN ATT CONT PIN ATT CONT FET ATT FET ATT TUNE GATE TUNE GATE SAMPL HOLD SAMPL HOLD MSB ENABLE MSB ENABLE TEST SIG ENABL TEST SIG ENABL TEST SIG (03P9335) BP GEN 2.5V (03P9347) STC-CONT Data D0-7 (D/A)
Page 352: Md Board (03P9244)
7.2 Antenna Unit 7.2.2 MD board (03P9244) The MD boards have no compatibility because the part parameters are different according to the types. Table 7.2.2 Types of MD boards Types of Remarks MD board 03P9244A For X-band, 12 kW (RTR-078) 03P9244B For X-band, 25 kW (RTR-079, 81) 03P9244E...
Page 353: Tx Trigger
7.2 Antenna Unit 1. TX trigger Four triggers different in pulse length to each drive circuit of the MD board. These outputs are combined to create high-voltage TX pulses. The waveform of short and middle TX pulses is a triangular wave. In signal processing, it allows suppressing relatively weaker echoes such as sea clutter on short range.
Page 354: Short Pulse And V Trig Signal
7.2 Antenna Unit 2. Short pulse and V TRIG signal U1 (MB3776AP) on the MD board is a switching power supply and generates the power supply to the trigger amplifier circuits of the RFC board (Q1 -12) and MD board (Q5-20).
Page 355: Rf Circuit
7.2 Antenna Unit 4. RF circuit Magnetron While the Magnetron is not operating, TX high voltage (TX-HV) runs through R1/2, and is changed on capacitor: C1-4. When trigger pulse is applied to MOS-FETs Q1 to Q4, the FET is turned on and discharges C1 to C4. Voltage is increased on the primary winding of the pulse transformer and high voltage of 6 kV to 8 kV is generated on the secondary winding to make the Magnetron oscillate.
Page 356 7.2 Antenna Unit - CR802, 803 CR802 and 803 serve to protect the Magnetron. When the trigger is switched from ON to OFF, counter-electromotive force (overshoot) generated on the Magnetron is released to the GND line. - L3 (MD board) L3 serves to protect the heater power supply circuit.
Page 357: If Board (03P9335)
7.2 Antenna Unit 7.2.3 IF board (03P9335) The IF board has different parts in X-band and S-band radars and is not compatibly used for different types of radars. 03P9335A 03P9335B IF board for X-band radar IF board for S-band radar The IF board is comprised of a video detection circuit and the semi-log amplifier circuit of IF signals (60 MHz).
Page 358 7.2 Antenna Unit TUNE GATE N J821 1.SDATA Hi: Disale 2. CLK Lo: Enable 3. DATEN TUNE IND 4, 7, 11. GND Q7,8 (DET) 5. VBW B 6. VBW A 8. STC DETECT Hi: SW ON 9. TUNE GAIN 10. TUNE IND Lo: SW OFF TUNE GAIN 12.
Page 359 7.2 Antenna Unit - VBW-A, B Tuning circuits are switched to achieve the required bandwidth for improving S/N of video signals. They are switched according to pulses of S1/2, M1/2/3 and L pulse. - STC DETECT This is a signal to create the AUTO STC curve. - MBS ENABLE This is a signal to reduce main bang caused by leaked TX signal.
Page 360: B.p Gen Board (03P9347)
7.2 Antenna Unit - FET ATT N This is a control signal for adjusting the ring suppression. When the control time of the MBS is complete, this signal starts to reduce the gain of Q1 to activate the ring suppression. The larger is the setting value of [Menu] -> 0 -> 2 -> 0:Ring Suppression, the more extended is the time for enabling the ring suppression.
Page 361: Hd Signal
7.2 Antenna Unit 2. HD signal HD signals are detected by turning on and off the lead switch by the magnet mounted on the drive gear. This output pulse length varies with the antenna rotation. The period in which the heading pulse is turned on is in a range of 0 to 90 degrees. The duty ratio is 1:4.
Page 362: Pwr (Rf) Board (03P9348)
7.2 Antenna Unit 7.2.5 PWR (RF) board (03P9348) The PWR (RF) board has different parts for X-band and S-band radars and is not compatibly used for different band radars. Table 7.2.3 Differences of PWR(RF) board Difference Name of Applicable Heater V Heater V PWR(RF) radar type...
Page 363 7.2 Antenna Unit L11,CR11,C14 Q3(2SJ265) (D4F60) +12V (SI 8120) +12V +24V VOLTAGE (L1) R52,59 CONTROL 60kHz PR5V FILTER -24V R13-16 PR+5V (uPC317HF) CR52,C51 +32V (MC34063AP1) Serise Q11,C13 (AN78L05) COMP VOLTAGE -SOFT CONTROL START Voltage - Output Protect CONT Q41(2SJ256) U2(M519578FP) CR41,C45 RT41 -12V...
Page 364 7.2 Antenna Unit - Heater power supply circuit U21 is the switching power supply for the Magnetron heater outputting 7.5 VDC/1.3 A and operates at 125kHz. Q22 and C23 connected to the SS terminals of U21 are circuits for output control and soft start. U21 is controlled by HEATER VLT signals from the RFC board and changes heater voltage during “ST-BY”...
Page 365: Mss Board (Mss7497)
7.2 Antenna Unit 7.2.6 MSS board (MSS7497) The MSS board is used for S-band radars and not compatibly used due to different part by differences in antenna motor voltage. MSS7497A MSS7497 ANT motor power supply: 380/440VAC ANT motor power supply: 200/220VAC Since the antenna size of S-band radar is large, there is a risk that the antenna revolution mechanism and motor may be damaged due to too large loads if the rated voltage is applied to the antenna motor suddenly.
Page 366 7.2 Antenna Unit - When the stationary state of the antenna rotation has been achieved: C3 is recharged and maintains about 7.5 VDC. C4 is recharged through Q1 and Q2 -> Q3 is turned on -> U2 and U3 are turned on -> C4 is discharged through Q3.
Page 367: Turning Operation
7.2 Antenna Unit 7.2.7 Turning operation 1. Automatic tuning operation The automatic tuning operation includes full search and small search. In these automatic tuning operations, a start command sent from the SPU board is executed on the RFC board to control tuning voltage of the MIC. After searching is complete, tracking operation starts to find the maximum tuning point at all times.
Page 368: Manual Tuning
7.2 Antenna Unit - Full search The full search is performed to find the tuning point where the tuning indicator voltage (TUNE IND) becomes largest within a tuning voltage (TUNE) range between about 5 V and 25 V. The full search starts by executing [Menu] -> 1 -> 3:TUNE INITIALIZE.
Page 369: Automatic Stc (Sea Auto)
7.2 Antenna Unit 7.2.8 Automatic STC (SEA AUTO) This signal processing is performed on the RFC board. This setting is switched by ON/OFF of the [AUTO/MANU SEA] box. The automatic STC is a function to automatically control the level of STC waveform corresponding to receiving levels. It calculates an optimum sea clutter attenuation curve corresponding to signal levels of a near range and creates STC voltage.
Page 370 7.2 Antenna Unit The figure below shows sea clutter and STC CONT voltage created by averaging the sea clutter level. For instance, if a strong sea clutter signal ahead is erased by the manual STC, weaker target echoes behind are also erased. If the STC is adjusted so as to leave echoes behind, sea clutter signals ahead remain.
Page 371: Processor Unit (Rpu-013)
7.3 Processor Unit: RPU-013 7.3 Processor Unit (RPU-013) 7.3.1 Overview Processor unit is comprised of SPU, NET-100, PWR, TX-HV, TB and FIL boards. This unit is used commonly to X-band and S-band radars and different outputs. However, the power supply board and TX-HV board are different depending on the output power, antenna resolution speed and TX output power.
Page 372: Tb Board (03P9342)
7.3 Processor Unit: RPU-013 7.3.2 TB board (03P9342) The TB board is for connection with external equipment. This board can be used commonly for FAR-2xx7 series. 1. Block diagram J651:HV TX HV TX-HV J613: SCANNER UNIT +12V J652: POWER POWER SW J602: KEY PWRp.c.b +24V...
Page 373 7.3 Processor Unit: RPU-013 The figure below shows the interface of the AIS and HEADING SENSOR ports. Inputs and outputs are isolated by LC1535 both on the TX and RX lines. The resistor of the RD line is the terminating resistor. Loads on the talker side set ON/OFF of the resistance.
Page 374: Connector
7.3 Processor Unit: RPU-013 Connector Table 7.3.1(1/2) Connector on the TB board TB board (03P9342) Connector No. Overview Input of MIX (Video Sig.,) 60 MHz IF receiving signal from J609 (Terminal) IF VIDEO sig. TR unit J651 (2P-VH) HV input from TX high voltage board (HV-9017) J652 (10P-VH) For connecting to the PWR board MIX: (Video Sig.,) 60 MHz IF receiving signal inputted into the...
Page 375 7.3 Processor Unit: RPU-013 Table 7.3.1(2/2) Connector on the TB board TB board (03P9342) connector No. Overview Connector for Video, HD, B.P and Trigger output signals from J618 (8P-NH) SUB DISPLAY-2 master radar. Video signal is in SEMI-LOG. TTM output of IEC61162-1 type. For outputting TTM, set J619 (3P-WAGO) ECDIS [Menu] ->...
Page 376: Spu Board (03P9337)
7.3 Processor Unit: RPU-013 7.3.3 SPU board (03P9337) This board can be used commonly for FAR-2xx7 series. 1. Block diagram The SPU board performs picture, LAN, video amplifier, ARPA and video plotter processing in addition to the control over the whole radar. The CPU is comprised of three components of Main CPU, ARPA CPU, DRW CPU.
Page 377 7.3 Processor Unit: RPU-013 The figure below shows the overview of functions of FPGA. See page.7-37 for specific signal processing. NET-100 (LAN I/F) ARPA CPU Echo select Echo detct Tracking CPA/TCPT FULL LOG Video SEM LOG Video AD Con. OP video signal ARPA test echo ARPA Test echo/HD/BP/TRIG...
Page 378 7.3 Processor Unit: RPU-013 Table 7.3.2 Major devices Device model Application HD6417750RF240(SH4) MAIN CPU Data processing, control and operation Memory for MAIN CPU. When the power EDS1232AATA-75 128 M SDRAM is on, the program from U48 is decompressed and starts MAIN CPU - MAIN, ARPA, DRW CPU programs are compressed and stored.
Page 379: If-Video Mix Signal Input
7.3 Processor Unit: RPU-013 2. IF-VIDEO MIX signal input IF-VIDEO MIX signals in which video signals and 60 MHz IF signals from the TR unit are superimposed and separated at HPF (30 MHz)/LPF (30 MHz), and outputted as external monitor signals of Slave-Display-1 and Slave Display-2. Slave-Display-1 is set as Full-Log signal and Slave Display-2 as Semi-Log signal but the jumper setting of JP3 to JP6 can change the setting.
Page 380: Structure Of Screen
7.3 Processor Unit: RPU-013 3. Structure of screen The order of presentation of screen is as follows: 1. Color-filled chart, plotter 2. Radar echo, echo trail 3. Radar mark 4. ARPA, AIS 5. Characters: Menu, icon display, cross-cursor The mask screen controlling the display area of the screen in [Menu] -> 1 -> 7:ECHO AREA masks the screens 1 through 4 in Fig.7.3.8.
Page 381: Signal Processing
7.3 Processor Unit: RPU-013 7.3.4 Signal processing Signal processing is performed on the SPU board. The figure below shows the concept of the processing sequence. STC control done on the RFC board is performed on the basis of the control data from the SPU board.
Page 382: Echo Trail Processing: [Trail] Menu
7.3 Processor Unit: RPU-013 １１１１ . Echo trail processing: [TRAIL] menu See page.3-18 for related information on the [TRAIL] box menu. This menu allows the setting of Trail Mode, Trail Grad, Narrow Trail, Trail Level, Trail Reset, Trail Copy and OS Trail.
Page 383: Wiper Processing (Wiper)
7.3 Processor Unit: RPU-013 - Narrow trail When the setting of Narrow Trail is turned on, a trail width is presented in one dot. The narrow trail can be used when selecting the long trial time. This feature is not available on the IMO and A type radars.
Page 384 7.3 Processor Unit: RPU-013 - WIPER-1 The input signal is computed using the wiper coefficient K and the signal level is gradually reduced. The smaller is the signal level, the smaller the wiper coefficient is. Consequently, weaker signals disappear quicker than stronger signals. Time Signal Level:S S x K1=S1...
Page 385: Zoom
7.3 Processor Unit: RPU-013 3. Zoom Zoom magnification can be selected in the setting of 4:ZOOM (OFF/2 TIMES/3 TIMES) of [Menu] -> 9 -> 2:DATA BOX menu. For zoom processing, select “ZOOM” in the [CURSOR] menu. Place the cursor on the picture to be zoomed and click the left button.
Page 386 7.3 Processor Unit: RPU-013 4-2 Video magnification (ECHO STRETCH) This setting is made in OFF/1/2/3 of the [PICTURE] box menu. - ES-1: An echo is stretched in the bearing direction. - ES-2: An echo is stretched in the distance direction - ES-3: An echo is stretched in the bearing direction and distance direction.
Page 387 7.3 Processor Unit: RPU-013 Fig. 7.3.12(2/2) Examples of ES pictures 4-3 Signal processing (EAV: ECHO AVERAGE) This setting is in OFF/1/2/3 of [PICTURE] box menu. Used for displaying target signals by distinguishing them from unwanted signals of sea clutter, rain and others. - EAV-1 Used for displaying target signals by distinguishing them from unwanted signals of sea clutter, rain and others.
Page 388 7.3 Processor Unit: RPU-013 EAV OFF EAV1 EAV3 EAV2 Fig. 7.3.13 Examples of EAV pictures Overview of EAV-1 and 2 processing In EAV-1 and 2, correlation processing is performed by making comparisons between the current screen and last screen. EAV-1 is for the past two correlation processing and EAV-2 is for the past three correlation processing.
Page 389 7.3 Processor Unit: RPU-013 The figures below show input signals and EAV output level in a simplified way. Although there are 32 signal levels, they are shown in 0 to 7 levels in the figures. ２２２２ EAV-1 EAV- n+1 n+2 n+3 Scan...
Page 390 7.3 Processor Unit: RPU-013 Overview of EAV-3 processing EAV-3 processing is not the correlation processing like EAV-1 and 2. In this processing, unwanted signals that cannot be processed in FTC and STC are emphasized. At the maximum input signal level (level 32): The previous signal is compared with the current signal.
Page 391 7.3 Processor Unit: RPU-013 - Input-1 Shows EAV outputs when the strongest signals are inputted in a row. - Input-2 Shows EAV outputs when signals of the medium level are inputted in a row. The EAV outputs become increasingly larger than inputted signals and finally reach the highest level.
Page 392 7.3 Processor Unit: RPU-013 4-5 Automatic FTC (AUTO RAIN) This setting is made in FTC OFF/1/2/3/4 of the [PICTURE] box menu. Processing Range Moving average deviations Target echo Rain/snow echo FTC setting C=A-B FTC VR (A/C RAIN VR) Fig. 7.3.17 Schematic diagram of AUTO FTC The input signal A is subjected to the processing of moving average deviation.
Page 393 7.3 Processor Unit: RPU-013 4-6 VIDEO CONTRAST (VIDEO CONTRAST) The setting of VIDEO CONTRAST is made in A/B/C and 1/2/3/4 of the [PICTURE] box menu. This is the setting of the contrast of a displayed picture. The strength of a video signal is set by combining its change width of the picture level and the curve of its change width.
Page 394 7.3 Processor Unit: RPU-013 Example of video contrast setting in FAR-2837S The processing of 12 NM and other signals is set to OFF. The photos below show the setting values of change width of the picture level and change width curve. Fig.
Page 395: Examples Of Factory Setting For Each "Picture"
7.3 Processor Unit: RPU-013 5. Examples of factory setting for each “Picture” 5-1. FAR-2827 Noise REJ.:All OFF Picture-1 - Range: 6NM - IR: 2 - ES: OFF - EAV: OFF - STC: MAN (50) - RAIN: MAN (50) - Auto RAIN: OFF - Video contrast: 2/B - Pulse: M2 - Sea condition: 2...
Page 396 7.3 Processor Unit: RPU-013 Picture-3 - Range: 6NM - IR: 2 - ES: OFF - EAV: 2 - RAIN: MAN (50) - Auto STC (54) - Auto RAIN: OFF - Video contrast: 2/B - Pulse: M2 - Sea condition: 3 Picture-4 - Range: 6NM - IR: 2...
Page 397 7.3 Processor Unit: RPU-013 NEAR - Range: 6NM - IR: 2 - ES: OFF - EAV: OFF - STC: MAN (50) - RAIN: MAN (50) - Auto RAIN: OFF - Video contrast: 3/B - Pulse: M2 - Sea condition: 2 SHIP - Range: 6NM - IR: 2...
Page 398 7.3 Processor Unit: RPU-013 NEAR BUOY - Range: 6NM - IR: 2 - ES: 1 - EAV: 1 - STC: MAN (50) - RAIN: MAN (50) - Auto RAIN: OFF - Video contrast: 3/B - Pulse: L - Sea condition: 2 FAR BUOY - Range: 6NM - IR: 2...
Page 399 7.3 Processor Unit: RPU-013 ROUGH SEA - Range: 6NM - IR: 2 - ES: OFF - EAV: 2 - RAIN: MAN (50) - Auto RAIN: OFF - Auto STC (54) - Video contrast: 2/A - Pulse: M2 - Sea condition: 4 SHIP - Range: 6NM - IR: 2...
Page 400 7.3 Processor Unit: RPU-013 HARBOR - Range: 6NM - IR: 2 - ES: OFF - EAV: OFF - STC: MAN (50) - RAIN: MAN (50) - Auto RAIN: OFF - Video contrast: 3/B - Pulse: M3 - Sea condition: 2 COAST - Range: 6NM - IR: 2...
Page 401 7.3 Processor Unit: RPU-013 5-2. FAR-2837S Noise REJ.：All OFF Picture-1 - Range: 6NM - IR: 2 - ES: OFF - EAV: OFF - STC: MAN (50) - RAIN: MAN (50) - Auto RAIN: OFF - Video contrast: 2/B - Pulse: M2 - Sea condition: 2 Picture-2 - Range: 6NM...
Page 402 7.3 Processor Unit: RPU-013 Picture-3 - Range: 6NM - IR: 2 - ES: OFF - EAV: 2 - RAIN: MAN (50) - Auto STC (54) - Auto RAIN: OFF - Video contrast: 2/B - Pulse: M2 - Sea condition: 3 Picture-4 - Range: 6NM - IR: 2...
Page 403 7.3 Processor Unit: RPU-013 NEAR - Range: 6NM - IR: 2 - ES: OFF - EAV: OFF - STC: MAN (50) - RAIN: MAN (50) - Auto RAIN: OFF - Video contrast: 3/B - Pulse: M2 - Sea condition: 2 - Range: 6NM - IR: 2 - ES: 2...
Page 404 7.3 Processor Unit: RPU-013 NEAR BUOY - Range: 6NM - IR: 2 - ES: 1 - EAV: 1 - STC: MAN (50) - RAIN: MAN (50) - Auto RAIN: OFF - Video contrast: 3/B - Pulse: L - Sea condition: 2 FAR BUOY - Range: 6NM - IR: 2...
Page 405 7.3 Processor Unit: RPU-013 ROUGH SEA - Range: 6NM - IR: 2 - ES: OFF - EAV: 2 - RAIN: MAN (50) - Auto RAIN: OFF - Auto STC (54) - Video contrast: 2/A - Pulse: M2 - Sea condition: 4 SHIP - Range: 6NM - IR: 2...
Page 406 7.3 Processor Unit: RPU-013 HARBOR - Range: 6NM - IR: 2 - ES: OFF - EAV: OFF - STC: MAN (50) - RAIN: MAN (50) - Auto RAIN: 2 - Video contrast: 3/B - Pulse: M3 - Sea condition: 2 COAST - Range: 6NM - IR: 2...
Page 407: Power Board
7.3 Processor Unit: RPU-013 7.3.5 Power board 1. Power supply specifications The power board differs according to the types of input power supply and antenna revolving speed. See page.4-64 to 68. Jumper setting inside the board performs switching between 100 to 115 VAC and 220 to 230 VAC power supply in a ship.
Page 408 7.3 Processor Unit: RPU-013 7-64...
Page 409 7.3 Processor Unit: RPU-013 7-65...
Page 410: Block Description Of Ac Power Board (03P9339)
7.3 Processor Unit: RPU-013 3. Block description of AC power board (03P9339) Power supply interface - POWER FAIL This feature monitors the TP11 (+12 V) power supply line. POWER FAIL signal is outputted when voltage is lowered on this line, and the switching power supply become out of control.
Page 411 7.3 Processor Unit: RPU-013 3. Turning the power ON The status of power switch of RCU-014 and RCU-015 is detected at the window comparator comprised of U3 and U4. The power switch is of a latch type and opens when the power is ON and closes when the power is OFF. U4 output switches +12 VDC power supply at Q3 via U2 and Q4 and generate “PR12_A”.
Page 412: Block Description Of Dc Power Board (03P9338)
7.3 Processor Unit: RPU-013 1. Turning on the antenna ANT ON signals inputted from the SPU board control the switching power supply IC of U161 via the “ANT Soft Start” circuit comprised of Q153 and C157. 2. Maintaining the antenna speed constant To maintain the antenna speed constant, there is a feed-back circuit provided.
Page 413: Tx-Hv Board (Hv-9017)
7.3 Processor Unit: RPU-013 7.3.6 TX-HV board (HV-9017) The setting of JP1 and JP2 on the TX-HV board differs depending on the radar TX output of 10 kW and 25 kW or more. See page.4-69 for the related setting. 500V J482 (CR11) 300V...
Page 414: Net-100 Board (03P9332)
7.3 Processor Unit: RPU-013 7.3.7 NET-100 board (03P9332) LAN is based on 100BASE-Tx standard. NET-100 is the interface for I/O signals of the SPU board, pictures on the radar screen, operating signals of control unit and LAN. CU-200 also has the same NET-100 board and card data is exchanged through the LAN.
Page 415: Control Unit
7.4 Control Unit 7.4 Control Unit Models RCU-014, RCU-015 and RCU-016 are available for the control units RCU-014 and RCU-015 have a power switch. RCU-016 does not have a power switch and is used for a remote control unit for RCU-014 or RCU-015. They are connected in series. When two control units are used, operation from each control unit is at the same level.
Page 416 7.4 Control Unit The figure below is the block diagram of connection of RCU-013 and RCU-014. See page.4-58 for information of System Fail. RPU-013 RCU-014 REMOTE PROCESSOR J502 J501 p.c.b (RS422 I/F) (RS422 I/F) J602 RS422 I/F KEY TXD H/C TD UP H/C TD DN H/C TX/RX 0...
Page 417: Monitor Unit
7.5 Monitor Unit 7.5 Monitor Unit 7.5.1 Overview See page.4-41 for the selecting and setting of a monitor unit to be connected. See page.7-76 for connection with a monitor unit not given below. - MU-201CR This is an LCD of SGXA type. SXTA signals are inputted from RPU-013 by the setting of S1-1/2 (OFF/OFF) of the SPU board.
Page 418: Block Diagram Of Monitor Unit
7.5 Monitor Unit 7.5.2 Block diagram of monitor unit 1. MU-201CR The power-on signal of the monitor unit is inputted into the DVI I/F board as signals of #14 pin (+5 V POWER) of the DVI connecter. The DVI I/F board outputs “RC+/-” signals based on these signals to control ON/OFF of the power supply unit LCD panal NL128102AC31-02...
Page 419: Mu-231Cr
7.5 Monitor Unit 2. MU-231CR The power-on signal of the monitor unit is inputted into the DVI I/F board as signals of #14 pin (+5 V POWER) of the DVI connecter. The DVI I/F board outputs DDC +5 V signals based on these signals to control ON/OFF of the power supply unit and outputs “RC+/-”...
Page 420: List Of Monitor Units
7.5 Monitor Unit 7.5.3 List of monitor units The table below shows color LCD monitors connectable with FAR-2xx7 series. Table 7.5.2 Connection of LCD monitor MU-201CR MU-231CR Model MU-120C MC-155C MU-151C MU-201C (Standard) (Standard) Connection Electrically connectable with FAR Picture size 20.1 23.1 12.1...
Page 421: How To Call Up The Initialize And Factory Menus
Chapter 8. Q & A Q & A 1. How to call up the INITIALIZE and FACTORY menus Refer to page.4-1 for the setting. - INITIALIZE menu: Press the [Menu] key 5 times while holding down the [1: HL OFF] key. - FACTORY menu: Press the [2], [3] and [4] keys in order while holding down the [1: HL OFF] key.
Page 422: What Is The Maximum Cable Length Usable Between Each Unit See Page.1-9
Q & A 4. What is the maximum cable length usable between each unit? See page.1-9. - Between Processor unit and Control unit: Max. 30 m Between Processor unit and TR unit: Max. 100 m (FAR-2xx7 and 2xx7S: 300 m when used with RJB-001 and thicker antenna cable) - Between Processor unit and Monitor unit: Max.
Page 423: How Many Units Can Connect For The Inter-Switch Function See Page.4-19, 4-21 And 4-23
Q & A 9. How many units can connect for the Inter-switch function? See page.4-19, 4-21 and 4-23. Up to four radars and up to four monitors can be connected. Make connections via HUB-100. The related setting is made in [Menu] -> 0 -> 4 -> 4: RADAR NO. To make the unit serve as Radar, assign 1 to 4 to the radar number.
Page 424: See Page.4-74
Q & A 15. Can the same ports be used for connecting a sub monitor? See page.4-74. There are two ports for connecting to the sub monitor, one for outputting semi-log video signals and the other for full-log video signals. Select an appropriate port by understanding the characteristics of each.
Page 425: Which Chart Card Is Read When 2 Chart Cards Are Inserted Into Cu-200?
Q & A 19. Which chart card is read when 2 chart cards are inserted into CU-200? - When two chart cards are inserted: Priority is given to a card that includes Detailed Data of the chart and includes the own ship position within the range of the chart. - If both cards include Detailed Data of the chart, the card that was displayed before updating is read.
Page 426: See Page.4-64
Q & A 22. To change the power source type for temporary use. See page.4-64. To change the type of AC power supply: Change the jumper setting of J108 on the PWR board (03P9339). - 100 VAC: Jumper between 1-2, 4-7 and 5-8. - 220 VAC: Open the jumper.
Page 427: See Page. 4-25
Q & A 26. What is the difference among the IMO, A, B, C and W types? See page. 4-25. IMO: IMO compliant A: Near-IMO specifications B: Non-Japanese fishing vessels C: Japanese fishing vessels W: Washington state (USA) ferry (special type with some special function added to the B type) Functions differ according to the type setting.
Page 428: Is There A Priority Order For Nav-Data Connecting Ports On The Tb Board See Page.6-11
Q & A 31. Is there a priority order for NAV-data connecting ports on the TB board? See page.6-11. For position data, the [OS POSN] box menu GPS-1 or GPS-2. Ports for accepting data differ according to the setting. NAV data is accepted from J606 on the TB board when GPS-1 is selected, and there is a priority order for connecting ports when GPS-2 is selected.
Page 429: Arpa Targets Are Quickly Lost See Page.4-8
Q & A 36. ARPA targets are quickly lost. See page.4-8. 1) Check that the TX output interval of the AD converter is 25 msec. 2) Check that the data of [Menu] -> 0 -> 6 -> 8:TRACK PRESET is not changed from the default.
Page 430: What Can Be Saved On A Memory Card
Q & A 40. The [BRILL] box menu is not displayed. And the brilliance cannot be adjusted even by turning the BRILL control. See page.4-41 and 7-73. Check the setting of S1 of the SPU board. The setting of S1 is set to the “BB” type.
Page 431 Q & A 46. How to erase the MARK The MARK can be erased in [Menu] -> 5 -> 8:DATA ERASE. To erase an entered mark individually, select “MARK DELETE” in the [CURSOR] icon menu and place the cursor on the mark to be erased and click the left button 47.
Page 432: Is It Possible To Make The Setting Of Ais Static Information And To Send Ais
Q & A 50. Is it possible to make the setting of AIS static information and to send AIS messages from the FAR? See page.3-13. It is possible in the setting of the [AIS] box menu. - [AIS] -> 5 [TRANSMIT MESSAGE] AIS messages created here are sent by AI ABM and BBM sentences to the AIS unit and sent as AIS messages.
Page 433: Show The Symbol Marks Of The Ais And Arpa
Q & A 52. Show the symbol marks of the AIS and ARPA. See the Operator’s Manual of the FAR. AIS symbol SOG Victor & COG Heading Sleeping Terget Lost Target Activated Target Target selected Dangerous Target for data display ARPA symbol Automaticallty ACQ Manually ACQ...
Page 434 Q & A 55. How to connect the EG-3000 See page.6-49. Make the setting as follows: - Select “EG” in [Menu] -> 0 -> 8 -> 2:DEMO ECHO. - Select a type other than “IMO” in [Menu] -> 0 -> 4 -> 7:TYPE. - Adjust R401 so that the level of TP58 is 2 Vp-p.
Page 435 Q & A 60. How to determine the power cable size Select a cable on which the supply voltage drop is 5% or less. The following equation can be used for the calculation of the cable size. - Voltage drop: V = K x r x I x L/1000 - Cable length: L = 1000 x V / K x I x r...
Page 436: Proper Menu Setting Is Not Known. How Can The Setting Be Reset To The Default
Q & A 63. The trackball of the control unit does not move smoothly. When the outer ring of the trackball is turned to the left, the trackball can be removed. Clean the trackball, inside the ring and roller of the trackball in the same manner to clean the mouse of the PC.
Page 437 Q & A 66. Radar echo alignment is abnormal in azimuth direction. See page.4-24. Check the slit of the B.P disk of the gearbox for clogging and the B.P photo interrupter for pollution. The antenna unit outputs 256 pulses for the B.P on the S-band radar and 360 pulses on the X-band radar in one rotation of the antenna.
Page 438 Q & A - LAN: 100BASE-Tx When the communication is not enabled, restart all units connected to the LAN. For the status of communication, check the LEDs on CU-200 and NET-100 of RPU-013. CR-1 lights up when data is running over the LAN, and CR-2 blinks when the unit is linked with the LAN.
Page 439: How To Adjust The Magnetron After Being Replaced
Q & A 70. Echoes are reversed left to right on the S-band radar. Is not the antenna reversely rotating? The antenna should rotate leftward viewed from underneath. Change the connection of one phase of 3-phase power supply of the antenna motor. 71.
Page 440 Q & A 72. Give basic information on radars. 1) Comparison between S-band and X-band Characteristics X-band S-Band In relation to electric Large Small wave transmission Loss due to raindrops 4 mm/h: 4 mm/h: (Related to 0.064 dB/km 0.017 dB/km meteorological Sea returns Large...
Page 441: Equation Of Wave Propagation
Q & A 4) Bearing resolution It refers to the limit of the bearing angle in which approaching targets at the same range can be separately displayed on the screen. This is dependent on the directivity of the antenna (beam width). The beam width of the antenna (XN-24AF) is 0.95 degrees.
Page 442: False Echoes
Q & A 7) False echoes False echoes are echoes that appear on the screen at a position where there is no target as if there is a target. The causes and characteristics of the false echoes are: - Echoes by secondary reflection: Echoes appear in the direction that there is a mast, funnel or others.
Page 443 Q & A For example: false echo Target Port side X-band Radar ANT Radar Antenna e.g.; funnel, mast S-band Radar ANT False echoes 8-23...
Page 444: Appendix 1) Sentences
Appendix 1) Sentences Appendix 1) Sentences Appendix 1) Sentences Appendix 1) Sentences AP1.1 Overview of NMEA-0183 Ver-3.00 AP1.1 OVERVIEW of NMEA-0183 Ver-3.00 1.1.1 Overview of connection 1. Connection Multiple LISTENER may be connected to single TALKER. The LISTENER receive circuit shall consist of an opto-isolator and should have protective circuits to limit current, reverse bias and power dissipation at the opto-diode as shown in Figure 1.1.1 The receive circuit shall be designed for operation with a minimum differential input voltage of 2.0 Volts and shall not take more than 2.0 mA from the line at that voltage.
Page 445 AP1.1 OVERVIEW of NMEA-0183 Ver-3.00 The following sentences are used: e.g) the DTM sentence is: $ -- DTM , ccc , a , x.x , a , x.x , a , x.x , ccc *hh <CR><LF> 1) 2) “$” or “!” HEX 24 or HEX 21 –...
Page 446 AP1.1 OVERVIEW of NMEA-0183 Ver-3.00 Note: Symbol Character of Data Status symbol; Yes; Data Valid; Warning Flag Clear, Auto; Ampere Alphabet character variable A through Z or a through z Bars (pressure, 1000 Mb=1 Std, Atm. =100 kPa); Bottom Celsius (Degrees); Course-up Valid character, Calculating Degrees (of Arc) Error, East;...
Page 447: Talker Names List
AP1.1 OVERVIEW of NMEA-0183 Ver-3.00 3. Talker names list Table 1.1.1 Talker Names List Talker Names Installation Name Heading Track Controller (Autopilot): General Heading Track Controller (Autopilot): Magnetic Automatic Identification System COMMUNICATIONS: Digital Selective Calling (DSC) COMMUNICATIONS: Data Receiver COMMUNICATIONS: Satellite COMMUNICATIONS: Radio-Telephone (MF/HF) COMMUNICATIONS: Radio-Telephone (VHF) COMMUNICATIONS: Scanning Receiver...
Page 448: Ack - Acknowledge Alarm
AP1.2 Configuration of NMEA Ver-3.00 Sentence AP1.2 Configuration of NMEA Ver-3.00 Sentence The following each sentence is limited to FAR-2xx7 series. INPUT 1.2.1 ACK - Acknowledge Alarm $--ACK , xxx *hh<CR><LF> Contents Data Note Acknowledge device alarm. This sentence is used to Acknowledge an ID number of the alarm source alarm condition reported by a device.
Page 449: Bwr - Bearing And Distance To Waypoint – Rhumb Line
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.3 BWR - Bearing and distance to waypoint - rhumb line $--BWR, hhmmss.ss , llll.lll , a , yyyyy.yy, a , x.x , T , x.x , M , x.x , N , c—c , a *hh<CR><LF>...
Page 450: Dbs - Depth Below Surface
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.5 DBS - Depth below surface $--DBS , x.x , f , x.x , M , x.x , F *hh<CR><LF> Contents Data Note Water depth, feet Depth below surface Water depth, meters Water depth, fathoms 1.2.6 DBT - Depth below transducer $--DBT , x.x , f , x.x , M , x.x , F *hh<CR><LF>...
Page 451: Gga - Global Positioning System Fix Data
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.8 GGA - Global positioning system fix data $--GGA, hhmmss.ss, llll.lll, a, yyyyy.yy, a, x , xx , x.x , x.x , M, x.x , M, x.x, xxxx *hh<CR><LF> Contents Data Note UTC of position Latitude, N/S Longitude, E/W 0= fix not available or invalid...
Page 452: Gll - Geographic Position, Latitude/Longitude
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.9 GLL - Geographic position, latitude/longitude $--GLL , llll.lll , a , yyyyy.yy, a , hhmmss.ss , A , a *hh<CR><LF> Contents Data Note Latitude, N/S Longitude, E/W UTC of position A=data valid Status V=data invalid Positioning system Mode indicator: A= Autonomous mode...
Page 453: Mtw - Water Temperature
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.12 MTW - Water temperature $--MTW, x.x , C *hh<CR><LF> Contents Data Note Water temperature Temperature, degrees C 1.2.13 RMB - Recommended minimum navigation information $--RMB , A , x.x , a , c—c , c—c , llll.lll , a , yyyyy.yy , a , x.x , x.x , x.x , A , a 10 11 12 *hh<CR><LF>...
Page 454: Rmc - Recommended Minimum Specific Gps/Transit Data
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.14 RMC - Recommended minimum specific GPS/TRANSIT data $--RMC , hhmmss.ss , A , llll.lll , a , yyyyy.yy, a , x.x , x.x , xxxxxx , x.x , a , a *hh<CR><LF> Contents Data Note UTC of position fix...
Page 455: Vbw - Dual Ground/Water Speed
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.16 VBW - Dual ground/water speed $--VBW , x.x , x.x , A , x.x , x.x , A , x.x , A , x.x , A *hh<CR><LF> Contents Data Note Longitudial water speed, knots Transverse water speed, knots A= data valid Status: water speed...
Page 456: Vtg - Course Over Ground And Ground Speed
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.19 VTG - Course over ground and ground speed $--VTG , x.x , T, x.x , M , x.x , N, x.x , K , a *hh<CR><LF> Data Data Data Data Contents Note Course over ground, degrees true Course over ground, degrees magnetic Speed over ground, knots Speed over ground, km/h...
Page 457: Wpl - Waypoint Location
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.22 WPL - Waypoint location $--WPL , llll.lll , a , yyyyy.yy , a , c—c *hh<CR><LF> Contents Data Note Waypoint latitude, N/S latitude and longitude of Waypoint longitude, E/W specified waypoint. Waypoint identifier 1.2.23 ZDA - Time and date $--ZDA , hhmmss.ss , xx , xx , xxxx , xx , xx *hh<CR><LF>...
Page 458: Vdm - Uais Vhf Data-Link Message
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.25 VDM - UAIS VHF data-link message !AIVDM , x , x , x , a , s—s , x *hh<CR><LF> 1 2 3 4 Contents Data Note VHF data-link message Total number of sentences needed to transfer the message, 1 to 9 This sentence formatter is used to transfer Message sentence number, 1 to 9...
Page 459: Aam - Waypoint Arrival Alarm
AP1.2 Configuration of NMEA Ver-3.00 Sentence Output sentences 1.2.27 AAM - Waypoint arrival alarm $--AAM , A , A , x.x , N , c—c *hh<CR><LF> Contents Data Note A= arrival circle entered Status V= arrival circle not entered Status of arrival (entering the arrival circle, or pass A= perpendicular passed at waypoint Status...
Page 460: Bbm - Uais Broadcast Binary Message
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.29 BBM - UAIS Broadcast binary message !--BBM, x , x , x , x, xx , s--s , x *hh<CR><LF> 1 2 3 4 Contents Data Note Total number of sentences needed to transfer the message, 1 to 9 Message sentence number, 1 to 9 This sentence supports ITU-R...
Page 461: Rsd - Radar System Data
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.31 RSD - Radar system data $RARSD , x.x , x.x , x.x , x.x , x.x , x.x , x.x , x.x , x.x , x.x , x.x , a , a *hh<CR><LF> 11 12 13 Contents Data...
Page 462: Ttm - Tracked Target Message
AP1.2 Configuration of NMEA Ver-3.00 Sentence 1.2.33 TTM - Tracked target message $--TTM , xx , x.x , x.x , a , x.x , x.x , a , x.x , x.x , a , c—c , a , a , hhmmss.ss , a 10 11 *hh<CR><LF>...
Page 463: Ap1.3 Configuration Of The Sentence From Arpa(Far) To Ecdis(Fea.)
AP 1.3 Configuration of the Sentence from AP 1.3 Configuration of the Sentence from ARPA AP 1.3 Configuration of the Sentence from AP 1.3 Configuration of the Sentence from ARPA ARPA(FAR) to ECDIS(FEA.) ARPA (FAR) to ECDIS(FEA.) (FAR) to ECDIS(FEA.) (FAR) to ECDIS(FEA.) AP 1.3 Configuration of the Sentence from ARPA(FAR) to ECDIS(FEA.) 1.3.1 OSD - Own Ship Data...
Page 464: Ttm - Target
AP 1.3 Configuration of the Sentence from AP 1.3 Configuration of the Sentence from ARPA AP 1.3 Configuration of the Sentence from AP 1.3 Configuration of the Sentence from ARPA ARPA(FAR) to ECDIS(FEA.) ARPA (FAR) to ECDIS(FEA.) (FAR) to ECDIS(FEA.) (FAR) to ECDIS(FEA.) 1.3.3 TTM - Target $RATTM , xx , x.x , x.x , a , x.x , x.x , a , x.x , x.x , a , c—c , a , a , hhmmss.ss , a...
Page 465: Rsd - Radar System Data
AP 1.3 Configuration of the Sentence from AP 1.3 Configuration of the Sentence from ARPA AP 1.3 Configuration of the Sentence from AP 1.3 Configuration of the Sentence from ARPA ARPA(FAR) to ECDIS(FEA.) ARPA (FAR) to ECDIS(FEA.) (FAR) to ECDIS(FEA.) (FAR) to ECDIS(FEA.) 1.3.5 RSD - Radar System Data $RARSD , x.x , x.x , x.x , x.x , x.x , x.x , x.x , x.x , x.x , x.x , x.x , a , a *hh<CR>...
Page 466: Ap1.4 Configuration Of The Sentence From Ecdis(Fea) To Arpa(Far.)
AP1.4 Configuration of the Sentence from AP1.4 Configuration of the Sentence from ECDIS ECDIS(FEA) to (FEA) to ARPA ARPA(FAR.) (FAR.) AP1.4 AP1.4 Configuration of the Sentence from Configuration of the Sentence from ECDIS ECDIS (FEA) to (FEA) to ARPA ARPA (FAR.) (FAR.) AP1.4 Configuration of the Sentence from ECDIS(FEA) to ARPA(FAR.)
Page 467: Dtm - Datum
AP1.4 Configuration of the Sentence from AP1.4 Configuration of the Sentence from ECDIS ECDIS(FEA) to (FEA) to ARPA ARPA(FAR.) (FAR.) AP1.4 AP1.4 Configuration of the Sentence from Configuration of the Sentence from ECDIS ECDIS (FEA) to (FEA) to ARPA ARPA (FAR.) (FAR.) 1.4.4 DTM - Datum...
Page 468: Dpt - Depth
AP1.4 Configuration of the Sentence from AP1.4 Configuration of the Sentence from ECDIS ECDIS(FEA) to (FEA) to ARPA ARPA(FAR.) (FAR.) AP1.4 AP1.4 Configuration of the Sentence from Configuration of the Sentence from ECDIS ECDIS (FEA) to (FEA) to ARPA ARPA (FAR.) (FAR.) 1.4.7 DPT - Depth...
Page 469: Paesf - Fix Target Acquire/Cancel
AP1.4 Configuration of the Sentence from AP1.4 Configuration of the Sentence from ECDIS ECDIS(FEA) to (FEA) to ARPA ARPA(FAR.) (FAR.) AP1.4 AP1.4 Configuration of the Sentence from Configuration of the Sentence from ECDIS ECDIS (FEA) to (FEA) to ARPA ARPA (FAR.) (FAR.) 1.4.11 PAESF - Fix Target Acquire/Cancel...
Page 470: Paesw - Waypoint List
AP1.4 Configuration of the Sentence from AP1.4 Configuration of the Sentence from ECDIS ECDIS(FEA) to (FEA) to ARPA ARPA(FAR.) (FAR.) AP1.4 AP1.4 Configuration of the Sentence from Configuration of the Sentence from ECDIS ECDIS (FEA) to (FEA) to ARPA ARPA (FAR.) (FAR.) 1.4.14 PAESW - Waypoint List...
Page 471: Appendix 2) Specifications
Appendix 2) Appendix 2) Specifications Specifications Appendix 2) Appendix 2) Specifications Specifications Appendix 2) Specifications 1. ANTENNA RADIATORS 1. Type Slotted waveguide array 2. Beam width and sidelobe attenuation X-band S-band Radiator type XN12AF XN20AF XN24AF SN30AF SN36AF Length 4 ft 6.5 ft 8 ft 10 ft...
Page 472: Display Unit
11. Parallel index line Choice of 2, 4 or 6 lines 12. AIS IMO SN Circ.217, IEC 60936-5 13. Chart cards FURUNO and NAVIONICS 4. INTERFACE 1. IEC 61162-1 Ed. 2 RSD, TTM, AIS related data, etc. 2. Compass Built-in interface (option) for sync signal (20-135 V, 50-400...
Page 473: Power Supply
Appendix 2) Specifications 5. POWER SUPPLY 1. Display unit 24 VDC or 115/230 VAC, 1ø, 50/60 Hz FAR-21x7: 24 VDC, 2.3 A; 100-230 VAC, 0.7A (100 V) FAR-28x7: 24 VDC, 3.2 A; 100-230 VAC, 0.9 A (100 V) 440 VAC, 1 ø, 50/60 Hz with optional transformer RU-1803 2.
Page 474: Optional Equipment
Appendix 2) Specifications 7. OPTIONAL EQUIPMENT SWITCHING HUB HUB-100 1. Access Format CSMA/CD 2. Switching Format Store and Forward 3. Transmission Speed Half-duplex: 10Mbps/100Mbps Full-duplex: 20Mbps/200Mbps 4. Necessary Cabling 10BASE-T: Category 3 or higher STP cable 100 BASE-TX: Category 5 or higher STP cable 5.
Page 475 D ‑ 1...
Page 476 D ‑ 2 ｺﾈｸﾀｸﾐﾋﾝ (組)MIC MDｷﾊﾞﾝﾄﾘﾂｹｲﾀ組立品 CONNECTOR ASSY RTR‑078 (P)MD L‑110 ±ﾅﾍﾞｾﾑｽB (組)XHｺﾈｸﾀ PRINTED CIRCUIT BOARD XH CONNECTOR WASHER HEAD SCREW *B* 03P9244 A 03‑2105(12‑12P) M3X8 MIC (008‑517‑590) ﾀﾞｲｵｰﾄﾞﾘﾐｯﾀ (008‑534‑810) RU‑9603 RTR‑078 RTR‑079 (P)MD DIODE LIMITER (組)XHｺﾈｸﾀ RTR‑078 (P)PWR (000‑147‑158) (P)RFC PRINTED CIRCUIT BOARD RU‑9099 XH CONNECTOR PRINTED CIRCUIT BOARD PRINTED CIRCUIT BOARD RTR‑079 RU‑9601 03P9244 B (000‑126‑369) 03‑2102(7P) 03P9348 A 03P9346 (000‑147‑156) (008‑517‑600) (008‑536‑280) (008‑536‑310)
Page 477 D - 2A ﾋｰﾀｰｶﾊﾞｰ2 ﾋｰﾀｰｶﾊﾞｰ1 ﾛｯｶｸｾﾑｽA ｱﾝﾃﾅｶﾞｲﾄﾞ HEATER COVER 2 HEATER COVER 1 HEX.WASHER HEAD BOLT *A* ANTENNA GUIDE 03‑163‑3831‑1 03‑163‑3832‑1 6ｶｸﾎﾞﾙﾄｱﾝﾃﾅ ANTENNA RADIATOR ASSEMBLY M4X10 SUS304 03‑163‑3152 (100‑321‑441) (100‑321‑451) HEXAGONAL HEAD BOLT (000‑809‑034) SN30AF 100‑315‑680 M10X25 SUS316L (008‑505‑920) (000‑150‑828) ｾﾝｻｰｹｰｽ SENSOR CASE SN36AF SPRING WASHER ｱﾝﾃﾅｱﾝｸﾞﾙ 03‑163‑3836‑0 (008‑505‑910) ANTENNA ANGLE BRACKET M10 SUS316L (100‑321‑490) 03‑163‑3151 (000‑147‑303) 100‑315‑672 ﾋﾖｳｹﾂﾎﾞｳｼﾋ‑ﾀ‑ DEICERﾌﾟﾘﾝﾄ FLAT WASHER DEICER HEATER P.C.B.
Page 478 D ‑ 3 ｱﾝﾃﾅ ANTENNA RADIATOR ASSEMBLY XN20AF (008‑485‑260) XN24AF (008‑485‑270) 標準ｽｷｬﾅｶﾊﾞｰ NORMAL SCANNER COVER ASSEMBLY RSB‑0074/75/92/96/97 ｶﾞｲﾄﾞｶﾅｸﾞ (008‑487‑180) W.G. GUIDE ﾌﾞﾗｲﾝﾄﾞﾘｯﾄﾞｼﾒﾂｹｸﾞﾗﾝﾄﾞｼﾒﾂｹｸﾞﾗﾝﾄﾞ 03‑001‑5303 GLAND GLAND P.MONITOR ｽｷﾔﾅｶﾊﾞｰPM (300‑153‑032) ‑6ｶｸｾﾑｽB ±ﾅﾍﾞｾﾑｽB JIS F8801 20ﾖｳｼﾝﾁｭｳ JIS F8801 A20ﾖｳｼﾝﾁｭｳ JIS F8801 30ﾖｳｼﾝﾁｭｳ SCANNER COVER WITH PM31/ANT HEX. WASHER HEAD BOLT (B) WASHER HEAD SCREW *B* (000‑870‑194) (000‑801‑588) (000‑870‑242) PM‑31 ﾄﾞｳﾊｶﾝ M4X20 SUS304 M4X8 ‑6ｶｸｾﾑｽB WAVEGUIDE (000‑882‑041) (000‑881‑445) (008‑536‑340) ｸﾞﾗﾝﾄﾞﾖｳｻﾞｶﾞﾈ ...
Page 479 D ‑ 4 ｱﾝﾃﾅ ANTENNA RADIATOR ASSEMBLY ｱﾝﾃﾅｶﾞｲﾄﾞ ANTENNA GUIDE SN30AF 6ｶｸﾎﾞﾙﾄ 03‑163‑3152 (008‑505‑920) HEXAGONAL HEAD BOLT (100‑315‑680) M10X25 SUS316L SN36AF ｱﾝﾃﾅｱﾝｸﾞﾙ (000‑150‑828) (008‑505‑910) ANTENNA ANGLE BRACKET SPRING WASHER 03‑163‑3151 M10 SUS316L (100‑315‑672) (000‑147‑303) FLAT WASHER M10 SUS316L (000‑147‑299) ｽｷｬﾅｶﾊﾞｰ 6ｶｸﾎﾞﾙﾄ SCANNER COVER HEXAGONAL HEAD BOLT RSB‑098‑102‑080/104/5 M10X25 SUS316L (008‑538‑710) (000‑150‑828) ｽｷｬﾅｶﾊﾞｰｶﾊﾞｰﾖｳﾎﾞﾙﾄ SCANNER COVER HEXAGONAL HEAD BOLT ｶｲﾃﾝｹﾂｺﾞｳｷ 03‑163‑3161 03‑001‑3262 ROTARY JOINT ASSEMBLY ｱﾝﾃﾅｶﾞｲﾄﾞ...
Page 480 D ‑ 5 ﾅﾂﾄｻﾞｲ(RU‑9099) ⑤ ｸﾗﾝﾌﾟ ② ｽｸｳｪｱﾌﾞｯｼｭｼｰﾙﾄﾞｶﾊﾞｰ(25KW)組配品 CABLE CLAMP BUSH SHIELD COVER (25KW) ASSY. 03‑126‑5324 CKS‑10‑L (組)RF部 SB‑1909‑F ±ﾅﾍﾞｾﾑｽA ｱﾝﾌﾟｶﾊﾞｰ TRﾘﾐｯﾀ (100‑246‑470) (000‑106‑350) WASHER HEAD SCREW *A* IF AMP COVER RF UNIT TR LIMITER ﾛｯｶｸﾎﾞﾙﾄｽﾘﾜﾘ M4X30 (組)PHｺﾈｸﾀ 03‑154‑5603 RU‑9290 HEXAGONAL HEAD BOLT RTR‑081 (組)PHｺﾈｸﾀ (000‑881‑156) PH CONNECTOR (100‑304‑422) (000‑136‑735) (組)ｱﾝﾌﾟｹｰｽ M4X20 SUS304 ① PH CONNECTOR 03‑2157(12‑12P) AMP CASE (008‑540‑160) (000‑862‑115)
Page 481 D ‑ 6 (組)MDｹｰｽｸﾗﾝﾌﾟｷﾊﾞﾝｼﾔｰｼｲﾁｷﾞﾒﾋﾟﾝ(C) ｸﾗﾝﾌﾟｻ‑ｷﾕﾚ‑ﾀ WIRE CLIP PCB CHASSIS POSITIONING PIN(C) CABLE CLAMP CIRCULATOR MD PCB CASE ASSY. NO.98‑01 03‑163‑5017 03‑163‑3514 CKS‑10‑L RC‑4910S (000‑515‑851) (100‑317‑400) (100‑315‑801) (000‑106‑350) (000‑126‑346) ﾛﾂｶｸｾﾑｽB ｽﾘﾜﾘ HEX.WASHER HEAD BOLT (P)MD ﾊﾘﾏｰｸ(S) M6X25 SUS304 PRINTED CIRCUIT BOARD LABEL(S) ｻｰｷﾕﾚｰﾀﾄﾘﾂｹｲﾀ2 Eｺ‑ﾅWG (000‑802‑771) CIRCULATOR MOUNTING PLATE2 03‑163‑5051 03P9244E E CORNER WAVEGUIDE (100‑317‑473) (008‑539‑590) 03‑163‑5008 03‑016‑5301 (P)PWR ﾎｳﾈﾂｼ‑ﾄ...
Page 482 D ‑ 7 +‑ﾊﾞｲﾝﾄﾞｾﾑｽF RELAY SCREW PSU‑007‑70‑23 ﾘﾚｰ TR‑0NH/3 1.7A M4X8 C2700 MBCR2 (000‑137‑509) PSU‑007‑82‑12 ﾘﾚ‑(ｻ‑ﾏﾙ) TR‑0NH/3 0.95A (000‑150‑836) ｱｰｽﾏｰｸ PSUｶﾊﾞｰ PSU‑007‑80‑10 ﾘﾚ‑ TR‑0NH/3 0.8A EARTH LABEL PSU COVER (000‑137‑508) PSUｾﾞﾂｴﾝｼｰﾄ 03‑163‑9821 10‑044‑4133 PSU‑007‑72‑28‑50/60 ﾘﾚ‑(ｻ‑ﾏﾙ) TR‑0NH/3 2.2A PSU INSULATION SHEET (100‑316‑011) (100‑304‑060) (000‑149‑239) 03‑163‑9815 (100‑319‑881) PSU007ﾊﾘﾏｰｸ LABEL PSU007 +ﾅﾍﾞｾﾑｽBK 03‑163‑9822 SCREW BK (100‑319‑891) M4X15 PSUﾊﾘﾏｰｸ LABEL PSU ﾘﾚｰ 03‑163‑9814 RELAY ｺｳｱﾂﾏ‑ｸ(2) (100‑319‑781)
Page 483 D ‑ 8 ｹｲｺｸﾗﾍﾞﾙ(1) ﾌｲﾝｶﾞ‑ｶﾞ‑ﾄﾞ (組)BL‑SMｺﾈｸﾀ (P)NET100 WARNING LABEL 1 FINGER GUARD PRINTED CIRCUIT BOARD (P)SPU 86‑003‑1011 FG‑06ULB 03‑2082(ﾌｧﾝ‑R2P) 03P9332 PRINTED CIRCUIT BOARD (000‑144‑485) (008‑534‑870) (008‑536‑210) 03P9337 ｶﾊﾞｰ蝶番 (008‑536‑460) COVER HINGE 03‑163‑8001 ｸﾗﾝﾌﾟ TH‑TM‑5 SPUｼｰﾙﾄﾞｹｰｽ (100‑304‑553) CLUMP (000‑872‑005) SPU取付板 SPU SHIELD CASE CKS‑05‑L SPU MOUNTING PLATE SPU取付板組立品 03‑163‑8025 ﾅｯﾄ材 03‑163‑8012 SPU MOUNTING PLATE ASSY. (100‑308‑300) (100‑304‑573) 10‑071‑6308...
Page 484 D ‑ 9...
Page 485 D ‑ 10...
Page 486 D ‑ 11 ｺﾈｸﾀｶﾊﾞｰ(20) ﾊｲﾒﾝｶﾊﾞｰ(20) CONNECTOR COVER (20) ｹｲｺｸﾗﾍﾞﾙ(1) REAR COVER (20) 03‑163‑1093 WARNING LABEL 1 03‑163‑1091 86‑003‑1011 (100‑305‑102) (100‑305‑083) ｼｰﾙﾄﾞｹｰｽ(20) ﾊﾘﾏｰｸAC(20) SHIELD CASE (20) LABEL AC (20) PRINTED CIRCUIT BOARD 03‑163‑1062 03‑163‑1031 (本図はAC仕様) 03P9359 (100‑305‑011) (100‑308‑470) (000‑147‑376）ﾊﾘﾏｰｸDC(20) LABEL DC (20) (組)DCﾃﾞﾝｹﾞﾝｺﾈｸﾀ(ｸﾐﾋﾝ) 03‑163‑1041 DC POWER PACK CONNECTOR ASSY. (100‑305‑020) MU‑231CR VH6P‑XH2P (008‑543‑580) (000‑150‑738) PRINTED CIRCUIT BOARD ｺﾈｸﾀ(ｸﾐﾋﾝ) SLB‑FRN3‑A CONNECTOR ASSY. (組)ACﾃﾞﾝｹﾞﾝ...
Page 487 D ‑ 12 ｹｲｺｸﾗﾍﾞﾙ(1) ｺﾈｸﾀｶﾊﾞｰ(23) WARNING LABEL 1 CONNECTOR COVER (23) 86‑003‑1011 03‑163‑2062 (100‑305‑362) ﾊｲﾒﾝｶﾊﾞｰ(23) REAR COVER (23) PRINTED CIRCUIT BOARD 03‑163‑2061 (100‑305‑353) 03P9359 (000‑147‑376） (組)DVI I/F BOARD PRINTED CIRCUIT BOARD ﾌｲﾝｶﾞｰｶﾞｰﾄﾞ MU‑231CR FINGER GUARD (008‑536‑530) FG‑06ULB (組)ACﾌｨﾙﾀ (組)DCﾃﾞﾝｹﾞﾝ (000‑144‑485) AC FILTER ASSEMBLY DC POWER PACK (008‑536‑500) ﾌｧﾝﾓｰﾀ MU‑231CR FAN MOTOR (組)DCﾌｨﾙﾀ (008‑543‑580) MMS‑06C12DS‑R02 DC FILTER ASSEMBLY (008‑536‑510) (000‑128‑408) (組)ACﾃﾞﾝｹﾞﾝ (P)FILTER AC POWER PACK ...
Page 488 D ‑ 13 ｺﾌﾀ SMALL LID (P)NET100 03‑163‑9014 NET100 BOARD (100‑304‑512) ｶﾊﾞｰ COVER 03‑163‑9012 Oﾘﾝｸﾞ (100‑305‑633) 付属品 Accessovies (組)MJ‑VHｺﾈｸﾀ MJ‑VH CONNECTOR 03‑2095(R3‑3P) (008‑534‑680) ｲﾀﾊﾞﾈ PLATE SPRING ｺﾌﾀｳﾗｲﾀ BACK LID 03‑163‑9016 (100‑306‑080) 03‑163‑9015 (100‑304‑523) ｽﾍﾟ‑ｻ (P)CARDCPU SPACER CARDCPU BOARD 03P9333 SQ‑16 (008‑536‑200) (000‑801‑854) ｺﾌﾀｳﾗｲﾀ組立品 BACK LID ASSY. ｺﾌﾀｳﾗｲﾀ組立品 BACK LID ASSY. ﾏｴﾊﾟﾈﾙ組立品 FRONT PANEL ASSY. 付属品...
Page 489: Contents Of Drawings
Contents of Drawings Contents of Drawings Name Type Drw. No. Page Remark X band RCN001/002 C3519-C05 X band RCN003/004 C3519-C06 S band RCN001/002 C3521-C02 S band RCN003/004 C3521-C03 X band-W RCN003/004 C3527-C03 S band-SW RCN003/004 C3528-C04 X band-W RCN001 C3527-C02 S band-SW RCN001 C3528-C03 FAR-2117/2127...
Page 490 Contents of Drawings 03P9342 (1/3) C3519-K20 S-35 RPU-013 03P9342 (2/3) C3519-K21 S-36 Terminal board 03P9342 (3/3) C3519-K22 S-37 03P9337 (14/15) C3519-K23 S-38 SPU board (ADC) SPU board 03P9337 (15/15) C3519-K24 S-39 (IF Filter & LOG DTC) 03P9335 (1/3) C3519-K15 S-40 03P9335 (2/3) C3519-K16 S-41...
Page 491 S ‑ 1 操作部 J911 J/P922 PERFORMANCE MONITOR PM LEVEL CONTROL UNIT 船内アラームシステムｽｲｯﾁﾝｸﾞﾊﾌﾞパフォーマンスモニター TTYCS‑1 ｶｰﾄﾞ I/F ﾕﾆｯﾄ +12V PM‑31 RCU‑016 100‑230VAC SWITCHING HUB CARD I/F UNIT ‑12V RW‑4747 SHIP'S ALARM SYSTEM CU‑200 HUB‑100 PM TRIG PM ENABLE (8PORTS) TB901 空中線部...
Page 492 S ‑ 2 J911 J/P922 操作部 PERFORMANCE MONITOR PM LEVEL CONTROL UNIT パフォーマンスモニター +12V ｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ PM‑31 RCU‑016 ‑12V RW‑4747 SWITCHING HUB CARD I/F UNIT CU‑200 PM TRIG HUB‑100 PM ENABLE (8PORTS) TB901 空中線部 100VAC̲H ANTENNA UNIT 100VAC̲C RSB‑096/097 操作部...
Page 493 S ‑ 3 空中線部 ANTENNA UNIT RSB‑098/099 RSB‑100/101/102(FOR̲45RPM) PERFORMANCE TB‑902 MONITOR 電源制御部 TPYCY‑2.5 パフォーマンス POWER SUPPLY UNIT 3φ(U) 3φ(U) PM LEVEL モニター操作部船内アラームシステム 3φ(V) 3φ(V) +12V PSU‑007 ｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ PM‑51 TTYCS‑1 CONTROL UNIT ‑12V 3φ(W) 3φ(W) 100‑230VAC SWITCHING HUB CARD I/F UNIT RCU‑016 SHIP'S ALARM SYSTEM...
Page 494 S ‑ 4 空中線部 ANTENNA UNIT RSB‑098/099 RSB‑100/101/102(FOR̲45RPM) 操作部 PERFORMANCE 電源制御部 TB‑902 MONITOR CONTROL UNIT POWER SUPPLY UNIT TPYCY‑2.5 パフォーマンスｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ 3φ(U) 3φ(U) RCU‑016 PSU‑007 PM LEVEL モニター 3φ(V) SWITCHING HUB CARD I/F UNIT 3φ(V) +12V PM‑51 3φ(W) 3φ(W) ‑12V CU‑200...
Page 495 S ‑ 5 MPYCY‑19 J911 J/P922 TB803 MAX.30m TB803 PM LEVEL +12V 1 +12V +12V IV‑8sq. ‑12V 送受信部 PM TRIG ‑12V ‑12V PM ENABLE TRANSCEIVER UNIT PM‑TRIG PM‑TRIG 操作部 RTR‑081 PM‑LEVEL PM‑LEVEL CONTROL UNIT PERFORMANCE ｽｲｯﾁﾝｸﾞﾊﾌﾞ PM‑ENABL PM‑ENABL ｶｰﾄﾞ I/F ﾕﾆｯﾄ RCU‑016 MONITOR SWITCHING HUB...
Page 496 S ‑ 6 03P9349 MPYCY‑12 空中線部 TB803 MAX.30m TB803 ANTENNA UNIT IV‑8sq. +12V +12V RSB‑104 保護アース PE (200/220VAC) 送受信部 RSB‑105 ‑12V ‑12V TRANSCEIVER UNIT (380/440VAC) PM‑TRIG PM‑TRIG RTR‑082 PM‑LEVEL PM‑LEVEL PM‑ENABL PM‑ENABL 操作部 CONTROL UNIT ｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ RCU‑016 SWITCHING HUB CARD I/F UNIT LHPX‑20D‑ASSY CU‑200...
Page 497 S ‑ 7 MPYCY‑19 J911 J/P922 TB803 TB803 MAX,30m PM LEVEL +12V 1 +12V +12V IV‑8sq. ‑12V 送受信部 PM TRIG ‑12V ‑12V PM ENABLE TRANSCEIVER UNIT PM‑TRIG PM‑TRIG 操作部船内アラームシステム RTR‑081 ｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ TTYCS‑1 PM‑LEVEL PM‑LEVEL CONTROL UNIT PERFORMANCE 100‑230VAC SWITCHING HUB CARD I/F UNIT...
Page 498 S ‑ 8 03P9349 空中線部 MPYCY‑12 TB803 TB803 ANTENNA UNIT MAX,30m 1 +12V +12V RSB‑104 IV‑8sq. (200/220VAC) 送受信部 RSB‑105 ‑12V ‑12V TRANSCEIVER UNIT PM‑TRIG 操作部 (380/440VAC) PM‑TRIG 船内アラームシステム RTR‑082 ｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ TTYCS‑1 PM‑LEVEL CONTROL UNIT PM‑LEVEL 100‑230VAC SWITCHING HUB CARD I/F UNIT PM‑ENABL PM‑ENABL...
Page 499 S ‑ 9 操作部 CONTROL UNIT 空中線部 RCU‑016 ANTENNA UNIT パフォーマンスモニター PERFORMANCE MONITOR RSB‑096/097 PM‑31 RW‑4747 操作部 CONTROL UNIT IV‑3.5sq. RCU‑014 保護アース RCU‑015 RS‑232C TB BOARD 03P9342 制御部 PROCESSOR UNIT RPU‑013 +12V DVI‑RGB変換基板 +12V DVI‑RGB CONVERSION BOARD SLB‑FRN4‑A GYRO CONVERTER RGBﾋﾞﾃﾞｵｺﾝﾊﾞｰﾀ BOARD RGB VIDEO CONVERTOR 64P1106A DVI‑RGB‑1...
Page 500 S ‑ 10 J911 J/P922 PERFORMANCE MONITOR PM LEVEL 船内アラームシステム NR203PF‑VVS1.25, パフォーマンスモニター操作部ｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ +12V 3.5m, φ8.6 PM‑31 ‑12V 100‑230VAC RW‑4747 CONTROL UNIT SWITCHING HUB CARD I/F UNIT IV‑3.5sq. SHIP'S ALARM SYSTEM CU‑200 RCU‑016 HUB‑100 PM TRIG 保護アース PM ENABLE (8PORTS) TB901...
Page 501 S ‑ 11 J911 J/P922 PERFORMANCE MONITOR PM LEVEL NR203PF‑VVS1.25, 操作部パフォーマンスモニターｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ +12V 船内アラームシステム 3.5m, φ8.6 PM‑31 100‑230VAC CONTROL UNIT ‑12V SWITCHING HUB CARD I/F UNIT RW‑4747 IV‑3.5sq. RCU‑016 CU‑200 HUB‑100 PM TRIG SHIP'S ALARM SYSTEM 保護アース (8PORTS) PM ENABLE TB901...
Page 502 S ‑ 12 J911 J/P922 操作部 PERFORMANCE MONITOR NR203PF‑VVS1.25, PM LEVEL CONTROL UNIT 船内アラームシステムｽｲｯﾁﾝｸﾞﾊﾌﾞパフォーマンスモニターｶｰﾄﾞ I/F ﾕﾆｯﾄ +12V 3.5m, φ8.6 RCU‑016 100‑230VAC SWITCHING HUB CARD I/F UNIT ‑12V PM‑31 IV‑3.5sq. RW‑4747 SHIP'S ALARM SYSTEM CU‑200 HUB‑100 PM TRIG 保護アース PM ENABLE (8PORTS) TB901...
Page 503 S ‑ 13 空中線部 RW‑4747 ANTENNA UNIT RSB‑098/099 IV‑3.5sq. RSB‑100/101/102(FOR̲45RPM) 保護アース PE (氷結防止あり w/DE‑ECER) PERFORMANCE TB‑902 MONITOR 電源制御部 TPYCY‑2.5 パフォーマンス POWER SUPPLY UNIT 3φ(U) 3φ(U) PM LEVEL モニター操作部船内アラームシステム NR203PF‑VVS1.25, PSU‑007 3φ(V) 3φ(V) +12V ｽｲｯﾁﾝｸﾞﾊﾌﾞ PM‑51 ｶｰﾄﾞ I/F ﾕﾆｯﾄ CONTROL UNIT 3.5m, φ8.6 ‑12V 3φ(W)
Page 504 S ‑ 14 MPYCY‑19 J911 J/P922 TB803 TB803 MAX,30m PM LEVEL +12V 1 +12V +12V IV‑8sq. ‑12V 送受信部 PM TRIG ‑12V ‑12V PM ENABLE TRANSCEIVER UNIT 操作部 NR203PF‑VVS1.25, PM‑TRIG PM‑TRIG 船内アラームシステム RTR‑081 ｽｲｯﾁﾝｸﾞﾊﾌﾞ 3.5m, φ8.6 ｶｰﾄﾞ I/F ﾕﾆｯﾄ PM‑LEVEL CONTROL UNIT PM‑LEVEL PERFORMANCE 100‑230VAC...
Page 505 S ‑ 15 03P9349 空中線部 MPYCY‑12 TB803 TB803 ANTENNA UNIT MAX,30m IV‑8sq. 1 +12V +12V RSB‑104 保護アース PE (200/220VAC) 送受信部 RSB‑105 ‑12V ‑12V TRANSCEIVER UNIT PM‑TRIG 操作部 (380/440VAC) PM‑TRIG 船内アラームシステム NR203PF‑VVS1.25, RTR‑082 ｽｲｯﾁﾝｸﾞﾊﾌﾞｶｰﾄﾞ I/F ﾕﾆｯﾄ PM‑LEVEL CONTROL UNIT PM‑LEVEL 3.5m, φ8.6 100‑230VAC SWITCHING HUB CARD I/F UNIT...
Page 506 S ‑ 16 制御部 PROCESSOR UNIT IEC-61162-2 RPU-013 J605(TB) HDG_A TTYCS-1T HDG_B RGB ﾊﾞｯﾌｧ基板 HDG_GND HDG SENSOR RGB BUFFER PCB DVI1TX2_N (IEC-61162-2) 03P9229A DVI1TX2_P A_GND J607(TB) LOG_A DVI-RGB TTYCS-1 変換基板 LOG_B (IEC-61162-2) DVI-RGB CONVERSION BOARD DVI1TX1_N J606(TB) VGA CABLE RGB EXT. MONITOR R_VIDEO DVI1TX1_P NAV_A...
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