Installation Manual ECDIS Model FMD-3100
Contents
1. NI SNOISNAWIG 6 2 AREORA A INO LAS HSTION3 304 HV SLNAWNOOC 1 q d ddO 38 LONNVO 3009 SIHL L S y wg 2se2WXUCgh li t 6 Plo v i LAS dO4 3HV SIN ATOOd GSMYVW WIYSLVW 3ALLV LN3S3Hdzdd dO YSEWNN 3000 JHL S31VOIGNI 3900011 LY AY TPT PPE cp Z EID CO SB AC 4 8 8 1 000 qo IVIINVW 5 401 4440 133 5 NOIIVNHOJNI 19 00 4A A 1431900 S IVId4LVN NOIIV I IVISNI AEI SIVIdd1VM NOTLVTIVISNI HAIdO GAG 64 8 1 000 JA IVIINVW NOTIVTIVISNI e By ae Bll E dAd IIVISNI 001 Q0N 9 8 1 000 NOT LONYLSNI HH tex LE L0 Zp SdIdOSSd09V e BG ae 52 10410 1IVd9Vdl MG OLY 135 313 18 09 ddlildMO9 HNVd 94 8 1 000 20110 5 dO1Vddd0 E E E 50 do IVIINVW 5 d01Vd3dO tu s v CO Hi LINA ON 3009 011414999 1986 001 dW4 1511 2 CODE NO 001 262 570 20 24AN X 9401 0 CP24 03101 1 1 INSTALLATION MATERIALS BE OUTLINE DESCRIPTIONS REMARKS 100 CABLE TIE2. CRIMP ON LUG 2 TWO TYPES AND CODES MAY BE LISTED FOR AN ITEM THE LOWER PRODUCT MAY BE SHIPPED IN PLACE OF THE UPPER PRODUCT QUALITY 1 THE SAME DIMENSIONS IN DRAWING FOR REFERENCE ONLY FURUNO ELECTRIC CO LTD 04484 01 OO 2 oy dp 7 JONV3V 310 3933 3102706 me 041410445 LON SI HOIHM SNOISNANIG 30 JONY S3LVOIONI DWSVNVAT107W70 RAP RMaYA 4 SPALBE c 000 s gt 00G 006312001 GT 0015106 M 8 XYN 8 L NOISNANIG Z 140 OOH IUNIS WW 27 WW SAAS EL Lx a CO a MIA 110100022 yem 4 5 69 06 RL e 6l aije 0 1 MS Y Y MIN i 1 8 7
3. 30005 SERIAL 8ch MC 3020D DIGITAL IN E _ xg WC 30300 DIGITAL OUT eT 1 52 55 2 lt s S 5 3 3 3 3 5 C4473 C02 A Nam Ex aui REFER TO C4473 C02 FOR DETAIL ST es 5 ETEN 5 2sq m uj yale Sa QD CES EB 2 T F PE PR 240 el u adi q l ale Fd E 5 15 1 50 60Hz MJ A3SPF0013A zc MEME crar S 8 E Tm 96 9 L UND JI NJ A10SPF0020A 5 10 20 30m e 2 gt TA 4 WHT 07 GND e EIE n 5 MICI cdd CONNECT ON P5 RED MARINE RADAR FORM mn m 2 m Xen A 868 002 2268 IIP ws GND 4 5 EI e zu gt ails A of OBI SEE Eca VIDEO 16 p T BLU 2 2 8 T TEM uos Se 4 x Lla VIDEO 7 RE QUE S 75 750 lt TRG eg GRY A m ye QU FAIL A 1 NC 9 5 WS 2 INTELLIGENT HUB POWER FAIL 821 ei paq te p 1 3 258 HUB 3000 2 7 4 gt o m
4. Serial Interface ports AIS GPS GYRO LOG To ship s earth Ground cable IV 2sq To HUB 100 Sensor Adapter or VDR FR FTPC CY cable USB2 DVD drive with ext cable To HUB 3000 USB3 RCU 030 DTI C5E350 VCV cable DVI I 2 To VDR DVIP I DP cable TTYCS A TTYCSLA A or TTYCS 1Q TTYCSLA 1Q Note VDR devices must be connected via a frame synchronizer TTYCS 1Q or TTYCSLA 1Q Depending on your power supply applied voltage choose the correct cabling for power input referring to the table below Voltage 230 FS CABLE EU cable Type F Schuko included with PCU 3000 EUR TYPE F IEC 100 VAC 80099 cable Type B included with PCU 3000 US IEC 2 24 VDC JIS cable See paragraph 2 1 3 to fabricate power cable 2 3 2 WIRING 2 1 2 Connecting flush mountable USB Extension Cable You may require an extension from the USB port on the PCU A 1m length USB extension cable is included with the PCU When using another USB extension cable make sure the total length is shorter than 5 m B strap f USB extension cable You can connect the flush mounted extension cable by doing the following 1 Connect the USB extension cable to a USB port on the PCU 2 Referring to the figure below make an installation hole where necessary Dimensions for instal
5. ev H WIYAS ld NO m 3 LE ib i cim ETE 2 a ee ZNI T M 9 H 10M M mn 2110 AZLOG S 4 9418010 2 200 5 1190 22 TE x s Hino 1 TVII9Id o T gt il ey Q 2 Ldr Lain HH 2 21 0 iM 1 100 gt OND INV Z Hf 11910 2 291 19941 11218 10 m VI 47 rg gr 1110 412011 A i 8 1 1935 PODS op Me n a 14 zi e G 19 eerte T jaz To uA oes esne S 44 Buk cti He venga e H r a a aie sng a ETF SD le E Fd eee 21 QU MOT Wy 0 pcd 2 de s NIALL Ch mua eod Dr Nl ui 2 Doe LNA Ab G068 00027000 MC LEES 1007000270001 zn IT ef F 8 MEH 00 G oW 0091 M S 110 77119100 gt e L Cc TS Gg 1 2 WEISS aogoe oN ol S m z SS qu iem VOLO OW OHI 29 2 n 8812 x LO N 4 O Ca HAL l amapas NALSAS
6. Unt 10 Md UI 5 10 20 30 j TIYCSDASQ o ct E POUSODU GPS MJ A10SPF 5 m 5 2 5 10 100 230 VAC Supply Unit TTYCSLA 1Q FTOG 24777 Adapter STP CAT5 cable PNR203PEF VVS1325 Switching HUB FR FTPC CY 100 230V AC HUB 100 10 20 30 m ben 4 2 Sensor Adapter 24 VDC 30005 Serial IN OUT MC1 5 W L cable 100 230 VAC E 0 6 1 2 3 or Sensor Adapter 24 VDC MC 3020D Digital IN MC 3030D Digital OUT 2 1 2 WIRING 2 2 Wiring considerations USB cable lengths should be within 5 m with or without the USB extension cable Full function cannot be guaranteed if the overall USB length exceeds 5 m The PCU 3000 is not compatible with the USB 3 0 equipments USB cables should be secured using the clamp highlighted in the figure below 9 Oj o N p Cable clamp USB cables LAN cable lengths between units should be within 50 m The DVI D port outputs FULL HD resolution Make sure the cables connected to the DVI D port are 5 m or less If extension or division of the DVI or ERGB cables is required use the dividers listed below DVI cable divider D8013F maker IMAGENICS RGB divider CIF 12H DD 106 or D8013F maker IMAGENICS
7. c5 i gt gt 9 9 COOH 0 M 41 C 139 M C 189 QQOH M C amp 3 LT 48S G nrrnzir E O9 9IH103 13 JNIMVSO INNON d01318V1 LINN 5310909 HNVd aw KFG HTE gg OOO 040 dNV 1 118 2 DNN H PI02 ue N HOMddW 3I MYN H 71007 007 07 140 13 958 QA E Su S 0140 COOH LINA 404 51108 9 40 05 98 SM 385 1 350 39NVAVd10 39436 WOWININ lt GEL 131112145105 SI HOIHM SNOISNAWIG 30 3ONV amp 31OI SALVOIGNI 220Bdz1 aT3xgnNTx 8 1 ALON eH CE GERAD E rH Z X oda 8t CT ER NS K A P y BRL 7 SEES Z My _ E ul 5 1 v 1 1 INGA gt WEE P 0014 0018 02 gt O 0GZ 8 E x T 000131 gt 009 R DIS Mb StF 0011 gt 08 rii Fm oO oe EET V a ee SF 0631 WAO S310H 9NXH EE ZEN VY 7957 7 jid i Ev X M WO SH0H9NMH s Was MES OCXL V 6 917 0
8. Heat dispersion sheet 2 WIRING CH1 settings RADAR SIGNAL IN NO 1 Using the table below for reference change the jumper settings to suit the appropriate radar connection Use the figure on the previous page for jumper locations 5 pemn _ 1 2 shor 2 3 shor 3 6 short 43 7 shor 42 6 shor 1 2 short 2 settings RADAR SIGNAL IN NO 2 Using the table below for reference change the jumper settings to suit the appropriate radar connection Use the figure on the previous page for jumper locations Radar to be connected Radar to be connected J17 1 2 short 2 31 2 WIRING This page is intentionally left blank 2 32 APPENDIX 1 JIS CABLE GUIDE Cables listed in the manual are usually shown as Japanese Industrial Standard JIS Use the following guide to locate an equivalent cable locally JIS cable names may have up to 6 alphabetical characters followed by a dash and a numerical value example 2 5 For core types D and T the numerical designation indicates the cross sectional Area of the core wire s in the cable For core types M and TT the numerical designation indicates the number of core wires in the cable 3 Sheath Type Y PVC Vinyl 1 Core Type D Double core power line T Triple core power line 2 Insulation Type P Ethylene Propylene Rubber M Multi core Twisted pair communications 1Q quad cab
9. TV E N je di GND o L K gt C zz a LL Ave z en j a Va co 619 MOE 0Z 0 E fae sm 35 7J0 0dl4AH aP a SVN 2 S 3 di HNIC A 28 S N o YN C S HL S SFU tt s Oro lt lt lt x lt 2 T6 r lt C D
10. Locate the HUB 1000 away from areas which may be subject to splash or rain Referring to the outline diagrams at the back of this manual leave sufficient space at the rear of the equipment to facilitate maintenance Amagnetic compass will be affected if the equipment is placed too close to the magnetic compass Observe the compass safe distances at the front of this manual to prevent interference to a magnetic compass Vibration at the mounting location should be minimum 1 6 1 MOUNTING Radar Connection 002 Optional You can display signals from up to two external radars on the FMD 3100 by using the RCB 002 The RCB 002 must be connected via the Gateway Network Mounting considerations Keep the following points in mind when selection a mounting location Locate the RCB 002 away from heat sources The cabinet can build up heat inside causing undue wear to electrical components Take into account the length of the cables to connected to the RCB 002 when choosing an installation location The RCB 002 should be fixed firmly so that rough seas and vibrations do not cause the unit to move in any manner Locate the RCB 002 away from areas which may be subject to splash or rain Referring to the outline diagrams at the back of this manual leave sufficient space at the rear of the RCB 002 to facilitate maintenance A magnetic compass will be affected if the equipment is placed too close to the mag
11. Ensure all grounding wires are connected between grounding terminals on each equipment and ship earth UPS user supply is connected to this equipment ensure the grounding lamp does not light up Use the following LAN cables for the network if they are available locally Sensor Network or better e Gateway Network Cat5e or better If LAN cables are not available locally use the optional LAN cables as below Sensor network FR FTPC CY Cat5 equivalent Gateway network DTI C5E350 VCV Cat5e equivalent ECDIS control unit RCU 024 and RCU 026 are not compatible with this equipment When connecting this equipment to a VR 3000 S use the DVI I port The DVI I port outputs FULL HD resolution and requires a synchronizer to convert the output to UXGA When connecting a VDR device via LAN connect the VDR device to the LAN2 port Network and sensor considerations For Sensor network construction use the optional Switching Hub HUB 100 For Gateway network construction use the optional Intelligent Hub HUB 3000 Do not connect the vessel s on board LAN to either of the above networks Also commercial PCs cannot be conn
12. 22 2 4 AP 2 APPENDIX 3 DIGITAL INTERFACE AP 7 APPENDIX 4 BOARD JUMPER VALUES AP 18 FACKING IS 1 OUTLINE DRAWINGS D 1 INTERCONNECTION DIAGRANS 1 FURUNO ELECTRIC CO LTD www furuno com All brand and product names are trademarks registered trademarks or service marks of their respective holders Elemental Chlorine Free The paper used in this manual is elemental chlorine free FURUNO ELECTRIC CO LTD FURUNO Authorized Distributor Dealer 9 52 Ashihara cho Nishinomiya 662 8580 JAPAN FEB 2014 B3 AUG 25 2015 All rights reserved Printed in Japan Pub No IME 44840 B3 REFU FD 3100 III 00017876011 ELECTRICAL SAFETY INSTRUCTIONS N WARNING Do not open the equipment unless totally familiar with electrical circuits and service manual Only qualified personnel should work inside the equipment SHOCK HAZARD Turn off the power at the mains switch board before beginning the installation Fire electrical shock or serious injury can result if the power is left on or is applied while the equipment is being Installed Be sure that the power supply is compatible with the voltage rating of the equipment Conn
13. U R U N O Installation Manual ECDIS Model FMD 3100 ELECTRONIC CHART DISPLAY AND INFORMATION SYSTEM SAFETY INSTRUGC II i SYSTEM CONFIGURATION 22 FOUIPNENI L5I Pu a iS IV 1 MOUNTING U U 1 1 1 1 Panel Computer Unit 3000 1 1 1 2 Trackball Control Unit IRCU OO9U a Ce 1 8 1 3 Sensor Adapter MC 3000S 3020D 3030D Optional 1 10 1 4 Intelligent Hub HUB 3000 Optional a a e 1 11 1 5 Mounting the Switching Hub HUB 100 Optional 1 12 1 6 Radar Connection Box RCB 002 Optional 1 13 BV E 2 1 21 Panel Computer Unit uccsiosasszrvex FRE Tat annii cnni danke aa wein Gata gua i eR RSEN 2 3 22 SensorAdapters Optlonal PETRI 2 11 2 3 Intelligent HUB 3000 2 27 2 4 Radar Connection Box RCB 002 2 28 APPENDIX 1 JIS CABLE GUIDE AP 1 APPENDIX 2 ROD TERMINALS 2
14. 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 1 11mm 10 1mm 10 6mm 11 3mm 16 3mm 9 4mm 10 1mm 10 6mm 15 7mm 11 0mm 11 7mm 12 6mm 17 7mm 21 1mm 19 5mm 12 1mm 16 5mm 11 2mm 17 9mm AP 1 APPENDIX 2 ROD TERMINALS MC 3000S MC CS Board 24P0114 Connector Pin Signalname Rodterminalto use Connected cable AI0346 TQ blue E 24V_ 24 GND 14 8 GY gray MC1 5 W Lxxx Connectors Pins Signalname Rod terminal to use Connected cable Al 1 5 6 BK black GND PWR_FAIL A Al 0 75 6 GY Gray TTYCS 4 PWR_FAIL COM TTYCSLA 4 PWR_FAIL B Connector Pin Signalname Rodterminaltouse Connected cable 1 RD1 B 0 75 6 GY Gray RD1 H RD1 C Connector Pin Signalname Rodterminaltouse Connected cable TD2 A TD2 B RD2 A RD2 B 0 75 6 GY gray 5 ISOGND2 RD2 H Connector Pin Signalname Rodterminaltouse Connected cable TD3 A TD3 B RD3 A RD3 B 0 75 6 GY gray 5 ISOGND3 RD3 H AP 2 APPENDIX 2 ROD TERMINALS Connector Pin Signalname Rod terminal to use Connected cable 1 TD4 A 2 TD4 B _ TTY
15. 4 1 MOUNTING 1 1 3 How to attach the hood Optional To install the optional hood OP24 40 do the following 1 Referring to the figure below fit the hood reinforcement fixture to the back of the PCU 3000 For flush mounting Install the hood fixing fixture with the flush mount brackets For desktop mounting Install the hood fixing fixture with the desktop mount brackets Note The screws and washers to fix the hood fixing fixture are supplied with the PC 3000 Flush mount Desktop Flush mount bracket 7 1 H Hood fixing fixture mount bracket Hood fixing fixture 2 Loosen the four knobs on the hood fixing fixture referring to the figure below Knobs 1 MOUNTING 3 Using the cutouts in hood set the hood in place between the knobs and hood fixing fixture Hood 4 Referring to the figure below push the hood down to align the cutouts with the knobs Push downwards 5 Fasten the knobs to secure the hood in place 1 1 4 How to install the keyboard OP24 41 Optional 1 Attach four fasteners small supplied with the optional kit to the bottom of the keyboard 2 Attach four fasteners large supplied with the optional kit to the small fasteners used in step 1 3 Remove the paper from four fasteners 4 Fasten the keyboard to the installation location 1 MOUNTING How to replace the USB dongle CFAST memory SSD Referring to the table below pre
16. 5 cable DPYC 1 5 cable Ground wire IV 1 25sq supplied geo Attach the LAN cap supplied to the unused connector holes to provide waterproofing standard IPX2 Cable clamps 2 27 2 WIRING 2 4 2 28 Radar Connection 002 Optional The RCB 002 is capable of connecting the FMD 3100 with up to two external radar systems Referring to the figure and table below connect the respective equipment to the RCB 002 RADAR SIGNAL IN No 1 To external radar MJ A10SPF0020A 5m 10 20 m 30 m cable RADAR SIGNAL IN No 2 To external radar MJ A10SPF0020A 5m 10 m 20 m 30 m cable 222 To ship s ground POWER Ground cable IV 1 25sq To HUB 3000 To PR 240 MOD Z072 cable MJ A3SPF cable Unused Connecting LAN cables When connecting LAN cables MOD Z072 to the RCB 002 use the following procedure 1 Unfasten and remove the sealing nut from the NETWORK port on the RCB 002 then remove the seal assembly See the figure below for reference Seal assembl Seal nut 2 WIRING 2 Dismantle seal assembly as shown below STEP 1 Hold the fat end of the seal assembly with both thumbs while placing the index fingernails between the seal and the claw Use caution to avoid injury 4 STEP 2 Using the thumbs gently push the seal out of the claw 3 Referring to the figure below pass the L
17. 61162 2 The following parameters are used Baud rate 38 400 bps HDT THS AIVDM AIVDO AIABK AIALR The baud rate of all other sentences is 4800 bps Data bits 8 07 0 Parity none Stop bits 1 190 oz Jos Start Stop bit Data bits bit AP 7 APPENDIX 3 DIGITAL INTERFACE Data Sentences Input sentences ABK UAIS Addressed and binary broadcast acknowledgement ABK XxXXXXXXXX X X X X X hh lt CR gt lt LF gt 1 2345 1 MMSI of the addressed AIS unit 9 digits 2 AIS channel of reception No use 3 Message ID 6 8 12 14 4 Message sequence number 0 9 5 Type of acknowledgement See below 1 message was broadcast 6 or 12 but not ACK by addressed AIS unit 2 message could not be broadcast quantity of encapsulated data exceeds five slots 3 requested broadcast of message 8 14 or 15 has been successfully completed 4 late reception of message 7 or 13 ACK that was addressed to this AIS unit own ship and referenced a valid transaction 5 message has been read and acknowledged on a display unit ALR Set alarm state ALR Hhmmss ss xxx A A c c hh lt CR gt lt LF gt 1 234 5 1 Time of alarm condition change UTC 000000 00 235960 99 2 Unique alarm number identifier at alarm source 000 999 3 Alarm condition A threshold exceeded V not exceeded 4 Alarm acknowledge state A acknowledged V not acknowledged 5 Alarm description text alphanumeric
18. 8 231 L FHE lt LNLY 1910 5 80L 9 rr i 2 INI 1910 Z PIN 1300 v edi s 43 moi 1 g vOM 2 104 Y L o of m ilglV a E lt afs gt Y yip eva 25 EEA wr E Ldiv4a RJ B ONI 1910 9 FN ae 53 6r 25 9100 As 2 5 e o eau 8 nisi wi p NHMAnO 20 72 A I m oa LHH 4B m 89 NII 919 qx I 131509051 ofr e SS GNI 1919412 H 1910 9 gt xl Z 9 v a la HJ 1 S LA amp T Ali e eg AA 55 E Ww I3 ee 01110 14 u Bl mm S8 4 o m S uj _ L rr t 1 29119931 aD _ 8 4 110 m lt Ir 19199 Fa VF ayer S SIO Tr o zas 87 pou y 4 _AZI9 s MEC In 531 u zqs zargaamolkh p MEA rs a ra 91 Z EIZ eyano A 7096 15080 ena oat Es 1 NI eN IL 1910 ZF d zin ino iu ade 14 Z
19. CH2 Jumper block J14 Connector J4 CH1 Termination resistor ON default setting Fons Si RT Termination resistor OFF srem Jumper block J15 Connector J5 CH2 opEN Termination resistor ON default setting Termination resistor OFF 2 block J16 Connector J6 CH3 SHORT Termination resistor ON default setting OPEN 1 2 Termination resistor OFF SHORT Jumper block J17 Connector J7 CH4 Termination resistor ON default setting uwa walli eaten Termination resistor OFF 22 S 98 Choosing the communication type Set the jumper blocks J20 and J21 to choose the communication type IEC 61162 1 2 MODBUS of the connector J4 The setting of the jumper block JP20 and JP21 must be identical Communication type of J4 Jumper block J20 J21 between RD1 and TD1 OPEN IEC 61162 1 2 default setting SHORT SHORT MODBUS The setting of J14 is different depending on the OPEN unit position starting ending terminal The jumper blocks J22 and J23 are used to set the communication type of the con nector J5 CH2 Communication type of J5 Jumper block J22 J23 between RD2 and TD2 OPEN IEC 61162 1 2 default setting SHORT SHORT MODBUS The setting of J14 is different depending OPEN on the unit position starting ending terminal 2 WIRING 2 2 4 Waterproof case packing for MC 3000S optional The optional kit OP24 28 pr
20. J2 The POWER FAIL signal on the connector J2 can be set to NC normal close output or NO normal open output as shown in the table below Pin Signalname Description No N 24V_IN 24VDC err 24V_GND GND 24 VDC PWR_FAIL_A Power fail output TTYcs LA 1 connection PWR_FAIL_COM Power fail output PWR_FAIL_B Power fail output TTYCS LA 1 2 WIRING How to input specification J4 to J9 For connectors J4 to J7 the connections are different depending on the input specifications as shown below Also for J8 and J9 the signals which are input output are shown Connector J4 In Out IEce11622 IEce11621 Modbus Serial CH1 out 2 4 4 EL put IEC61162 1 2 modbus TD1 B Serial CH1 out put IEC61162 1 2 modbus 3 RD1 A In Serial CH1 input No connection No connection IEC61162 2 modbus RD1 B Serial CH1 input 1 61162 2 modbus Isolation GND CH1 Serial CH1 input No connection TTYCS LA 4 1 61162 1 7 RD1 C In Serial CH1 input 1 61162 1 Set the jumpers J20 J21 to Modbus Connector J5 w ame In Out IEce11622 IEce1162 1 TD2 A Serial CH2 out 4 4 EA put IEC61162 1 2 modbus TD2 B Serial CH2 out put IEC61162 1 2 modbus Serial CH2 input No connection No connection 1 61162 2 modbus Serial input 1 61162 2 modbus 5 ISOGND2 Isolation GND CH2 RD2 H In Serial CH
21. OUT Out Pin 1 2 No connec short tion DIGI_IN5 m 12 ACKS D 5 input a DIGI RTNS 5 In epending on 5 inpu MPYC 12 i bh ll id coe tion short tion DIGI_IN6 12 7 _RTN6 or In Depending on ACK6 input MPYGA2 3 1 DO Connector J6 Pini Signat name gu Remarks contact voltage contact voltage Out contact voltage contact voltage DC12V OUT Out Pin 1 2 No connec short tion DIGI_IN7 12 n K1 D ACK7 i _ DIGI _RTN7 i MPYC 12 epending on AC input oN LN connec DC12V tion DC12V OUT Pin 1 2 No connec short tion MPYC 12 6 s ss ACK2 In Depending on ACK8 input me DIGI_RTN8 MPYC 12 GND In 12 tion 2 22 2 WIRING How to set alarm output 30300 Use the connector J3 to J6 on the MC_OUT Board 24P0117 to select NC normal close or NO normal open for alarm output 1 to 8 Connector J3 Signal In Alarm1 NO Alarm1 NC Alarm2 NO Alarm2 NC name Out Out Out Out Out MPYC 12 connection connection 3 B1 Out E E ee 6 8 12 wa Out No connection Connector J4 out Remarks Qu oe oew _ Out Out Out Out Out E a 12 No connection 2 COM3 Alarm3 MPYC 12 B3 Out Ras NN MPYC 2 No connection connection Connector J5 Signal In Ala
22. 0 219199719 ANTTLAO INNON TOMLNOO H PNN H ETOZ NN 7L ud CH E IR 2 C 020 004 006 gt 1 gt 001 STF 001 gt 1 gt 06 E RO C NR TONVETOL NON3MO WW 1 NVA MJA MOIIOH M NY P lt H 38 403 00X69 545405 ONlddV 350 JONVYVITO JONES 031419395 LON SI HJIHW SNOISNANIG JO FONVUFIOL SALVOIGNI 181 Ov x 38 p ZX n rE H CT G S8 ALON OO 914190374 ONIS NO 0 900 90 wa INNON HST 1081800 TIVEYOVEL 3oNVNV31 JONAS 7 13119345 LON SI HOIHM SNOISN3AIQ 30 SONVYFIOL S3IVOIONL 1 LON CN c ERREZA p rei 050 18 c T 006512001 00151 gt 06 Ley p 050 3 4101 NOISNANIG SEE BY Ah 12 7 lo 0 EN Th 4 NO CO gt gt 21 29 SNOISNANIG 1101009 SI MNN NVA 01108 g M 9 9 CO V OU R U N D 5 2 5 21 TABLE 1 DIMENSION TOLERANCE 20 20581 227 NAMEPLATE S 500 200 50 236 20 BW S _
23. 2 input No connection TTYCS LA 4 1 61162 1 7 2 In Serial CH2 input 1 61162 1 Set the jumpers J20 J21 to Modbus 2 13 2 WIRING Connector J6 Signal name 1 TD3 A Out Serial CH3 output IEC61162 172 CH3 output IEC61162 1 2 TTYCS LA 4 p 05 8 3 RD3A Serial CH3 input EC61162 2 4 8058 m Serial CH3 input IEC61162 2 5 ISOGNDS isoaion GND CHS 6 RD3 H In Serial CH3 input IEC61162 1 No connection TTYCS LA 4 RD3 C Serial CH3 input IEC61162 1 Connector J7 ame In Out pesempton IECe11622 162 2 1 1 TD4 A Serial CH4 NEL 1 2 4 2 4 Serial CH4 output IEC61162 1 2 3 RD4 A In Serial CH4 input IEC61162 2 In Out IEce11622 162 2 180611624 1 4 RD4B n SeralCH4 imputlEC611622 5 SOGND4 isoaton CHa RD4H n Serial CH4 input IEC61162 1__ No connection TTYCS LA 4 Lamm Lo Connector J8 name TIYGS 1Q or TTYCSLA 10 e T068 Oui Serial CH6 output IEC01162 1 8 RD6C m SerlCH6inputiEC611621 Connector J9 name TD7 A Serial CH7 output IEC61162 1 TTYCS 1Q or TTYCSLA 1Q TD7 B Serial CH7 output IEC61162 1 RD7 H Serial CH7 input IEC61162 1 e mee fou Serai 0HB output EC61162 1 _ s Rosc in Serial 2 WIRING 2 2 2 MC 3000S connection fabrications Fabricat
24. 24P0116 MC OUT Board 24P0117 Setting termination resistors on the Jumper block Use the jumper block J25 to set the termination resistor on off for the MODBUS communication on the connector J1 For the first and last sensor adapter in a series their termination resistors should be set to ON If not communication between sensor adapters is not possible Jumper block J25 Connector J1 OPEN Termination resistor OFF default setting SHORT SHORT Termination resistor ON OPEN 2 25 2 WIRING 2 2 8 MC 3020D 3030D Waterproof case packing 24 29 Optional The optional kit OP24 29 protects the connectors on the MC 3020D 3030D to waterproofing standard IPX2 Case packing type OP24 29 code no 001 169 970 Name CodeNo Qty Case packing analog 21 014 2052 2 100 367 961 10 MC 3020D 3030D 1 Unfasten four binding screws to remove the cover from the adapter COVer Binding screw 2 Peelthe paper from the case packing then attach the case packing to the reverse side of the cover and the body unit as shown below Case packing Case packing Cover reverse side 3 Attach the cover to the MC 3020D 3030D chassis Case packing Case packing 2 26 2 WIRING 2 3 Intelligent HUB 3000 Optional Fix any LAN cables connected to the HUB 3000 to their respective cable clamps using cable ties supplied Power Fail DPYC 1
25. 678910 1 Longitudinal water speed knots 9999 999 9999 999 2 Transverse water speed knots 9999 999 9999 999 null 3 Status water speed A data valid V data invalid 4 Longitudinal ground speed knots 9999 999 9999 999 5 Transverse ground speed knots 9999 999 9999 999 null 6 Status ground speed A data valid V data invalid 7 Stern transverse water speed knots 9999 999 9999 999 8 Status stern water speed A data valid V data invalid 9 Stern transverse ground speed knots 9999 999 9999 999 10 Status stern ground speed A data valid V data invalid VDM UAIS VHF data link message I VDM X X X X s s X hh CR LF 1234 5 6 1 Total number of sentences needed to transfer the message 1 to 9 2 Message sentence number 1 to 9 3 Sequential message identifier O to 9 NULL 4 AIS channel Number A or B 5 Encapsulated ITU R M 1371 radio message 1 63 bytes 6 Number of fill bits 0 to 5 VDO UAIS VHFG data link own vessel report I VDO x x Xx x s s x hh CR LF 12345 6 1 Total number of sentences needed to transfer the message 1 to 9 2 Message sentence number 1 to 9 3 Sequential message identifier 0 to 9 NULL 4 AIS channel Number A or B NULL 5 Encapsulated ITU R M 1371 radio message 1 63 bytes 6 Number of fill bits 0 to 5 AP 13 APPENDIX 3 DIGITAL INTERFACE VDR Set and drift VDR x x ToX x M x x N hh lt CR gt lt LF gt 123456 1 Direc
26. AN cable through the seal nut then the claw and finally the seal LAN connector Seal nut Connect the LAN cable to the connector 5 Join the claw and seal to form the seal assembly then firmly join the seal assembly to the LAN connector 6 Fasten the seal nut and secure the cable Continue to fasten the nut until the space between the two nuts is approximately 3 mm See the figure below for reference EN between nuts is approximately 3 mm 2 29 2 WIRING 2 4 1 2 30 Jumper settings for RCB 002 The RCB 002 is compatible with the following radars Japan Radio Company JMA 9100 series JRC Tokyo Keiki Inc BR 3440 series FURUNO radars are only compatible with the CH2 RADAR SIGNAL IN NO 2 port Change the jumper settings on the RA IF board 24P0140 according to the radar to be connected referring the tables on the next page FAR 14x7 series e FAR 2xx7 series e FAR 2xx5 series Model 1835 FURUNO Jumper locations on the RA IF board 24P0140 Note According to the shipment time the heat dispersion sheet may be attached to the RA IF board 24P0140 If the heat dispersion sheet is attached it may come loose when removing the RCB 002 cover Before closing the cover make sure the disper sion sheet is in the location shown below If the sheet is loose align it with the locator lines printed on the board Heat dispersion sheet locator lines
27. CS 4 J7 4 RD4 B 0 75 6 gray TTYCSL A4 ISOGND4 6 RD4 H RDA C onnector Pini Signalname Rod terminal to use Connected cable TTYCS 1Q TTYCSLA 1Q J8 TTYCS 1Q TTYCSLA 1Q TTYCS 1Q TTYCSLA 1Q TTYCS 1Q TTYCSLA 1Q AP 3 APPENDIX 2 ROD TERMINALS MC 3020D MC DIN Board 24P0116 MEX ee AI0 34 6 blue Al 0 14 8 GY gray MC1 5 W Lxxx Connector Pin Signalname Rodterminaltouse Connected cable 1 24V OUT Al 0 34 6 TQ blue Al 0 14 8 GY gray MC1 5 W Lxxx Connector Pin Signalname Rodterminaltouse Connected cable _ 1 DV12V_OUT1 2 DIGI_IN1 4 6 DIGNA 8 m Connector Pin Signalname Rodterminaltouse Connected cable _ 2 DIGI IN3 6 8 GND J3 1 6 RD red MPYC 12 Continued on next page AP 4 APPENDIX 2 ROD TERMINALS Connector Pins Signalname Rod terminal to use Connected cable 2 DIGIIN5 IN5 OUTe A 1 6 RD 6 7 DIGLRTN6 GND Pin 1 and 5 no cable connection However the jumper connection is necessary between 1 and 2 and 5 and 6 depending on the input specification Connectors Pin Signalname Rod terminal to use Connected cable DIGLINT SFPRTN RTN7 je GND DC12V OUT8 _ Al 1 6 RD red MPYC 12 8 BG NS 7 8 GND Pin 1 and 5 no cable connection However the jumper connection is n
28. DVI S LINK 5M 001 132 960 10 OR unit MC1 5 W L600 001 187 470 10 Between sensor adapters 0 6 MC1 5 W L2000 001 187 490 10 Between sensor adapters 2 Cable Assy MC1 5 W L1000 001 187 480 10 Between sensor adapters 1 MC1 5 W L3000 001 187 500 10 Between sensor adapters 3 MJ A10SPF0020A 050 001 283 370 00 For Non FURUNO radars 5 m MJ A10SPF0020A 100 001 283 380 00 For Non FURUNO radars 10 m MJ A10SPF0020A 200 001 283 390 00 For Non FURUNO radars 20 MJ A10SPF0020A 300 001 283 400 00 For Non FURUNO radars 30 Operator s OME 44840 000 178 755 1 English Manual 1 1 1 MOUNTING NOTICE Do not apply paint anti corrosive sealant or contact spray to coating or plastic parts of the equipment Those items contain organic solvents that can damage coating and plastic parts especially plastic connectors Panel Computer Unit PCU 3000 The PCU 3000 can be flush mounted or desktop mounted optional Mounting considerations When selecting a desktop mounting location keep the following points in mind Locate the PCU away from heat sources The cabinet can build up heat inside causing undue wear to electrical components Choose the mounting location while considering the length of cable between the PCU and other equipment to be connected Do not cover the air intakes near the connectors at the base of the PCU Leave at least 100 mm clearan
29. RED Al 0 14 8 GY GREY Rod terminal ferrule type 42 core must protrude 0 5 to 1 El past the rod terminal Rod terminal ferrule type After attaching the rod terminal use the optional crimping tool CRIMPFOX 10 to crimp For the relations between the connectors and rod terminals see page AP 2 Also the stickers attached on the reverse side of the covers show the detailed connections Use the MC 1 5 W cable between the sensor adapters Attach the cables to the appli cable pins Cablecolor Signa 1 Red 24V OUT or 24V IN 24V Note The total length of the MC 1 5 W cables should be less than 6 m to prevent mal function 2 11 2 WIRING 2 2 1 MC 3000S connections Unfasten four screws to remove the cover pass the cables through the clamps and attach the cables to respective connectors The shield part of the cable or drain wire must be fastened by connected to the clamp For TTYCSLA cables pass the drain wire into the shrinking tube local supply then use these crimp on lugs and screws to connect drain wires from TTYCSLA cables to here Sx 9 ore gt FR ETPC CY cable S S465 BCIV 1 25sq Local supply TlYCS lt 1Q TTYCS TTYCSLA 1Q TTYCSLA4 es DPYC1 5 lt 1 5 cable Note Fasten the cable shield with the cable clamp How to set NC NO output
30. TPC CY DTI C5E350 VOV as shown below Wrap both edges of the armor with vinyl tape Confirm that the shield of the cable touches to the shell of the modular plug Shielding Cable jacket Outer sheath 225 Inner sheath Cover the cable jacket with insulated tape 20 mm width Expose inner sheath 2 25mm Remove the sheath by approx 25 mm Be careful not to damage inner shield and cores 4 5 approx 9mm approx 11 mm Fold back drain wire and Straighten and flatten the cut it leaving 9 mm core in order and cut them leaving 11 mm 7 a Using special crimping tool MPT5 8 PANDUIT CORP crimp modular plug Finally check the plug visually cross cable CDWHT GRN WHT ORG D D GRN ORG WHT ORG WHT GRN BLU BLU WHT BLE WHT BLE ORG GRN WHT BRN WHT BRN BRN BRN 2 6 For flush mount installations adjust the length of stripped cable to suit your conditions approx 9 mo 4 Fold back the shield wrap it onto the outer sheath and cut it leaving 9 mm Drain wire Insert the cable into the modular plug so that the folded part of the shield enters into the plug housing The drain wire should be located on the tab side of the jack Straight cable ORG ORG 0 WHT GRN WHT GRN BLU BLU WHT BLE WHT BLE GRN GRN WHT BRN WHT BRN BRN BRN 2 WIRING 2 1 5 Fabricating JIS ca
31. _ SOURCE CND TERMINAL SIGNAL CONNECTOR 1 1 2 3 5x20 4 1 TABLE 1 INDICATES TOLERANCE OF DIMENSIONS WHICH IS NOT SPECIFIED 2 MINIMUM SERVICE CLEARANCE 4 USE TAPPING SCREWS 65 20 FOR FIXING THE UNIT 4 FOR BULKHEAD MOUNT FACE THE CONNECTORS DOWMNWARD A s0 ec 2013_T YAMASAK RCB 002 100e 2015 H MAKI MD nag72013HM FD 300 S 14 JS 3o RADAR CONNECTION BOX BULKHEAD TABLETOP MOUNT AS 04484 003 24 016 1306 1 OUTLINE DRAWING FURUNO ELECTRIC CO LTD EF UR UNO 4 5 S 1 IEC61162 1 2 IEC61162 1 E Il c c c kis gt lt c c FT zi 3 T d 2l PA STP CAT5 CABLE z a a NETWORK EQUIPMENT aTh aTe Iph pet MM le pS ee aa PVO PANEL COMPUTER UNIT T ce FR FTPC gt SWITCHING HUB 2 PCU 3000 10 20 30m 13 HUB 100 8 PORTS O OR a zl SENSOR ADAPTER
32. al Monitor VDR X ORES asss d PANEL Sensor Adapter Digital OUT interface USB Printer COMPUTER MC 3030D USB Flash Drive UNIT a 2 PCU 3000 Serial Interface 4 ports 61162 1 2 2 AIS GYRO fT jntellgentHub 00 499 VAC 3000 Gateway network equipment Category of units qe I radar ECDIS etc All units protected fromthe weather fe a Radar Connection Box maak Dashed lines indicate RCB 002 optional local supply 7 7 ee Ragar equipment OE De i 100 115 200 230 VAC AC DC Power 177777 10 50 60 Hz 100 230 VAC SUPAY ML or i 240 ___ 24 VDC 24 VDC 1 Use full HD monitor 2 ECDIS picture data can be sent periodically to VDR via LAN Connect the VDR to the LAN2 port on the Panel PC to send the data Multiple workstations Maximum 3 Trackball Control Unit RCU 030 USB DVD Drive Keyboard 51390 Black muc mim m ee EN USB Printer USB Flash Drive Serial Interface 4 ports 61162 1 2x2 AIS GYRO _ IEC 61162 1x2 GPS LOG TM oe PANEL 100 230VAC lt Switching Hub COMPUTER PCU 3000 Serial interface 4 7 24VDC e 3000 oe Digital IN interface Sensor Ad
33. apter 3020D Digital OUT interface Sensor Adapter MC 3030D Category of units All units protected from the weather 100 230 or 24 VDC Dashed lines indicate optional or local supply equipment Use full HD monitor ECDIS picture data can be sent periodically to a VDR via LAN Connect the VDR to the LAN2 port on the Panel PC to send the data Radar 1 Radar 2 100 115 200 230 VAC 10 50 60 Hz 9 24 VDC e b SYSTEM CONFIGURATION PANEL COMPUTER NIT U PCU 3000 Same equip ment as shown left 100 230 VAC Or 24 VDC Gateway network equipment radar ECDIS etc asss s ass RENE Hub HUB 3000 I Radar Connection Box 002 Supply Unit PR 240 EQUIPMENT LIST Standard Suppl Name Type CodeNo Remarks Panel Computer Unt PCU 3000 apf oo o o Trackball Control Unit RCU 030 Installation Materials CP24 03101 001 262 570 1 For PCU 3000 Portable DVD ROM Drive FP24 01000 000 024 913 1 204 Optional Supply uu _ RCB 002 For connection external radar Connection Box IMC 30005 Sensor Adapter qA IMC 3080D oO Inteligent HUB HUB3000 Switching HUB HUB400 f Case Gasket Cable Clamp For PCU 3000 Mounting OP24 42 001 263 260 For PCU 3000 Bracket Installation Materials CP2402920
34. aracter Reference datum W84 WGS84 W72 2WGS72 585 56585 P90 PE90 GGA hhmmss ss lIII IIl a yyyyy yyy a XXX X X X X M x x M xX x xxxx hh lt CR gt lt LF gt 1 2 3 4 567 8 910111213 14 UTC of position no use Latitude 0000 00000 9000 00000 N S Longitude 0000 00000 18000 00000 E W GPS quality indicator 1 8 Number of satllite in use No use Horizontal dilution of precision 0 0 999 9 Antenna altitude above below mean sealevel No use 10 Unit m No use 11 Geoidal separation No use 12 Unit m No use 13 Age of differential GPS data 0 999 14 Differential reference station ID No use gt G N GLL Geographic position latitude longitude GLL III Ill a yyyyy yyy a nhmmss ss a x hh lt CR gt lt LF gt 1 2 3 4 5 67 Latitude 0000 00000 9000 00000 N S Longitude 0000 00000 18000 00000 E W UTC of position No use Status A data valid V data invalid n Mode indicator A Autonomous D Differential E Estimated M Manual input S Simulator AP 9 APPENDIX 3 DIGITAL INTERFACE GNS GNSS fix data GNS hhmmss ss IlIll a III lt gt lt gt 1 23 4 56 7 8 9 10 11 1213 1 UTC of position no use 2 Latitude 0000 00000 9000 00000 3 N S 4 Longitude 0000 00000 18000 00000 5 E W 6 Mode indicator P R D F A E M S N No
35. bles Fabricate JIS cables as shown below to connect them to the WAGO connectors on the PCU 3000 See following page for WAGO connection After fabricating the cable attach the WAGO connector and EMI ferrite core plied For how to attach the WAGO connecor and EMI ferrite core see the next page Fabrication of TTYCS series NOTE All dimension in millimeters Armor Sheath Shield Clamp here with cable clamp Fabrication of TTYCSLA series 100 Drain wire gt 6 lt 80 Crimp on lug supplied 2 lt SKE gt gt Clamp here with cable clamp Pass a heat shrink tube local supply onto the drain wire then attach the crimp on lug Supplied with the PCU 3000 to it For flush mounted installations connect the drain wire to this terminal C4 6 7 8 9 10 C2 6 7 8 9 10 2 7 2 WIRING How to connect JIS cables to WAGO connectors WAGO connectionfor IEC 161162 1 lines WAGO connectionfor IEC 161162 2 lines WAGO connector screw WAGO connector screw 4 amp 5 Wire e x Twist Resistor lt Procedure gt lt Procedure gt 1 Twist the core wire 1 Twist the core wire 2 Unfasten the WAGO connector screw 2 Unfasten
36. c c hh lt CR gt lt LF gt 1 2 3 1 Event time 000000 00 235960 99 2 Tag code used for identification of source of event RA0001 RA0010 0001 El0016 140001 0016 110001 10016 3 Event description OPERATION AP 15 APPENDIX 3 DIGITAL INTERFACE HTC Heading Track control command HTC A X X a a a X X X X X X X X X X X X X X a a hh lt CR gt lt LF gt 1 23456 7 8 9 10 11 12 1314 Override A in use V not in use Commanded rudder angle degrees Commanded rudder direction L R port starboard Selected steering mode Turn mode R radius controlled T turn rate controlled N turn is not controlled Commanded rudder limit degrees unsigned Commanded off heading limit degrees unsigned Commanded radius of turn for heading changes n miles Commanded rate of turn to heading changes deg min 10 Commanded heading to steer degrees 11 Commanded off track limit n miles unsigned 12 Commanded track degrees 13 Heading reference in use T M 14 Sentence status Q Q N CO NO VSD UAIS Voyage static data VSD x X X X X X c c hh hmmss ss Xx XX X X x xX hh lt CR gt lt LF gt 12 3 4 5 6 7 8 9 Of ship and cargo category 0 255 Maximum present static draught 0 to 25 5 meters null Persons on board 0 8191 null Destination 1 20 characters null Estimated UTC of arrival at destination 000000 00 235959 99 Estimated day of arrival at destina
37. ce around the rear air vents of the unit to allow heat dissipation Locate the PCU away from areas which may be subject to splash or rain Referring to the outline diagrams at the back of this manual leave sufficient space around the equipment to facilitate maintenance Keep in mind the desired location of the trackball unit Make sure there is enough room to install the Trackball Control Unit near the PCU A magnetic compass will be affected if the equipment is placed too close to the magnetic compass Observe the compass safe distances at the front of this manual to prevent interference to a magnetic compass Vibration at the mounting location should be minimum Alarm and alert buzzer sounds are generated from a speaker on the face of the PCU To avoid sound dampening do not place any object in front of the PCU Ensure the speaker hole is kept free of dust and water 1 MOUNTING 1 1 1 Flush mounting Items to prepare for the flush mounting procedure Torx screwdriver 110 T25 1 Attach the USB cable clamp to the PCU using the torx screws M34 2 pcs included USB cable clamp Attach the I USB cable m clamp here 2 a cutout where the PCU 1 to be located referring to the outline drawings at the back of this manual 3 Connect all cabl
38. characters max 32 CUR Current CUR A X X X X X X X 8 X X X X Xx x a a hh CR LF 1234 5 67 8 9 1011 Validity of data A valid V not valid Data set number 0 9 Layer number 0 0 3 0 Current depth in meters No use Current direction in degrees 0 00 360 00 Direction reference in use true or relative Current speed in knots 0 00 99 99 Reference layer depth in meters No use Heading 0 to 360 00 10 Heading reference in use true or magnetic 11 Speed reference B Bottom track W Water track P Positioning system O OO N O O gt DBT Depth below transducer DBT xxxx x f xxxx x M xxxx x F hh lt CR gt lt LF gt 1 2 3 4 5 6 1 Water depth 0 00 99999 99 2 feet 3 Water depth 0 00 99999 99 4 Meters 5 Water depth 0 00 99999 99 6 Fathoms AP 8 Depth DPT x x x x x X hh CR LF 1 2 3 1 Water depth relative to the transducer meters 0 00 99999 99 2 Offset from transducer meters No use 3 Minimum range scale in use No use DTM Datum reference DTM ccc a Xx X a X X a X X ccc hh CR LF 123 4567 8 Lat offset min 0 59 99999 N S Lon offset min 0 59 99999 E W Altitude offset meters No use N GGA Global positioning system fix data APPENDIX 3 DIGITAL INTERFACE Local datum W84 WGS84 W72 WGS72 S85 SGS85 P90 PE90 Local datum subdivision code NULL or one ch
39. co 1 gt lt 2 Ed Lu I gt 52 aag PE 2 F e p SSS Agel LES ies 584 x vium 1 Kz ees 2 MARINE RADAR o IV 1 2534 5 DITTO TALI 2 M 24 K _ C N A t e g gt ogres e PR 240 DETAIL FOR PR 240 CONNECTION Ss EE 100 115 DP16 3 5 T omoia 3 a gt 200 230VAC 16 AC DC POWER 1 1 50 60Hz 4 T 2225322 2 3 PE x 4 IMAGENICS RS 1500 1V 2Sd 5 IEC61162 2 RX RX IEC61162 1 3 8 m FMD 3100 1 SHIPYARD SUPPLY Z5 2 OPTION 18 Ju APPROVED ES 3 FIT CONNECTORS AT LOCAL m 4 RECOMMENDED IMAGENICS RS 1500 ETC SCALE ECDIS xb IEC61162 2 REQUIRES TERMINNATOR BETWEEN RX AND RX kg IEC61162 1 DOES NOT REQUIRE ISOLATE GROUND AT 3 OR 8 PINS DWG No REF No 24 016 6001 0 INTERCONNECTION DIAGRAM 04484 601 FURUNO ELECTRIC Co LTD 7 9I8 F EE N i 1910 9 amp I QI 8110 100 i 9 9QM
40. compass will be affected if the equipment is placed too close to the magnetic compass Observe the compass safe distances at the front of this manual to prevent interference to a magnetic compass e Vibration at the mounting location should be minimum How to mount the intelligent hub HUB 3000 1 Use two binding screws M3x6 supplied to attach the cable clamp supplied to the bottom of the HUB 3000 3 i Binding screw Sey M3x6 2 pcs 2 Cable clamp HUB 3000 bottom view 2 Fasten four self tapping screws 4x20 supplied to fix the unit in place N ns hot Po n 7 Screw holes Pd 1 A zo see ei 1 11 1 MOUNTING 1 5 Mounting Switching Hub HUB 100 Optional Use the optional Switching HUB HUB 100 to connect sensor networks This network cannot be connected with the LAN network on board Note that a commercial PC can not be connected in this network other than for the maintenance For the mounting procedures see the operator s manual for HUB 100 Pub No 35191 Mounting considerations Keep the following points in mind when selection a mounting location Locate the HUB 100 away from heat sources The cabinet can build up heat inside causing undue wear to electrical components e The HUB 100 should be fixed firmly so that rough seas and vibrations do not cause the unit to move in any manner
41. d damage to the screen 3 Attach the cable clamp OP24 39 supplied to the rear of the PCU 3000 using the screws M6x12 2 pcs included in option kit 5 crew Py Cable clamp 4 Set the PCU in the desired installation location 1 MOUNTING 5 Referring to the figure below tilt the PCU 90 rearwards by unlocking the brackets Hold the unit in place then pull and turn the locking pins clockwise one at a time to set the pin in the unlock position Locking pin Pull and turn clockwise Unlocked and free to move 6 After tilting the PCU turn the locking pin counter clockwise to lock the bracket in place 7 Attach the footings of the brackets in place at the mounting location using the self tapping screws 06x30 6 pcs included in the mounting kit 8 Hold the unit in place then pull and turn the locking pins one at a time clockwise to set the pins in the unlock position 9 Referring to the figure below set the PCU upright at a comfortable viewing angle then turn the locking pin coutnerclockwise to lock the brackets in place Locking pin Turn counterclockwise Unlock tilt and lock Locked in place Note Be sure that the brackets are locked in place securely with the locking pins to prevent bodily injury or damage to the equipment OK Locked in place Unlocked and free to move 1
42. e USB cable through the hole then place the unit inside the hole 3 Attach the brackets to the unit s under side using the screws included in the flush mounting kit Console Underside Flush mount bracket 4 Fasten the wingbolts until the footing is flush against the mounting area Footings are flush against 9 the mounting area Wingnut AN Wingbolt 5 Tighten the wingnuts until the unit is firmly secured 1 MOUNTING 1 3 Sensor Adapter 30005 30200 30300 Optional Mounting considerations When you select a mounting location keep in mind the following points Locate the equipment away from heat sources because of heat that can build up inside the cabinet Take into account the length of the cables to connected to the equipment when choosing an installation location Vibration at the mounting location should be minimum Locate the equipment away from places subject to water splash and rain Referring to the outline diagrams at the back of this manual leave sufficient space around the equipment to facilitate maintenance A magnetic compass will be affected if the equipment is placed too close to the magnetic compass Observe the compass safe distances at the front of this manual to prevent interference to a magnetic compass Select the mounting location considering the numbers of the sensor adapters con nected A maximum of eight MC 3000S can be connected to a sensor network fo
43. e the cables to be connected to the MC 3000S referring to the figure below LAN cable FR FTPC CY MC1 5 W L600 1000 2000 3000 cable See section 2 1 4 for Shield Gora amp the fabrication Vinyl tape fold back 20 100 TTYCS 1Q cable TTYCSLA 1Q cable J8 19 J8 J9 F PRN M 1 to 4 110 1 to 4 100 5 8 95 508 90 5 8 95 5to 8 90 80 6 Vinyl tape 60 width 10 Shield fold back Pass drain wire through vinyl sheath local supply then attach crimp on lug pre attached in unit Vinyl tape width 10 2 15 2 WIRING TTYCS 1 cable TTYCSLA 1 cable Vinyl tape Vinyl tape Shield fold back ur width 10 width 10 Pass drain wire through vinyl sheath local supply then attach crimp on lug pre attached in unit TTYCS 4 cable TTYCSLA 4 cable J4 J6 100 80 or J5 J7 120 Core 6 more Vinyl tape lt gt width 10 20 141 6 100 Vinyl tape 60 Core 6 3957120 width 0 50 50 Wind tape to insulate Wind tape to insulate Pass drain wire through shrink tube local supply then attach crimp on lug DPYC 1 5 cable pre attached in unit Vinyl tape Core 6 width 10 i gs 2 16 2 2 3 J19 2 WIRING MC 3000S Jumper and MODBUS settings Set the jumper blocks in the MC CS Board 24P0114 referring to the
44. ecessary between 1 and 2 and 5 and 6 depending on the input specification AP 5 APPENDIX 2 ROD TERMINALS MC 3030D MC DOUT Board 24P0117 T eee ee KOETA PLE ene Al 0 14 8 scu gray MC1 5 W Lxxx Connector Pin Signalname Rodterminaltouse Connected cable 1 24V_OUT 10 34 6 TQ blue Al 0 14 8 GY gray MC1 5 W Lxxx Connectors Pins Signalname terminal to use Connected cable 1 1 M E NN Al 1 6 RD red MPYC 12 4 M 6 o ET AL 4 6 RD red MPYC 12 8 cM o _ 6 B Connectors Pins Signalname terminal to use Connected cable 1 6 12 12 6 APPENDIX 3 DIGITAL INTERFACE Digital Interface Input sentence IEC61162 1 2 ALR CUR DBT DPT DTM GGA GLL GNS MTW MWV NRX OSD RMC ROT RSA RSD THS TTM VBW VDM VDO VDR VHW VTG XDR ZDA IEC61162 450 ALR CUR DBT DPT DIM GGA GLL GNS MTW MWV NRX OSD RMC ROT RSA RSD THS TTM VBW VDM VDO VDR VHW VTG XDR ZDA Output sentences IEC61162 1 2 ABM BBM EVE HTC OSD VBW VSD IEC61162 450 ABM ACK BBM EVE HTC OSD VBW VSD XTE FURUNO proprietary output sentence PFEC pidat pired Ilco rminf rmset rmevt Data reception Data is received in serial asynchronous form in accordance with the standard referenced in IEC
45. ected to the gateway network other than for maintenance Connect to other ECDIS units and radars FEA 2xx7 or FAR 2xx7 series radars using the gateway network When constructing a network with two or more FAR 2xx radars an FMD 3x00 unit and using a HUB 3000 the HUB 3000 querier must be configured To configure the querier consult with a Furuno engineer The FMD 3100 processor unit does not support IGMP snooping or CGMP enabled switch The FMD 3100 does not have a router or repeater hub function The Switching Hub HUB 100 is optionally available for connection to the FMD 3100 The Switching HUB HUB 100 does not support IGMP snooping or GCMP enabled switch When you use IEC61162 450 compatible sensors set Transmission Group on the Common Installation Settings menu Only service technicians can access the Common Installation Settings menu Contact your FURUNO dealer to set it 2 WIRING 2 1 Panel Computer PCU 3000 2 1 1 Connections to the PCU 3000 Referring to the figure below connect the PCU to its respective peripherals 3 AC and DC input cannot be used simultaneously 24 VDC 100 230 VAC To external monitor DVI D D S LINK5M cable Grounding point for serial ports Used when flushmounting only SSD port DPYC 1 5 Unused 1 not used s mimi Y RETE
46. ection of an incorrect power supply can cause fire or damage the equipment Use only the specified power cable Fire or damage to the equipment can result if a different cable is used Do not install the units of the system where they may get wet from rain or water splash or in a dusty environment Water in the units can result in fire electrical shock or damage the equipment The installer of the equipment must read the safety instructions before attempting to install the equipment Indicates a potentially hazardous situation which if not avoided could result in death or serious injury Indicates a potentially hazardous situation which if not avoided can result in minor or moderate injury A WARNING Attach protective earth securely to the ship s body The protective earth grounding is required for the AC power supply to prevent electrical shock N CAUTION Observe the following compass safe distances to prevent interference to a magnetic compass Unit Standard Steering compass compass Panel Computer Trackball Control Un RU Intelligent HUB HUB 3000 100 ee SYSTEM CONFIGURATION Single workstation Switching Hub Trackball Control Unit RCU 030 100 MC 30008 24 VDC USB DVD Drive 0 22 PRU i924 VDC MEE penu Digital IN interf 100 230 Sensor Adapter H gita v Interface MC 3020D Extern
47. es to their appropriate slot on the Take to leave enough slack in the cables to allow access for maintenance and repair 4 Slide the unit into the cutout Take care to not to bend or squash any cabling Panel PC Note User controls and ports should be facing downwards 5 Taking care not to confuse the bracket types see figure below screw each back et into place using M5x16 screws and C washers Mounting location console Screw Lower bracket is different from others 6 Ensure all four sides are equally tight taking care not to over tighten the screws Mounting location console Panel PC nm MTM Screw Bracket 1 2 1 MOUNTING 1 1 2 Desktop mounting optional Items to prepare for the procedure Torx screwdriver T10 T25 1 Attach the USB cable clamp to the PCU using the torx screws M3x4 2 pcs included Attach the USB cable clamp USB cable clamp here 2 Attach the brackets to the PCU 3000 referring to the figure below It is essential that the brackets are attached using the bottom screw holes as shown in the diagram below Failure to do so will result in undue vibrations Note Ensure the PCU 3000 is placed face down on a soft clean area to avoi
48. fix A Autonomous D Differential P Precise R Real Time Kinematic F Float RTK E Estimated Mode M Manual Input Mode S Simulator Mode 7 Total number of satellites in use No use 8 HDOP 0 00 999 99 9 Antenna altitude meters 999 99 9999 99 10 Geoidal separation No use 11 Age of differential data 0 99 12 Differential reference station ID No use 13 Naivgational status indicator S Safe C Caution U Unsafe V Not valid HDT Heading true HDT xxx x 1 hh lt CR gt lt LF gt 1 2 1 Heading degrees 0 00 to 360 00 2 True T MTW Water temperature MTW x x C lt CR gt lt LF gt L 1 1 Water temperature degrees C 100 000 100 000 MWV Wind speed and angle MWV x x a x x a A hh CR LF 123 45 1 Wind angle degrees 0 00 360 00 2 Reference R T R Relative T Theoretical 3 Wind speed 0 00 9999 99 4 Wind speed units K km h M m s N nm 5 Status A AP 10 APPENDIX 3 DIGITAL INTERFACE NRX Navtex received data NRX XXX XXX XX aaxx x hhmmss Ss Xx XX XXXX X X X X A c c hh lt CR gt lt LF gt 1 2 3 4 5 6 7 8 9 1011 12 13 Number of sentences 001 to 999 Sentence number 001 999 Sequential message ID 00 to 99 Navtex message code aaxx aa AA to ZZ xx 00 to 99 Frequency table index 0 to 9 null UTC of receipt of message No use Day 0 to 31 null Month 01 to 12 null Year 0000 to 9999 null 10 Total number of charac
49. isplay rotation see note 1 NOTES 1 Display rotation C Course up course over ground up degrees true H Head up ship s heading center line 0 up N North up true north is 0 up 2 Origin 1 and origin 2 are located at the stated range and bearing from own ship and provide for two independent sets of variable range markers VRM and electronic bearing lines EBL originating away from own ship position THS True heading amp status THS xxx x a hh CR LF 1 2 1 Heading degrees True 0 00 to 360 00 2 Mode indicator A Autonomous S Simulator AP 12 APPENDIX 3 DIGITAL INTERFACE TTM Tracked target message TTM Xx X X X X 8 X X X X 8 X X X X 8 C c a a hhmmss ss a hh CR LF 1 2 34567 8 9 10 111213 14 15 Target number 00 to 999 Target distance from own ship 0 000 99 999 Bearing from own ship degrees 0 0 359 9 True or Relative T Target speed 0 00 999 99 null Target course degrees 0 0 359 9 null True or Relative Distance of closet point of approach 0 00 99 99 null Time to CPA min increasing 99 99 99 99 null 10 Speed distance units N nm 11 Target name null 12 Target status L Lost Q Acquiring T Tracking 13 Reference target R NULL otherwise 14 UTC of data null 15 Type of acquisition A Automatic M Manual O gt VBW Dual ground water speed VBW x X X X XeX X X XXX XXX XX hh CR LF 12345
50. lation hole 020 75 0 1 19 2 0 1 Measurement units are in mm 3 Unfasten the nut Nut te 4 Insert the cable into the installation hole from the rear 2 4 2 WIRING 5 Place the cap strap then tighten nut to secure cable See the figure below v point console etc Note Always screw the cap on when the extension cable is not in use 2 1 3 Fabricating the power cables When using AC power connect the unit with the supplied AC power cables If the power supply is DC fabricate DPYC 1 5 cables as shown below Wago connectors must also be fitted For cable clamp location when using DPCY 1 5 cables see paragraph 2 1 6 Cable jacket Sheath 6 3 LIU Yr GY S 5 Z Ky lt gt N Z 22 80 150 x For flush mounted installation the length of stripping should be based on the installation location lt 6 CG WAGO connection WAGO connect WAGO connection port Wire 42 x lt Procedure gt 1 Twist the core wire 2 Unfasten the WAGO connector screw 3 Insert the core wire into the connector 4 Fasten the WAGO connector screw 5 Make sure the wire does not come loose 2 5 2 WIRING 2 1 4 Fabricating LAN cables Fabricate the LAN cable FR F
51. lbe number of transducers 5 Transducer n 14 APPENDIX 3 DIGITAL INTERFACE ZDA Time and date ZDA hhmmss ss Xx Xx xxxx xx xx hh CR LF 1 234 56 1 UTC 000000 00 235960 99 2 Day 01 31 3 Month 01 12 4 Year UTC 1970 2037 5 Local zone hours No use 6 Loca zone minutes No use Output sentences See input sentences for OSD and VBW ABM UAIS Addressed binary and safety related message I ABM X X X XXXXXXXXX X X X S s X hh CR LF 123 4 56 78 1 Total number of sentences needed to transfer the message 1 9 2 Message sentence number 1 9 3 Message sequence identifier 0 3 4 The MMSI of destination AIS unit for the ITU R M 1371 message 9 digits 5 AIS channel for broadcast of the radio message 0 3 6 VDL message number 6 or 12 see ITU R M 1371 7 Encapsulated data 1 63 bytes 8 Number of fill bits 0 5 ACK Acknowledge alarm ACK xxx hh lt CR gt lt LF gt 1 1 Local alarm number identifier 000 999 BBM UAIS broadcast binary message BBM x x xX X XX S S x hh lt CR gt lt LF gt 12345 6 7 1 Total number of sentences needed to transfer the message 1 9 2 Sentence number 1 9 3 Sequential Message identifier 0 9 4 AlS channel for broadcast of the radio message 0 3 5 ITU R M 1371 message ID 8 or 14 6 Encapsulated data 1 63 bytes 7 Number of fill bits 0 to 5 EVE General event message EVE hhmmss ss c c
52. le 4 Armor Type 5 Sheath Type 6 Shielding Type Steel Y Anticorrosive vinyl S All cores in one sheath sheath S Indivisually sheathed cores SLA All cores in one shield plastic tape w aluminum tape SL Individually shielded cores plastic tape w aluminum tape MPYC 4 EX TTYCYSLA 4 Core Area mm 2 3 4 PYC 4 TTYCSLA 4 Designation type of cores Designation type The following reference table lists gives the measurements of JIS cables commonly used with Furuno products Cable Cable Diameter Diameter Core Diameter Core Type Area Diameter Type Area DPYC 1 5 DPYC 2 5 DPYC 4 DPYC 6 DPYC 10 DPYCY 1 5 DPYCY 2 5 DPYCY 4 MPYC 2 MPYC 4 MPYC 7 MPYC 12 TPYC 1 5 TPYC 2 5 TPYC 4 TPYCY 1 5 TPYCY 2 5 4 1 5mm 2 5mm 4 0mm 6 0mm 10 0mm 1 5mm 2 5mm 4 0mm 1 0mm 1 0mm 1 0mm 1 0mm 1 5mm 2 5mm 4 0mm 1 5mm 2 5mm 4 0mm 1 56mm 2 01mm 2 55mm 3 12mm 4 05mm 1 56mm 2 01mm 2 55mm 1 29mm 1 29mm 1 29mm 1 29mm 1 56mm 2 01mm 2 55mm 1 56mm 2 01mm 2 55mm 11 7mm 12 6mm 13 9mm 15 2mm 17 1mm 13 7mm 14 6mm 15 9mm 10 0mm 11 2mm 13 2mm 16 6mm 12 5mm 13 5mm 14 7mm 14 5mm 15 5mm 16 9mm TTYCS 1 TTYCS 1T TTYCS 1Q TTYCS 4 TTYCSLA 1 TTYCSLA 1T TTYCSLA 1Q TTYCSLA 4 TTYCY 1 TTYCY 1T TTYCY 1Q TTYCY 4 TTYCY 4S TTYCY 4SLA TTYCYS 1 TTYCYS 4 TTYCYSLA 1 TTYCYSLA 4 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm 0 75mm
53. le clamp drain wires must be connected to the grounding point on the PCU 3000 See the figure in paragraph 2 1 1 When using the cable clamp drain wires with crimping lugs must be connected to the cable clamp as shown in the figure below Marine electrics DC Input DPYC 1 5 E Marine electrics TTYCS LA 4 or Em TTYCS LA 1Q TTYCS LA 1Q iem FR FTPC CY AN cable DTI C5E350 VCV u Clamping points for TTYCS LA 4 cables C Securing location for crimped drain wires Clamping points for For use with TTYCSLA cables only TTYCS LA 1Q cables 2 2 2 WIRING sensor Adapters Optional Maximum eight MC 3000S can be connected to a sensor network for the redundant connection 16 The MC 3000S serial input output 61162 2 1 4ch can connect max 10 sensor adapters using the MC1 5 W cables To connect the lines to the connector on the sensor adapter use the rod terminal fer rule type supplied to maintain performance This fabrication requires the optional crimping tool type CRIMPFOX 10S How to attach ferrule type lug Vinyl sheath L Ferrule type lug Length of L Al 1 5 6 BK BLK 0 34 6 TQ BLU 0 75 6 GY GREY Al 1 6 RD
54. netic compass Observe the compass safe distances at the front of this manual to prevent interference to a magnetic compass Vibration at the mounting location should be minimum Referring to the outline drawing at the back of this manual drill four holes 95x20 in the mounting location Secure the RCB 002 firmly in place using 65x20 tapping screws Make sure the RCB 002 is not subject to undue vibrations Connectors facing downwwards 1 13 1 MOUNTING This page is intentionally left blank 2 WIRING The illustration on this page shows the general connection between FMD 3100 and external equipment For detailed information see the interconnection diagram at the back of this manual Many of the cables mentioned are JIS Japan Industry Standard cables If not available locally use the equivalent See the cable guide in the Appendix for how to select equivalent cables 1 VDR External Monitor iDVIP D DP DVI D D SLINK5M 5 m Optional 5 m User supply Trackball Control Unit USB cable 2 RCU 030 Keyboard m USB cable 1 5 51390 BLACK TTYCS 4 or TIYOCSLAd NA LUE JTYGSLAG i AIS ALARM SYSTEM oC Intelligent HUB DTLC5E350 VCV 100 230 JV 1 HUB 3000 10 20 50 m MOD Z072 2 5 10 m Panel 5 4 or TTYCSLA 4 2 MJ A10SPF0020A p Qus Computer Ni External Radar 5 10 20 30 Radar Connection Box MJ A10SPF0020A
55. nput GND Photocoupler circuit 12V 5V 4700 0 5W DC12V_OUT DIGI_IN1 DIG RTN1 GND DC12V Use NH connector Register and AWG24 Me Contact input 2 2 2 1W TO Internal circuits GND Photocoupler circuit GND Note The input must not exceed the range of the input voltage to prevent malfunction Setting for voltage input 21 6 V to 31 2 V Setting for contact input Voltage cannot be input contact signal only Connector J3 n ACK1 ACK2 ACK2 OUT Pin 1 2 short DIGI IN1 LM RORIS MES 12 3 DIGI 12 4 epoct2yln Depending on input 5 OUT ind Pin 41 22 connec short tion m DIGI_IN2 12 7 DIGLRTN2 RTN2 Ls 2 In Depending on ACK2 input MPYGA2 12 2 21 2 WIRING Connector J4 ACK3 ACK4 ACK4 1 DC12V_OUT Pin 1 2 No connection 2 LN d ACK3 t perRma ou 5009 Hasoa Depending onackS io 2 3 GND DC12V In Z 5 No connection connection DC12V OUT Out Pin 1 2 connec short tion DIGI_IN4 12 D 7 _RTN4 C n on ACK4 input MPYC 12 GND DC12V uu connec tion Connector J5 Pind Signa name Remarks contact volage contact voltage Out contact voltage contact voltage 1 DC12V
56. otects the connectors on the MC 3000C to waterproofing standard IPX2 Case packing type OP24 28 code 001 169 970 Type CodeNo Qy Remarks Case packing serial 21 014 2051 100 367 880 10 For MC 3000S 1 Unfasten four binding screws to remove the cover from the adapter Binding screw 2 Peel the paper from the case packing then attach the case packing to the reverse side of the cover and the body unit as shown below Case packing 2 Cover reverse side Case packing Case packing Case packing Body unit 3 Attach the cover to the MC 3000S body unit 2 19 2 WIRING 2 2 5 3020 30300 connections MC 3020D Inputs digital signal 8ch contact input Contact or voltage input is lectable contact input requires jumper pins MC 3030D Outputs digital signal 8ch normal open close ON Urs t 25 Local supply KG lt 2 gt gt gt cable Note Fasten the cable shield with the cable clamp MC 3020D 3030D 2 20 2 WIRING How to ACK input 30200 Use the connectors J3 to J6 on the MC DIN Board 24P0116 to set the ACK input for to ACK8 as shown below e Input circuit for voltage input 12V 5V 4700 0 5W DC12V_OUT DIGI IN1 DIG RTN1 GND DC12V Register 2 2kO 1W To internal circuits DC voltage input 21 6V to 31 2V e Input circuit for contact i
57. p the following points in mind Select a location where the unit can be operated conventionally Locate the unit away from heat sources The cabinet can build up heat inside causing undue wear to electrical components Locate the unit away from areas which may be subject to water splash and rain Referring to the outline diagrams at the back of this manual leave sufficient space around the equipment to facilitate maintenance Consider the length of the signal cable and the distance between the unit and the PCU Leave enough slack in the cable to allow for maintenance A magnetic compass will be affected if the equipment is placed too close to the magnetic compass Observe the compass safe distances at the front of this manual to prevent interference to a magnetic compass Desktop mounting with metal mounting plate 1 Fix the metal mounting plate to the bottom of the unit referring to the figure below Metal mounting plate Smaller screw holes USB cable to PCU Fix the unit to the mounting location using self tapping screws supplied locally 1 MOUNTING 1 2 2 Flush mounting optional You can use the optional FM FIXTURE ASSEMBLY kit OP24 38 to flush mount the unit The flush mount location must have a thickness of at least 10 mm with a maximum thickness of 20 mm 1 Referring the outline drawing at the back of the manual mark and cut a hole in the position you wish to locate the unit 2 Set th
58. pare the necessary tools to replace the USB dongle CFAST memory card or SSD Philips head screwdriver Replacing the USB dongle a TE To replace the USB SN 3 dongle remove this USB hatch Rear of PSU 3000 Replacing the CFAST memory card To replace the CFAST memory card remove this cover plate SSD slot Replacing the SSD Referring to the figure above remove the SSD case from the SSD slot Unfasten the screws cricled in the figure below then remove the SSD Note When replacing SSD only replace the 0 slot drive Do not replace the 1 slot drive SSD case 1 MOUNTING Trackball Control Unit RCU 030 The Trackball Control Unit RCU 030 can be mounted on a desktop in two configurations 1 2 1 2 1 Desktop with mounting plate Standard installation Flush mounted inside a console Optional Mounting considerations When selecting a mounting location kee
59. r redundant connection 16 Maximum 10 sensor adapters MC 3020D 3030D can be connected to a single MC 3000S Select the mounting location so that the length of cables among the sensor adapters 30005 3020D 30300 is less than 6 m If the length is more than 6 m the equipment may not work properly How to mount the sensor adapter 1 Unfasten four binding screws to remove the cover from the Sensor Adapter 2 Fasten four self tapping screws 4x20 supplied to fix the Sensor Adapter 3 Reattach the cover 3000 MC 3020D 3030D 1 MOUNTING 1 4 Intelligent Hub HUB 3000 Optional Use the optional Intelligent Hub HUB 3000 to connect gateway network equipment This network cannot be connected with the LAN network on board Note that a commercial PC cannot be connected to this network other than for maintenance Mounting considerations Keep the following points in mind when selection a mounting location Locate the HUB 3000 away from heat sources The cabinet can build up heat inside causing undue wear to electrical components Take into account the length of the cables to connected to the equipment when choosing an installation location Locate the HUB 3000 away from areas which may be subject to splash or rain Referring to the outline diagrams at the back of this manual leave sufficient space the rear of the HUB 3000 to facilitate maintenance e magnetic
60. rm5 NO Alarm5 NC Alarm6 NO Alarm6 Out Out Out Out Out 12 No connection connection Wx Alarm5 MPYC 12 B5 Out oe 4 4 MPYC 12 COM6 6 12 6 B6 No connection 2 Connector J6 Signal In Alarm7 NO Alarm7 NC Alarm8 NO Alarm8 name Out Out Out Out Out 12 connection connection Alarm7 MPYC 12 3 B7 Out ee 4 A8 MPYC 12 No connection 4 A8 nem 8 Uf 12 6 8 aul 2 23 2 WIRING 2 2 6 2 24 Cable fabrication for 30200 30300 connections Using the figures below for reference fabricate the cables to be connected to the MC 3020D 3030D MC1 5 W L600 1000 2000 3000 cable 12 cable MC 3020D x Input Wind tape to insulate Core16 MC1 5 W L600 1000 2000 3000 cable MPYC 12 cable MC 3030D Output 6 insulates 6 2 2 7 2 WIRING How to set jumper blocks in the sensor adapters MC 3020D 3030D This paragraph shows how to set the MC DIN Board 24P0116 for MC 3020D and MC DOUT Board 24P0117 for MC 3030D Setting MODBUS addresses Use the rotary switch U18 to set the MODBUS address with a digit of number from 0 When multiple sensor adapters are connected to the 30005 the same number cannot be used among them It is allowed to use the same number between the MC 3000S and a sensor adapter J25 J25 MC DIN Board
61. tables that follow 914 J22 J23 J15 916 eo A t p 4 d 420 J21 gis a PS 24 0114 Setting MODBUS addresses Use the rotary switch 52 to set the Modbus address when setting connectors J4 J5 to Modbus The Modbus address set at J4 J5 in the network is not used When setting J4 J5 to IEC61162 1 2 use the default setting 0 Setting termination resistors on the Jumper block Use the jumper block J19 to set the termination resistor on off for the MODBUS communication on the connector J1 For the first and last sensor adapter in a series their termination resistors should be set to ON Use the MC CS Board with the default setting because it becomes the first adapter in a series Jumper block J19 Connector J1 SHORT Termination resistor ON default setting OPEN OPEN Termination resistor OFF SHORT Set the jumper blocks J14 through J17 to turn the termination resistors on connectors J4 through 47 respectively Termination resistor ON When setting the starting ending terminal for the multipoint or the multipoint is not connected to 4 When setting the starting ending terminal for Modbus CH1 2 17 2 WIRING Terminal resistor OFF When setting the terminal other than starting ending for the multipoint CH1 to 4 When setting the terminal other than starting ending for Modbus CH1
62. ters in this series of NRX sentences 1 to 8000 null 11 Total number of bad characters 0 to 8000 null 12 Status indication A correct message V incorrect message Null 13 Message body English alphanumeric characters cO OO O n Q N OSD Own ship data OSD x x A x x a x x a x x x x a hh lt CR gt lt LF gt 1234 567 89 Heading degrees true 0 00 359 99 null Heading status A data valid V data invalid Vessel course degrees true 0 00 359 99 null Course reference B M W R P null B Bottom tracking log M Manually entered W Water referenced R Radar tracking of fixed target P Positioning system ground reference Vessel speed 0 00 999 99 null Speed reference B M W R P Vessel set degrees true manually entered 0 00 359 99 Vessel drift speed manually entered 0 00 99 99 null Speed units N Knots RMC Recommended minimum specific GPS TRANSIT datas RMC hhmmss ss A Ill lla yyyyy yy a x x x x ddmmyy x x a a a hh lt CR gt lt LF gt 1 234 5 6 7 8 9 10 11 1213 UTC of position fix 000000 235959 Status A data valid V navigation receiver warning Latitude 0000 00000 9000 0000 N S Longitude 0000 00000 18000 0000 E W Speed over ground knots 0 00 99 94 Course over ground degrees true 0 0 360 0 Date 010100 311299 10 Magnetic variation degrees E W 0 00 180 0 NULL 11 E W 12 Mode indicator A Autonomous mode D Differen
63. the WAGO connector screw 3 Insert the core wire into the connector 3 Insert the core wire with the resistor into 4 Fasten the WAGO connector screw the connectors 4 amp P5 5 Make sure the wire does not come loose 4 Fasten the WAGO connector screw 5 Make sure the wire does not come loose How to attach the EMI ferrite core Attach the EMI ferrite core supplied to each connected cable group as close to the WAGO connector as possible leaving the drain wire loose See figure below EMI core attached to serial cable Drain wire left loose 2 8 2 WIRING How to set input specifications WAGO connection C1 to C4 t 2 ut TTYCS LA TTYCS LA 10 In In I Isolation GND CHT No connection In Serial CHT Input IEC61162 12 _ TTYCS LA 10 In Serial CH1 Input IEC61162 12 _ TTYCS LA 4 TTYCS LA 1Q 8 ISOGND Isolation GND CH2 5 9 0 In SeralCH2nputIEC61162 12 TTYCS LA 10 TTYCS LA 10 2 Serial CH3 Output IEC61162 1 3 ISOGND Isolation GND TTYCS LA 1Q el 6 TXD Out Serial CH4 Output IEC61162 1 TTYCS LA 1Q 8 150040 lsolaion GND 9 RxD SerialCH4nputEC61162 1 2 9 2 WIRING 2 1 6 Securing cables to cable clamp When installing the unit with the desktop option use the cable clamp to secure the electrical wiring and LAN cables When not using the cab
64. tial mode S Simulator F Float RTK P Precise R Real time kinematic E Estimated DR M Manual 13 Navigational status indication S Safe C Caution U Unsafe V Navigational status not valid P GQ N OND gt G N AP 11 APPENDIX 3 DIGITAL INTERFACE ROT Rate of turn ROT x x A hh lt CR gt lt LF gt 1 2 1 Rate of turn deg min bow turns to port 9999 9 9999 9 2 Status A data valid V data invalid RSA Rudder sensor angle RSA x x A x x A hh lt CR gt lt LF gt 12 34 1 Starboard or single rudder sensor data 180 180 0 NULL 2 Starboard or single rudder sensor status A Vaild N Data invalid 3 Port rudder sensor data 180 180 0 NULL 4 Port rudder sensor status A Vaild N Data invalid RSD Radar system data 9 RSD Xx X X X X X X XX XXX X X X X X X X X X X N H hh lt CR gt lt LF gt 1234 5 67 8 910 111213 1 Origin 1 range from own ship 0 000 999 see note 2 2 Origin 1 bearing degrees from 0 0 0 359 9 see note 2 Variable range marker 1 VRM1 range 0 000 999 4 Bearing line 1 EBL1 degrees from 0 0 0 359 9 5 Origin 2 range 0 000 999 9 see note 2 6 Origin 2 bearing 0 0 359 9 see note 2 7 VRM2 9 range 0 000 999 8 EBL2 degrees 0 0 360 0 9 Cursor range from own ship 0 000 999 10 Cursor bearing degrees clockwise from 0 0 0 359 9 11 Range scale in use 0 0625 120 12 Range units K N S 13 D
65. tion 00 to 31 UTC Estimated month of arrival at destination 00 to 12 UTC Navigational status 0 15 null Regional application flags 0 15 N O O gt XTE Xross track error measure XTE A A x x a N a hh lt CR gt lt LF gt 12 3456 1 Status A data valid V LORAN C blink or SNR warning 2 Status V LORAN C blink or SNR warning 3 Magnitude of cross track error 0 0000 9 9999 4 Direction to steer L R 5 Units nautical miles fixed 6 Mode indicator A Autonomous mode D Differential mode S Simulator mode AP 16 Serial Interface TD A TD B ISOGND RD A RD B gt 110 ohm LTC1535 Set with jumper 470 ohm RD H RD C Sensor Adapter IEC 61162 2 1 input output 470 ohm RD H 1 400 V Sensor Adapter IEC 61162 1 input SN65LBC1 72 Sensor Adapter IEC 61162 1 output Switchable open close APPENDIX 3 DIGITAL INTERFACE AP 17 APPENDIX 4 BOARD JUMPER VALUES The values for each jumper block on the RA IF board 24P0140 are shown below CH1 CH2 signal settings J1 J8 HD TERM J3 J16 VID TERM 45 418 BP TERM 010 022 TRG TERM 12119 HD PULL UP 5609 J4J12 HD POLARITY 25 9 9600 1 NORMAL 3 6 OC 1 kQ REVERSE Input bypass settings CH2 only J7 J11 HD INTERFACE 17 120 BP INTERFACE ADJUST ADJUST BYPASS BYPASS J14 J15 VID INTERFACE J21 J23 18 077877 TNO
66. tion degrees 0 00 360 00 null 2 T True fixed 3 Direction degrees 0 00 360 00 null 4 M Magnetic fixed 5 Current speed 0 99 99 6 N Knots fixed VHW Water speed and headings VHW x x T x X M x x N x x K hh lt CR gt lt LF gt 1234 5 67 8 Heading degrees 0 00 360 00 T True fixed Heading degrees 0 00 360 00 M Magnetic fixed Speed knots 0 00 9999 99 N Knots fixed Speed knots 0 00 9999 99 K km hr fixed VTG Course over ground and ground speed CONDOR WD VTG x x T X X M x x N x x K a hh lt CR gt lt LF gt 123456 789 Course over ground degrees 0 00 360 00 T True fixed Course over ground degrees No use M Magnetic No Use Speed over ground knots 0 00 99 94 N Knots fixed Speed over ground 0 00 99 94 K km h fixed Mode indicator A Autonomous D Differential E Estimated dead reckoning M Manual input S Simulator P Precision XDR Transducer measurements N O1 gt XDR a x x a c c a x x a c c hh lt CR gt lt LF gt 1 23 4 5 1 Transducer type transducer P V 2 Measurement data transducer Transducer 3 Units of measure transducer no Transducer type transducer 1 C C 1 A gt D 1 0 gt 1 gt 1 N gt N 1 gt 1 1 T R 1 gt 1 V gt M 4 Data varia
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