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ECDIS FEA-2xx7 Installation Manual in English

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2. 2 22 O C3 Uh gt a N rum a CN a gt n id gt D SHS J2 J4 J6 J8 J9 dN9 87 QNO 1 QNO GND Lt XL ON TX ONS A hae v Ze lH NYI 4 p XL ON TX ONEIN 218 NVI ZXY 7 xq QXM 1114 Xx Xx 9XM 9XM FIH NY QNO qN9 QN9 GND GNO aE QN9 qN9 QN9 QNO LXL E XD ONZ 1M 4 X1 XL G X1 AZIM A 1 X1 XL G XI ONZI1Y lt L XM XM GXH XM Xd GXM LXM Es 211 TS J1 RJ45 J3 J5 47 m CY 5 zZ un gt lt 1 w 2 gt iS 5 o eir LAN Adapter as Planning Backup Station only one position receiver connected 2 10 2 WIRING 24P0091 0 TER 122 O gt oD EE an LAN ADAPTER 8 H J13 imas LT 4 mi GRO 507 015 cH BT D B BB B 9009000
3. awdVa NOILO2313S1H Zv Myavs z Q 2 3 Nn 1ADd VZ Sd m SL 1X 2 0d 30 97 Z LNN u3 0d oi gt Sd 74208 GMA0CZ 0 Nf gt x 7 NN 2 s m Lee IV YOLVSIAVN dn Move LX ZY 7 EYE 2 SZXZ0d S 415 511 2 M OVAOEZ O 2 z ER 63 14 HOlVH3dO TE T N L LINN WYVI 51023 ANY MIAN Ni 901 xvd 901 OSS 2OSd Zur SIQO3 0X149 2 4NN AJ D D gt s 3 Ux VO 2 5 1 e m 2 2 I C A gt gt Ux VO gt 21 1212 SIZ 442 12 Z i i Z Z zz az S ES 10114 AVAL ia 7 5 5 aM 3 3 Rove LX CNQ gt 5 ENT 9 Nf LNA Z EIT 4155 LY 1 65 DY lt LINA QvV3H 10 1 009 65 DY 8 LINN INN t EC HO 6 b EC
4. NV Z Z 45 D 1 1 4 4 NN E 1 1 11 rdi m Sdf QUA vc 0 X Z Od Nf MOT38 14430 6 x c va 1 YNN vdidN IS 012 X c VO YNN U OC me U TANNVHO 3015110 ISZ X Z va 00 SS S SS NN Oe Sj ol L1 Pes YILIN 510 X Z VQ m NN p ee HOVOHddV LNIOdAVIM Sl xz vd Nn L ddINNOS OH93 222 Nf ha s m BONG d3ldvQv 8 5112 70 1 151212 0101019191922 21221212121 2 2 212 lt 2 DX Dx 00101414 GU 7N I 504 51 2 940 7777 Tom 1 SS SSMAV IS 112 X 7 Vd 7 _ MIN Qo TNI g am 4114 10 1 02 NION 1 1 Nf n P ET dn x9vg 411008 512 Xx 7 vg J J5 RJ45 J1 LAN I F 001 LAN Adapter 279 2 9 2 WIRING
5. O SiS Sie MKO0 ZI BER N Connectors on B Adapter 2 16 2 WIRING 2 4 2 Interface Status output channels in general Channel State 1 STO1 ACK OUT 2 STO2 ROUTE MONITOR OUTSIDE CHANNEL LIMIT 3 STO3 ROUTE MONITOR WAYPOINT APPROACH 4 STO4 ECHO DEPTH BELOW LIMIT 5 STO5 BACKUP NAVIGATOR ALARM 6 STO6 NAVIGATION SENSOR ALARM 7 STO OPERATOR FITNESS 8 STO8 ANY ECDIS ALARM Pitot log Pitot log input is for 200 pulses NM log signal with forward astern flag LOG input terminals for log signal LOG F A input terminals for forward astern signal closed astern F A Gyro Gyro input is for stepper 6 steps per degree of synchro 1 360 51 input terminals for gyro phase signals stepper amp synchro 52 53 50 input terminal for stepper common signal input terminals for synchro reference signal R1L R1H amp R2 for high synchro voltage reference 135 90 VAC R2 R1L amp R2 for low synchro voltage reference Analog interface Analog channels in general 2 WIRING An example for analog channel here channel 1 ae REF1 SGND REF 1 ST GND 11 input terminals for analog
6. 1 4 LOG 200P NM UAE idm EC 1020 ANALOG INPUT 8 CHANNELS i ANALOG OUTPUT ECDIS 8 CHANNEL e WE i 112 24VDC gt AOR i RADAR ise ECDIS SYSTEM FAIL E LE SWITCH MN RADAR 1 VIDEO HL AZ i ies ea RCU 015FEA Remote Control Unit RCU 016 100 230 ECDIS Monitor MU 201CE FEA 2107 MU 190 FEA 2107 D MU 231CE FEA 2807 MU 231 FEA 2807 D 100 230 VAC WORKSTATION ECDIS PROCESSOR EC1000C Control Unit ALARM OUTPUT ECDIS SYSTEM FAIL or qmm mmm ona omn Remote Control Unit RCU 016 RCU 018 TB Control Unit RCU 015FEA lure ere a oer 1 LANADAPTER _ EC 1010 B ADAPTER EC 1020 pedem mim muss 100 230 VAC ARPA RADARS POSITION FIXING EQUIPMENT TRACK PILOT LOG DUAL AXIS LOG AIS GYRO COMPASS POSITION EQUIPMENT ENGINE CONTROL ECHOSOUNDER WIND SENSOR WATER TEMP METER AMWSS Alarm Monitoring Watch Safety System GYRO COMPASS SYNCHRO STEPPER LOG 200P NM ANALOG INPUT 8 CHANNEL ANALOG OUTPUT 8 CHANNEL RADAR 1 VIDEO HL AZ 1 EXTERNAL DEVICE l This page is intentionally left blank 1 MOUNTING 1 1 Monitor Unit The monitor unit can be flush mounted in
7. Edit parameters Propeller 1 stern General Connected YES Device Engine Control 7 Label In use B Adapter channel Minimum Maximum EN 3 ADJUSTMENTS 3 49 3 ADJUSTMENTS Ship has two pitch propellers and the first propeller is connected as Propeller 1 stern using Engine Control NCDAT PNAV or proprietary message used by Sindel simulators Ship has two pitch propellers and the second propeller is connected as Propeller 2 stern using Engine Control PNAV or proprietary message used by oindel simulators Ship has one pitch propeller You can connect and scale Main Engine RPM to be displayed on Conning Display 3 50 Edit parameters Engine Control x Connected Adapter Channel Device Type NCDAT PNAV Sindel timeout 30 s gt Switch Input InUse Openis OFF Fixed Use For Propeller 1 Propeller 1 Propeller 2 Propeller 2 Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Edit parameters Propeller 1 stern General Connected YES gt Device Type Engine Control Label B Adapter channel Minimum 100 0 unit Maximum 100 0 unit Edit parameters Propeller 2 stern General Connected Device Type Engin
8. C Q amp axXBaYa 4 p mgkPRBS d 2 ALY ld 3WN 0014 AUS LFOS 06 53 0H ONIX 89 9 A IER CNN dc sl m 21 TABLE 1 mm mm DIMENSION TOLERANCE 50 L 5100 100 L lt 500 4 45 4 FAB A FIXING HOLES 2 NAMEPLATE eoo 293 7 Alf 4 Co GND TERMINAL 1 50 206 it 50 60 Ons C X 1 CABLE ENTRY C 1 3 4x 0 NOTE 1 MINIMUM SERVICE CLEARANCE o TABLE 1 INDICATES TOLERANCE UF DIMENSIONS WHICH IS NOT SPECIFIED D 3 USE SELF TAPPING SCREWS 4x20 FUR FIXING THE UNIT 28 ECDIS LAN 427 28007 Esuni FEA 210 ser Pig O LAN ADAPTER 4122 002 E 24 005 300G 6 NUTLINE DRAVIN FURUNO ELECTRIC CO LTD 4 dlor 2 TABLE mm DIMENSION TOLERANCE HE 2 S0 lt Ls100 ee A 170 0 5 4 65 4 FIXING HOLES NAMEPLATE 7 S SE 250809 7 CABLE ENTRY 3 4
9. DONGLE INFORMATION SHEET 2 TWO TYPES AND CODES MAY BE LISTED FOR AN ITEM THE LOWER PRODUCT MAY BE SHIPPED IN PLACE OF THE UPPER PRODUCT QUALITY IS THE SAME 03GR X 9853 4486 4960 1NO 804 9NIMVHO SNOISN3WIQ 9 2 BSS EISE T CO 5 048 624 800 SIVIdd1VW NOI LVTIVISNI v09S 0d0 HEI 5 NOIIVTIVISNI HEI 069 SES 800 53140553499 09860 0d4 lf 53140553499 LINA 10 1 00 9 J V3436810 f194 L L 0 8886 8960 1511 S9SNIMOVd 486 4960 1NO 39N3943338 80 4 9NIMVHO NI SNOISNAWIG 2 CO Ds E 048 624 800 V0986 0d9 019 969 800 SIVIdd1VW NOI LVTIVISNI SIVIdd1VM NOIIV IIVISNI 53140553499 08860 6044 EE 5314055399 LINA 103109 123 35 LINN q amp r gv 1 810 08 LL 986 X N9gO 1511 ONIWOVd NYS SHL SI ALITVAO 190084 dddd FHL 40 29714 NI ddIHS 38 LONGOYd JHL 4311 NV YO4 041511 48 AVW 53002 S3dAL OML VRE 1 SR 7852 12 AFD SRR 4AT 1 941018 E F E 1NO 39N343334 804 9NIMWAO NI SNOISN3WIQ 6 2 9 FIXE ORM Ul 2086 4960 ON DMC
10. 9 Press the Next button 10 Select printer Manufacturer as IBM and Printer as IBM Proprinter II and press the Next button Add Printer Wizard Install Printer Software The manufacturer and model determine which printer software to use Select the manufacturer and model of your printer IF pour printer came with an installation 1 disk click Have Disk If Your printer nat listed consult your printer documentation for compatible printer software Manufacturer a Printers Generic Lad IBM Proprinter Gestetner i HF Froprinter IBM ef IBM Proprinter Ill infatec si DS IRM Pronrinter 24 This driver is digitally signed windows Update 11 Enter name for printer and press the Next button Add Printer Wizard Name Your Printer Tou must assign a name to this printer Type a name for this printer Because some programs do not support printer and server combinations of more than 31 characters it is best ta keep the name as short as possible Printer name IBM Praprinter Dia you want to use this printer the default printer Yes No 12 To use a network printer select Share name and press the Next button 3 78 3 ADJUSTMENTS Add Printer Wizard Printer Sharing You can share this printer with other network users IF You want to share this printer you must provide a share name can use the suggested name or tup
11. When no skarm EC BT ARTIS S Mpe aam Alar system tye Remove from nav alarm group Remove fram steanna alam areup 451 3 4585 484 E daB 4808 485 4158 O 492 O 396 L 4 6 OF49 Ll Ei 321 457 E 401 402 parameters Alarm Inputs Outputs AMWSS x Connected ES c Cancel Adapter Device ERETTE TARE s Ralsy outputs LAM adaplers Reis enengized when naar B actaper Foedenys When skarm IE B1182 T ARIAS SS iestage Lacal alam ecc Alarm system bie Remove from alarm group Remove fram steanna alarm 451 O 485 484 E asi rH dau L1475 4 4 6 OF 493 Fl 457 E El 401 402 495 396 E 447 Note Relay outputs cannot be reverse video for version 05 xx 3 56 3 ADJUSTMENTS Sensor Source of ECDIS is transmitted Settings when the ECDIS is connected to a Central Alarm system which uses only closed contacts Input channels 9 and 10 of B Adapter are used for Alarm Ack and Buzzer Stop Relays energized when no alarm Relay outputs close no Alarm open Alarm active Relays energized when alarm Relay outputs close Alarm active open no Alarm Edit parameters Alarm Inputs Outputs AMWSS 2 BR 12 Cancel
12. DIMENSIONS IN DRAWING FOR REFERENCE ONLY 10000 0 21 28 EC 1000C CR 21 28 10000 21 28 EC 1000C R 21 28 O3GR X 9856 15 1 1 NAME OUTLINE DESCRIPTION CODE No INSTALLATION MATERIALS 29110 TIN h2B WASHER HEAD SCREW B WIRE ASSEMBLY OPERATOR S MANUAL EN INSTALLATION MANUAL EN OPERATOR S MANUAL EN OPERATOR S GUIDE EN DONGLE INFORMATION SHEET 2 TWO TYPES AND CODES MAY BE LISTED FOR AN ITEM THE LOWER PRODUCT MAY BE SHIPPED IN PLACE OF THE UPPER PRODUCT QUALITY IS THE SAME 03GR X 9856 03GR X 9853 14 1 1 NAME OUTLINE DESCRIPTION CODE No MOUNTING PLATE POWER CABLE DOCUMENT OPERATOR S MANUAL zb SSS SY SF OPERATOR S MANUAL EN OPERATOR S GUIDE EN 210 210 J INSTALLATION MANUAL EN
13. 01 ONIXIH 40451108 9W 40 99 584895 9 1 4115 SNA 311936 LON SI HOIHM SNOISNANIG 10 SONYAL IOL SALVOIGNI 111881 JOINS WMAININ LON SI Od 220H3 21 4X9N023 ogodurt ca sYcimcrBllk CE 104688 kk e STIOH ONIX 50140 LINA TOYLNOD SLONSY 0 LINN 505539054 01 00 2 KER LY VC xf MC L Ef a 18 er oogs zooi BOLA seat eer 00151508 CER Ae Pate ope s EN SNOISNANIG Cx Ove 19 3l 8123713 ONNANS 9NMVM NO INNON HSY LINN m m RYU SRE ws 810 04 NOISNGINIO 110119 CBSE 89 8 Jew 914 081 0140 LINN TOMLNOD 310438 OL LINN MOSS390Md 01 CLEA CE 11 48 3484 3240 t C L Ed She 1 0140 1014 OL QA EAS E p M Ies XVM OZ SI d 3 91 131312345 LON SI HOIHW SNOISNAWIG 40 39NV8310L 54199 318VI 39NV4V319 JOYIS WAWININ 310N 1 cd PHOBCE 22021327 004648 CC RAL Ra E K NOISNANIG 110119 ALOE 00 1 008 gt 1 gt 001 001 gt 1 gt 009 SNOISNANIG uu g AKF 38811 X DNAN C2 NAN o EXE 1 LEE eu 1116441
14. YOLOANNOO 540114199530 3 111010 ON pi 218 x uox SIVIYSLVW NOIIVTIVISNI SAEI G 90r6 X 49 0 00 09 680 000 3d09 red s lat laik Ol V 3409 IMH dE Na TdNASSV 31gV9 NVI NIS BH C 4 SSV YO LOANNOD BG NEN 11 0 580114199530 INI 1100 JNYN ON WHY Sik 81 Wy SIVIYSLVW NOIIVIIV1SNI EHETI G S0V6 X Y9E0 00 109 680 000 3002 SSV 0194 09 60b6 X 9e0 91419373 80b6 X 9e0 11 OO 91419373 ONnun3d INO 39N343334 80 4 9NIMVHO NI SNOISN3WIQ 2828 26 F TS CO 5 CAINO 403 9NIMVHO NI SNOISN3WIQ 2 9 2 3 I CO 5 3AVS SHL SI ALITVNO NYS 3HL SI ALITVNO LONGOYd ddddil AHL 40 39V d NI ddddIHS 38 AVW 1900084 01 JHL WALI NV 404 041511 38 AVW 54003 534 1 19100484 Yddd AHL 40 39V d NI ddddIHS 38 AVW 1200044 ddMO1 JHL WALI NV 304 041511 38 AVW 54003 534 1 HA fPRMICYEEIGS TMAA 1 SHOA CCE E E E SH 62012 2384 SHOW CER 1 C Eik 3409 IWS 4E W3 IdMHSSV IdV9 NVI NVTS BH 2 4 SSV YOLOANNOD BSG G40 SSV dO19NN09 SSV YOLOANNOD SJMVMHM 50114149540 3NI 11010 2 BEC Sik X E SIVIYSL
15. AV 1451 AV IdSIC ONINNOO 5023 T T N 2 2 LAN RADAR 2 HUB 100 LAN RADAR 3 No 2 ECDIS Wiring of 1st ECDIS One LAN adapter 2 3 2 WIRING divd GSLSIML 3413 5 G 2 318 2 1 415 S 1 2 WA 235 550842 S O MIVd O3ISIML Z ANONAY IMIM N3ddOO 318vO vivd S 0 Z X 2 va LWW 1 235 550849 5753402 FYNOMNAY 38IM 3M3ddO2 318V9 1 9 85 41 X IS Cn v34v TVNOILO3S 65082 6 51024 151 4399lHL NVOVMH dvVdVa NOLLO3T3S IH Zv MVOVM 63800 Z H nONNV AHIM M3ddOO 318vO0 H3MOd S L X Z Od 31979 i31ON AOd 7 Sdn GLO X Z 0d JQ vZ 31 04 F 7 06 02 gt s d n Z 204 2 00 EM 2 gt 00 ALIALLOV YOLYYAdO 15112 X Z va gt HMOd i ous v 0G GZ H S z 5 i SZ X 1 0d Sal 2 zd a 2 2 022 001 n 5 x 2 a gt m OL LINN O I gt Z amp NN 2 OS
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17. 2 BSS 1 15 CODE B MVS HT SI 1Or1dOdd AHL 40 NI d ddiHS 38 VA LONGOYd AO 1 WALI NV 5 38 AVW 3309 534 1 OML T AH 2012 CY VOS NE GRMN SGN ABT 72410013 OT A C Ei 38 LONNVO 3009 SIHL 1 3878 18 S 401 440 XH 18340200 IdMHSSV 341899 WEM L 4 31879 10 4 C 41 AQ SIVIdd1VM NOI LIVTIVISNI HEI 53140553499 EC2 5318055499 S ET sldVd MVdS 15 8 d SLUVd dvds ae LINA 14510 gu LINA 61 0 491 0 L L 9 2886 8960 1511 5NIMOVd 886 8960 NI SNOISN3WIG 5 62 6 El 15 CO DE B AWVS SI LONGOYd AO 39V ld NI GaddIHS 38 VA LONGOYd H3MO T AHL WALI NV AALS 38 54409 ANY S3dAL SH 6 1 CY UYG NEL REESIEZ GEM T RT PX 90013 CSB A E Ei d d ddO 38 LONNVO 3009 SIHL 1 14 3136 015 S dO1Vddd0 1 240200 IdMHSSV 318V9 1 4 31899 1 4 4 C 41 AQ S WIU31VW NOI LIVTIVISNI HAHEI 53140553499 5414055499 sldVd 3 5 sldVd HMVdS LINA 14510 gu LINA L V
18. 220 5 oll Eb Nn Y 22 OMAD 2 27677 mei ig Kos NN Os L A 11 41 4 SS3NIlJ NOIVa dO 5112 Xz va ze 222 O 9 NN 2 1 MC 2 2 504 1112 X 2 VO ju 5 Nn NEM RSEN ad me SIV Is OZ X 7 va ON QOO 2222 lt 4NA x mu 0 E EL ITI I IE Ze 001 8nH ZX JEU 415 S1V2 gt Nn 1 1014 MOVML 517 X vd i m 512 2 2 2 2 lt 12 lt 2 lt lt a 15111515 SOd XE cm 1 Naar 4 NN 0 _ 2 5117 X 7 Vd 2 LAN Adapter 1 2 8 2 WIRING
19. G 2 H21IId 6 NN NOILNSLOd IVMVd3S 34056344 20 Z M EE FESSES ES EE 9 02 11 l n n vW3 ELS ED eSI gm 83 6 NN 16 5 1812 IN9 ZN9 OV E T5 gt N S NOLLdARSNOO 7304 40 Z Wd OCS TS MAC ZB gt gt N YNY 2 1 BUNS 20 01 0 NAA HOlId 6 NN L 6E le ZN9 IN9 ZN9 34055340 NIV 14415 3 9 3 Jo HOlld 0 X 9 IS BON 33133ANOO 20 20 1 MdN 6 NN ONILV TOSI 8E d Nd BS or 20 2 Il 104 6 Nn v 2 0 gt nos OH QNOO3S 40 10 00121 Wane 5 sed NEAR gt NI YNY Z 04 QnA 6 Nn 0 2 T 97808 1 30 30 woy a Ed ca 105 rud aang 0X9 I 1 6 9915 QNVAdIHS Jappn 2 15 2 WIRING ONY Wa sav SNOLLOSNNOO LIV ps 1 5 DOO 2429 UD EUER CU ED Cou CO C ONS
20. One analog type of gyro compass 90 135 Synchro 1 360 or 20 48 VDC Stepper 1 6 Speed log e One analog pitot log 200 pulses nm Rate of Turn Gyro compass e ROT information has following alternative sources e ROT can be calculated from the ordinary gyro system heading ROT be received from a serial type Gyro compass XXROT e ROT be received from a ROT gyro with analogic voltage output 10 V e ROT can be received from a serial type dual axis speed log if it is equipped with a ROT gyro and if it sends message PKDRU Main propeller e One or two propellers having RPM and pitch with analog interface e 2 kohm potentiometers installed in all propellers e Reference voltage to potentiometers 12v supplied from the ECDIS e Each analog input is associated with a status signal closed contact which indicates the availability of the analog signal 4 INPUT OUTPUT SIGNALS Thrusters e One bow and one stern thruster with analog interface 2 kohm potentiometers installed in all thrusters Reference voltage to potentiometers 12v supplied from the ECDIS Each analog input is associated with a status signal closed contact which indicates the availability of the analog signal Rudder e One or two rudder indicators e Rudder indicators have the following sources Both actual and order can be received from a track pilot with serial data Actual can be received from analog in
21. 8 Set parameters for LAN adapter as follows First LAN adapter MAIN sercotr d 2 p 15001 r 15000 f 1 n 8 m 0 0 10 0 0 180 a Type command Second LAN adapter MAIN sercotr d 3 p 15001 r 15000 f 9 n 8 m 0 0 10 0 0 180 First LAN adapter BACKUP sercotr d 4 15001 r 15000 f 1 n 8 0 0 10 0 0 181 Second LAN adapter BACKUP sercotr d 5 p 15001 15000 f 9 n 8 m 0 e0210 0 0 181 For 0 NR the command for First LAN MAIN d TY the command sercotr e2 0 0 0 0 e320 0 0 0 e4 0 0 0 0 29 idv pn E T1833 1 14 COM 1115200 HE 1 DIR E LAM a ph 1 2 9215001 r 15000 1 20 10 0 0 180 el 0 0 0 2 0 0 0 0 4 0 0 0 0 4 0 0 0 0 01 01 2000 00 00 02 Waiting watchdog ree DAS 1 1057 Tor 7188 Ver 2 00 build 001 Aug 22 2003 15 29 32 SRAM 512K FLASH MEMORY 512K CPUSRDC 8820 D Serial numbers 01 c AO 09 Of OO AT 17 188E gt sercotr fez 0 0 0 0 fes 0 0 0 0 9 Type sercotr and press the ENTER key 10 Confirm that the setting is correct 11 Set jumpers to the default position 12 Turn the power of LAN adapter off and on again 3 69 3 ADJUSTMENTS 3 3 6 Installation of Network Connections You can install network connections between the Navig
22. Rudder type Numerical value Label ACT Display method Normal Normal NO Trackpilot 1 gt 23 33 Conventional fone scale Not used Not Used Not Used Normal Normal Edit parameters Rudders Connected Device Type umber of Rudders avigation Display Scale Max Harbour Display Scale Rudder type Numerical value B Adapter Channel Output at O Output per Volt Prefiltering Label ACT Display method Normal amp Normal YES OK Analog fuses Cancel Use sign of Output per Volt to change polarity of Rudder Conventional one scale Not used Mot Used Mot Used Normal Normal Edit parameters Rudders Connected Device Type Number of Rudders Navigation Display Scale Harbour Display Scale Rudder type Numerical value B Adapter Channel Output at O Cutout per Volt Prefiltering Label Display method x YES Actual analog Order Trackpilot Use sign of Output per wol to change polarity of Rudder 3 3 Conventional scale Only ORD Cormered Rudder 2 Not Used ORD TRACKPILOT Two rudders are connected and values are received using analog interfaces Two rudders are connected and values are received from Trackpilot 3 ADJUSTMENTS Edit pa
23. x20 1 2 1 NOTE 1 MINIMUM SERVICE CLEARNCE 2 IABLE 1 INDICATES TOLERANCE OF DIMENSIONS WHICH IS NOT SPECIFIED J USE SELF TAPPING SCREWS 94x20 FOR FIXING THE UNIT mE EC 1020 55 ECDIS B7 4779 FEA 2105 2107ser JST BI 1 19 194 5 ECDIS B ADAPTER OUTLINE DRAWING FURUNO ELECTRIC CO LTD MM Mor 26 07 CHECKED 26 07 3l 8123713 ONNANS SNNVSO 8 9 m men con a TORSO TET HT 58113 MOS YO gt 20 563001 LINN JHL 9NIXH 804 00 583805 8 5146 FSN 30 3119445 LON SI HOIHM SNOISNAWIG 30 JONVEFIOL S3IVOKINEL c 3ONVUV31 36 WANININ 113108 QERZF 8 L 27515 CF OD 220B82 CIXPW 7 21 6 2 11152202741042488 435 01 3 92 PRAbBMaYA 4 BPShLBt 1 E x ON R 1 2 OL STIOH ONL 96 G OZ 6 OS NOlLdO JIGVO IOYMLNOD 310138 18729 1041 09 a wene X LERLE AL LBB HY N C 1 9 DNI 27 EE 12 NEN ONT CIT NOldO 318V2 10 d OVMI ONNANS JNMVd ANILAO
24. IIIZXZYd 9Nn Is tz X z va 9 5112 2 9Nn 5112 2 0 9Nn lulz XZ Va 9Nn 15112 X 7 va 9Nn X z 9 5 2 2 9 X Z va 9NN 18112 x 2 va 9NN 15112 X Z vd 9Nn 18112 vd 9Nn Is ulz X Z va 1 NN 1 NN 415 S 1 INN 65 DY Nn 68 DY GALSIML Q3GT3IHS 9 AMOO31VO 15 S 1VO WN vas WNOLLO3S 550842 S O MIVd GALSIML Z 4noWv IAIM 33ddoo d18vo viva s o z X 2 va WN TWNOLLO3S SSOMO S L S3HOO S YNOWNYV 3MIM M3ddOO 318vO NoIS G X IS CAN TVNOLO3S SSOMO 8 534002 dnOAHY 3MIM M3ddOO 318vO M3MOd S L X Od S3dAL I VO 1 LINN MOoT38 HO AdISLNO Wavy HovYodddy dM dW3L M31vM MOSN3S ANIM M3QNnOSOHO3 SSMAV 7OMINOO 3NION3 ALNOY SNN 16112 X 2 vd SNN 16112 X SNN 18112 X 2 va jALON TV YOLVSIAVN SSANLI4 HOIVH3dO STANNVHO _IVla S AdVIV 51093 ANY 901 901 OYAD 2 504 SIV VddY lollid AOVAL 504 9Nn uiMOd 7 SL 1X Z 0d DANZ sNn uUiMOd gt 7 51 e SL lX Z 0d 20 92 gt U zNn sNO 3 415 lt 1V Nn u3MOd 5 7 a 5 X Z 0d 2QA on z
25. Observe the following compass safe distances to prevent deviation of a magnetic compass Standard Steering compass compass Processor Unit EC 1000C 1 69 m LAN Adapt B Adapter Control Unit RCU 018 0 30 m 0 30 m Control Unit RCU 015 0 95 m 0 60 m Control Unit RCU 016 0 65 m 0 45 m Monitor Unit Monitor Unit 165m 105m Monitor Unit Switching HUB EQUIPMENT LISTS Standard Supply Qty For FEA 2107 w DVI cable 5 m MU 201CE DVI ae SP03 14700 CP03 29020 FP03 09810 For 2807 w DVI cable 5 SP03 14700 CP03 29020 09810 Monitor Unit MU 231CE DV15 MU 190 For FEA 2107 D MU 231 For FEA 2807 D Standard type Processor unit EC 1000C Radar Overlay type Processor unit EC 1000C R EC1000C w S DONGLE and ROV Processor 1 Unit Conning type Processor unit EC 1000C Conning Radar Overlay type Processor EC 1000C CR unit EC 1000C w S DONGLE ROV board and VIDEO board Control Unit mle 228 rome a FP03 09860 LAN Adapter EC 1010 E Adapter 1020 1 For EC 1000C C and EC 1000C CR 5 03 14800 000 083 570 opare Parts SP03 14700 008 549 730 Fuses for AC spec FP03 10700 000 087 221 Accessories Installation Materials CP03 29610 000 083 508 For EC 1000C C CR D SUB 10 m Optional Supply Name LAN Adapter 1010 B Adapter EC 1020 Rem
26. Connected Adapter Channel Device Interface EC 61162 1 AMWSS SensorSource Relay outputs LAN adapters Relays energized when no alarm gt B adapter Relays energized when no alarm IEC 61162 1 55 With pending flag and history support Normal acknowledge Alarm system type All state alarm has pending state gt Remove from steering alarm group Remove from nav alarm group 451 485 494 320 457 458 O 489 495 400 475 492 O 396 401 476 493 497 402 Message type Local alarm ack Edit parameters Alarm Inputs Outputs AMWSS Device Interface Relays with Central Alarm use B Adapter Connected YES b Relay outputs LAN adapters Relays energized when no alarm gt Relays energized when no alarm gt Relays with Central Alarm B adapter Ignore pending state for 451 485 458 Edit parameters Alarm Inputs Outputs AMWSS Device Interface Relays with Central Alarm including state pending use B Adapter p Connected YES b Relay outputs LAN adapters Relays energized when no alarm gt B adapter Relays energized when no alarm gt Relays with Central Alarm Ignore pending state for 451 485 458 3 57 3 ADJUSTMENTS rs Alarm Inj Settings when the ECDIS is connected to Engine Control system 3 58 3 ADJUSTMENTS Alarm system and Alarm ACK System Failure alarm ou
27. If you want to utilize multiple radar transceivers then you must have a radar interswitch outside the ECDIS The inter switch reports to the radar transceiver currently in use to the status inputs of Radar Overlay To connect the Radar Overlay in the processor unit to the radar use the cable NH8P DSUB15BNC cable option Note that XH8P NH8P cable is necessary when the optional radar switch is used 2 WIRING 2 6 Connection of Digitizer and LCD Displays to Processor Unit The brilliance of ECDIS and Conning Displays MU 201CE MU 231CE MU 190 MU 231 can be adjusted at EC 1000C by connecting to COM1 port as below Also COM1 port is used for connection of Digitizer CALCOMP Drawing Board 111 MU 201CE 231CE MU 190 231 MU 201CE 231CE MU 190 231 ECDIS Display 4 LI LI D sub 9 pin ECDIS Display E DSUB9P DSUB9P L5M DSUB9P DSUB9P L5M 5 Igitizer 8 2 5 Serial a signal signal Cable supplied e 2 i Ms 9 with Digitizer 2 S m 55 E 21 2 sel 8 5 DSUB9P3 B A supplied with DSUB9P3 A EC 1000C C supplied with all type of EC 1000C EC 1000C 10 m 30 m option 27 Power Cabling to ECDIS ECDIS is powered by 100 230 VAC power See figure below for cabling ECDIS 100 230VAC IEC Socket 2 20 2 WIRING 2 8 Ethernet Cable Connection One EC
28. Locate the equipment away from places subject to water splash and rain Leave sufficient space at the sides and rear of the unit to facilitate maintenance A magnetic compass will be affected if the processor unit is placed too close to the magnetic compass Observe the compass safe distances on page ii to prevent deviation of a magnetic compass Mounting procedure Li Attach two mounting plates to the processor unit with 14 screws MAX8 supplied 2 Fix the unit with four M6 bolts or self tapping screws local supply 6 28 FIXING HOLE 100 150 1 531 150 1 52 100 404 100 Processor unit 1 10 1 4 LAN Adapter B Adapter Mounting considerations 1 MOUNTING When selecting a mounting location keep in mind the following points e Locate the adapter away from heat sources because of heat that can build up inside the cabinet The vibration should be minimal Locate the equipment away from places subject to water splash and rain Leave sufficient space at the sides and rear of the unit to facilitate maintenance e A magnetic compass will be affected if the adapter is placed too close to the magnetic compass Observe the compass safe distances on page ii to prevent deviation of a magnetic compass LAN adapter Unfasten a pan head screw to remove the cover from the LAN adapter 2 Fasten four self tapping screws M3 to fix the LAN adapter to the mounting location 3 Heattach th
29. T N SE L LI Or nea SONOS 58 55 FE ARAN eos ma T Ww 00 Se Se DI x FURUNO ELECTRIC Co LTD INTERCONNECTION DIAGRAM GE C IPEA G11 O9 2154123719 4 NOI IO3NNOOSAINI 00 66W9 you NOlld0 EAGLE e 20862 10862 6049 1092 1012 3 any 40 cl 404 1991419345 3500802 1 0 01 1 ALON ER 48660401 MSY 0 ZONdGIdTSd dZIHX 11105076 40193 13S sdVQvd lt ENVY 6 1 5 E b gt 79 ARRKRARKR AAAS RAARARAARA SS 22202 ae qo 292 L2 2 r ona 5 TL O gt 2 SIr qo 8 58 MMS 2 vV Z oN 3 S 2 ong 5 ONIMV38 55 O gt gt piyl oir IND 21 YAH i lt L lt EJdAL 019 9 lt 034 T ora 32 158 001 MENTEM O3QIA 1138 56 4 011 134 019 03011 98 6 E P 9141 IND gt 019 911 59 9 272515 ION UVa 8 rn 019 Av 898604 1 8 lt i ZV INY 90H 089 26 lt L I lt ZY IND 121 V9EEOdbl DAH 52 KP UM INY 48 2077 08 40194135 dVOVd 00901 EE 214 INV MEG 8 1 avave LIP HILIMS YVAVA 70962 80560 2044 sA 5 4 90001 94 HOLIMS yyvavd qz 1 SU LINNA 4055 9044 23 cn
30. Trackpilot autopilot Settings when no Trackpilot is connected Edit parameters Trackpilot Device Interface Connected Adapter Channel WPT Approach Steering Sources Radius Values Minimum Turning Radius Lower Off Course Alarm Limit Higher Off Course Alarm Limit and Drift Compensation Limit Minimum Route Speed Route Check Off Track Style ww v Y IEC 62065 Not required Program Track ASPO EMRI v Steering Style Trackpilot SW type Uses Turn Linear bit IEC 62065 Trackpilot No device limitations From Conning position to XTE 50 calculation position Bow Stern NM Endline in Route Steering WPTHWOP Ag J co ki 2i l o o Received Messages Enable Check and Alarms IEC 61162 1 Transmit checksum USed p Checksum charnotincluded 61162 1 amp EMR Manual Steering Label HAND Forwarding Distance Range 85 Bes s 2 Arrowheads lt gt Not Used E Auxiliary Steering Mode Info Settings for FURUNO FAP 2000 EMRI SEM200 Trackpilot Edit parameters Trackpilot Device Interface Connected Adapter Channel WPT Approach Steering Sources Radius Values Minimum Turning Radius Lower Off Course Alarm Limit Higher Off Course Alarm Limit and Drift Compensation Limit Minimum Route Speed Route Check Off Track Style Notes In general all settings a
31. e INS GPS Out AGHDT INS 2 e Rudder State Control BY PASS For proper steering control software of Yokogawa PT 500A Autopilot must be e For Main CPU CR155K05 or newer e For Calc CPU CR325A09 or newer 3 38 3 ADJUSTMENTS TOKYO KEIKI PR 6000 Autopilot settings for TOKYO KEIKI PR 6000 Autopilot in ECDIS Edit parameters Trackpilot x Device Interface IEC 61162 1 Tokimec HTC HTD lt T 09 Connected Adapter Channel WP Approach Rule EC 62065 Steering Sources Trackpilot adus vales No device limitations From Conning position to XTE 53 m Wi calculation position Bow Stern Turn Endline in Route Steering wwop Received Messages Enable Check and Alarms gt IEC 61162 1 Transmit checksum Used gt Checksum char not included IEC 61162 1 amp EMRI gt Minimum Turning Radius 3 I C gl en um o o o Lower Off Course Alarm Limit Higher Off Course Alarm Limit and Drift Compensation Limit Minimum Route Speed A Route Check IEC 62065 Not required Forwarding Distance Range UOTA 14 3 NOTES In general all setting above are mandatory for TOKYO KEIKI PR 6000 Autopilot Following parameter can be used to tailor the system to the vessel e Minimum turn radius Turn End line in route steering From Conning position to XTE calculation position minimum route speed Forwarding Distance Range Settings for
32. is connected to the ECDIS using Engine Control Thruster 3 bow is connected to the ECDIS using Engine Control Edit parameters Thrusters 1 stern Connected ES Device Type Engine Control E Adapter Channel Output at rom Output per Volt Prefiltering Maximum Power 10000 Maximum rpm 10000 Edit parameters Thrusters 3 bow Connected Device Engine Control E Adapter Channel Output at rom Output per Volt Frefiltering Maximum Power 10000 Maximum rpm 10000 3 ADJUSTMENTS Cancel Use sign of Output per Volt to change polarity of bar presentation Cancel Use sign of Output per Valt to change polarity of bar presentation 3 53 3 ADJUSTMENTS Main engine start air pressure Select Connected NO if Main Edit parameters Main Engine Start Pressure Engine Start Air Pressure is not connected to the ECDIS Connected Cancel Device Type Analog uses B Adapter E Adapter Channel Output at Output per Wolt Frefiltering Alarm Kg cm2 Maximum Value Main Engine Start Air Pressure Edit parameters Main Engine Start Pressure connected to the ECDIS Connected ES Device Type Analog uses E Adapter E Adapter Channel Output at 0 kg cmz2 Output per Volt kaicm2 Prefiltering Alarm kafem Maximum Value kafem Main Engine Start Air Pressure Edit parameters Main Eng
33. vc N 9X101AQ 019 ez Strul 974 ole d OXLOIAG 26 d OXLOIAG 019 zz gt 8 gt 9N 2 98586 oo 2 9 Y KZee ND V 12 NHIC9 lt 5358 4212 2423 COZI 02 gt 61 DON S lt V i lt 6 61 gt QNO Y 019 i814 I dXL T 41514 d OXIOIAQ lt 816 81 gt 4 OXIOIAQ NI 193135 L d KLIK 3 aves lslalsa 1 56865 N OXLOIAG LL amp L I gt N OXLOIAQ 3ZUWILINI 49140 gt 8 gt 9N E 08 86 S 1S S 15 5 a ON 9 lt gt ON YOUN 14814 9 gt 940 C NB 1514 09 334 J 01085910 Deri dic ul Ter Sd 01 340 x 99A Ky L4 v 99 193145 144 014 gt C gt NE eco NOILISOd ON 1616 1912 ON AldW3 Yad d 5216 aai m 23 41 lt UN low img Ae m Re Sly 2 ON 1616 91 ON ASNA 1140 Se ONY KL 5 NO V 3904 WONYOY i014 8 gt 9N 9N lt 8 de E GG d IX10IA IK0L amp 01 d 11010 LVIVG 6 SLIN NAMIK9 lt mw mo 0 9VIV lt 8 lt gt 9 gt 48 646 4 E amp ON K7 lt i SN NU KZE 1 4 6 i 292 Sy Sin 91012 Su 21 ON WINQ 59 A ac izy 10114 uiu ON KK GK 5 lt ON v ooe 5 DO ON IVIVO KE gt 1 559 sal v c ru N 44 O Eea gt 21 ON EVYV E NOIIISO
34. wo Um H idii c 8 nor us EH ae 22 a i 5 E 00 1500 gt REI m UE RES EA RWH RT R3 Rio Aa BIB RIS Ra RS Ta FL Coo m O mm ap wg w n um 3 cO a hi eut ele ee EDT pres Ma aH LI ERES QUE Le 59nc BKK REI Erns RES THis TAF TES i 1 TX Tx TX5 TAI zs D END GHD GNI GND GHD GHD GND GHE GAD m BO BELI af LI 5 1 Ce 2 H wm T LANAK E BLI O LANTXs 4 24V 248 e Um X 24R Connectors on LAN Adapter 2 END Riz 2 11 2 WIRING 2 3 2 Serial data channels in general An example of serial channel here channel 1 Input terminals for electrical standards IEC 61162 1 RS 232 and RS 422 RX and RX be defined as RX A and RX B in IEC 61162 1 Output terminals for electrical standards IEC 61162 1 and RS 422 and may be defined as and TX B in IEC 61162 1 TX1 Output terminals for electrical standard RS 232C TX1 Ground terminal for RS 232C 2 3 3 Standard serial data channel assignment First LAN adapter Channel Type bit s D
35. 2 Click My Computer Local DisK C LAN Adapter in order to open the LAN Adapter folder 3 Double click Shortcut to 7188xw exe C ALANA File Edt View Favontes Tools Help EE Bak Y e C em 1 Folders E 11 13 2003 11 33 Cenfi 11 13 2003 11 33 Mv Documents id 71 Beo exe Applic 11 13 2003 11 33 AM 4 My Computer S Autoexec bat MS D 11 13 2003 11 33 AM 11 Desktop 2 Floppy Applic 7 8 2004 4 33 PM JLexal Disk cs eu t Eo T1858E exe shortcut 7 6 2004 2 07 e ANTS SYSTEM Er WS SWB SCC SCC File 7 28 2004 9 24 Documents and Settings init Install For WinXP _ Intel IntelPRO X 1 1 mgafold 7188XW program will start in MS DOS window 3 66 3 ADJUSTMENTS sa 7188XW 1 14 COM1 115200 N 8 1 DIR C LANAdapter urrent set Use COMI 115200 8 1 AutoRun Autodownload files Hone work director LAMAdapter IE a ET AN 4 Type IP and then press the ENTER key to confirm the IP address For the first LAN adapter of MAIN ECDIS Type SETIP 10 0 0 190 and press the ENTER key 718BxXW 1 14 OM1 115200 N 8 1 DIR G LANadapter Current set Use COMI 115200 H 2 1 AutoRun Autodownload files None Current work directory C LANadapter Command not
36. Echo Overlay Communication LAN x through the network The Radar transceiver ok radar echo set Connected ca Yes here can be overlay displayed the chart When I multiple radar are set to D Speo 220 m Bow Stemi Yes select one at RADAR dnd Port numbers 10024 for Radar echa output OVERLAY Main 10028 for Radar communication M enu gt Rad a Radar display number 1 Radar transceiver Select the radar to set Device Interface IMO Radar For FAR 2xx route information loading OK Chart Radar For FCR 2xx route information loading Chart Radar with INS For FCR 2xx7 route information loading OK Chart Radar with CCRS For FCR 2xx route information loading OK all route Label Set the name for each radar max 6 characters to use on RADAR OVERLAY From Radar antenna to Conning position Enter the distance between antenna and conning positions Range 500 to 500 Upper port starboard direction lower bow stern direction IP address Port numbers Radar display number Not used 3 19 3 ADJUSTMENTS lf Radar overlay is not received through LAN set Connected as NO for each transceiver 1 4 Radar transceiver 1 15 Connected as Yes Device Interface defines source of RADAR target IMO RADAR or Chart Radar Label defines name for source of video From Antenna to Conning position defines offset position of radar ant
37. IP Address Enter the IP address of FCR 2xx7 2 which receives the information 33 to 36 15003 for INS communication 3 21 3 ADJUSTMENTS Settings for Chat Radar Edit parameters Radar Echo Overlay Communication LAN Radar transceiver Device Interface Own for Chart Radar with INS p Label 1 From Radar antenna m Stbd Port to Conning position m Bow Stern IP address 172 31 3 6 Port numbers 10024 for Radar echo output 10028 for Radar communication Radar display number 1 INS IP Address 172313 Port numbers 15003 for INS communication Settings for CCRS Note These settings is available for the chart radar with version 06 01 and after The following data are sent from ECDIS to Chart Radar when starting the route monitor Route data User chart Notes Sensor data other than Gyro These data are shown on Chart Radar display even if ECDIS is stopped Radar transceiver Enter the radar No 1 to 4 Device interface Choose Chart Radar with CCRS IP Address Enter the IP address of FCR 2xx7 which receives the information 33 to 36 Settings for Chart Radar Edit parameters Radar Echo Overlay Communication LAN x Radar transceiver K Connected Device Interface Own for Chart Radar with CCRS Label 1 From Radar antenna m Stbd Port to Conning position m Bow Stern IP address Port numbers 10024 for Radar echo output 10
38. IS u uH NIS 2 SL lt z 121 121 SS ANIONS NIVW L HOLId Sh i SAL _ 7 ysaany ourd 108 Se aan AN i P SOALL 25120 IK pg 5 gt 5 2 TN 8H1SMHI NAILS E Hu 50111 1SOHHI MOS 2 N SE py sp nss3dd HOLId 7 al 5 1914 1 Wd mr co ee ms 1 Esca les es sedo es e s ii gt lt ITdNI 35010 4015 417719 UNdNI 3S019 9V WAV TV ON 3S010 MAVV 1003 ANY Vx TSM AILOV 10N N3d0 SS3NLI 4 HO1VHd0 ON 3S019 WV IV 905835 NOI1VOIAVN i ssjip IV 0N 38019 MAVTV HOIV9IAVN dmyova oi I 0 38010 11811 MOH8 1430 SHIP ON 3S019 HOVOddV 1NIOdAVM ao cern oe Soa WIV ON 38070 1111 TANNYHO 3015100 SS NG 15019 NY c g es l a LLI lt 52 2 2222 l Ine eae el WN d00Z 901 ONAS 2 LO 5 1 5 1 4315 0849 ES Xe Dogg sH Z E S S Q TURA HN 2 mm e ANNIN AN EG ur 5 LLA gt 55898 1 5 2 mess 1 s 2 ME LARR C4 c I glee
39. LNn uiMOd I o IU gt e t5 82 204 2 0 2 00 2 4 1 0 7 s v 09 92 mI 11 XT LL Sdn N 415 6 gt g 4 OVAO Z 00 E 3 d Istlz Xz va O va N 15112 x 2 HOSS3SOMHd OND 510493 Poy Xz v PND Istlzxz vd N M g 3 eee i 5 Is nz X gt gt O 8 8 O N 2 1 Sle 1212 2 Is iz x 7 va 2 ZEE z E N z I5 SL 8 7 m 82 z 7 a S uw 1 lt XZ Ya a O 5 5 x 2 15112 XZ va PND uo o nos 15112 x 7 2 LINN QV3H 1OMINOO i g LINN LINN YO 1 06 14510 AV 1 dSId 2 SNINNOO 5 SIdO 8 i 5 Y QI 9 Qi 3 a o Typical wiring of ECDIS 2 2 2 WIRING 51423 ANZ AVIVAY MNd 03151 43013 5 G AMOS31VO 318vV9 1 15 S 142 WA NNOLLO3S 55092 S O YIVd ddISIAL Z YNOWYV 38IM dddd09 TYO viva s 0 z X 2 va TWNOILOAS 550842 G I S3409 EYNONAY SHIM dd09 1 HYO 98 4 X IS 235 55082 95348403 dnQOAHV 3 M3ddOO 118VO 83 04 G X Z Od SdAl JAYI i3LON
40. MU 231 FEA 2807 D MU 231 FEA 2807 D LOG DUAL AXIS LOG AIS ee 1 GYRO COMPASS DVI or RGB CALCOMP POSITION FIXING EQUIPMENT DRAWING j ENGINE CONTROL BOARD III 1 ECHOSOUNDER DIGITIZER LAN ADAPTER 1 1 WIND SENSOR 0 1010 WATER TEMP METER WORKSTATION 2221 AMWSS Alarm Monitoring FAR 2xx7 series 7 Beetifier Watch Safety System ECDIS PROCESSOR 24VDC PREG2 EC1000C GYRO COMPASS 100 230 VAC 100 230 SYNCHRO STEPPER B ADAPTER 22 2 3 LOG 200P NM EC 1020 ANALOG INPUT 8 CHANNELS Ee aes ALARM OUTPUT 8 CHANNEL Control Unit ee eee Rectifi RCU 018 24VDC BRED or TB Control Unit ZO 222 100 230 VAC ee ee RADAR 1 VIDEO HL AZ SWITCH RADAR 2 VIDEO HL AZ MEN 1 10cm 5 Remote Control Unit PRINTER RCU 016 Doe USB ALARM OUTPUT ECDIS SYSTEM FAIL 1 EXTERNAL DEVICE Multi workstation configuration In the multiple workstation configuration there can be two workstations connected together by a Local Area Network LAN In this configuration one workstation is used as the sensor source for navigation sensors and the other workstation s are using the sensor source workstation to communicate with sensors receiving and tr
41. Maximum Edit parameters Propellers 2 stern General Connected Device Type Analog uses B Adapter Label SWNG In use B Adapter channel Output at 0 Output per Volt Prefiltering Minimum Maximum 3 ADJUSTMENTS OK Cancel Cancel YES 0 5 i Cancel Xi 3 V D I 0 0 0 1 D 3 51 3 ADJUSTMENTS Thrusters Select Connected NO if thruster Edit parameters Thrusters 1 stern is not connected to the ECDIS Connected Device Analog uses B Adapter Cancel E Adapter Channel 2 Output at rpm Lise sign of Output per Volt to change Output per Volt polarity of bar presentation Prefiltering Maximum Power 100 Maximum rpm 100 Th ruster 1 stern is connected Edit parameters Thrusters 1 stern to the ECDIS Connected Device Type Analog uses E Adapter Cancel E Adapter Channel Output at rpm Lise sign of Output per Volt to change Output per Volt polarity of bar presentation Prefiltering Maximum Power 100 Maximum rpm 100 Thruster 3 bow is connected Edit parameters Thrusters 3 bow to the ECDIS Connected Device Analog uses B Adapter E Adapter Channel Output at 0 rpm se sign of Output per Volt to change Output per Volt polarity of bar presentation Frefiltering Maximum Power 100 Maximum rpm 100 3 52 Thruster 1 stern
42. Position to Conning position 5 m From Antenna Position to Conning position 10 m From Antenna Position to Conning position 12 m 3 28 3 ADJUSTMENTS Position equipment An example of DGPS receiver with talker Edit parameters Positioning Equipment 1 YES gt ted Device N identifier GP defined for mies both GGA and VTG Adapter Chl 2 Device Type messages Device Interface IEC 61162 1 ed1 Weight Factor Enter values for Weight RM NIGGA Cmg Delay 5 Talker Identifier sd nteare Offsets trom E m Stbd ane cmg Delay s Antenna position to follows Speed Talker ID GP dont care Conning position 3 m Stern Weight Factor 0 1 Device Datum WIGS 84 Cmg Delay 0 Roll and Pitch Receive Disabled 9 Weight Factor dRMSim 4dRMS m 0 01 1000 4000 IEC 61162 1 Transmit checksum 0 05 200 800 char included in transmit checksum Not included p cx TU 0 2 SU 200 04 25 100 0 8 12 50 example of DGPS receiver which is able to send IEC 61162 1 Ed 2 includes Adapter Chl 2 Device Type information about Datum of output position Edit parameters Positioning Equipment 1 TES gt Device Name Device Interface 61162 1 ed2 k Weight Factor Identification GGA VTG Delay 5 Talker Identifier GP dontcare Offsets from 9 m Stbd Port Antenna positio
43. a console panel or mounted on a desktop using the optional accessories For MU 190 231 see the applicable Operator s Manual s Mounting considerations When selecting a mounting location keep in mind the following points e Select a location where the display unit can be viewed conveniently and where the screen can be viewed while facing towards the bow Locate the unit out of direct sunlight and away from heat sources because of heat that can build up inside the cabinet Locate the equipment away from places subject to water splash and rain Leave sufficient space on the sides and rear of the unit to facilitate maintenance e A magnetic compass will be affected if the monitor unit is placed too close to the magnetic compass Observe the compass safe distances on page ii to prevent deviation of a magnetic compass Installation for TCS e TCS with separate Conning Display To fulfill this requirement certain installations may require 21 monitor and separate Conning display e TCS without separate Conning Display Single screen ECDIS Require that certain TCS related data is available in main Conning position of the vessel To fulfill this requirement certain installations may require large 23 monitor alternative for single screen installation The viewing distance from main Conning position to installation place of single screen ECDIS are 120 cm MU 231CE and 108 cm MU 201CE In this mode TCS related data fields should alw
44. adapter Use the following JIS Japanese Industrial Standards cables or equivalent When using the TTYCS 4 cable connect the appropriate cable to it to pass the cable entrance of the adapter TTYC 5 DPYC 1 5 Four twisted pairs Twisted pay cable Armor Shield L Depends on equipment 30 L connected Measure at the processor unit 5 After exposing cores Ninyltape wind shield around the armor 0000 CN NN Clamp here by cable clamp 2 7 2 WIRING ddldvdy gt gt Z Z 9 dp am NN Li Sda N 76 0 X Z Od NN YOLVOIAVN df14OV8 512 XZ vg NT 901 4 901 ISZ X z vd 4 NN ol A SE U 51023 Xv oo _ 515 28
45. button 11 When installation is completed successfully the following window appears Add Printer Wizard 12 Press the Finish button 3 82 Completing the Add Printer Wizard have successfully completed the Add Printer Wizard fou specified the following printer settings IBM Proprinter Il on ECTODOC OOCT Default Yeg Location Comment Ta clase this wizard click Finish lt Back Cancel Firish 3 ADJUSTMENTS 3 6 Activation of CM 93 3 Before CM 93 3 charts be used you have to activate eToken the dongle for system of CM 93 3 as follows 1 Start ECDIS 2 Select C Map Ed3 installation from Menu gt Initial settings North Up TM TrueVect G 12 min Route Uchart PilotData Radar Predictor 30 sec Non ENC Data Initial Settings Set time Function keys Operation repancy limit Parameter Backup 0 Digitizer Backup and Restore nm rkstation Installation parameters anu icis C Map Ed3 installation addis Navigation parameters parameters en Optimization parameters Print Navigation parameters gt Mode gle workstation Print Optimization parameters gt 12 Fl selfest stPosnTrue 2 min Milone 10 0 nm 30 min Standby Presentation library Ts j512 5 Access Server and Diagnostic k Close Ok Close 3 C Map Installation dialog box appears P
46. default Location of Access Server Set parameter defaults Sensor Channel usage Workstation parameters Logical name Network name IEC1000C 0001 Set Single Workstation Mode Workstations 1000 0002 Close installation parameters Activate changes now Restart needed to activate Single No sensor master selected Workstation No control master selected Workstation names Workstation names Edit Workstation names Edit Workstation names PORT ECDIS 1000 0001 STBD ECDIS EC1000C 0002 i nsor r faul i M Sensor source default v Location of Access Server Remove O Se 50 SOU ce default Location of Access Server Remove Planning station Planning station Logical name Network name Logical name Network name 000 0001 1000 0001 PORT ECDIS EC1000C 0002 PORT ECDIS EC1000C 0002 OK Workstation EQ Workstation In the Installation parameters window click the Workstations button The workstation names window appears and it shows a list of computer names for workstations connected via LAN in the list box Network name Click a desired computer name of workstation to set workstation function at Edit Workstation names in the Network name field You can enter an alias for Workstation PORT ECDIS as 1000 0001 to better describe a Workstation for example PORT ECDIS for workstation located port side You can also set if the Workstation is used as master of sensor data and if it is u
47. enable eda features Enable C Map ed3 features HASP Info Enter current HASP PIN 2371 14 Sharing information can be entered here and then press Next button 15 Select a COM Port for the Control Head set other parameters as appropriate and press the Next button COM Port 2 only Alarm Tone 7 only 16 Select Monitor type calibration and Control Port for display and press the Next button 17 Set ECDIS and IP Address for ARPA Set I O base port for Radar Overlay and press the Next button 3 ADJUSTMENTS ECDIS Setup Share Info Enter share name forthe directory CVANTS SYSTEM and for the CD ROM drive E NOTE To skip sharing enter blank share name s AntsSuster REE CD R M cd drive InstallS hield Back Cancel ECDIS Setup Set Control Head parameters COM COM Port 255 Brilliance D 255 Alarm Tone Alarm olume InstallShield ECDIS ChariRadar Setup Monitor Parameters Set Monitor Type and Serial Port for communicating to Monitor Leave unchanged upgrade Default Color Calibration Monitor Port RTI ECDIS ChartRadar Setup Radar Overlay and LAN Serial Select Address for ARPS Radar Overlay and LAN Serial Default For First ECDIS 7 Interface address type 172 31 3 23 IP Address Select 1 0 Base Port for Analog Radar Overlay
48. second Speed log e One serial input type of dual axis speed log IEC 61162 1 Ed 1 or Ed 2 message XXVBW or NMEA V1 5 message PKVBW or NMEA V1 5 message PSALL min 1 message per 2 seconds Positioning equipment e Two positioning equipment can be connected using one of the following communication protocols e IEC 61162 1 Ed 1 messages XXGLL XXVTG and XXZDA e IEC 61162 1 Ed 1 messages XXGGA XXVTG and XXZDA e IEC 61162 1 Ed 2 messages XXDTM XXGLL XXVTG and XXZDA e IEC 61162 1 Ed 2 messages XXDTM XXGGA XXVTG and XXZDA e Notes e Min message rate is 1 message per 5 seconds e Hecommended rate is 1 message per second e Alternatives 1 2 and 3 has separate talker identifier selection for VTG and GLL GGA PAT Message XXZDA should only be used with one of the position equipment Only alternatives 2 and 3 have Differential flag for DGPS use Only equipment which has fixed datum like WGS 84 in their position message should be used Alternatives 6 and 7 check that the used datum is WGS84 4 INPUT OUTPUT SIGNALS ARPA Radar e Two ARPA radars can be connected using one of the following communication protocols e IEC 61162 1 Ed 1 or Ed 2 standard messages XXOSD and XXTTM for input and messages ECGLL ECDTM ECDPT and ECMWV for output Targets numbered from 1 to 100 are accepted in TTM message The datum of GLL message is fixed and it is WGS84 for serial interface only e FURUNO interfac
49. separate manual for FAP 2000 EMRI SEM 200 The values of the following remote interface parameters must be checked e VMS e VMSTimeout e ctsdef e seldef e lindef e SpeedSource LogNmeaCh FreezeRudder HdtTimeoutLimit 0 0 2 1 1 3 0 0 5 Vector interface Vector interface cts hsc when leaving remote continue turn display hsc as cts during remote track turns default condition ECDIS is main source of speed ECDIS is connected to serial channel 0 Maintain manoeuvre after loss of heading For serial data gyro with high message rate more than 5 HDT messages per second If message rate is less than this then use HdtTimeoutLimit 25 The following parameter can be used to tailor the system to the vessel Write down values of following parameters e fiondly e firw e ficimax e fpcimax e Rrudabs e Grudabs e sleng e Uu norm e BackupSpeedSource e BackupLogNmeaCh 3 36 XX XX XX XX XX XX XXX XX X X Track regulator integrator start delay sec 64 is recommended Track regulator integrator start limit NM 0 02 is recommended Max attack angle to track for integral part of cross track error radians 0 2 is recommended which is about 12 Max attack angle to track for proportional part of cross track error radians 0 2 is recommended which is about 12 Rudder limit for Radius and Goto WP mode Rud
50. setting for Syledis receiver Enter values for Weight Factor and Cmg Delay as follows Weight Factor 0 1 Cmg Delay 0 An example of setting for Loran receiver Enter values for Weight Factor and Cmg Delay as follows Weight Factor 0 1 Cmg Delay 0 3 30 Edit parameters Positioning Equipment 1 YES Connected Adapter Chl 2 IEC 61162 1 ed2 gt GLL VTGa Talker Identifier xXXzdon care Speed Talker ID XX dont care Device Interface Identification Device Datum WES 84 Roll and Pitch Receive IEC 61162 1 Transmit checksum Disabled gt Device Name Device Type Weight Factor Cmg Delay S Offsets from Antenna position to Conning position m Stbd Port m Bow Stern Weight Factor dRMS m 4dRMS m char included in transmit checksum Included 041 100 400 Cancel Edit parameters Positioning Equipment 3 Connected YES d Adapter Chl 12 Device Interface Syledis GGA VTGy Talker Identifier XX dont care Speed Talker ID XX dont care WGS 84 Identification Device Datum Roll and Pitch Receive IEC 61162 1 Transmit checksum Disabled gt 0 01 0 05 200 800 0 01 1000 4000 005 200 0 07 143 571 0 2 50 200 0 4 25 100 0 6 17 67 0 8 12 50 Device Name SERCEL Device Type Syledis b Weight Factor Offsets from 10 0 m Stbd Port Antenna position to Conning position m Bow Stern Wei
51. signal SGND REF1 reference output terminals REF 1 ST input terminals for status open operating in use etc GND Analog channel assignment channel usage rudder feedback R O T gyro RPM 1 PITCH 1 RPM 2 PITCH 2 BOW THRUSTER STERN THRUSTER CONDO WD gt Status input channels assignment Channel State 9 ALARM ACK 10 BUZZER STOP 11 to 16 Not used 2 18 alternative usage second rudder feedback engine start air pressure fuel consumption air pressure 2 WIRING 2 5 Radar Overlay EC 1000C R EC 1000C CR only Radar Overlay has input for one set of radar signals Radar Overlay can be used to read the picture from three different radar transceivers because it has two status inputs which change the following characteristics of the Radar Overlay Video gain operating area low and high voltage FIC agjust operating area low and high voltage SIC agjust operating area low and high voltage SIC curve length and shape Number of azimuth pulses per 360 Radar antenna headline detector offset Radar trigger range offset Offset of the radar antenna from the conning position Following characteristics of the Radar Overlay are common for all radar transceivers e Video polarity positive or negative and impedance hi Z or 750 e Trigger active edge positive or negative and impedance hi Z or 750 e Headline polarity positive or negative e HI and LO video detection level difference
52. supportted i7188E gt setip 10 0 0 190 Set 1 10 0 0 190 ReadBack IP 10 0 0 190 i7188E gt _ 5 SETMASK 255 255 0 0 and then press the ENTER key To confirm the netmask type MASK and press the ENTER key 6 Remove old files from LAN adapter type del and then press the ENTER key 3 67 3 ADJUSTMENTS RE 7188 1 14 COM1 115200 N 8 1 DIR G LANadapter Current set Use COM 115200 8 1 AutoRun Autodownload files None Current work directory C LANadapter Command not supportted 17188E gt setip 10 0 0 190 set 10 0 0 190 ReadBack JIP 10 0 0 190 17188 gt 4 1 x x Total File number is 2 do you really want to delete yu n 17188 gt 7 Load autoexec bat and sercotr exe as shown below a Type Load b Press the Alt key and E key at the same time Type the file name to load fel 7188 1 14 6 1 115200 DIR CisLAMadapter 1 7 8 gt File will save to 3000 0000 StartAddr gt 7000 4444 Press to download file Input filename autoexec bat Load file autoexec bat Send file info total 1 blocks Block 1 Transfer time 15 0 051000 seconds 1f188E gt load File will save to 8002 0009 Start dcdr 7 8000 0028 Press ALT_E to download file Input filename serceotr exe Load file sercotr exe Send file info total 837 blocks Block 837 Transfer time is 83 002000 seconds i7188E gt _ 3 ADJUSTMENTS
53. to LAN Adapter channel 15 YES Adapter Channel 19 Cancel Device Interface 61162 1 p Identification MAAN interpretation of received angle Source of True Wind Receive Theoretical Wind HDG and Calculate True Wind p wind blows from direction of angle Style of Display Display Rel 2 Apparent or True Narth Style of send to ARPA send T TrueTheoretical or R 2 Apparent Wind modes are defined as The wind as measured by a wind meter is known as apparent wind If indicated wind includes speed compensation it is known as relative wind If indicated wind includes both speed and heading compensation it is known as true wind Definitions e APPARENT Wind as measured by wind meter e RELATIVE Wind includes speed compensation e RUE T heoretical Wind includes both speed and heading compensations e RUE North Wind includes both speed compensation and North stabilization Notes Talker identifier is ignored THIES in the Device Interface is a special case Calculation of true from relative can only be used if wind sensor sends TRUE wind according to definition above Source of True Wind to define what kind of wind is transmitted by weather station Receive T heoretical Wind HDG and calculate True wind is default Style of Display to define what kind of wind is displayed on ECDIS True wind or Relative wind Style of output to ARPA to define what kind of wind is transmitted to ARPA 3 34
54. to the cutout ocrew four wing bolts into hex nuts ocrew the above wing bolts into mounting plates Attach the mounting plate to the control unit with four screws M4x12 supplied with the control unit from the bottom side 6 Fasten four wing screws and then fasten hex nuts to fix four wing screws 277777 RCU 018 RCU 015FEA RCU 16 1 MOUNTING To connect RCU 016 in series with RCU 018 Small hole at mid is used 1 Pass the cable from the RCU 016 for ECDIS SYSTEM FAIL 2 Connect the connector of the cable to J502 3 Clamp the copper part of the cable with the cable clamp Inside of RCU 018 1 MOUNTING To change the cable entry To change the cable entry from the side default to the bottom modify the unit as shown below Screw 8 Bottom of the unit Torque 0 78Nm 2 Pull out the cable Cable clamp 03 163 7804 Screw M4X8 Torque 1 47Nm of the cable with the cable clamp removed at step1 1 Remove the cable clamp 4522 If you connect RCU 016 in series with RCU 015FEA plug in here RCU 015FEA RCU 016 Changing cable entry 1 9 16 MOUNTING 1 3 Processor Unit Mounting considerations When selecting a mounting location keep in mind the following points Locate the processor unit away from heat sources because of heat that can build up inside the cabinet The vibration at the mounting location should be minimum
55. used in this manual is elemental chlorine free FURUNO Authorized Distributor Dealer SEP 2004 J MAR 10 2011 00014977518 SAFETY INSTRUCTIONS A WARNING Do not open the equipment unless totally familiar with electrical circuits and service manual ELECTRICAL Only qualified personnel SHOCK should work inside the HAZARD equipment 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 Do not install the monitor unit processor unit or control unit where they may get wet from rain or water splash Water in the units can result in fire electrical shock or damage the equipment Be sure that the power supply is compatible with the voltage rating of the equipment Connection of an incorrect power supply can cause fire or damage the equipment Use only the specified power cable Fire or damage to the equipment can result If a different cable is used A WARNING The PCI 951 PCG820 board is equipped with a litium battery The lithium battery shouldbe replaced only in the factory There is a danger of explosion if the wrong type of battery is used for replacement CAUTION Attach securely protection earth to the ship s body The protection earth grounding is required to the AC power supply to prevent electrical shock
56. you don t know the name ar address of the printer you can search for a printer that meets your needs What printer do you want to connect to Browse for a printer 8 Connect to this printer to browse for printer select this option and click Next Example SSserver printer Connect to a printer on the Internet or on a home or office network Example htlp server printers myprinter printer 6 Press the Next button 7 Click printer name and then press the Next button Add Printer Wizard Browse for Printer When the list af printers appears select the vau want En use Printer MSECTOOOC O001 Proprinter Shared printers ECDIS SWECTOO0C O0075IEM Proprinter IBM Praprinter Il Printer information Comment Status Ready Documents waiting 8 Press the Yes button 3 81 3 ADJUSTMENTS Connect to Printer AN You are about to connect to a printer on 10001 0001 which will automatically install a print driver on your machine Printer drivers may contain viruses or scripts that can be harmful to your computer Itis important to be certain that the computer sharing this printer is trustworthy Would you like to continue 9 Select Yes Add Printer Wizard Default Printer Your computer will always send documents to the default printer unless you specify otherwise Do vou want to use this printer as the default printer res No 10 Press Next
57. 0002 Sensor source default 0 Location of Access Server Planning station Network name EC1000C 0001 EC1000C 0002 Logical name NAVIGATION a WANN MINE Single O Workstation Mode 3 ADJUSTMENTS Settings when workstation 1000 0001 15 used as ad Edit Workstation names navigation station in a two Save ECDIS system consisting of two Sensor source default M Location of Access Server Planning station navigation workstations Logical name Network name EC1000C 0002 STBD ECDIS Workstation names Settings when workstation EC1000C 0002 is used as x navigation station in a two Edit Workstation names Save ECDIS system consisting of two Sensor source default Location of Access Server 5 navigation workstations Planning station Logical name Network name 1000 0001 Hein EC1000C 0002 STBD ECDIS K INITIAL SETTINGS for Multi workstation mode Usage rights options Master The workstation with this setting can open user created data User chart Notes Route using the monitor mode Plan This option creates planning data Plan cannot be used to open data in the monitor mode Multi Slave The workstation with this setting can open user created data using the monitor mode Use this option to assign usage rights to multiple workstations When you set a workstation to Master other workstation s are automatically set as
58. 02 D 03710403 E P 3 Push the New button 4 Create a group named and press OK button New Group Name 3 97 3 ADJUSTMENTS 5 Click Group in the View filters and then choose ALL View filters Permit Navigation purpose Overview General RENC Coastal O Canceled Charts Approach Harbour Berthing Group 6 Choose all available charts in Outsi utside the Outside window at the 2 bottom of the window 2 20 7 Press lt lt button to set group ALL as active 00300528 C 8 Open SENC Convert window SENC CONVERT x from the Chart Menu and Conversion List activate conversion for group ALL press Convert button to start conversion for Group ALL ALL SENC CONVERSION in progress x Conversion List FI4EIJUG 005 ALL You will get a list of charts to be converted to SENC format Content of Conversion List depends on charts loaded into ECDIS When conversion is completed the Conversion List will be empty again For details see chapter How to use SENC Convert window to initiate SENC conversion in Operator s Manual 3 98 3 ADJUSTMENTS How to set the EC 1000C as No 2 When using two EC 1000C with Multi workstation mode set one as No 2 as below How to change address of OS The EC 1000C has two LAN ports Local Area Connection IP address 172 31 3 29 and Local Area
59. 028 for Radar communication Radar display number 1 IP Address CCRS1 172313 29 CCRS2 1723130 Port numbers 15002 15003 for CCRS communication Primary CCRS CCRS1 Change between A CCRS and Standalone 3 22 3 ADJUSTMENTS Radar Displays There are 6 basic device interface alternatives 1 Device interface FURUNO IEC 61162 1 TX Talker ID 1 includes all standard messages for an ARPA radar target data receive interface Further it also contains a lot proprietary messages supporting integrated navigation features such as user charts routes curved EBL etc 2 Device interface FURUNO IEC 61162 1 TX Talker ID El includes all standard messages for an ARPA radar target data receive interface Further it also contains a lot proprietary messages supporting integrated navigation features such as user charts routes curved EBL etc 3 Device interface FURUNO IEC 61162 1 TX Talker ID EC includes all standard messages for an ARPA radar target data receive interface Further it also contains a lot proprietary messages supporting integrated navigation features such as user charts routes curved EBL etc 4 Device interface IMO IEC 61162 1 xxOSD xxTTM uses message for ARPA radar target data receive interface and OSD message for ARPA radar speed and course receive It sends standard ECGLL ECDPT and ECMVW messages to the ARPA radar 5 Device interface FURUNO FAR 2x07 serial includes all standard mes
60. 1 GYRO PHASE 1 GYRO PHASE 2 GYRO PHASE 3 GYRO REFERENCE ADAPTER B IC 1 IC 1 TT COMMON COMMON 1 1 Postion fw 206 open 50 60 Hz Synchro 1 2 400 Hz Synchro 1 2 otepper ST SY 2 3 oynchro 3 75 3 ADJUSTMENTS LLL 440 438 454 432 R22 R21 R20 R19 jit R18 R17 SYNCHRO 90 135VAC STEPPER 20 48VDC EEE 202 22 ohms 1W R18 10K 2K7 1W 55 R19 10K 2K7 1W GF R20 10K 2K7 1W Factory default is SYNCHRO 90 135 VAC If you have a STEPPER 20 48 VDC you need to replace resistors R17 R18 R19 and R20 with values given in the figure above s s s s 3 76 3 ADJUSTMENTS 3 9 Installation of optional Furuno PP 510 printer Furuno PP 510 printer can be connected to ECDIS using USB not directly to LPT1 port You have to use USB to parallel adapter to connect Furuno PP 510 printer to the USB port If printer is shared then it is possible to print from all workstations in the network Installation of printer 1 Connect USB to parallel adapter between printer and ECDIS 2 Turnon printer and ECDIS 3 Select first Settings from Start menu and then Printers and Faxes 4 Double click the Add Printer icon to show the following window Add Printer Wizard Welcome to the Add Printer Wizard This wizard helps you install a printer or make printer connections i pou have a Plug and Play printer that connects through a USB p
61. 10 m 3 ADJUSTMENTS Gyro 1 Settings when Gyro is outputting data in IEC 61162 1 format Edit parameters Gyro 1 Connected Cancel Adapter Chl Gear Box Talker Identifier HE HE typical amp x dont care Device Interface IEC 61162 1 Settings when Gyro is Stepper or Synchro with 1 360 gearbox and optional B adapter is used Edit parameters Gyro 1 Connected Cancel Adapter Chl Gear Box 1 360 3 Talker Identifier HE typical AA don t care Device Interface leppen Synchro uses E Adapter p oettings when Gyro is Synchro with 1 180 gearbox and B adapter is used Edit parameters Gyro 1 Connected YES Cancel Adapter Chl D Gear Box 1 180 Talker Identifier HE typical AX dont care Device Interface Stepper synchro uses p Notes e Talker identifier can be defined for IEC 61162 1 typical talker for gyro is HE If talker identifier is defined as XX then it is ignored e Analog is either synchro or stepper from optional B adapter IEC 61162 1 uses HDT THS IEC 61162 2 uses HDT CH5 CH7 13 CH15 program version 06 only e For DNV NAUT AW installations see the paragraph Gyro interface only for DNV NAUT AW rule on page 3 14 for details 3 11 3 ADJUSTMENTS Gyro 2 Settings when Gyro 2 is receiving from Trackpilot If connected TCS BSH type approved Settings when Gyro 2 is receiving through Trackpilot If connected EM
62. 3 snc InstallShield 22 Press the Finish button to mmr restart ECDIS InstallShield Wizard Complete Setup has finished installing ECDIS on your computer will restart my computer later Click Finish to exit ECDIS setup lt Back Cancel 3 96 3 ADJUSTMENTS Important things to do after reinstall After you have reinstall ECDIS program you will need to initialize ECDIS to restore previous state Automatic erase of the old situation memory and internal files has removed the following setups and files from the hard disk e Chart details has been set as initial default values For information about how to set desired values see Control of visible chart features in the Operator s Manual e Select Navigation sensors from the Sensor page e SENC format of 557 charts has been removed e Manual Reinstall has been removed Make Manual Updates based on the Notes you made before Upgrade How to convert already loaded S57 charts into SENC format You can reconvert hard disk stored charts S57 into SENC format by doing the following 1 Open the Chart Menu 2 Choose Chart Catalogue Chart Catalogue x Source of Chart Catalogue i CD ORENC SENC i Navigation purpose Overview General Coastal Canceled Approach Charts Harbour Berthing Group Selected Chart Cell 7C2W0102 CellStatus Green Permit and SENC OK Inside Outside 03690399 D P 036904
63. 4 2 1241 E 0 28 2 101 X Y MA Y 10140 401238802 33101 2 402 965 2 E pooooo 5 000000000000000000000000000 000000000000000000000000000 ii lt 2 5 001 YS 001 STIOH 9NIXLH XHEL r 0001512008 008512001 ZF 00151208 T 8 es oorsiros 91 0851 SNOISNANIG ARH MY l JaV 2 V ONNAN 11 11411313 ONNaNS 0 9010 500 70 8 09 0199 ia 110 JHL 9 503 0659 54305 INiddYL AIS ISN 7 on 340346 LON SI SNOISN3NIQ 40 3ONVETTOL SALVOIGNI 1 1 ILON TREY SEE vs 322083206x9 amp tAA 6YCi Z PEAN mu COE SPL EMEVKLOUEH SNOISNANIG 10011 YOLOINNOD 431048 I A fee fy AB CES 697 96 539114 t S310H 1010 SIMA bes Y MJN V amp X v 0001512008 008515001 11 22 001 1 gt 06 STIOH 9NXH 8 Ls os JONVATIOL SNOISNINIG 29 LULU C X CP 6 777 0101000100000000000000000000000 77777 v 5 ONNIN 3l 8123713 ONNANS NMVOHNIUOO 10 859400 138141 MINS YO 95192 20 63 ME on ae LINN 9 304 89 5
64. 4 2004 11 39 MPI31 must be MIP2 Version Mip2 Compiled 12 03 2004 16 38 e ExtendedPessa should be checked 3 14 Log Settings when log is using Analog Pulses 200 p nm Note that log is used for water speed component if the dual axis log is available Settings when log is single axis pilot log transmitting 61162 1 Message used is VBW Settings when log is used to find out water speed component from a dual axis log using IEC 61162 1 Sensor log uses water tracking values of VBW message Notes 3 ADJUSTMENTS Edit parameters Log Connected Cancel Adapter Cn Device Interface Analog Pulse uses B Adaptor gt Measurement Units WM Prefiltering Pulses per Unit Edit parameters Log Connected Cancel Adapter Cn Device Interface IEC 61162 1 fiee BY vDztypical AX don t care Talker Identifier Edit parameters Log Connected IEC 61162 1 BW Adapter Chl Device Interface Talker Identifier VD typical XX dont care e Talker identifier can be defined for IEC 61162 1 typical talker for log is VD If talker identifier is defined as XX then it is ignored e Analog pulses are from optional B Adapter 3 15 3 ADJUSTMENTS Dual axis log Settings when USING Edit parameters Dual Axis Log DAX IEC 61162 1 Connected YES Cancel Adapter Channel Device Interface IEC 61162 1 xxv BW Sign Positive for
65. 411 09 21819414 ONNYNS JNYN S 00 000 221 000 pee 01 16 161 000 1082 Ve 804 cg 00 1052 8194 SAA LAS 30 INN ON agoo swuvway ON BNC 14554 51345 wx aw iere 8300 cc CANO 39N38343H ONIMVHO SNOISN3WIQ 2 5 2 0 5 Ul 1066 4990 ON OMA 011 09 91419373 ON JWYN S 0 4 4 000 350113 ddd 1080 8194 Y T qvas 388 sd ON 34 Ld ON ML 303NVN wall _ 04 a TASSSA Yad 5135 1 5 1 d 0804 oosri cods L L Z 10 6 X 49 0 018 680 000 3009 90b6 X 9e0 91419373 GOb6 X 9e0 11 OO 91419373 ONnun3d CANO 9Ndd JJ 403 ONIMVYC NI SNOISN3WIQ 62 8 1 CO DS Ed CANO 208 83 38 403 9NIMVHO NI SNOISN3WIQ 62 8 FIXE TS CO DS ED 3AVS SHL SI ALITVNO NYS 3HL SI ALITVNO LONGOYd ddddil AHL 40 39V d NI ddddIHS 38 AVW 1900084 01 JHL WALI NV 404 041511 38 AVW 54003 534 1 19100484 Yddd AHL 40 39V d NI ddddIHS 38 AVW 1200044 ddMO1 JHL WALI NV 304 041511 38 AVW 54003 534 1 HA fPRMICYEEIGS TMAA 1 SHOA CCE E E E SH 62012 2384 SHOW CER 1 C Eik 3409 IWS 4E W3 IdMHSSV IdV9 NVI NVTS BH 2 4 YOLOANNOO BSG G40 YOLOANNOO
66. 43405 8 5 85 307 755 101 11 DHW 3119445 LON SI SNOISNAWIG 40 JONVEFIOL S3IVOKINEL 6 JONYYVTIO 36 WANININ 10N a QERZF 8 L 3 27515 ZA OD 220B82 CIXPW ELEY TAPE 6 F PUT Cc M D 92 PRAbBMaYA 4 BPShLBt 1 E x ON R 1 2 OL STIOH ONL 96 G OZ 6 OS NOlLdO JIGVO IOYMLNOD 310138 18729 1041 09 a wene X LERLE AL LBB HY N C 1 9 DNI 27 EE 12 i 1 ONNEN NOldO 31872 10 d OVMI 4 ONNO 1 T O 2140 09 E ae ee 0015 ISG MJA av da BK 88 000 s gt 00G 40123102 TWNOIS AL eS LEC F 006 gt 1 gt 001 STF 001 gt 1 gt 06 os JONVYTIOL NOISNAINI 27 WW g ARF 12 _ JONVNHINVW 404 LINN JAHL ONIH38 11889 1 4443 AHL 404 99 545495 51108 9W ISN 4119345 LON SI HOIHW SNOISNANIG 40 3ONVSTIOL SALVOICNI 41881 A INO 400 14 SI NOLLV9O T ONLLNDOM JONVUVITO 35 ALON G RIOGHYLHAGHECPEARRZISE4 2UCMeYY HLA APUL LAR 92 gt MAK CMAR CEH
67. 6 0 40100 L L 9 1G86 X 8980 151171 5NIMOVd st A 3 PACKING LIST NAME OUTLINE DESCRIPTION CODE No UNIT PROCESSOR UNIT PS 2 PS 2 KEYBOARD MOUSE Y CABLE t F KEYBOARD 193 MOUSE CD ROM CD ROM CD ROM 06 CD ROM FD ROM FD ROM 1 CODE NUMBER ENDING WITH INDICATES THE CODE NUMBER OF REPRESENTATIVE MATERIA 2 1 1 THIS CODE CANNOT BE ORDERED DIMENSIONS IN DRAWING FOR REFERENCE ONLY PACKING LIST PROCESSOR UNIT ECDIS 1 79 2 5 ECDIS LAN ADAPTER SPARE PARTS SPARE PARTS ACCESSORIES PS 2 PS 2 KEYBOARD MOUSE Y CABLE F KEYBOARD FD ROM FD ROM CD ROM 06 CD ROM 2B 8 WASHER HEAD SCREW B 29100 1 CODE NUMBER ENDING WITH INDICATES THE CODE NUMBER OF REPRESENTATIVE MATERIAL 2 1 1 THIS CODE CANNOT BE ORDERED
68. A magnetic compass will be affected if the control unit is placed too close to the magnetic compass Observe the compass safe distances on page ii to prevent deviation of a magnetic compass Fixing without KB fixing plate Fix the KB fixing plate to the rear panel of the control unit Attach cushions three for RCU 018 two for RCU 015FEA to the bottom of the control unit as shown below Fix it to a desired location with self tapping screws Cushion KB fixing plate RCU 018 0RCU 15FEA side view 1 5 1 MOUNTING Fixing without KB fixing metal 1 Drill four mounting holes of 5 mm diameter referring to the outline drawing at the back of this manual 2 Fix the control unit with four screws M4 from under side of the desktop The M4 screws with a sufficient length for the thickness of the desktop should be provided locally 1 6 4 4 Fixing holes bottom 4 M4 Fixing holes REAR RCU 015FEA 16 1 MOUNTING Flush mounting Use the optional flush mount kit 09870 to mount the control unit RCU 018 015FEA and or RCU 016 to a console panel Name Flush mount kit Type FP03 09870 Code No 008 535 630 Mount plate 03 163 7531 100 306 260 000 863 206 3 5 40 008 047 990 1 Prepare a cutout in the mounting location as shown in the figure below 7 170 2 176 2 7 2 p 388 2 15022 For RCU 018 For RCU 015FEA 16 Set the control unit
69. Ahead X longitudinal speed sign Fositive for Port k transversal speed Use Sign Positive parameters to change polarity of speed components Status Flag Check Check only A B or accepted d Talker Identifier v D typical XX don t care Settings when no dual axis log Edit parameters Dual Axis Log DAX is available Connected NO Adapter Channel uae Device Interface IEC 61162 1 Sov BW Sign Positive for Ahead longitudinal speed Sign Positive for Port k transversal speed Use Sign Positive parameters to change polarity of speed components status Flag Check Check only or accepted Talker Identifier V Dcztypical XX don t care Notes e alker identifier can be defined for IEC 61162 1 typical talker for dual axis log is VD If talker identifier is defined as XX then it is ignored e IEC 61162 1 uses VBW or VTG e f you selected VBW message then bottom track is available from dual axis log and water track could be available from log 3 16 3 ADJUSTMENTS Radar Echo Overlay Radar Echo Overlay can be received by ECDIS in two ways e through Radar Overlay card fitted in ECDIS e through LAN from FAR 2x07 Radar Echo Overlay analog through Radar Overlay card fitted in ECDIS This menu does not appear if Analog Echo Overlay is set for No use during installation Configuration for Radar Echo Overlay analog when Radar overlay card fitted in ECDIS is done using Radar Echo O
70. Connection2 10 0 0 180 Change IP addresses for No 2 as below referring to paragraphs 3 1 1 and 3 1 2 No 2 IP address Local Area Connection 172 31 3 30 Local Area Connection2 10 0 0 181 How to change address of ECDIS program Change the ECDIS program IP address etc to one for No 2 using the CD ROM Choose Default For Second ECDIS at Interface address type Interface address screen to set IP address to No 2 ECDIS ChartRadar Setup x ECDIS ChartRadar Setup x LAN Adapter parameters b Set IP addresses and check if this ECDIS is sensor source for L N Adapter Sensor source both initializes and sends output to device amp xs Default For Second ECDIS v Interface addresses 10 0 0 181 ECDIS IP for LAN Adapters LAN Adapter IP This ECDIS is 10 0 0 132 Install 1 Sensor Source for 1 Radar Overlay Settings Select IP Address for ARPA Default For Second ECDIS v Interface address type 172 31 3 30 IP Address 10 0 0 193 Install 2 Sensor Source for 2 Install 3 C Sensor Source for 3 Select 1 0 Base Port for radar Overlay card Radar Overlay Board 1 0 Port Address InctalfShield How to change IP address of LAN adapter Change the IP address of LAN adapter to the one for No 2 Start 7188xw exe referring to section 3 3 When setting the first LAN adapter do the following 1 Type setip 10 0 0 192 and press the Enter key 2 sercotr
71. DIS can be connected to another ECDIS with optional cable MOD Z072 020 which is 2 m long If you need a longer cable connect LAN Local Area Network using RJ45 connectors Cable used between two ECDIS devices should be UTP Unshielded Twisted Pair See figures and tables below 1 8 RJ45 Female connector at the ECDIS 1 a8 FRONT 3 1 8 RJ45 Male connector at the cable TOP Pin out of female connector at ECDIS Wiring of the twisted cable 1 pe mwamowr sweet comet 6 Rx Reveive Data _ 2 21 2 WIRING 2 9 EMI Core for Processor Unit When connecting the LAN cable MOD Z072 020 supplied to the processor unit EC 1000C attach the EMI core type RFC 10 supplied as installation materials to that cable as shown below Fasten core with two cable ties to fix the core 10 cm to LAN Adapter EC 1010 EC 1000C RJ45 MOD Z072 020 cable RFC 10 When no radar is connected Fasten core with two cable ties to fix the core NC L to LAN Adapter EC 1010 RJ45 1000 CI to Radar FAR 2xx7 RJ45 EMI core RFC 10 MOD Z072 020 cable When a radar is connected 2 22 3 ADJUSTMENTS 3 1 How to Set IP Address for ECDIS ECDIS has two local area network interfaces and Interface IP address for the No 2 ECDIS has to be changed To set the IP addresses run WindowsXP as follows Open the cover on the front panel of the proce
72. I 035012 MAYW Sd 20A CLIX 41S 811 XZ IS ldvOV NV1 B Adapter 1 No 2 LAN adapter CH11 CH12 or CH13 No 1 LAN adapter CH4 or 2 14 2 WIRING 2 Hpd 8 3 2 gt DAW gt a DO S muU 01 1603 Nm mio o 112 n in z T 2 01012 9 O zw 10 2 0 0 25 0 1 111 WN Need isolator if connect any analog voltage or current 8115 2115 9 9115 SILS 115 ZILS ZILS LILS y THIS 6 Nn 0 c r T m l mou 1 NIS G 0 X 9 IS Oo z 6 NN ala osn ul 9 ISaHI OXIE cR i 5 101 1
73. Installation Electronic Chart Display and Information System ECDIS FEA 2107 2107 BB 2107 D FEA 2807 2807 D SAFETY INSTRUCTIONS 11 eren nen hne n arn anna EQUIPMENT li SYSTEM CONFIGURATIONS c ccsssscsessssssssesseseseseestsesessescsesststsesaeatseseseatssees iv T MOUNTING 1 1 1 1 Monitor 888 tttm mttttmettttettetettemttrerie etie era isi e 1 1 ee 1 5 1 3 Processor 1 10 1 4 LANAddDIer B Adable EDI EI Rada 1 11 PMBVLLICcM 2 1 2 1 2 2 Processor 2 5 29 AN 2 7 2 4 B Adapter EC 1000C C S EC 1000C CR only 2 13 2 5 Radar Overlay EC 1000C R EC 1000C CR 2 19 2 6 Connection of Digitizer and LCD Displays to Processor Unit 2 20 27 Power Cabling tO ecu Vou
74. LOT S TTE eee TTYCS 1 OG DUAL AXIS LOG TTYCS 4 AIS TTYCS 1 GYRO COMPASS CONNING CONNING RADAR OVERLAY Type only 10 20 30 m 100 230 VAC NFKVV SBO PR 62 100 230 VAC RADAR OVERLAY Type only 3 2 2000 he e MPYC 7 XH10P DS 5P cable 1 GYRO COMPASS 10 20 30 SYNCHRO STEPPER 9e 11 41 TIYCS4 LOG 200 P NM 5 NERO ANALOG INPUT 8 channel TTYCS1 ALARM OUTPUT 8 channel RCU 015FEA eee I TYOS 4 2 THRUSTER RUDDER ALARM OUT ENGINE AIR PRESSURE XH10P W 5P Acable ino DPYCY1 5 10 20 30 1 1 uo MEM LM PR 62 i 100 230 1020 E E RCU 016 eS nt Remote Control Unit 2 WIRING YSLSNYHL NYSLS YALSNYHL Mog JYNSSAYd YO HOlld NOlLdAnSNOO T3nd YO 2 AYNSSAYd LYVLS 3NION3 YO HOlld 4 YAGGNY qNOO3S YO 9 MOoV8Q334 4002 901 M3dd3lS 5 OMA9 SSANLIS HOIVd dO Adv 51003 ANY IV OoIVoIAYN Wavy Mo138 Hid3Q AHYTY MOSN3S NOLLVOIAVN HOVOHddV LNIOdAVM HO 15100 LNO MOV 5004 QN 3 dVdYd yyavd NOLLOSTSS 1H Z 9Nn XZ va 5 1 I ll X c va 9 5112 2 0 9Nn Is ilz X z va 9Nn 51
75. RI TCS DNV NAUT AW Settings when Gyro 2 is not connected 3 12 Edit parameters Gyro 2 Connected Cancel Adapter Gear Box 1 360 Talker Identifier HE typical AA don t care Device Interface Trackpilot Edit parameters Gyro 2 OK Connected Cancel Adapter Chl 3 Gear Box 1 360 Talker Identifier HE typical XX don t care Device Interface Trackpllot double gyro Gyro amp 2 p Edit parameters Gyro 2 OK Connected Cancel Adapter Chl ki Gear Box 1 560 Talker Identifier HE typical AX don t care Device Interface Trackpilot 3 ADJUSTMENTS Gyro interface for Track Control System approved by BSH Gyro2 Gyro1 Gyro Gyro selector 2 Repeater Common Distribution Unit comectes A Adapter Chl Cancel Gear Box 1 360 SELECT SENSORS Source STED ECDIS Talker Identifier HE typical XX don t care Gyro 1 or Gyro 2 Gyro 1 Device Interface 61182 1 en OY 61162 1 XxHDT or Edi 5 Stepper Synchro Connect ted es H Gyro 2 A Adapter Chl H Cancel Gear Box 1 360 Talker Identifier HE typical care Device Interface Stepper Synchro uses B Adapter Trackpilot RADAR O Manual heading 5 Rate gyro calc 2 0 min Edit parameters Gyro 2 Conne
76. RUNO GP 80 e One serial input output for Furuno DGPS receiver GP 80 IEC 61162 1 Ed 1 based proprietary message Route backup to external equipment e One serial output to external equipment IEC 6162 1 Ed 1 message xxDTM xxWPL xxRTE Route data output when route monitor is selected ECDIS Speed Pilot e One serial data interface IEC 61162 1 Ed 1 based proprietary messages Alarm Management and Watch Safety System AMWSS e One serial data interface IEC 61162 1 Ed 1 based proprietary messages Alarm outputs e ROUTE MONITOR OUTSIDE CHANNEL LIMIT alarm as open contact Contact closed is No Alarm e ROUTE MONITOR WAYPOINT APPROACH alarm as open contact Contact closed is No Alarm e ECHO DEPTH BELOW LIMIT alarm as open contact Contact closed is No Alarm NAVIGATION SENSOR ALARM as open contact Contact closed is No Alarm from B adapter ECDIS failure as open contact Contact close is No Failure Any ECDIS ALARM as open contact Contact close is No Alarm Operator Fitness notice as closed contact Contact open is No Activity BACKUP NAVIGATOR ALARM as open contact Contact close is No Alarm Alarm inputs e Alarm inputs have following sources Serial messages from EMRI Central Alarm Management Closed Open contact inputs max 8 pieces from B adapter 4 5 4 INPUT OUTPUT SIGNALS Radar Overlay e Video min 2 Vpp max 5 Vpp positive or negative polarity e Trigger min 5 V max 30 V positi
77. Radar display number defines IP address for connected ARPA Radar Display Note 2 Following values can be tailored Radar transceiver Connected Device Interface Label and From Radar Antenna to Conning Position Leave other values as IS 3 26 3 ADJUSTMENTS Second Radar display FCR 28x Edit parameters Radar Display Radar Displays Radar Display Connected ves Adapter Channel Device Interface Rx Talker Identifier R IP address 172 31 3 7 You can define to which LAN radar it is connected at the LAN Radar field Note that the following settings above together with the settings below must be done for LAN Radar settings Edit parameters Radar Echo Overlay Communication LAN Radar Display Connected E Device Interface Chart Radar Label From Radar antenna m Stbd Port to Conning position 30 m Bow Stern IP address 172 31 3 7 Port numbers 10024 for Radar echo output 10028 for ARPA communication Radar display number Note 1 Radar display number defines IP address for connected Radar Display Note 2 Following values can be tailored Radar transceiver Connected Device Interface Label From Radar Antenna to Conning Position and Radar display number Leave other values as is 3 27 3 ADJUSTMENTS Conning Position GPS Antenna Position Dual Axis Log Position Radar Antenna Position X From Antenna Position to Conning position 150 m From Antenna
78. S OOdd SIQO3 5712 x Z va E o o z 5 g 5 1 a lela 9a 5 2 ake 5 y 0L Nn 1 NN 415 4 192 NA 65 DH LL 7 IONLNOO 65 08 f n Zl LINN 21 LINN 674 NUS ee dO AN 14510 E AN ldSIG ONINNOO 2 51094 ae i T N e 2 f 2 ECDIS backup ECDIS iring o 2 4 2 WIRING Processor Uni 2 2 OVA 0O 6 00 CIV 3H 1041 09 AOLE CTW 40 4JOLOC NW YOLINOW ONINNOO gt WI23dS 6 1 1 ONG IOSNOO 9 0 MSd 9 MSd J Q cit J qax CCVSM AOO NOR 0010 OD NN X VGA or DVI YO A SIS 39 gu 40 42102 01 HOLINO LAN RADAR 1 LAN RADAR LAN RADAR 3 VA 026 001 NV IVA 0222 0205 NV SI OVA 056 001 ee oe 213 9NIMV38 TH MVOVM MVOVM ydy Add
79. Slave Sensor source options Select the workstation to use as the sensor data source EC 1000C xxxx Mode options Multi workstation Select this option for Multi workstation mode Single workstation Select this option when loading updating the chart data and turning the power off Do not turn the power off when the multi workstation mode is active 3 7 3 ADJUSTMENTS Opening each parameter dialog box 1 Locate the cursor on the gt mark on the drop down list 2 Choose an item you want to set by scrolling the list AIS transponder Alarm Inputs External Alarm Inputs Outputs Central Alarm Output Central Alarm Text Canning Display Dual Axis Log DAA Echo Sounder Weather Electronic chart Laserplot Enaine Control 3 ADJUSTMENTS General Enter your ship s name and characteristics referring to next page If there is no optional B adapter connected set parameters as such Edit parameters General Ship s Name x Sensor Message interval B Adapter SIO Channel AN Co B Adapter connected Trim Indicator Disconnected E Docking Disp Spd Vector Max Value 4 0 Kt From Center Position to Bow Position 100 Bow Stern Length 200 m Stern Position 100 m Bow Stern 4 Dual Axis Log Position 0 m Bow Stern Conning Position m Bow Stern c 3 Side Position Breadth m e Sidewise C
80. Tokimec PR 6000 Autopilot Tokimec PR 6000 Autopilot Autopilot steering control unit is a separate unit which can operate together with ECDIS Some parameters must be as below in Autopilot control unit 1 Data setting data 5 speed compensation 12 92 data 15 rudder speed bit6 0 bit7 0 data 30 XTE Gain 06 data 40 drift compensation 00 3 39 3 ADJUSTMENTS 2 Auto Steering Control Adjusting Ref AP manual Adjustment Auto Mode RC NAV Remarks Mode 1 Rateofturm RATE t9 6 Rudder Ratio Rudder 19 2 Weather NN ed CNF Watch imi No function Note1 Adaptive function becomes OPN on RC NAV mode under ECDIS control when ADPT Weather knob selected 0 10 Note2 During RC NAV mode under ECDIS control the Rudder Limit is ignored Note3 During RC NAV mode under ECDIS control Pilot watch alarm is not given 2 3 4 3 Speed selection Ship S speed Example of Example of Remarks input signal ordinary display display when operating CHANGE switch gt Log pulses input 20 5 P Lc Ship s speed is used 1 from ECDIS when RC NAV is selected 15 0 Manual 1 During RC NAV mode Low Speed Alarm on Autopilot is not given but ECDIS generate own Low Speed Alarm setting by installation parameter of Track pilot 2 During RC NAV mode speed selection of Autopilot could not change NAV Ready lamp dose not lit when man
81. VW NOIIVTIVISNI SAEI 6076 9 0 00 809 680 000 3d09 red s lat laik cl V 3409 IMH dE Na TdNASSV 31gV9 NVI NIS BH C 4 SSV YO LOANNOD BG SSV 0194 09 74 SNO Ld YOS3d 3 171110 ON 9 8 HE zi SIVIYSLVW NOIIVIIV1SNI EHETI 80 6 4920 00 209 680 000 3002 11 11411313 ONNaNS AINA AHL ONIXH 04 059 543825 1 4145 35020 14119445 LON SI HIHW SNOISN3AIC 40 32 43101 S3LVOIINI 418811 BRUER DWSWNI COMB ROEXSLELASSE YON E GEMM OM ui IHSOAIN 2 S0 LEUN 1 1 046881 OE SNOISN3NI 10010 40193102 3104 Pss WS T amp LX CRB 10114 7 STIOH 10116 KAEMI Ae HEr BUM 7 Y 4 Z 7700000000000000000000000000 000000000000000000000000000 77777 O 2 a 906 p v 0001 gt 1 gt 005 60 00151 06 M JONVETIOL SNOISNINIG 27 GAA LIL 5 ONNIN E LI Ud 13 UNTIeTFI n 403 6 943405 HOV09 40 51109 OIN ISN 0131519395 LON SI SNOISN3AK 10 39NVS3IOL S3IVOICNI JIGVL TH JONVUVITO WANININ 1 OCN 3 80 1190 26560 141
82. ansmitting data from to workstation via the LAN In the multi workstation configuration two fully redundant navigation workstations where navigation sensors are connected to two workstations the sensor source may be changed and still receive and transmit information from to the system and to from navigation sensors User defined workstation is responsible for sensors ECDIS Monitor MU 201CE FEA 2107 Conning Monitor TB Control Unit i MU 201CE FEA 2107 i Mu 190 FEA 2107 D MU 190 FEA 2107 D P777 100 230 VAC MU 231CE FEA 2807 i MU 231CE FEA 2807 i 100 230 VAC ARPA RADARS MU 231 FEA 2807 D i MU 231 FEA 2807 D POSITION FIXING EQUIPMENT _ LAN ADAPTER _ TRACK PILOT PTTTTFFLLPLLLLLLLLLHTTLLLLLPHLLLLLLLLLLLLLLLLLLI 1 01 0 LOG DUAL AXIS LOG 1 AIS DVI or RGB 8 1 GYRO COMPASS DVI RGB PR 82 24 VDC o 2 72 571 100 230 VAC POSITION EQUIPMENT i CALCOMP ENGINE CONTROL DRAWING 4 m HUB p RANA PAM ONDE 1 ECHOSOUNDER E PONDI s AOD i LANADAPTER _ _ _ _ 2 WIND SENSOR DIGITIZER EC 1010 WATER TEMP METER m WORKSTATION ed Ru o m E AMWSS Alarm Monitoring Rectifier Watch Safety System ECDIS PROCESSOR 100 230 VAC 24VDC GYRO COMPASS EC1 000 EUR UEM 100 230 VAC SYNCHRO STEPPER
83. art or any other hot pluggable port such as IEEE 1384 infrared and sn you do not need to use this wizard Click Cancel to close the wizard and then plug the printer s cable inta Your computer ar point the printer toward your computer s infrared pork and turn the printer on Windows will automatically install the printer for pou To continue click lt Back 5 Press the Next button 6 Select Local printer attached to this computer Add Printer Wizard Local or Network Printer The wizard needs to know which type of printer to set up Select the option that describes the printer you want to use 8 Local printer attached to this computer Automatically detect and install my Plug and Play printe A network printer or printer attached to another computer To set up a network printer that is not attached to a print server use the Local printer option 7 Press the Next button 8 Select Use the following port USB001 Virtual printer port for USB 3 77 3 ADJUSTMENTS Add Printer Wizard Select a Printer Port Computers communicate with printers through ports Select the part you want your printer to use If the port is nat listed vau can create new 6 Use the following port Note Most computers use the LPT 1 port ta communicate with a local printer The connector Far this port should look something like this Create a new port Wee
84. at 0 p tput per Volt Prefiltering Minimum Maximum Ship has two pitch propellers Edit parameters Propellers 2 General and the second propeller is Connected E Device Type connected as Propeller2 Label stern In use B Adapter channel Output at 0 Output per Volt Prefiltering Minimum Maximum Note You can give name for propeller in Label field This name is displayed in the Propeller window of the Conning Display 3 48 Ship has one pitch propeller connected as Propeller 1 stern using Engine Control Device Type IEC 61162 1 MAN B W xxXDR xxRPM Ship has one pitch propeller connected as Propeller1 stern using Engine Control NCDAT PNAV or proprietary message used by Sindel simulators Edit parameters Engine Control x Connected IEC 61162 1 MAN BW jo0XDR jxRPM gt Propulsion Control Position Available Device Type Edit parameters Propeller 1 stern General Connected Device Type Engine Control Label B Adapter channel Minimum unit Maximum unit Edit parameters Engine Control Connected Device Type NCDAT PNAV Sindel timeout 30 s gt Switch Input InUse Openis OFF Fixed Use For Propeller 1 Propeller 1 Propeller 2 Propeller 2 Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used
85. ation ECDIS and second for planning back up ECDIS To install proceed as follows 1 Turn the power on 2 f you already have ECDIS installed then you have to shut down the ECDIS program before you install network connections To shut down the ECDIS program use the ECAWATCH window to do it This window can be shown by pressing the Tab key on the service keyboard several times while pressing down the Alt key ECAWATCH ANTS ECDIS PROCESS STARTER This window control execution af various ECDIS software components To move this window in background click chart area with SELECT pushbutton INS PROCESS Restart Stop HUMAN INTERFACE Restart Stop DRAWING Restart stop ARCS DRAWING Restart Stop VOYAGE RECORDER Restart stop CONNING DISPLAY Restart Stop ACCESS SERVER Restart Stop Shutdown the ECDIS 3 Click the Shutdown the ECDIS button 4 Press the Windows key and choose Start Programs Accessories and Windows Explorer in order 5 Choose Map Network Drive from the Tools menu Sy Documents File Edt Favontes Tools Help Ea x Attribu Folders Ru My Music File Folder 9 5 2003 10 12 R my Pictures File Falder 9 5 2003 10 12 AM R Documents 5 desktop ini 1KB Configuration Settings 9 5 2003 10 12 AM HSA My Music My Pictures J My Computer My Network Places Recycle Bin 3 70 3 ADJUSTMENTS 6 Select drive for the hard disk of the other ECDIS computer Br
86. ays be displayed To prevent this fields obscured by other popular operational dialogs set dialog box to open next to left of sidebar See 3 3 3 Activating dialog boxes on the display in Operator s Manual Mounting procedure Flush mounting Follow the procedure below to mount the monitor unit in a console panel 1 Make cutout in mounting location referring to the outline drawing shown on the next page 2 Insert the monitor unit to the hole and fix it by four self tapping screws 6x30 3 Attach panel hooks near the fixing holes These are used to pull out the monitor unit from a console panel for servicing 4 Attach four panel covers to the fixing holes 1 1 1 MOUNTING 506 1 4 FIXING HOLES FIXING HOLES Monitor unit MU 201CE 570 4 09 FIXING HOLES 4 FIXING HOLES Monitor unit MU 231CE Flush mounting of monitor unit Panel hook Fixing screw Attaching panel hook and panel cover Note If you need to remove the monitor unit from the panel remove the four panel covers with your fingernail and use two panel hooks supplied as accessories to lift the monitor unit 1 2 1 MOUNTING Desktop mounting Use the optional accessories to mount the monitor unit on a desktop e Necessary parts For MU 201CE FP03 09820 Code No 008 535 560 For MU 231CE 09830 Code No 008 536 020 Contents of FP03 09820 09830 For MU 201CE For MU 231CE 1 A
87. bove are mandatory for FURUNO FAP 2000 EMRI SEM200 Trackpilot The following parameters can be used to tailor the system to the vessel Minimum turn radius ASPO EMRI No device limitations IEC 62065 Not required Arrowheads lt gt Steering Style Traditional Trackpilot SW type Uses Turn Linear bit IEC 62065 Trackpilot From Conning position to XTE calculation position Bow Stern Ei WPT WOP gt Turn Endline in Route Steering I e o IEC 61162 1 Transmit checksum Used b char not included IEC 61162 1 amp EMRI 59 Checksum Manual Steering Label HAND 1067 65 12 Forwarding Distance Range Auxiliary Steering Mode Info Not Used Turn Endline in route steering From Conning position to XTE calculation position Minimum route speed Manual Steering Label Forwarding Distance Range Route Check Available when Connected is 5 IEC 62065 Not required Route Monitor is available without Route Check DNV Required by class note Route Check is necessary to use Route Monitor x x 3 ADJUSTMENTS 3 35 3 ADJUSTMENTS FURUNO FAP 2000 EMRI SEM200 Trackpilot FURUNO FAP 2000 Trackpilot is a separate unit It consists of electronic unitAEU511 and control panel s MIP If it is used with ECDIS some parameters must be as below For further details see
88. card Analog Radar Overlay Board 1 0 Port 3 93 3 ADJUSTMENTS 18 Set LAN Adapter ECDIS Setup ramete rs and press the LAN Adapter parameters Next button Set IP addresses and check if this ECDIS is sensor source for LAN Adapter Sensor source both initializes and sends output ta device amp Example of first ECDIS m default settings with two LAN Adapters ECDIS IP for Adapters LAN Adapter IP ID This ECDIS is Install 1 Sensor Source for 1 Sensor Source for 2 Install 3 Sensor Source for 3 Install 4 Sensor Source for 4 Incta held ECDIS ChariRadar Setup Fi LAM Adapter parameters ple of second ECD S Set IF addresses and check if this ECDIS is sensor source for LAN 1 Adapter Sensor source both initializes and sends output to device default settings with one LAN Adapter DeautFoerSecondECDIS Interface adresses 10 0 0 181 ECDIS IP for LAN Adapters Adapter IP This ECDIS is 10 0 0 192 Install Sensor Source for 1 10 0 0 133 Sensor Source far 2 For Future Use instala Sensor Source for 3 For Future Use T dnstall 4 Sensor Source far 4 x Back A P 1 Cancel TANE meli 3 94 3 ADJUSTMENTS 19 Select files to be deleted ECDIS ChartRadar Setup x from ECDIS and press the System Cleanup Next button Setup has found old files from pour system It is recommended to delete them Selec
89. ct ted A Adapter Chl Cancel Gear Box Talker Identifier HE typical XX dont care Trackpilot 4 Device Interface Mapo f Figure above shows an example where ECDIS Gyro 1 is received from Common Distribution Unit and ECDIS Gyro 2 is received from trackpilot 3 13 3 ADJUSTMENTS Gyro interface only for DNV NAUT AW rule Gyro2 Gyro 1 First priority NJ Gyro Gyro selector Repeater Edit parameters Gyro 1 Common T 1 4 Connected Ok Distribution Unit for Gyro RADAR Gear Box Selected gyro Gyro 1 or Gyro 2 Talker Identifier HE typical XX don t care Device Interface 61 162 1 1 Connected A Adapter Chl Gear Box Gyro 2 2 Talker Identifier HE typical XX don t care or nE Device Interface Stepper Synchro uses B Adapter Stepper Synchro SELECT SENSORS Gyro 2 Select Trackpilot Gyro 2 through Trackpilot um ted onnected N A Adapter Chl Gear Talker Identifier HE typical Ax don t care Device Interface Trackpilot double gyro Gyro1 amp 2 Rate gyro Figure above shows an example where ECDIS Gyro 1 is received directly from Gyro 1 and ECDIS Gyro 2 is received through Track Pilot Notes For receiving Gyro 2 through Trackpilot Software of AEU511 for the Trackpilot must be SEM200 Version Aeu2 3 Compiled 13 0
90. ctivated when the power is turned off and on again Sensor Channel Usage This shows how the serial channels of A BE siochannel x adapters are configured and which analog Chl 4 Chl 9 sensors are connected to the system ch TTE through the B adapter Notation x nnnn gt Chl 3 TRACKPILOT Chl 11 JAMYWSS right is an example of x GYRO2 is used GYRO Chl 4 Chl 12 to show that some sensor data is collected from the data flow of the main sensor Chl 5 AS Chl 13 Chl 8 DUAL AXIS LOG Chl 16 x LOG B Adapter What happens after pressing Activate changes now After pressing Activate changes now you may get one of the following alarms 700 V 05 xx 4000 No Sensor parameters The Sensor Parameters are corrupted Use backup of Parameters 600 V 05 xx 3000 Param change disabled The ECDIS cannot accept change of parameters if Kalman Filter is ON ECDIS is currently used for steering Use manual autopilot steering and turn Kalman Filter OFF when you change parameters 459 V 05 xx 2459 Steering parameter error There are incorrect values in the Track pilot installation parameters Check values of the Track pilot parameters 3 ADJUSTMENTS Definition of Workstation Below is a generic description of how to operate the Workstation parameter page 1 Installation parameters 2 Workstation names Sensor Parameters Edit Workstation names PORT ECDIS EC1000C 0001 Sensor source
91. d 4 p 15001 r 15000 f 1 nz8 m 0 0 10 0 0 181 3 Confirm that the program version is same with it for the EC 1000C 4 Set the parameter depending on the relation with the EC 1000C sercotr d 2 p 15001 r 15000 f 1 No 1 ECDIS Default n 8 0 0 10 0 0 180 Default sercotr d 3 p 15001 r 15000 f 9 n 8 No 1 ECDIS m 0 e0 10 0 0 180 sercotr d 4 p 15001 r 15000 f 1 No 2 ECDIS n 8 m 0 0 10 0 0 181 sercotr d 5 p 15001 r 15000 f 9 No 2 ECDIS n 8 m 0 0 10 0 0 181 3 99 3 ADJUSTMENTS This page is intentionally left blank 3 100 4 INPUT OUTPUT SIGNALS Introduction The main method for transferring data between a sensor and the ECDIS is IEC 61162 1 Ed 1 or IEC 61162 1 Ed 2 Standard serial communication link In the standard configuration the system has one serial communication channel interface LAN adapter tyoe EC 1010 to communicate with up to eight external devices in serial format As an option second LAN adapter can be connected for max 16 serial channels in total Optionally the ECDIS can be interface to analog signals through a B adapter type EC 1020 For communication with ECDIS this analog adapter use one serial channel from the LAN adapter Standard interfaces Gyro compass e One serial input type of gyro compass 61162 1 Ed 1 Ed 2 message XXHDT min 1 message per second With radar overlay the recommendation is 5 messages per
92. d ZXR X 403101 1 z 2014 010110 390818 lt lt tT 28 ix I SOALL Z NZXIOIAG Ec 210110 Ji I 2 VdMV TAG WS 137918 6 11 lt lt DSN _ ON IK L ain 00510 C gt ONAS A NXY 9 9 NX a oe V wa 1 Lu 7 ve oe Roa 23 5 eri 12222 we 8 e iC LIS 21121 019 i E gt ds lt we NS 019 010 S01 ON9 NXL I lt z 23121521 a 1 1 1 1 ES EN ecu OND I lt 84 8 gt i 089 aw 978 ES 8 285 0814 gt L gt OND ON 86 5 _2 ND lt 9 lt 9 gt OND m NL et rz 289 ON KK S lt i i DION NXY amp g d 4 ON I lt 7 lt DPN APO ON Ks lt H A 22 x r 5 WSL BKK gt e yogda eu ON KK p 6147 2 3 E um 03QIA DK ZK 2103QIA 9 Sent 5 amp JEE e 03013610 21009 m 5 Pade LI 5 2 g N q Se gu KL RM 5 EI Nie x LINVI 5 ic zb C co 5 eel ca HE C LLI a 2 ae ux D E R 58 oz S T co Ed mu 7 ea z3 8 2 3 23 59 c e ui eg e o_o TN 1 5 5 zl e a V 1 5 e SS SON Hh om fe me D E
93. de Noma IEC 61162 1 Transmit checksum Checksum char not included IEC 61162 1 amp EMRI p Settings when speedpilot 5 Edit parameters Speedpilot connected Connected YES Adapter Chl Device Interface Speedpllot EMRI Normal Device mode IEC 61162 1 Transmit checksum Not used Checksum char not included 61162 1 amp EMRI p Alarm Inputs External Edit parameters Alarm Inputs External This function is not available for version Ch Conn Bi dir Retry ack Alarm source name Ch Conn Bi dir Retry ack Alarm source name 05 xx You can define which sensors report ES EXT9 alarms to ECDIS EXT10 Check Conn for sensor reporting to se 2 ECDIS FM ROUTE Check Bi dir option if acknowledge POS2 EGO GYRO1 WIND message will be sent to alarm transmitting sensor Check Retry ack option if acknowledge message to alarm transmitting sensor fails to respond retry three times In this example Position equipment 1 connected to channel 2 of LAN Adapter can report alarm in Position equipment 1 AIS in channel 5 of LAN Adapter reports alarm in AIS and they be also acknowledged in ECDIS or Central Alarm System Central Alarm Output You can define channel for Central Alarm System to where report sensor alarms Bi directional as YES in case that if alarms can be acknowledged from Central Alarm System Propagate RX alarms used to d
94. der limit for Heading Control Program Track and Goto Track mode Ships length m Max speed of vessel kt Backup speed source if ECDIS fails If no backup is available then set this as 3 Serial channel for backup speed source If no backup is available then set this as O 3 ADJUSTMENTS e GyroNmeaCh Serial channel for gyro e PminRadius XX Minimum available radius Must be equal to ECDIS parameter For proper track control software of AEU511 must be SEM200 Version 2 3 Compiled 6 5 2003 15 37 and MPI31 must be MIP2 Version Mip2 Compiled 7 5 2003 14 55 Notes Emergency instructions for cases when software of AEU511 or MIP31 is older version e Parameter ctsdef requires careful special attention e When software of AEU511 is older than SEM200 Version Aeu2 3 Compiled 13 2 2002 e 54610 cts hsc when leaving remote continue turn e When software of AEU511 is newer or equal to SEM200 Version Aeu2 3 Compiled 13 2 2002 e ctsdef2 turn linear bit control behaviour For turn cts hsc when leaving remote continue turn For linear cts hdg when leaving remote steady as she goes Note also that if software of AEU511 electronic unit is newer or equal to SEM200 Version Aeu2 3 Compiled 13 2 2002 then software of MIP panel must be newer or equal to MIP2 Version Mip2 Compiled 7 3 2002 13 33 3 37 3 ADJUSTMENTS Yokogawa PT 500A Autopilot Below are settings for the Yokogawa PT 500A A
95. e Control Label STBD B Adapter channel Minimum 100 0 unit Maximum 100 0 unit 30000 la Edit parameters Propeller 1 stern General Connected Device Type Engine Control Label B Adapter channel Minimum 100 0 unit Maximum 100 0 unit 30000 la Ship has two pitch propellers and the second propeller is connected as Propeller2 stern using Engine Control Ship has azimuth propulsion Maximum RPM 800 and Minimum RPM 0 creates bar scale from 0 to 800 Label PORT is used as label for azimuth propulsion Ship has azimuth propulsion Maximum RPM 800 and Minimum RPM 0 creates bar scale from 0 to 800 Label STBD is used as label for azimuth propulsion Ship has azimuth propulsion Maximum RPM 350 and Minimum RPM 350 creates bar scale 350 0 350 Label SWNG is used as label for azimuth propulsion Edit parameters Propellers 2 stern General Connected Device Type Engine Control 2 Label In use B Adapter channel Output at 0 Output per Volt Prefiltering Minimum Maximum Edit parameters Propellers 2 stern General Connected Device Type Analog uses B Adapter Label PORT In use B Adapter channel Output at 0 Output per Volt Prefiltering Minimum Maximum Edit parameters Propellers 2 stern General Connected Device Type Engine Control gt Label STBD In use B Adapter channel Output at 0 Output per Volt Prefiltering Minimum
96. e Environment x IMPORTANT Please insert the eToken now and press OK to continue 9 Confirm re initialization 3 84 3 ADJUSTMENTS vou want to reinitialise 10 Press the Yes button 11 You have to remove licenses stored on ECDIS e TInstall um 12 Press the Yes button Note Press the No button to escape from the installation of C MAP 93 3 to start Welcome to the Product Catalogue Setup Wizard EA 13 Press the Next button to start the Product Catalogue Setup Wizard 3 85 3 ADJUSTMENTS 14 Make selections as below Select Installation Folder EA 15 Press the Next button to start installation Confirm Installation 3 86 3 ADJUSTMENTS 16 Press the Next button Installation starts This may take a while s 17 When installation is completed the following window appears Installation Complete 3 87 3 ADJUSTMENTS 18 Press the Close button If the following window appears you have not removed all licenses stored on ECDIS see step 17 You have to remove eToken from USB port and restart ECDIS computer and then start Installation of Product Catalogue in step 14 C Map V3 installation eToken is invalid have installed C Map with this taken you can try to make itwork again as follows Remove C Map eToken and put it back I this does nat help try restart 19 Then following window appears C Map v2 Installation x Installed with Furun
97. e a new one The share name will be visible to other network UZETE Do not share this printer Share name 13 These fields can be left blank Press the Next button Add Printer Wizard Location and Comment You have the option of supplying location and description of this printer Q fou can describe the location and capabilities of this printer This information may be helpful to users Location 14 To print test pages after installation select Yes and press the Next button Add Printer Wizard Print Test Page To confirm that the printer installed properly you can print a test page Do You want to print a test page reg No 3 79 3 ADJUSTMENTS 15 When installation is ready completed the following window appears Add Printer Wizard 16 Press the Finish button Installation of shared printer Completing the Add Printer Wizard fou have successfully completed the Add Printer Wizard fou specified the following printer settings Proprinter Share name Part uspgnat Proprinter Default Yes Tes page Yes Location Comment To close this wizard click Finish If you want to print from a workstation other than the one to which the printer is directly connected you have to install Printer software to the workstation in following way 1 Select first Settings from Start me
98. e cover 170 0 5 mm 42 4 45 Fixing hole gt 36 4 2 lo 5 8 N N 9 S A 206 50 150 LAN adap ler 1 MOUNTING B adapter 1 Unfasten a pan head screw to remove the cover from the B adapter 2 Remove six pan head screws to remove the ADAPTER B Board 220615 3 Fasten three self tapping screws M3 to fix the LAN adapter to the mounting location 4 Reattach the cover 170 0 5 4 25 Fixing hole 36 4 7 ONE yV 150 50 50 B adapter 2 WIRING 2 1 Wiring Two units for CONNING Type Monitor Unit MU 201CE FEA 2107 MU 190 FEA 2107 D MU 231CE FEA 2807 MU 231 FEA 2807 D LI HHHHHH 5 m 10m DSUB9P DSUB9P cable 5 10 MOD Z072 020 cable 2 m FAR 2107 2807 series ey Processor Unit EC 1000C Max 2 units Other Radar NH8P DSUB15BNC2 cable MOD Z072 020 cable 2 m 100 230 VAC DVI D DSINGLELINK cable or RGB HD15 mn LAN Adapter 110 2 2 TTYCS 4 RADARS 2 units TTYCS 1 POSITION FIXING TTYCS 4 TRACK PI
99. e the empty screen by pressing Alt and F4 keys of the service keyboard together 3 Close Control Head program Use Alt Tab keys to activate Control Head fi program on display Use X in upper right corner to close Control Head 4 Insert the CD ROM for installation to the processor unit and then select Run from the Start menu Type the name as shown tinstallrset exel here to run ECDIS software tinstallisetup exe installation Cancel Browse Run Type the name of program folder document or Internet resource and Windows will open it For you Ati 3 89 3 ADJUSTMENTS 5 A System Inform ation System Information WIN d ars ress Yes 2 Following is some information related to your system b utto n to CO n ti n th Operating System Windows XP 5 1 Senicepack 2 Windows Classic Desktop Yes 1 1 Sereen Size 1280 x 1024 pixels Colors 256 instal lation Acceletation level 3 Physical Memory 1039856 Kbytes 1015 Mbytes Mouse Microsoft or IBM 8 2 Network LAN Support CD ROM Lettet is D Computer 1000 0926 Userinit CAWINDOWS system32 userinit exe C ants_system bin Hide Show Tool Tips No Reboot on BSOD Enabled Yes Show Info Tips Disabled Yes Show Balloon Tips Disabled Yes Computer always ON Yes Drag Full Windows Yes Autotun CD ROM Disabled Yes Debugger Auto Start Disabled Yes Ta
100. e with IEC 61162 1 Ed 1 standard messages XXOSD and XXTTM for input and messages IIGLL IIOSD for output proprietary messages for user charts routes curved ebl etc for serial interface and LAN AIS transponder equipment e One serial input interface IEC 61993 2 Ed 1 message XXVDM message types 1 2 3 and 5 min 1 message per 10 seconds e Notes e Max 1500 simultaneous AIS targets can stored for display purposes e Max 200 simultaneous AIS targets out of 1500 stored can be displayed Trackpilot e Serial data interface based on NMEA V1 5 messages for EMRI SEM 200 or FURUNO FAP 2000 Trackpilot IEC 62065 category B and C for TCS e Or serial data interface based on NMEA messages for YOKOGAWA autopilot NOTE IEC 62065 type approval of category B for TCS e Or serial data interface based on NMEA messages for TOKYO KEIKI autopilot NOTE IEC 62065 type approval category C for TCS 4 2 4 INPUT OUTPUT SIGNALS External interfaces Echo Sounder e One serial type echo sounder IEC 61162 1 Ed 1 Ed 2 message XXDBT min 1 message per 5 seconds Wind measuring device e One serial type wind sensor IEC 61162 1 Ed 1 or Ed 2 message XXMWV min 1 message per 10 seconds Water temperature measuring device e One serial input type wind sensor IEC 61162 1 Ed 1 or Ed 2 message XXMTW min 1 message per 10 seconds Positioning equipment e One additional positioning equipment Gyro compass
101. efault use 7 Program version 05 xx 4800 second LAN adapter Channel Type bit s Default use 9 rxtx 4800 0 0 0 38400 Program version 05 4800 Note For Relay 2 to 6 Polarities are depending on Relay outputs settings Normal open or Normal Close of Alarm Inputs Outputs AMWSS Not available for program version 05 2 12 2 WIRING 2 4 B Adapter EC 1000C EC 1000C R only 2 4 1 Cables fabrication for the cables connected to the B adapter Use the following JIS Japanese Industrial Standards cables or equivalent When using the TTYCS 4 cable connect the appropriate cable to it to pass the cable entrance of the adapter Conductor S 1 mm lt 1 29 mm TTYCS 1 Twisted pair cable Armor Shield L Depends equipment Ds 1 connected Measure at the processor unit After exposing cores wind shield around the armor RN INM NININA Clamp here by cable clamp 2 WIRING dddd IS 049 wu d 00 901 SL X CIS MV 0 035019 MRVW 1003 ANY IOY LON 8O1W4dd0 Ndd0 SS3NIIH YOLVYAdO AdV1V ON Q3SO O AHV1V HOSN3S NOIIVDIAVN AdV1V ON Q3SO IO AdV1V HOLIVOIAVN MV ON 03S019 LNT 0138 Hid3d MV 035012 INIOdAVM MAYIW ON qHS00 SHAFT TANNYHO 3015100 LNdLNO d4sSO19 LNO MOV dN dHS010 4015 437704 g dldVdW 1fidN
102. efine if alarm from YES alarms transmitting sensor are sent further to Central Propagate RX alarms Alarm System Bei Wee 3 62 3 ADJUSTMENTS Sensors which are not connected In installation parameters there are several sensors in a list which are not used with ECDIS and their status should be Connected NO The list of sensors which are not connected Electronic Chart VDR Position Equipment Heel and Trim Steering Info 3 63 3 ADJUSTMENTS Storing default parameters After installing the equipment store the default parameters of the ECDIS as follows 1 Connect service for PC keyboard 2 Press Windows key 3 Click Start Programs Accessories and Windows Explore in order 4 Choose My Computer Local Disk C ANTS SYSTEM and params in order to open the params folder 2 1 Exploring C ANTS_S YSTEM params File Edit View Tools Help spams 5 m 3 Desktop A My Computer Folder 5 20 02 5 58 PM B 3 Floppy 2 48 sensor prm BEB File 5 20 03 12 51 PM 8 station JKB File 2219703 2 23 PM 48 ship PRM File 11 27 02 7 05 AM NN AMTS SYSTEM H arcs system H __ bin _ params ke default __ past tracks aE Sten 7 18KB Disk free space 34 008 5 Click sensor prm ship prm and wstation prm while pressing the Shift key 6 Choose Copy from the Edit menu 7 Open default folder and choose Paste from Edit men
103. el to choose Initial Settings and then push the wheel Locate the cursor on the gt next to INITIAL SETTINGS to show Initial settings menu Roll the wheel to choose Installation parameters and push the wheel e sm e Installation parameters x installation parameters Sensor Parameters Sensor Parameters Set parameter defaults Sensor Channel usage Set parameter defaults Sensor Channel usage Workstation parameters Workstation parameters Set Single Workstation Mode Workstations Set Single Workstation Mode Workstations Close installation parameters Activate changes now Restart needed to activate Program version 05 xx Program version 06 xx There are several buttons in this dialog box and they are described below Set parameters defaults This restores Installation parameters which are saved as a backup copy by service personnel Use this function if you are not sure about Installation parameters values Sensor channel usage The CH and sensors are shown Set Single Workstation Mode This button is used to set Workstation to operate as a single workstation Workstations This button is used to define names source of sensors and location of Access Server of Workstations if two workstations are installed 3 3 3 ADJUSTMENTS Activate changes now The changed settings are activated immediately When canceling the activation click the X at the top of the screen Restart needed to activate The changed settings are a
104. enna Note that Radar display number is defined in Radar Display settings in the field at right LAN Radar See figure below 3 20 Edit parameters Radar Echo Overlay Communication LAN Radar transceiver Connected O Device interface IMO Radar Label MASTS From Radar antenna 2 m Stbd Port to Conning position 20 m Bow Stern IP address 172 31 3 6 Port numbers 10024 for Radar echo output 10028 for Radar communication Radar display number Edit parameters Radar Echo Overlay Communication LAN Radar transceiver Connected YES gt IMO Radar gt Label MASTS Device interface From Radar antenna m Stbd Port to Conning position 20 m Bow Stern IP address 172 31 3 6 Port numbers 10024 for Radar echo output 10028 for Radar communication Radar display number Edit parameters Radar Display Display 1 Connected YES Radar Displays Radar Display Adapter Channel Device Interface Rx Talker Identifier RA LAN Radar IP address Cancel 3 ADJUSTMENTS Radar transceiver 2 15 Connected as Yes Edit parameters Radar Echo Overlay Communication LAN Device Interface defines Radar transceiver source of RADAR target Connected YES gt IMO RADAR or Chart Device interface Radar Label MASTS Label defines name for From Radar antenna source of video to Conning position 55 io In From Antenna to Conning 172 31 3 7 position defi
105. ential position receivers IEC 61162 1 ed2 GLL uses messages VTG and GLL Recommended for both differential and non differential position receivers e COG delay is the delay between own ship turning and course made good in the VTG message to detect turning Typically values are from 0 to 15 seconds e Because no message has any datum indication the user is responsible for reference system used in the position receiver GGA message is supposed to always be in WGS 84 but unfortunately some manufacturers do not follow this standard Only one of connected sensors is allowed to send ZDA message which will be used to adjust the system clock If time difference is larger than 5 seconds and if the system is not a part of steering i e mode is not Goto Wp Goto Track or Program Track Turn and if the system has Kalman filter in OFF position Offset from antenna position to Conning position is essential for speed course drift and predictor related calculation Roll amp pitch data may be enabled only with PAT First two channels can also operate as general purpose outputs Checksum related parameters are for outputs only Sent messages are GLL VTG and HDT There are two alternatives for IEC 61162 1 based interface ed1 and ed2 Ed1 was published in September 1998 and Ed2 was published in July 2000 The differences are new datum message DTM and changed content of GLL position message e Ed2 requires that position information in this ca
106. ess Network Connections Fr Name pe Stems Device Name LAN or High Speed Internet 0 lla Local Area Connection 2 LAN or High Speed Internet Connected Intel A PRO 100 M Network Connection V Local Area Connection LAN or High Speed Intemet Network cable unplugged Intel R PROZ100 VE Network Connection 4 Local Area Connection 2 Properties Internet Protocol TCP IP Properties 2 General Authentication Advanced General Connect using You can get settings assigned automatically if your network supports this capability Otherwise you need to ask your network administrator for BS Intel R PRHO 100 M Network Conne Configure the appropriate IP settings This connection uses the following items C Obtain an IP address automatically E Client tor Microsoft Networks Use the following IP address File and Printer Sharing for Microsoft Networks i0 180 v QoS Packet Scheduler 4 Intemet Protocol Subnet mask 255 255 0 Default gateway retell rr IETHEs Description C DNS server addes automatically wide area network protocol that provides communication acrass diverse interconnected networks Preferred ONS server Alternate DNS server Advanced Transmission Control Protacol Intemet Protocol The default Use the fallowing DNS server addre
107. gged an as pete If the password invalid then the automatic login will Fail after next reboot logoff Passwnrd InstallShield lt Back Cancel ECDIS Setup 10 Select destination location Choose Destination Location w Select folder where Setup will install files for ECDIS and press the Next button Setup will install ECDIS in the following folder Ta install ta this folder click To install ta different folder click Browse and select another Folder Destination Folder 5 SYSTEM Browse InstallShield Cancel 3 91 3 ADJUSTMENTS 11 Select Components to be installed and press the Next button Note Check Analog Radar Overlay when the processor unit contains the optional Analog Radar Overlay board 12 Check selection box if C Map ed 3 is used 13 Enter HASP PIN Number 2371 and press the Next button 3 92 ECDIS ChartRadar Setup Select Components CHER Choose the components Setup will install Select the components you want ta install clear the components you da not to install Description ARCS raster charts display component 557 Sencs Central Head amp nalag Radar Overlay Digable WindowssP Task Scheduler Space Required on E Space Available on 25188708 lt Back ECDIS Setup C Map ed3 Settings Select bo
108. ght Factor dRMS m 4dRMS m 1000 4000 char included in transmit checksum Included 04 100 400 Cancel Edit parameters Positioning Equipment 5 Connected YES d Adapter Chl 12 Device Interface 61162 1 ed1 gt Identification GLL VTG p x Sen Talker Identifier LC don t care XX Speed Talker ID LC XX dont care WGS 84 Device Datum Roll and Pitch Receive IEC 61162 1 Transmit checksum 0 01 1000 05 200 80 007 143 571 0 2 50 200 04 25 100 0 6 17 67 0 8 12 50 Device Name LORAN C Weight Factor Cmg Delay S Offsets from Antenna position to Conning position 0 m Stbd Port m Bow Stern Disabled gt Weight Factor dRMS m 4dRMS m 4000 char included in transmit checksum Included cu A 4 Cancel 0 2 50 200 04 23 100 0 6 17 67 0 8 12 50 3 ADJUSTMENTS Notes e Talker identifier can be separately defined for speed and course VTG message and for position GLL GGA or PAT message If talker identifier is defined as XX then it is ignored IEC 61162 1 ed1 or ed2 GGA uses messages VTG and GGA Recommended for DGPS Correct operation of a DGPS sensor requires that the system also receives VTG COG SOG message If no VTG message is received the system thinks that there is something wrong in the DGPS and it downgrades the DGPS to an ordinary GPS sensor IEC 61162 1 ed1 GLL uses messages VTG and GLL Recommended for non differ
109. h rudder Output per vot 0 01 Polarity 070 Polarity required two analog Prefiltering channels are required Label ACT to receive both SIN and pispiaymethod Azimuth O up Azimuth O up COS values 3 46 Two rudders are connected and values are received as IEC 61162 1 xxRSA formatl Edit parameters Rudders Connected YES gt IEC 61162 1 PRSA Device Type Number of Rudders Navigation Display Scale Max Harbour Display Scale Max Rudder type Numerical value Rudder 1 PORT STBD RSA single value RSA single value Adapter Channel Talker Identifier Scaling factor Label 3 ADJUSTMENTS OK Cancel Use scaling factor to generate real Rudder angle from the proportional value in message Normal 3 47 3 ADJUSTMENTS Propellers Select Connected NO if Edit parameters Propellers 1 stern General propeller is not connected to Connected the ECDIS a In use B Adapter channel Output at 0 B jtput per Volt Prefiltering Minimum Maximum Ship has one fixed propeller Edit parameters Propellers 1 stern General connected as Propeller 1 Connected Device Type stern Label In use B Adapter channel Output at 0 p Jtput per Volt Prefiltering Minimum Maximum Ship has one pitch propeller Edit parameters Propellers 1 stern General connected as Propeller Connected Device Type stern In use B Adapter channel Output
110. ine Start Pressure connected to the ECDIS using Engine Control Connected ES Device Type Engine Contral B Adapter Channel 1 Output at 0 kg cm2 0 07 V Output per Volt Prefiltering Alarm kgicm2 Maximum Value kafem 3 54 3 ADJUSTMENTS Fuel consumption Select Connected NO if Fuel Edit parameters Fuel Consumption x Consumption is not connected to the ECDIS Connected Device Type Analog uses B Adapter Temperature In Use B Adapter Channel Output at 0 Position Output per Volt Prefiltering Minimum Maximum Units Used YES gt Fuel consumption connected to the ECDIS Edit parameters Fuel Consumption x Connected Device Type Analog uses B Adapter Temperature In Use B Adapter Channel Output at 0 Position Output per Volt Prefiltering Minimum Maximum Units Used YES gt E consumption connected to Edit parameters Fuel Consumption x the ECDIS using Engine Control Connected Device Type Temperature In Use B Adapter Channel Output at O Position Output per Volt Prefiltering Minimum Maximum Units Used YES Cancel 3 55 3 ADJUSTMENTS Alarm inputs Outputs AMWSS Settings for closed contact external alarm inputs required in the past to fulfil OMBO class notation of RINA If this feature is activated it generates alarms 4201 4208 Ext na
111. ition offset for Radar transceiver as defined in Radar Overlay params 3 24 Edit parameters Radar Displays Radar Displays Radar Display Display 1 p Adapter Channel Device Interface FURUNO FAR 2x07 serial Rx Talker Identifier If radar id is received then use antenna to conning position offset for Radar transceiver 1 as defined in Radar Overlay params 3 ADJUSTMENTS Example 2 Generic ARPA radar using only IMO standard message Example 3 FAR 28x ARPA radar connected with serial line 3 25 3 ADJUSTMENTS Example 4 Parameters for one FAR 2xx7 radar and one FCR 28x Chart Radar connected with LAN Cable First Radar display FAR 2xx Edit parameters Radar Displays Radar Displays Radar Display Connected Adapter Channel Device Interface Rx Talker Identifier LAN Radar IP address Display 1 p HERI FURUNO FAR 2x07 LAN A You can define to which LAN radar it is connected at the LAN Radar field Note that the settings above together with the settings below must be done for LAN Radar settings Edit parameters Radar Echo Overlay Communication LAN Radar transceiver Connected Device Interface Label From Radar antenna to Conning position IP address Port numbers Chart Radar MASTS 2 m Stbd Port 20 m Bow Stern 112373 10024 for Radar echo output 10028 for Radar communication Radar display number 2 Note 1
112. liv8 OOA vC 20 SIXV WAC LE OSA 50 SIV Vduv LOlld NOVEL 50 SSJNIIJ MOIVM3dO SIQO3 YOLVOIAVN dNAOYE 21 01 28 17 JYNIVYEAdDWNSL 1 H313A ANIM JJNT1OS OHO4 0601 93 2 1506 SSMAV 1041 02 4104 HOVOadddV dM LAIT HO 4015100 MOT38 Hld4d VAC ere d4lavdv d 2dA Z Sjndjino snjo s 0 saoaid 8 BojpuD jo seoeid 8 AN d00Z 901 dd 1S OdHONAS Processor unit 2 5 2 W oa 56 1 2 CO EN ae 3 f AD 2 O R 9 ini i 4 C C Man iue 1 DLH oS Ru rt NTO 200 524 4 3 9 2 ly S 6 U i iA 2 GA or n open 5 10 n 9 D 5 E 11 bs E eu VoA1 BL A E 15 eve 12 Le 16 13 14 LAN 16 RA RADA ADAR TAG ie T G IN GER IN O n E ation io n P ro C e S S r nit r Vi ie Ww 2 WIRING 2 3 LAN Adapter 2 3 1 Cables fabrication for the cables connected to the LAN
113. n to Enter values for Weight dontcare Conning position 10 m Bow Stern Factor and Cmg Delay as follows Device Datum 94 Weight Factor 0 1 Roll and Pitch Receive gt Weight Factor dRMS m 448 Cmg Delay 0 ised 0 01 1000 4000 IEC 61162 1 Transmit checksum 0 05 200 800 char included in transmit checksum Not included p 200 100 50 Speed Talker ID GP An example of GPS receiver with ignored Edit parameters Positioning Equipment 2 TES Connected Device Name talker identifiers for both GLL and VTG messages Enter values for Weight Device Interface Weight Factor Factor and Cmg Delay as Identification GLL VTG Cmg Delay S Talker Identifier XX dontcare Offsets from m Stbd Port follows Antenna position to Weight Factor 0 1 Speed Talker ID lt XXedontcare Conning position gt m Stern Cmg Delay 0 Device Datum VOS 84 Roll and Pitch Receive PIS Weight Factor dRMS m 4dRMS m Deed 0 01 1000 4000 IEC 61162 1 Transmit checksum 0 05 200 800 char included in transmit checksum Included cu inia 0 2 50 200 04 25 100 iini 0 6 17 67 0 8 12 50 3 29 3 ADJUSTMENTS An example of setting for DGPS receiver which is able to send IEC 61162 1 Ed 2 messages Enter values for Weight Factor and Cmg Delay as follows Weight Factor 0 1 Cmg Delay 0 An example of
114. ndow Classic style in Window and buttons combo box th e C lass styl e i 3 Ds e Tab select Window Classic jn Color scheme Click Advanced button and Advanced Appearance dialog box opens Change Following items select each in turn in combo box a Active Tittle Bar b Menu c Message Box d Selected Items Inactive Tittle bar For each item select Arial Narrow in Font combo box and select 12 in Size combo box 8 When all done click OK button and Advanced Appearance dialog box disappears 9 In Display Properties dialog box click Apply button and then OK button You may continue and try to install PC version only Would you like to continue installation 7 Press the Next button ECDIS Setup Welcome to the InstallShield Wizard for ECDIS The Install hield Wizard will install ECDIS on your computer To continue click ded 3 90 3 ADJUSTMENTS 8 Select desired Setup Type ECDIS CharRadar Setup Setup Type Note This example is full ECDIS installation without tne Setup ou Conning Display HARTE meu EI EI QD RS ECDIS Full ECDIS installation Version ECDIS with Conning 1 Display 06 01 ECEIS With Conning 2 Displays PC ECDIS ECDIS Setup 9 Enter password ecdis for ecdis user and press the Next button Enter your current Windows password You are lo
115. nes offset Port numbers 10024 for Radar echo output ition of radar antenna 10028 for Radar communication DOSI Radar display number Note that Radar display number is defined in Radar Edit parameters Radar Display Radar Displays Display settings in the field Radar Display LAN Radar See figure at right Adapter Channel 1 gt l Device Interface FURUNO FAR 2x07 LAN 2 Rx Talker Identifier RA IP address 172 31 3 7 Radar Echo Overlay received both through Radar overlay card and through LAN It is possible that Radar Overlay video from one transceiver is received either through Radar Overlay card analog or through LAN You have to make configuration as introduced in previous sections Pay attention that you set Connected as NO for transceivers not connected either through Radar overlay card or through LAN Connection of ECDIS and Chart Radar Edit parameters Radar Echo Overlay Communication LAN Settings for INS 1 1 Radar transceiver gt The ECDIS sends the route information to the 2 ves Chart Radar in real time However the route Device interface information cannot be sent to Chart Radar when it stoops during the route monitor From Radar antenna m Stbd Port to Conning position i Bow S Radar transceiver Enter the radar No 1 to 4 I Device Interface Choose Chart Radar with INS Port numbers 10024 for Radar echo output 10028 for Radar communication
116. nu and then Printers and Faxes 2 Double Click Add Printer icon 3 Following window appears and then press the Next button Add Printer Wizard Welcome to the Add Printer Wizard This wizard helps you install a printer or make printer connections IF unu have a Plug and Play printer that connects through a USB port or any other hot pluggable port such as IEEE 1384 infrared and so an you da nat need to use this wizard Click Cancel ta close the wizard and then plug the printer s cable inta your computer point the printer toward your computer s infrared port and turn the printer Windows will automatically install the printer for To continue click lt Back 4 Select A network printer or a printer attached to another computer and then press the Next button 3 80 3 ADJUSTMENTS Add Printer Wizard Local or Network Printer The wizard needs to know which type of printer set up Select the option that describes the printer vau want to use Local printer attached to this computer automaticaly detect and install my Plug and Play printer network printer or a printer attached to another compute Tn set up a network printer that is not attached to a print server use the Local printer option 5 Select Connect to this printer or to browse for a printer select this option and click next Add Printer Wizard Specify a Printer If
117. o FURUNO GP 80 p Setting for Ropute Restore from Furuno GP 80 GPS Adapter Channel navigator IEC 61162 1 Transmit checksum Char Included in Checksum Wiring of ECDIS and EC 1010 GP 80 90 GP 80 90 CH1 3 4 9 11 to 13 DATA4 Settings for route backup to external equipment which can receive IEC 61162 1 message Edit parameters SaitCom External Computer Sindel Repeaters lt a Connected YES Device Interface Route backup IEC 61162 1 Adapter Channel IEC 61152 1 Transmit checksum Used Char Included in Checksum Included AIS Settings for AIS Transponder Edit parameters 5 transponder ETA display not available for version 05 xx Connected YES Type approved adjusted for time zone Displays the local Adapter Chl time changed from ETA reported at the ship Custom ignore time zone Device mode Display reported at the ship ic 61162 4 Transmit checksum Used as IS eee ee Normal IEC 61993 2 Checksum char not included IEC 61162 1 amp ETA display Type approved adjusted for time zone 3 60 3 ADJUSTMENTS Engine control Settings for receiving Fuel Consumption Propeller and Main Edit parameters Engine Control YES Engine Air Pressure data from Connected engine control system Adapter Channel manufactured by NORCONTROL Blasio IEC 61162 1 timeout 30 used mes
118. o eT 00002 Inimstall 20 Click X Chart drawing software restarts automatically 3 Reinstall of ECDIS software Important things to do before reinstall When you upgrade ECDIS system some information will be removed permanently from the hard disk Some of the information you may need later therefore if it is necessary make a paper copy of Voyage Log files and ship parameters ship prm Make also notes of manual reinstalls which you have to make manually again after reinstalling Loading of ECDIS software You can reinstall ECDIS software by using ECDIS installation CD ROM Connect the service keyboard and mouse then reinstall ECDIS software as follows 3 88 3 ADJUSTMENTS 1 You already have ECDIS ECAWATCH installed and you have to NR shut down ECDIS program before you can make new installation To shut down ECDIS program press the Shutdown the ECDIS button INS PROCESS Restart stop HUMAN INTERFACE Restart stop DRAWING Restart stop ARCS DRAWING Restart stop VOYAGE RECORDER Restart stop CONNING DISPLAY Restart stop ACCESS SERVER Restart Stop Shutdown the ECDIS 2 Then you will get an empty screen which prevents Service engineer If you want to close this window 1 Move cursor here and press SELECT button normal user from ente ri ng 2 Use service keyboard and press ALT and F4 keys together the operating system You 2 remains forever you can use Power Off On clos
119. o ee type Control w CP03 25604 09860 EE __ _ oos 1 ew20wC Accessory 09820 008 535 560 For MU 201CE hanger FP03 09830 008 836 020 1 ForMU 231CE hanger Hand Grip FP03 09840 008 535 570 1 000 ust Cover Coupling For RCU 018 and Pedestal OP03 184 008 535 650 MU 231CE Flush Mount Kit 09870 008 535 630 For RCU 015FEA Switching HUB 100 000 083 353 w operator s manual LAN cable CP03 28900 000 082 658 1 FR FTPC CY 10m CP03 28901 Installation LAN cable Materials CP03 28910 000 082 659 1 FR FTPC CY 20m CP03 28901 LAN cable CP03 28920 000 082 660 30m CP03 28901 3COX2P 6C 000000 2P 6C 000 146 501 146 501 ER external monitor ER 10m NH8P 10M 000 151 857 Cal RA c eee NH8P DSUB15BNC2 20M 000 151 858 ee 9 NH8P DSUB15BNC2 30M 000 151 859 XH8P NH8P L10M 000 151 855 XH8P NH8P L20M 000 151 933 Paes Cable assy XH8P NH8P L30M 000 151 934 DSUB9P DSUB9P L10 0M 000 150 676 1 Between Monitor Processor unit For Control unit ROVPCB 3010 24 777 000 150680 1 Board For 12 VDC CP0320501 29501 008 544 940 for EC 1000C R CR Radar Switch For 24 VDC CP03 29502 008 544 950 for EC 1000C R CR SYSTEM CONFIGURATIONS The ECDIS EC1000 Workstation displays electronic seachart and operates as user interface for the sys
120. onning Position m Stbd Port Total height from keel to mast If there is an optional B adapter set the equipment as such Edit parameters General x w Ship s Name Sensor Message interval B Adapter SIO Channel B Adapter connected 1 Trim Indicator Disconnected Docking Disp Spd Vector Max Value 4 0 Kt From Center Position to Bow Position 100 m Bow Ster Length 200 m Stern Position 100 m Bow Dual Axis Log Position 0 m Bow Stern Conning Position m Bow Stern c 3 Breadth m Side Position S e Sidewise Conning Position m Stbd Port Total height from keel to mast m Notes e Center position is geometrical center of the ship e Conning Position is the point of observation e Select Connected NO if optional B adapter is not used e Select Connected YES if optional B adapter is used 3 9 3 ADJUSTMENTS Radar Antenna Position Conning Position Breadth 30 m GPS Antenna Position Dual Axis Log Position x From Center Position to Bow Position 100 m From Center Position to Dual Axis Log Position 70 m 200 m Length Center Position From Center Position to Conning position 60 m From Center Position to Stern Position 100 m Side Position 15 m From Center Position to sidewise Conning position
121. our2 Navigate1 or Navigate2 Note Stand alone Conning Mode is used only with Conning Processor CP 01 and sidebar Conning Display You can make individual settings for each Conning Mode in the Settings field 2 Use Default Palette setting to define background of Conning Display This palette is used when you start Conning Mode in question 3 Define which windows are displayed in each Conning Mode in the Display field For more information about content of windows see the Operator s Manual Alarm messages windows are used only if Device Interface of Alarm Inputs is SCAALA e Track pilot extended window is used only if steering mode of Trackpilot is Program Track e Service nnnn windows are intended for use by a service engineer during sea trials 4 Select Traditional Double speed Small size or Small with Double speed 5 Select Traditional or Detailed Note The number of conning display can be changed only when installing the program For detail see Service Manual 3 43 3 ADJUSTMENTS Rudders Select Connected NO if no rudder is connected to the ECDIS One rudder is connected and value is received using analog interface 20 10 0 10 20 Two rudders are connected and one value is received using analog interface and second value is received from Trackpilot 3 44 Edit parameters Rudders Connected Device Type umber of Rudders avigation Display Scale Harbour Display Scale
122. owing items Obtain an IF address automatically O Client for Microsoft Networks Use the following IP address m File and Printer Sharing for Microsoft Networks v B 005 Packet Scheduler Internet Protocol TCP IP Subnet mask Default gateway Description Transmission Control Protacol Interet Protocol The default Use the folowing DNS server addresses wide area network protocol that provides communication across diverse interconnected networks Prefered DNS server Alternate DNS server Show icon in notification area when connected me when this connection has limited or no connectivity Advanced In Local Area Connection Properties highlight Internet Protocol TCP IP in general tab and then press the Properties button set IP Address as 172 31 3 29 for the first ECDIS or 172 31 3 30 for the second ECDIS Set Subnet mask as 255 255 0 0 Press the OK button to close the window 3 ADJUSTMENTS 3 1 2 Local Area Connection for LAN2 ECDIS LAN Network LAN2 interface is used to connect a LAN Adapter or HUB 100 to ECDIS EC1000C configure IP Address for this proceed as follows 1 2 3 Open Control Panel Double click Network icon Highlight Local Area Connection 2 and then select Properties in File menu N PT Connections File Edit Favorites Tools Advanced Help n e Search Folders Ly Addr
123. owse the other ECDIS computer from ECDIS work group 7 Select Ec1000C 0001 ANTS SYSTEM and press OK Map Network Drive x Windows can help you connect to a shared network Folder and assign a drive letter to the connection so that you can access the Folder using My Computer Specify the drive letter Far the connection and the Folder that you want to connect Eo Folder VEcto00c on01 anTs_si v Example server share Reconnect at logon Connect using a different user name Sign up Far online storage or connect Eo network server 7 Select Tools and Map Network Drive again 8 Select drive J for the CD ROM drive of the other ECDIS computer Browse the other ECDIS computer from ECDIS work group 9 Select EC1000C 0001XCD drive and press OK Note that EC1000C 0001 should be replaced with the name of the other computer Map Metwork Drive x Windows can help you connect to a shared network Folder and assign a drive letter to the connection sa that you can access the Folder using My Computer Specify Ehe drive letter For the connection and the Folder thak vou want to connect to Folder WEctO00c N001 CD Drive v Example Viserver share Reconnect at logon Connect using different user name Sign up For online storage or connect to a network server 3 71 3 ADJUSTMENTS 3 4 DIP Switches and Jumper Wires 3 4 1 LAN adapter EC 1010 FURUNO LAN Adapte
124. r TX L E Ds 046 047 048 045 H CH3 CH4 CH5 CH1 JUMPERS o 34 s a a CH4 CH5 Programming Normal operation Default Programming Normal operation Default GND INIT Programming INIT H INIT Normal operation Default 3 72 3 ADJUSTMENTS 3 4 2 Radar overlay EC 1000 C R S 1000C CR S only iix Video STC STC San Shape Length vv R87 R89 R12 R14 111111 R88 R53 Radar 3 Radar 2 Radar 1 SIC length STC shape Note When connecting to the FAR 2xx7 radar remove the jumper J13 for trigger 3 73 3 ADJUSTMENTS 1 2 Factory 2 3 1 2 Positive Video Polarity J7 2 3 2 3 Negative Video Polarity Factory default 1 2 T Positive Video Polarity Factory default 2 3 Negative Video Polarity 2 3 Negative HL Polarity Factory default 1 2 Trigger Ta Positive Edge Factory default gd J12 ON ideo 75Q terminator in use Factory default ideo 75 terminator in use Factory default on resero terminator in use Factory defaut To set card address use DIP switch SW1 according to the following table 3 74 3 ADJUSTMENTS 3 4 3 B adapter EC 1020 All settings of B adapter are for gyro compass EE TS13 IC 1
125. rameters Rudders Connected YES Device Number of Rudders Navigation Display Scale Harbour Display Scale Rudder type Conventional one scale Numerical value Cornered B Adapter Channel Output at 0 Output per Volt Prefiltering Label Display method Analog fuses B Adapter r Cancel sign of Output per Volt to change polarity of Rudder Label Rudder type Conventional scale umerical value Only ORD Cormered Edit parameters Rudders Connected YES E Device Type Trackpilot ss Cancel umber of Rudders avigation Display Scale 5 Harbour Display Scale 33 Rudder 1 Rudder 2 ACT ORD TRACKPILOT TRACKPILOT Not Used Not Used ACT Display method Normal Normal Normal Normal Note You can give name for rudder the Label field This is displayed in the Rudder window of the Conning Display One rudder is connected and value is received from Engine Control Edit parameters Rudders Connected Device Number of Rudders Navigation Display Scale Max Harbour Display Scale Rudder type Numerical value Rudder 1 ACT x YES r OK Engine Control Cancel 23 Use sign of Output E per Volt to change 33 polarit
126. ress the Install button The shape of dialog box is different depending on the software version 05 xx portrait and 06 landscape This section shows dialog boxes for ver 05 xx as examples C Map v3 Installation x Install C Map run time and eToken driver C Map v3 Installation x Install C Map runtime and eToken driver Install ver 05 xx ver 06 xx 4 The eTlInstall dialog box appears 3 83 3 ADJUSTMENTS eTinstall x have an eToken please insert it now and choose YES Ifyou do not have an eToken please choose 5 Insert eToken to USB port Found New Hardware Wizard Welcome to the Found New Hardware Wizard Windows will search for current and updated software by looking on your computer on the hardware installation CD or on the Windows Update Web site with your permission ead our privacy policy Can Windows connect to Windows Update to search for software Yes this time only Yes now and every time connect a device not this time Click Next to continue 6 Press Cancel button Then press the Yes button eTinstall x have an eToken please insert it now and choose YES Ifyou do not have an eToken please choose eToken Run Time Environment x IMPORTANT Please remove all from the computer and press to continue 8 Insert eToken into USB port and then press OK button eloken Run Tim
127. rs and antennas Fox example a normal set of one S band and one X band radar on a mast and Edit parameters Radar Echo Overlay Analog Connected ITI EN Radar tranciever T e Label Bearing pulses 560 pulses antenna rev From Radar antenna to Canning position Bearing offset o o 3 Range offset Rain clutter filter Gain m Stbd Port m Bow Sterm Sea clutter filter 5 v lo V v Edit parameters Radar Echo Overlay Analog Radar tranciever Label MAST X Bearing pulses pulses antenna rev From Radar antenna to Canning position Bearing offset Range offset Rain clutter filter Mn 5 lv 0 v then a third radar at the bow See examples above Each radar can have an antenna with different amount of pulses per revolution Also operational area of FTC Rain clutter STC Sea clutter and gain is separately defined for m Stbd m Bow Stern Sea clutter filter 0 v 5 x each radar Offsets defined here are also used indirectly by the radar display 3 18 3 ADJUSTMENTS Radar Echo Overlay LAN from FAR 2xx7 and FCR 2xx7 series radar through LAN The following settings are for Radar Echo Overlay LAN received from FAR 2xx7 and FCR 2xx series radar through LAN Set the radar connected Edit parameters Radar
128. s 2 20 2 8 Ethernet Cable Connection 2 21 2 9 EMI Core for Processor Unit 2 22 3 ADJUSTMENTS 3 1 3 1 How to Set IP Address for ECDIS 888 3 1 3 2 3 3 3 3 Adjustments for the Second LAN Adapter 1010 3 64 34 DIP Switches and Jumper VV INES EO v slit 3 71 3 5 Installation of Optional Furuno PP 510 3 76 3 6 Activation of CM 93 3 epee eee 3 82 3 7 Reinstall of ECDIS 3 87 4 INPUT OUTPUT SIGNALS 2 2 2222 4 1 5 RADAR SWITCH 5 1 PACKING LISTS cci A 1 OUTLINE DRAWINGS 222 2 D 1 INTERCONNECTION DIAGRAM kk S 1 FURUNO ELECTRIC CO LTD www furuno co jp All brand and product names are trademarks registered trademarks or service marks of their respective holders FURUNO ELECTRIC CO LTD 9 52 Ashihara cho Nishinomiya 662 8580 JAPAN Telephone 81 0 798 65 2111 Fax 81 0 798 65 4200 All rights reserved Printed in Japan Pub IME 41220 J FEA 2107 BB 2807 Elemental Chlorine Free The paper
129. sage IS NCDAT Switch Input InUse 5 OFF Fixed Use For Note that full use of this feature 1 Propeller 1 2 Propeller 1 requires that you also activate Fuel Consumption Propeller and Main Engine Air Pressure parameters set as Engine Control Fropeller 2 Propeller 2 Not Used Not Used Mot Used Not Used Mot Used Not Used Mot Used Not Used Mot Used Not Used Not Used Mot Used IFIHIHIHHHIHIHIHIHHHHHIHHI LIHIHIHIHIHIHHIHIHIHIHIHIHIH 3 4 2 5 T 5 g 10 11 12 13 14 15 16 Settings for receiving Propeller ix Thruster and Rudder data from simulated engine control system Connected HEP s manufactured by SINDEL used Adapter Channel message are PLPRO PLTHR Devite IEC 61162 1 timeout4 min p and SPLRAN Note that full use of Switch Input InUse Openis OFF Fixed Use For this feature requires that you also Propeller 1 Fropeller 1 activate Propeller Thruster and Propeller 2 Rudder parameters set as Engine Control Edit parameters Engine Control Not Used Not Used Mot Used Not Used Mot Used Not Used Mot Used Not Used Mot Used Mot Used Not Used Mot Used LIHIHIHIHIHIHHIHIHIHIHIHIHIHIHI 3 61 3 ADJUSTMENTS Speed pilot Settings when speedpilot is not connected Edit parameters Speedpilot OK Connected Adapter Chl Device Interface peedpilot Deicemo
130. sages for an ARPA radar target data receive interface Further it also contains a lot proprietary messages supporting integrated navigation features such as user charts routes curved EBL etc 6 Device interface FURUNO FAR 2x07 LAN includes all standard messages for an ARPA radar target data receive interface Further it also contains a lot proprietary messages supporting integrated navigation features such as user charts routes curved EBL etc In the Radar Display field you can select radar displays one by one and define if they are in use etc 3 23 3 ADJUSTMENTS Radar id and Radar transceiver fields are used to select indirectly radar antenna offsets from Conning position which is defined as Conning position in the General parameters page In the example above there are settings for ARPA radar display 1 e f ARPA Radar display sends radar id 1 it is connected to Radar transceiver 1 and offset is defined in Radar Echo Overlay Analog parameters page for Transceiver 1 e f ARPA radar display 1 sends radar id 2 it is connected to Radar Transceiver 2 defined in Radar Echo Overlay Analog parameters page Example1 FURUNO IEC 61162 1 device interface with various TX Talker IDs Edit parameters Radar Displays Radar Displays Radar Display Display 1 p Adapter Channel mm Device Interface 61162 1 50 xxTTM Rx Talker Identifier If radar id is received then use antenna to conning pos
131. se GLL or GGA messages also contain separate indication of datum used DTM message IMO rule states that ECDIS can only accept position in WGS84 datum In practice only EPFS for example GPS or DGPS which has IEC 61162 1 Ed 2 2000 7 indicated in their type approval certificate can detect Datum e Ed2 requires that the GLL message includes a quality indicator i e the GLL message can indicate if position is based on standard GPS or differential GPS 3 31 3 ADJUSTMENTS Conning Position GPS Antenna Position Dual Axis Log Position Radar Antenna Position X e From Antenna Position to Conning position 5 m From Antenna Position to Conning position 10 m From Antenna Position to Conning position 5 m From Antenna Position to Conning position 10 m Note for service engineer If the vessel has main and backup system then you must yourself set proper antenna offset for both systems Keep in mind that they are two independent and separate systems but they should share common antenna offset in case that they are connected to the same position antenna 3 32 3 ADJUSTMENTS Echo Sounder and Weather Notes air temperature e Not used by this system should have Connected NO Notes air pressure e Not used by this system should have Connected NO 3 33 3 ADJUSTMENTS Wind sensor Here is an example of a wind Edit parameters Wind Sensor sensor which is connected
132. sed as Workstation that run an Access Server Note Check Sensor source default for the Workstation where you have sensors connected One Workstation can be selected to run Access Server When you have defined a Workstation click the Save button The EC 1000C 0001 Workstation is set as below Alias PORT ECDIS Sensor source default setting Access Server ON Click EC1000C 0002 at Network name and set STBD ECDIS Then check Planning station 3 ADJUSTMENTS Examples Settings when workstation EC1000C 0001 is used as a stand alone system Settings when workstation EC1000C 0001 is used as navigation station in a two ECDIS system consisting of one navigation and one planning workstation Settings when workstation EC1000C 0002 is used as planning station in a two ECDIS system consisting of one navigation and one planning workstation 3 6 Workstation names Edit Workstation names PORT ECDIS EC1000C 0001 Sensor source default M Location of Access Server L Planning station Remove Single Workstation Mode Network name EC1000C 0001 Logical name PORT ECDIS EC1000C 0002 Workstation names Edit Workstation names NAVIGATION EC1000C 0001 Sensor source default v Location of Access Server Planning station Network name EC1000C 0001 Logical name NAVIGATION PLANNING EC1000C 0002 Single O Workstation Mode Workstation names Edit Workstation names PLANNING EC1000C
133. skbar Autohide 5 Default Userriarne ecdis Curtent Usernarrie ecdis AntsSystemPathr Danis system ZPNPath Gants system 2371 Analog Radar Overlay card Disabled Display Type LCD FEA 210 MU 201GE COMI Calibration FLAT 398 x 319mm Control Head Connected Pott COM2 1000 IP for LAN Adapter 10 0 0 181 LAN Adapter 1 IP ID 10 0 0 192 ID 4 LAN Adapter 2 IP ID Not connected LAN Adapter 3 IP ID Not connected LAN Adapter Not connected LAN Arpa 172 51 3 33 User Defined Note Installation can t shutdown the software automatically If an earlief version of this program is running shutdown software before continuing as follows 1 Response to this dialog NO 2 Use Shutdown the ECDIS from 3 Use Alt F4 to close background window with text Press ALT and if you want to close this window Would you like to continue installation Yes 6 If the Windows Classic style IS not in use a following 3 Windows must be configured to use Modified Classic Style desktop You should do the Following 1 Cancel Setup and logout WI d OW a rs 5 OW Open Display Properties Dialog Right mouse click and select Properties or from Control Panel open Display In Themes Tab select Window Classic in Theme combo box th e n stru cti O n S to e n a b e In Appearance Tab select Wi
134. ssemble two hangers and hanger stay with two hex bolts M10x30 flat washers and spring washers and cover each hex bolt with hole plug 2 Fix the above assembly to the mounting location with four hex bolts M12 dockyard supply 3 Fasten the monitor unit to the mounting hanger assembly with four hex bolts M6x25 supplied 4 Cover each hex bolt with a panel cover 5 Cover each hole for hand grip with a plastic rivet 4 pcs 1 3 1 MOUNTING M12 bolts for fixing z Dockyard supply Panel cover Hex bolt Plastic rivet Hex bolt M10x30 227 Hole plu Q ris Monitor Unit The hand grip is optionally available for the desktop mounting Wave washer r Rosette washer b Screw Se Handle Monitor unit attaching hand grip 1 4 1 MOUNTING 1 2 Control Unit The control unit may be mounted on a desktop with or without the KB fixing metal Supplied which mounts the control unit at an angle Mounting considerations When selecting a mounting location keep in mind the following points select a location where the control unit can be operated conveniently Locate the unit away from heat sources because of heat that can build up inside the cabinet Locate the equipment away from places subject to water splash and rain Determine the mounting location considering the length of the signal cable between the control unit and the processor unit The length of the signal cable is 10 20 30 m
135. sses Show icon in notification area when connected M Notify me when this connection has limited or no connectivity Cancel In Local Area Connection 2 Properties highlight Internet Protocol TCP IP and then press Properties button set IP Address as 10 0 0 180 for the first ECDIS or 10 0 0 181 for the second ECDIS Set Subnet mask as 255 255 0 0 Click the OK button to close the window To use the EC 1000C as No 2 see page 3 99 3 ADJUSTMENTS 3 2 Parameters NOTE Special attention to following topics is required to maintain Consistent Common Reference System e The values of center and conning positions depend on size and geometry of the ship e Offsets from Antenna Position to Conning Position of Position Sensors depend on the location of position sensor antennas e Offsets from Antenna Position to Conning Position of Radars depend on the location of radar antennas Installation parameters have limited access and are controlled by an Authorizing key disk supplied The Authorizing key disk is a floppy which contains the necessary key to allow access into editing of the installation parameters Do the following to access the installation parameters 1 Insert the Authorization key disk to the processor unit Note that the installation parameters have limited access which is controlled by the Authorization key disk supplied Press the MENU key on the control unit to open the menu Roll the whe
136. ssor and connect the service keyboard there Turn the power on While pressing down the Alt key press the Tab key on the service keyboard several times to show ECAWATCH window Release the keys and press the Shutdown the ECDIS button on the screen immediately Click x mark to close Control Head window Press the Alt and F4 keys simultaneously to show the WindowsXP screen 3 1 1 Local Area Connection for LAN 1 ARPA Radar Network To configure IP Address for Local Area Connection interface proceed as follows 1 Open the control panel of the Window 2 Double click the Network Connection icon 3 Highlight Local Area Connection and then select Properties in File menu j ioj Li ei Search Folders x t Address Network Connections Go Device Name LAN or High Speed Internet J Local Area Connection 2 LAN or High Speed Intemet Network cable unplugged Intel R PRO 100 Network Connection fs Local Area Connection LAN or High Speed Intemet Network cable unplugged Intel R PROATOO VE Network Connection 218 ki Internet Protocol TCP IP Properties El General Authentication Advanced General Connect using fou ean get settings assigned automatically if your network supports this capability Otherwise you need to ask your network administrator for 88 Intel R PRO 100 VE Network Conne Configure the appropriate IP settings This connection uses the foll
137. t Control Unit lt q Buzzer stop input closed input Processor Unit EC 1000C LAN Adapter i Alarm outputs EC 1010 Alarrm outputs STO2 Off Track STO3 WPT Approach STO4 Shallow Depth B Adapter EC 1020 STI9 GND STI10 GND S O5 Backup Navigator STO6 Navigation Sensor Alarm STO7 Operator Fitness STO8 Any ECDIS Alarm Alarm ACK Alarm ACK Buzzer OFF closed output closed input closed input Autopilot Parameter settings Control Panel 411 Connected Yes Device Interface Relay with Central Alarm use B adapter Relay with Central Alarm including state pending use B adapter Relay with Central Alarm including Pending use B adapter or Relay with Central Alarm sensor source use B adapter NAVTEX Receiver not available for version 05 xx Check alphabets to receive corresponding data For details see the operator s manual for NAVTEX receiver connected Edit parameters NAVTEX Receiver x Connected YES 12 Adapter Channel Device Type IEC 61162 1 4800bit s INS Masks ER de dt V NM A O Type Area v v Iv I1 v 3 59 3 ADJUSTMENTS SatCom External Computer Sindel repeaters Settings for Route backup to Furuno GP 80 GPS navigator Edit parameters SatCom External Computer Sindel Repeaters Connected TES Device Interface Route backup t
138. t files vau want to be deleted IEEE Note When upgrading from version 05 xx ARES 857 Group files software check all boxes 8 to erase corresponding 557 ED Chart Catal g files items 4 Log files Chart Display Setting Files Check here to return settings 3 for the chart display and lt Back cancel symbol display to the default ARCS S57 Group files Check here to delete all groups made of some cells 57 Senc files Check here to all SENC files of ENC chart saved from CD ROM Note When loading the chart data with different version check this item 557 CD Chart Catalog files Check here to delete information for CD ROM saved Log files Check here to delete the information shown below memorized in the log file date L L speed course position gyro offset SOG COG danger target used chart scale alarms MOB and event 3 95 3 ADJUSTMENTS 20 Press the Next button ECDIS Setup Start Copying Files Review settings before copying files Setup has enough information to start copying the program files you want to review or change any settings click Back If vau are satisfied with the settings click to begin copying Files Current Settings 21 Setup progress Is shown with a progress book Setup Status ECDIS Setup is performing the requested operations Installing Copying 587 files Cs system charts r CAW 3
139. tem The ECDIS processor is connected to various sensors and performs navigation calculations and route monitoring Connections to interfaces are typically made with a LAN Local Area Network Adapter The ECDIS processor can be used for both route planning and route monitoring If required there can be additional identical ECDIS EC1000C Workstation s connected to the same LAN to share the tasks of the ECDIS If the system incorporates more than one ECDIS EC1000C Workstation one or more workstation s can be used as a user interface with full usage rights and one or more workstation s be used as planning stations usage rights as planning If the system has two or more Workstations connected together as multi workstations the system keeps data on the workstations harmonised and also tracks selections and settings made on any workstation Typically there can be the following kinds of workstation configuration Mode as Single only one workstation is used in the system Mode as Multi two or more workstations are used in the system where usage rights and sensor source of workstations can be changed by the user For more information see the operator s manual One workstation ee ECDIS Monitor Conning Monitor ARPA RADARS MU 201CE FEA 2107 MU 201CE FEA 2107 MU 190 FEA 2107 D MU 190 FEA 2107 D POSITION FIXING EQUIPMENT 100 230 VAC MU 231CE FEA 2807 MU 231CE FEA 2807 TRACK PILOT
140. terface and order can be received from a track pilot in serial data Both actual and order can be received from analog interface Or alternatively port and starboard rudder feedback can be received from analog interface e Both actual and other can be received from IEC 61162 1 xxRSA e Analog interface for rudder has following specification 2 kohm potentiometers installed in the steering gear system Reference voltage to potentiometers 12v supplied from the ECDIS Typically the same rudder feed back unit can be used also for track Pilot system A dual potentiometer in the feed back unit is then required Each analog input is associated with a status signal closed contact which indicates the availability of the analog signal Engine start air pressure e One engine start air pressure analog interface 2 kohm potentiometers installed in engine start air pressure Reference voltage to potentiometer 12v supplied from the ECDIS Analog input is associated with a status signal closed contact which indicates the availability of the analog signal 4 4 4 INPUT OUTPUT SIGNALS Air pressure e One air pressure analog interface e typical instrument is a VAISALA pressure sensor having current output Fuel consumption e One fuel pump with analog interface e Analog input is associated with a status signal closed contact which indicates the availability of the analog signal Route backup and restore for FU
141. u If overwriting them confirm replacement of existing file by pressing OK 8 Go back to normal ECDIS operation mode Note The above steps allow you to return parameters by clicking Set parameter defaults on Installation parameters when changing Sensor parameter settings 3 64 3 ADJUSTMENTS 3 3 Adjustments for the LAN Adapter EC 1010 3 3 1 Setup for the LAN adapter EC 1010 program The following tools are needed for programming LAN adapter e Ordinary serial RS 232C line cable to make connection from COM 1 port to Connector J13 of LAN Adapter You need to set the jumpers of the LAN adapter to enable connector J13 and programming mode To change J1 CH 1 connector to J13 Connector for programming set as below J17 CTS1 GND To enable manual startup and programming set as below INIT GND 3 3 2 IP address agreement for LAN Adapter EC 1010 The table below shows IP addresses for each device Device First ECDIS Second ECDIS First LAN adapter First LAN adapter 10 0 0 192 BACKUP 1511 adapter Second LAN adapter 10 0 0 193 BACKUP 2 LAN adapter Second LAN adapter 10 0 0 191 MAIN 2 LAN adapter 3 65 3 ADJUSTMENTS 2 2 2 How to load programs for LAN adapter EC 1010 The following is an example of how to program the first LAN adapter for the first ECDIS Note The program version for LAN adapter should be same with ECDIS s Click Start Programs Accessories and Windows Explore in order
142. ual speed is selected on other mode than RC NAV then Autopilot could not accept to RC NAV Mode Track control 3 If speed selection of Autopilot is manual SPD indicator will be flicker on AUTO HAND or NFU mode Autopilot information area indicate as manual speed on ECDIS screen 4 Software version For proper track control software of PR 6000 must be MMA v3 80 gt PID v3 80 gt ADNCT v1 40 gt 3 40 ROT gyro No ROT Gyro connected The system calculates from movement of Gyro heading ROT gyro value is received from Dolog 23 dual axis log ROT gyro value is received from gyro connected as Gyro1 3 ADJUSTMENTS Edit parameters Hate of Turn Gyro Cancel Connected NO Caluculated from Gyro source p Adapter Channel Device Type Gyro 1 IEC 61162 1 PROT E Adapter Channel 2 Output at 2 Use sign of Output per Volt to change polarity of Rate of turn Output per Volt 4U Prefilterina Max scale Edit parameters Rate of Turn Gyro Connected Adapter Channel Device Type DAX Dolog23 SPKDRU B Adapter Channel 2 Output at 0 Simin 9 V Use sign of Output per Malt to change polarity of Rate of turn Output per Volt 40 Cimin V Frefiltering Max scale Edit parameters Hate of Turn Gyro Connected YES Adapter Channel 7 Device Type Gyro 1 IEC 61162 1 xxROT B Adapter Channel 2 Outp
143. ut at 2 V Use sign of Output per Wolt to change polarity of Rate of turn Output per Volt 10 CImin V Frefiltering Max scale 3 41 3 ADJUSTMENTS ROT gyro value is received from Trackpilot Edit parameters Rate of Turn Gyro Connected YES Adapter Channel 3 Device Trackpilot B Adapter Channel 2 Output at 0 min 2 se sign of Output per Volt 40 Output per Volt to change polarity of Prefiltering Rate of turn Max scale ROT gyro value is received using analog interface directly from a ROT gyro Connected YES Adapter Channel 4 Device Type Analog uses B Adapter Edit parameters Hate of Turn Gyro B Adapter Channel 2 Output at 0 min Use sign of Output per Volt 40 Output per Volt to change polarity of Prefiltering Rate of turn Max scale 3 42 3 ADJUSTMENTS Conning display W ConningDisplay 00 02 R O T LEFT UPPER 55 0 0 050 089 079 080 90 Ta LEFT MIDDLE SPD SOG 0 0Kt Double Speed display LEFT LOWER RIGHT LOWER LEFT BOTTOM RIGHT BOTTOM Figure above shows how the windows are located in Conning Display Edit parameters Conning Display Settings Right Middle Trackpilot extended Middle WWaypoint Bottom Drift Radius Bottom Depth 100m Center Position device indication 1 Select Conning Mode Harbour1 Harb
144. utopilot Edit parameters Trackpilot m Connected Adapter Channel WP Approach Rule IEC 62065 Steering Sources Trackpilot Co 2 w ww ww v TS No device limitations From Conning position to XTE 5 m calculation position Bow Stern Turn Endline in Route Steering Received Messages Enable Check and Alarms IEC 61162 1 Transmit checksum Used Checksum char not included IEC 61162 1 amp EMRI cn h Co i gi i Minimum Turning Radius s S Cn Lower Off Course Alarm Limit Higher Off Course Alarm Limit and Drift Compensation Limit Minimum Route Speed Route Check IEC 62065 Not required Forwarding Distance Range MD GENERAL NOTES In general all settings above are mandatory for Yokogawa PT 500A Autopilot The following parameters can be used to tailor the system to the vessel e Minimum turn radius e Turn Endline in route steering e From Conning position to XTE calculation position e Minimum route speed NOTES ABOUT PARAMETERS INSIDE YOKOGAWA PT 500A Yokogawa PT 500A Autopilot steering control unit is a separate unit which can operate together with ECDIS Some parameters must be as below in Autopilot control unit For more information see manual of Yokogawa PT 500A Autopilot Confirm that the values of following remote interface parameters are as follows INS GPS Inp INS 2 type B
145. ve or negative polarity zero distance e Headline min 5 V max 30 V positive or negative polarity e Azimuth min 5 V max 30 V positive polarity 128 1024 pulses 360 e Selection 2 pieces of selection inputs to define parameter set selection for Radar Overlay The inputs are coded and give a possibility to define three alternative radars Selection input min 5 V max 24 V 4 6 5 RADAR SWITCH OPTION To connect two radars excepting 21 7 28 7 series use the optional radar switch CP03 29501 008 544 940 For 12 VDC CP03 29502 008 544 950 For 24 VDC Contents See the packing lists attached at the back of this manual Mounting Radar switch Mount the switch at the mounting position with four tapping screws M4 local supply 130 1 23 164 CM 100 Radar switch 5 RADAR SWITCH OPTION Radar selector Make five holes one for toggle switch to mount the switch on the desktop or bulkhead as below 4 M3 SW sheet Water proofing gasket Switch cap D spring Radar selector Connection Connect cables as below To Processor unit for ECDIS XH5P XH10P L1 6M cable supplied with option kit XH12P DSUB15BNC2 cable supplied with option kit 12 or 24 VDC XH3P 2P L2000 cable XH8P NH8P cable Supplied with option kit 10 20 30 m option No 1 Radar No 2 Radar 5 2 2386 4980 ON 4 H DNIMVUC NISNOISNAWIG
146. verlay Analog parameter settings Here is an example when Radar Transceiver is not Connected NO gt connected Connected as 2 NO through Radar overlay MASTS card fitted in ECDIS EET Pome 89 NOTE You have to define all T m Stbd three Radar transceivers m Bow Stern whether they are connected Bearing offset through the Radar overlay pru not Rain clutter filter Gain Sea clutter filter Mn 5 ly 17 v Here is an example of a Edit parameters Radar Echo Overlay Analog x mast mounted S band radar Connected when mast is in about same Radar tranciever position as the conning on position Bearing pulses From Radar antenna m Stbd Fort to Conning position m Bow Stern Bearing offset Range offset Rain clutter filter Sea clutter filter Mn 5 v 17 v 3 17 3 ADJUSTMENTS Here is an example of a bow mounted radar with large distance from the conning position Bearing and Range offsets are used to align radar and chart displays Here is an example of a mast mounted X band radar when mast is in about same position as the conning position Bearing and Range offsets are used to align radar and chart displays Radar Overlay has status inputs which are used to select between 3 different setups for parameters This arrangement allows installation of three different radar transceive
147. vigation eq Error Settings when the ECDIS is connected to Alarm Monitoring and Watch Safety System AMWSS ECDIS alarms transferred to AMWSS Local ECDIS alarm acknowledge and EMRI trackpilot acknowledge operate only as buzzer stop ECDIS and EMRI alarms can only acknowledged from AMWSS Alarm 9997 transferred to ECDIS is used to acknowledged first alarm topmost trackpilot be Settings when the ECDIS is connected to Alarm Monitoring and Watch Safety System AMWSS ECDIS alarms are transferred to AMWSS ECDIS and EMRI trackpilot alarms can be acknowledged locally or from AMWSS Local acknowledge of an alarm removes the alarm also from AMWSS Cursor position of ECDIS is transmitted Edil parameters Alarm Inputa AMWSS x Connected NES SII 8 uses n Device Interface 51115 impuls uses E Adapler 512 508 SIM 5 L L1 oF Of m T Lr a Lise i rn LAN adaplers Relays energized when no am Foedenys energized When na H edapte parameters Alarm Inputs Outputs AMWSS x Tz Connected VES Adapter 15 1 IEC 13118 5 1 4 amsar Device Interface Raley outputs LAh adaplers enengized when aar B adaple
148. y of Rudder Conventional fone scale Not used Not Used Not Used Not Used ENGINE CTRL Output per Volt Label Display method 3 45 3 ADJUSTMENTS Two rudders are connected and values are received from Engine Control Connected Ue Device Type Engine Control Cancel Number of Rudders Use sign of Output Navigation Display Scale Max per Volt to change polarity of Rudder Harbour Display scale 33 Rudder type Conventional one scale Numerical value Only ORDComered Rudder 1 Rudder 2 ACT ORD ENGINE CTRL ENGINE CTRL Output per Volt Label ACT Display method Normal Normal Normal Rudder type Azimuth Edit parameters Rudders x Propulsion Comi us MES ok Display method paicane Analog SINICOS uses B Adapter E Azimuth 0 up and Number of Rudders j Use sign of Polari Display meee Navigation Display Scale 23 i to ange turning directi f Azimuth Azimuth 0 down are Harbour Display Scale Max 33 rc used to select between Rudder type Azimuth Propulsion ino scale alternative scale for Numerical value Not used Azimuth propulsion Azimuth 1 Azimuth 2 Azimuth 1 Azimuth 2 window Rudder type Azimuth ANALOG Sin ANALOG Sin ANALOG Cas ANALOG Cos Propulsion and values are received as SIN COS values using B Adapter Channel COS COS analog interface Output at 0 01 Offset 0 07 Offset Note For eac

ECDIS FEA-2xx7 Installation Manual in English

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