Furuno DS-30 User's Manual
Contents
1. 4 2 41 5 DISTHDUTION BOX xxi u 4 3 4 1 4 Digital Indicator 05 351 4 4 4 2 Setting Offset Data Menu 4 5 4 3 System Meroe N 4 7 4 3 1 Opening System 4 7 43 2 Closing System ER er E 4 7 4 3 3 Setting Display Unit Preset Menu 4 7 4 3 4 Setting Ship Data Menu 4 9 4 3 5 Setting External Sensor Menu 4 10 CHAPTERS POST INSTALLATION CHECK 5 1 BED SISIUS 5 1 2 EOCANOM LEDS ES 5 1 OCS SSO ERES 5 2 Dko Transceiver Un uma nuy i 5 6 598 4 OYO 5 8 5 125 DISIMOUTIOMN BOX sies a cet efe esu sss 5 9 DR O GG C 5 11 527238 i FOC COU TEES 5 11 9 2 NCS RN 5 112. Wii SNS NN 71222 22222272222277772 4 GS S 8 9 S 7227772 ITEM NAME MATERIAL Q TY DWG NO REMARKS MF 22A 5 TLE oZ E ANALOG DISPLAY UNIT WEIGHT DWG C7213 036 E 4K1 20297 5 FURUNO ELECTRIC CO LTD D 25 6 610 FIXING HOLE 019 CABLE ENTRY CHAMING vim 7 TERMINAL STRIPS PANEL CUT Morar T Yamasaki _____ ME 22A 8 Jun 27 01 Y KIMURA GET SV Jun 2T 01 Y KIMURA TA 1 80 k l WUe 67213 1t1 C 0QUTLINEDRAWING O O o ooo o FURUNO ELECTRIC Co LTD wa x D 26 6 910 FIXING HULE T TWA 3 377 019 CABLE ENTRY CHAMING 30 10 9310 2280 DU TERMINAL STRIPS Xx PANEL CUT 4252 NOTE DIRCTION OF SCALE IS CCW T YAMASAKI ME ME 22A 7 m ar a1 Y KIMURA SR j rat WE ANALOGUE DISPLAY UNIT FLUSH MOUNT OUTLINE DRAWING FURUNO ELECTRIC Co LTD D 27 140 0250 TI a y JIS F8801 20a TERMINAL STRIPS CABLE GLAND 4 12
3. NOTE 1 TABLE 1 INDICATES TOLERANCE OF DIMENSIONS 2 H RECOMMENDED SERVICE CLEARANCE DIMENSION mm _ TOLERANCE mm DIGITAL INDICATOR BULKHEAD TYPE 07236 017 0 OUTLINE DRAWING FURUNO ELECTRIC Co LTD wee nn a nn np eer er nee D CUTOUT DIMENSIONS 212 213 4 WASHERHEAD SCREW HEX 6 4 NUT M PANEL SPACER 4 imam 66 019 251 4 1 REF INSTALLATION MATERIAL LIST 1 1 2 NOTE 1 TABLE 1 INDICATES TOLERANCE OF DIMENSIONS 2 RECOMMENDED SERVICE CLEARANCE DIMENSION TITLE Joly D o TAMADA 0 1 11 05 351 os Dt Y 1 i 55 1 4 A E DIGITAL INDICATOR FLUSH MOUNT OUTLINE DRAWING _ FURUNO ELECTRIC Co LTD LYAMASAKI Y KIMURA jm 0 YKIMURA 4 97 FIXING HOLES 88 REMOTE i ie CABLE ENTRY L HE MARE LIEN AM MALE RLS A
4. Processor Unit DS 310 MIF Board A D Conversion Voltage Ship s mains Internal reference voltage 2 54V Ship s mains 2 445 to 2 500V Internal reference voltage 1 950 to 2 000V dev 012 OK Transceiver Unit DS The following memory ICs are checked The check result is displayed in the same way as item no 1 1 SRAM 2 A D Converter 0 EPROM 5 13 No Self check Item Em 12 jrransceiver Unit DS pwt 320 t 1 NCP Board a b C d AD Conversion Value a 100VAC reading is 95 or 96 at 100VAC b TX 100VDC reading is 95 or 96 at 100VDC c XDCR surface temp displays actual temperature d XDCR mold material temp displays actual temperature Color Pattern Color test patterns are displayed They are an orange bar and a 16 color bar which are alternately displayed checking color generators in the display unit Note 1 Number which follows vol is program number with least significant two digits showing version number 2 Number which follows dsw is DIP switch setting 5 14 5 2 4 Continuous Test The continuous test executes the system check repeatedly In addition to the check items of the single test it displays the transmission voltage current and received echoes for port fore and starboard beams Self Test Push MENU key to Restart
5. DIMMER MF 22L ANALOG _____ 3k 25W A W 50 ee j DARK AKA Lr 100 120 UL oo METER PROCESSOR UNIT 1 LOAV 66P3342V I 05 310 s EXTERNAL EQUIPMENT ANALOGV H Too SHIP 5 SPEED VOLTAGE HYOS I__ EXTERNAL EQUIPMENT SHIP S SPEED STATUS T lt i IEC61162 1 gt tts 1 lt TXD H Tess AFK 2 lt i TXD C m Se Vf K3 lt RXD H NE 4 lt RXD C THO lt 10 lt FG tT ANALOG IND TTYCS 1 5 a 10538173821 T ipiis D lo I most Weine d 1 p CE Era gt D C QE 19 674 9 ES 23 Es RXD C T 2 10 lt FG 26 1200 ines 1 J4 J5 H 15200 Dol aux MEYC 19 3 lt 2 TRS CS D TACHOMETER 1 200 83 41 70 208 MF 22L 1 5 100 115 3 lt RRS De Bp ss J r 200 240VAC HK 7 lt DURS d 1 50 60Hz LEK 9 lt TH CLINOMETER PITCH F 10 lt TC pie cs 1 184 RC g PEE CLINOMETER ROLL SHIP S SPEED STATUS lt 25 lt OVHC SHIP S SPEED STATUS TTYes 1 DISTANCE SIGNAL EE ITYCS 1_ EX TTYes 1 9 48 CHR S TTY s UN SN
6. 01203184 y SHOW GSH CECI XR 1NO 39N3343338 804 9NIMVHO NI SNOISN3WIQ 2 BSS CO s E 5 0114149530 3NI 1100 SE E xH V d30VdS TANVd V amp 01141 425 30 06 54 W31SAS 9NIX90Q YVNOS 43 14900 2 9940 00 018 918 200 ON 3000 6176 X WV99 1174 JVIYLIATA ONNANA JNVS ALI TVA LONGOYd 401 AHL 40 39V d NI ddddIHS 38 AVW 190084 101108 3Hl 031511 38 AVW S3009 NV SddAl MOL PM SMUVWAY SECEH 1 1 6 61y6 X NV99 f 12 C Y RDBMS 19 1 SHOW GSR 1NO 9NIMVHO NI SNOISN3WIQ 2 BSS EISE F CO s E 00 07 081 001 ON 0 761 6 10 99 5 0114182530 3NI 1100 SIE F it pj 9 31V d 9NIINIOM D 0114189540 06 50 WALSAS 9NIX90Q 05 9 19900 1612 610 99 00 071 081 001 ON 3000 vl V6 X WV99 OO O 1I O ONNYNSG 1Z 6 X MV99 OO OI O JAYS JHL 117 00 JNVS AlI1VIO LONGOYd 401 AHL 40 39V d ddIHS 38 AVW 190084 WOLLOG JHL 041511 38 AVW 53009 NV S3dAl MOL LONGOYd 401 AHL 40 39V d NI ddIHS 38 AVW 190084 WOLLO JHL 041511 38 AVW 54009 NV S3dAl MOL T SH f 12 C Yi FEAR CMI 1 SHOWS Ca E F SH
7. 2 4 5 AD PROCESSOR UNIT SERA M a b c 400n 35848 05 500 DS 310 M w si gt Dro alee B TTYeY 19S 9 Trees ei e TB zl S 220 GYROCOMPASS PROCESSOR UNIT 7 7 1 EE 2 UNIT 1 PL 1 B1H GYROD C Preto 3 0VLG1 FG 3 nee j 2 RED2 pt He 7h 2 RED2 en GYROC H E 1 531 2 BLK2 Hek jn 2 BLK2 15 BIL GYROC C 5 E KB tim 3 RED3 L 2 RED3 p dur et 3 BLK3 c8 h jn 3 BLK3 C 8 SBD2 H 1 Q TRE 23 Hep 9 OVLG3 SBD2 C 2 DIGITAL 4 RED4 py t tio 7h 4 RED4 cpt H1O B2L FGA INDICATOR 4 BLK4 HH jn 4 c B2L AC12V H 8 05 350 07104 AC12V C 9 ptem T im 5 REDS 13 7h 5 REDS pi TA Bah TB9 5 BLK5 care jn 5 BLK5 C 8 B3H SBD3 H 1 ass OVLG5 SBD3 C zl DIGITAL i 6 RED6 16 7 6 RED6 10 B3L FGA 7 6 BLK6 jn 6 BLK6 un B3L AC12V H 18 Ds 350 Se 12 OVLG6 AC12V C 9 9 1 7 RED7 7 7 RED BK H Re 105 V 8sq 7 BLK7 20h jn 7 BLK7 212 BFKP C TB8 3 BFOV DSKP H 8 REDS 7h 8 REDS pi te BFEG H DSKP C 2 NN LL J 8 BLK8 H23 40 8 BLK8 15 BFEG C FG 2201 6 BFOV RATET H Hope eem c5 TXD H E 2
8. CR2 B2TX CRI BITX NTX Board 66P3331 NPR Board 66P3333 NCP Board 66P3330 CR20 PWS L1 CR19 PWS L2 1 NCP Board 66P3330 Remarks Transmission pulse input output monitor Normal transmission mode input monitor Independent transmission mode 1 2 output monitor Reception gate input output monitor Normal transmission mode 1 2 input monitor Independent transmission mode output monitor NCP board operation mode monitor Normal transmission mode Off Independent transmission mode 1 2 Lights Serial data output to processor unit DS 310 Control data input from processor unit DS 310 Auxiliary serial output port Normal transmission mode Off Independent transmission mode Flickers Auxiliary input port 5 6 NTX Board 66P3331 T oma Color Beam 1 transmission monitor Blinks whenever DS 30 transmits Beam 2 transmission monitor Blinks whenever DS 30 transmits Beam 3 transmission monitor Blinks whenever DS 30 transmits Power reduction bit 1 monitor CR3 B3TX Power reduction bit 2 monitor PWSEL2 5 7 5 1 4 Rate of Turn Gyro CRI CRZ e Hs S LED D RIF Board eeP3350 RIF Board 66P3350 LED Status RXD YEL Monitor 2522 Remarks No Signal Color BHL Monitoring internal condition of sensor 5 1 5 Distribution Box OCP Board 66P3340 OAD Board 66P3342 D OAC Board 66P3342C OAV Boa
9. 20 50 CABLE ENTRY 7 lt T gt ms 2002 1 TABLE 1 238 1 1 1 302 4 98 2 ti E97 CAZATE 344 1 4 6 xm INDICATES TOLERANCE DF DIMENSIONS CUTOUT DIMENSIONS WHICH IS NOT SPECIFIED o MINIMUM SERVICE CLEARANCE TITLE 05 300 55 Fine RAMN vA p65 TIAKENI AB WS 95 a MANN DISPLAY FLUSH MOUNT 7636 G0 6 DRAWING FURUNO ELECTRIC Co LTD 4 98 282 4 6 TAP MOUNTING DIMENSION DS 30 FW ou LYMASMI bm YXMRA 1 11 01 AUDDIIV un 21 o L E DISPLAY OPERATION PANEL WeNe 7036 6000 DUTLINE DRA WP FURUNO ELECTRIC CO LTD 150 e x CABLE ENTRY 27 1 HERETRARIR 125 2 E NOTE 1 TABLE 1 INDICATES TOLERANCE OF DIMENSIONS 0 RECOMMENDED SERVICE CLEARANCE 1 3939 mE res L quo W UNIT WM C236 G03 H _ 1 OUTLINE DRAWING FURUNO ELECTRIC CO LTD SS b SS b D 5 4 912 MAR FIXING HOLES aN CABLE ENTRY en E MIYOSHI L qm DS TAKAHASHLT oo TE FND JB mas PS WE TRANSCEIVER UNI
10. EF SKXPB RY A 6 S 809 95 iy me 4 4 NOILOSS SNDISN3WIQ ONTLNAOW CVSH 108 8 4 IDE n 1708 0015 e YIBDOTW v HNVd NIITLVel 3dl 102 50 DNIXI3 MHE cI v 06 3 3 IdVJ CUG 1708 0015 Wak 0111 79 GENOE 319 211 V V NOTLOSAS SNOISNAWIC ONTLNAOW 01318 1 V V BH IT E 2 ONIXI4 Mi 212 1 TFOVE TX COTH ep Ba GB 702 0 1341 3 ONNANS RINE 17 08 8 NO miadi QalHL 7 0799 v H gu 0E SG ef 14 214 E dt E 5 K L108 QTLS X YE OTR P TANVd NO VaadO LOE SG 8 4 23 c f gt 1108 9015 44r OH 2 319NV 9NIA3IA 2 A gii GE AVIdSIG NI VIA 00 r9 3898 80 OS 02 13NI VO LINN 4510 ete Si ttl I E x 6 lt 027 HHOM HO 05 Sd 1OH SNIXId MB CH y JIONV ONIM3IA TVLNOZ I NOH d2VdS 321AN3S Q3 NGSWWO2DS33 c e AE c X 8 8 NOI133S SNOISNNIO SNIINDONW GYSH Tg 0 029 SdIOH MES cH p CV V NOIIJ3S SNOISNMIQ 9NIINOM 40111841 PZP Bi 4 002 6 2 0t v 1 OMT FURUNO E T
11. 3 3 3 Cables between Processor Unit Main Display Unit Sub Display Unit CO SPEVV SB C 0 2x10P Connect the 20 connector as follows 1 Cable Fabrication l Vinyl Sheath Anticorrosive Sheath Shield Insulation Tape Core Fold back shield onto armor 2 Crimping Tool and Crimping Method A special crimping tool is necessary for connection of wires to the contact pins of 38P connector 00 8016 038 000 751 Also a pin extractor should be used to push out the contact pin from the connector body The following describes how to crimp and extract the contact gt Crimping Tool Pin Extractor 06 1001 016 06 1877 04 3 6 3 Wire Crimping Procedure 1 Strip the vinyl sheath of the wire to expose the core by 3mm to 4mm 2 Hold the crimping tool horizontally and insert the contact pin with its slit faced downward into the crimp hole on the crimping tool 3 Insert the wire onto the contact pin and squeeze the handle until the ratchet releases Note that the wire should be inserted deep enough until its end comes in contact with the stopper plate of the crimping tool After crimping pull the wire to make sure that it is securely fixed 4 Inserting Contact Pin into Connector Housing The connect pins fitted to wires should be inserted into the connector housing referring to the interconnection diagram 5 Procedure to Extract Contact Pin A When a contact pin is inserted into an incor
12. MB XU jp 950758 REMOTE BOX BULKHEAD MOUNT TYPE Wu 7036 6060 HUILINE DRAWING FURUNO ELECTRIC CO LTD FURUN 21 TABLE 1 T AMDAN D ES CABLE ENTRY n 20 Ls 100 425 A o 100 L lt 500 is WASHERHEAD SCREW M5x8 BLACK 156 50 4 08 FIXING HULES 661 OU MERTA CUTOUT DIMENSIONS D 1 2 T NOTE 1 TABLE 1 INDICATES TOLERANCE UF DIMENSIONS WHICH IS NUT SPECIFIED o MINIMUM SERVICE CLEARANCE M 9 04 TLYAMASAKT 75 359 T ten 9 04 se 8 inte mr 0 7 mO Td REMOTE BOX FLUSH MOUNT M 7236 45 81 OUTLINE DRAWING FURUNO ELECTRIC CO LTD SS bess rae D 18 6 910 FIXING HULES PR CABLE ENTRY LlAMING I 019 r 2 310 2280 2250 200 tm 6 TERMINAL STRIPS CUTHUT DIMENSION 1 6 SCALE 1 6 1 TABLET mm AX mm DIMENSTUN 1550 1 1 NOTE 1 TABLE 1 INDICATES TOLERANCE UF DIMENSIONS WHICH IS NUT SPECIFIED RAN neue LYAMASAKT 22 p 381 sg TTAKEND APPROVED x gt J
13. PMG auey g Iq 68 Sd IZZ AIN Y 241 naidi 3 x 1 L UN diu Ne oY x K um EBI zi 2 c Jl 281 uonnqrnsiq pun 105592014 0 Ole Sd 2uETSI I 12 41 3 3 Cable Fabrication 3 3 1 Transducer Cable eC FV1 254 6 FV1 25 4 Insulation Tube Puffer Packing lt FV1 25 4 Junction Box Cable Gland Wind Vinyl Tape 50 1 E rE LTO 1 rL SS 9 a O S Wind Vinyl To 16 terminal of terminal board 3 3 2 Cables between Transceiver Unit Junction Box Processor Unit TTYCY 16S 1 Transceiver Unit Junction Box Side Bare Wire Anticorrosive Sheath Armor Vinyl Sheath Soldering 6 87 Insulation Z Vinyl SheathWire Tube FV1 25 4 Cable Gland Wind vinyl tape 22 ec 9 ee mw 1I Li ee UI m TTT TTT TLL TTT RES vil SON 22 2 To Earth Terminal Note Do not undo the shield at the entrance into the unit Noise induction through unshielded wires cause equipment malfunction 3 5 2 Processor Unit Side Fabricate the wires and shield in the same way as the transceiver unit junction box sides For the cable armor remove paint and ground it through the cable clamp Cable Gland sg 217111 52222222
14. 1 1 1 151 Transducer UND op 1 1 121 2 Other Indoor UNIS uuu uuu u use acturi nde iade 1 2 2 Cielo et a 1 3 CHAPTER 2 MOUNTINQGiuunuu 54 u u 2 1 2 1 Display Unit and Operation 2 1 2 1 1 Standard Mounting EOM 2 1 Mong wii dixi siaaa 2 2 22 Processor Ne 2 4 23 adscelVebaJpil 2 4 2 UME HOME OG unan 2 4 2 5 m NINE iain 2 5 2 6 Rate of Turn Gyro Unit 2 7 2 0 1 Mounting ProeedUre ta tuni ead aus 2 7 2 0 2 Leveling u uuu uu uu MA 2 8 CHAPTER S WIRINQua i uu Z A uy Qua ua 85425 3 1 94 Precautions tor Cup FoU CE Nds dos 3 1 3 1 1 Cable between hull Unit transducer and Transceiver 3 1 3 1 2 Cable between transceiver Unit and Processor Unit via Junction Box 3 1 3 1 3 Other Connection Cables of 05 30 EG 3 1 92 Cable SOCCHICATOM
15. 2 ES E 5 st p373 541 5 UN M a u s 27 2 v d gs gago HULL PLATE C6 03 9 MBE GRUUVE DEPTH AND WELDING PREPARED BY SHIPYARD 21050 450 00 INNER DIAMETER TAR mm DIMENSIONS L 50 o0 Ls100 3 CAEG 1 TABET 21 ANCE 5 100 lt Ls500 500 lt L lt 1000 4 1000 lt L lt 2000 1640 4 J 6 2 25 66 1 2 3 17 71 H 3 4 9 x10 Po 4 63 22 5 5 20 6 7 m 1108 O 5 ee pe Dii WELD SPACER 5 TO HU
16. ee cr r1 1 1 REMOTE BOX sss DS 359 WIND_DIR H HWI it lo WIND_DIR 2 1 01215 WIND_SPD ace WIND_SPD RUDDER eee RUDDER x 1 3k Q 25W 200 240VAC 1 for 200 240V 1 MF 22L DETAIL FOR MF 22L 1 3 DAC EEOMA CBA HORNE RADATHE 22 4 2 1 0TX SUPPLY BOX CAN INCORPORATE SEVEN BOARD IN ANY COMBINATION m WE 2 B 15 C id DOPPLER SONAR DISTRIBUTION BOX 4 WHEN TWO DISTRIBUTION BOXES ARE USED CONNECT ONE DISTRIBUTION BOX TO OTX BOARD C0 0 2x10P CO SPEVV SB C 0 2x10P 16 Do 07236 002 INTERCONNECTION DIAGRAM FURUNO ELECTRIC Co LTD APPENDIX LIST OF DIP SWITCH SETTING DIP Switch Location The DIP switches are located on the boards shown in the table below MTEmd 51 52 53 54 55 56 Distribution Urt DS 370 Option OCP Board s Setting and Function of DIP Switch Do not change setting Change setting as required 1 Display Unit Factory LCP Board S1 Mode selection Main Display DS 300 ON Ditto Sub Display DS 300A 82 3 4 Languageselecton OFF OFF Ja
17. 5 NG SS Adjust Bolt fitted to unit at factory 2 6 2 Leveling Adjustment This adjustment should be performed while the ship is in dry dock where it has no heeling and triming inclinations 1 Place a T type level meter on top of the sensor to measure longitudinal and transverse inclination 2 For leveling the sensor turn the adjust bolts T type Level Meter 6 Sensor Adjust Bolt lt gt c c c c c c 2 7 Error of Rate of Turn Gyro The rate of turn gyro detects angular velocity of ship s motion which sometimes contains the following errors Attitude Error If the rate of turn gyro is not installed on the level or if the ship trims or heels the angular velocity detected becomes Vt 0 where Vt is the true angular velocity and is the inclination angle of the rate of turn gyro from the horizontal plane Motion Error If the static attitude of the rate of turn gyro is level the ship s rolling and pitching cause no error However if the ship has a trim which causes static inclination of the rate of turn gyro an error occurs by ship s rolling The error is given by Vr x sin A where Vr is the angular velocity of rolling and A is the trim angle Latitude Error Error caused by earth s rotation depends on latitude If latitude is expressed by and earth s rotation angular velocity by 9 then error caused by earth s rotation is wE Qxsina Error
18. 01 4 99 000 ON 4009 706505 011 LAN TAL 4 EM 01 191 991 000 ON 4009 41 8 LAS 901 NO dW I9 01 01 081 001 ON 4009 SHOd 0 6 610 99 xk M 01 006 081 001 ON 4009 SHOd 0 610 99 39NV 14 X N kk M 39NV 13 SMVMHM 910114189540 3NI 1100 2 BEC Sik X SIVIYSLVW NOIIVTIVISNI SAEI 9 6276 99 00 085 9 8 200 ON 3009 red s lat laik 9776 99 11 DIYLDATA ONNANSGA CANO 39N383338 9NIMVHO NI SNOISN3WIQ 62 8 fl CO De E JAYS 3HL SI ALITVNO 191044 ddddil AHL 40 0Vld NI ddddIHS 38 AVN LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 53009 NV 534 1 y 1 HA CYYuXWVog3 AFD GUI 1 SHOW Cee C E 01 1 1 991 000 ON 3009 Us 97 88 82 LAS 01 014 9 1 001 ON 3009 SHOU 0 102 610 99 CHO M AGL G 01 116 0111 000 ON 3009 I 31V1d PPS SEY A SYYYNJY ALD 980114140530 3NI 100 WEY Sik SIVIYSLVW NOIIVIIV1SNI SAEI Z 80 6 99 00 08 9 8 200 ON 3005 Gl6 X MV99 qL1 91419373 ONnuna 6ZY6 X NY99 OO 91419373 ONnun3d INO 3ON333443 80 4 9NIMVHO NI SNOISN3WIQ 2 82S E 1NO 9N 4 4 403 9NIMVHO NI SNOISN3WIQ 2
19. 612 C Y Z q S Ca 1 CAINO 39N4334433 9NIMVHO SNOISN3WIQ 2 8 2 fl 5 x CAINO 39N3833384 9NIMVHO NI SNOISN3WIQ 2 8 2 PIXE Ts 0185 Em 08 9 8 600 ON 3009 Moe 1 Les 9 995 SSV IVN9IS 2 Se Sts BH L 43 061 188 200 ON 3009 mama 9940 58019484021 31V1d 9NIINIOM SYA MH 3NITInO WH Fi p s SMMVMM 540114190530 3NI 1100 SH zi p 119149531 08 54 1141 0630 06 50 31999 TANVd 011 440 WALSAS 9NIX90Q 05 9 19900 m 00600 9949 m 69Z 6 0 99 _ Z rl6 X MV99 00 298 820 000 3000 H Z 1276 99 00 098 081 001 3000 91 V ID6 X MV99 OO DIYLDATA 4 INO 39N38333H ONIMVUG NI SNOISNAWIG 782 58 NYS FHL SI ALITYNO 191084 ddddil AHL 40 39V d NI ddddIHS 38 LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 54009 NV 534 1 QA PRMICVYEEIGR AG NAPPAL SHOR Cee E E E 01 889 091 000 ON 4009 706505 SVX9W MAYIS VHH NVd 01 948 84 000 ON 4009 706505 90 TETTE 01 748 84 000 ON 4009 702906 OW ddHSVM LV 14 Salat GS 01 448 84 000 ON 4009 702509 OW ddHSVM 9NIddS PHN 901 NO dW
20. a HM RATET C BU M goal ae TXD C ez 9 RED9 25 7h 9 RED9 7 TXTJ FG 6 11 lt 7 lt i RXD H Mie 9 BLK9 40 9 BLK9 re TXTJC RATER H e RE lt RXD C QS 2826 zj T gy 100 110 115 120 a 9 BFOV RATER C 81 FIK3 12V AC ae 220 230 240VAC 7h10 RED10 7310 RED10 TXRJ H Fa 9H HQ 0V AC 2H 16 60Hz 4010 BLK10 9 4010 BLK10 TXRJ C DC12V H 1 41 4457 14 FG Nc 3 12 BFOV DC12V C 12 711 RED11 7311 RED11 FG 27 11 BLK11 Ll 11 BLK11 TB10 1 AC105V iu Opp 1294801 JJ ALE 4 a a 712 BIKI 7212 BIKI cos 1 y DISTRIBUTION Box 222 rr ERE 4 IANALOG 10 Z Te T GND 10400 5 QS 108 370 x1 RANGE SWITCH c Mt 50 Z L6400 Bk H DES 1 EL 2005 7 FAS D 1 0D 1 BFOV sr AI SM js ct 51 200 lp Y 11 2 8 apis pem BOX DIGITAL IND 05 351 LOGARM H Hoti 3 AS Bhs Ie MPYCS 7 MF 22L 1 5 DS 359 7 7 01 EXDM H TB1 LOGARM C 8 us ijv 6 a s cm 2 EXDN C AC100V BFOV g 7 1 IU 12 0000 384 84 G dt 3E 1938 MODE 0100 2 a at It EE Sem BS wr 4 C 14 DIM GND 3 TB5 DC12FH 11 ee RO
21. beu cus tete 3 2 32 Sable apiiCa ou y bbb raed vont aeons qM u LM ce ee 3 5 9 9 1 Transdi cer able sssr 3 5 3 3 2 Cables between Transceiver Unit Junction Box Processor Unit 165 3 5 3 3 3 Cables between Processor Unit Main Display Unit Sub Display Unit GO s dm A Eolo ONU NIU M 3 6 3 3 4 CIF NMEA Data Signal Cable CO SPEVV SB C 0 2 5 3 8 9 0 GadbleS uccidere E a de 3 9 3 3 6 Insulation of cables for u unusapa uqaqa 3 10 3 4 Remarks on Connection with Other Equipment 3 11 3 4 1 KP Input Signal for Interference Rejection 3 11 3 4 2 GIE NMEA Signal uuu L o ou uuu asta eo ue to aea euro eism 3 11 3 4 3 Requirement of Wind Direction and Speed 3 11 3 4 4 Requirement in Engine Revolution Speed Signal 3 11 3 4 5 Connection of Gyro Signal RS 232C 3 12 CHAPTER 4 POST INSTALLATION SETTING 4 1 Al DIP SWIIGH Selfi s uuu nun ubuta tahta i 4 1 D Splay illa a u u HP 4 1 Arle
22. m ZO gt m N WAT A a 1 rol CAC NOTE 10279 INDICATES TOLERANCE UF DIMENSIUNS WHICH IS NUT SPECIFIED INIMUM SERVICE CLEARANCE THLE 15 260 HEeb 904 T TAKEND E 3 59 w V We 7036 606 F DUILINE DRAWING FURUNO ELECTRIC CO LTD Er S552 SS 5S D 11 FIXING HOLES S J CABLE ENTRY m 5 POWER 611 PROCESSOR UNIT DIGITAL ANALOG DISPLAY 50 I 1 GROUND ING LOS c 1 TABLE 1 mm mn 1 1 DIMENSION TOLERANCE 2 5 NOTE 1 TABLE 1 INDICATES TOLERANCE OF DIMENSIONS 2 RECOMMENDED SERVICE CLEARANCE DIMENSION E DISTRIBUTION UNIT OUTLINE DRAWING FURUNO ELECTRIC Co LTD 325 240 4 98 BAK FIXING HOLES 1 2 INSTALL UNIT LEVEL TH WITHIN 1 ERROR ADJUSTABLE UP TU 2 08 30 AA LIE on 122227 S30 mitt OR S NEN FURUNO ELECTRIC CO LTD 260 HA 4 012 FIXING HO
23. 5 2 Idle 65 22 5 4 56 5 12 5 comunis 5 15 OSE 5 16 5 3 Checking External Noise and interference 5 17 5 91 External Nolse CNGK aset oae sd 5 17 5 5 2 Menderen e ce 5 18 OUTLINE DIAGRAMS G u D 1 INTERCONNECTION DIAGRAMS uu S 1 APPENDIX LIST OF DIP SWITCH SETTING aan AP 1 DIP EoGall6 ku e u u un nebat cebat AP 1 Setting FUNCION OF DIP uuruuu 1 DIS OVARY uuu A 1 2 ir FOCCSSON UNT cte dain i AP 2 Mansceiver i ii bis i AP 8 Digital INGICATON 7 5 PIPER AP 8 Complete Set kg Transceiver Unit _ DS 320 5 Transducer Casing DS 330 DS 331 1 Select one Seachest with Gate Valve ncl DS 335 450 Transducer 6 Installation Materials Type Weight Remarks a gt i lunctionBox psseo 50 SOS Distribution Unit Digital Indicator 5 5 Analog Indicator MF 22A 4 4 MF 22A 6 Range Switch B
24. FUULRAUUURNKO INSTALLATION MANUAL DOPPLER SONAR MODEL DS 30 FURUNO ELECTRIC CO LTD www furuno co jp All brand and product names are trademarks registered trademarks or service marks of their respective holders Elemental Chlorine Free The paper used in this nanual is elenental chl ori ne free FURUNO ELECTRIC CO LTD FURUNO Aut hori zed D stri but or Deal er 0 52 Ashi hara cho N shi nomya 662 8580 Telephone 81 0 798 65 2111 Fax 81 0 798 65 4200 A MY 1993 T SEP 16 2009 X All rights reserved Printed in J apan Pub No IME 72360 T TATA 05 30 MNA 00080474613 SAFETY INSTRUCTIONS DANGER WARNING and CAUTION notices appear throughout this manual It is the responsibility of the installer of the equipment to read understand and follow these no tices If you have any questions regarding these safety instructions please contact a FURUNO agent or dealer This notice indicates a potentially hazardous situation which if not DA N H avoided will result in death or serious injury This notice indicates a potentially hazardous situation which if not WA R N i N G avoided could result in death or serious injury This notice indicates a potentially hazardous situation which if not C A U T avoided could result in minor or moderate injury or property damage WARNING Only qualified per
25. lt For cables led in through cable gland gt solder a vinyl sheath wire to the armor and connect it to the grounding terminal Bare wire Vinyl Sheath Wire soldering To Earth Terminal 2 Cable Shield lt For individual shield gt Undo individual shields only near at the terminal boards to which the wires are connected Further tape shields for insulation Individual Shield A os T 21117 mal ae ar uL Ly For common shield Undo common shield at entrance of the unit and tape it for insulation shield Vinyl Tape 979 3 3 6 Insulation of cables for transducer Insulation check 1 Remove all cores and shields of the transducer from the terminal board All wires of the transducer are open 2 Set the multimeter to the maximum resistance range and measure the resistance between each transducer line TD1 TD2 TD3 and individual or common shield TD1 Black Red Cable of transducer TD2 Red Black TD3 Green Red Black Multimeter Temperature Sensor 1 Yellow White Temperature Sensor 2 Blue Grey G Digital multimeter More than 10 Analog multimeter Needle does not swing Note If rating is not met a location suspect faulty insulation Replace a new 3 10 3 4 Remarks on Connection of Other Equipment 3 4 1 KP input Signal for Interference Rejection When a TX trigger pulse Keying Pul
26. 05 300 553585455534 13 131334311105 3220 433 31333333 CP vol 6650100101 CP vol 6650160100 de 0123456789 OK dev 012 OK dsw 02 00 BATT OK dsw 00 00 20 pwt O97 096 29 6 25 4 2942224 05 310 290 190 290 CP vol 665110103 txi 55 5 5 5 5 dev 0123456789 dsw 00 20 00 FT vol 6650120100 dev 0123456789 OK 458 00 vol 6650130100 dsw 00 00 vol 6650140104 dsw 00 22 00 00 55 adi 0 050 0 050v ad2 0 000v 2 250v ad3 0 000v 0 000v ad4 2 448 1 950y SelfcheckItem Description o TX Voltage e E Fore Beam STBD Beam Port Beam TX voltage is normal if reading is more than 180 for all three beams NOTE Readings may fluctuate Read a peak value TX Current Dd XX NOTE Readings may fluctuate Read a peak value Received Echo Displays received echoes for fore starboard and port beams When speed readings are abnormal check that there is no interruption of echoes due to aeration Use DEPTH RANGE key to change the depth scale Fore Beam STBD Beam Port Beam TX current is normal if reading is more than 3 0A for all three beams TVG ON OFF TRACKING MODE key turns on off the TVG Time Varied Gain which is applied to received echoes displayed in item 3 When TVG is ON propagation attenuation of sound in water is compensated so that echoes from targets with the same property are displayed in the same intensity
27. APPROVED THIRD ANGLE PROJECTION TITLE iA St ER ERAH OUTLINE OF DISTANCE INDICATOR CHECKED lt Aq SCALE x MF 22T 2 BULKHEAD MOUNT mf E BRAWN WEIGHT 2 0 owe NO C7213 092 A D 31 e DOPPLER SPEED LOG MF 22T DISTANCE INDICATOR ZERO RESET NAUTICAL MILES 90 NOTE WERE woMAFSSTCOT ILITILHI250 mm O 88 aL amp T lt tt 2 70 ENABLE THE CHASSIS 70 BE DRAWN OUT ALLOW WIRES OF APPROX 250mm LONG BETWEEN CABLE CLAMP AND TERMINAL STRIP 2 7 ZL0o483E132 JR RIANT ah DIT CABLE ARMOR SHOULD BE CLAMPED TIGHTLY AFTER REMOVING THE PAINT REAR VIEW 45052 kN me 54 A 26 pA ERMINAL STRIP MOUNTING BRACKET SPCC 7 BANE 58 _ spec i x HOUSING secc ESA ts E OD O3 N NAME MATERIAL Q TY DWG NO REMARKS RR Z O anp HEEL FEE I APPROVED Z e THIRD ANGLE PROJECTION TITLE EE Mr 227 3 OUTLINE OF DISTANCE INDICATOR PLVS N TABLE TOP MOUNT 5 EA 17 2 ES f aur DWG NO D 32 2154199719 ON If 12 JNIAVdl ANI TL 41 14 4655 TONY MINUZRUH 31319395 LON SI HJIHA SNOISN3WIC 40 39NV83 TDL 53199101 T 101 2 JJNVdV J3LA33S WAWININ T AION OST CE 509
28. CO 58 NYS JHL SI ALITVNO LT 09 IALDITT ONNand LONGOYd YAddN JHL 40 39V1d NI ddIHS 38 AVW LONGOYd ddMO 1 JHL WALI NV 304 041511 38 AVW S3009 SddAl OML 8 l1W 9 242 ON 1 HA SEE o CUI NFAL SHOW Cee C E 3 71065 50 01 43133 023 SI lt 70 10322732 dj Bt PIE ON AlddAS NOTLdO 9 RCO OC EL ON ON 3402 MEME ON FON 9717 095 ON adoo FON 44 dSX2 0 J 8S AAddS 02 70185541 052 928 200 4109 MOS 318V2 1 915 IST 80 0 07 S A3 0 lt 7 99 Rials 6 B 072 928 200 3305 ASSV W8 18V9 171 915 351380 5492 32 A3 m a c 5R 995 ASSY OEZ 928 IP 318V2 1 915 WS dSX2 O ss 21452 02 08 8 5 995 YIVd 0315 401 dlVd 43151 1 dS 1l C 15 4 1108 1916505 OCX9M MW hhg 50114149530 3NI 1100 OH WHY Fike pj 5 t 727 095 000 ON 2107 4 6 5 KOT WwOS JOLXZ SNOT Ld 1 YOSad ANITLNAO a N V N ON SWIMALVW NOIIVTIVISN 10 600119 Se m W x d 4 e amp t 53 x M ZO B 11842 1 915 1 4 5 SIVDWALVA NOILWTTIVISNI WALSAS 9 200 d NOS 8314404 SS e 2 gt 0v800 99d0 3dAL fn eC ad uc 00800 99989 6 S1 6 X WV99 00 01 9 8 200
29. operation panel refer to the next page Reinforce if necessary the bulkhead to withstand weight 10 kg of the display unit 2 Detach the display panel from the cabinet by loosening screws 5 at the four corners of the display panel Qin the figure 3 Remove nuts which fix the panel spacers at the four corners of the cabinet The nuts removed are unnecessary 2 in the figure 114 Display 35 4 Cabinet A 3 266 Display 3 372 3 I W Jes m an 2 I e e D 8 4 D Panel Spacer Loosen 5 screws Loosen nuts Fix display Fix display to detach display M6 to panel to cabinet to panel remove panel cabinet bulkhead with Spacer panel spacers 4 Attach the fixing plate to the back of the bulkhead by using woodscrews 3 or 4 mm When space is insufficient to use woodscrews and a screwdriver use glue or vinyl tape to tempolarily attach the fixing plate 5 Fit the display unit to the cutout hole and insert the four panel spacers through the holes on display cabinet bulkhead and mount plate Then tighten the panel spacers securely to fix the cabinet 6 Fix the display panel to the cabinet as before by using four screws M5 Mounting of Operation Panel 2 3 2 2 Processor Unit Select a mounting location taking the following points into account 1 Since the unit generates heat select a well ventilated location with low humidity 2 The unit can be b
30. 0 to 50 0m 0 0m UKC Offset Set a correction value to be applied to the under keel clearance UKC measured by DS 30 Use to add the correction value to the readout and to subtract it 4 correction value is usually used when the transducer is installed off the keel as shown below XDCR for Offset value A correction value is used to measure water depth instead of the under keel clearance In this case ship s draft is applied as the correction value In addition to above if there is a difference between the under keel clearances measured by DS 30 and echo sounder and you are sure that the value measured by echo sounder is accurate the difference can be used as a correction value Speed Display the difference between the over the EXECUTE Difference ground speed and heading measured by DS 30 and those derived from the external nav sensor The difference is displayed in parenthesis to the right of the correction values for the compass and the ground tracking speed It takes a few minutes until the difference is displayed 4 6 4 3 Setting System Menu The system menu contains display unit preset menu ship data menu and external sensor menu 4 3 1 Opening System Menu Turn on the unit while holding down the MENU key until a beep sound stops 4 3 2 Closing System Menu Turn off and then on the POWER switch 4 3 3 Setting Displa
31. 30 described below 3 1 3 Other cables of DS 30 Observe the following guidelines to prevent noise interference problem 1 When the cables run in parallel with power cables separate them 40 cm at minimum 2 When the cables run in non metallic conduit or duct behind a bulkhead use an armored cable without protective covering and ground it every 50 cm 3 1 3 2 Cable Specification When the cables shown in the interconnection diagrams are not available use their equiva lent referring to the table below Coverinc Diameter PVC PVC EP rubber PVC PVC PVG PVC TTYCY 16S PVC individual A CAUTION Confirm that the power supply voltage is compatible with the voltage rating of the equipment Connection to the wrong power supply can cause fire or equipment damage The voltage rating appears on the label at the rear of the equipment 3 2 alq 09 2191939713 ONNHNS Y 80 982 9 evo 2 5 Jog eul JOJOSUUO J9onpSuEel 2 3111 w 06 50 s xog uon un 09 8 22220220 1 ZHO9 0S Uf J9AI92suv1 am OVAOEUUOCC SIUOTI 001 0ze S SNIVW S dIHS 95 20 2 8S A d3dS OO CE m x P St WOOL XP 2 5 2 11 1 zH09 0S OV AO0vC 001 SNIVIN S dIHS x eg SOL ADALL 9 11 U lt C lt Ul nondO
32. 9OUB1SI LCC LLIN UOS XEN E SADALL pueg uonpiodo LO SG P 1 H09 0 S OVAOECC OCC STI OLT OOT dOLxZ0 2 8S A 3dS O2 WOE 521 0 SNIVW S dIHS 5 lt i 056 54 CEN O xOSbk 800 07 S A3 WOE gi lu 81 MUN 20859201 g Orc sa 0 145 UIN JO 338 Y ore Sd O KISL EO 0 07 S A3 kejdsig qng pued uongiodo V00t SG 00 SG 106 54 111 02 QIH19 1 ONnHn peog euiuu48 O1098UUOO 06 50 indur Zo eue uonooJrp pura GZ 1 ADAdi 1 62 11 11 UJOGL XEN E SAJALL L SADALL a KEW TE 1ndu SADALI CST yndjno es nd uns eougjsiq CT IO Sc HO LId WOULO Soyeue SADATI 1 1 poro uond Q9 40je5ipug 68 TECH jndjno Juanma poads s dius dur yeudis 0166 Is Sd uondo ejdsiq 222 1 2H0970 lt 2 001 OLE SA SNIVW S dIHS Pema SADALI x qx 1xg rssIW F Y O T UJ00 S7 SADALL 1 1109 0S OVAOECZ OZC LAIA 1011 001 8 SNIVW S dIHS suing
33. FIXING HULE X 1 1 5 TOLERANCE ISLOZ UNLESS OTHERWISE SPECIFIED 2 NOTE 2 DIRCTIUN OF SCALE 15 5 FIXING DIMENSION Pru Yamasaki VFME 22A 8 roro YAKIMURA f SER ME ANALOGUE DISPLAY UNIT BULKHEAD MOUNT 0 67213 133 6 OUTLINE DRAWING FURUNO ELECTRIC CO LTD D 28 BULKHEAD MOUNT 88 RANGE SWITH BHX CABLE ENTRY PANEL SPACER L 66 019 5616 0 FIXING HOLES 0 0 Eu zx 1 TABLE CUTOUT DIMENSIONS DIMENSION 051 lt 50 25 106 25 50 51 lt 100 Xn NITE 100 L 500 1 1 1 TABLE 1 INDICATES TOLERANCE UF DIMENSIONS WHICH IS NOT SPECIFIED 7 0 PLU HT u RANGE SWITCH BOX mw C7e36 Gee D HUILINEDRAWING FURUNO ELECTRIC Co LTD D 29 FURUNO A IQ DOPPLER SPEED 106 MF 22T DISTANCE INDICATOR ZERO RESET NAUTICAL MILES NOTE 9 CHASS S FIXING SCREW AT 9C 4 97 FIXING HOLE B G NOTE ARAA 253 SS COTTE 250mm 2 PTS ENABLE THE CHASSIS TO BE DRAWN 007 ALLOW WIRES OF APPROX 25Omm LONG BETWEEN CABLE CLAMP AND TERMINAL STRIP 2 F Tio it DH z X AAT 221 7 ED ITS CABLE ARMOR SHOULD BE CLAMPED TIGHTLY
34. H RADAR V 2sq lt EDE CD L gt y n lt L i EDE C DC 2 Tivos mmm gt KKL lt IILM REMO H gt M gt H lt REMO H RXD H 3 DEPTH INDICATOR s os oa ae oa es Re TRANSDUCER lt M lt i 5V REMO C lt RXD C 245 mee DS 220 lt N lt H 5V BFOV gt P gt L P lt i BFOV FG gt 10 gt K P lt OV BFOV gt R R lt OV TBI ANAL 3ko 25W S 0OV ACG1OOV T INDICATOR a AC100V 100 120 W 00 2 GND 200 240VAC 3k 2 25W 1 AC 2 AC for 200 240V 100 110 115 120VAC 1 Qc ce a a a 200 220 230 240VAC PT I E 1 50 60Hz MF 22L DETAIL FOR MF 22L 2 DRAWN TITLE 3 2 DS 30 4 T TAKENO 28 Apr 09 NOTE APPROVED 1 SHIPYARD SUPPLY 18 09 R Esunn 82 OPTION 0 0 2x2P CO SPEVV SB C 0 2x2P 610 5 SCALE MASS NAME 3 FITTED AT FACTORY 0 0 xSP CO SPEVV SB C 0 13 5 DOPPLER SONAR 4 GROUND THRU CABLE CLAMP 0 0 2x10P CO SPEVV SB C 0 2x10P 16 DWG No 07236 001 K INTERCONNECTION DIAGRAM FURUNO ELECTRIC Co LTD TBI 6100V AC100V 4 2625 3 L H
35. I9 EE 9NIMOVd NV TD CHO MAGE G 20 20222012 ee 21 14 4 HOVN ON uox SIVIYSLVW NOIIVTIVISNI w NN Y 08 SMVMHM 910114189540 3NI 1100 2 BEC Sik E SAEI G IID6 X MV99 00 065 9 8 200 3009 red s lat laik 81 V 2196 1 99 11 21413414 4 CANO 39N383338 9NIMVHO NI SNOISN3WIQ 62 8 fl CO De E JAYS 3HL SI ALITVNO 191044 ddddil AHL 40 0Vld NI ddddIHS 38 AVN LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 53009 NV 534 1 y 1 HA CYYuXWVog3 AFD GUI 1 SHOW Cee C E 01 191 991 000 41 14 82 LAS ME 01 0 991 000 ON 3009 11 eW S2 IM NT 0 130 s Er 01 116 0 000 ON 4403 21 14 Xy 4 Sav 5 0114189540 INI 1100 ON Ea BH 2 WY zr SIVIYSLVW NOIIVIIV1SNI SAEI 01 6 99 00 088 9 8 200 ON 3005 906 X MV99 OO 91819313 ONnund 10 6 99 411 918193713 ONNAN CANO 3JON3334434 403 ONIMVYC NI SNOISN3WIQ 62 8 CO 5 CANO 39N383438 404 9NIMVHO NI SNOISN3WIQ 62 8 2 FIFA 000 5 3AVS 3HL SI ALI TVRO 3NAVS HL SI ALITVAO LONGOYd 191084 ddddil AHL 40 39V d NI ddddIHS 38 LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 54009 NV 534 1 Y
36. ON 3002 Ts ow deem ommum a v 8176 99 OO O 1I O ONNYNSG 3NVS SI AIIIVIO 190084 dddrl SHL JAYS JHL ALITVNO 10 49V1d NI ddIHS 38 AVW LONGOYd YSMO1 HL NV 404 041511 38 AVW 53009 534 1 OML LONGOYd 401 HL 40 JOW1d NI ddddIHS 39 1901084 101108 HL 141611 38 AVW 54409 S3dAL MOL VAL 1 CE ELE ony TWH S CUT n PHL SOT CSE YY LLC YZ ZG S PHA SHOW Z LEE 2 284 ARLORA 39N343J3M 504 ONIMVYG NI SNOISN3NIQ 2 SES f Z F CO DEL D x AINO 30N3H3438 SNIMVHO NI SNOISNHMIG 2859 FEE Ul S1 6 X NV99 ON OMG 011 09 91419373 ON 203 HMVN S HSVH49 HN091IIS Xhi GA Ef 3 10 9NIN31H9 IL ACV BS 1dVd SZ et JO MVN 124199830 3NI 1100 14 28 22 x 119149531 06 54 E Ha W31SAS 9NIX90Q YVNOS 43 14900 4612 610 9 Z 8Ib6 X MV99 00 061 081 001 ON 3000 cl V 13553 834 5135 oNXo 0000 0088 adM L L l SI6 X MV99 00 066 88 200 ON 3000 LL V 0 6 X MV99 11 214 1 32414 ONNANSA JAYS JHL 117 00 LONGOYd 401 JHL 40 39V d NI ddIHS 38 AVW 190084 101108 3Hl 041511 38 AVW 53000 NV SddAl MOL Sh SMYVWAY 1 1 6 0 76 1 99 VL V hEVIDCV GEIS
37. RH RH kS 15 KTMS RXD H SBD1 H DC12FL 11 13 IZ MJ A7SPFO019 2m Jl SMO KO AD MZ 4 16 0 RXD c 6 HH SBD1 C lt 1 lt TD A TERMINAL Box L TP DISTANCE i BFOV 105 902 BLU 2 TD B INDICATOR B ot DEGREE DS 300 6803318 1 I Bas at Wet J MAIN DISPLAY J34 CO 0 2x10P Tus 24VDC 5 5 E 7 RED K 5 lt 24V P 5 K J31 RXD H gt A gt O lt TXD H E4 BLK lt 6 lt OV a lt A XA RXD C gt B gt B lt TXD C P 1 lt 7 lt FG 1 TXD H gt C 2H 4 lt C lt RXD H gt arb 2 8 2 A6SPF0013 2m 1 yo 5 KC lt YA TXD 0D D2H p RXD C TXD 6 gt 2 gt S pon WHT 1 lt DIN O al EL 5 KD lt IYB ESI HDE gt X E EST H 8 RXD H gt 3 NAVIGATOR T BLK x lt 2 lt GND 2 KE lt ISWD EST C gt H F lt i EST C 2 RXD C 5 i mae ME x KFSWOK ECH H gt H gt L H lt i 8 6010 SERE 6c E KH lt SWREQ ECH C J HHHK lt ECH C RR MERE iL L 5 lt J LEDD lt lt EDE S TXD H gt 1 gt
38. YES if a gyrocompass is connected R O T GYRO Choose YES if a laser rate of turn gyro is connected WIND METER Choose YES if a wind meter 15 connected TACHOMETER Choose YES if main engine is tachometer is connected CLINOMETER Choose YES if a clinometers is connected NAV SENSOR Choose YES if a nav sensor is connected 4 10 CHAPTER 5 POST INSTALLATION CHECK 5 1 LED Status Check 5 1 1 Location of LEDs The LEDs are located on the printed circuit boards shown in the table Processor Unit MCP Board 66P3310 R1 to CR11 Board DS 310 MFT Board 66P3312 MKL Board 66P3313 MIF Board 66P3311 MLG Board 66P3319 Transceiver Unit NCP Board 66P3330 DS 320 NTX Board 66P3331 NPR Board 66P3333 CR1 to CR3 Rate of Turn Gyro IF Board 66P3355 CR1 CR2 DS 430 Above output connector Digital Indicator PCP Board 66P3355 DS 350 351 Distribution Box OCP Board 66P3340 DS 370 OAV Board 66P3342 V C OAC Board 66P3342 C ODD Board 66P3345 CR1 CR2 O Lit Q Blinking Q Not lit OFF 5 1 5 1 2 Processor Unit MLG Board 66P3319 MFT Board 66P3312 MKL Board 66P3313 MCP Board 66P3310 MIF Board 66P3311 CR3 5V PASS CR1 PASS CR3 PASS CR4 12V 2 CR5 EST CR5 12V CR7 CR2 KLT CR8 LOG CR3 KLR CR6 DSPT CRA TTK CR7 DSPR CR10 CYRD CR5 TRK CR8 TXT CR11 CYRC CR6 ATK CRO TXR CR12 RELD CR7 ATR CR10 AXT CR
39. ad2 0 000v 2 250 ad3 0 000y 0 000v 2 448 1 950 5 40 5 0 52 0 ML 10 Reference data for factory use OQ 9 9 G No Self check Item Description Display Unit DS 300 dev 0123456789 OK LCP Board Memory IC Memory ICs are checked If all checked ICs are normal OK is displayed If a faulty IC is detected is displayed to the right of the number corresponding to the faulty IC The numbers 0 to 9 represent the following ICs 1 SRAM Lower byte 2 VRAM Upper byte 3 Dual Port RAM 4 VRAM DO to D3 bits 5 VRAM D4 to D7 bits 6 VRAM D8 to D11 7 VRAM 01210 D15 8 Color Pallet 9 EEPROM Display Unit DS 300 XXX BATT OK LCP Board DIP Switch Setting DIP SW S1 S2 setting Battery voltage and back up data Battery Voltage Back up Data The result of battery voltage and back up data check is displayed by three types of message OK Both battery voltage and back up data are normal WR Battery voltage Is low but back up data is normal NG Back up data is abnormal or data is not guaranteed 5 12 INo Sefchecktem o Z o Processor Unit DS 310 Idev0123456789 OK MCP Board The following memory ICs are checked 0 EPROM 1 PSRAM1 Lower byte 2 PSRAM2 Upper byte 3 PSRAM2 Lower byte 4 PSRAM2 D0 to D3 bits 5 SRAM echo 6 Dual Port RAM MFT 7 Dual Port MKL 8 Color Pallet 9 EEPROM dev 01234567 OK Processor Unit DS
40. away from the transducer of the ultrasonic equipment and change if possible the direction of its transmission beam so that the beam may not cross the beam of DS 30 5 Installation in Dangerous Place Do not install the transducer in the oil tank oil room LPG gas room and freezing room 6 Maintenance Space The transducer is detachable replaceable in the water from outside the ship 1 1 2 Other Indoor Units All units are designed and constructed to withstand humidity and corrosive atmosphere common to a vessel However certain guidelines must be observed to ensure continued operation When selecting a mounting location keep the following points in mind 1 Avoid place subject to high temperature humidity This includes heat emitting apparatuses and sunshine 2 Avoid places subject to sea splash Sea splashes most assuredly damage the sensitive components inside units 3 Locate the units where they will not become soiled easily Never locate it near exhaust pipes 4 Select a place where vibration is minimal 5 Select a place with sufficient ventilation 1 2 1 2 Grounding All units use pulse signals Thus insufficient grounding of the units may cause interference to other electronic equipment on board such as radio direction finder and radio receivers To minimize unwanted radio radiation perform the cabling and grounding works with due consideration of the following remarks 1 Do not run cables near radio apparatuse
41. irrespective of depth where targets are located SHIFT Shows gain for echoes displayed in item 3 Use the TRACKBALL to change the gain 5 15 5 2 5 TX RX Test The TX RX test checks the transceiver circuit and the transducer for each beam When the speed readings measured by DS 30 are abnormal and echoes shown in the continuous test seem weak for a particular beam the transceiver circuit or the transducer for that beam may be defective In beam FORE AFT test the ship s speed is measured by using the fore and starboard beams without using the port beam Likewise in beam STBD PORT test the fore beam is not used and in beam FORE PORT test the starboard beam If for example the speed readings are normal in beam FORE STBD test but abnormal in beam STBD PORT test and FORE STBD tests the transceiver or the transducer for the port beam is faulty 5 16 5 3 Checking External Noise and Interference External noise level can be measured without transmission on the continuous check screen 5 3 1 External Noise Check 1 Preparation 1 Remove fuse in the transceiver unit 2 Display the continuous check screen 3 Set the TVG to OFF by operating the MODE key 4 Set the depth range at maximum by operating the DEPTH RANGE key Fuse 3A Transceiver Unit 2 Check at Mooring 1 Adjust the SHIFT echo gain by operating the TRACKBALL and note the SHIFT reading when the color
42. nuts placed from back of the installation location 2 5 Transducer Hull Unit For transducer casing DS 330 311 refer to the installation instructions on page 2 5 For gate value seachest DS 335 refer to the installation instructions on page D 9 Note that the spacer and upper plate should be oriented to the ship s bow 2 5 1 HULL UNIT INSTALLATION N CONDUIT PIPE CABLE GLAND 66 ESSA 16 6 NE WATERT I GHT CONNECTOR TOO 8 NC DSO ul 11 gt ww LA BR m vq SEE NOIE2 a RAS X1 gt Lad 2 9 5 2 1 CHECKING MATERIAL AND THICKNESS OF TRANSDUCER CASING Before starting the installation work check that the transducer casing is of a material approved by ship classification society concerned and The standard tank supplied by FURUNO is of material KSTPG370 KSTPG38 KST138 approved by ship Classification Society of Japan with a thickness of 25 mm with a thickness not thinner than the hull plate 2 DETERMINING INSTALLATION SITE Select the installation site reffering to the recommended sites described in the installation instructions For ships prone to collect air bubbles under the hull botton your local FURUNO office or agent for advice 3 CONSTRUCTING WATERPROOF COMPARTMENT FOR TRANSDUCER CASING The compartment for the transducer casing is n
43. of noise in the echo data window changes from blue to the background color 2 The reading is normally 7 or higher If it is less than 7 noise is excessive 3 Check at Cruising 1 With the SHIFT reading set at the value noted at check at mooring run the ship at various speeds 2 Observe the echo test window for the three beams Noise is displayed in one of the 16 colors shown below depending on its intensity where the color changes by one gradation whenever noise level is doubled Black lowest blue light blue cyan light cyan light green gt green yellow green yellow orange orange gt vermilion red reddish brown brown dark brown highest 5 17 3 Confirm that the noise level is almost even on all three beams and periodic pulse noise does not appear 4 If the color changes more than 4 gradations compared to that at mooring noise is excessive In this case check the ground of each unit If the cruising noise is too heavy you must consider transducer relocation 9 3 2 Interference Check Perform this check at a location where the depth is greater than 50 meters preferably about 100 meters and no other ships are in the vicinity 1 Set the SHIFT reading to the value noted at Check at Mooring 2 At a depth greater than 50 meters operate other equipment one by one observing the echo check window 3 When there is interference multiple strings a are
44. 0 CR9 TXR E s Serial data input from transceiver unit DS 320 cmo xr Unused auxiliary output port for data communication crit Unused auxiliary input port for data communication Keeps off when DS 340 is not connected Angular speed data input from rate of turn gyro DS 340 Keeps off when DS 340 is not connected Internal data serial output External serial bearing data input Turns off when there is no data input AUX1 in See note 1 Nav reference serial data output AUX2 out CR19 RAR YEL CR22 CR23 gt YEL 1R YEL 2 No Sina Color Pass IGRN Lights when self check of this board is OK 5 EST YE Echo start pulse to display unit DS 300 CR6 YEL Echo data pulse to display unit 05 300 ECK vL Echo display shift pulse to display unit 08 300 CR8 LOG YEL Log pulse 200 pulses nautical mile Flickering speed changes with ship s speed Turns off when ship speed is O kt CR10 GYRO YEL Flickers by serial data input from AD 100 When LSB bit of bearing data is an odd number it lights GYRC YL QD Flickers by serial clock input from AD 100 RELB YEL True bearing data output Serial data pulse AD 100 data format CR13 RELC YEL Clock for true bearing data Serial shift pulse AD 100 format cma CNT veL CIF NMEA port 1 data output CR15 CN1R YEL CIF NMEA port 1 data input Keeps off when CIF NM
45. 000 05 444400 11 6 4 99 00 098 018 000 0 3009 EE Co V 8296 1 99 1413914 4 CANO 404 ONIMVYC NI SNOISN3WIQ 62 8 2 OR 3NAVS HL SI ALITVAO LONGOYd YdddN JHL 40 30VId NI ddIHS 38 AVW LONGOYd ddMO1 JHL WLI NV 803 041511 48 AVW 3009 NV SddAl ry 01 1 49 000 4 46 400 ON 15 0 Y46A YE 01 148 691 000 1108 1918515 SOGX 108XccM WW NA 01 eLV L91 000 1016505 ZGN SUN XH TEN 01 07 L9 1 000 7910815 221 ddHSVM 9NIddS PHEN 01 618 691 000 1918515 0GIX9IM 1108 AGS AC 01 89 91 000 791518 911 TEN pe he 01 666 91 000 1912515 91 ddHSVM 9NIddS PHEN 50114189530 3 111010 ON F it ud uox SIVIYSLVW NOIIVTIVISNI SEE EET 6 eh6 X WYV99 00 02 088 200 ON 3d09 ORTEN H Go V List of Outline Drawings Page DS 300 Display Display Unit DS 300 Display Display Unit DS 325 Transceiver Unit DS 360 Junction Box D 11 D 14 D 15 D 16 D 17 D 18 D 19 D 20 D 21 D 22 D 23 D 24 D 25 D 26 D 27 DS 389 Range Switch Box 22 1 Distance Indicator Flush mount D 29 D 30 D 31 D 32 J IO O1 amp CO N O N CO E Up ER aD Ea D 2
46. 19 RELC CR11 AXR CR14 CNIT CR15 CN1H CR16 CN2T CR17 CN2R CR18 RAT CR19 RAR CR22 AXIT CR23 AXIR CR24 AX2T CR25 AX2R CR26 MOT CR27 MOR CR46 N C1 CR47 N C2 CR28 CR29 LOGI TEST CRS9 CR60 EKPI EKP2 5 2 1 MLG Board 66P3319 No Signa Color R1 R2 R4 TASK2 R5 TASK3 TASK4 TASKS YEL TASK7 YEL Carrier level c 2 LED Signal PASS L m Color Lights when self check of this board is OK nom O memada 500 O O E _ inemal deta _ n JRE 21 1 di m r YEL Flickers or turns off depending on internal data or DIP switch setting AUX1 out Internal data AUX1 in O D 4 D lt m internal data AUX2 CR7 ATR YEL Internal data AUX2 in MCP Board 66P3310 Remarks Signal R1 PASS GRN Lights when selfcheck of this board is OK R2 EXKP Blinks with external KP input Keeps off when external KP is not connected O QO 20 2 A r m m Echo reception gate Serial data output to display unit DS 300 YEL KP Blinks whenever DS 30 transmits R6 DSPT lt m 5 3 cm sem Control ata input from display unit D5300 QO Control data output to transceiver unit DS 32
47. 2 4 018 5 3AVS 3HL SI ALITVNO 3WVS 3HL SI ALITVNO 191084 H3ddf AHL 40 39V d NI ddddIHS 38 LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 54009 NV 534 1 191044 ddddil AHL 40 0Vld NI ddddIHS 38 AVN LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 53009 NV 534 1 SH EL CYWNUOSgag ag o C S 2 CES A E ERR 1 6 2 C Yi 7 q 2 GMAT SHOR EE E F E 01 916 891 000 ON 4009 09681 44 WN ddHSVM 9NIddS Ahhh GCI CL 01 416 891 000 ON 4009 OvEML 9W LAN TAL Ae LEN 01 916 891 000 ON 4009 Obedl OW ddHSVM 1414 FHE 01 968 191 000 ON 4009 1016505 211 ddHSVM 9NIddS PHN Ol S 71c 001 ON 4009 SHOU 7861 610 99 1108 11482 00 168 911 001 ON 4009 1 6861 610 99 ddHSVM 1V FHE QNVI9 41899 AGE MN L A ddHSVM YANNASYSLNNOD FH 01 661 91 000 ON 4009 9 9 1 706505 08X9IM 1108 X3H JNI0Vd 388 T T Ec 580114149530 3NI 1100 ON 810114130530 3 111010 SH Z it p 8 uox 3 SH EC Zi 5 SIVIYSLVW NOIIVTIVISNI SIWIYSLVW NOIIVIIV1SNI XE YET 2 1 01800 9942 6 4196 1 99 00 016 918 200 ON3000 aT 9 6Zb6 X MV99 00 0b 978 Z00 ON 3002 Glb6 X MV99 11 DIYLDATA ONNANSGA CANO 39N383338 9NIMVHO NI SNOISN3WIQ 7 82
48. 20 kt LON_ 5 00 to 10 0V ON oN 3 Ship s Speed Select type of ship s speed which is output from 4 Output Selection OAV board ree Fore aft speed in absolute value ON OFF Nectorspeed orel on 4 3 Board DIPSW Function Setting 10to 40 kt 106 20 0 mA 0 kt 7 2 mA 10 to 30 kt 4 0 to 20 0 mA 0 kt 8 0 mA 10 to 25 kt 4 0 to 20 0 mA 0 kt 8 57 mA 10 to 20 kt 4 0 to 20 0 mA 0 kt 9 33 mA Note Ship speed current output to indicator is as follows OFF 10 to 40 kt 2 50 to 10 0 mA 10to 30 kt 3 33 to 10 0 mA 4 1 4 Digital Indicator DS 351 option Refer to AP 7 4 4 4 2 Setting Offset Data Menu The offset data menu contains items for calibrating the DS 30 after it is installed on a ship Unlock the menu and enter appropriate data OFFSET DATA TRIM HEEL XDCR OFFSET COMPASS CORR R O T ZERO GND SPD 0 0 WTR SPD 0 0 UKC OFFSET 0 0m SPEED DIFF EXECUTE Factory setting in bold Iten Selection Trim Set ship s trim that is the relationship of the draft 12 5 to 12 5 at bow and stern Use when the ship is down by the stern and when it is down by the bow XDCR Offset 12 5 to 125 0 0 Set ship s heel that is lateral inclination Use when the ship is up by the port and when it is up by the
49. 310 MFT Board Memory IC The following memory ICs are checked The check result Is displayed in the same way as item no 1 0 EPROM 1 SRAM DO to D3 2 SRAM D4 to D7 3 SRAM D8 to D11 4 SRAM D12 to 015 5 PSRAM Lower byte 6 PSRAM Upper byte 7 Dual Port RAM MKL dev 0123456 OK Processor Unit MKL Board Memory IC The following memory ICs are checked The check result is displayed in the same way as item no 1 0 EPROM 1 SRAM 1 001007 2 SRAM 2 07 to D15 3 SRAM 2 00 to D7 4 SRAM 2 D7 to D15 5 Dual Port RAM 6 EEROM dev 01234 OK Processor Unit DS 310 The following memory ICs are checked The check result is displayed in the same way as item no 1 0 EPROM 1 SRAM 2 Dual Port RAM 3 Gyro Interface 4 A D Converter adi XX XXXV Processor Unit DS 310 MIF Board AD Conversion Voltage Wind direction Wind speed Readout changes as follows depending on wind direction speed 0 to 4 9V for wind direction 0 to 540 0 to 4 9V for wind speed 0 to 60m ad2 Processor Unit DS 310 MIF Board A D Conversion Voltage Unused Engine tachometer 4 9V to 4 9V depending on engine revolution speed Processor Unit DS 310 MIF Board A D Conversion Voltage Unused Unused ad4
50. 4009 GZ 4 01 9 1994046 NOUS YOLOANNOO 098 NOUS 444E S cC Y g qq AFD CM HRT 0 901 NO dWIY9 s Fy 01 948 84 000 081 901 NO dMIHO INN Ent eH BLL qM 01 448 841 000 21 N N HHSVM 9NIHdS BAY v IP 14 YOLOANNOD 5 9108 603 of aw Savi 5 0114189540 3NI 1100 HMVN ON 2 uox uoi 2 9 SIWIMSLVW NOILVTIVISNI 6 0 TO DNT NO dMIdO El tt 09 20800 99989 00 0 9 8 200 ON 3009 V6 X WV99 1 1 9 V6 X WV99 01 48 84 000 706505 91 01 809 691 000 706505 OcXG 510114189540 SEA E 0800 9940 00 082 918 200 04 3000 ddHSVM 1V Swat GS Md40S 44 1 4145 TAL 2455 3NI 1100 p 9 Soz CE E F D SIVIdd1VM NOIIVTIVISNI T 6296 1 99 q11 21413414 4 INO 3ON333443 80 4 9NIMVHO NI SNOISN3WIQ 2 5 2 4 CO 5 3AVS 3HL SI ALI TVRO 191084 H3ddf AHL 40 39V d NI ddddIHS 38 LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 54009 NV 534 1 1 fPRMICVYEEIGR SECO COMITIS 1 SHORN Cee E E E ddHSVM 9NIddS e PHEN 1108 1 00 194 798 000 01 682 191 000 ON 4009 21 TE MSHSVM 9NIHdS voesns 011 SAY v
51. 5544 3e Meex80 14 HEX NUT sussi 8 6 13 SPRING WASHER 508284 8 6 12 HEX BOLT 55446 8 6 150 11 BRINE SEAL 1iSETIVALOUANo70 0 10 0 v7 O RING CR e 9 7y GASKET t 3mm omt 2 66 019 1404 8 m FIXING PLATE 50536 1 66 09 1407 7 B WASHER SUS 1 Jawis 6 HEX NUT 50546 1 4 2 0 9 FIXING GRAND 505316 1 66 09 1204 UPPER PLATE LACQUER PRIMER OO era WG X s bevy SEACHEST CAP P RTH LACQUER PRIMER 66 01 1402 CLASSIFICATION SOCIETY APPROVED MATERIAL SHAFT SUS316L 1 66 09 1433 gt REMARKS TE 06 E APPROVED Y Hatai MKAN AE 1 10 w SEACHEST WITH GATE VALVE HULL UNIT INSTALLATION FURUNO ELECTRIC CO LTD I i NOTES SD Aa c2 CJ C2 Ra 7 y ca E H 2 230 111 4 06 FIXING HULES AISAN NAMEPLATE 230 C63 CABLE GLAND 8801 A43 200 7 GND TERMINAL TET 1 1 2 Tid x gt m pA RH N 3 3
52. 958 851 000 ON 4009 705505 98 IN XH TAL d RENE 01 48 84 000 ON 4009 702509 OW ddHSVM LV14 0 01 448 841 000 ON 4009 voesns OW ddHSVM 9NIddS PHEN 0l LY L 99 1 000 ON 4009 41 pN SZ LAS NO dMId0 EAF 01 17 691 000 ON 4009 J6 00 1 0 1 108 09 1108 LOVINOOD 1108 ANGGCE 01 466 841 000 ON 4009 4A1L0L000 020 9 10800 40193NNOO 9108 Ee 00 0 099 000 01 1 6 0 1 000 ON 4009 2 01 2v 095 000 ON 3002 MOE lE aap i 401 2 0 9 dS AAHdS 09 318V9 dIVd0I 410 0 401 9dSAAddS09 1 4 4 0 1 HIdV EXE BBY SMVMHM 5 0114142530 3NI 1100 ON RE Sie SIVIdd1VM NOIIVTIVISNI SIVIdd1VW NOIIVIIV1SNI SHEET SAEI G GZb6 X MV99 00 0 2 918 200 ON 3009 T TaT a Z 1096 4499 ON 3005 Zb6 X MV99 OO 91819313 ONnund 9zb6 X MV99 91819313 AINO 39N383438 404 9NIMVHO NI SNOISN3WIQ amp 2 8 22 PISIS 5 VS SI ALITYNO LONGOYd Ydddf NL 40 39Vld NI ddIHS 38 AVW LONGOYd ddMO1 JHL WILI NV 304 041511 38 AVW 53009 NV SddAl INO 3ON333443 80 4 9NIMVHO NI SNOISN3WIQ 2 82S E 3AVS 3HL SI ALITVNO 191084 ddddil AHL 40 39V d NI ddddIHS 38 LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 54009 NV 534 1 QA PRMICVYEEIGR 0 0034 SHOR EHE E E E 01 80 09 000 ON
53. AD 0 MAE ANALOG INDICATOR FLUSH MOUNT M 7236 9 DRAWING FURUNO ELECTRIC Co LTD E SS D 19 140 1621 0 P CU 7 0 aan Nu 291 0 4 12 meee TT TERMINAL STRIPS FIXING HOLES 4 18 T 1 TABLE Tie mm mm ui FIXING DIMENSION DIMENSION yx Ls50 1 1 NUTE 1 TABLE 1 INDICATES TOLERANCE UF DIMENSIONS WHICH IS NOT SPECIFIED TRAWN nS LYAMASAKL Too Usea sw PR RD x mr X 4 V ANALOG INDICATOR BULKHEAD MOUNT MW C7036 G8 D LINE DRAWING FURUNO ELECTRIC CO LTD LLL D 20 6 610 JIS F8801 20a FIXING HOLE CABLE GLAND BOTH SIDES tn f 6 TERMINAL STRIPS NM ort T YAMASAKI YKIMMURA 95 OB T PR Y KIMURA 10010 8 me ANALOGUE DISPLAY UNIT FLUSH MOUNT OUTLINE DRAWING FURUNO ELECTRIC Co LTD D 21 140 c 4 12 TERMINAL BOARD FIXING HOLE MOUNT ING DIMENSION TITLE RAWN Feb 9 01 YAMASAKI 22 2 ANALOGUE DISPLAY UNIT BULKHEAD MOUNT SCALE MASS 10 1 DWE
54. AFTER REMOVING THE PAINT 9 BERL BS EDZAS ASA wa hommes arr Rit T LOOSEN BLACK SCREWS TO DRAW QUT CHASSIS A M KW DISPLAY PANEL SPCC NOS a FUSE HOLDER D Hg 7VBES4H C Res z APR 2 7 NE z NE APPROVED lt ZZ THIRD ANGLE PEE aon P St GEAT d ARG H R E oe QUTLINE OF DISTANCE INDICATOR CHECKED deo SCALE ES FLUSH MOUNT lt lt a oS BOARD 2 spec m 6 0 38 Oey ae D D 30 FURUNO DOPPLER SPEED LOG MF 22T DISTANCE INDICATOR 749 FS zyk U lt q x 4 09 FIXING HOLE 7 7 Xn JAS CABLE ENTRY NOTE 1 5 250mmoa 5 ETFR ES TO ENABLE THE CHASSIS TO BE DRAWN OUT ALLOW WIRES OF APPROX 250mm LONG BETWEEN CABLE CLAMP AND TERMINAL STRIP 2 Top L o 423 20b 3E RA lt 72 272 00173 CABLE ARMOR SHOULD BE CLAMPED TIGHTLY AFTER REMOVING THE PAINT 2 BRAY EB vion mere J X 2 v NKAST LOOSEN BLACK SCREWS 70 DRAW OUT CHASSIS DISPLAY PANEL SPCC FUSE HOLDER 7 pum 4 TA CABLE CLAMP 440528 2 TERMINAL BOARD 2 j WHR S ITEM NAME MATERIAL Q TY REMARKS amp m 5 H x 32 z EE lt
55. C Ditto Water temp 25 C to 30 C Ditto Water temp 30 C or above Continuous self test for factory use Off nused Filter parameter For large ship ROM table 1 For medium ship ROM table 2 For small ship ROM table 3 or factory use Initializing E2PROM Yes Mode of output connector Normal Raw data output est data input for factory use Ho AP 3 Factory Setting MIF Board 51 1 ON CIF Format Baud rate 4800bps OFF Data through off dt For Port1 J2 NMEA ver 2 0 OFF Logpulse out at forward and backward dt I Logpulse out at forward only 3t 5 Seas e _ 3 Data through Data from external sensor are output from the same port together with the data of DS 30 O For Port2 J3 y Not used MIF Board 2 F OFF n T F O O 0 0 ojo ololols RI T Ti Ti FF OFF F 41 2 Jio a nim t x FF N Ti Ti Function gt UX port 1 baud rate 800 bauds 800 bauds 400 bauds 200 bauds UX port 1 input data format gt t ype 3 UX port 2 baud rate 0 baud rate 1 or 600 bauds baud rate 2 800 baud rate 1 or 300 bauds baud rate 2 400 baud rate 1 or 300 bauds baud rate 2 200 baud rate 1 or 300 bauds baud rate 2 UX port 2 input data for
56. EA data line is not connected to data source CN2T O CIF NMEA port 2 data output CR17 CN2R YEL CIF NMEA port 2 data input Keeps off when CIF NMEA data line is not connected to data source RAT YEL Control data output to rate of turn gyro DS 340 CR24 YEL YEL i Serial data input from external equipment Turns off when there is no data input AUX 2 in See note 2 Unused MIF D SUB25P See note 3 Unused MIF D SUB25P See note 3 Unused MIF board self check indication LED Light Self check working Off Normal operation Ro CR26 OT CR27 YE YEL YEL YEL i 2 D NO ID O 218818 5 4 CIF NMEA serial input output port 1 Light NMEA selected Off CIF selected 9 YEL CIF NMEA serial input output port 2 Light NMEA selected Off CIF selected v 29 v O9 m Eee KP 1 input from external equipment KP2 input from external equipment CR60 Selection of seria bearing data input format 1 Type 1 2 Type 2 Tokimekku 3 Type 3 Yokokawa Hokushin Input data format is selected by DIP switch m Selection of serial data input format from external equipment 1 Wind meter I F SC D232S 2 Yokokawa NAV PET MD1 1 Input data format Is selected by DIP switch MIF monitor serial input output port 5 1 3 Transceiver Unit 66P3330 66P3333 66P3331 12V CR2 12V CR3 5V
57. LES 13 E R DOPPLER SONAR CATCH 190 290 ik HINGES TERES G FII DE EB d iE s pk 25 CABLE GLAND irs 124 135 240 126 SS Y 22 FER T GND TERMINAL 1 TABLE 1 1 1 2 3 NOTE 1 TABLE 1 INDICATES TOLERANCE UF DIMENSIONS WHICH IS NOT SPECIFIED THE OPENING DIRECTION OF THE LID CAN BE CHANGED BY INTERCHANGING THE POSITION DF HINGES AND CATCH TO MAKE THE LID DETACHABLE REPLACE HINGES WITH CATCHES SUPPLIED 3 APPLY SILICONE SEALANT ARROUND FIXING BOLTS AND GROUNDING TERMINALS TO PREVENT RUSTING Feb 905 T FDA rezros Z a yo ag o ITO INDICATOR BULKHEAD TYPE M C7236 808 G DRAWING FURUNO ELECTRIC Co LTD FURUNO D 14 HR E MOUNTING BRACKETS FIXING HOLES 4 12 TCR CABLE ENTRY we 1 IABLE 1 1 1 2 8
58. LL PLATE AND MOUNT TRANSDUCER 26 WITHIN 1 DEGREE OF FORE AFT LINE AND WITHIN 1 DEGREE IN HORIZONTAL DIRECTION 2 BEFORE TIGHTENING NUTS 17 CLEAN BOLTS 15 AND NUTS 17 WITH SOLVENT AND COAT PART OF THREADS WHICH CONTACT NUT WITH LOCTITE 271 PREVENT NUT FROM LOOSENING SEACHEST EXCEPT GATE VALVE IS TESTED UNDER 4 9x10 Pa WATER PRESSURE GATE VALVE 3 CAN BE ATTACHED IN ANY DIRECTION IN 22 27 PITCH THE TRANSDUCER FACE IS COATED WITH MARINESTAR2O DO NUT APPLY OTHER TYPE OF PAINT TABLE 1 INDICATES TOLERANCE DIMENSIONS WHICH IS NOT SPECIFIED ORIENT FORE LINES OF SPACER 95 AND SEACHEST CAP 3 AND UPPER PLATE 4 TOWARD FORE DIRECTION TO INSTALL BERE TRANSDUCER 14 05 330 NOT INCLUDED IN MASS 2 SPACER LACQUER PRIMER 66701271431 CLASSIFICATION SOCIETY APPROVED MATERIAL ANTI CORROSIVE ZING 13 7 0 0 2 808 GATE VALVE Y EY ALKYD RESIN PRIMER cen 1 66 019 1411 ASSIFICATIDN SOCIETY APPROVED 9979 7 DOUBLING PLATE WARE LACQUER PRIMER 1 66 017 143C 1 CLASSIFICATION SOCIETY APPROVED MATERIAL Ol FLAT WASHER 150556 3 6 20 SPRING WASHER sussich 3 M2 19 HEX BOLT 5546 MIexeO 18 HEX BOLT sussi L 4 MIOX35 17 NUT suss 32 MeB 16 SPRING WASHER 50538 32 82 15 HEX BOLT
59. MARK OF THE CASING IN PARALLEL WITH SHIP S FORE AFT LINE AND THE TOP OF THE CASING IN PARALLEL WITH WATER LINE TO AN ACCURACY OF 1 DEGREE OR BETTER 4 TABLE 1 INDICATES TOLERANCE OF DIMENSIONS WHICH IS NOT SPECIFIED 5 CABLE GLAND CAN BE TIGHTENED BY THE TOOL SUPPLIED OPTION 00 siocus 2237 9 BOLT SUS316L 4 16 45 ELANCE ELECTROPLATED COATINGS 010 rs IRON OR STEEL 66 019 1252 ME CASKET T No JS 10Kx50A 10Kx50A KSTPG3 0 KA 66 019 1211 F ws een BOLT PU 3 66 019 1985 12 19 washer SUS36L 3 66 019 1205 11 8806 washer 805516 6 2 0 mon 59 FLAT WASHER UPL 1 66 019 1302 CABLE GLANp 1 66 019 1204 2 FLAT WASHER SUS316L 1 66 019 1203 13 RUBBER GASKET MEM 66 019 1202 CARING 66 019 1208 AP GR SOCIETY XXX ZINC RICH PRIMER MATERIAL 1 DS 330 220 05 530 z3 72 27 7 6 7 OUTLINE DRAWING FURUNO ELECTRIC Co LTD FLHRE AFT LINE N LIFTING HOOK SHIPYARD SUPPLY NUM 11 A m 141349 CX6 gt 268 D 89 8 2207 FIXING DETAILED VIEW 315 in H Al A
60. N aN ERE SUF B2 CONDUIT PIPE SHIPYARD SUPPLY 10 WATERTIGHT CONNECTOR 540 NN HULL PLATE o NX 2 1 Tu b GROOVE DEPTH TO BE DETERMINED BY SHIPYARD 1912 G B B INSTALLATION W O FLANGE 5 i ME TRANSDUCER TANK 5 6 D 8 25mrm NK KSTPG370 A 1 1 1 OR QMN NOTES 1 STANDARD THICKNESS OF THE CASING IS 25mm CONSULT WITH FURUNO WHEN THICKER ONE IS REQUIRED 2 MATERIAL OF TANK MEETS NK NIPPON KYOUKAD STANDARD KSTPG370 AND KA 3 ORIENT BOW
61. N No DS 351 only Depth Selection OFF Internal Depth ON External Depth DS 350 351 only 7 Mode Selection 7 8 8 OFF DS 30 50 only 5 Distribution Unit Swich Seting Factory Seting Noma Dummy Test 1 Dummy Test 2 ummy Test 3 ummy Auto Adjustable 4 OFF ot used Note1 5 Note1 Only for water tracking nav ship s speed is OFF AA displayed on optional indicator Nav ship s speed is always displayed on optional indicator Combined ship s speed is displayed on optional indicator Nav ship s speed is displayed on optional indicator Note 2 OFF Connection to DS 30 Connection to 60 600 Qo 7 1 O Tl Ti N TI TI Note 1 Set 5144 and 5 to OFF Note 2 Only when ship s speed is inputted from navigation device AP 8
62. NVd 4 A 3NI 1100 pj SH SIVIYSLVW NOIIVTIVISNI SEI 2296 1 99 11 1413214 ONNANSGA 344 JHL d0 39Vd NI 04441 5 38 AVW 1000044 83 01 JHL E 1 HPM svVH3Y 1 1 6 6V6 X WV99 CANO 39N3344434 803 ONIMVYC NI SNOISN3WIQ 62 8 2 Ob 01 948 841 000 706505 91 01 448 841 000 vOESNS 91 01 48 841 000 706505 91 01 94 99 000 47 86 1M 5 0114182530 SE Z ui 00010 9940 00 090 088 200 3000 WVS SHL 81 111 00 19010084 WALI NV 304 031511 38 AVW 54009 NV SddAl OML 207 62012 AFD DMRS 1 SHOR CER 1 L Y E LAN BL dd ddHSVM 9NIddS GAY ddHSVM LV 14 Mat HS 901 NO dW I9 3NI 1100 Pl SH SIVIYSLVW NOIIVTIVISNI T 196 99 G17 OS DIY LOATIS JNVS ALI TVA LONGOYd 401 AHL 40 39V d NI ddddIHS 38 AVW 190084 101108 3Hl 031511 38 AVW S3009 NV SddAl MOL e 1 SH 12 C Y Z q 2 SRO E F E 1NO 9NIMVHO NI SNOISN3WIQ 2 BSS EISE F CO s E x 39NV 14 QNV1I9 41899 ARE GM 4 ddHSVM ANNSYSLNNOSD FH ONI0Vd YFddNY T ESL SMMVMHM SNO Ld YOS3d INI 1100 ON SH amp i p x8 7 uox NOI Ld 9S3 08 54 W31SAS 911
63. No 7213 010 B FURLINO ELECTRIC CO LTD PARTICULARS MOVING COIL TE VOLTAGE CURRENT AVN Qu 27 01 YAMASAKI Jun 27 01 Y KIMURA DDMIIV Jun 2701 Y KIMURA D 22 PANEL CUT 4 5 8 SET HOLES T _ ANALOGUE DISPLAY UNIT FLUSH MOUNT 07213 0719 QUTLINE DRAWING FURUNO ELECTRIC CO LTD D 23 135_ CU LX 49 20 CABLE ENTRY N 6 5 TAPPED HOLE FIXING DIMENSION RAVN STIET Bo vnus _ T os YKIMURA SAE Sa ME ANALOGUE DISPLAY UNIT FLUSH MOUNT FURUNO ELECTRIC CO LTD FURUNO IRA 10 3 APPROVED THIRD ANGLE PROJECTION if R y CHECKED SCALE 2 DRAWN 2 D 24 MATERIAL eS NO NAME PARTSI ZSF 3 01 DIAL a amp 1 SHEETRESIN 02 POINTER 35 amp r 1 ALUMINUM PLATE A 3P2 7 7 x 7 ALUMINUM PLATE A3P2 0 G BASE N Z 1 SHEET RESIN O8 RESISTOR SAEI 2 091 DO JI 7 COVER 75 21 he i 79 RSS BN 2222 4444 See
64. On Note 2 CIF NMEA 2 option data Off Ditto On Note 2 GS Do _ 5 pmo 280mss 6 Dto Dio MIF Board eating 0 Rate ofturn gyro data averaging time 10 mses 1 y 20mses 2 Dio 40mses a 3 Dto 80mses 1 ___ Note 1 Prior to setting 6 to set 3 to Note 2 DRU Dual Doppler Auxiliary Data and VWT True Wind Speed and Angle are outputted 3 Transceiver Unit ch Setting Function Factory Setting Mode selection Normal Stand alone TX RX With the switches set as shown at left tum on the transceiver unit and the transceiver unit operates in stand alone mode output power and pulse length are adjusted with 55 and S4 respectively on NCP board Stand alone test S1 82 HMM OFF JON 0 Stand alone TX RX mode TX range 0m 1 pWto 25m 2 J 10 3 20m 4 5 E RNC O BEEN NENNEN 2223 St Ditto 30 0 m Stand alone TX RX mode power control 0 max 3 to 7 4 Digital Indicator Set the DIP switch S1 on PCP baord at installaltion Depth Unit Selection DS 350 351 only Display Mode Selection OFF Type A ON Type B DS 350 only Rate Gyro Connection OFF Yes ON No DS 350 351 onl 5 Gyrocompass Connection OFF Yes O
65. T 99 C36 804 F OUTLINE DRAVING FURUNO ELECTRIC CO LTD D 6 4 014 1 Fixing Hole 412 1 442 5 pri BL BLL LE NM ol lol o DO T ES JISB2222 10 40 E ES L N JISB2222 10K 40 Aen SGP 1 1 2 SGP 1 1 2 ra LYAMASAKI DU Rs 1 fn Ol Ja YKIMURA sit OE ag 7236 G13 C FURUNO ELECTRIC CO LTD FURUNO D 7 an an ITEM NAME _ MATERIAL Q TY TITLE DS 330 X Vie 25 Ape 12 TRANSDUCER 27 tISUPA D DWG NG 7236 014 FURUNO ELECTRIC CO LTD PR 8 d Te A TA FURNO 2 Dimension Tolerance 40 e FORWARD 50 L 100 100 lt Ls500 Z1 Tablet DIRECTION B SGP B2 CONDUIT PIPE WITH FLANGE Oy Ae ay SHIPYARD SUPPLY C OPTION 2 15 N WATERTIGHT CONNECTOR ZV Z Ap ATTA fons 2 HULL PLATE GE OHO 8 CROOVE DEPTH 10 BE A INSTALLATION USING A FLANGE DETERMINED BY SHIPYARD X6 7 X8X9X 00 20 30 4X NEN 9202112223 8 MASS WITHOUT ODECA 00 Y 20 3X LN NR IRR RN lt Ji 3 4 40 u gt B FORWARD pee DIRECTIO
66. U key As each self test item is protected locked the following alert appears This item is locked Do you want to change setting 4 Select Yes and press the MENU key twice and the selected self test is executed 5 2 2 Panel Test The panel test checks the operation panel keys for proper operation Panel Test Prese MENU key to exit TRACK ING ll opE NAV DATA SPEED BERTHING SPEED VOYAGE Kt m e Range RESET 23 24 RAMEE ADVANCE HU NU Press each key to see if the corresponding key mark on the screen is highlighted in reverse video For the trackball check that the hand pointer on the screen moves within the circle as the trackball is operated To terminate the panel test press the MENU key 5 2 3 Single Test The single test executes the system check for one cycle displaying the test result for each item checked Self Test 05 300 3 333443434 41333433444 05 320 434413313 CP vol 6650100101 CP vol 6650160100 68 de 0123456789 OK de 012 OK D ai dsw 0200 OK dsw 00 00 20 pwt 097 096 29 6 25 4 12 05 310 15434313 CP vol 6651100103 dev 0123456789 OK dsw 00 20 00 PORT FORE S FT vol 6650120100 de 01234567 OK dsw 00 KL vol 6650130100 de 0123456 OK ME dsw 00 00 IF vol 6650140104 dav 01234 OK dsw 00 22 00 00 55 adi 0 050v 0 050y
67. by Vibration and Shock Shock and vibration in longitudinal transverse and vertical directions do not cause error in gyro output if it s intensity is within the gyro specifications However note that actual shock and vibration contain angular velocity components which cause error When the unit is installed in the bridge the error may be neglegible Note The life of the sensor in the Rate of Turn Gyro is approx 17 000 hours When the elapsed time shown on the hour meter in the Rate of Turn Gyro exceeds 17 000 hours replace the sensor 2 8 CHAPTER 3 WIRING 3 1 Precautions for Cable Installation 3 1 1 Cable between hull unit transducer and transceiver This cable carries very weak signals with amplitude of less than 0 1uV which are easily interfered by noise Dedicate conduit exclusively for this cable For the conduit which runs vertically fill it with sand or other appropriate materials to prevent cable vibration 3 1 2 Cable between transceiver unit and processor unit via junction box These cables carry echo signals with amplitudes of greater than 0 1 mV which can be interfered by noise from high eletcric power cables Do not run them in a conduit together with the following cables 1 Cable carrying more than few kilowatts power to fluctuating loads 2 Cable carrying switching waves generated by thyristor etc 3 Transmission antenna cable of radio equipment Also observe the guidelines for Other cables of DS
68. d of 0 to full scale 9 11 3 4 5 Connection of Gyrocompass Signal RS 232C RS 422 1 Specification of Gyrocompass Signal DS 30 permits to connect the gyrocompass signal to AUX 1 port J4 in the processor unit only when the digital gyro data conforms to the specifications shown below In other cases connect it to the port alloacted exclusively to gyrocompass via the Furuno A D Converter AD 100 Communication Method RS 232C RS 422 Data Transmission Serial asynchronous form Baud Rate 600 1200 2400 4800 9600 bauds Data Interval 1 ms to 25 ms Data Format Type 1 2 or 3 Start bit 1 bit Start bit 1 bit Data bit 8 bits Data bit 7 bits Stop bit 1 bit Stop bit 2 bits Parity bit None Parity bit None No Data Description CR Header Do not care Line feed Polarity Plus space Minus x1 sec 0 1 sec Rate of turn 10 01 sec Check sum delimitor Checksum Checksum Carriage return Line feed Terminator 1 2 3 4 5 6 7 8 9 10 11 NOTE 1 Data should be in 7 bit ASCII code 2 shows a figure between 0 and 9 3 The checksum is the 8 bit exclusive OR of all characters in the sentence but not including the and the demiliters The hexadecimal value of the most 3 12 significant and least significant 4 bits of the result are converted to two ASCII characters which are transmitted as No 18 and 19 data 2 DIP Switch Setting Set DIP switches on th
69. dddN FHL 40 22 14 ddIHS 38 AVW LONGOYd ddMO1 JHL WALI NV 304 041511 38 AVW 54003 NV 534 1 y y 1 SH AGO FELEK GUI 1 SHOR 53 E E HY PRMICVEECIGR C OMIHRT 2384 SHOR Ces C E 00 10 161 000 00 07 101 000 ON 4009 cx 10 050 2451 34IM TANIA 10 080 ZASA HHIA TANIA 2 3 XMI 01 6 991 000 ON 3002 a o m ox HHN 1SV ASSY 318V9 VN9IS OZ LY4C WEM L 4 00 81 851 000 01 689 841 000 ON 4009 YOG C T s4 MOOTS S TEML MOOb8 S 1 44 1115 1108 AS 1 MBM MAYS VdH LV 14 TAL AEN ss 01 0t 99 1 000 ON 3009 e 41 W S2 LAS AO MS ddHSVM 9NIddS MSH ERY v 01 094 9 001 01 48 841 000 ON 4009 SHON 0 1005 610 99 1 9 voesns 9M ddHSVM 1VH HS 00 99 708 000 ON 4009 e 40404 0 2 0 86 0 Sc 9011 NO dMId9 ddHSV SH EM ET 21202502 1501 01 000 061 006 ON 3009 SHOU 0 200E 100 0 ddHSVM_IVdS ddHSVM 9NI1SPV M 580114189530 ON SMMVMHM al Sw Z 7 uox 2a SH SIVIYSLVW NOIIVTIVISNI SHOW 0 10 9 6 10 99 Meth Ad 90114180530 11100 BY S gt SIVIYSLVW NOIIVTIVISNI EAEI ea 0N L 8076 X WV99 00 016 9 8 200 ON 3009 red
70. displayed as shown at right 4 Put back the 3A fuse for normal operation 5 Turn off all ultrasonic wave generating equip ment echo sounder etc Interference 6 Operate the DS 30 in the ground tracking mode Confirm that the ship s speed and direc tion readout is accurate 7 Observing the display turn on and operate the ultrasonic wave generating equipment one by one with their output power and pulselength set to the maximum 8 If the ship s speed and direction readout changes abnormally when some equipment is turned on and operated that equipment is interfering with the DS 30 5 The interference can be removed by connecting the transmission trigger pulse KP of _ the interfering equipment to the processor unit See page 3 10 5 18 GZb6 X MV99 DIYLDATA 4 10b6 X MV99 q11 DIYLDATA ONNANSGA x INO 39N343334 80 4 9NIMVHO NI SNOISN3WIQ 2 82S CO 5 1NO 30N3433384 403 9NIMVHO NI SNOISN3WIQ 2 2 4 f F 01 5 3AVS 3HL SI ALI TVRO 3WVS 3HL SI ALITVNO 191084 ddddil AHL 40 39V d NI ddddIHS 38 LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 54009 NV 534 1 191044 ddddil AHL 40 39V d NI ddddIHS 38 AVN LONGOYd ddMO1 JHL WALI NV 404 041511 38 AVW 53009 NV 534 1 YY 12 C Yi CIGR SRO 278 RE C E RE HY 6212 C Yi 992 SHOR CE E F E 01
71. e MIF board in the processor unit as shown in the table paa pA AUX 1 Port Baud ISetbaud rate of gyro signal Rate Badmt 1 2 x o ww ow Set data format of gyro signal Data Format 3 4 _ OFF OFF 2 Te JoN Input Port Selection Select input port of gyro signal Select AUX1 Input Port AP 100 OFF OFF AU on CFNMEA on On AUX 1 Port Input Format 3 13 CHAPTER 4 POST INSTALLATION SETTING 4 1 DIP Switch Setting Check and if necessary change the DIP switch settings depending on the external equipment connected 4 1 1 Display Unit 51 DIP SW 51 Main Sub OFF Main Display DS 300 ON Sub Display Selection DS 300A Ltarerees 2 Ta 4 English on ONT ON OFF Coming direction ON Going direction OFF Legacy indication ON UTC indication when input GPS Signal Board 66P3300 Language Selection Indication of current direction Time indication 4 1 4 1 2 Processor Unit MLG Board 66P3319 MFT Board 66P3312 MKL Board 66P3313 MCP Board 66P3310 MIF Board 66P3311 DIP SW MKL 51 1 Filter Parameter This determines the response speed of ship s 2 Setting 66P3313 S3 speed reading against change of actual ship s 7 Interference speed Normally it is set as shown in the table C
72. e of terminals on the transducer A digital ohmmeter is recommended Do not use a megohmmeter TYPE OF SIGNAL TEST POINT STANDARD BEAM 1 BLK TB 1 RED 2 BLK 0 5 3 0 BEAM 2 RED TB 4 RED 5 BLK 0 5 3 0 BEAM 3 GRN RED 8 BLK 0 5 3 0 TEMP SENSOR 1 10 YEL 11 WHT 450 550 TEMP SENSOR 2 13 14 GRY 450 550 NOTE 2 The inside of transducer tank 16 and bolt 10 thru hole will be filled with water It has no problem 2 E 2 SILICONE SEALANT 2 Z a DETAIL FOR FIXING BOLT AND BOLT CAP TITLE DS 330 331 HULL UNIT INSTALLATION PROCEDURE NAME SCALE MASS REMARKS gf eE 7236 Y1009 FURUNO ELECTRIC CO LID 2 6 Rate of Turn Gyro Unit Option The rate of turn gyro unit should be installed in a location with minimal vibration so that the sensor inside the unit is level to within 1 error of up to 2 can be corrected There is no designation for orientation of the unit Select the location considering that the cable for connection with the processor unit is 5m long 2 6 1 Mounting Procedure 1 Fix four stud bolts on the selected location at intervals shown in the outline drawing 2 Fix the unit by using adjust nuts flat washers spring washers and nuts supplied as installation materials as shown below Nut an Spring Washer Flat Washer 2112 SEA Adjust Nut 2 2 N Just Nu
73. er cable into the casing up to the white line mark on the cable and tighten the cable gland with the cable gland spanner supplied b Install locking bolt 15 after the cable gland is tightened c Remove dirt and apply silicone grease onto the side of receptacle on the transducer before plugging the watertight connector d To plug in the watertight connector pull up the ring and insert the connector into the receptacle and then fix the connector holder 6 Jb Silicone Grease Thine Coating 6 FIXING TRANSDUCER Twisting the cable namely rotating the transducer by about one turn align the bow mark on the transducer with ship s bow and fix the transducer by using hex bolt 10 After apply silicone sealant to bolt head put bolt cap 13 onto it DRAWN Jul 26 06 T YAMASAKI CHECKED Jul 26706 T TAKENO APPROVED Jul 27 06 T Mat suguchi 7 CABLING Lay the cable from the casing to the transceiver unit inside a conduit pipe and fill the conduit pipe with sand or other appropriate materials to prevent cable vibration 8 PAINTING Shop primer coating Epcom Zinc Rich Primer B has been applied to the casing Paint both inner and outer surfaces on the casing with the paint used for top coating of the ship s hull bottom NOTE 1 The transducer surface is coated with anti fouling paint Marine Star 20 Do not coat it by other type of paint 9 TESTING AFTER INSTALLATION Comfirm the ohm valu
74. gyro contains an error specific to latitude For example the error converted to ship s speed is 0 02kt in transverse speed at north latitude 35 DS 30 corrects this error by latitude data fed by nav sensor 282 ship s speed and latitude 05 30 corrects this error referring to correction table in memory Gyrocompasses installed on vessels of 500 tons or more may correct the error by themselves In that case do not set this item to ON AP 2 MCP Board MFT Board MKL Board Switch Setting 1 OFF 3 F 1 6 OFF FF 3 Tl 71 54 2 A OFF S1 1 to 7 2 F E mim FF OFF FF O Speed data from nav sensor Position fix Ditto Ship s speed GPS 0 kt Unused for current reference calculation When ship s speed measured by GPS is Okt current reference calculation is suspended mainting the previous result Ditto Used for current reference calculation Position fix time interval Interval at which ship s speed is calculated from position fix data fed by nav sensor Transcelver unit baud rate 4800 2400 3 Interference rejector 1 Interference rejector 2 TVG curve selection Auto TVG curve is automatically adjusted based on water temperature measured by DS 30 transducer Ditto Water temp 20 C or less Ditto Water temp 20 C to 25
75. hange the setting when the response seems slow 55 Oto Engine Revolution Speed Full Scale Setting Medium 200m or more OFF ON Small 00m orless ION OFF Set to ON when KP signal from other acoustic equipment is connected to TB3 1 2 in processor unit for interference rejection OFF Interference rejector 1 on Factory setting ON Interference rejector off Interference Rejector 2 Set to ON when KP signal from other acoustic equipment is connected to TB3 4 S processor unit for interference rejection OFF Interference rejector 2 on Factory setting ON Interference rejector off Set this item when the engine tachometer is connected 5515 a DIP switch Set it so that the full scale revolution revolution for 10V output satisfies the following equation Full scale revl rpm SS setting x10 50 For example if the full scale revolution is 70 rpm set 2 and if 200 rpm set F 4 1 3 Distribution Unit OCP Board 66P3340 OAD Board 66P3342 D OAC Board 66P3342 C OAV Board 66P3342 V ODD Board 66P3345 OTX Board 66P3346 T OLG Board 66P3346 L Quantity and type of boards to be incorprated change with equipment specifications Select ship s speed versus voltage output characteristics according to specifications of external equipment connected to OAV board ae 1010 30K 3 3300 100v OFF 10 to
76. mat ind direction speed interface SC D232S AV PET MDI 1 ind direction speed interface N 162LV M ES 515 Z Baud rate 1 or 2 of AUX 2 port is selected with S4 6 Heading data input port selection gt 0 lt UX 2 port IF NMEA port 1 2 ate of turn data input port selection ate of turn gyro DS 340 port UX 1 port UX 2 port DIO x gt e S 3 4 S 5 amp 5 5 nalog input port IF NMEA port 1 2 UX 2 port ngine speed data input port Analog port Ditto AUX 2 port Unused O m AP 5 Factory Setting Switch Setting Switch Setting to Ship s speed for distance run pulse selection OFF Speed over the ground amp through water amp s fed from nav sensor Speed over the ground amp through water ON Speed through water Orr of ship s speed for distance run pulse Vector Ditto Fore aft OF Boa data output True course O Ditto Heading F 081 Bearing data output at low Ships speed True course O Ditto Heading Since ship s course data fluctuates by rolling and m pitching when ships speed is extremely low heading data is output instead of course Distance signal alarm Contact ON Fore aft status Contact ON note 1 Ditto
77. nus erasing present settings 4 8 4 3 4 Setting Ship Data Menu Set the ship s data measured on the ship drawing with either the bow or stern as a reference point of measurement Ships data referenced to bow Ships data referenced to stern lt L3 lt 15 x 15 lt DS 30 transducer x DS 30 transducer Nav sensor antenna 5 Nav sensor antenna 2 Echo sounder transducer 1 2 Echo sounder transducer 1 2 Reference Specify a reference point for measurement of the 1 Bow Point ship s data 2 Stern Set ship s length overall 50 0 to 400 m B Setship s breadth 5 0to 100 0 m L1 Set horizontal distance between bow stern and 0 0 to 30 0 m full load water line Set horzontal distance between full load water line 0 0 to Loa L1 m and main radar antenna Set horizontal distance between full load water 0 0 to Loa L1 m line and DS 30 transducer Set horizontal distance between keel and DS 30 B 2 to 2 m transducer L5 Set horizontal distance between full load water 0 0 to Loa L1 m line and nav equipment antenna antenna D1 Set distance between DS 30 and 1 echo sounder 0 0 to Loa L1 m PY tases Set distance between DS 30 and 2 echo sounder 0 0 to Loa L1 m transducers 4 3 5 Setting External Sensor Menu EXTERNAL SENSORS END GYROCOMPASS R O T GYRO NAV SENSOR WIND METER TACHOMETER CLINOMETER GYROCOMPASS Choose
78. ot compulsory required by law because the transducer casing is waterproof However it is recommended to construct it for safety Dimensions shown above are only for reference shipyard may change as required Since the transducer is detachable replaceable in water from outside the ship maintenance space is not required inside the compartment 4 WELDING CASING a Fore aft marks are engroved on the casing Align them with ship s fore aft line 1 410 NR HULL PLATE GROOVE DEPTH TO BE DETERMINED BY SHIPYARD with hex nut 7 GRIND WELDING BUILD UP b Orientation and leveling errors can be offset on the data offset menu in the display unit Install the casing as follows Fore aft orientation Align the bow mark on the casing with ship s fore aft line to an accuracy within 1 degree Leveling Install the casing so that the top face of the casing is horizontal during navigation Measure leveling accuracy with a level meter after the ship is launched c Detach transducer 1 cable cable gland 5 and gasket 3 before welding the casing d Welding method for casing and ship s hull should be determined by the shipyard Weld reinforcement ribs to the casing if the shipyard considers them necessary e Remove welding build up between the casing and the ship s hull part marked 1 in the drawing with a grinder for a flat finish 5 FIXING CONNECTING TRANSDUCER CABLE a Lead the transduc
79. ox DS 389 12 221 2 1 3 jBulkhead mount Distance Indicator MF MF2T1 60 Flushmount gt mount MF 22T 2 90 Bulkhead mount MF 22T 3 60 Tabletop mount AU 12 2 CHAPTER 1 GENERAL The Furuno model DS 30 Doppler Sonar provides accurate measurement of the fore aft and port starboard speed of vessels It mainly consists of display unit processor unit junction box transceiver unit and transducer hull unit NOTICE Do not apply paint anti corrosive sealant or contact spray to coating or plastic parts of the equipment Those items contain organic solvents that can damage coating and plastic parts especially plastic connectors 1 1 Selecting Mounting Location 1 1 1 Transducer Hull Unit The performance of the DS 30 is directly related to the mounting location of the transducer Especially air bubbles and turbulence caused by movement of the ship and interference from other acoustic equipment seriously degrade performance The mounting location should therefore be determined carefully keeping the following factors in mind 1 Air Bubbles Since the transducer of the DS 30 is installed flush with the ship s hull bottom it is susceptible to air bubbles which flow below the hull bottom Select a location where air bubbles created at ship s bow do not go down to the mounting location When the ship has a bulbous bow install the transducer in it or just behind it Howeve
80. panese o ON et Indication of current Coming 5 direction Indication of current Going direction ON e e Time indication UTC when input GPS High temperature alarm Normal operation LLLA 2 Processor Unit Switch Setting Function Factory Setting MCP Board Monitor signal Fore beam GEL Ditto Fore beam EL Ditto Starboard beam GEL Ditto Port beam GEL Ditto TVG external KP 51 GEM Ditto Starboard beam EL Ditto External KP m r m L Echo signal with TVG effected Echo signal without TVG effected 2 Bottom tracking beam selection UNE Be 5 i Dito PorbeamEL i EMI OFF Fore beam 0 Starboardbeam Potbam 0 UJDI All beams m 11 11 FF pulselength in water tracking mode Standard OFF Compass speed correction On Note 4 2 49 1 2 OFF j FF Angular speed latitude error correction On Note 2 Exponential smoothing On Note 3 Smoothing applied ship s speed data output Gyrocompass reading contains an error which is given as a function of Ditto Long Automatic sound speed correction On Note 1 T TI 711 Ship s speed smoothing Yes OQ Sound speed is corrected by water temperatre DS 30 transducer measures Angular speed measured by rate of turn
81. r when the ship makes a voyage in high latitude area breaking through ice flows avoid the location where broken ice flows may strike the location The DS 30 is used not only for ocean going navigation but also for docking to loading unloading facilities at which the bow and side thrusters are used The transducer should be separated at least 4 or 5 meters from them NOTE In extremely shallow harbors with soft bottom whirls created by ship s movement cause air bubbles and also bottom materials to be stirred which may make the use of DS 30 impossible 2 Cavitation Dents on ship s bottom cause whirls behind them and may sometimes cause cavitation which adversely affects the performance of the transducer especially when the ship moves at a high speed The welded portion between the transducer casing and the ship s hull should therefore be finished as smooth as possible 1 1 3 Variation of Draft Level When the ship travels unloaded the draft level goes low and air bubbles are apt to be pushed down to the transducer location This occurs especially when the water level is lower than the center line of the bulbous bow It is recommended to load a proper amount of ballast not only for the DS 30 but also for safety of navigation 4 Interference of Other Ultrasonic Equipment If integer multiple of the transmission frequency of other ultrasonic equipment is within 440 8 kHz interference may occur Select a location at least 1 m
82. rd 66P3342 V ODD Board 66P3345 OTX Board 66P3346 T OLG Board 66P3346 L uk Xa eum E 9 Quantity and type of boards to be incorprated change with equipment 66P3342 V C 66P3345 specifications 66P3340 CR1 CR2 CR4 CR5 CR6 CR7 CRY RXS CXS TXS RX2 TX2 RX1 TX1 SER LER CR10 400 CR11 PAS2 CR12 PASI CR2 FLAG C OCP Board 66P3340 i Serial data input from processor unit DS 310 Unused Serial output data to distance indicator DS 370 Speed data output Output data valid Off Output data invalid Light Output data valid Off Output data invalid Light _ PAS2 Rox ESS Mi lt m r Log pulse Turns off when speed is 0 0 kt Lights when self check of work memory is OK Lights when program ROM is OK PAS2 Data output to remote display Shift pulse for data output to remote display 5 10 5 2 Self check The DS 30 has a self check facility for general diagnosis of the major circuits Execute the checks after all installation jobs are completed 5 2 1 Procedure 1 Call up the main menu by pressing the MENU key 2 Select the self test item and press the MENU key The sub menu as shown below is displayed are se PANEL TEST EXECUTE SYSTEM TEST EXECUTE CONT TEST EXECUTE TX RX TEST OFF SET TEST SPD 0 0kt SPD TEST ON OFF 3 Select a self test item to be executed and press the MEN
83. rect hole on the connector body take it out by using the pin extractor 1 Push the pin extractor into the pin hole from the side opposite to the pin inserting side Cable out going direction 2 Push in the head of the pin extractor and the contact pin is unlocked and pushed out 6 Assembling Connector Housing Cover LF T Guide Pin A a Guide Pin Vinyl Sheath Tape unused wires Guide Pin A Guide PinB for insulation Big Small 1 Fix the cover d paying attention to the cable outgoing direction 2 Dress the wires and put covers 2 and 3 on 3 Use a fragment of cable sheath to fix the wires with the connector clamp 4 Cut the unused wires to proper length and wrap their ends with vinyl tape Note Covers and 3 not fitted on the connectors connected to the main and sub display units 8 7 7 Clamping Cable Clamp the shield and armor of the cable with cable clamp Cable Clamp Shield Armor Anticorrossive Sheath 3 9 4 Data Signal Cable CO SPEVV SB C 0 2X5P Anticorrosive Sheath Armor Vinyl sheath 20 3 2 Clamp Screw Clamp Socket set Screw Connector Case 3 8 3 3 5 Other Cables All other cables are connected to terminal boards Fabricate their ends as follows 1 Cable Armor lt For cables led in through cable clamp gt Expose the armor and clamp it with the cable clamp Cable Clamp
84. s Do not also run them near or in contact with the cables of radio apparatuses 2 Make cable run as short as possible taking the shortest route 3 Ground all units by using a copper strap 4 To connect the copper strap to a copper plate use silver solder or solder cream to ensure solid connection A CAUTION Ground the equipment Ungrounded equipment can give off or receive electro magnetic interference or cause electrical shock CHAPTER 2 MOUNTING 2 1 Main Display and Operation Panel Select mounting locations taking the following points into account 1 Select a place where operating personnel are able to control the units easily while observing the area surrounding the vessel 2 Select a place not exposed to direct sunlight water splashes and hot air 2 1 1 Standard Mounting 1 Cut out the bulkhead and drill fix ing holes as shown at right Rein force if necessary the bulkhead since the display unit weighs 10 kg approximately 2 Four mounting bolts are fac tory fitted at the back of the front panel Fit them into the fixing holes and push in the unit 3 Fix the unit by tightening the bolts with nuts M6 fitted from the back of the bulkhead 2 1 2 Mounting with Fixing Plate When it is difficult to fit nuts from back of the bulkhead use the fixing plate The fixing plate is optional supply 1 Cut out the bulkhead with dimensions shown in the figure below For those for the
85. s fat la H G LOv6 X WV99 0c V 6rV Ol v6 X WV99 11 1413214 ONNANSGA 344 JHL d0 39Vd NI 04441 5 38 AVW 1000044 83 01 JHL E 1 HPM SMUVWAY 1 1 O1V6 X WV99 CANO 39N3344434 803 ONIMVYC NI SNOISN3WIQ 62 8 2 Ob 01 948 841 000 706505 91 01 448 841 000 706505 91 01 48 841 000 706505 91 01 07 99 000 41 68 44 LAS 5 0114182530 SE Z ui 60800 99409 00 08b 978 Z00 ON 3000 WVS SHL 81 111 00 19010084 WALI NV 304 031511 38 AVW 54009 NV SddAl OML 207 62012 AFD DMRS 1 SHOR CER 1 L Y E LAN X43H BL dd ddHSVM 9NIddS GAY ddHSVM LV 14 SMart HS 901 NO dW I9 3NI 1100 P SIVIYSLVW NOIIVTIVISNI T 60F6 X WV99 YdddN JHL 40 NI ddIHS 38 AVW LONGOYd 343N01 JHL 1 PH 62012 C Y Z 7 2 0 SRO Ces C E E 5 0114182530 gE 1 Zi 80800 9940 00 0 9 9 8 200 3009 vY 60F6 X WV99 1419414 CANO 404 ONIMVYC NI SNOISN3WIQ 62 8 2 OR 3NAVS HL SI ALITVAO LONGOYd 1311 NV 304 031511 38 AVW 54009 NV SddAl OML y 34IM TANIA 42 2 Biel Li TAL ddHSVM 9NIddS PHN YJHSYM 1VH HS ON 1 NO dMId9 EMH 0 840 45 T3
86. se is connected from other acoustic equipment which gives interference to DS 30 note the following TB3 220 4mA e m m m m m m m YY 1 Interference Rejection Signal Input Circuit Two iuput ports are provided in the processor unit for connection of KP for interference rejection Use any one of them 2 Current Requirement Recommended current is 4 mA while the circuit operates normally at 2 mA to 20 mA Adjust output resistance for the recommended current 3 4 2 NMEA CIF Signal I O Circuit The I O circuit for NMEA or CIF format data has the configuration shown below where CIF is Furuno standard data format Maximum allowable current in NMEA output is 25 mA and recommended current is 10 mA When terminating the line by a photo coupler for a current loop configuration take suitable means at the signal receiving side to limit the current If for example forward voltage drop in the photo coupler is 2 2V 4 8 2 2 V 10 mA 227 Q 33 Q therefore 33 ohm resistor should be inserted in series in the line 3 4 3 Requirement of Wind Direction and Speed Signal The wind meter that outputs following dc voltages can be connected Wind direction 0 to 1 Vdc for direction of 0 to 540 Wind speed 0 to 1 Vdc for speed of 0 to 60 m sec 34 4 Requirement in Engine Revolution Speed Signal The engine tachometer that outputs following dc voltage can be connected 0 to 1 Vdc for revolution spee
87. sonnel should work inside the equipment This equipment uses high voltage electricity which can shock burn or cause death Turn off the power at the ship s mains switchboard before beginning the installation Post a warning sign near the switchboard to ensure that the power will not be applied while the equipment is being installed Serious injury or death can result if the power is not turned off or is applied while the equipment is being installed CAUTION Ground the equipment Ungrounded equipment can give off or receive electro magnetic interference or cause electrical shock Confirm that the power supply voltage is compatible with the voltage rating of the equipment Connection to the wrong power supply can cause fire or equipment damage The voltage rating appears on the label at the rear of the equipment Observe the following compass safe distances to prevent interference to a magnetic compass 5 3E J compass compass m m Main display 0 75 0 50 DS 300 Operation panel 0 2 0 2 DS 301 Processor unit 1 3 1 0 DS 310 Digital indicator 0 3 0 2 DS 350 Digital indicator DS 351 Distribution unit 0 7 DS 370 woe Analog indicator DS 381 382 TABLE OF CONTENTS COMDE ome 1 CHAPTERT GENGERAL 5555 u qud SFR u PE EN NUN Ska M DIES 1 1 1 1 Selecting Mounting uuu
88. starboard Set deviation angle of the transducer s fore aft 12 5 to 12 5 axis with reference to the ship s longitudinal axis 0 0 Use when it is deviated to starboard side Set a correction value to be applied to the heading 12 5 to 12 5 sensor input to eliminate any constant deviation 0 02 Use to add the correction value to the readout and to subtract it from the readout NOTE When the gyrocompass incorporates error correction function do the correction at gyrocompass R O T Rate Set a correction value if required for zero 12 5 to 12 5 min Of Turn Zero adjustment of the rate of turn gyro readout Use 0 0 min to add the correction value to the readout cc 2 an to subtract it When the ship is at a perfect standstill and DS 30 has L L data fed from nav sensor set a correction value which makes reading of ship s transverse speed zero If DS 30 has no L L data the readout can not be corrected since the speed reading contains the latitude error See page 2 7 12 5to 12 5 the ground speed measured by 05 30 Use 10 07 to increase the readout and to decrease it Normally it is not necessary to set this item Set a correction factor to be applied to the 12 5 to 12 5 through the water speed measured by DS 30 Use 0 0 to increase the readout and to decrease it Normally it is not necessary to set this item I 50
89. ulkhead or floor mounted When mounting on the bulkhead reinforce the mounting location to withstand the unit weight of 40 kg 2 2 1 Mounting Procedure 1 Fix four stud bolts on the selected location at intervals shown on the outline drawing The bolt should stick out by 20 cm from the bulkhead or floor 2 Fit the mounting holes on the unit to the bolts and tighten the bolts by using nuts M10 2 3 Transceiver Unit Select a mounting location taking the following points into account 1 Since the unit generates heat select a well ventilated location with low humidity 2 The unit can be bulkhead or floor mounted When mounting on the bulkhead reinforce the mounting location to withstand against the unit weight of 14 kg 2 3 1 Mounting Procedure 1 Fix four mounting bolts on the selected location at intervals shown on the outline drawing so that bolt thread sticks out by 20 cm from the bulkhead or floor 2 Fit the mounting holes on the unit to the bolts and tighten the bolts by using nuts M10 2 4 Junction Box Option The junction box can be floor or bulkhead mounted provided that the mounting location is strong enough to withstand the weight of 5 kg 2 4 1 Mounting Procedure 1 Drill mounting holes on the mounting location referring to the outline drawing 2 Insert four bolts M6x40 into mounting holes on the junction box and the mounting location 2 4 3 Fix the junction box by tightening the bolts with
90. y Unit Preset Menu DISPLAY PRESET END CURSOR SPEED Medium DEPTH UNIT DISTANCE RUN kt CURR SPEED kt WIND SPEED m s SCALE UNIT SPD RESLVL XX XX CURRENT DIRECTION WIND DIRECTION BTM HARDNESS BEEP SOUND SYS DEFAULTS Normal Normal OFF 1 OFF _Description Depth Unit Choose the unit for the distance run readout 2 km Choose the unit of depth for the under keel clearance display 4 7 Curr Speed Choose the unit for the current speed readout 1 kt 2 m s Wind Speed Choose the unit for the wind speed readout 2 m s Scale Unit Choose the disance scale unit for the X axis of the 1 m berthing mode and under keel clearance graphic 2 nm display Speed Choose the resolution level for the ship s speed Resolution readout Level Current Direction 1 Normal 2 Opposite Choose Normal so that the water current direction readout shows the direction toward which water moves Wind Direction Choose Normal so that the wind direction readout 1 Normal shows the direction from which the wind blows 2 Opposite Bottom Choose whether to display bottom hardness level on 1 Yes Hardness the under keel clearance graphic display 2 No Beep Sound Choose tone pattern of the audible alarm 1 Yes 2 No System Default Use this function to restore factory settings on all the system me
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