2. WIRING 2.6.3 How to set jumper blocks in the sensor adapters MC-3000S See the jumper blocks on the MC-CS Board (24P0114) referring to the tables that follow. J14 J22 J23 J15 J16 J17 S2 J19 J20 J21 MC-CS Board (24P0114) Rotary switch S2: Use the rotary switch (S2) to set the Modbus address when setting connectors J4/J5 to Modbus. The Modbus address set at J4/J5 in the network is not used. When setting J4/J5 to IEC61162-1/2, use the default setting (“0”).
. WIRING • When setting the terminal other than starting/ending for the multipoint (CH1 to 4).
2. WIRING MC-3010A/3020D/3030D This paragraph shows how to set the MC-ANLG Board (24P0115, for MC-3010A), MC-DIN Board (24P0116, for MC-3020D) and MC-DOUT Board (24P0117, for MC3030D). Rotary switch U18: Use the rotary switch (U18) to set the MODBUS address with a digit of number from “0”. When multiple sensor adapters are connected to the MC-3000S, the same number cannot be used among them. (It is allowed to use the same number between the MC-3000S and a sensor adapter.
2. WIRING 2.7 LAN Signal Converter Kit (option) Two LAN Signal Converters (for antenna unit and PSU) allow the use of existing antenna cable RW-4873/6895/9600 in the case of a retrofit. Kit contents (Type: OP03-223-1, Code no.: 001-254-360) Name LAN Signal Converter Type OP03-223 OP03-223 LAN Cable IOK-V0024-0.35 Assy. BNC-PP L=30 XH Connector 03-2425(2P) 03-183-5123-0 Connector Fixing Plate Installation OP03-223-1/2/3 Materials Binding M3×6 Screws LAN COAX C32-01312-* CONV KIT 2.7.1 Code no.
2. WIRING 2.7.2 Installation in the antenna unit Dismount the transceiver unit. See paragraph 2.2.2 for the procedure. 1. Set the M_S switch on the converter to the S (Slave) position. 2. Orient the converter so the coax connector is upward then fasten the converter from inside the transceiver unit with four screws. 3. Unfasten two screws to remove the cover plate from the SPU board. 4. Connect the power cable between the converter and J720 on the SPU board. Note polarity before connecting.
2. WIRING 2.7.3 Installation in the power supply unit Some parts or wiring may have been omitted from the illustrations for clarity. 1. Fasten the converter then connect the coaxial cable to the BNC case (see step 6 of paragraph 2.7.2). BNC case Set the M_S switch on the converter to the M (Master) position. Fasten the converter to the mounting bracket with four screws. Connect the coaxial cable to the BNC case. Fasten the BNC case to the mounting bracket with two screws. 2.
2. WIRING 2.7.4 How to check the installation Observe the LEDs on the converter to check for proper operation, troubleshoot. Master/Slave Coax/PLC TEST M S HMC-200CE-A LAN PWR LED PWR LAN Coax/PLC Master/Slave State OFF Lighting green Flashing orange OFF Lighting green Flashing green Lighting orange Flashing orange OFF Lighting green Lighting green Lighting orange Note: The [TEST] button has no use.
2. WIRING 2.8 Intelligent Hub HUB-3000 (option) Fix the LAN cables connected to the cable clamp with the cable ties (supplied). Power Fail DPYC-1.5 cable Power port DPYC-1.5 cable Ground wire (IV-1.25sq., supplied) LAN cable LAN port No use. To gateway network (ECDIS, radar, etc.) Attach the LAN cap (supplied) to the unused connector holes to meet waterproofing standard IPX2.
2. WIRING 2.9 How to Extend the Control Unit Cable (option) To extend the length of the cable between a control unit and the processor unit, use the optional cable assy 6TPSH-XH12X2-LxxSP1 (for RCU-024) or 6TPSH-XH12X2LxxSP2 (for RCU-026). You can select the cable length among 10, 20 and 30 m. 2.9.1 RADAR control unit (RCU-025) 1. Unfasten 12 binding screws (M3×8) from the bottom of the control unit to remove the cover.
2. WIRING 9. Unfasten the three bolts circled in the figure below to remove the cable clamp (upper). J5 J8 J3 J12 J11 J6 J9 J4 J14 J7 J10 J13 Clamp holes (upper) Unfasten this bolt to use the lower clamp holes. Clamp holes (lower) Unfasten these three bolts to remove the upper plate. 10. Disconnect the control unit cable from the processor unit, then connect the cable assy (6TPSH-XH12X2-LxxSP1). 11. Set the shield part of cables under the cable clamp then tighten the cable clamp.
2. WIRING 2.9.2 Trackball control unit (RCU-026) 1. Unfasten four binding screws (M3×8) from the bottom of the control unit, and a pan head screw (M3×8) and flat washer from the back of the control unit to remove the cover. Note: Remove the cover slowly to prevent damage to the cables connected to the circuit board in the control unit. Pan head screw Binding screw (M3×8) Flat washer Control unit cable Control unit cover 2.
2. WIRING 5. Fasten the shield of the cable assy with the cable clamp (removed at step 2), then connect the connector at the end of the cable assy to the J1 on the circuit board. Note: When clamping, the shield part of the cable must not touch the circuit board. Shield Cable assy Cable clamp Circuit Board The shield of the cable must not touch the circuit board. 6. Reattach the control unit cover. 7. Unfasten four screws (M4×8) to remove the processor unit cover. 8.
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3. SETTINGS AND ADJUSTMENTS Note: After completing the settings and adjustments, copy the setting data to a USB flash memory, referring to section 23.2 in the Operator’s Manual. This will easy allow restoration of setting data after the SPU Board is replaced, etc. 3.1 How to Access the Radar Installation Menu The [RADAR INSTALLATION] menu has various items for adjustment of the radar. To show this menu, press the MENU key five times while pressing and holding the 1 HL OFF key.
3. SETTINGS AND ADJUSTMENTS 1. Select a stationary target echo at a range between 0.125 and 0.25 NM, preferably near the heading line. 2. Operate the EBL control to bisect the target echo. 3. Read the target bearing. 4. Measure the bearing of the stationary target on a navigation chart and calculate the difference between the actual bearing and apparent bearing on the radar screen. 5. Show the [RADAR INSTALLATION] menu. 6. Select [1 ECHO ADJ]→[2 HD ALIGN]. 7. Key in the bearing difference.
3. SETTINGS AND ADJUSTMENTS 3.4 How to Suppress Main Bang Main bang is the clutter at the center of the screen that you typically see on the radar display, and it may mask close-in targets. If main bang appears at the screen center, suppress it as follows. 1. Transmit the radar on a long range and then wait ten minutes. 2. Adjust the gain to show a slight amount of noise on the display. 3. Select the 0.25 NM range, and turn off the A/C SEA control. 4.
3. SETTINGS AND ADJUSTMENTS 3.5.2 How to set the width and length for the picture from the external radar If two FAR-3xx0 series radars are to be used for the dual radar display, set the same display area on each radar to ensure proper performance. 1. Open the [RADAR INSTALLATION] menu, then select [2 SCANNER]→[6 DUAL RADAR SETTING] to show the [DUAL RADAR SETTING] menu. Start point of sector Horizontal width of sector Distance from reference point to sector Vertical length of sector 2.
3. SETTINGS AND ADJUSTMENTS 5. Use the scrollwheel to set START and ANGLE, referring to the description and example below. Spin the scrollwheel to set and push it to confirm. A solid green line marks the dual radar display area. Width of sector ANGLE (Example: 100°) START (Example: 130°) • START: Start point of the sector (in degrees, 000-359). • ANGLE: Horizontal width of the sector (in degrees, 000-359). 6. Select [3 COMBINE RANGE] to set the vertical width of the sector. 7.
3. SETTINGS AND ADJUSTMENTS Note 2: The dual radar display is designed to be used with two FAR-3xx0 series radars. Other makes or models can be used, however performance may vary. 4. Press the MENU key to close the menu. 3.6 Other Settings [ECHO ADJ] menu [VIDEO LEVEL ADJ]: Adjust the cable attenuation manually. Set the radar as follows: Interference Rejector (IR): 2 Echo Stretch (ES): OFF Echo Averaging (EAV): OFF Gain: 80 Range: 24 NM Pulse Length: Long Select [+] or [-].
3. SETTINGS AND ADJUSTMENTS normal rotation speed to 36 rpm and switches the rotation speed to 42 rpm when the short pulse is selected. Note: Select [OFF] at [ANT SW] to prevent antenna rotation. [ANT STOPPED] prevents transmission while the antenna is stopped in STBY. [INSTALLATION] menu IMO- and A-type radars B-type radar AUTO/MANUAL 0 AUTO/MANUAL 0 [RANGE UNIT]: For the B-type radar, select the range unit, NM, SM, KM or kyd then push the left button. [MODEL]: Confirm the model of your radar.
3. SETTINGS AND ADJUSTMENTS 2. Set the radar controls as shown below. Range: 24 NM Pulse Length: Long A/C SEA: OFF (turn off manually) A/C RAIN: OFF (turn off manually) Echo Averaging (EAV): OFF Video Contrast: 2-B 3. Adjust the GAIN control so that a slight amount of white noise appears on the screen. Arcs for the performance monitor appear on the screen. 4. Select [PM GAIN ADJ] then spin the scrollwheel so that the outer arc faintly appears. The setting range is 0 to 255.
3. SETTINGS AND ADJUSTMENTS [TTM/TTD REFERENCE]: Set the output format (bearing) of tracked targets. REL (Target bearing from own ship, degree relative, target course, degree relative), or TRUE (Target bearing, degree true, target course, degree true). [NUMBER OF TT]: Set the number of targets that can be acquired, [100] or [MAX] (200). For FAR-2xx7 radar, select [100]. [MAX RANGE]: Select the maximum target tracking range, 24 or 32 nm. [QV DISPLAY]: [OFF]: Normal picture, [ON]: Quantized video.
3. SETTINGS AND ADJUSTMENTS [OTHERS] menu [DEMO ECHO]: Select the type of demonstration echo to use. [EG] (Echo Generator), [TTTEST] or [PC]. Select [OFF] to deactivate the demonstration echo feature. [EAV W/O GYRO]: The each averaging feature can be used without a gyrocompass. Select [ON] to use the feature without a gyrocompass. [TT FUNC]: Activate or deactivate the TT function. 4 [SUB OUTPUT]: If the digital signal can be output in the analog format to the sub monitor, select [ON].
4. INPUT/OUTPUT DATA NOTICE The radar(s) must be interconnected to the following type approved sensors: Gyrocompass meeting the requirements of the IMO resolution A.424(XI). EPFS meeting the requirements of the IMO resolution MSC.112(73). SDME meeting the requirements of IMO resolution MSC.96(72). The radar may be interconnected via HUB-3000 to other FURUNO processing units having approved LAN ports. 4.1 Processor Unit Input and output data are shown in the table below.
4. INPUT/OUTPUT DATA 4.
APPENDIX 1 JIS CABLE GUIDE Cables listed in the manual are usually shown as Japanese Industrial Standard (JIS). Use the following guide to locate an equivalent cable locally. JIS cable names may have up to 6 alphabetical characters, followed by a dash and a numerical value (example: DPYC-2.5). For core types D and T, the numerical designation indicates the cross-sectional Area (mm2) of the core wire(s) in the cable.
APPENDIX 2 ROD TERMINALS MC-3000S, MC-CS Board (24P0114) Connector # J1 Connector # J2 Connector # J4 Connector # J5 Connector # J6 AP-2 Pin # 1 2 3 4 5 Signal name 24V_VOUT 24V_GND MODBUS-A MODBUS-B GND Pin # 1 2 3 4 5 6 Signal name 24V_IN 24V_OUT PWR_FAIL-A PWR_FAIL-COM PWR_FAIL-B NC Pin # 1 2 3 4 5 6 7 Signal name TD1-A TD1-B RD1-A RD1-B ISOGND1 RD1-H RD1-C Pin # 1 2 3 4 5 6 7 Signal name TD2-A TD2-B RD2-A RD2-B ISOGND2 RD2-H RD2-C Pin # 1 2 3 4 5 6 7 Signal name TD3-A TD3-B RD3-A RD3
APPENDIX 2 ROD TERMINALS Connector # J7 Connector # J8 Connector # J9 Pin # 1 2 3 4 5 6 7 Signal name TD4-A TD4-B RD4-A RD4-B ISOGND4 RD4-H RD4-C Pin # 1 2 3 4 5 6 7 8 Signal name TD5-A TD5-B RD5-H RD5-C TD6-A TD6-B RD6-H RD6-C Pin # 1 2 3 4 5 6 7 8 Signal name TD7-A TD7-B RD7-H RD7-C TD8-A TD8-B RD8-H RD8-C Rod terminal to use AI 0.75-6 GY (gray) Rod terminal to use Connected cable TTYCS-4 TTYCSLA-4 Connected cable TTYCS-1Q TTYCSLA-1Q AI 0.
APPENDIX 2 ROD TERMINALS Connector # J4* Connector # J5* Pin # 1 2 3 4 Signal name AN2_IN AN2_GND CURR2_JP1 CURR2_JP2 Pin # 1 2 3 4 Signal name AN3_IN AN3_GND CURR3_JP1 CURR3_JP2 Rod terminal to use AI 0.75-6 GY (gray) Rod terminal to use AI 0.75-6 GY (gray) Connected cable TTYCS-1 TTYCSLA-1 Connected cable TTYCS-1 TTYCSLA-1 *: For pin #3 and 4, no cable is connected. However the jumper connection is necessary depending on the input specification.
APPENDIX 2 ROD TERMINALS Connector # J5* Connector # J6* Pin # 1 2 3 4 5 6 7 8 Signal name DV12V_OUT5 DIGI_IN5 DIGI_RTN5 GND DC12V_OUT6 DIGI_IN6 DIGI_RTN6 GND Pin # 1 2 3 4 5 6 7 8 Signal name DV12V_OUT7 DIGI_IN7 DIGI_RTN7 GND DC12V_OUT8 DIGI_IN8 DIGI_RTN8 GND Rod terminal to use AI 1-6 RD (red) Rod terminal to use AI 1-6 RD (red) Connected cable MPYC-12 Connected cable MPYC-12 *: Pin #1 and 5: no cable connection.
APPENDIX 2 ROD TERMINALS Connector # J4 Connector # J5 Connector # J6 AP-6 Pin # 1 2 3 4 5 6 Signal name A3 COM3 B3 A4 COM4 B4 Pin # 1 2 3 4 5 6 Signal name A5 COM5 B5 A6 COM6 B6 Pin # 1 2 3 4 5 6 Signal name A7 COM7 B7 A8 COM8 B8 Rod terminal to use AI 1-6 RD (red) Rod terminal to use AI 1-6 RD (red) Rod terminal to use AI 1-6 RD (red) Connected cable MPYC-12 Connected cable MPYC-12 Connected cable MPYC-12
APPENDIX 3 DIGITAL INTERFACE Digital Interface Input sentence ABK, ACK, ACM, ACN, ALR, CUR, DBT, DPT, DTM, GGA, GLL, GNS, HBT, HDT, MTW, MWV, RMC, THS, VBW, VDM, VDO, VDR, VHW, VTG, ZDA Output sentences ABM, ACK, ALC, ALF, ALR, ARC, BBM, EVE, HBT, OSD, RSD, TLB, TTD, TTM, VSD Data reception Data is received in serial asynchronous form in accordance with the standard referenced in IEC 61162-2 or IEC 61162-1 Ed.4.
APPENDIX 3 DIGITAL INTERFACE ACM, ACN - Alert command $**ACM,hhmmss.ss,aaa,x.x,x.x,ca,a*hh $**ACN,hhmmss.ss,aaa,x.x,x.x,ca,a*hh 1 2 3 4 5 6 1. Time (hh=00 to 23, mm=00 to 59, ss.ss=00.00 to 60.99), null 2. Manufacturer mnemonic code (3 digit alphanumeric code), null 3. Alert identifier (0 to 9999999) 4. Alert instance (1 to 999999), null 5. Alert command (A=ACK from ext. equipment, Q=Request from ext. equipment, O=Responsibility transfer, S=Silence from ext. equipment) 6.
APPENDIX 3 DIGITAL INTERFACE DTM - Datum reference $**DTM,ccc,a,x.x,a,x.x,a,x.x,ccc,*hh 1 2 3 4 5 6 7 8 1. Local datum (W84=WGS84 W72=WGS72 S85=SGS85, P90=PE90 2. Local datum subdivision code (NULL or one character) 3. Lat offset, min (0 - 59.99999) 4. N/S 5. Lon offset, min (0 - 59.99999) 6. E/W 7. Altitude offset, meters (No use) 8. Reference datum (W84=WGS84 W72=WGS72 S85=SGS85, P90=PE90) GGA - Global positioning system fix data $**GGA,hhmmss.ss,llll.lll,a,yyyyy.yyy,a,x,xx,x.x,x.x,M,x.x,M,x.
APPENDIX 3 DIGITAL INTERFACE HBT - Heartbeat supervision sentence $**HBT,x.x,A,x*hh 1 2 3 1. Configured repeat interval (00.0 to 99.9(s)) 2. Equipment status (A=Normal V=System fail) 3. Sequential sequence identifier (0 to 9) HDT - Heading, true $**HDT, xxx.x,T*hh 1 2 1. Heading, degrees (0.00 to 360.00) 2. True (T) MTW - Water temperature $**MTW,x.x,C 1 1. Water temperature, degrees C (-100.000 - 100.000) MWV - Wind speed and angle $**MWV,x.x,a,x.x,a,A*hh 1 2 3 45 1.