Furuno 2827wd - Manual

iv Standard Supply (FCR-2837SW/2837SW-D) Name Type Code No. Qty Remarks SN30AF-RSB104 - 21 rpm, 3000 mm SN30AF-RSB105 - 26 rpm, 3000 mm SN36AF-RSB104 - 21 rpm, 3600 mm Antenna Unit SN36AF-RSB105 - 1 26 rpm, 3600 mm Transceiver Unit RTR-082 - 1 30 kW, S-band MU-231CE w/ power cable, for FAR-2837SW Mo...

v Optional Equipment Name Type Code No. Remarks Gyro Converter GC-10-2 000-080-440 See chapter 4. PM-31 000-080-438 Mandatory for IMO radar (2827W) Performance Monitor PM-51 - Mandatory for IMO radar (2837SW) RU-1803 - Converts 440 VAC to 100 VAC, for processor unit RU-3305 - Converts 110/115/220/23...

vi SYSTEM CONFIGURATION FCR-2827W/2827W-D RADAR PROCESSOR UNIT RPU-016 Gyrocompass : Option: Dockyard supply : Standard 100-115 VAC/ 220-230 VAC AD-100 Sub Display Alarm Transformer Unit RU-1803 440 VAC 1 φ , 50-60 Hz Gyro Converter GC-10 JB Category of UnitsAntenna Unit: Exposed to weatherAll other...

vii FCR-2837SW/2837SW-D RADAR PROCESSOR UNIT RPU-016 Gyrocompass : Option: Dockyard supply : Standard 100-115 VAC/ 220-230 VAC AD-100 Sub Display Alarm Transformer Unit RU-1803 440 VAC 1 φ , 50-60 Hz Gyro Converter GC-10 JB Category of UnitsAntenna Unit: Exposed to weatherAll other units: Protected ...

viii 1) Connect the EPFS which is approved in accordance with the requirements of the IMO in resolution MSC.112(73) is used. 2) Connect the SDME which is approved in accordance with the requirements of the IMO in resolution MSC.96(72) is used. 3) Use the gyrocompass having an update rate that is ade...

1-1 1. MOUNTING NOTICE Do not apply paint, anti-corrosive sealant or contact spray to coating or plastic parts of the equipment. Those items contain organic solvents that can damage coating and plastic parts, especially plastic connectors. 1.1 Antenna Unit Mounting considerations • The antenna unit ...

1. MOUNTING 1-3 1.1.1 FCR-2827W/2827W-D antenna unit Assembling the antenna unit The antenna unit consists of the antenna radiator and the antenna unit chassis, and they are packed separately. Fasten the antenna radiator to the antenna unit chassis as follows: 1. Attach two guide pins (supplied as i...

1. MOUNTING 1-4 O-ring Radiator bracket Waveguide Antenna radiator Hex bolt (M8x40), 8 pcs. Fastening the radiator to the radiator bracket Coating the waveguide flange with silicone sealant 1. Do not coat O-ring with silicone sealant; use grease. 2. Clean the surface of the waveguide flange, if nece...

1. MOUNTING 1-5 Fastening the antenna unit to the mounting platform The antenna unit may be assembled before hoisting it to the mounting platform. However, do not lift the antenna unit by the radiator. Always hold the unit by its housing. When using a crane or hoist, lift the unit by the hoist rings...

1. MOUNTING 1-6 6. Using hex bolt (M6x25), nut (M6) and flat washer (M6), establish the ground system on the mounting platform as shown below. The location should be within 340 mm of the ground terminal on the antenna unit. Connect the ground wire (RW-4747, 340 mm, supplied) between the grounding po...

1. MOUNTING 1-7 1.1.2 FAR 2837SW/2837SW-D antenna unit Installation precaution for S-band antenna unit If an S-band antenna unit is mounted near the end of a platform to provide sufficient rotation clearance for the radiator, the antenna unit, because of its weight, swings up and down by ship’s vibr...

1. MOUNTING 1-8 Antenna unit assembling The antenna radiator and the antenna housing are shipped in separate packages. Assemble them as below. The antenna unit may be assembled before hoisting it to the mounting platform. However, do not lift the antenna unit by the radiator. Antenna unit assembling...

1. MOUNTING 1-9 How to lift antenna unit 1. Fix the antenna radiator to the antenna unit chassis. 2. Attach the lifting fixtures and collars as shown in figures below. 3. Position the radiator as shown in figure below and arrange the ropes A and B. Lifting fixture Collar for fixing Supplied as insta...

1. MOUNTING 1-10 Fastening the antenna unit to the mounting platform See the figure on the next page for antenna unit mounting. 1. Referring to the antenna outline drawing, drill four bolt holes (15 mm diameter) in the radar mast platform or the deck. a) The diameter of the mast for fixing the anten...

1. MOUNTING 1-11 Sealwasher Corrosionproofrubbermat Use two nuts. Coat with silicone sealant afterfastening ground wire. Ground wire Antenna chassis Hex bolt OR Ground wire Coat withsiliconesealant. Ground wire Welding Hex nut Ground terminal provided on antenna base. Set corrosion-proof rubber mat,...

1. MOUNTING 1-12 1.2 Monitor Unit The monitor unit can be flush mounted in a console panel, or mounted on a desktop using the optional accessories. For MU-231, see its Operator’s Manual. When selecting a mounting location, keep in mind the following points: • Select a location where the monitor unit...

1. MOUNTING 1-13 Panel hook Panel cover Fixing screw Attaching panel hook and panel cover Note: If you need to remove the monitor unit from the mounting panel, remove the four panel covers with your fingernail and use two panel hooks supplied as accessories to lift the monitor unit. Desktop mounting...

1. MOUNTING 1-14 Panel cover Hex bolt(M6x25) Hanger (R) Hanger stay M12 bolts for fixing(Dockyard supply) Hanger (L) Hex boltM10x30 Plastic rivet Hole plug Panel cover To remove this, insert fingernail in groove. Flat Washer M10 Spring Washer M10 Monitor Unit The hand grip is optionally available fo...

1. MOUNTING 1-15 1.3 Control Unit The control unit may be mounted on a desktop, with or without the KB fixing metal (supplied), which mounts the control unit at an angle. Mounting considerations When selecting a mounting location, keep in mind the following points: • Select a location where the cont...

1. MOUNTING 1-16 Fixing without KB fixing metal 1. Drill four mounting holes of 5 mm diameter referring to the outline drawing at the back of this manual. 2. Fix the control unit with four screws (M4) from under side of the desktop. (The M4 screws with a sufficient length for the thickness of the de...

1. MOUNTING 1-17 1. Prepare a cutout in the mounting location as shown in the figure below. 388 150 ± 2 170 ± 2 176 ± 2 ± 2 For RCU-020 For RCU-015FEA and RCU-016 2. Set the control unit to the cutout. 3. Attach the mounting plate to the control unit with four screws from the rear side. 4. Screw the...

1. MOUNTING 1-18 To change the cable entry To change the cable entry from the side (default) to the bottom, modify the unit as shown below. Cable clamp 03-163-7804 J524 J521 ScrewM3x8 ScrewM4x8 1. Remove the cable clamp. 3. Pass the cable from this hole. 4. Clamp the copper part of the cable with th...

1. MOUNTING 1-19 1.4 Radar Processor Unit Mounting considerations When selecting a mounting location, keep in mind the following points: • Locate the processor unit away from heat sources because of heat that can build up inside the cabinet. • Locate the equipment away from places subject to water s...

1. MOUNTING 1-20 1.5 Transceiver Unit The transceiver unit is designed for bulkhead mounting, and may be mounted in any dry, well-ventilated place. Ensure the mounting location is strong enough to support the weight of the unit under the continued shock and vibration normally encountered onboard. Th...

1. MOUNTING 1-21 1.6 Chart Processor Unit Mounting considerations When selecting a mounting location, keep in mind the following points: • Locate the processor unit away from heat sources because of heat that can build up inside the cabinet. • The vibration at the mounting location should be minimum...

1. MOUNTING 1-22 1.7 LAN Adapter/B Adapter Mounting considerations When selecting a mounting location, keep in mind the following points: • Locate the adapter away from heat sources because of heat that can build up inside the cabinet. • The vibration should be minimal. • Locate the equipment away f...

2-1 2. WIRING 2.1 Interconnection Wiring consideration To lessen the chance of picking up electrical interference, avoid where possible routing the signal cable near other onboard electrical equipment (radars, transmitting radio antennas, etc.) Also avoid running the cable in parallel with power cab...

2. WIRING 2-3 2.2 Antenna Unit 2.2.1 FCR-2827W/2827W-D (RSB-103) The antenna unit requires the MPYCY-19 (Japan Industrial Standard cable) or equivalent to connect to the transceiver unit RTR-081. ConductorS = 1 mm = 1.29 mm 2 MPYCY-19 Armor Sheath = 22.0 mm Sheath Insulator MPYCY-19 cable, sectional...

2. WIRING 2-4 7. Connect the cores to the connector plug TB803 by referring to the interconnection diagram. Leave “slack” in the coaxial wire to prevent breakage. Use the terminal opener to insert each core. Procedure1. Twist the cores.2. Press the terminal opener downward.3. Insert the wire to hole...

2. WIRING 2-5 Waveguide connection at antenna unit The signal cable entrance (cable gland) is located directly below the waveguide outlet. If the waveguide is installed downward from the waveguide outlet position using an E-bend waveguide, you may not be able to insert the signal cable into the cabl...

2. WIRING 2-8 Antenna unit, cover removed 9. Reattach the antenna cover, and then cover the gland junction with putty for waterproofing.

2. WIRING 2-9 TPYCY-2.5 power cable Conductor S = 2.5 mm φ = 2.01 mm 2 TPYCY-2.5 Armor Sheath φ = 15.5 mm TPYCY-2.5 cable, sectional view 1. Remove the left-hand side cover (viewing from the bow) from the antenna unit by unscrewing ten bolts (13 mm). 2. Fabricate the cable as below. 30 mm 5 mm FV5.5...

2. WIRING 2-10 TB902 Clamp Antenna unit, cover removed (left-hand side) 7. Determine the length of the cores considering their location on the terminal board TB902, and then connect cores to TB902 by using the terminal opener. 8. Reattach the antenna cover. 9. Cover the gland junction with putty for...

2. WIRING 2-11 When the De-icer is installed: 1. Before beginning any work on the antenna unit, turn off the breaker for the de-icer line at the main switchboard to remove the power (100 VAC, 1ø) to the de-icer. (Turning off the power to the display unit has no effect.) 2. The neck of the antenna un...

2. WIRING 2-12 Shield Fold back outer condu Conductor 6 14 5 9 Coaxial cable Approx. 250 5 30 Unit: mm Vinyl sheath Armor Shield Fold back the shield. (30 mm) 2.3 Transceiver Unit For FCR-2827W/2827W-D Fabricating of RW-9600 1. Fabricate the RW-9600 cable as shown right. 2. Trim each wire (except co...

2. WIRING 2-13 Fabricating of MPYCY-19 1. Fabricate the cable as below. 30 5 Armor Vinyl sheath Approx. 250 Vinyl sheath 6 Unit: mm 2. For unused cores, wind the vinyl tape around them to prevent the short circuit. Wiring 1. Remove the cover from the RTR-081. 2. Pass the cables through the cable ent...

2. WIRING 2-14 Installing the Rectangular Waveguide (WRJ-9) The RF interconnection between the antenna unit and the transceiver can be made with a rectangular waveguide (WRJ-9) or flexible (FR-9). If the rectangular waveguide is used, observe the following installation guidelines. • Correctly instal...

2. WIRING 2-16 Wiring 1. Remove the cover from the RTR-082. 2. Pass the cables through the cable entrance, and then fix the armor with the cable clamp. 3. Connect each wire to TB801, TB802, TB803, TB911 and TB912 referring to the interconnection diagram. TB803 TB801 TB911 TB912 TB802 Transceiver uni...

2. WIRING 2-17 2.4 Monitor Unit Three cables are terminated at the monitor unit: two signal cables from the chart processor unit and one power cable from the ship’s mains. For MU-231, see its Operator’s Manual. View A POWER connection for DVI for RS-232 A Monitor unit

2. WIRING 2-18 2.5 Radar Processor Unit Three cables are terminated at the radar processor unit: the antenna unit cable, switching hub cable, and the power cable. Cables other than the power cable come with a connector preattached to them for connection to the processor unit. Fabricate the power cab...

2. WIRING 2-19 Connection of cables The power cable is connected to the terminal board on the rear panel. Other cables are connected to the printed circuit board 03P9342. F1 1 2 ACK φ 18.9 AIS 1 7 AD100 8 GYRO 28 PSU004 24 φ 7.4 VDR IN φ 7 VDR OUT 24' 26 9 14 17 15 DC/AC 21 φ 9 HDG 3 2 5 4 6 RSD 19 ...

2. WIRING 2-20 Location of connectors Open the processor unit as follows and the 03P9342 board appears. J621 J620 J619 J618 J612 J610 J608 J607 J606 J605 J604 J603 J602 J601 J617 J616 PSU External alarm J654 J615 J614 J613 Tx HV line J609 Cable clamp 03P9342 Gyro converter board or AD-100 Heading se...

2. WIRING 2-21 Cable fabrication for the cables connected to the 03P9342 board • Signal cable RW-9600 (Between transceiver unit and radar processor unit) Shield Armor Clamp here by cable clamp. Vinyl tape After exposing cores, wind shield around the armor. Vinyl sheath Coaxial cable 6 60 450 5 Condu...

2. WIRING 2-22 Connection of Sub-display A conventional remote display and/or FCR-2107 series radar can be connected to J617 and J618 in the processor unit as a sub-display. However, the controls for GAIN and STC are different depending on J617 and J618. Refer to the table below. Port Conventional r...

2. WIRING 2-23 2.6 Changing AC Power Specification of Radar Processor Unit To change AC power voltage between 100 VAC and 220 VAC, add or remove jumper connector P108 on the PWR board 03P9339 and change the fuse on the processor unit according to ship’s mains as shown in the table below. The figures...

2. WIRING 2-24 J104 J103 J106 J105 J101 PWR board (P)HV AC FIL P108/J108 R21(OVER) 8 7 6 5 4 3 2 1 Jumper plug (VH8P) How to adjust the overvoltage detection circuit: 1. Add or remove the jumper connector P108 and change the fuse. 2. Rotate R21 fully clockwise on the PWR board. 3. Connect a variable...

2. WIRING 2-25 2.7 Chart Processor Unit 1 2 3 4 5 7 8 9 10 11 12 13 1: CONTROL UNIT 5: USB 1 10: MOUSE/KEYB. 2: RADAR UNIT 7: NOT IN USE 11: VGA1 3: COM 1 8: NOT IN USE 12: LAN 2 4: PARALLEL 9: DVI1 13: LAN 1 Chart processor unit, rear view 2.8 LAN Adapter Cables fabrication for the cables connected...

2. WIRING 2-26 24 VDC Log/Dual-axis log AIS Nav Equipment 1 J7 J9 LANRX+LANRX-LANTX+LANTX-+24V_IN 24R_IN+24V_IN 24R_IN RX7+RX7-RL2NCRL2CRL2NOGND J8 RX8+RX8-RL3NCRL3CRL3NOGND J1 RX1+RX1-TX1+TX1-TX1GNDGNDGND J2 RX2+RX2- GND J5 RX5+RX5-TX5+TX5-TX5GNDGNDGND J6 RX6+RX6-RL1NCRL1CRL1NOGND J3 RX3+RX3-TX3+TX...

2. WIRING 2-27 Serial data channels in general An example of serial channel (here channel 1) RX1+ input terminals for electrical standards IEC 61162-1, and RS-422 RX1- RX+ = A and RX- = B as defined in IEC 61162-1 TX1+ output terminals for electrical standards IEC 61162-1 and RS-422 TX1- TX+ = A and...

3-1 3. SETTING AND ADJUSTMENT 3.1 Radar Processor Unit The radar processor unit is commonly used with the IMO radar FAR-2xx7 series and the chart radar FCR-2xx7 series. The difference is DIP switch (S1) setting as follows. • For chart radar S1 - #3: ON (#1 and #2 disable) S1 Setting 1 OFF 2 OFF 3 ON...

3. SETTING AND ADJUSTMENT 3-2 3.2 Setting IP Address Running Windows The chart processor unit has two local area network interfaces. To set the IP Address, run WindowsXP as follows. 1. Insert the service keyboard to the front panel of the chart processor unit. 2. Turn the chart radar on. 3. While pr...

3. SETTING AND ADJUSTMENT 3-3 Local Area Connection for LAN2 (LAN IF Network) LAN2 interface is used to connect LAN Adapter (or HUB-100) to the chat processor unit EC-1000C. To configure IP Address for this, proceed as follows: 1. Open the Control Panel. 2. Double click Network Connection icon. 3. H...

3. SETTING AND ADJUSTMENT 3-4 Confirmation of Registry 1. Open the start menu, and then select “Run”. 2. Type “regedit”, and then click OK to open field. 3. Open folder ¥¥HKEY_LOCAL_MACHINE¥SOFTWARE¥FFOY¥ECDIS¥LANadapter.

3. SETTING AND ADJUSTMENT 3-5 4. Confirm the settings are shown below. If necessary, change it appropriately. No.1 Chart radar No.2 Chart radar LAN Arpa Local Address 172.31.3.33 172.31.3.34 LAN If Local IP Address 10.0.0.184 10.0.0.185 LAN If Adapter 1ID LAN If Adapter 2ID LAN If Adapter 3ID LAN If...

3. SETTING AND ADJUSTMENT 3-6 [Main Menu] MOB Event Record Safety Message Initial Settings Alarms TT+AIS Sensors Picture Mark Echo Route Monitor User Chart Notes Close Chart Menu Set Primary Display AIS Own Ship Info 3.3 Setting Radar Number If multiple radars are connected using the network hub, se...

3. SETTING AND ADJUSTMENT 3-7 6. Roll the wheel to choose “Radar Initialize” and click the wheel to show Radar Initialize menu and choose “Page 2”. Radar MAIN TOP Model 25 DOWN Radar Initialize 7. Place the cursor on the numeric character of Radar Number. Its color changes. 8. Roll the wheel to set ...

3. SETTING AND ADJUSTMENT 3-8 12. Click the ▼ mark to show the drop-down list, scroll the list and choose “Radar Echo Overlay / ARPA communication (LAN)”. The following dialog box appears. 13. In “Radar Transceiver” field, set the same number of the radar number. 14. In “Device Interface” field, cho...

3. SETTING AND ADJUSTMENT 3-9 3.5 Heading Alignment You have mounted the antenna unit facing straight ahead in the direction of the bow. Therefore, a small but conspicuous target dead ahead visually should appear on the heading line (zero degrees). In practice, you will probably observe some small b...

3. SETTING AND ADJUSTMENT 3-10 4. Measure the bearing of the stationary target on the navigation chart and calculate the difference between actual bearing and apparent bearing on the radar screen. 5. Press the [MENU] key to show the main menu. 6. Insert the authorization key disk (supplied). 7. Roll...

3. SETTING AND ADJUSTMENT 3-11 3.6 Sweep Timing Sweep timing differs with respect to the length of the signal cable between the antenna unit and the processor unit. Adjust sweep timing at installation to prevent the following symptoms: • The echo of a “straight” target (for example, pier), on the 0....

3. SETTING AND ADJUSTMENT 3-12 3.7 Suppressing Main Bang 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 gain to show a slight amount of noise on the display. 3. Select the 0.125 nm range. Adjust sea clutte...

3. SETTING AND ADJUSTMENT 3-13 Antenna height Select height (m) of the radar antenna unit from the sea surface among 5, 7.5, 10, 15, 20, 25, 30, 35, 40, 45 and “more 50 m”. Near STC, Mid STC and far STC Use the default setting. Change the setting if desired according to sea condition. Ring Suppressi...

3. SETTING AND ADJUSTMENT 3-14 Blind Sector 1 and Blind Sector 2 Set area (up to 2) where no radar pulses will be transmitted. For example, set the area where an interfering object at the rear of the scanner would produce a dead sector (area where no echoes appear) on the display. To enter an area, ...

3. SETTING AND ADJUSTMENT 3-15 Radar Number For multiple radar system using the network hub, set number (name) of the radar. Radar Set antenna position of the radar to easily distinguish the radar configuration among MAIN TOP, MAIN 2nd, MAIN 3rd, AFT, PORT STRD and FORE. Model Confirm the model of y...

3. SETTING AND ADJUSTMENT 3-16 OWN SHIP INFO menu setting Open the Own Ship Info menu by clicking “Page 2” tab on the “Radar Initialize” menu. Radar MAIN TOP Model 25 DOWN Radar Initialize Length and Width To inscribe own ship shape on the screen when you choose it on the menu, enter length and widt...

3. SETTING AND ADJUSTMENT 3-17 TT PRESET menu setting TTM OUTPUT Set the output format of tracked targets among OFF, REL and TRUE. OFF: No output REL (relative): Target bearing from own ship, degree relative. Target course, degree relative. TRUE: Target bearing, degree true. Target course, degree tr...

3. SETTING AND ADJUSTMENT 3-18 ANT SELECT Set the antenna radiator type of your radar among XN12AF, XN20AF, XN24AF, XN4A, XN5A, SN30AF, SN36AF, SN4A, or SN5A. AUTO ACQ CORRE Set the correlation count of automatic acquisition. The setting range is 3 to 10. AUTO ACQ WEED Set the cancel count of automa...

3. SETTING AND ADJUSTMENT 3-19 3.9 Saving and Restoring Radar Initialize Parameters Saving or restoring on hard disk of Chart radar Radar initialize parameters can be saved on hard disk of Chart processor when you have set correct operative parameters. They can then be restored when ever it is requi...

3. SETTING AND ADJUSTMENT 3-20 5. Roll the wheel to choose “Radar Initialize” and click the wheel to show INITIALIZE menu. 6. Rotate the trackball to place the cursor on the ▼ mark. The “Radar Initialize” menu appears. 7. Select “Save” to make backup to Hard disk Restore is done by proceeding steps ...

3. SETTING AND ADJUSTMENT 3-21 Save or restoring on backup media To make a backup copy of radar initialize parameters for later use, see instructions below. 1. Select the ECDIS mode. 2. Press the MENU key on the control unit to show the Main Menu. 3. Roll the wheel to choose “Initial Settings” to sh...

3. SETTING AND ADJUSTMENT 3-22 3.10 Parameters Open the Installation Parameter dialog box as described on page 3-7. Activate changes now Restart needed to activate There are several buttons in this dialog box, and these are described below: Set parameters default This restores Installation parameter...

3. SETTING AND ADJUSTMENT 3-23 What happens after pressing OK After pressing OK, you may get one of the following alarms. "4000 No Sensor parameters" : The Sensor Parameters are corrupted. Use backup of Parameters. "3000 Param change disabled" : The FCR-2107/2807 cannot accept change...

3. SETTING AND ADJUSTMENT 3-24 General setting If there is no optional B adapter, select Connected = NO. If there is an optional B adapter, select Connected = YES. Notes: • Center position is geometrical center of the ship. • Conning Position is the point of observation.

3. SETTING AND ADJUSTMENT 3-25 Radar AntennaPosition Conning Position GPS AntennaPosition CenterPosition From Center Position toBow Position =100 m From Center Position toStern Position = -100 m From Center Position toConning position = -60 m From Center Position tosidewise Conning position = 10 m S...

3. SETTING AND ADJUSTMENT 3-26 Gyro 1 setting Settings when Radar CPU is receiving data in AD-10 format. Radar Settings when Radar CPU is receiving data in serial format. Radar Gyro 2 setting Gyro 2 is not connected. NO

3. SETTING AND ADJUSTMENT 3-27 Log setting Settings when log is single axis speed log transmitting IEC-61162-1. Message used is VBW. Notes: • Talker identifier can be defined for IEC 61162-1 (typical talker for log is VD). If talker identifier is defined as XX, then it is ignored.

3. SETTING AND ADJUSTMENT 3-28 Dual-axis log setting Settings when using IEC-61162-1. Settings when no dual-axis log is available. Notes: • Talker identifier can be defined for IEC 61162-1 (typical talker for dual axis log is VD). If talker identifier is defined as XX, then it is ignored. • IEC 6116...

3. SETTING AND ADJUSTMENT 3-29 Radar Echo Overlay / communication (LAN) FIRST Radar / Radar transceiver: For multiple radar system, enter a radar system number among 1, 2, 3 and 4. Connected: To connect above radar, choose YES. Device Interface: Choose a device interface among “Own for Chart Radar”,...

3. SETTING AND ADJUSTMENT 3-30 Example1 No.1 Radar No. 2 Radar No.3 Radar No. 4 Radar Chart radar Chart radar IMO radar None Setting on EC-1000C of the chart radar 1 Own radar is No.1 and chart radar. So the settings for “Radar transceiver”, “Connected”, “Device interface” are shown in the figure ri...

3. SETTING AND ADJUSTMENT 3-31 Sband3 No. 3 radar is S-band IMO radar. So the setting is shown above. There is no No. 4 radar. So the setting is shown above. Example 2 Below is an example where FCR-2xx7 and FEA-2x07 are configured to use shared route information. FCR-2xx7 EC-1000C LAN1 IP: 172.31.3....

3. SETTING AND ADJUSTMENT 3-32 • INS IP Address: 1 72.31.3. xx (IP address is FEA-2x07 LAN IP Address) Position equipment An example of DGPS receiver which is able to send IEC 61162-1 Ed. 2 messages (includes information about Datum of output position). GGA+VTG Right is an example of GPS receiver wi...

3. SETTING AND ADJUSTMENT 3-34 Notes: • Talker identifier can be separately defined for speed and course (VTG message) and for position (GLL, GGA or PAT message). If talker identifier is defined as XX, then it is ignored. • IEC 61162-1 ed1 or ed2: GGA uses messages VTG and GGA. Recommended for DGPS....

3. SETTING AND ADJUSTMENT 3-35 Conning Position GPS Antenna Position From Antenna Position toConning position = 10 m Dual Axis Log Position From Antenna Position toConning position = -5 m From Antenna Position toConning position = 10 m From Antenna Position toConning position = 5 m Radar Antenna Pos...

3. SETTING AND ADJUSTMENT 3-36 Echo Sounder and Weather Notes: (Air Pressure) • Not used by this system, should have Connected = NO Notes: (Air Humidity) • Not used by this system, should have Connected = NO

3. SETTING AND ADJUSTMENT 3-37 Wind sensor Here is an example of a wind sensor which is connected to LAN Adapter channel 15. Radar Wind modes are defined as :The wind as measured by a wind meter is known as apparent wind. If indicated wind includes speed compensation it is known as relative wind. If...

3. SETTING AND ADJUSTMENT 3-38 ROT gyro No ROT Gyro connected: The system calculates from movement of Gyro heading. ROT gyro value is received from Dolog 23 dual-axis log. ROT gyro value is received from gyro connected as Gyro1.

3. SETTING AND ADJUSTMENT 3-39 AIS Settings for AIS Transponder. Engine control Settings for receiving Fuel Consumption, Propeller and Main Engine Air Pressure data from engine control system manufactured by NORCONTROL (used message is $NCDAT). Note that full use of this feature requires that you al...

3. SETTING AND ADJUSTMENT 3-40 Speed pilot Settings when speed pilot is not connected. Settings when speed pilot is connected.

3. SETTING AND ADJUSTMENT 3-41 Storing default parameters After installing the equipment, store the default parameters of the radar as follows: 1. Connect service (for PC) keyboard. 2. Press Windows key. 3. Open Window Explorer ( Start>Programs>Windows Explorer ) 4. Open directory C:¥ants_syst...

3. SETTING AND ADJUSTMENT 3-42 3.11 Adjustments for LAN Adapter EC-1010 Before adjusting LAN adapter and updating program The following tools are needed for programming LAN adapter: • Ordinary serial line cross-cable to make connection from COM1 port to Connector J13 of LAN Adapter (9 pins female – ...

3. SETTING AND ADJUSTMENT 3-43 How to update programs for LAN adapter Update of the program is required, proceed as follows. 1. Open Explorer and directory C:¥ LAN Adapter, and then double click 7188xw.exe. 7188XW program will start in MS DOS window.

3. SETTING AND ADJUSTMENT 3-44 2. To remove old files from LAN adapter; type “del”, and then press the Y key. Load autoexec.bat and sercotr.exe as shown below. 3. Type “DIR”, and confirm that autoexec.bat and sercotr.exe are loaded as shown below. 4. Type “sercotr”, and confirm that the version numb...

3. SETTING AND ADJUSTMENT 3-45 Parameters for LAN adapter EC-1010 Set parameters for LAN adapter as follows. Unit Type command First LAN adapter of chart processor sercotr /d=2 /p=15001 /r=15000 /f=1 /n=8 /m=0 /e0=10.0.0.184 /e1=0.0.0.0 Second LAN adapter of chart processor sercotr /d=3 /p=15001 /r=...

3. SETTING AND ADJUSTMENT 3-46 How to check and change IP address of LAN adapter EC-1010 You can check and change the IP address of the LAN adapter as follows: 1. Open Explorer and then double-click 7188xw.exe. 7188XW program starts in MS DOS window. Type IP and then press the ENTER key. (Note! IP a...

3. SETTING AND ADJUSTMENT 3-48 3.12 DIP Switches and Jumper Wires LAN adapter EC-1010 J11 FURUNO LAN Adapter J10 J16 J17 J14 J15 D43 J12 J13 TX LEDs CH3 CH4 CH5 CH1 D46 D47 D48 D45 PWR2 PWR1 RL2 RL1 RL3 RELAYLEDs D34 CH1 D41 CH2 D35 CH3 D36 CH4 D37 CH5 D38 CH6 D39 CH7 D40 CH8 D50 D49 D51 J9 J7 J8 J5...

4-1 4. INSTALLING OPTIONAL EQUIPMENT 4.1 Gyro Converter GC-10 The Gyro Converter GC-10, incorporated inside the processor unit, converts analog gyrocompass reading into digital coded bearing data for display on the radar screen. This section explains how to install the GC-10 (mainly consisting of th...

4. INSTALLING OPTIONAL EQUIPMENT 4-2 2. Fasten the GYRO CONVERTER board in the processor unit with five washer head screws and male connector 231-607/019-FUR (called J602) with two screws. Connector (231)231-607/019-FUR 1 7 Connector (231)231-107/026-FUR 11 77 GYRO CONVERTER board64P1106A Screw M3x8...

4. INSTALLING OPTIONAL EQUIPMENT 4-3 4. Connect the GYRO CONVERTER board and J602 with two connector assemblies 03-2089 and 03-2090. 1 1 4 1 12 1 3 1 2 1 3 1 12 1 5 1 7 XH-PH connector assy. 03-2088 (6-14P) NH connector assy. 03-2091 (5P) VH connector assy. 03-2089 (5P) VH connector assy. 03-2090 (3...

4. INSTALLING OPTIONAL EQUIPMENT 4-4 5. Confirm gyrocompass specifications and set up the DIP switches and jumper wires on the GYRO CONVERTER board according to gyrocompass connected: • Setting jumper wires and DIP switches by gyrocompass specifications: page 4-5 • Setting jumper wires and DIP switc...

4. INSTALLING OPTIONAL EQUIPMENT 4-5 Connection of external power supply An external power supply is necessary when the repeater signal is step-by-step type and the step voltage is below 20 V or output voltage is less than 5 W. 1. Cut jumper wire JP1 on the GYRO CONVERTER board when an external powe...

4. INSTALLING OPTIONAL EQUIPMENT 4-7 Setting method 2: by maker and model of gyrocompass r e k a M s l e d o M on i t a c i f i c e p S SW 1 - 1 W S 2 - 1 W S 3 - 1 W S 4 - 1 W S 5 - 1 W S 6 - 1 W S 7 - 1 W S 8 - 1 W S 1 - 2 W S 2 - 2 W S 3 - 2 1 P J 2 P J 3 P J 4 P J 5 P J z t u h c s n A ,3 2 d r ...

4. INSTALLING OPTIONAL EQUIPMENT 4-8 Location of DIP switches, jumper wires on the GYRO CONVERTER board 64P1106 JP5, JP4(Supply voltage) JP2 (Stator voltage) JP3 (Rotor voltage) JP1 (Gyro type) Fuse (2A) J5(Rotor signal input,external power input) J4(Stator signal input) SW1DIP switch J6 (IEC-61162-...

4. INSTALLING OPTIONAL EQUIPMENT 4-9 4.2 Junction Box If the length of the antenna cable is more than 100 m, the optional junction boxes are required. These boxes should be mounted at the location protected because its waterproofing is IPX3. RW-9600 (Max 15 m) Junction box RJB-001 RW-9600 (Max 15 m)...

4. INSTALLING OPTIONAL EQUIPMENT 4-10 Cable fabrication RW-9600 6 14 5 9 approx. 450 5 20 Armor Units: mm Shield Vinyl sheath Pull out inner cables from here. Shield Coaxial cable Crimp on lug for M8 DPYC-6 and TTYC-4 20 5 6 DPYC-6: approx. 130TTYCY-4: approx. 150 ConductorS = 0.75 mm = 1.11 mm 2 TT...

4. INSTALLING OPTIONAL EQUIPMENT 4-11 Connection Insert each cable to the cable gland as follows. Flat washer Cable gland Vinyl sheath Clamping gland Gasket Cut and trim armor. Connect each cable cores to the terminal board, referring to the interconnection diagram on next page. 15 14 13 12 11 10 9 ...

4. INSTALLING OPTIONAL EQUIPMENT 4-13 4.3 B Adapter Cables fabrication for the cables connected to the B adapter Use the following JIS (Japanese Industrial Standards) cables or equivalent. When using the TTYCS-4 cable, connect the appropriate cable to it to pass the cable entrance of the adapter. Co...

4. INSTALLING OPTIONAL EQUIPMENT 4-16 Connectors on B-Adapter

4. INSTALLING OPTIONAL EQUIPMENT 4-17 Interface Status output channels in general Channel State 1 RESERVED FOR FUTURE USE 2 ROUTE MONITOR: OUTSIDE CHANNEL LIMITS 3 ROUTE MONITOR: WAYPOINT APPROACH 4 ECHO: DEPTH BELOW LIMIT 5 NOT USED 6 NAVIGATION SENSOR ALARM 7 OPERATOR FITNESS 8 ANY radar ALARM Ana...

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5-1 5. INPUT/OUTPUT DATA 5.1 Radar Processor Unit Input and output data are shown in the table below. Input Data Specifications Contents Remarks synchro or step GC-10 required AD-10 format External AD-100 Heading signal IEC 61162-2* AD-10 and IEC 61162 are switched by menu setting. Alarm ACK input C...

5. INPUT/OUTPUT DATA 5-2 5.2 Chart Processor Unit The main method for transferring data between a sensor and the Chart Processor Unit is IEC 61162-1 Ed.1 or IEC 61162-1 Ed.2 Standard serial communication link. In the standard configuration, the system has one serial communication channel interface, ...

5. INPUT/OUTPUT DATA 5-3 AIS transponder equipment • One serial input interface (IEC 61993-2 Ed.1 message !XXVDM, message types 1, 2, 3, 4, 5, 6, 9, 12, 14, 18, 19, 21 and 24, min 1 message per 10 seconds) • Notes: • Max. 1500 simultaneous AIS targets can stored for display purposes. • Max. 240 simu...

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