Furuno FAR-2157 installation manual JP1

Page 62

Setting method 1: DIP switch settings and gyrocompass specifications

1) Gyrocompass type

 

 

 

 

 

 

 

 

Gyrocompass

SW

SW

SW

JP1

type

1-4

1-5

1-6

 

AC synchronous

OFF

OFF

OFF

#1, #2, #3

 

 

 

 

 

DC synchronous

OFF

OFF

OFF

#2, #3, #4

 

 

 

 

 

DC step

ON

OFF

OFF

#4, #5, #6

 

 

 

 

 

Full-wave

OFF

ON

OFF

#4, #5, #6

pulsating current

 

 

 

 

 

 

 

 

 

Half-wave

ON

ON

OFF

#4, #5, #6

pulsating current

 

 

 

 

2) Frequency

 

 

 

 

 

 

 

 

Frequency

 

SW

SW

Remarks

 

1-7

1-8

 

 

 

50/60 Hz

 

OFF

OFF

AC synchronous-

 

 

 

 

pulsating current

 

 

 

 

 

400 Hz

 

ON

OFF

AC synchronous-

 

 

 

 

pulsating current

 

 

 

 

 

500 Hz

 

OFF

ON

AC synchronous-

 

 

 

 

pulsating current

 

 

 

 

 

DC

 

ON

ON

DC synchronous

 

 

 

 

DC step

3) Rotor voltage (between R1 & R2)

Rotor Voltage

SW2-1

 

JP3

20 to 45 VAC

ON

#2

30 to 70 VAC

OFF

#2

40 to 90 VAC

ON

#1

60 to 135 VAC

OFF

#1

5) Ratio

 

 

 

 

 

 

 

 

Ratio

SW1-1

SW1-2

SW1-3

360X

OFF

OFF

 

OFF

 

 

 

 

 

180X

ON

OFF

 

OFF

90X

OFF

ON

 

OFF

36X

ON

ON

 

OFF

4) Stator voltage (between S1 & S2)

 

 

 

 

 

 

 

 

 

 

 

Stator Voltage

SW2-2

 

SW2-3

JP2

20 to 45 VAC, or 20 to 60 VDC

ON

 

OFF

#2

30 to 70 VAC, or 40 to 100 VDC

OFF

 

OFF

#2

40 to 90 VAC

ON

 

OFF

#1

60 to 135 VAC

OFF

 

OFF

#1

6) Supply voltage

 

 

 

 

 

 

 

 

 

 

 

 

Stator Voltage

 

 

JP4

 

JP5

20 to 45 VAC, or 20 to 60 VDC

 

 

#2

 

#2

 

 

 

 

 

 

30 to 70 VAC, or 40 to 100 VDC

 

 

#1

 

#1

7) AD-10 format data

Select data Tx interval for ports 1 to 6 with jumper wires JP6 and JP7. The Tx interval is available in 25 msec or 200 msec. Use 25 msec for radar.

8) NMEA-0183 Tx interval and output sentence

Tx

SW

SW

Output sentence

interval

2-5

2-6

 

 

 

 

 

1 s

OFF

OFF

HDT+VHW

 

 

 

 

200 ms

ON

OFF

HDT

 

 

 

 

100 ms

OFF

ON

HDT

 

 

 

 

25 ms

ON

ON

HDT

 

 

 

 

9)NMEA-0183 Version no.

Version no. SW3-1

1.5OFF

2.0

ON

10)NMEA-0183 baud rate

Baud rate

SW3-2

4800 bps

OFF

38400 bps

ON

 

11) Power fail

 

12) Stator signal

 

detection

 

 

loss detection

 

 

Talker

SW3-3

 

Detection

 

SW2-7

 

Disable

OFF

 

Yes

 

OFF

 

Enable

ON

 

No

 

ON

(Use OFF for radar only)

 

SW2-4: factory use only

 

 

SW3-4: not used

 

After setting jumpers and DIP switches, reset the power or set SW2-8 to “CPU”.

4-6

Image 62
Contents Installation manual 00014869215 Safety Instructions Use only the specified power cables System Configuration IiiName Type Code No Qty Remarks Standard supplyOptional equipment Name Type Code No Remarks DVI-RGBThis page is intentionally left blank Siting Antenna UnitMounting considerations MountingHow to coat waveguide flange with silicon rubber Assembling the antenna unitName Type Qty How to hoist antenna unit How to attach hoisting ropes to antenna unitFastening antenna unit to the mounting platform How to mount the antenna unit Coat with anticorrosive sealantFlush mounting Mounting procedureMonitor Unit Contents of desktop mounting kit FP03-09820 Desktop mountingAttaching hand grips Control Unit Fixing with KB keyboard fixing plateFixing without KB fixing plate Mounting dimensions for control unit RCU-014Mounting dimensions for control unit RCU-015/RCU-016 Contents of flush mount kit for RCU-014/015/016 Connecting RCU-016 in series with RCU-014 Control unit RCU-014, inside viewChanging the cable entrance on control unit RCU-015/RCU-016 Changing cable entrance on control unit RCU-015/RCU-016Mounting dimensions for processor unit Processor UnitPower Supply Unit Mounting dimensions for power supply unitWiring Wiring OverviewAntenna unit, front view Fabricating signal cable RW-9600Fabricating signal cable RW-9600 TB801 PCB 03P9436 Cable gland for signal cable RW-9600 How to wire Wago connector ProcedureHow to fasten coaxial conductor Passing flat washer, etc. onto HV cable Fabricating HV cable TYPCY-1.5 and power cable TYPCY-2.5How to fabricate HV cable TYPCY-1.5 How to fabricate power cable TYPCY-2.5 Passing flat washer, etc. onto power cableFabricating the power cable DPYC-2.5 Fabricating power cable DPYC-2.5Fabricating power cable DPYC-2.5 Cable XH10P-W-6P L=20/30M Connection of cablesProcessor unit, rear view Cable XH10P-W-5P-A L=10/20/30MLocation of connectors Location of connectors inside the processor unitSignal cable RW-9600 Between antenna unit and processor unit Power cable TPYC-1.5Connection of Sub-display Port Conventional remote display FAR-2157Terminal TB1 cable DPYC-2.5 Power supply unit, inside viewFabricating cable connected to terminal TB1, TB2, TB3 Armor Processor unit Changing AC Power SpecificationPower supply Fuse Jumper connector P108 Processor unit, inside viewHow to adjust the overvoltage detection circuit Power supply unit Power Fuse Jumper connector P8Adjustments Initializing TuningHeading Alignment Heading alignmentInitialize menu For Control Unit RCU-014For Control Unit RCU-015 Echo ADJ menuHow to access the Initialize Menu with Control Unit RCU-015 Adjusting Sweep Timing Examples of correct and incorrect sweep timingsSuppressing Main Bang Other Settings Echo menu settingANT SW and ANT Stopped Scanner menuBlind Sector 1 and Blind Sector On Time and TX Time Installation menuRadar no and Radar Posn GPS 1 ANT Posn and GPS 2 ANT Posn OWN Ship Info menuLENGTH/WIDTH, Scanner Posn and SUB Scanner Posn ARP-related menus Arpa Preset menuARP W/O Gyro Not shown on IMO radar ANT Select Other menu Other menuEAV w/o Gyro This page intentionally left blank Installing the Gyro Converter board Gyro Converter GC-10Fixing Gyro Converter board inside the processor unit Connecting connector assemblies inside processor unit Wiring Wago connectorAttaching plastic cover for Gyro Converter board Default setting Connection of external power supplyDIP switch, jumper wire settings Connection of external power supply to Gyro Converter boardJP1 Setting method 2 by make and model of gyrocompass JP1 JP2 JP3 JP4 JP564P1106 Gyro Converter boardSetting the heading readout on the radar display HDG menuFlush mounting dimensions for memory card interface unit Memory Card Interface UnitOne memory card if unit and one processor unit ConnectionsDesktop mount One memory card if unit and multiple processor unitsType Code No Contents How to wire the DVI-RBG conversion board DVI-RGB Conversion KitProcessor unit, side view Processor unit bottom chassisConnecting wires to the housing BNC Connector Converter DVI-RGBOutput Data Specifications Contents RemarksInput Sentence and order of priority IEC 61162 input sentence and priorityIEC 61162 output sentence Sentence45$545$5 #  76.+0 +26+10%1& 52 427 52 257 #%8 . . .   GC-10 $40# Page Page May 1707 R.Esumi Sep/2010 Y.NISHIYAMA Page Jan.1808 R.Esumi Apr.2307 R.Esumi Apr.2307 R.Esumi Apr.2307 R.Esumi Apr.2307 R.Esumi Apr.2307 R.Esumi Page Page Page Page Page Page Page Page Page Marine RADAR/ARPA

FAR-2157 specifications

The Furuno FAR-2157 is a cutting-edge radar system specifically designed for marine applications, offering superior performance and advanced features. As part of the renowned FAR series, the FAR-2157 stands out with its impressive capabilities, making it essential for navigating both commercial and leisure vessels.

One of the main features of the FAR-2157 is its 12 kW transmitter, which facilitates long-range detection and precise target tracking. The radar operates on the X-band frequency, ensuring high-resolution imagery and outstanding target separation in various conditions. This enables operators to detect small targets and navigate safely, even in congested waters.

Equipped with Furuno's advanced Digital Signal Processing (DSP) technology, the FAR-2157 enhances target detection by reducing clutter and improving signal clarity. This results in an increased ability to identify vessels, buoys, and landmasses, thereby greatly enhancing situational awareness. The radar is designed to automatically adjust gain, sea clutter, and rain clutter settings, allowing for consistently optimal performance without the need for constant manual intervention.

Another notable characteristic of the FAR-2157 is its ability to integrate with other onboard systems such as chart plotters and AIS (Automatic Identification System). This integration allows for the seamless overlay of radar data onto electronic charts, enabling mariners to monitor navigation and potential hazards in real time. Additionally, the radar supports the MARPA (Mini Automatic Radar Plotting Aid) system, allowing users to track the movement of multiple targets and predict their future positions, aiding in collision avoidance.

The user interface of the FAR-2157 is designed with simplicity in mind, featuring a large and intuitive display. The menu-driven setup and user-friendly controls ensure that operators can easily access essential functions and settings. Furthermore, the display is sunlight-readable, which is crucial for visibility in bright conditions.

The Furuno FAR-2157 is built to withstand the rigors of the maritime environment. It is equipped with a rugged dome antenna, ensuring durability against harsh weather conditions and vibrations. The system also includes a built-in self-diagnosis function, which helps maintain optimal performance by identifying potential issues before they become critical.

Overall, the Furuno FAR-2157 radar system combines advanced technology with user-friendly features, making it an ideal choice for marine professionals seeking reliable and efficient navigation assistance. With its powerful capabilities, the FAR-2157 enhances safety and efficiency on the water, making it a valuable addition to any vessel's navigation suite.