Furuno SC-120 manual Principle of Operation, Principle of satellite compass operation

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1 PRINCIPLE OF OPERATION

Own ship's heading can be determined by decoding the data in the carrier frequency in addition to ordinary GPS parameters. In principle, a pair of two antennas A1(ref) and A2(fore), each connected with an associated GPS engine and processor, are installed along the ship's fore-and-aft line. GPS systems at A1 and A2 calculate the range and azimuth to the satellite. Difference in range between A1 and A2 is ∆λ + nλ where λ is 19 cm. “n” is automatically found during the initialization stage by receiving three satellites. A fraction of a carrier wavelength, ∆λ , is processed by FURUNO’s advanced kinematic technology in geographical survey, thus determining a vector (range and orientation) A1 to A2.

In reality, a third antenna is used to reduce the influence of pitch, roll and yaw, and five satellites are processed to obtain 3D data. If the GPS signal is blocked by a tall building or the vessel is under a bridge, the 3-axis solid-state angular rate gyros in the processor unit take place of the satellite compass, maintaining the current heading continuously.

Antenna A3

Heading		line
	-aft	line
	-aft
	-and
θ	Fore

∆λ

nλ

λ

Vector	to

decide

heading	Antenna A2

Difference between the range from satellite to antenna 1 and the range to antenna 2.

Antenna A1

Principle of satellite compass operation

1-1

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Contents Satellite Compass 00080919206 Safety Instructions Table of Contents Iii MAINTENANCE, TroubleshootingForeword FeaturesWord to the Owner of the SC-120 System configuration System ConfigurationName Type Code No Qty Remarks Equipment ListVii Software Version List This page is intentionally left blank SC-120 Specifications of Satellite CompassPower Supply Principle of satellite compass operation Principle of OperationThis page is intentionally left blank Mounting Considerations InstallationSC-series antenna unit Separation degrees Mast diameter Separation distance minimumAntenna and field of view Example of improper installation Example of improper installationDisplay unit, processor unit Installation post Installing the Antenna UnitsCoating bolt, nut and washer with silicone rubber Fastening antenna unit to a postAntenna element Mounting the Dgps antenna Dgps antenna unitCable connection when using cable RG-10UY Waterproofing the extension connectorAntenna cable set Type OP08-17, Code No Deck mount Installing the Processor UnitProcessor unit orientation, deck mounting Processor unit, top view Bulkhead mountAngular rate sensor, top view HEAD1HEAD2HEAD3 Installation of processor unit on the underside of a desk Installation on the underside of a deskProcessor unit orientation, bulkhead mounting Processor Unit, rear view Adjusting for orientation error Installing the Display UnitDesktop, overhead mounting Display unit mounting methodsFlush mount F Flush mountingName Type Flush mount SGeneral wiring diagram WiringAntenna TPPX6-3D2V-15M Port on Sectional view of coaxial cable 3D2V How to attach connector N-P-8DFB How to attach connector N-P-8DFBInstallation setup menu Initial SettingsConfirming satellite status choosing mounting method Main menuHeading setup menu Adjusting antenna orientationChoosing heading source Port Format Setting Remarks Jumper wire and format on the circuit board 20P8171Heading data format Processor unit, cover opened, top viewConnection of External Equipment Installing the Dgps Beacon Receiver KitProcessor unit, cover removed, top view ProcedureJ56 Controls OperationDisplay unit Processor unit Turning the Power On/OffPress the DIM key Description of displays Choosing a DisplayHeading display Nav data displayCompass display Steering displayROT Rate-of-Turn display Set and Drift display, Distance Run displayMain menu 2. Choose Alarms and press the ENT key AlarmsAlarm menu Alarm menu, GPS buzzer optionsConfirming Satellite Status Alarm menu, Dgps buzzer optionsSatellite status display Displaying the GPS setup menu GPS SetupGPS Setup menu description Heading Output DataInterface Navigation dataNAV OUT menu Format selection windowTalker identifier mnemonics Log pulseLog pulse rate selection window Heading talker selection windowSystem Setup menu System SetupGeodetic data Units of measurement Using local timeTime format Demonstration mode Dgps SetupManual Dgps setup Dgps menuBeacon receiver selection window INTBeacon station display Programming user beacon stationsStation User display NEW User Channel display Editing user beacon stationsDisplay for editing user channels Erasing all user beacon stations Erasing individual user stationsPrompt for erasure of all user channels Others menu Others MenuReset Distance prompt Resetting Distance RunTrip Menu Trip menuThis page is intentionally left blank Preventive Maintenance MAINTENANCE, TroubleshootingDo not open the equipment Diagnostics TroubleshootingSymptom Cause Remedy Diagnostic test1Diagnostic test sequence MAINTENANCE, TroubleshootingTEST2 display Diagnostic test2Clearing Data Program NumberProgram version no. display Prompts for erasure of dataBattery Location Type Code No Replacement of BatteryBattery exchange options Prompt for exchanging batteryError Messages Replacement of FuseError Message Meaning Remedy Message displayBatttery Error messages con’t from previousMenu Tree AppendixNorth American Geodetic Chart CodesDigital Interface Schematic diagrams NAV OUT1 Port PFECatt- True heading, pitching, rolling Data sentencesHDM- Heading magnetic VDR Set and drift VTG Course over ground and ground speed Input/Output Ports Port Label Connector Signal Remarks TypeProcessor unit, cover removed Parts LocationR U N O Parts ListＰａｃｋｉｎｇＬｉｓｔ SC-1203F 工事材料表 Page Page Page GP-1850,GP-1650,FA-100,GP-1640/F SC-60/120,GD/GP-280/680/380 20AG-X-9405 Page Page Page Page Page Page Page Page Index-1 Index