Simrad SIMRAD HS50 manual Operation, Height aided GPS position

Page 49

OPERATING INSTRUCTIONS

4.5Operation

The HS50 will normally output signals on the serial lines without any involvement from the user. However, the following should be taken into consideration during operation:

Height aided GPS position

In periods with weak satellite geometry, the position can be made more accurate by using height aiding function in the General submenu. Refer General, page 28.

The height aiding improves the solution by using the knowledge that a vessel at sea has only small short-term variations in height caused by heave. The long-term variations caused by tide are taken care of in the system. The height value used, as input to the GPS solution is a low-pass filtered value of the measured height.

A start value for the low-pass filter should be specified for use at system start-up. The value to use is the height of the Sensor unit above the WGS-84 ellipsoid when the sea level is at its mean value. This height can be found in the primary Navigation/POS display, where the HGT value is the GPS height. Refer Navigation/POS display, page 36. The value should be monitored for some minutes, and the average value should be used.

Note!The height difference between mean sea level and the WGS-84 ellipsoid can be significant. Values between +/- 100 meters can be encountered.

For normal operation, height aiding should be set to FILTER or OFF. When FILTER or FIXED is selected, an initial height has to be entered.

Height aiding is active only with input of differential GPS.

20221081 / F

41

Page 48 Page 50
Image 49
Page 48 Page 50
Contents Simrad HS50 Heading Sensor Copyright 20221081 / F Document revisions Contents Operating Instructions Figures and Drawings This page Intentially Left Blank HS50 System components Introduction20221081 / F Definitions, abbreviations and acronyms About this manualDefinitions Nmea Abbreviations and acronymsRestrictions in guarantee Health, environment and safetyRestrictions in use Performance data Physical dimensionsSensor unit Display unitEnvironmental specification PowerProcessing unit Interface CableProcessing unit to sensor unit cable Cable connection GeneralGrounding Location of the unit Sensor unitMechanical installation Bracket mounting option Pedestal mounting option Cable wiringDisplay unit Waterproofing the connectorsAlternative panel mounting Panel mountingBracket mounting option Display unit cable Processing unit Cable connections Display Unit Sensor Unit RGC Signal Interface unit Connecting to Simrad equipmentAP9MK3 Autopilot NI300X J50/J300X Junction unitIS15 Instruments Simrad RA40/RA50 Radar RGC12 Gyro CompassSoftware setup procedure Example Display AdjustmentsDifferential corrections All six serial lines may be used simultaneously Data outputGeneral EthernetVelocity filtering Height aidingRadar format DatumHDT-Q Expert setupHeading offset Run modeExample Overview Operating InstructionsPerformance monitoring Turning the system ON/OFF348 Navigation/POS display Navigation/HDT displayHdop Pdop Info displaysGps hdt Deviation Accuracy Last heading Common sat Alarms Invalid Heading alarm Invalid Position alarmInvalid Position and Heading alarm Height aided GPS position OperationThis page Intentially Left Blank Periodic maintenance MaintenanceRe-calibration of the Sensor unit Software upgradesRepairs and modifications TroubleshootingReplacing damaged cables Replacing damaged unitsNo valid data No responseInvalid Heading No Differential correctionsSimulated data Reduced heading indicationFigures and Drawings Seatex DimensionsKongsberg Seatex Sensor unit bracket, dimensionsSensor unit Processing unit, dimensions Display unit, dimensions Optional equipment Standard deliveryDocumentation
Top Page Image Contents