Simrad MN000802A-G manual Yacht installations, How to find the optimum height for the scanner

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4.3 Yacht installations

Normally you should install the scanner horizontally, to produce an equal sweep around the yacht. However, a yacht heels over to the lee side, and when the heel angle exceeds 50% of the vertical beam width of the radar, this can cause two problems:

•on the windward side of the yacht, the beam is projected too high to sweep the water surface effectively. Targets can be missed completely or appear at very poor resolution on the display unit.

•on the lee side of the yacht, the beam is projected too low and is concentrated over a small area of water so that sea clutter becomes a problem on the display unit.

In this case, you're recommended to install the scanner on a gimbal mounting so that it can operate effectively in a heavy swell or when the yacht is heeled over.

4.4 How to find the optimum height for the scanner

The optimum height for the scanner is as close as possible to the A-B line for best performance. How to find the A-B Line:

The vertical extent of the radar beam is 2θ°, so most of the radar beam is concentrated within this angle, meaning that outside of this angle the radar beam will be very weak.

Scanner model	θ° value (half the -3 dB beam
	width)
2 kW	15

4 kW	12.5

6 kW	10

10 kW	10

25 kW	10

An example of an A-B Line is shown in the picture. If you install the scanner below the A-B line, the scanner will be too low. It will be difficult to acquire distant targets and the superstructure will be more likely to impede the passage of the beam and generate false echoes. If the scanner is installed too high above the A-B line, the beam will miss close targets and increase sea clutter return.

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Contents KW Radar CE Compliance KW Radar Installation ManualFCC Statement Industry CanadaFeedback from you WarrantyContents Connect to Lowrance Displays MaintenanceConnect Simrad NX40 / NX45, Northstar M84 / M121 Connect Northstar 6000i13 2 kW radar system specifications Please Read Carefully Before USE PrefaceEthernet Connectivity Serial ConnectivityPage Introduction to the Navico radar system Brand Display heads that support the Navico radar systemBranding information 2 kw Radar overview Serial Connectivity Install the radar Dont do this Choose the scanner locationPower boat installations Yacht installations How to find the optimum height for the scannerScanner model Value half the -3 dB beam Width How to find the theoretical maximum detection range 2 kW scanner dimensions How to reduce false echoes and shadow zonesInstall the 2 kW scanner unit Install a scanner on a trestleInstall the radar processor Check the 2 kW radar parts Page Page Wiring guidelines Page Page Page Yellow #24 White big #12 Shell Braid shield 2 kW radar processor connections Only Connect the power cableRadar system checklist Connect the ground wireEthernet Crossover cable Connect Simrad GB40 or NorthstarParts needed to connect radar to a GB40 or 8000i system Ethernet Cables Simrad GB40 and NorthstarOptional parts to connect GB40 only Optional parts to connect GB40AT10-HD Simrad GB40 connection using SimNet heading Key Part Description Number Northstar 8000i / Simrad GB 40 using Nmea 0183 headingPage Commision the radar using a GB40 or ¾ tarting up RadarPin Function ¾ To correct ¾ Set Radar Range offset trigger Delay¾ Select OK to confirm the new setting ¾ To enter Radar setup optionsRadar information Radar Power on ActionConnect Simrad NX40 / NX45, Northstar M84 / M121 Parts neededRadar connection kit AA002461 Quanti Part name NOR Connect the 2 kW radar processor to an M84 or M121 Display¾ Zero bearing Set up the radar with the Northstar M84 or M121¾ To enable the radar functionality ¾ Park position¾ Antenna height Connect Northstar 6000i Parts needed to connct to a Northstar 6000iSerial comms extension cables + adaptor Quanti Part name Connect the 2 kW radar processor to a 6000i or 6100i display AUX NmeaPage Nmea 1 in B Remote Power OUT ShieldPower Nmea 1 in aPage ¾ Power on Option Turn the radar on ¾ Turn on the radar as follows¾ Turn the radar off Before you turn on the radar for the first timeAdjust the appearance settings Configure the navigator communicationsPrepare for calibration Disable the heading sensor inputHeading sensor requirements Calibrating the radar¾ To select a different curve Set the trigger delayTune the radar Set the STC CurveSet the heading calibration heading sensor installed Press Page 3, Page 4, and InstallPress Page 2, Page 3, Page 4, and Install Set the heading calibration heading sensor not installed Restore all the factory settingsRestore the factory appearance settings Manual tuning procedure for the 6000i or 6100i system ¾ Next, set the scale to 1/8 nautical miles as followsPress Sea Clutter Heading Sensor Optional Quantit Part Name Connect to Lowrance DisplaysParts needed to connect to Lowrance displays RIM300 Radar Interface Module Quantit Part name10.2 RIM300 Setup the radar with Lowrance displays Setup the basics ¾ Trigger Delay Preparation Radar SetupMain Bang Suppression Trigger DelayAdjust Main Bang Suppression Before heading line adjustment After heading line adjustment Maintenance General maintenanceScanner maintenance Other maintenance items If the scanner fails to turn Technical support, service and repairsTroubleshoot the radar Radar is not operating correctlyHow to reduce noise and interference Make sure the power is present and correctly wiredConfirm the equipment installed Make Model Serial Number Software Version Are range rings displayed?13 2 kW radar system specifications KW scannerDC input To 15.6 V DC DC 12 V system only NS-RDR-1021MD KW Radar processor specifications