Simrad SP90 - REV E Instalační manuál

Installation manualSimrad SP90Low frequency long range sh nding sonarT E C H N O L O G Y F O R S U S T A I N A B L E F I S H E R I E Swww.simr

Simrad SP90VI851-164510 / Rev.EHigh voltage safety warningPrecautionary measuresThe voltages used to power this equipment arepotentially lethal. Even

Simrad SP9088851-164510 / Rev.EPhysical connections to the Sonar Interface UnitThe figure below shows the positions for the different auxiliaryconnect

Connecting peripheral equipment89851-164510 / Rev.E8.2 Speed log connectionOverviewThe sonar can read the speed information from one of thefollowing t

Simrad SP9090851-164510 / Rev.ESpeed log with RS-232 outputThe sonar can also read the speed log data from a RS-232 serialline with a standard NMEA 01

Connecting peripheral equipment91851-164510 / Rev.E8.3 Course gyro connectionOverviewThe SP90 sonar can read the course information from anRS-232 seri

Simrad SP9092851-164510 / Rev.E8.4 (D)GPS connectionA (D)GPS may be connected to the SP90 sonar to indicate thelatitude and longitude position of the

Connecting peripheral equipment93851-164510 / Rev.E8.5 Echo sounder connectionTo provide depth information on the sonar, an echo sounderwith standard

Simrad SP9094851-164510 / Rev.E8.6 Trawl system connectionThe SP90 sonar can read the trawl data from a Simrad FS Trawlsonar or ITI (Integrated Trawl

Connecting peripheral equipment95851-164510 / Rev.E8.7 Catch monitoring system connectionTo provide purse seine depth information on the sonar’s displ

Simrad SP9096851-164510 / Rev.E8.8 Current meterThe SP90 sonar can read the data from the following currentmeter systems:• Kaijo DCG-200The interface

Connecting peripheral equipment97851-164510 / Rev.E8.9 Radio buoysThe SP90 sonar can read the data from one of the followingGPS based radio buoy syste

Installation manualVII851-164510 / Rev.EArtificial respiration1 Kneel besides the victim’s head. Place onehand under his neck and lift, allowing hishe

Simrad SP9098851-164510 / Rev.E8.10 Trackball / mouse connectionIn addition to the standard operating panel, an extra trackball ormouse with USB inter

Start-up procedures99851-164510 / Rev.E9 START-UP PROCEDURES9.1 IntroductionThe procedures in this chapter shall be carried out once all thehardware u

Simrad SP90100851-164510 / Rev.E9.2 Check-list before start-up commencesBefore you commence with the start-up procedure, check thefollowing items. To

Start-up procedures101851-164510 / Rev.E9.3 Starting up the stand-by power supplyIn order to start up the sonar units, the +24 Vdc stand-by powersuppl

Simrad SP90102851-164510 / Rev.E3 Insert the mains fuses for the Transceiver Unit on theship’s mains fuse box.4 Measure the mains voltage supplied to

Start-up procedures103851-164510 / Rev.E9.4 Starting up the Hull UnitIntroductionObserve the following procedure to start up the Hull Unit. Toensure c

Simrad SP90104851-164510 / Rev.EFunctional checkBefore you start the functional check, make sure that the mainsfuses for the hull unit has been discon

Start-up procedures105851-164510 / Rev.E5 Locate the hand crank inside the Motor Control Unit, andmount the hand crank onto the stub shaft through the

Simrad SP90106851-164510 / Rev.E10 Set the hoisting/lowering switch S302 to Hoist position,and check that the hoisting contactor K301 is activatedwhen

Start-up procedures107851-164510 / Rev.E2 Remove the cover for the mains connection to the motor.→ Refer to figure 31 on page 107.3 Rearrange the moto

Simrad SP90VIII851-164510 / Rev.E

Simrad SP90108851-164510 / Rev.E5 If the transducer shaft was hoisted, perform the followingprocedure:a Disconnect the ship’s 3-phase mains fusesb Cha

Start-up procedures109851-164510 / Rev.E9.5 Starting up the wheelhouse unitsIntroductionIf the AC mains plug on the SP90 Sonar Processor Unit hasbeen

Simrad SP90110851-164510 / Rev.EDisplay set-upObserve the following procedure to set up the display andretrieve simulated sonar echoes.1 Refer to the

Start-up procedures111851-164510 / Rev.E9.6 Checking the Operating PanelIntroductionThe simulated echoes makes it possible to test out most of theoper

Simrad SP90112851-164510 / Rev.EFunctional testObserve the following procedure to check a selection of theoperational functions.Markers1 Check the Tar

Start-up procedures113851-164510 / Rev.E5 Check the Seine circle.a Press the Gear button (field 2, bottom button).b Check that a Seine circle appears

Simrad SP90114851-164510 / Rev.EFull screen11 Check the Full screen function.a Press the Menu button (field 6, left button)b Check that the menu disap

Start-up procedures115851-164510 / Rev.EOff centre16 Check the Off centre function.a Move the cursor to any position inside the echo area.b Press the

Simrad SP90116851-164510 / Rev.EOperating Panel backlight22 Check the Operating Panel backlight.a Select the Display menu.b Press the left and right h

Start-up procedures117851-164510 / Rev.E9.7 Checking the hoisting/lower systemIntroductionThe following set of procedures requires two persons. Oneper

Introduction1851-164510 / Rev.E1INTRODUCTION1.1 The purpose of this manualThe purpose of this manual is to provide the information andbasic drawings r

Simrad SP90118851-164510 / Rev.EChecking the bridge functionsNote: This procedure must be performed simultanously with the nextprocedure; Checking the

Start-up procedures119851-164510 / Rev.Eb Check that the LED next to the Down button starts toflash, and that the audible signal indicates transducerm

Simrad SP90120851-164510 / Rev.Eb Check that the LED next to the Up button starts toflash, and that the audible signal indicates transducermovement.c

Start-up procedures121851-164510 / Rev.EBlank pageThis page is intentionally left blank. It allows you to remove the next test procedurefrom the manua

Simrad SP90122851-164510 / Rev.EChecking the sonar room functionsNote: This procedure must be performed simultanously with theprocedure and checklist

Start-up procedures123851-164510 / Rev.E9.8 StartinguptheTransceiverUnitObserve this test procedure to power up the Transceiver Unit forthe first time

Simrad SP90124851-164510 / Rev.E5 Check that the following small LEDs on the TransceiverInterface Board (TIB) illuminate (refer to the indicationon th

Start-up procedures125851-164510 / Rev.E9.9 Self-noise testThis test procedure will allow you to check the system’sself-noise.Observe the following pr

Simrad SP90126851-164510 / Rev.E9.10 System start-upIntroductionTo do the final tests, the vessel must be in the sea. This isbecause the transducer al

Start-up procedures127851-164510 / Rev.EActions on the bridgeNote: This procedure must be performed simultanously with the nextprocedure; Actions in t

Simrad SP902851-164510 / Rev.E1.2 System diagramA simplified SP90 system diagram is shown.(A) = Colour display(B) = Operating Panel(C) = Sonar Process

Simrad SP90128851-164510 / Rev.EBlank pageThis page is intentionally left blank. It allows you to remove the next test procedurefrom the manual, and b

Start-up procedures129851-164510 / Rev.EActions in the sonar roomNote: This procedure must be performed simultanously with theprevious procedure; Acti

Simrad SP90130851-164510 / Rev.E9.11 Alignment of the sonar pictureIndependent of the hull unit orientation, the alignment is alwaysdefined as:• the a

Start-up procedures131851-164510 / Rev.E3 Turn the echo picture on the display in the following way:a Select the Setup menu.b Press the Test... to bri

Simrad SP90132851-164510 / Rev.E9.12 Adjusting the stabilisation sensor offsetIndependent of the hull unit orientation, the offset of thestabilization

Start-up procedures133851-164510 / Rev.EProcedure: To enter the stabilisationoffset angleObserve the following procedure to enter the offset stabiliza

Simrad SP90134851-164510 / Rev.E9.13 Setting own ship parametersShip dimensionsTo get the correct size of the vessel symbol on the display, thelength

Start-up procedures135851-164510 / Rev.EObserve the following procedure for transducer and GPSantenna positioning.1 Ensure that the Installation menu

Simrad SP90136851-164510 / Rev.E10 TESTING THE PERIPHERAL EQUIPMENT10.1 IntroductionThe physical connections of the peripehral sensors has beenpreviou

Testing the peripheral equipment137851-164510 / Rev.E10.2 Interface settingsDefault interface settingsThe sensor settings are all preset to these reco

Introduction3851-164510 / Rev.EHGEACDBF(CD6482B)WheelhouseSonar room115/230 Vac115/230 Vac115/230 Vac230/380/440 Vac3-phase

Simrad SP90138851-164510 / Rev.E13 Press Close to finish.If you enter a wrong value and the sensor interface does notwork, you can change the paramete

Testing the peripheral equipment139851-164510 / Rev.EFigure 41 The Object Inspector7 Select SensorIOControl on the list by pressing on the +sign in fr

Simrad SP90140851-164510 / Rev.E10.3 Speed logIntroductionThe speed log can come from three different sensor types. Tickoff for the type which will be

Testing the peripheral equipment141851-164510 / Rev.ESpeed log with RS-232 serial lineObserve the following procedure to test the speed log input:1 Ac

Simrad SP90142851-164510 / Rev.E10.4 Course gyroIntroductionThe heading can come from two different sensor types. Tick offfor the type which will be c

Testing the peripheral equipment143851-164510 / Rev.EHeading data from (D)GPSIf the GPS is used for the course gyro input, wait with this testuntil th

Simrad SP90144851-164510 / Rev.E10.5 (D)GPSObserve the following procedure to test the GPS input:1 Access the I/O Setup menu.→ A procedure f or this i

Testing the peripheral equipment145851-164510 / Rev.E10.6 Echo sounderThe SP90 Sonar Processor Unit can read the depth informationfrom an echo sounder

Simrad SP90146851-164510 / Rev.E10.7 Trawl systemObserve the following procedure to test the trawl systeminterface.1 Access the I/O Setup menu.→ A pro

Testing the peripheral equipment147851-164510 / Rev.E10.8 Catch monitoring systemObserve the following procedure to test the catch monitoringsystem in

Simrad SP904851-164510 / Rev.E1.3 Scope of supplyMain unitsThe standard Simrad SP90 sonar system is comprised of thefollowing main units:Unit Order nu

Simrad SP90148851-164510 / Rev.E10.9 Radio buoy systemObserve the following procedure to test the radio buoy systeminterface.1 Access the I/O Setup me

Testing the peripheral equipment149851-164510 / Rev.E10.10 Current meter systemObserve the following procedure to test the Current Metersystem interfa

Simrad SP90150851-164510 / Rev.E11 FINAL TESTS AND MEASUREMENTS11.1 IntroductionIn order to verify that the sonar works properly, the followingmeasure

Final tests and measurements151851-164510 / Rev.E11.2 Source level (SL) measurementsPreparationsThe procedure calls for a test hydrophone. Prior to us

Simrad SP90152851-164510 / Rev.EFigure 42 Source Level (SL) measurementsTX enable(CD5873)TXenableExternal triggerVertical inputOscilloscopet (ms)5 to

Final tests and measurements153851-164510 / Rev.E6 Enter the result into the Measurements results table.→ The Measurement results table is shown as ta

Simrad SP90154851-164510 / Rev.EMeasurements/calculations Value Unit ExampleMeasured time delay (t) msec 5Distance from hy-drophonetotrans-r = 1.5xt m

Final tests and measurements155851-164510 / Rev.EMeasurement terminationThe Source Level measurements have now been completed.Note: DO NOT remove the

Simrad SP90156851-164510 / Rev.E11.3 Receiving voltage response (VR)PreparationsIn order to measure the receiving voltage response, use the testhydrop

Final tests and measurements157851-164510 / Rev.E8 Enter the measured hydrophone voltage U(p-p) into theMeasurement and calculation results table, and

Introduction5851-164510 / Rev.EOptionsThe following optional equipment may be ordered at anadditional charge to augment the standard Simrad SP90 sonar

Simrad SP90158851-164510 / Rev.EMeasurement terminationThe voltage response measurements have now been completed.Remember to restore all menu settings

Final tests and measurements159851-164510 / Rev.E11.4 Noise/speed curvePreparationsIn order to make a noise/speed curve for the ship, make thefollowin

Simrad SP90160851-164510 / Rev.ESpeed(Knots)Bearing(Knots)--120° -- 6 0 ° 0° +60° +120° +180°02468101214Table 8 Noise measurements8 When the measureme

Final tests and measurements161851-164510 / Rev.E3 From full speed, reduce the engine thrust for minimumspeed, and make similar readouts for Retardati

Simrad SP90162851-164510 / Rev.E+10dB+8NOISE/SPEED CURVEFOR 0° BEARING WITHdB+6MAXIMUM GAINdB+4_________STABLE SPEED---------ACCELERATIONRETARDATIONdB

Technical specifications163851-164510 / Rev.E12 TECHNICAL SPECIFICATIONS12.1 IntroductionThe main technical specifications related to sonar installati

Simrad SP90164851-164510 / Rev.E12.2 Power specificationsSonarProcessorUnitMC70• Voltage:- Nomin al: 115 / 230 Vac, single phase (selectable)- Deviati

Technical specifications165851-164510 / Rev.E12.3 Weights and dimensionsElectronic unitsOperating Panel• Weight: Approximately 4 kg• Dimensions (WDH):

Simrad SP90166851-164510 / Rev.EHull Unit• Weight:- SP90: Approximately 850 kg (only on special delivery)- SP91: Approximately 900 kg (only on special

Technical specifications167851-164510 / Rev.E12.4 Environmental specificationsSonarProcessorUnitMC70• Operational temperature: 0to+40°C• Storage tempe

Simrad SP906851-164510 / Rev.EGyro interfaceIf the course gyro data is not available on a standard NMEA0183 serial line, a gyro interface box is requi

Simrad SP90168851-164510 / Rev.E12.5 Telegram formatsIntroductionThe SP90 can send and receive information from severaldifferent peripherals. All tran

Technical specifications169851-164510 / Rev.ENMEA 0183The NMEA 0183 Standard is the most common protocol usedfor receiving and transmitting sensor dat

Simrad SP90170851-164510 / Rev.EGyroThe sonar can receive the following gyro telegrams.• Heading, magnetic• Heading, trueHeading, magnetic$??HDM,x.x,M

Technical specifications171851-164510 / Rev.ESpeed logThe SP90 can interface to an external speed log via Ethernet, ora serial line using the NMEA 018

Simrad SP90172851-164510 / Rev.ETimeThe SP90 software provides an interface to an external timesynchronisation unit. The communication can take place

Technical specifications173851-164510 / Rev.ETrawl systemsThe SP90 interfaces a trawl system via Ethernet or on a serialline. The serial interface use

Simrad SP90174851-164510 / Rev.ETrawl position in cartesian co-ordinates@IITPC,x,M,y,M,z,M<cr><lf>where (from left towards right):Componen

Technical specifications175851-164510 / Rev.ETrawl headrope to footrope and bottom@IIHFB,x.x,M,y.y,M<cr><lf>where (from left towards right

Simrad SP90176851-164510 / Rev.ETrawl to shoal distance@IITTS,x,M,y,P,z,M<cr><lf>where (from left towards right):Component ContentTTS Traw

Technical specifications177851-164510 / Rev.EITI OutputsThe SP90 transmits the following NMEA telegrams to the ITIsystem.• Tracked target position or

Introduction7851-164510 / Rev.E1.4 Peripheral equipmentRequired inputsThe Simrad SP90 sonar system requires input from both a speedlog and a course gy

Simrad SP90178851-164510 / Rev.EFS3300 Trawl systemThe serial output of the FS3300 system sends a 2-byte binarydepth value. With a measurement in unit

Technical specifications179851-164510 / Rev.EGlobal Positioning System (GPS)The SP90 can interface an external Global Positioning System(GPS) via Ethe

Simrad SP90180851-164510 / Rev.EGlobal positioning system fix data$??GGAhhmmss.ss,ddmmhh,,N,dddmm.hh,W,hhmmss.ss,a,x,xx,x.x,x.x,M,x.x,M,x.x,xxxx<cr

Technical specifications181851-164510 / Rev.EEcho sounderThe SP90 interfaces an external echo sounder via Ethernet or aserial line for reception of de

Simrad SP90182851-164510 / Rev.ESounder depth below surface (Special)This telegram has been developed by Simrad.$SDDBS,,,y.y,M,,,tttttt<cr><l

Technical specifications183851-164510 / Rev.ESea current sensorThe SP90 interfaces to an external sensor for reception of seacurrent data. The interfa

Simrad SP90184851-164510 / Rev.EWind sensorThe SP90 interfaces an external wind sensor via Ethernet or aserial line using the NMEA 0183 standard for r

Technical specifications185851-164510 / Rev.EWind speed and angle (relative)$??VWR,x.x,a,x.x,a,A<cr><lf>where (from left towards right):Co

Simrad SP90186851-164510 / Rev.E13 DRAWING FILEThis chapter contains cable details and installation drawings.13.1 Cable detailsThe following drawings

Drawing file187851-164510 / Rev.EHull unit, outline dimensions→ SP92 Hull Unit outline dimensions, page 207→ SP93 Hull Unit outline dimensions, page 2

Simrad SP908851-164510 / Rev.ENote that in addition to navigational data, the (D)GPS may alsobe used for the input of speed log information. Most (D)G

Simrad SP90188851-164510 / Rev.EInternal control and communicationcablesThese drawings detail the three cables used between the SP90Sonar Processor Un

Drawing file189851-164510 / Rev.EC6 - Cheapernet communicationThis is the Cheapernet signal cable between the Sonar InterfaceUnit and the Sonar Proces

Simrad SP90190851-164510 / Rev.ESonar Interface UnitLoudspeakerThe loudspeaker cable is physically connected to theloudspeaker unit, and as such a par

Drawing file191851-164510 / Rev.ESerial linesThe Sonar Interface Unit provides seven serial linecommunication ports. These are available on terminal b

Simrad SP90192851-164510 / Rev.EPulse speed logThis interface has been provided for a pulse speed log.This cable is not included with the delivery, an

Drawing file193851-164510 / Rev.ETransceiver Unit interfaceThis is the main interconnection cable between the SonarInterface Unit and the Transceiver

Simrad SP90194851-164510 / Rev.ESynchronizationThis cable allows external synchronization of the sonar’stransmission.This cable must be provided by th

Drawing file195851-164510 / Rev.ETransceiver Unit to Motor Control UnitThis is the main intercommection cable between the SP90Transceiver Unit and the

Simrad SP90196851-164510 / Rev.EStandard AC power cableThis cable is a standard three-wire power cable. It iscommercially available in standard length

Drawing file197851-164510 / Rev.EAC 3-phase mains to Hull UnitThis cable is used to connect 3-phase AC power to the MotorControl Unit, and thus also t

Introduction9851-164510 / Rev.E1.5 Supply conditionsThe following supply conditions are applicable to standardSimrad SP90 deliveries and associated op

Simrad SP90198851-164510 / Rev.EEthernet with RJ45 plugs (screened)This cable contains the Ethernet connection. RJ45 plugs areused to terminate the ca

Drawing file199851-164510 / Rev.EStandard VGA cableThis is a standard display cable used to connect the videosignals. The cable is normally physically

Simrad SP90200851-164510 / Rev.EStandard USB cableThis is a standard commercial USB cable terminated with A andB plugs in either ends. The cable can b

Drawing file201851-164510 / Rev.EOperator panelThis cable is used to connect the Operator Panel to the SonarProcessor Unit and Sonar Interface Unit. T

Simrad SP90202851-164510 / Rev.ESP90 Sonar Operating Panel - Outline dimensions

Drawing file203851-164510 / Rev.ESP90 Sonar Processing Unit (MC70) - Outline dimensions

Simrad SP90204851-164510 / Rev.ESP90 Sonar Interface Unit - Outline dimensions

Drawing file205851-164510 / Rev.ESP90 Transceiver Unit - Outline dimensions

Simrad SP90206851-164510 / Rev.ESP90 Standard loudspeaker - outline dimensions

Drawing file207851-164510 / Rev.ESP92 Hull Unit - Outline dimensions

Simrad SP9010851-164510 / Rev.E1.6 General safety rulesThe SP90 sonar system operates on 230 Vac, 50/60 Hz.Warning: This voltage can be lethal.The fol

Simrad SP90208851-164510 / Rev.ESP93 Hull Unit - Outline dimensions

Drawing file209851-164510 / Rev.ESP92/SP93 Mounting trunk - Page 1 of 2

Simrad SP90210851-164510 / Rev.ESP92/SP93 Mounting trunk - Page 2 of 2

Drawing file211851-164510 / Rev.ESP92/93 Optional trunk

Simrad SP90212851-164510 / Rev.ESP92/SP93 Blind cover for sonar trunk

Installation remarks213851-164510 / Rev.E14 INSTALLATION REMARKSUse these pages to document comments and remarks concerningthe installation. When the

Simrad SP90214851-164510 / Rev.E---------------------------------------------------------(Party / Date / Signature)-----------------------------------

Introduction11851-164510 / Rev.E1.7 General installation requirementsResponsibility and approvalThe Simrad SP90’s Hull Unit sleeve has been approved b

E 2005 Simrad ASISBN-10: 82-8066-001-1ISBN-13: 978-82-8066-001-5

Simrad SP90Installation manualSimrad SP90Installation manualSimrad SP90Installation manualSimrad SP90Installation manual

Simrad SP9012851-164510 / Rev.EDry dockingMake sure that ample clearance under the sonar trunk and/orprotection blister is provided when dry docking t

Introduction13851-164510 / Rev.E1.8 Equipment handlingIntroductionThis section describes how to transport, pack and unpack, clean,preserve and store e

Simrad SP9014851-164510 / Rev.ELiftingA heavy crate will normally be marked with its weight, and theweights of other cartons or crates will normally b

Introduction15851-164510 / Rev.E4 The crates must not be placed on top of each other, unlessspecific markings permit this.5 The crates must not be pla

Simrad SP9016851-164510 / Rev.EBatteriesIf the unit contains normal batteries, these may have beendisconnected/isolated before the unit was packed. Th

Introduction17851-164510 / Rev.E• Check the carton before opening it to ensure it shows nosigns of dropping, immersion in water or other mishandling.-

851-164510 / Rev.ESimrad SP90Low frequency long rangefishery sonarInstallation manualWARNINGThe sonar must never be powered up when the ship isin dry

Simrad SP9018851-164510 / Rev.ENote: Cables must never be used as carrying handles or lifting points.Note: Do not break the seal to open a circuit boa

Introduction19851-164510 / Rev.EStoragePre-installation storageThe equipment should be stored in its original transportationcrate until ready for inst

Simrad SP9020851-164510 / Rev.E• Wipe the cabinet externally using a damp cloth and a littledetergent. Do not use excessive amounts of water as the un

Introduction21851-164510 / Rev.E• All surfaces must be inspected for signs of corrosion, eg.flaking/bubbling paint, stains etc. Damaged or suspect are

Simrad SP9022851-164510 / Rev.E• Large units must be placed in a suitable cardboard box orwooden crate. The unit must be protected against physicaldam

Introduction23851-164510 / Rev.ECaution: If, for any reason, it is necessary to move the circuitboard or components from the conductive service mat,th

Simrad SP9024851-164510 / Rev.E2 INSTALLATION PLANNINGNote: For installation in a previously installed trunk system, first readthe information about s

Installation planning25851-164510 / Rev.E2.2 Location of the Hull UnitFore and aftThe Hull Unit should preferably be located within 1/10 to 1/3the ves

Simrad SP9026851-164510 / Rev.EImportant considerationsThe Hull Unit trunk must be installed so that it will be verticalunder normal operating conditi

Installation planning27851-164510 / Rev.E2.3 Sonar room requirementsSizeThe sonar room must be dimensioned to house both the HullUnit and the Transcei

About this documentRev Date Written by Checked by Approved byRev.E08.09.05 RBr SØJ OBGReformatted. Additional drawings added to the Drawing file. Mino

Simrad SP9028851-164510 / Rev.EOn the main deck, the best ventilation is provided when theoutlet pipe is at least four meters higher than the inlet pi

Installation planning29851-164510 / Rev.EAir vent pipes(Min. diameter 50 mm)Minimum4000 mm253000(recommended+ lifting device)Load capacityminimum 2 to

Simrad SP9030851-164510 / Rev.EFigure 2 Sonar room example - top viewRemovablesupportbracketsTransducer cable(Total length 4 m)Hatch(min. 680 x 1000)T

Sonar trunk31851-164510 / Rev.E3SONARTRUNK3.1 IntroductionThe sonar trunk provides the physical foundation for the entirehull unit gantry. The trunk f

Simrad SP9032851-164510 / Rev.E3.2 Mounting the trunkThe location of the sonar trunk must be carefully selected.Note: Note the orientation of the cent

Sonar trunk33851-164510 / Rev.E3.3 ProtectionProtecting blisterA steel blister must be fitted for protection. The blister shown iswelded to the shell

Simrad SP9034851-164510 / Rev.E3.4 PrinciplesThe drawings on the next pages illustrate the installation of thesonar trunk.

Sonar trunk35851-164510 / Rev.EFigure 4 Installation of a trunk with open blisterBDAFore-and-aft view3-4 knee-plates, must be welded to frames or

Simrad SP9036851-164510 / Rev.EFigure 5 Installation of a trunk with oil filled blister2.5-3xEBDAFore-and-aft viewThickness of plates:Knee-plates 3/8&

Sonar trunk37851-164510 / Rev.E3.5 Trunk installation measurementsFor future reference, the measurements “A”, “B”, “C” and “D”from the drawing must be

Installation manualI851-164510 / Rev.ESections1IntroductionThis section provides a generalk introduction to the sonar installation. Referto page 1.2 I

Simrad SP9038851-164510 / Rev.E4HULLUNIT4.1 IntroductionThe hull unit is a crucial part of the sonar system. Due to itsphysical size and weight, and t

Hull unit39851-164510 / Rev.E4.2 Hull unit modelsThe SP90 sonar may be delivered with one out of four differenthull unit models.• SP90 - This hull uni

Simrad SP9040851-164510 / Rev.E4.3 UnpackingWarning: Do not remove the transducer protection fromthe transducer until just before the H ull Unit is to

Hull unit41851-164510 / Rev.E4.4 MountingThe Hull Unit should normally be oriented with thehoisting/lowering motor pointing aft. If this orientation m

Simrad SP9042851-164510 / Rev.E4.5 Bleeding airTo avoid damage to the transducer by the transmission in airinside the trunk, a pipe with a minimum ins

Hull unit43851-164510 / Rev.E4.6 Mechanical supportTo ensure the safety of the sonar system and the vessel, it is veryimportant that the mechanical su

Simrad SP9044851-164510 / Rev.E4.7 Transducer alignmentNote that the transducer should not be mechanically alignedeven though the Hull Unit is oriente

Hull unit45851-164510 / Rev.E4.8 Installation check-listRefer to section Sonar room requirements when you fill in thefollowing check list.INSTALLATION

Simrad SP9046851-164510 / Rev.E5 TRANSCEIVER UNIT5.1 IntroductionNote: The Transceiver Unit must be mounted as a complete unit. Thedoor must not be op

Transceiver unit47851-164510 / Rev.E5.2 Installation procedureObserve the following procedure. To ensure correct operation,tick off every item when th

Simrad SP90II851-164510 / Rev.E12 Technical specificationsRefer to page 163.13 Drawing fileRefer to page 186.14 Installation remarks and signatureRefe

Simrad SP9048851-164510 / Rev.E5.3 Transceiver Unit drawingsThe drawings required to install the Transceiver Unit areprovided.Figure 8 Mounting t hebr

Transceiver unit49851-164510 / Rev.EFigure 9 Mounting the brackets for theTransceiver Unit - forward view(CD1988A)App. 40150Min.150Min.Recommended 110

Simrad SP9050851-164510 / Rev.EFigure 10 Mounting the Transceiver Unit(CD3110A)

Wheelhouse units51851-164510 / Rev.E6 WHEELHOUSE UNITS6.1 IntroductionThis chapter explains how to install the SP90 hardware unitsnormally positioned

Simrad SP9052851-164510 / Rev.E6.2 LocationOn board routines should be thoroughly discussed with thecaptain when selecting the locations for the Opera

Wheelhouse units53851-164510 / Rev.EDisplay unitThe display unit should be located so that it is best protectedfrom glare which reduces readability. I

Simrad SP9054851-164510 / Rev.ELoudspeakerChoosing a location and installation of the loudspeaker shouldbe done with regard to utility.The compass saf

Wheelhouse units55851-164510 / Rev.E6.3 Display unitDifferent display units are available as optional equipment. Forinstallation and operation of the

Simrad SP9056851-164510 / Rev.E6.4 Sonar Operating PanelObserve the following procedure. To ensure correct operation,tick off every item when the acti

Wheelhouse units57851-164510 / Rev.E6.5 Sonar Processor Unit (MC70)The MC70 Sonar Processor Unit should be mounted on the deckor shelf inside a consol

Installation manualIII851-164510 / Rev.E1 INTRODUCTION 1...1.1 The purpose of this manual 1...

Simrad SP9058851-164510 / Rev.E6.6 Sonar Interface UnitThe Sonar Interface Unit should be mounted vertically with thecable inlet downwords on a side w

Wheelhouse units59851-164510 / Rev.E6.7 LoudspeakerThe loudspeaker should be mounted on the deckhead oranywhere practical close to the display unit.Pr

Simrad SP9060851-164510 / Rev.E7 CABLE LAYOUT7.1 IntroductionThis chapter describes the installation requirements for SP90system cables. These instruc

Cable layout61851-164510 / Rev.E7.2 System cablingCable layoutCables are identified according to individual cable numbers(Cxx), and references are mad

Simrad SP9062851-164510 / Rev.E7.3 SP90 Cable planInstallation locations(1) = Wheelhouse(2) = Sonar roomList of units(A) = Display monitor(B) = Sonar

Cable layout63851-164510 / Rev.EFigure 15 SP90 Cable plan

Simrad SP9064851-164510 / Rev.E7.4 Cable specificationsThe list below specifies each cable used on the SP90 sonar.References are made to detailed cabl

Cable layout65851-164510 / Rev.ESP90/C7 Operating panel (USB)This is a standard USB data cable used between the SonarProcessor Unit and the Operator P

Simrad SP9066851-164510 / Rev.ESP90/C17 Motor controlThis cable is connected between the Transceiver Unit and theMotor Control Unit mounted on the Hul

Cable layout67851-164510 / Rev.E7.5 Wheelhouse cablingConnections to the Sonar Processor Unit are made on theconnectors on the rear side of the unit.

Simrad SP90IV851-164510 / Rev.E6.5 Sonar Processor Unit (MC70) 57...6.6 Sonar Interface Unit 58...

Simrad SP9068851-164510 / Rev.EConnectionsThe illustrations below identify the main connectors on theSonar Processor Unit and the Sonar Interface Unit

Cable layout69851-164510 / Rev.ECablesC1 - AC Power to the Display UnitThis is a standard mains supply cable. It is included in thedelivery with the o

Simrad SP9070851-164510 / Rev.EC3 - AC Mains to Sonar Processor UnitThis is a standard mains supply cable. It is secured to the rearside of the Sonar

Cable layout71851-164510 / Rev.EC5 - Sonar Interface SerialThis cable holds the serial line fed from the SP90 SonarInterface Unit to the SP90 Sonar Pr

Simrad SP9072851-164510 / Rev.EC7 - Operating panel (USB)This is a standard USB data cable. It connects between theSonar Operating Panel and the Sonar

Cable layout73851-164510 / Rev.EC8 / C9 - Operating panel (Power and serial)This is a special dual cable from the Sonar Operating Panel tothe Sonar Pr

Simrad SP9074851-164510 / Rev.EC15 - Transceiver UnitThis is a data cable from the Sonar Interface Unit in thewheelhouse to the Transceiver Unit in th

Cable layout75851-164510 / Rev.E7.6 Sonar room cablingAll sonar room cabling must be performed as specified. Thecable numbers used to identify the cab

Simrad SP9076851-164510 / Rev.EC17 - Motor controlThis cable is connected between the Transceiver Unit and theMotor Control Unit mounted on the Hull U

Cable layout77851-164510 / Rev.EFigure 22Connections to theMotor Control UnitReferences→ Cable termination details (W235), page 195→ Motor Control Uni

Installation manualV851-164510 / Rev.E10 TESTING THE PERIPHERAL EQUIPMENT 136...10.1 Introduction 136...

Simrad SP9078851-164510 / Rev.EC15 - Sonar Interface UnitThis is the control and data cable from the SP90 Sonar InterfaceUnit in the wheelhouse to the

Cable layout79851-164510 / Rev.EC19 - AC power for hoist/lower motorThis cable is used for the 3-phase mains supply for the hoistingand lowering motor

Simrad SP9080851-164510 / Rev.EC18-ACpowertotheTransceiverUnitThis cable is included in the delivery. It is used for the mainssupply to the Transceive

Cable layout81851-164510 / Rev.E4 Connect the mains power cable from the C18 mainsconnector at the bottom of the Transceiver Unit to anormal mains out

Simrad SP9082851-164510 / Rev.EC16 - Transducer cableThe transducer cables are provided by Simrad.They arephysically connected to the top of the trans

Cable layout83851-164510 / Rev.E7.7 Cable detailsThe following drawings show the cable details.→ C1 - W301 AC power, page 196→ C2 - W500 VGA cable, pa

Simrad SP9084851-164510 / Rev.E7.8 Basic cabling requirementsCable traysAll permanently installed cables associated with the systemmust be supported a

Cable layout85851-164510 / Rev.ERadio Frequency interferenceAll cables that are to be permanently installed within 9 m(30 ft) of any source of Radio F

Simrad SP9086851-164510 / Rev.EElectrical continuity must be ensured along the entire length ofall cable coverings, particularly at joints and splices

Connecting peripheral equipment87851-164510 / Rev.E8 PERIPHERAL EQUIPMENT8.1 GeneralIntroductionIt is not necessary to make the connection of the peri