Maxwell仿真永磁同步電機步驟資料

AnsoftMaxwell14永磁同步電機仿真步驟總結(jié)首先是建立一個RMxprt文件，選擇電機類型為下圖的Permanent-MagnetSynchronousMotor只要按照下面的參數(shù)輸入即可

磁鋼材料NTP264H要自己定義Danper是怎么出來的?要右鍵”Rotor'，選擇InsertDanper，就可以了Properties:line-startPISI-RIxprtDesignl-lachineE-口Statorpusi.：.tiJJ)Winding->0RotorCOFoie-血IIamperLUSlot<1FrojectrProperties|ProjectManagerSlotN：=jTieValueUnitEvaluatedV...HescriptionRead-orilyHeO0.8mm0.8mmSlotdimension:HeOrHeOI0mmOmmSlotdimension:HeOIrHeI1.27mm1.27mmSIotdimerision：HeIrHe213.73mm13.73mmSlotdimension:He2rBeO2mm2mmSlotdimension:BeOrBeI6.4mm6.4mmSIotdimerision：BeIrBe25.5mm5.5mmSlotdimension:Be2rRe0mmOmmSlotdimension:RerN：=jTieV：dlueUnitEvaluatedV...HeO0.8mm0.8mmHeOI0mmOmmHeI1.27mm1.27mmHe213.73mm13.73mmShowHidderL確定 取?消所有參數(shù)輸入完畢，現(xiàn)在要定義個求解設(shè)置，右鍵“Analysis”添加一個setup,模型繞組的連接如下求解結(jié)果Simulation: [Setupl HIPerformanceDesignVariation:PerformanceDesignSheet.CurvesLINE-STARTPERMANENT-MAGNETSYNCHRONOUSMOTORDESIGNFile:Setupl.reye75GENERALDATye75RatedOutputPower(kW):RatedVoltage(V):NumberofPoles:Frequency(Hz):FrictionalandWindageLoss(W]:WindingConnection:OperatingTemperature(CJ:STATORDATAOuterDiameterofStator(mm):InnerDiameterofStator(mm):NumberofStatorSlots:SkewWidth(Slots):TvpeofStatorSlot:StatorSlothsO(mm):hs1(mm):hs2(mm):bsO(mm):bsl(mm):bs2(mm):TopToothWidth(mm):BottomToothWidth(mm):LengthofStatorCore(mm):StackingFactorofStatorCore:TvpeofSteel:SlotInsulationThickness(mm):LayerInsulationThickness(mm):oo67—2136120.S1.1314.073.S7.710.27.47357.440579095W351oDoo50Simulation: [Setupl HIPerformanceDesignVariation:PerformaitceDesignSheetCurvesLayerInsulationThickness(mm):0EndLengthAdjustment(mm):0NumberofParallelBranches:1NumberofConductorsperSlot:13WindingType:11AverageCoilPitch:7.66667NumberofWiresperConductor:5WireDiameter(mm):1.13WireWrapThickness(mm):0.11SlotArea176.32NetSlotArea145.097LimitedSlotFillFactor閣：75StatorSlotFillFactor[%]:74.1388CoilHalf-TurnLength(mm):355.368ROTORDATAAirGap(mm):0.65InnerDiameterofRotor(mm):60LengthofRotor(mm):190StackingFactorofRotorCore:0.95TypeofSteel:DW315項TypeofRotor:7MagnetDuctDimensionsD1[mm]:13601(mmj:4202(mmj:20Rib(mm):0MagnetType:NTP264HMagnetThickness(mm]:5.3TotalMagnetWidth(mm):92MechanicalPoleEmbrace:0.359905ElectricalPoleEmbrace:0.073632MagneticShaft:NoPERMANENTMAGNETDATA

PERMANENTMAGNETDATAResidualFluxDensity(Tesla):1.0741CoerciveForce(kA/mj:017.25MaximumEnergyDensity219.452RelativeRecoilPermeabilitv：1.04591DemagnetizedFluxDensity[Tesla]:1.0741RecoilResidualFluxDensity(Tesla):1.0741RecoilCoerciveForce(kA/mj:017.25DAMPERDATADamperSlotsperPole:8TypeofDamperSlot:3DamperSlothsO(mm):0.3hs1(mm):1.27hs2(mm):13.73bsO(mm):2bs1(mm):6.4bs2(mm):5.5rs(mm):0EndLengthofDamperBars(mm):0EndRingWidth(mm):11.25EndRingHeight(mm):16ResistivityofDamperBarsat75Centigrade0.0434783ResistivityofDamperRingsat75Centigrade0.0434783MATERIALCONSUMPTIONArmatureCopperDensity(kg/m^SJ:8900RotorDamperBarDensity2700RotorDamperRingDensity(kg/m^3):2700PermanentMagnetDensity(kg/mA3):7300ArmatureCoreSteelDensity(kg/m^3):7600

Simulation: |Setup1jPerformaDesignVariation:Perform：=itlceDeeietlSheetCm-vesArmatureCoreSteelDensityfkg/m^31B7600RotorCoreSteelDensity7600ArmatureCopperWeight[kg]:DamperBarMaterialWeight(kg):DamperRingMaterialWeight[kg]:PermanentMagnetWeight(kg):ArmatureCoreSteelWeight(kg):RotorCoreSteelWeight(kg):TotalNetWeight[kg]:0.093541.454910.4614032.0904932.900220.170766.0672ArmatureCoreSteelConsumption[kg]:RotorCoreSteelConsumption[kg]:63.740931.1371STEADYSTATEPARAMETERSStatorWindingFactor:D-AxisReactiveReactanceXad(ohm):Q-AwisReactiveReactanceXaq(ohm):D-AwisReactanceX1+Xad(ohm):Q-AxisReactanceX1+Xaq(ohm):ArmatureLeakageReactanceX1(ohm):ArmaturePhaseResistanceR1(ohm):ArmaturePhaseResistanceat20C(ohm):0.9597953.7106420.70074.0917S21.03190.3731410.2200080.100975NO-LOADMAGNETICDATAStator-TeethFluxDensity(Tesla):Stator-YokeFluxDensity(Tesla):Rotor-TeethFluxDensity(Tesla):Rotor-YokeFluxDensity(Tesla):Air-GapFluxDensity(Tesla):MagnetFluxDensity(Tesla]:1.406S71.620S51.336921.076360.6674670.91427Stator-TeethAmpereTurns(A.T):Stator-YokeAmpereTurns(A.T):Rotor-TeethAmpereTurns(A.T):9.31335103.5355.4034S

一鍵導(dǎo)入到maxwell142D瞬態(tài)場里去分析即可，右鍵Analysissetup的creatMaxwelldesign，autosetup要打勾導(dǎo)入模型如圖，是14模型（導(dǎo)入整個模型的方法？加注fragnet1因為是14模型，所以要設(shè)置一個SymmetryMultiplier，右鍵”model”,就可以看到，設(shè)置如

下電機在零負(fù)載轉(zhuǎn)矩的起動：點擊“model”的樹，將其展開，雙擊Motionsetup作如下設(shè)置為了得到，更好的仿真圖像，設(shè)置一下仿真時間，雙擊Solvesetup作如下設(shè)置以下就是在零負(fù)載轉(zhuǎn)矩的情況下的得出的各種起動時間圖，橫軸的時間單位是毫秒（以下就是在零負(fù)載轉(zhuǎn)矩的情況下的得出的各種起動時間圖，橫軸的時間單位是毫秒（ms）YoHUO￥a)NJO)nb」ol-&U>0芝Ee:p<D<Ddso)u>OH1600.001400.001200.001000.00800.00600.00400.00200.000.00-200.00Time[ms]1.501.25—iod.00 '200.00' '300.00' 400.00Timej[ms]500.00600.00s(Luo-pauuo。pu山)(u5e一-O>P8npu_3000.002000.001000.000.00-1000.00-2000.00AYHIOI4 Maxwell2DUesign2_kongzai/時Curveln*s Current(EndConnectionl)Setup1:TransientCurrenHEndConnectionn)[A]日Setupl:Transientiz-eiup'i:~iransiemISetup1:Transienl300.0CTimeFm0.00【<】(LUOEUUOopuLlJ)c(utno-3000.00CurveInfo FluxlJnkage(PhaseA)Setup1:Transient FluxUnkage(PhaseB)Setup1:Transient FluxUnkage(PhaseC)Setup1:TransientBetupl:Transient:Transient:TransientFluxLinkage(PhaseB)[Wb]Setupl:TransientSetup1:Transient|Setupl:Trmn$ient—300.00Tiime；(rrisl做完了以上的仿真，再做一個電機在額定負(fù)載下的起動過程，把上面的文件復(fù)制一下，然后改一下名稱，結(jié)果如圖E-:0--D--D-11DDDDn后改一下名稱，結(jié)果如圖E-:0--D