Temperature |
Real |
Quantity: ThermodynamicTemperature Unit: K Display Unit: degC Restricted Range: 0.0 to +Inf Nominal Value: 300 |
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Modelica.Clocked.Examples.Systems Simple example of a mixing unit where a (discretized) nonlinear inverse plant model is used as feedforward controller |
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MixingUnitWithContinuousControl Modelica.Clocked.Examples.Systems.Utilities.ComponentsMixingUnit Simple example of a mixing unit where a (continuous) nonlinear inverse plant model is used as feedforward controller |
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Modelica.Electrical.Machines.Examples.InductionMachines Test example: InductionMachineSquirrelCage with losses |
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Modelica.Electrical.Machines.Examples.DCMachines Test example: Cooling of a DCPM motor |
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Modelica.Magnetic.FundamentalWave.Examples.BasicMachines.InductionMachines Induction machine with squirrel cage and losses |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.InductionMachines Induction machine with squirrel cage and losses |
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Modelica.Media.Examples Produces plot data for psychrometric charts |
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Modelica.Media.Examples.ReferenceAir Example for moist air |
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Modelica.Media.Examples.ReferenceAir Solve h = h_pT(p, T), s = s_pT(p, T) for T, if h or s is given |
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Modelica.Media.Examples.ReferenceAir Solve h = h_pTX(p, T, X), s = s_pTX(p, T, X) for T, if h or s is given |
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Modelica.Media.Examples.SolveOneNonlinearEquation Solve h = h_T(T), s = s_T(T) for T, if h or s is given for ideal gas NASA |
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Modelica.Media.Examples.SolveOneNonlinearEquation Inverse computation for incompressible media |
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Modelica.Media.Examples.SolveOneNonlinearEquation Solve h = h_TX(TX) for T, if h is given for ideal gas NASA |
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Modelica.Media.Incompressible.Examples Test Glycol47 Medium model |
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Modelica.Thermal.FluidHeatFlow.Examples Simple cooling circuit |
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Modelica.Thermal.FluidHeatFlow.Examples Cooling circuit with parallel branches |
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Modelica.Thermal.FluidHeatFlow.Examples Indirect cooling circuit |
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Modelica.Thermal.FluidHeatFlow.Examples Cooling circuit with pump and valve |
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Modelica.Thermal.FluidHeatFlow.Examples Cooling circuit with drop out of pump |
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Modelica.Thermal.FluidHeatFlow.Examples Cooling circuit with parallel branches and drop out of pump |
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Modelica.Thermal.FluidHeatFlow.Examples Cooling of one hot mass |
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Modelica.Thermal.FluidHeatFlow.Examples Cooling of two hot masses |
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Modelica.Thermal.FluidHeatFlow.Examples Test the OpenTank model |
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Modelica.Thermal.FluidHeatFlow.Examples Two connected open tanks |
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Modelica.Thermal.HeatTransfer.Examples Simple conduction demo |
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Modelica.Thermal.HeatTransfer.Examples Control temperature of a resistor |
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Modelica.Thermal.HeatTransfer.Examples Second order thermal model of a motor |
Modelica.Clocked.Examples.Systems.Utilities.ComponentsMixingUnit Mixing unit demo from Foellinger, Nichtlineare Regelungen II, p. 280 |
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Modelica.Electrical.Analog.Basic Ideal linear electrical resistor |
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Modelica.Electrical.Analog.Basic Ideal linear electrical conductor |
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Modelica.Electrical.Analog.Basic Ideal linear electrical resistor with variable resistance |
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Modelica.Electrical.Analog.Basic Ideal linear electrical conductor with variable conductance |
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Modelica.Electrical.Analog.Basic Adjustable resistor |
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Modelica.Electrical.Analog.Interfaces Partial model to include a conditional HeatPort in order to describe the power loss via a thermal network |
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Modelica.Electrical.Analog.Interfaces Partial model to include a conditional HeatPort in order to dissipate losses, used for graphical modeling, i.e., for building models by drag-and-drop |
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Modelica.Electrical.Analog.Lines Lossy Transmission Line |
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Modelica.Electrical.Analog.Lines Multiple OLine |
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Modelica.Electrical.Analog.Lines.M_OLine Multiple line segment model |
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Modelica.Electrical.Analog.Lines.M_OLine Multiple line last segment model |
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Modelica.Electrical.Analog.Lines Lossy RC Line |
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Modelica.Electrical.Analog.Semiconductors Simple diode with heating port |
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Modelica.Electrical.Analog.Semiconductors Simple NMOS transistor with heating port |
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Modelica.Electrical.Analog.Semiconductors Simple PMOS transistor with heating port |
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Modelica.Electrical.Analog.Semiconductors Simple NPN BJT according to Ebers-Moll with heating port |
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Modelica.Electrical.Analog.Semiconductors Simple PNP BJT according to Ebers-Moll with heating port |
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Modelica.Electrical.Batteries.BatteryStacks Simple model of a supercapacitor |
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Modelica.Electrical.Batteries.ParameterRecords.TransientData Parameters of RC-elements |
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Modelica.Electrical.Batteries.ParameterRecords Parameters of a battery cell |
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Modelica.Electrical.Batteries.BaseClasses Partial stack with sensors |
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Modelica.Electrical.Machines.BasicMachines.InductionMachines Induction machine with squirrel cage rotor |
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Modelica.Electrical.Machines.BasicMachines.InductionMachines Induction machine with slipring rotor |
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Modelica.Electrical.Machines.BasicMachines.SynchronousMachines Permanent magnet synchronous machine |
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Modelica.Electrical.Machines.BasicMachines.SynchronousMachines Electrical excited synchronous machine with damper cage |
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Modelica.Electrical.Machines.BasicMachines.SynchronousMachines Synchronous machine with reluctance rotor and damper cage |
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Modelica.Electrical.Machines.BasicMachines.DCMachines Permanent magnet DC machine |
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Modelica.Electrical.Machines.BasicMachines.DCMachines Electrical shunt/separate excited linear DC machine |
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Modelica.Electrical.Machines.BasicMachines.DCMachines Series excited linear DC machine |
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Modelica.Electrical.Machines.BasicMachines.Components Squirrel Cage |
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Modelica.Electrical.Machines.BasicMachines.Components Squirrel Cage |
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Modelica.Electrical.Machines.Thermal.InductionMachines Thermal ambient for induction machine with squirrel cage |
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Modelica.Electrical.Machines.Thermal.InductionMachines Thermal ambient for induction machine with slipring |
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Modelica.Electrical.Machines.Thermal.SynchronousMachines Thermal ambient for synchronous machine with permanent magnets |
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Modelica.Electrical.Machines.Thermal.SynchronousMachines Thermal ambient for synchronous machine with electrical excitation |
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Modelica.Electrical.Machines.Thermal.SynchronousMachines Thermal ambient for synchronous machine with reluctance rotor |
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Modelica.Electrical.Machines.Thermal.DCMachines Thermal ambient for DC machine with permanent magnets |
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Modelica.Electrical.Machines.Thermal.DCMachines Thermal ambient for DC machine with electrical excitation |
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Modelica.Electrical.Machines.Thermal.DCMachines Thermal ambient for DC machine with series excitation |
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Modelica.Electrical.Machines.Thermal.DCMachines Thermal ambient for DC machine with compound excitation |
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Modelica.Electrical.Machines.Thermal Thermal ambient for transformers |
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Modelica.Electrical.Machines.Interfaces Partial model for induction machine |
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PartialThermalAmbientInductionMachines Modelica.Electrical.Machines.Interfaces.InductionMachines Partial thermal ambience for induction machines |
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Modelica.Electrical.Machines.Interfaces Partial model for DC machine |
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PartialThermalAmbientDCMachines Modelica.Electrical.Machines.Interfaces.DCMachines Partial thermal ambience for DC machines |
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Modelica.Electrical.Machines.Interfaces Partial model of three-phase transformer |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for induction machines |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for induction machines with squirrel cage |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for induction machines with slip ring |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for synchronous machines with electrical excitation |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for synchronous machines with reluctance rotor |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for DC machines |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for DC machines |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for DC machines |
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Modelica.Electrical.Machines.Utilities.ParameterRecords Common parameters for transformers |
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Modelica.Electrical.Machines.Utilities Computes machine parameter from usual datasheet |
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Modelica.Electrical.Polyphase.Basic Ideal linear electrical resistors |
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Modelica.Electrical.Polyphase.Basic Ideal linear electrical conductors |
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Modelica.Electrical.Polyphase.Basic Ideal linear electrical resistors with variable resistance |
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Modelica.Electrical.Polyphase.Basic Ideal linear electrical conductors with variable conductance |
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Modelica.Electrical.Polyphase.Interfaces Partial model to include conditional HeatPorts in order to describe the power loss via a thermal network |
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Modelica.Electrical.PowerConverters.ACAC Triode for alternating current |
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Modelica.Electrical.QuasiStatic.SinglePhase.Basic Single-phase linear resistor |
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Modelica.Electrical.QuasiStatic.SinglePhase.Basic Single-phase linear conductor |
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Modelica.Electrical.QuasiStatic.SinglePhase.Basic Single-phase linear impedance |
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Modelica.Electrical.QuasiStatic.SinglePhase.Basic Single-phase linear admittance |
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Modelica.Electrical.QuasiStatic.SinglePhase.Basic Single-phase variable resistor |
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Modelica.Electrical.QuasiStatic.SinglePhase.Basic Single-phase variable conductor |
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Modelica.Electrical.QuasiStatic.SinglePhase.Basic Single-phase variable impedance |
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Modelica.Electrical.QuasiStatic.SinglePhase.Basic Single-phase variable admittance |
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Modelica.Electrical.QuasiStatic.Machines.Interfaces Partial model of three-phase transformer |
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Modelica.Electrical.QuasiStatic.Polyphase.Basic Polyphase linear resistor |
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Modelica.Electrical.QuasiStatic.Polyphase.Basic Polyphase linear conductor |
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Modelica.Electrical.QuasiStatic.Polyphase.Basic Polyphase linear impedance |
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Modelica.Electrical.QuasiStatic.Polyphase.Basic Polyphase linear admittance |
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Modelica.Electrical.QuasiStatic.Polyphase.Basic Polyphase variable resistor |
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Modelica.Electrical.QuasiStatic.Polyphase.Basic Polyphase variable conductor |
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Modelica.Electrical.QuasiStatic.Polyphase.Basic Polyphase variable impedance |
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Modelica.Electrical.QuasiStatic.Polyphase.Basic Polyphase variable admittance |
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Modelica.Electrical.Spice3.Internal General constants of SPICE simulator |
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Modelica.Electrical.Spice3.Internal |
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Modelica.Electrical.Spice3.Internal.Model Device Temperature |
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Modelica.Electrical.Spice3.Internal.Mos Record for Mosfet model line parameters (for level 1, 2, 3 and 6) |
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Modelica.Electrical.Spice3.Internal.Diode Record for Diode model line parameters |
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Modelica.Electrical.Spice3.Internal.Bjt Record for bjt model line parameters |
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Modelica.Electrical.Spice3.Internal.Fet Record for Fet model line parameters |
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Modelica.Magnetic.FluxTubes.Examples.Utilities Calculation of winding parameters (wire diameter, number of turns et al.) and recalculation with optionally chosen parameters; to be adapted to particular design tasks |
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Modelica.Magnetic.FluxTubes.Material.HardMagnetic Record for permanent magnetic material data |
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Modelica.Magnetic.FluxTubes.Interfaces Partial model to include a conditional HeatPort in order to describe the power loss via a thermal network |
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Modelica.Magnetic.FundamentalWave.BasicMachines.InductionMachines Induction machine with squirrel cage |
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Modelica.Magnetic.FundamentalWave.BasicMachines.InductionMachines Induction machine with slip ring rotor |
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Modelica.Magnetic.FundamentalWave.BasicMachines.SynchronousMachines Permanent magnet synchronous machine with optional damper cage |
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Modelica.Magnetic.FundamentalWave.BasicMachines.SynchronousMachines Electrical excited synchronous machine with optional damper cage |
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Modelica.Magnetic.FundamentalWave.BasicMachines.SynchronousMachines Reluctance machine with optional damper cage |
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Modelica.Magnetic.FundamentalWave.BasicMachines.Components Symmetric winding model coupling electrical and magnetic domain |
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Modelica.Magnetic.FundamentalWave.BasicMachines.Components Symmetric winding model coupling electrical and magnetic domain |
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Modelica.Magnetic.FundamentalWave.BasicMachines.Components Symmetrical rotor cage |
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Modelica.Magnetic.FundamentalWave.BasicMachines.Components Rotor cage with saliency in d- and q-axis |
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Modelica.Magnetic.FundamentalWave.BaseClasses Base model of machines |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.InductionMachines Induction machine with squirrel cage |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.InductionMachines Induction machine with slip ring rotor |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.SynchronousMachines Permanent magnet synchronous machine with optional damper cage |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.SynchronousMachines Electrical excited synchronous machine with optional damper cage |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.SynchronousMachines Synchronous reluctance machine with optional damper cage |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.Components Symmetric winding model coupling electrical and magnetic domain |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.Components Quasi-static single-phase winding neglecting induced voltage |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.Components Symmetrical rotor cage |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.Components Rotor cage with saliency in d- and q-axis |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BaseClasses Base model of machines |
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Modelica.Mechanics.MultiBody.Examples.Loops.Utilities Rough approximation of gas force in a combustion engine's cylinder |
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Modelica.Mechanics.Rotational.Sources Simple model of a rotational eddy current brake |
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Modelica.Mechanics.Translational.Sources Simple model of a translational eddy current brake |
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Modelica.Fluid.Examples.HeatExchanger.BaseClasses Simple heat exchanger model |
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Modelica.Fluid.Examples.HeatExchanger.BaseClasses Pipe wall with capacitance, assuming 1D heat conduction and constant material properties |
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Modelica.Fluid System properties and default values (ambient, flow direction, initialization) |
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Modelica.Fluid.Interfaces Common interface for heat transfer models |
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Modelica.Fluid.Dissipation.Utilities.Records.General Base record for generic pressure loss function | ideal gas | mean density |
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Modelica.Fluid.Dissipation.Utilities.Records.General Base record for generic pressure loss function | ideal gas | mean density |
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Modelica.Media.Examples.Utilities Basic test model to test a medium |
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Modelica.Media.Examples.Utilities Slightly larger test model to test a medium |
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Modelica.Media.Common.ThermoFluidSpecial |
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Modelica.Media.Common.ThermoFluidSpecial Thermodynamic base property data for all state models |
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Modelica.Media.Common.ThermoFluidSpecial Thermodynamic property data for pressure p and specific enthalpy h as dynamic states |
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Modelica.Media.Common Properties in the two phase region |
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Modelica.Media.Common Properties on both phase boundaries, including some derivatives |
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Modelica.Media.Common Intermediate property data record for IF 97 |
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Modelica.Media.Common Thermodynamic base properties on the phase boundary for IF97 steam tables |
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Modelica.Media.Common Derivatives of dimensionless Gibbs-function w.r.t. dimensionless pressure and temperature |
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Modelica.Media.Common Derivatives of dimensionless Helmholtz-function w.r.t. dimensionless pressure, density and temperature |
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Modelica.Media.Common Calculates all entries in Bridgmans tables if first seven variables given |
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Modelica.Media.Common Constants of the medium |
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Modelica.Media.Common Intermediate property data record |
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Modelica.Media.Common Derivatives of Gibbs function w.r.t. pressure and temperature |
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Modelica.Media.IdealGases.Common Coefficient data record for properties of ideal gases based on NASA source |
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Modelica.Media.Incompressible.Common Fluid state record |
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Modelica.Media.Incompressible.TableBased Base properties of T dependent medium |
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Modelica.Media.R134a.Common Derivatives required for inversion of density and temperature functions w.r.t. pressure and enthalpy states |
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Modelica.Media.R134a.R134aData |
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Modelica.Media.R134a.R134aData |
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Modelica.Media.R134a.R134aData |
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Modelica.Media.Water.IF97_Utilities.BaseIF97 Constant IF97 data and region limits |
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Modelica.Media.Water.IF97_Utilities.BaseIF97 Critical point data |
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Modelica.Media.Water.IF97_Utilities.BaseIF97 Triple point data |
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Modelica.Thermal.FluidHeatFlow.Sources Ambient with constant properties |
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Modelica.Thermal.FluidHeatFlow.BaseClasses Partial model of a single port at the left |
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Modelica.Thermal.FluidHeatFlow.BaseClasses Partial model of a single port at the bottom |
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Modelica.Thermal.FluidHeatFlow.BaseClasses Partial model of two port |
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Modelica.Thermal.HeatTransfer.Components Lumped thermal element storing heat |
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Modelica.Thermal.HeatTransfer.Sources Fixed temperature boundary condition in Kelvin |
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Modelica.Thermal.HeatTransfer.Sources Fixed heat flow boundary condition |
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Modelica.Thermal.HeatTransfer.Sources Prescribed heat flow boundary condition |
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PartialElementaryConditionalHeatPort Modelica.Thermal.HeatTransfer.Interfaces Partial model to include a conditional HeatPort in order to dissipate losses, used for textual modeling, i.e., for elementary models |
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Modelica.Thermal.HeatTransfer.Interfaces Partial model to include a conditional HeatPort in order to dissipate losses, used for graphical modeling, i.e., for building models by drag-and-drop |
Modelica.Media.Interfaces.Types Type for temperature with medium specific attributes |