RealInput'input Real' as connector |
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Information
This information is part of the Modelica Standard Library maintained by the Modelica Association.
Connector with one input signal of type Real.
Used in Examples (1)
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Modelica.Fluid.Examples.DrumBoiler Complete drum boiler model, including evaporator and supplementary components |
Used in Components (224)
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Modelica.Blocks.Examples.NoiseExamples.Utilities Calculates the density of a uniform distribution |
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Modelica.Blocks.Examples.NoiseExamples.Utilities Calculates the density of a normal distribution |
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Modelica.Blocks.Examples.NoiseExamples.Utilities Calculates the density of a Weibull distribution |
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Modelica.Blocks.Examples.NoiseExamples.Utilities.Parts Synchronous induction machine with current controller and measurement noise |
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Modelica.Blocks.Examples.NoiseExamples.Utilities.Parts Simple position controller for actuator |
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Modelica.Blocks.Continuous Output the integral of the input signal with optional reset |
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Modelica.Blocks.Continuous Integrator with limited value of the output and optional reset |
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Modelica.Blocks.Continuous P, PI, PD, and PID controller with limited output, anti-windup compensation, setpoint weighting and optional feed-forward |
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Modelica.Blocks.Discrete Triggered sampling of continuous signals |
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Modelica.Blocks.Discrete Compute maximum, absolute value of continuous signal at trigger instants |
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Modelica.Blocks.Interaction.Show Show Real value from numberPort or from number input field in diagram layer dynamically |
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Modelica.Blocks.Interfaces Single Input Single Output continuous control block |
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Modelica.Blocks.Interfaces 2 Single Input / 1 Single Output continuous control block |
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Modelica.Blocks.Interfaces Single Input Multiple Output continuous control block |
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Modelica.Blocks.Interfaces Multiple Input Single Output continuous control block |
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Modelica.Blocks.Interfaces Multiple Input Multiple Output continuous control block |
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Modelica.Blocks.Interfaces Multiple Input Multiple Output continuous control block with same number of inputs and outputs |
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Modelica.Blocks.Interfaces 2 Multiple Input / Multiple Output continuous control block |
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Modelica.Blocks.Interfaces Single-Variable continuous controller |
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Modelica.Blocks.Interfaces Multi-Variable continuous controller |
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Modelica.Blocks.Interfaces Single Input Single Output discrete control block |
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Modelica.Blocks.Interfaces Multiple Input Multiple Output discrete control block |
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Modelica.Blocks.Interfaces Multiple Input Multiple Output discrete control block |
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Modelica.Blocks.Interfaces Discrete Single-Variable controller |
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Modelica.Blocks.Interfaces Discrete Multi-Variable controller |
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Modelica.Blocks.Interfaces 2 Multiple Input / Boolean Multiple Output block with same signal lengths |
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partialBooleanThresholdComparison Modelica.Blocks.Interfaces Partial block to compare the Real input u with a threshold and provide the result as 1 Boolean output signal |
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Modelica.Blocks.Interfaces Partial block with 2 Real input and 1 Boolean output signal (the result of a comparison of the two Real inputs) |
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Modelica.Blocks.Interfaces Partial block defining the interface for conversion blocks |
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Modelica.Blocks.Interfaces.Adaptors Signal adaptor for a connector with flow, 1st derivative of flow, and 2nd derivative of flow as inputs and potential, 1st derivative of potential, and 2nd derivative of potential as outputs (especially useful for FMUs) |
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Modelica.Blocks.Interfaces.Adaptors Signal adaptor for a connector with potential, 1st derivative of potential, and 2nd derivative of potential as inputs and flow, 1st derivative of flow, and 2nd derivative of flow as outputs (especially useful for FMUs) |
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Modelica.Blocks.Interfaces.Adaptors Obsolete block to send Real signal to bus |
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Modelica.Blocks.Interfaces.Adaptors Obsolete block to receive Real signal from bus |
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Modelica.Blocks.Logical Trigger zero crossing of input u |
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Modelica.Blocks.Logical Switch between two Real signals |
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Modelica.Blocks.Logical Transform Real to Boolean signal with Hysteresis |
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Modelica.Blocks.Logical On-off controller |
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Modelica.Blocks.Math Construct inverse model by requiring that two inputs and two outputs are identical |
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Modelica.Blocks.Math Output the product of a gain value with the input signal |
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Modelica.Blocks.Math Output difference between commanded and feedback input |
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Modelica.Blocks.Math Output the sum of the three inputs |
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Modelica.Blocks.Math Convert Real to Integer signal |
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Modelica.Blocks.Math Convert Real to Boolean signal |
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Modelica.Blocks.Math Convert rectangular coordinates to polar coordinates |
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Modelica.Blocks.Math Convert polar coordinates to rectangular coordinates |
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Modelica.Blocks.Math Calculates the empirical expectation (mean) value of its input signal |
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Modelica.Blocks.Math Calculates the empirical variance of its input signal |
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Modelica.Blocks.Math Calculates the empirical standard deviation of its input signal |
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Modelica.Blocks.Math Calculate harmonic over period 1/f |
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Modelica.Blocks.Math Sampling and FFT of input u |
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Modelica.Blocks.Nonlinear Limit the range of a signal with variable limits |
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Modelica.Blocks.Nonlinear Delay block with variable DelayTime |
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Modelica.Blocks.Routing Multiplexer block for two input connectors |
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Modelica.Blocks.Routing Multiplexer block for three input connectors |
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Modelica.Blocks.Routing Multiplexer block for four input connectors |
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Modelica.Blocks.Routing Multiplexer block for five input connectors |
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Modelica.Blocks.Routing Multiplexer block for six input connectors |
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Modelica.Blocks.Routing DeMultiplexer block for arbitrary number of output connectors |
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Modelica.Blocks.Routing DeMultiplexer block for two output connectors |
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Modelica.Blocks.Routing DeMultiplexer block for three output connectors |
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Modelica.Blocks.Routing DeMultiplexer block for four output connectors |
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Modelica.Blocks.Routing DeMultiplexer block for five output connectors |
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Modelica.Blocks.Routing DeMultiplexer block for six output connectors |
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Modelica.ComplexBlocks.ComplexMath Converts Cartesian representation to complex |
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Modelica.ComplexBlocks.ComplexMath Converts polar representation to complex |
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Modelica.ComplexBlocks.ComplexMath Complex Transfer Function |
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Modelica.StateGraph.Examples.Utilities Controller for tank system |
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Modelica.StateGraph.Examples.Utilities State machine defining the time instants when to fill or empty a tank |
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Modelica.StateGraph.Temporary Show value of Real input signal dynamically |
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Modelica.Electrical.Analog.Examples.Utilities Input/output block of a direct capacitor model |
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Modelica.Electrical.Analog.Examples.Utilities Input/output block of an inverse capacitor model |
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Modelica.Electrical.Analog.Examples.Utilities Input/output block of a resistance model |
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Modelica.Electrical.Analog.Examples.Utilities Input/output block of a direct inductor model |
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Modelica.Electrical.Analog.Examples.Utilities Input/output block of an inverse inductor model |
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Modelica.Electrical.Analog.Examples.Utilities Input/output block of a conductance model |
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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 Ideal linear electrical capacitor with variable capacitance |
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Modelica.Electrical.Analog.Basic Ideal linear electrical inductor with variable inductance |
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Modelica.Electrical.Analog.Basic Adjustable resistor |
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Modelica.Electrical.Analog.Sources Generic voltage source using the input signal as source voltage |
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Modelica.Electrical.Analog.Sources Generic current source using the input signal as source current |
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Modelica.Electrical.Digital.Converters Real to Logic converter |
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Modelica.Electrical.Machines.Examples.ControlledDCDrives.Utilities Limited PI-controller with anti-windup and feed-forward |
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Modelica.Electrical.Machines.Examples.ControlledDCDrives.Utilities DC-DC inverter |
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Modelica.Electrical.Machines.Examples.ControlledDCDrives.Utilities Ideal DC-DC inverter |
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Modelica.Electrical.Machines.Examples.ControlledDCDrives.Utilities Switching DC-DC inverter |
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Modelica.Electrical.Machines.SpacePhasors.Components Rotates space phasor |
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Modelica.Electrical.Machines.SpacePhasors.Blocks Rotates space phasor |
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Modelica.Electrical.Machines.SpacePhasors.Blocks Conversion of space phasors to multi phase instantaneous values |
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Modelica.Electrical.Machines.Thermal.AsynchronousInductionMachines Thermal ambient for asynchronous induction machine with squirrel cage |
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Modelica.Electrical.Machines.Thermal.AsynchronousInductionMachines Thermal ambient for asynchronous induction machine with slipring |
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Modelica.Electrical.Machines.Thermal.SynchronousInductionMachines Thermal ambient for synchronous induction machine with permanent magnets |
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Modelica.Electrical.Machines.Thermal.SynchronousInductionMachines Thermal ambient for synchronous induction machine with electrical excitation |
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Modelica.Electrical.Machines.Thermal.SynchronousInductionMachines Thermal ambient for synchronous induction 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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PartialThermalAmbientInductionMachines Modelica.Electrical.Machines.Interfaces.InductionMachines Partial thermal ambient for induction machines |
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PartialThermalAmbientDCMachines Modelica.Electrical.Machines.Interfaces.DCMachines Partial thermal ambient for DC machines |
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Modelica.Electrical.Machines.Utilities Transform instantaneous stator inputs to rotor fixed space phasor |
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Modelica.Electrical.Machines.Utilities Transform rotor fixed space phasor to instantaneous stator quantities |
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Modelica.Electrical.Machines.Utilities Current controller |
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Modelica.Electrical.Machines.Utilities Voltage controller |
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Modelica.Electrical.MultiPhase.Basic Ideal linear electrical resistors with variable resistance |
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Modelica.Electrical.MultiPhase.Basic Ideal linear electrical conductors with variable conductance |
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Modelica.Electrical.MultiPhase.Basic Ideal linear electrical capacitors with variable capacitance |
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Modelica.Electrical.MultiPhase.Basic Ideal linear electrical inductors with variable inductance |
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Modelica.Electrical.MultiPhase.Blocks |
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Modelica.Electrical.MultiPhase.Sources Multiphase signal voltage source |
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Modelica.Electrical.MultiPhase.Sources Multiphase signal current source |
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Modelica.Electrical.PowerConverters.ACDC.Control Generic control of 2*m pulse rectifiers |
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Modelica.Electrical.PowerConverters.ACDC.Control Control of 2 pulse bridge rectifier |
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Modelica.Electrical.PowerConverters.ACDC.Control Control of 2*m pulse bridge rectifier |
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Modelica.Electrical.PowerConverters.ACDC.Control Control of 2*m pulse center tap rectifier |
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Modelica.Electrical.PowerConverters.DCAC.Control PulseWidthModulation |
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Modelica.Electrical.PowerConverters.DCAC.Control SpaceVector Pulse Width Modulation |
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Modelica.Electrical.PowerConverters.DCAC.Control Intersective PWM |
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Modelica.Electrical.PowerConverters.DCDC.Control Generates a pulse width modulated (PWM) boolean fire signal |
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Modelica.Electrical.PowerConverters.DCDC.Control Linearly transforms voltage to duty cycle |
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Modelica.Electrical.QuasiStationary.SinglePhase.Basic Single phase variable resistor |
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Modelica.Electrical.QuasiStationary.SinglePhase.Basic Single phase variable conductor |
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Modelica.Electrical.QuasiStationary.SinglePhase.Basic Single phase variable capacitor |
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Modelica.Electrical.QuasiStationary.SinglePhase.Basic Single phase variable inductor |
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Modelica.Electrical.QuasiStationary.SinglePhase.Sources Variable AC voltage |
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Modelica.Electrical.QuasiStationary.SinglePhase.Sources Variable AC current |
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Modelica.Electrical.QuasiStationary.Machines.SpacePhasors.Blocks Conversion: space phasor -> three phase |
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Modelica.Electrical.QuasiStationary.MultiPhase.Basic Multiphase variable resistor |
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Modelica.Electrical.QuasiStationary.MultiPhase.Basic Multiphase variable conductor |
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Modelica.Electrical.QuasiStationary.MultiPhase.Basic Multiphase variable capacitor |
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Modelica.Electrical.QuasiStationary.MultiPhase.Basic Multiphase variable inductor |
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Modelica.Electrical.QuasiStationary.MultiPhase.Blocks Conversion: space phasor -> m phase |
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Modelica.Electrical.QuasiStationary.MultiPhase.Sources Variable multiphase AC voltage |
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Modelica.Electrical.QuasiStationary.MultiPhase.Sources Variable multiphase AC voltage with reference angle input |
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Modelica.Electrical.QuasiStationary.MultiPhase.Sources Variable multiphase AC current |
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Modelica.Electrical.QuasiStationary.MultiPhase.Sources Variable multiphase AC current with reference angle input |
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SignalMagneticPotentialDifference Modelica.Magnetic.FluxTubes.Sources Signal-controlled magnetomotive force |
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Modelica.Magnetic.FluxTubes.Sources Signal-controlled magnetic flux source |
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SignalMagneticPotentialDifference Modelica.Magnetic.QuasiStatic.FluxTubes.Sources Signal-controlled magnetomotive force |
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Modelica.Magnetic.QuasiStatic.FluxTubes.Sources Signal-controlled magnetic flux source |
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Modelica.Magnetic.QuasiStatic.FluxTubes.Sensors.Transient Determines permeability from flux and magnetic potential difference |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.Utilities Voltage-Frequency-Controller |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.Utilities Current controller |
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Modelica.Mechanics.MultiBody.Examples.Systems.RobotR3.Components Map path planning to one axis control bus |
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Modelica.Mechanics.MultiBody.Forces External force acting at frame_b, defined by 3 input signals and resolved in frame world, frame_b or frame_resolve |
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Modelica.Mechanics.MultiBody.Forces External torque acting at frame_b, defined by 3 input signals and resolved in frame world, frame_b or frame_resolve |
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Modelica.Mechanics.MultiBody.Forces External force and torque acting at frame_b, defined by 3+3 input signals and resolved in frame world, frame_b or in frame_resolve |
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Modelica.Mechanics.MultiBody.Forces Force acting between two frames, defined by 3 input signals and resolved in frame world, frame_a, frame_b or frame_resolve |
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Modelica.Mechanics.MultiBody.Forces Torque acting between two frames, defined by 3 input signals and resolved in frame world, frame_a, frame_b or frame_resolve |
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Modelica.Mechanics.MultiBody.Forces Force and torque acting between two frames, defined by 3+3 input signals and resolved in frame world, frame_a, frame_b or frame_resolve |
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Modelica.Mechanics.MultiBody.Forces.Internal Force acting between two frames, defined by 3 input signals |
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Modelica.Mechanics.MultiBody.Forces.Internal Torque acting between two frames, defined by 3 input signals |
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Modelica.Mechanics.MultiBody.Forces.Internal External force acting at frame_b, defined by 3 input signals |
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Modelica.Mechanics.MultiBody.Forces.Internal External torque acting at frame_b, defined by 3 input signals |
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Modelica.Mechanics.MultiBody.Joints.Internal Revolute joint where the rotation angle is computed from a length constraint (1 degree-of-freedom, no potential state) |
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Modelica.Mechanics.MultiBody.Joints.Internal Prismatic joint where the translational distance is computed from a length constraint (1 degree-of-freedom, no potential state) |
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Modelica.Mechanics.MultiBody.Sensors Transform absolute vector in to another frame |
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Modelica.Mechanics.MultiBody.Sensors Transform relative vector in to another frame |
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Modelica.Mechanics.MultiBody.Sensors.Internal Transform absolute vector into another frame |
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Modelica.Mechanics.MultiBody.Sensors.Internal Transform relative vector into another frame |
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Modelica.Mechanics.MultiBody.Visualizers Visualizing an arrow with dynamically varying size in frame_a based on input signal |
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Modelica.Mechanics.Rotational.Examples.Utilities Input/output block of a direct inertia model |
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Modelica.Mechanics.Rotational.Examples.Utilities Input/output block of an inverse inertia model |
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Modelica.Mechanics.Rotational.Examples.Utilities Input/output block of a spring/damper model |
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Modelica.Mechanics.Rotational.Examples.Utilities Input/output block of a spring model |
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Modelica.Mechanics.Rotational.Components Brake based on Coulomb friction |
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Modelica.Mechanics.Rotational.Components Clutch based on Coulomb friction |
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Modelica.Mechanics.Rotational.Components Parallel connection of freewheel and clutch |
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Modelica.Mechanics.Rotational.Components Initializes a flange with pre-defined angle, speed and angular acceleration (usually, this is reference data from a control bus) |
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Modelica.Mechanics.Rotational.Components Signal adaptor for a Rotational flange with torque as output and angle, speed, and optionally acceleration as inputs (especially useful for FMUs) |
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Modelica.Mechanics.Rotational.Components Signal adaptor for a Rotational flange with angle, speed, and acceleration as outputs and torque as input (especially useful for FMUs) |
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Modelica.Mechanics.Rotational.Sources Forced movement of a flange according to a reference angle signal |
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Modelica.Mechanics.Rotational.Sources Forced movement of a flange according to a reference angular velocity signal |
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Modelica.Mechanics.Rotational.Sources Forced movement of a flange according to an acceleration signal |
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Modelica.Mechanics.Rotational.Sources Forced movement of a flange according to an angle, speed and angular acceleration signal |
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Modelica.Mechanics.Rotational.Sources Input signal acting as external torque on a flange |
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Modelica.Mechanics.Rotational.Sources Input signal acting as torque on two flanges |
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Modelica.Mechanics.Translational.Examples.Utilities Input/output block of a direct mass model |
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Modelica.Mechanics.Translational.Examples.Utilities Input/output block of an inverse mass model |
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Modelica.Mechanics.Translational.Examples.Utilities Input/output block of a spring/damper model |
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Modelica.Mechanics.Translational.Examples.Utilities Input/output block of a spring model |
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Modelica.Mechanics.Translational.Components Brake based on Coulomb friction |
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Modelica.Mechanics.Translational.Components Initializes a flange with pre-defined position, speed and acceleration (usually, this is reference data from a control bus) |
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Modelica.Mechanics.Translational.Sources Forced movement of a flange according to a reference position |
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Modelica.Mechanics.Translational.Sources Forced movement of a flange according to a reference speed |
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Modelica.Mechanics.Translational.Sources Forced movement of a flange according to an acceleration signal |
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Modelica.Mechanics.Translational.Sources Forced movement of a flange according to a position, velocity and acceleration signal |
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Modelica.Mechanics.Translational.Sources External force acting on a drive train element as input signal |
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Modelica.Mechanics.Translational.Sources Input signal acting as torque on two flanges |
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Modelica.Fluid.Examples.ControlledTankSystem.Utilities Controller for tank system |
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Modelica.Fluid.Examples.ControlledTankSystem.Utilities Normal operation of tank system (button start pressed) |
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Modelica.Fluid.Examples.AST_BatchPlant.BaseClasses Set output signal to a time varying Real expression |
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Modelica.Fluid.Examples.AST_BatchPlant.BaseClasses Tank with inlet/outlet ports and with inlet ports at the top |
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Modelica.Fluid.Vessels.BaseClasses Lumped volume with a vector of fluid ports and replaceable heat transfer model |
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Modelica.Fluid.Machines Centrifugal pump with ideally controlled mass flow rate |
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Modelica.Fluid.Machines Centrifugal pump with ideally controlled speed |
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Modelica.Fluid.Valves Valve for water/steam flows with linear pressure drop |
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Modelica.Fluid.Valves.BaseClasses Base model for valves |
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Modelica.Fluid.Sources Boundary with prescribed pressure, temperature, composition and trace substances |
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Modelica.Fluid.Sources Boundary with prescribed pressure, specific enthalpy, composition and trace substances |
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Modelica.Fluid.Sources Ideal flow source that produces a prescribed mass flow with prescribed temperature, mass fraction and trace substances |
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Modelica.Fluid.Sources Ideal flow source that produces a prescribed mass flow with prescribed specific enthalpy, mass fraction and trace substances |
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Modelica.Thermal.FluidHeatFlow.Components Simple valve |
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Modelica.Thermal.FluidHeatFlow.Sources Ambient with constant properties |
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Modelica.Thermal.FluidHeatFlow.Sources Enforces constant volume flow |
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Modelica.Thermal.FluidHeatFlow.Sources Enforces constant pressure increase |
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Modelica.Thermal.HeatTransfer.Examples.Utilities Input/output block of a direct heatCapacity model |
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Modelica.Thermal.HeatTransfer.Examples.Utilities Input/output block of an inverse heatCapacity model |
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Modelica.Thermal.HeatTransfer.Examples.Utilities Input/output block of a conduction model |
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Modelica.Thermal.HeatTransfer.Components Lumped thermal element for heat convection (Q_flow = Gc*dT) |
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Modelica.Thermal.HeatTransfer.Components Lumped thermal element for heat convection (dT = Rc*Q_flow) |
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Modelica.Thermal.HeatTransfer.Sources Variable temperature boundary condition in Kelvin |
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Modelica.Thermal.HeatTransfer.Sources Prescribed heat flow boundary condition |
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Modelica.Thermal.HeatTransfer.Celsius Conversion block from degCelsius to Kelvin |
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Modelica.Thermal.HeatTransfer.Celsius Conversion from Kelvin to degCelsius |
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Modelica.Thermal.HeatTransfer.Celsius Variable temperature boundary condition in degCelsius |
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Modelica.Thermal.HeatTransfer.Fahrenheit Conversion block from degFahrenheit to Kelvin |
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Modelica.Thermal.HeatTransfer.Fahrenheit Conversion from Kelvin to degFahrenheit |
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Modelica.Thermal.HeatTransfer.Fahrenheit Variable temperature boundary condition in degFahrenheit |
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Modelica.Thermal.HeatTransfer.Rankine Conversion block from degRankine to Kelvin |
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Modelica.Thermal.HeatTransfer.Rankine Conversion from Kelvin to degRankine |
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Modelica.Thermal.HeatTransfer.Rankine Variable temperature boundary condition in degRankine |