Package with load models for three-phase balanced AC systems
This package contains models that represent different types of three phases balanced AC loads.
Extends from Modelica.Icons.VariantsPackage (Icon for package containing variants).
Name | Description |
---|---|
Capacitive | Model of a capacitive and resistive load |
Impedance | Model of a resistive load |
Inductive | Model of an inductive and resistive load |
Resistive | Model of a resistive load |
Examples | Package with example models |
Model of a capacitive and resistive load
Model of a capacitive load. See Buildings.Electrical.AC.OnePhase.Loads.Capacitive for more information.
Extends from Buildings.Electrical.AC.OnePhase.Loads.Capacitive (Model of a capacitive and resistive load).
Type | Name | Default | Description |
---|---|---|---|
Modelling assumption | |||
Boolean | linearized | false | If true, the load model is linearized |
Load | mode | Buildings.Electrical.Types.L... | Type of load model (e.g., steady state, dynamic, prescribed power consumption, etc.) |
Boolean | use_pf_in | false | If true, the power factor is defined by an input |
Nominal conditions | |||
Power | P_nominal | Nominal power (negative if consumed, positive if generated) [W] | |
Voltage | V_nominal.start | 480 | Nominal voltage (V_nominal >= 0) [V] |
Real | pf | 0.8 | Power factor |
Initialization | |||
InitMode | initMode | Buildings.Electrical.Types.I... | Initialization mode for homotopy operator |
Type | Name | Description |
---|---|---|
input RealInput | y | Fraction of the nominal power consumed [1] |
input RealInput | Pow | Power consumed [W] |
input RealInput | pf_in | Power factor [1] |
Model of a resistive load
Model of a three-phase balanced impedance.
If inductive=true
, then the
inductance is a parameter, otherwise
the capacitance is a parameter.
The boolean parameter star
is used to
select whether the star (Y) or triangle (D)
configuration is used to connect the impedance.
By default, the impedance is assumed to be connected
with a star configuration.
When the connection type changes from
star
to triangle
, the value of the impedance
is recomputed in such a way that the nominal power consumed by the impedance
does not change.
Extends from Buildings.Electrical.Interfaces.Impedance (Partial model representing a generalized impedance).
Type | Name | Default | Description |
---|---|---|---|
replaceable package PhaseSystem | PartialPhaseSystem | Phase system | |
Boolean | inductive | true | If true, the load is inductive, otherwise it is capacitive |
Resistance | R | 1 | Resistance [Ohm] |
Inductance | L | 0 | Inductance [H] |
Capacitance | C | 0 | Capacitance [F] |
Boolean | star | true | Type of load connection: true = star, false = triangle |
Initialization | |||
InitMode | initMode | Buildings.Electrical.Types.I... | Initialization mode for homotopy operator |
Variable load | |||
Resistance | |||
Boolean | use_R_in | false | If true, R is specified by an input |
Resistance | RMin | 1e-4 | Minimum value of the resistance [Ohm] |
Resistance | RMax | 1e2 | Maximum value of the resistance [Ohm] |
Capacitance | |||
Boolean | use_C_in | false | If true, C is specified by an input |
Capacitance | CMin | 1e-4 | Minimum value of the capacitance [F] |
Capacitance | CMax | 1e2 | Maximum value of the capacitance [F] |
Inductance | |||
Boolean | use_L_in | false | If true, L is specified by an input |
Inductance | LMin | 1e-4 | Minimum value of the inductance [H] |
Inductance | LMax | 1e2 | Maximum value of the inductance [H] |
Type | Name | Description |
---|---|---|
replaceable package PhaseSystem | Phase system | |
input RealInput | y | Fraction of the nominal power consumed [1] |
input RealInput | Pow | Power consumed [W] |
input RealInput | y_R | Input that sepecify variable R |
input RealInput | y_C | Input that sepecify variable C |
input RealInput | y_L | Input that sepecify variable L |
Model of an inductive and resistive load
Model of an inductive load. See Buildings.Electrical.AC.OnePhase.Loads.Inductive for more information.
Extends from Buildings.Electrical.AC.OnePhase.Loads.Inductive (Model of an inductive and resistive load).
Type | Name | Default | Description |
---|---|---|---|
Modelling assumption | |||
Boolean | linearized | false | If true, the load model is linearized |
Load | mode | Buildings.Electrical.Types.L... | Type of load model (e.g., steady state, dynamic, prescribed power consumption, etc.) |
Boolean | use_pf_in | false | If true, the power factor is defined by an input |
Nominal conditions | |||
Power | P_nominal | Nominal power (negative if consumed, positive if generated) [W] | |
Voltage | V_nominal.start | 480 | Nominal voltage (V_nominal >= 0) [V] |
Real | pf | 0.8 | Power factor |
Initialization | |||
InitMode | initMode | Buildings.Electrical.Types.I... | Initialization mode for homotopy operator |
Type | Name | Description |
---|---|---|
input RealInput | y | Fraction of the nominal power consumed [1] |
input RealInput | Pow | Power consumed [W] |
input RealInput | pf_in | Power factor [1] |
Model of a resistive load
Model of a resistive load. See Buildings.Electrical.AC.OnePhase.Loads.Resistive for more information.
Extends from Buildings.Electrical.AC.OnePhase.Loads.Resistive (Model of a resistive load).
Type | Name | Default | Description |
---|---|---|---|
Modelling assumption | |||
Boolean | linearized | false | If true, the load model is linearized |
Load | mode | Buildings.Electrical.Types.L... | Type of load model (e.g., steady state, dynamic, prescribed power consumption, etc.) |
Nominal conditions | |||
Power | P_nominal | Nominal power (negative if consumed, positive if generated) [W] | |
Voltage | V_nominal.start | 480 | Nominal voltage (V_nominal >= 0) [V] |
Initialization | |||
InitMode | initMode | Buildings.Electrical.Types.I... | Initialization mode for homotopy operator |
Type | Name | Description |
---|---|---|
input RealInput | y | Fraction of the nominal power consumed [1] |
input RealInput | Pow | Power consumed [W] |