Main Content

Constant Current Load

Constant current load for DC or AC supply

Since R2021a

Libraries:
Simscape / Electrical / Passive

Description

The Constant Current Load block implements a constant current load for a DC or AC supply.

If you set the Load type parameter to DC:

  • The consumed current of this block is equal to the value of the Consumed current parameter as long as the voltage from the DC supply is equal to or greater than the value specified for the Minimum supply voltage parameter.

  • When the voltage from the DC supply drops below Minimum supply voltage, the load behaviour changes and the block models a resistive load. If the supply voltage becomes negative, the block models a small open-circuit conductance.

To ensure smooth transitions between these behaviours, the block uses a third-order polynomial spline with continuous derivatives. You can specify the width of this transition using the Transition voltage width parameter.

If you set the Load type parameter to AC:

  • The root mean square consumed current of this block is equal to the value of the Consumed current (RMS) parameter as long as the voltage from the AC supply is equal to or greater than the value specified for the Minimum supply voltage (RMS) parameter.

  • When the voltage from the AC supply drops below the Minimum supply voltage (RMS) parameter, the load behaviour changes and the block models a load with constant resistance.

Equations

If you set the Load type parameter to AC, the block calculates the peak voltage, Vpk, through harmonic approximation of the instantaneous voltage by using a one-period-integrated Fourier transform:

Re=f0vsin(2πf0t)Im=f0vsin(2πf0t+π2)Vpk=2Re2+Im2

During the first period, the peak voltage is equal to 0 V. The current is defined by this equation:

i(t)=V(t)Requiv,

where Requiv is the equivalent resistance and depends on the value of the Minimum supply voltage (RMS) parameter.

If the voltage from the three-phase supply is greater than the value specified for the Minimum supply voltage (RMS) parameter, the equivalent resistance is defined by:

Requiv=Vpk2IRMSconsumed,

where Vpk is the voltage peak magnitude and IRMSconsumed is the value of the Consumed current (RMS) parameter.

If the voltage from the three-phase supply is less than the value specified for the Minimum supply voltage (RMS) parameter, the equivalent resistance is defined by:

Requiv=VRMSminIRMSconsumed,

where VRMSmin is the value of the Minimum supply voltage (RMS) parameter.

Faults

To model a fault in the Constant Current Load block, in the Faults section, click the Add fault hyperlink in the parameter that corresponds to the specific fault that you want to model. When the Create Fault window opens, you use it to specify the fault properties. For more information about fault modeling, see Fault Behavior Modeling and Fault Triggering.

The Constant Current Load block allows you to model an electrical fault as an open circuit. The block can trigger fault events either:

  • At a specific time

  • When a power limit is exceeded for longer than a specific time interval

Load-Flow Analysis

If the block is in a network that is compatible with the frequency-time simulation mode, you can perform a load-flow analysis on the network. A load-flow analysis provides steady-state values that you can use to initialize a machine.

For more information, see Perform a Load-Flow Analysis Using Simscape Electrical and Frequency and Time Simulation Mode.

Ports

Conserving

expand all

Electrical conserving port associated with the constant current load positive terminal.

Electrical conserving port associated with the constant current load negative terminal.

Parameters

expand all

Main

Type of load. Select DC to use this load with a DC supply or AC to use this load with an AC supply.

Current consumed by the block.

Dependencies

To enable this parameter, set Load Type to DC.

Minimum voltage the DC supply needs to give the block to act as a constant current load.

Dependencies

To enable this parameter, set Load Type to DC.

Value of the reverse conductance when the supply voltage becomes negative.

Dependencies

To enable this parameter, set Load Type to DC.

Transition voltage width used to ensure smooth transitions between block behaviours when the supply voltage drops below the value of the Minimum supply voltage parameter or becomes negative.

Dependencies

To enable this parameter, set Load Type to DC.

Root mean square current consumed by the block.

Dependencies

To enable this parameter, set Load Type to AC.

Rated frequency.

Dependencies

To enable this parameter, set Load Type to AC.

Minimum voltage, in RMS, that the AC supply must provide for the block to act as a constant current load.

Dependencies

To enable this parameter, set Load Type to AC.

Faults

Option to add an open-circuit fault in the Constant Current Load block.

To add a fault, click the Add fault hyperlink.

Conductance during the open-circuit state.

Dependencies

To enable this parameter, add a fault to the Constant Current Load block by clicking the Add fault hyperlink in the Open circuit fault parameter.

After you create the fault, you can change the properties in the Fault Inspector window. When you open a block that has a fault, the Open Fault Inspector hyperlink appears instead of the Add fault hyperlink. For an example that shows how to include faults, see Analyze a DC Armature Winding Fault.

Simulation time at which the block enters the faulted state.

Dependencies

To enable this parameter, in the Fault Inspector window, set Trigger Type to Timed.

This parameter appears in the Trigger section of the Fault Inspector window. For more information, see Set Fault Triggers.

Maximum permissible power value. If the power exceeds this value for longer than the Time to fail when exceeding power parameter value, then the block enters the faulted state.

Dependencies

To enable this parameter, in the Fault Inspector window, set Trigger Type to Behavioral.

This parameter appears in the Trigger section of the Fault Inspector window. For more information, see Set Fault Triggers.

Maximum length of time that the power can exceed the maximum permissible value without triggering the fault.

Dependencies

To enable this parameter, in the Fault Inspector window, set Trigger Type to Behavioral.

This parameter appears in the Trigger section of the Fault Inspector window. For more information, see Set Fault Triggers.

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.

Version History

Introduced in R2021a