Get Started with Specialized Power Systems
Get started with Specialized Power Systems by generating power through AC and DC sources, loads, breakers, faults, and grounds.
|AC Current Source||Implement sinusoidal current source|
|AC Voltage Source||Implement sinusoidal voltage source|
|Controlled Current Source||Implement controlled current source|
|Controlled Voltage Source||Implement controlled voltage source|
|DC Voltage Source||Implement DC voltage source|
|Three-Phase Programmable Voltage Source||Implement three-phase voltage source with programmable time variation of amplitude, phase, frequency, and harmonics|
|Three-Phase Source||Implement three-phase source with internal R-L impedance|
Loads, Mutual Inductance, and Harmonic Filtering
|Nonlinear Inductor||Discrete nonlinear inductor|
|Nonlinear Resistor||Discrete nonlinear resistor|
|Series RLC Branch||Implement series RLC branch|
|Series RLC Load||Implement linear series RLC load|
|Parallel RLC Branch||Implement parallel RLC branch|
|Parallel RLC Load||Implement linear parallel RLC load|
|Mutual Inductance||Implement inductances with mutual coupling|
|Three-Phase Harmonic Filter||Implement four types of three-phase harmonic filters using RLC components|
|Three-Phase Dynamic Load||Implement three-phase dynamic load with active power and reactive power as function of voltage or controlled from external input|
|Three-Phase Series RLC Branch||Implement three-phase series RLC branch|
|Three-Phase Series RLC Load||Implement three-phase series RLC load with selectable connection|
|Three-Phase Parallel RLC Branch||Implement three-phase parallel RLC branch|
|Three-Phase Parallel RLC Load||Implement three-phase parallel RLC load with selectable connection|
|Three-Phase Mutual Inductance Z1-Z0||Implement three-phase impedance with mutual coupling among phases|
|Variable Capacitor||Discrete variable capacitor|
|Variable Inductor||Discrete variable inductor|
|Variable Resistor||Discrete variable resistor|
Breakers and Faults
|Ground||Provide connection to ground|
|Neutral||Implement common node in circuit|
|Current-Voltage Simscape Interface||Ideal coupling between Simscape Electrical Specialized Power Systems and Simscape electrical circuits|
|Current-Voltage Simscape Interface (gnd)||Ideal coupling between Simscape Electrical Specialized Power Systems and Simscape electrical circuits|
|Voltage-Current Simscape Interface||Ideal coupling between Simscape Electrical Specialized Power Systems and Simscape electrical circuits|
|Voltage-Current Simscape Interface (gnd)|
- How Simscape Electrical Specialized Power Systems Software Works
Learn how Simscape™ Electrical™ Specialized Power Systems initializes and runs your models.
- Build and Simulate a Simple Circuit Using Specialized Power Systems
Build a simple circuit using Simscape Electrical Specialized Power Systems blocks and connect it to other Simulink® blocks.
- Specify Initial Conditions
Specify initial conditions for state variables using the Simscape Electrical Specialized Power Systems powergui block.
- Building and Customizing Simscape Electrical Specialized Power Systems Models
Model nonlinear systems and create custom nonlinear blocks.
- Building a Model Using Model Construction Commands
Insert and connect blocks in your model using model construction commands.
- Simulating Transients
Create an electrical subsystem, simulate transients, and discretize simple circuits.
- Change Circuit Parameters
Modify Simscape Electrical Specialized Power Systems block parameters and automate simulation using MATLAB® scripts.
- Interfacing Simulink Models with Simscape Electrical Specialized Power Systems
This example shows the interfaces between Simulink® and Simscape™ Electrical™ Specialized Power Systems to design a custom synchronous machine model.
- Interfacing Simscape Models with Simscape Electrical Specialized Power Systems
This example shows the interface between Simscape™ and Simscape Electrical™ Specialized Power Systems to design a breaker model.