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ASM Control, Converter Control, General Control, Mathematical Transforms,
Measurements, Observers, PMSM Control, Protection, Pulse-Width Modulation

Build control systems for power generation and conversion using ASM and PMSM controllers, mathematical transformation, and pulse-width modulation.

ASM Current Controller | Discrete-time PI-based asynchronous machine current control |

ASM Direct Torque Control | Asynchronous machine direct torque control |

ASM Direct Torque Control with Space Vector Modulator | Asynchronous machine direct torque control structure with space vector modulator |

ASM Field-Oriented Control | Asynchronous machine field-oriented control |

ASM Scalar Control | Asynchronous machine V/f control |

Single-Phase ASM Direct Torque Control | Single-phase ASM Direct Torque Control |

Single-Phase ASM Field-Oriented Control | Single-Phase ASM Field-Oriented Control |

BLDC Commutation Logic | Commutation logic for brushless DC motors |

BLDC Current Controller | Discrete-time PI-based Brushless DC Motor current control |

BLDC Current Controller with PWM Generation | Brushless DC motor current control with pulse width modulation generation |

DC-DC Voltage Controller | Discrete-time PI-based DC-DC voltage control with feedforward and anti-windup gain |

Three-Phase Bridge Cycloconverter Voltage Controller | PI-based RMS voltage control for three-phase bridge cycloconverters |

Thyristor Rectifier Voltage Controller | Discrete-time PI-based DC-link voltage control for thyristor rectifiers |

Change Detector | Boolean signal change detector |

Counter | Discrete- or continuous-time counter |

Filtered Derivative (Discrete or Continuous) | Discrete-time or continuous-time filtered derivative |

Fourier Analysis | Discrete or continuous time Fourier analysis |

Integrator (Discrete or Continuous) | Discrete-time or continuous-time integrator |

Integrator with Wrapped State (Discrete or Continuous) | Discrete-time or continuous-time integrator with wrapped state |

Lead-Lag (Discrete or Continuous) | Discrete-time or continuous-time lead-lag compensator |

Monostable Flip-Flop | Monostable flip-flop |

Moving Average | Moving average-value computation |

On-Off Delay | Boolean-signal delay |

Serial-In Parallel-Out Shift Register | Discrete serial-in, parallel-out shift register |

Set-Reset Flip-Flop | Implement a set-reset flip-flop or bistable multivibrator |

Signal Sample and Hold | Sample and hold the input signal |

Discrete PI Controller | Discrete-time PI controller with external anti-windup input |

Discrete PI Controller with Integral Anti-Windup | Discrete-time PI control with integral anti-windup |

Model Reference Adaptive Controller | Discrete-time PID-based model reference adaptive control |

RST Controller | Predictive control using a polynomial representation |

Sliding Mode Controller | Hysteresis-based sliding mode control |

Smith Predictor Controller | Discrete-time Smith dead-time compensator |

State-Feedback Controller | Discrete-time state-feedback controller with integral action |

Low-Pass Filter (Discrete or Continuous) | Discrete-time or continuous-time low-pass filter |

Second-Order Filter | Low-pass, high-pass, band-pass, or band-stop second-order filter |

Second-Order Low-Pass Filter (Discrete or Continuous) | Discrete-time or continuous-time second-order low-pass filter |

Variable-Frequency Second-Order Filter | Variable-Frequency Second-Order Filter |

Washout (Discrete or Continuous) | Discrete-time or continuous-time washout or high-pass filter |

DC Current Controller | Discrete-time PI-based DC current control |

DC Voltage Controller | Discrete-time PI-based DC voltage control with feedforward zero cancellation and anti-windup gain |

Three-Phase Hysteresis Current Controller | Three-phase hysteresis current control |

Velocity Controller | Discrete-time velocity controller |

Clarke to Park Angle Transform | Implement αβ0 to dq0 transform |

Clarke Transform | Implement abc to αβ0 transform |

Inverse Clarke Transform | Implement αβ0 to abc transform |

Inverse Park Transform | Implement dq0 to abc transform |

Inverse Symmetrical-Components Transform | Implement +-0 to abc transform |

Park to Clarke Angle Transform | Implement dq0 to αβ0 transform |

Park Transform | Implement abc to dq0 transform |

Symmetrical-Components Transform | Implement abc to +-0 transform |

Power Measurement | Measure single-phase real and reactive power |

RMS Measurement | Measure root-mean-square (RMS) properties of a signal |

Sinusoidal Measurement (PLL) | Estimate sinusoidal characteristics using a phase-locked loop |

Three-Phase Power Measurement | Measure three-phase real and reactive power |

Three-Phase Sinusoidal Measurement (PLL) | Estimate three-phase sinusoidal characteristics using a phase-locked loop |

ASM Flux Observer | Asynchronous machine flux observer |

Luenberger Observer | Discrete-time Luenberger observer |

PMSM Current Controller | Permanent magnet synchronous machine current controller |

PMSM Current Controller with Pre-Control | Permanent magnet synchronous machine current controller with pre-control |

PMSM Current Reference Generator | Permanent magnet synchronous machine current reference generator |

PMSM Field-Oriented Control | Permanent magnet synchronous machine field-oriented control |

PMSM Field-Weakening Controller | Permanent magnet synchronous machine field-weakening controller |

PMSM Torque Estimator | Permanent magnet synchronous machine torque estimator |

d-q Voltage Limiter | Limit voltage in the rotor direct-quadrature reference frame |

PWM Generator | Generate pulse width modulated signal |

PWM Generator (Three-phase, Three-level) | Generate three-phase, three-level pulse width modulated waveform |

PWM Generator (Three-phase, Two-level) | Generate three-phase, two-level pulse width modulated waveform |

Thyristor 6-Pulse Generator | Generate thyristor 6-pulse waveform in single-pulsing mode |

Thyristor 12-Pulse Generator | Generate thyristor 12-pulse waveform in single-pulsing mode |

SM AC1C | Synchronous machine AC1C excitation system including an Automatic Voltage Regulator (AVR) and an exciter |

SM Current Controller | Synchronous machine current controller |

SM Current Reference Generator | Synchronous machine current reference generator |

SM Field-Oriented Control | Synchronous machine field-oriented control |

SM Governor with Droop | Synchronous machine governor with droop |

SM PSS1A | Single input power system stabilizer type PSS1A |

SRM Commutation Logic | Commutation logic for switched reluctance machines |

SRM Current Controller | Current control for switched reluctance machines |

SRM Current Controller with PWM Generation | Current controller with internal pulse width modulation for switched reluctance machines |

SRM Hysteresis Current Controller | Hysteresis current control for switched reluctance machines |

Tune a cascaded control system for a DC motor.

**Essential Power Engineering Modeling Techniques**

Apply Simscape™ modeling rules when you build three-phase networks using Simscape Electrical™ Power Systems.

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