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Simscape Electrical ブロック - アルファベット順
A
abc to Alpha-Beta-Zero, Alpha-Beta-Zero to abc | 三相 (abc) 信号から αβ0 静止基準座標系への変換またはその逆の変換を実行 |
abc to dq0, dq0 to abc | 三相 (abc) 信号から dq0 回転基準座標系への変換またはその逆の変換を実行 |
AC Current Source | Implement sinusoidal current source |
AC Voltage Source | Implement sinusoidal voltage source |
AC1A Excitation System | Implements IEEE type AC1A excitation system model |
AC4A Excitation System | Implements IEEE type AC4A excitation system model |
AC5A Excitation System | Implements IEEE type AC5A excitation system model |
Alpha-Beta-Zero to dq0, dq0 to Alpha-Beta-Zero | αβ0 静止基準座標系から dq0 回転基準座標系への変換またはその逆の変換を実行 |
Asynchronous Machine | Model dynamics of three-phase asynchronous machine, also known as induction machine, in SI or pu units |
B
Battery | Generic battery model |
Bistable | Implement prioritized S-R flip-flop (bistable multivibrator) |
BLDC Commutation Logic | ブラシレス DC モーターのスイッチ式転流ロジック |
BLDC Current Controller | 離散時間ブラシレス DC モーター電流 PI コントローラー |
BLDC Current Controller with PWM Generation | パルス幅変調生成を使用する離散時間ブラシレス DC モーター電流 PI コントローラー |
Boost Converter | Implement boost power converter |
Breaker | Implement circuit breaker opening at current zero crossing |
Bridge Cycloconverter Voltage Controller (Three-Phase) | RMS Voltage PI control for three-phase bridge cycloconverters |
Buck Converter | Implement buck power converter |
C
Change Detector | Boolean signal change detector |
Clarke to Park Angle Transform | αβ0 から dq0 への変換を実装 |
Clarke Transform | abc から αβ0 への変換を実装 |
Controlled Current Source | 制御電流源を実装 |
Controlled Voltage Source | 制御電圧源を実装 |
Controller LCFB1 | タービン調速機モデル用の負荷コントローラー (R2020a 以降) |
Coordinate Transform (Five-Phase) | Implement abcde to dqxy0 transform (R2021a 以降) |
Counter | 離散時間または連続時間のカウンター |
Current Measurement | 回路内の電流を測定 |
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 |
D
d-q Voltage Limiter | Limit voltage in the rotor direct-quadrature reference frame |
DC Current Controller | Discrete-time DC current PI control with integral anti-windup |
DC Machine | Implement wound-field or permanent magnet DC machine |
DC Voltage Controller | Discrete-time DC voltage PI control with feedforward zero cancellation and integral anti-windup |
DC Voltage Source | DC 電圧源を実装 |
DC-DC Voltage Controller | Discrete-time DC-DC voltage PI control with feedforward and optional integral anti-windup |
DC1A Excitation System | Implements IEEE type DC1A excitation system model |
DC2A Excitation System | Implements IEEE type DC2A excitation system model |
Decoupled Transform (Six-Phase) | Implement abc and xyz to dqz1z2o1o2 transform (R2021a 以降) |
Decoupling Line | Single-phase decoupling distributed parameters line (R2020b 以降) |
Decoupling Line (Three-Phase) | Three-phase decoupling distributed parameters line (R2020b 以降) |
Digital Flickermeter | Implement digital flickermeter as described in IEC 61000-4-15 standard |
Diode | ダイオード モデルを実装 |
Discrete PI Controller | 外部アンチワインドアップ入力をもつ離散時間 PI コントローラー |
Discrete PI Controller with Integral Anti-Windup | 積分アンチワインドアップをもつ離散時間 PI 制御 |
Discrete Shift Register | Implement serial-in, parallel-out shift register |
Discrete Variable Time Delay | Delay signal by variable time value |
Distributed Parameters Line | Implement N-phase distributed parameter transmission line model with lumped losses |
Distributed Parameters Line (Frequency-Dependent) | Distributed parameters line or cable model with frequency-dependent parameters (R2020b 以降) |
E
Edge Detector | 論理信号の状態の変化を検出 |
Excitation System | Provide excitation system for synchronous machine and regulate its terminal voltage in generating mode |
F
Filtered Derivative (Discrete or Continuous) | 離散時間または連続時間の不完全微分 |
First-Order Filter | 1 次フィルターを実装 |
Fourier | Perform Fourier analysis of signal |
Fourier Analysis | Discrete or continuous time Fourier analysis |
Frequency (Phasor) | フェーザ信号周波数を測定する |
Fuel Cell Stack | Implement generic hydrogen fuel cell stack model |
Full-Bridge Converter | Implement full-bridge power converter |
Full-Bridge MMC | Implement a full-bridge modular multilevel converter |
Full-Bridge MMC (External DC Links) | Full-bridge MMC power converter with external DC connections |
Fundamental (PLL-Driven) | Compute fundamental value of signal |
G
Generic Power System Stabilizer | Implement generic power system stabilizer for synchronous machine |
Governor Type 1 | IEEE type 1 linearized speed-governing steam turbine model (R2020a 以降) |
Governor Type 3 | IEEE type 3 linearized speed-governing hydro turbine model (R2020a 以降) |
Ground | 接地を提供 |
Grounding Transformer | Implement three-phase grounding transformer providing a neutral in three-wire system |
GTO | Implement gate turn off (GTO) thyristor model |
H
Half-Bridge Converter | Implement half-bridge power converter |
Half-Bridge MMC | Implement a half-bridge modular multilevel converter |
Hydraulic Turbine and Governor | 水力タービンおよび比例-積分-微分 (PID) 調速機をモデル化する |
Hysteresis Current Controller (Three-Phase) | 三相ヒステリシス電流制御 |
I
Ideal Switch | 理想的なスイッチ デバイスを実装 |
IGBT | 絶縁ゲート バイポーラ トランジスタ (IGBT) を実装する |
IGBT/Diode | 理想的な IGBT、GTO、または MOSFET および逆向きに接続されたダイオードを実装する |
Impedance Measurement | Measure impedance of circuit as function of frequency |
Induction Machine Current Controller | Discrete-time induction machine current PI controller |
Induction Machine Direct Torque Control | Induction machine DTC |
Induction Machine Direct Torque Control (Single-Phase) | Single-phase induction machine direct torque control |
Induction Machine Direct Torque Control with Space Vector Modulator | Induction machine DTC structure with SVM |
Induction Machine Field-Oriented Control | Per-unit discrete-time induction machine FOC |
Induction Machine Field-Oriented Control (Single-Phase) | Per-unit discrete-time single-phase induction machine field-oriented control |
Induction Machine Flux Observer | Induction machine flux observer for field-oriented control |
Induction Machine Scalar Control | 誘導機の V/f 制御 |
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 |
Inverse Clarke Transform | αβ0 から abc への変換を実装 |
Inverse Coordinate Transform (Five-Phase) | Implement dqxy0 to abcde transform (R2021a 以降) |
Inverse Decoupled Transform (Six-Phase) | Implement dqz1z2o1o2 to abc and xyz transform (R2021a 以降) |
Inverse Park Transform | dq0 から abc への変換を実装 |
Inverse Symmetrical-Components Transform | Implement +-0 to abc transform |
L
Lead-Lag (Discrete or Continuous) | 離散時間または連続時間のリードラグ補償器 |
Lead-Lag Filter | 1 次リードラグ フィルターを実装 |
Linear Transformer | 2 巻線または 3 巻線線形変圧器を実装 |
Load Flow Bus | Identify and parameterize load flow bus |
Low-Pass Filter (Discrete or Continuous) | 離散時間または連続時間のローパス フィルター |
Luenberger Observer | Discrete-time Luenberger observer |
M
Mean | 信号の平均値を計算 |
Mean (Phasor) | Compute mean value of input phasor over a running window of one cycle of specified frequency |
Mean (Variable Frequency) | Compute mean value of signal |
Model Reference Adaptive Controller | Discrete-time PID-based model reference adaptive control |
Monostable | 単安定フリップフロップ (ワンショット マルチバイブレーター) を実装する |
Monostable Flip-Flop | Raising edge, falling edge, either edge monostable flip-flop |
MOSFET | MOSFET モデルを実装 |
Moving Average | 移動平均の値の計算 |
Moving Average (Variable Frequency) | Variable frequency moving average-value computation (R2020a 以降) |
Multi-Winding Transformer | Implement multi-winding transformer with taps |
Multiband Power System Stabilizer | Implement multiband power system stabilizer |
Multimeter | Measure voltages and currents specified in dialog boxes of Simscape Electrical Specialized Power Systems blocks |
Mutual Inductance | Implement inductances with mutual coupling |
N
Neutral | 回路に一般的なノードを実装する |
Nonlinear Inductor | Discrete nonlinear inductor (R2019b 以降) |
Nonlinear Resistor | Discrete nonlinear resistor (R2019b 以降) |
O
On-Off Delay | boolean 信号遅延 |
On/Off Delay | スイッチオンとスイッチオフの遅延を実装 |
Overmodulation | Add third harmonic or triplen harmonic zero-sequence signal to three-phase signal |
P
Parallel RLC Branch | Implement parallel RLC branch |
Parallel RLC Load | Implement linear parallel RLC load |
Park to Clarke Angle Transform | dq0 から αβ0 への変換を実装 |
Park Transform | abc から dq0 への変換を実装 |
Permanent Magnet Synchronous Machine | Three-phase permanent magnet synchronous machine with sinusoidal or trapezoidal back electromotive force, or five-phase permanent magnet synchronous machine with sinusoidal back electromotive force |
PFC Rectifier Controller (Three-Phase) | PID-based power factor correction (PFC) rectifier controller (R2024a 以降) |
Phasor Measurement Unit (PMU, Three-Phase) | 三相システムの周波数、位相、および振幅の測定 (R2020a 以降) |
PI Section Line | 集中定数を使用して伝送線路またはケーブルを実装する |
PLL | Determine frequency and fundamental component of signal phase angle |
PLL (3ph) | Determine frequency and fundamental component of three-phase signal phase angle |
PMSM Current Controller | Discrete-time permanent magnet synchronous machine current controller |
PMSM Current Controller with Pre-Control | Discrete-time permanent magnet synchronous machine current controller with pre-control |
PMSM Current Reference Generator | Permanent magnet synchronous machine current reference generator |
PMSM Field-Oriented Control | 永久磁石同期機のベクトル制御 |
PMSM Field-Weakening Controller | Permanent magnet synchronous machine field-weakening controller |
PMSM Torque Estimator | 永久磁石同期機のトルクを推定する |
PMU (PLL-Based, Positive-Sequence) | Implements a phasor measurement unit using a phase-locked loop |
Positive-Sequence (PLL-Driven) | Compute positive-sequence component of three-phase signal at fundamental frequency |
Power | Compute active and reactive powers of voltage-current pair at fundamental frequency |
Power (3ph, Instantaneous) | 三相瞬時有効電力および無効電力を計算 |
Power (3ph, Phasor) | Compute three-phase active and reactive powers using three-phase voltage and current phasors |
Power (dq0, Instantaneous) | 三相瞬時有効電力および無効電力を計算 |
Power (Phasor) | Compute active and reactive powers using voltage and current phasors |
Power (PLL-Driven, Positive-Sequence) | Compute positive-sequence active and reactive powers |
Power (Positive-Sequence) | Compute positive-sequence active and reactive powers |
Power Measurement | 単相の有効電力と無効電力の計算 |
Power Measurement (Three-Phase) | 三相の有効電力と無効電力の計算 |
Powergui | Environment block for Simscape Electrical Specialized Power Systems models |
Programmable Signal Generator (Three-Phase) | Discrete-time or continuous-time three-phase sinusoidal signal generator with programmable magnitude, phase, frequency, and overlapping harmonics (R2020a 以降) |
Pulse Generator (Thyristor) | Generate pulses for twelve-pulse and six-pulse thyristor converters |
PV Array | PV アレイ モジュールを実装する |
PWM Gate Signal Generator (Five-phase, Two-level) | Generate ten switch-controlling pulses for five-phase, two-level gating switching devices (R2021a 以降) |
PWM Gate Signal Generator (Three-phase, Three-level) | Generate twelve switch-controlling pulses for three-phase, three-level gating switching devices (R2020b 以降) |
PWM Gate Signal Generator (Three-phase, Two-level) | Generate six switch-controlling pulses for three-phase, two-level gating switching devices (R2020b 以降) |
PWM Generator | パルス幅変調された信号または波形の生成 |
PWM Generator (2-Level) | Generate pulses for PWM-controlled 2-level converter |
PWM Generator (3-Level) | Generate pulses for PWM-controlled three-level converter |
PWM Generator (DC-DC) | PWM 制御の DC-DC コンバーターのパルスを生成する |
PWM Generator (Five-phase, Two-level) | Generate five-phase, two-level pulse width modulated waveform (R2021a 以降) |
PWM Generator (Interpolation) | Carrier-based unipolar PWM generation with interpolation (R2019b 以降) |
PWM Generator (Multilevel) | Generate pulse width modulated signal or waveform for modular multilevel converters (R2020b 以降) |
PWM Generator (Multilevel) | Generate pulses for PWM-controlled modular multilevel converter |
PWM Generator (Pulse Averaging) | Carrier-based PWM generator with pulse averaging (R2019b 以降) |
PWM Generator (Three-phase, Three-level) | スイッチング デバイスのゲート用に三相 3 レベルのパルス幅変調された信号または波形を生成 |
PWM Generator (Three-phase, Two-level) | 三相 2 レベルのパルス幅変調波形の生成 |
PWM Generator (Vienna Rectifier) | Vienna rectifier pulse-width modulation waveform generator (R2019b 以降) |
PWM Timing and Waveform Generator (Five-phase, Two-level) | Generate five-phase, two-level gating time information (R2021a 以降) |
PWM Timing and Waveform Generator (Three-phase, Three-level) | Generate three-phase, three-level gating time information (R2020b 以降) |
PWM Timing and Waveform Generator (Three-phase, Two-level) | Generate three-phase, two-level gating time information (R2020b 以降) |
Q
Quadrature Shaft Decoder | Decode incremental shaft encoder output (R2019b 以降) |
R
Resolver-to-Digital Converter | Resolver-to-digital converter (R2019b 以降) |
RMS | 信号の実際の平方根平均二乗 (RMS) 値を計算 |
RMS Measurement | Calculate root-mean-square (RMS) properties of a signal |
RST Controller | Predictive control using a polynomial representation |
S
Sample and Hold | Sample first input and hold its value based on value of second input |
Saturable Transformer | Implement two- or three-winding saturable transformer |
Sawtooth Generator | 一定の間隔でノコギリ波形を生成 |
Second-Order Filter | 離散時間または連続時間のローパス、ハイパス、バンドパス、またはバンドストップ 2 次フィルター |
Second-Order Filter | 2 次フィルターを実装する |
Second-Order Filter (Variable-Tuned) | Implement second-order variable-tuned filter |
Second-Order Low-Pass Filter (Discrete or Continuous) | Discrete-time or continuous-time second-order low-pass filter |
Sequence Analyzer | Calculate the magnitude and phase of the positive, negative, or zero sequence of a three-phase signal (R2019b 以降) |
Sequence Analyzer | Compute positive-, negative-, and zero-sequence components of three-phase signal |
Sequence Analyzer (Phasor) | Compute sequence components (positive, negative, and zero) of three-phase phasor signal |
Serial-In Parallel-Out Shift Register | 離散時間シリアルイン パラレルアウト シフト レジスタ |
Series RLC Branch | 直列 RLC 分岐を実装する |
Series RLC Load | Implement linear series RLC load |
Set-Reset Flip-Flop | セットリセット フリップフロップまたは双安定マルチバイブレーター |
Signal Sample and Hold | 離散時間または連続時間の信号のサンプルとホールド |
Simplified Synchronous Machine | Model the dynamics of simplified three-phase synchronous machine |
Sine Wave Generator (Three-Phase) | Discrete-time or continuous-time three-phase sine wave generator (R2020a 以降) |
Single Phase Asynchronous Machine | Model dynamics of single phase asynchronous machine with squirrel-cage rotor |
Sinusoidal Measurement (PLL) | Estimate sinusoidal characteristics using a phase-locked loop |
Sinusoidal Measurement (PLL, Three-Phase) | Estimate three-phase sinusoidal characteristics using a phase-locked loop |
Sliding Mode Controller | ヒステリシスベースのスライディング モード コントローラー |
SM AC10C | Discrete-time or continuous-time synchronous machine AC10C excitation system including an automatic voltage regulator and an exciter (R2023a 以降) |
SM AC11C | Discrete-time or continuous-time synchronous machine AC11C excitation system including an automatic voltage regulator and an exciter (R2023a 以降) |
SM AC1C | Discrete-time or continuous-time synchronous machine AC1C excitation system including an automatic voltage regulator and an exciter |
SM AC2C | Discrete-time or continuous-time synchronous machine AC2C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM AC3C | Discrete-time or continuous-time synchronous machine AC3C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM AC4C | Discrete-time or continuous-time synchronous machine AC4C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM AC5C | Discrete-time or continuous-time synchronous machine AC5C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM AC6C | Discrete-time or continuous-time synchronous machine AC6C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM AC7C | Discrete-time or continuous-time synchronous machine AC7C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM AC8C | Discrete-time or continuous-time synchronous machine AC8C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM AC9C | Discrete-time or continuous-time synchronous machine AC9C excitation system including an automatic voltage regulator and an exciter (R2023a 以降) |
SM Current Controller | Discrete-time synchronous machine current PI controller |
SM Current Reference Generator | Synchronous machine current reference generator |
SM DC1C | Discrete-time or continuous-time synchronous machine DC1C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM DC2C | Discrete-time or continuous-time synchronous machine DC2C excitation system including an automatic voltage regulator and an exciter (R2020a 以降) |
SM DC4C | Discrete-time or continuous-time synchronous machine DC4C excitation system including an automatic voltage regulator and exciter (R2021b 以降) |
SM Field-Oriented Control | Synchronous machine field-oriented control |
SM Governor with Droop | Synchronous machine governor with droop |
SM PSS1A | Discrete-time or continuous-time single input PSS1A power system stabilizer |
SM PSS2C | Discrete-time or continuous-time single input PSS2C power system stabilizer (R2020a 以降) |
SM PSS7C | Discrete-time or continuous-time single input PSS7C power system stabilizer (R2020a 以降) |
SM ST10C | Discrete-time or continuous-time synchronous machine ST10C static excitation system with automatic voltage regulator (R2023a 以降) |
SM ST1C | Discrete-time or continuous-time synchronous machine ST1C static excitation system with an automatic voltage regulator (R2020a 以降) |
SM ST2C | Discrete-time or continuous-time synchronous machine ST2C static excitation system with an automatic voltage regulator (R2020a 以降) |
SM ST3C | Discrete-time or continuous-time synchronous machine ST3C static excitation system with an automatic voltage regulator (R2020a 以降) |
SM ST4C | Discrete-time or continuous-time synchronous machine ST4C static excitation system with an automatic voltage regulator (R2020a 以降) |
SM ST5C | Discrete-time or continuous-time synchronous machine ST5C static excitation system with automatic voltage regulator (R2023a 以降) |
SM ST6C | Discrete-time or continuous-time synchronous machine ST6C static excitation system with automatic voltage regulator (R2023a 以降) |
SM ST7C | Discrete-time or continuous-time synchronous machine ST7C static excitation system with automatic voltage regulator (R2023a 以降) |
SM ST8C | Discrete-time or continuous-time synchronous machine ST8C static excitation system with automatic voltage regulator (R2023a 以降) |
SM ST9C | Discrete-time or continuous-time synchronous machine ST9C static excitation system with automatic voltage regulator (R2023a 以降) |
Smith Predictor Controller | 離散時間のスミスのデッド タイム補償器 |
Solar PV Controller (Three-Phase) | Solar photovoltaic (PV) grid-following (GF) controller (R2024a 以降) |
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 |
ST1A Excitation System | Implements IEEE type ST1A excitation system model |
ST2A Excitation System | Implements IEEE type ST2A excitation system model |
Stair Generator | Discrete-time or continuous-time stair signal generator (R2020a 以降) |
Stair Generator | 指定された遷移時間で変化する信号を生成 |
State-Feedback Controller | Discrete-time state-feedback controller with integral action |
Steam Turbine and Governor | Model the dynamics of speed governing system, steam turbine, and multimass shaft |
Stepper Motor | Implement stepper motor model |
Supercapacitor | Implement generic supercapacitor model |
SVPWM Generator (2-Level) | SVPWM 制御の 2 レベル コンバーターのパルスを生成する |
SVPWM Generator (3-Level) | Generate pulses for SVPWM-controlled three-level converter |
Switched Reluctance Motor | Model the dynamics of switched reluctance motor |
Symmetrical-Components Transform | Implement abc to +-0 transform |
Synchronous Machine pu Fundamental | Model dynamics of three-phase round-rotor or salient-pole synchronous machine using fundamental parameters in pu units |
Synchronous Machine pu Standard | Model dynamics of three-phase round-rotor or salient-pole synchronous machine using standard parameters in pu units |
Synchronous Machine SI Fundamental | Model dynamics of three-phase round-rotor or salient-pole synchronous machine using fundamental parameters in SI units |
T
THD | 信号の全高調波歪み (THD) を計算 |
Three-Level Bridge | Implement three-level neutral point clamped (NPC) power converter with selectable topologies and power switching devices |
Three-Level NPC Converter | Implement three-phase, three-level Neutral-Point Clamped (NPC) power converter |
Three-Phase Auto Transformer With Tertiary Winding | Three-phase autotransformer with tertiary winding (R2021b 以降) |
Three-Phase Breaker | Implement three-phase circuit breaker opening at current zero crossing |
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 Fault | Implement programmable phase-to-phase and phase-to-ground fault breaker system |
Three-Phase Harmonic Filter | Implement four types of three-phase harmonic filters using RLC components |
Three-Phase Mutual Inductance Z1-Z0 | Implement three-phase impedance with mutual coupling among phases |
Three-Phase OLTC Phase Shifting Transformer Delta-Hexagonal (Phasor Type) | Implement phasor model of three-phase OLTC phase-shifting transformer using delta hexagonal connection |
Three-Phase OLTC Regulating Transformer (Phasor Type) | Implement phasor model of three-phase OLTC regulating transformer |
Three-Phase Parallel RLC Branch | 三相並列 RLC 分岐を実装する |
Three-Phase Parallel RLC Load | Implement three-phase parallel RLC load with selectable connection |
Three-Phase PI Section Line | Implement three-phase transmission line section with lumped parameters |
Three-Phase Programmable Generator | Generate three-phase signal with programmable time variation of amplitude, phase, frequency, and harmonics |
Three-Phase Programmable Voltage Source | Implement three-phase voltage source with programmable time variation of amplitude, phase, frequency, and harmonics |
Three-Phase Series RLC Branch | 三相直列 RLC 分岐を実装 |
Three-Phase Series RLC Load | Implement three-phase series RLC load with selectable connection |
Three-Phase Sine Generator | Generate three-phase balanced signal, amplitude, phase, and frequency controlled by block inputs |
Three-Phase Source | Implement three-phase source with internal R-L impedance |
Three-Phase Tap-Changing Transformer (Three-Windings) | Three-phase tap-changing transformer (R2021b 以降) |
Three-Phase Tap-Changing Transformer (Two-Windings) | Three-phase tap-changing transformer (R2021b 以降) |
Three-Phase Transformer (Three Windings) | Implement three-phase transformer with configurable winding connections |
Three-Phase Transformer (Two Windings) | 構成可能な巻線接続をもつ三相変圧器を実装する |
Three-Phase Transformer 12 Terminals | Implement three single-phase, two-winding transformers where all terminals are accessible |
Three-Phase Transformer Inductance Matrix Type (Three Windings) | Implement three-phase three-winding transformer with configurable winding connections and core geometry |
Three-Phase Transformer Inductance Matrix Type (Two Windings) | Implement three-phase two-winding transformer with configurable winding connections and core geometry |
Three-Phase V-I Measurement | 回路の三相の電流と電圧を測定する |
Thyristor | Implement thyristor model |
Thyristor 12-Pulse Generator | Generate thyristor 12-pulse waveform in single-pulsing mode |
Thyristor 6-Pulse Generator | サイリスタ 6 パルス波形を単一パルス モードで生成 |
Thyristor Rectifier Voltage Controller (Three-Phase) | Discrete-time DC-link voltage PI control for thyristor rectifiers |
Total Harmonic Distortion | Total harmonic distortion measurement (R2019b 以降) |
Triangle Generator | 一定の間隔で対称三角波形を生成 |
Two-Level Converter | Implement three-phase two-level power converter |
Two-Quadrant DC/DC Converter | Implement two-quadrant DC/DC power converter |
U
Universal Bridge | 選択可能なトポロジおよびパワー エレクトロニクス デバイスを使用して汎用電力コンバーターを実装する |
V
Variable Capacitor | Discrete variable capacitor (R2019b 以降) |
Variable Inductor | Discrete variable inductor (R2019b 以降) |
Variable Resistor | 離散可変抵抗 (R2019b 以降) |
Variable-Frequency Second-Order Filter | Discrete-time or continuous-time variable-frequency second-order filter |
Variable-Ratio Transformer | Discrete variable-ratio two-winding ideal transformer (R2019b 以降) |
Velocity Controller | Discrete-time velocity controller |
Voltage Measurement | 回路内の電圧測定 |
Voltage-Current Simscape Interface | Ideal coupling between Simscape Electrical Specialized Power Systems and Simscape electrical circuits |
Voltage-Current Simscape Interface (gnd) | Ideal coupling between Simscape Electrical Specialized Power Systems and Simscape electrical circuits |
W
Washout (Discrete or Continuous) | 離散時間または連続時間のウォッシュアウトまたはハイパス フィルター |
Z
Zigzag Phase-Shifting Transformer | Implement zigzag phase-shifting transformer with configurable secondary winding connection |