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Duty Cycle
Voltage regulators, such as buck and boost converters, use duty cycle control. It contributes to the stability of the output voltage by
Model Predictive Voltage Control with Optimal Duty Cycle for
Flowchart of the pro-posed MPVC with duty cycle optimization for obtaining the optimal output voltage vector and their optimal durations is illustrated in Figure 4.
Duty Cycle
Voltage regulators, such as buck and boost converters, use duty cycle control. It contributes to the stability of the output voltage by altering the duty cycle based on the input
A unified duty-cycle modulation algorithm for a three-level NPC inverter
In this article, the unification between the duty cycles in time-domain and the duty cycles in frequency-domain is proposed to modulate the three-level NPC PWM inverter, as
Discrete Duty Cycle Control for Single-Phase Voltage Source Inverter
Since steady-state error exists in the output voltage of a proportional-integral (PI) controlled single-phase voltage source inverter (SP-VSI), the bandwidth of
Discrete Duty Cycle Control for Single-Phase Voltage Source
Since steady-state error exists in the output voltage of a proportional-integral (PI) controlled single-phase voltage source inverter (SP-VSI), the bandwidth of
Voltage source inverter
This example introduces the working principles of a three-phase voltage source inverter and presents a simple technique to
Duty Cycle Computation for Inverters
The duty cycle of an inverter is the fraction of time that the output voltage is at its peak value. It is an important parameter in the control of inverters, as it affects the output
A Dual-Vector Modulated Model Predictive Control Method
To address this issue, a dual-vector modulated MPC method is presented, where two voltage vectors are selected and utilized to control the voltage source inverter in every control cycle.
Voltage source inverter
This example introduces the working principles of a three-phase voltage source inverter and presents a simple technique to generate alternating currents in an open-loop
Average-Value Inverter
The Average-Value Inverter block models an average-value and full-wave inverter. It computes the three-phase AC voltage output from inverter DC voltage by using the duty cycle information.
A unified duty-cycle modulation algorithm for a three-level NPC
In this article, the unification between the duty cycles in time-domain and the duty cycles in frequency-domain is proposed to modulate the three-level NPC PWM inverter, as
voltage
More importantly, with a duty cycle of 0.617 the peak voltage of the waveform is still in the permissible range, so devices depending on the peak voltage should work.
H-Bridge Inverter Circuit
This demonstration shows a voltage source inverter (VSI) realized with generic switches. The three available output voltage levels are cyclically applied to an RL load.
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