Energy transformation without using filter on high resistive load

Can, Erol

doi:10.30765/er.40.1.06

Cited by 4 publications

(2 citation statements)

References 9 publications

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“…Different from some studies in [16,17,18,19]; the current, torque, and voltage on the load can also be controlled with amplitudes in the time axis. So, the multi-level inverter structure used to drive alternating loads in some studies in [20,21,22] is used for the first time to drive dc motor in this study. At the same time, when this inverter structure is used, the proposed circuit will not have passive elements used by converters, insufficiencies such as insulation, high heating, and coil effect in driving loads that require high current will be eliminated.…”

Section: Introductionmentioning

confidence: 99%

Scheduling of Flow Shop Production Systems with Particle Swarm Optimization

Can

2021

Tecciencia

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DC motor control with switching methods is an interesting devise with many practical applications. A DC-DC buck-boost converter is one of the methods used to operate the DC motor. Although the-DC buck-boost converter for dc motor applications has been widely studied, they have some handicaps. In this study, the multi-level inverter structure that is different from the methods of DC motor driving is used to drive the DC motor. There will be no passive elements in the proposed circuit although the dc-dc converters have passive elements. So, while the inadequacies for the loads needing high current will be eliminated, the handicaps of the switching can be avoided. Current, torque, and voltage on the load will also be created by Pulse Width Amplitude Method (PWAM). As a different from other Pulse width modulation methods (PWM); the torque, current, and voltage of the motor can be controlled with PWAM in the horizontal and vertical axes. In the design stage; inverter switch structure and operation are given after the method of produced PWMs introduced. The equations of the voltages that will occur in the loads are created according to the working structure of the switches. DC motor structure is also given. In the simulation stage; Continuous and discontinuous modes of the proposed circuit are performed. Then torque of dc motor, armature current and speed are tested according to switching at different frequencies and different modulation indices.

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Section: Introductionmentioning

confidence: 99%

Scheduling of Flow Shop Production Systems with Particle Swarm Optimization

Can

2021

Tecciencia

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“…For off‐grid appliances, the dc output of the PV has to be converted into ac at the desired output voltage and frequency. The major challenges to be addressed during the implementation of PV‐based off‐grid schemes are as follows [5–10]: (i) efficient dc to ac power conversion from PV and/or battery with voltage boosting; (ii) maximum power point tracking (MPPT) control of the PV array; (iii) proper protection of the battery and charge control; and (iv) regulation of ac voltage and the frequency at the load side.…”

Section: Introductionmentioning

confidence: 99%