Jafferi Jamaludin scite author profile

This study presents a multilevel voltage source inverter that has been designed to reduce circuit complexity by optimising the use of bidirectional switches. The proposed inverter is built by adding an auxiliary circuit comprising an arrangement of bidirectional switches to the three-phase, six-switch, full-bridge configuration. Several bidirectional switches are made to function in the optimised mode in which their operations are divided among the three phases. The presence of the optimised mode considerably reduces the number of power switches as the number of levels in the line-to-line voltage waveform increases. A novel modulation scheme based on space vector concept with virtual vectors utilisation has also been developed. A detailed study of the proposed inverter is described through the example of a five-level structure. The performance of the proposed inverter is analysed through MATLAB/SIMULINK simulation and verified via the practical tests conducted on a laboratory prototype with a DSP-based controller. A comparison is also made against classical multilevel inverters to complete the analysis.

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An Elevator Group Control System With a Self-Tuning Fuzzy Logic Group Controller

Jamaludin

Rahim

Hew

2010

IEEE Trans. Ind. Electron.

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Development of a self-tuning fuzzy logic controller for intelligent control of elevator systems

Jamaludin

Rahim

Hew

2009

Engineering Applications of Artificial Intelligence

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New Three-Phase Multilevel Inverter with Shared Power Switches

Ping¹,

Rahim²,

Jamaludin³

2013

Journal of Power Electronics

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Despite the advantages offered by multilevel inverters, one of the main drawbacks that prevents their widespread use is their circuit complexity as the number of power switches employed is usually high. This paper presents a new multilevel inverter topology with a considerable reduction in the number of power switches used through the switch-sharing approach. The fact that the proposed inverter applies two bidirectional power switches for sharing among the three phases does not prevent it from producing seven levels in the line-to-line output voltage waveforms. A modified scheme of space vector modulation via the application of virtual voltage vectors is developed to generate the PWM signals of the power switches. The performance of the proposed inverter is investigated through MATLAB/SIMULINK simulations and is practically tested using a laboratory prototype with a DSP-based modulator. The results demonstrate the satisfactory performance of the inverter and verify the effectiveness of the modulation method.

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Photovoltaic Flyback Microinverter With Tertiary Winding Current Sensing

Za’im

Jamaludin

Rahim

2019

IEEE Trans. Power Electron.

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