Farhan A. Salem scite author profile

This paper presents a new boost inverter topology with nine level output voltage waveform using a single dc source and two switched capacitors. The capacitor voltages are self-balancing and thus is devoid of any sensors and auxiliary circuitry. The output voltage is twice higher than the input voltage, which eliminates the need for an input dc boost converter especially when the inverter is powered from a renewable source. The merits of the proposed topology in terms of the number of devices and cost are highlighted by comparing the recent and conventional inverter topologies. In addition to this, the total voltage stress of the proposed topology is lower and have a maximum efficiency of 98.25%. The operation and dynamic performance of the proposed topology have been simulated using PLECS software and are validated using an experimental setup considering a different dynamic operation. INDEX TERMS Multilevel inverter, nine-level inverter, step-up inverter, switched capacitor, reduce switch count.

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An Antilock-Braking Systems (ABS) Control: A Technical Review

Aly¹,

Zeidan²,

Hamed³

et al. 2011

ICA

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Many different control methods for ABS systems have been developed. These methods differ in their theoretical basis and performance under the changes of road conditions. The present review is a part of research project entitled “Intelligent Antilock Brake System Design for Road-Surfaces of Saudi Arabia” In the present paper we review the methods used in the design of ABS systems. We highlight the main difficulties and summarize the more recent developments in their control techniques. Intelligent control systems like fuzzy control can be used in ABS control to emulate the qualitative aspects of human knowledge with several advantages such as robustness, universal approximation theorem and rule-based algorithms

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Modeling, Simulation and Dynamics Analysis Issues of Electric Motor, for Mechatronics Applications, Using Different Approaches and Verification by MATLAB/Simulink

Mahfouz¹,

Mohammed²,

Salem³

2013

IJISA

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The accurate control of motion is a fundamental concern in mechatronics applicat ions, where placing an object in the exact desired location with the exact possible amount of force and torque at the correct exact t ime is essential for efficient system operation. An accurate modeling, simu lation and dynamics analysis of actuators for mechatronics motion control applications is of big concern. The u ltimate goal of this paper addresses different approaches used to derive mathematical models, building corresponding simu lin k models and dynamic analysis of the basic open loop electric DC motor system, used in mechatronics motion control applications, particularly, to design, construct and control of a mechatronics robot arm with single degree of freedo m, and verification by MATLAB/Simu link. To simplify and accelerate the process of DC motors sizing, selection, dynamic analysis and evaluation for different motion applications, different mathemat ical models in terms of output position, speed, current, acceleration and torque, as well as corresponding simulink models, supporting MATLAB m.file and general function block models are to be introduced. The introduced models were verified using MATLAB/ Simu link. These models are intended for research purposes as well as for the application in educational process. This paper is part I of writers' research about mechatronics motion control, the ultimate goal of this research addresses design, modeling, simulation, dynamics analysis and controller selection and design issues, of mechatronics single joint robot arm. where a electric DC motor is used and a control system is selected and designed to move a Robot arm to a desired output position, θ corresponding to applied input voltage, V in and satisfying all required design specifications.

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A Comparison Between MPC and Optimal PID Controllers: Case Studies

Salem¹,

Mosaad²

2015

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General Mathematical Solution for Selective Harmonic Elimination

Ahmed

Orabi

Ghoneim

et al. 2020

IEEE J. Emerg. Sel. Topics Power Electron.

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Farhan A. Salem

A Single DC Source Nine-Level Switched-Capacitor Boost Inverter Topology With Reduced Switch Count

An Antilock-Braking Systems (ABS) Control: A Technical Review

Modeling, Simulation and Dynamics Analysis Issues of Electric Motor, for Mechatronics Applications, Using Different Approaches and Verification by MATLAB/Simulink

A Comparison Between MPC and Optimal PID Controllers: Case Studies

General Mathematical Solution for Selective Harmonic Elimination

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