MUHAMMAD SAAD SALEEM

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MUHAMMAD SAAD SALEEM

Class of 2020
BS Electrical Engineering
Minor: Mathematics
ms02213@alumni.habib.edu.pk
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Aspiration Statement

I want to pursue my postgraduate studies in Power Engineering which is focused at improving the power quality of systems. As a career, I am inclined towards research and development in this field. My other passions include exploring new knowledge, and skills and travelling.

Core Skills

  • Modeling and Analysis - MATLAB, Proteus, OrCAD, PSpice
  • Programming Language - PLC Programming, C++, Python, C#
  • Software & Tools - Adobe Photoshop, LaTeX, MS Offce
  • Printed Circuit Board (PCB) Design
  • Proteus Design Suite

Academic Awards / Achievements

  • Universität Rostock Master of Science - MS Electrical Engineering

Experience

Leadership / Meta-curricular

  • Circuit Design at Habib University - CODE.PLAY(2.0) - Event Head
  • Omicron - Director Logistics HU
  • Habib University - Model United Nation Deputy - Director Logistics
  • FPS - Balance Club (Mathematics Society) Vice-Chairperson

Internship / Volunteer Work

  • GATRON (Industries) Ltd. - Intern
  • Habib University - Teaching Assistant
  • Summit Engineering - Device Engineer
  • Studentische Wissenschaftliche Hilfskraft - Universität Rostock

Publications / Creative Projects

  • Analyzing Data Transmission from Sensor Network Through RF-Channel: The objective of this project was to develop a system prototype that is able to transmit sensory information i.e. humidity, temperature, and pressure from a remote location to a main station, and to analyze the power required to transmit data at different distances.
  • Motor Starting Techniques Using PLC: The objective of this project was to design two of the most commonly used motor starting techniques using PLC. Reducing Resistance DC Starter for DC motors and StarDelta Reducing Voltage for three phase induction motor was implemented using Mitsubishi FX3U PLC.

Final Year Project

Project Title

Designing Filter for Variable Frequency Drives (VFDs)

Description

Variable Frequency Drives (VFDs), using power electronics produce large harmonic currents, which are to be suppressed to maintain power quality in electrical distribution systems. To avoid malfunctioning or damage to other electrical and electronic equipment such as motors, fuses and capacitor banks are connected to the supply network. This is an Industrial project which aims to devise a general methodology for designing passive filters to suppress the undesirable harmonic content produced by VFDs. Furthermore, a detailed design and implementation of 3 phase line reactor, one major component of the filter, is also a part of this project. The objective is to meet IEEE Standard 519-2014 by designing filters using our devised analytical procedure. IEEE Standard 519-2014 provides guidelines for recommended harmonic levels in electrical distribution systems including maximum voltage and current distortions. (Group Project)

Project Pictures