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16 - EEE - Electrical & Electronics Engineering


EEE 101 - Electrical Circuits Fundamentals

Code Start Date Duration Venue Fees
EEE 101 06 December 2020 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 03 January 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 28 February 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 28 March 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 25 April 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 23 May 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 20 June 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 15 August 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 12 September 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 10 October 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 07 November 2021 5 Days Istanbul $ 3950 Registration Form Link
EEE 101 05 December 2021 5 Days Istanbul $ 3950 Registration Form Link
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Course Description

The Fundamentals of Electric Circuits course provides the participants with an understanding of the concepts and techniques in the characterization of electrical circuits and their components. This course  introduces the participants to the basic concepts of  current, voltage, power, electromagnetism, basic lows and theorems for the analysis of electric circuits. Pulse-response and resonance are also covered. 

Course Objectives

  • Understanding fundamental circuit analysis techniques
  • Being familiar with circuit equivalence and modeling
  • Being able to develop physical insight and intuition for problem solving
  • Learning how to different simulators

Who Should Attend?

  • Maintenance supervisors
  • Plant engineers
  • Electricians
  • Plant mechanics
  • Service technicians
  • Contractors
  • Energy auditors
  • Layout professionals 

Course Details/Schedule

Day 1

  • Units and notation, basic electric quantities
  • Electric signals and circuits
  • Kirchhoff's laws
  • Circuit elements and sources
  • Resistance, series and parallel combinations
  • Basic resistive circuits
  • Practical sources and loading
  • Introduction to digital circuits simulators

Day 2

  • Circuit solution by inspection
  • Nodal analysis
  • Loop analysis
  • The superposition principle
  • Source transformations
  • One-ports
  • Circuit theorems
  • Circuit theorem applications

Day 3

  • Power calculations (using computer programs)
  • Dependent sources
  • Circuit analysis with dependent sources
  • The ideal transformer
  • Amplifier concepts (using computer programs)
  • The operational amplifier, the Op amp rule
  • Summing and difference amplifiers

Day 4

  • Instrumentation amplifiers and I-V converters
  • V-I converters, current amps (using computer programs)
  • Capacitance and inductance
  • Natural response
  • Response to DC and AC forcing functions
  • Basic RC and RL circuits
  • Transients in First-Order networks
  • RC circuits using Op amps (using computer programs)
  • Sinusoids and phasors

Day 5

  • AC responses of the basic elements
  • Time-domain analysis of first-order AC circuits
  • Phasor algebra
  • Phasor algebra applications
  • AC impedance
  • Frequency-domain analysis
  • AC circuits using Op Amps (using computer programs)
  • AC power and maximum power transfer