1 ELECTRICAL TECHNOLOGY EET 103/4  Define and explain sine wave, frequency, amplitude, phase angle, complex number  Define, analyze and calculate impedance,

Slides:

Advertisements

Similar presentations

Impedance and Admittance. Objective of Lecture Demonstrate how to apply Thévenin and Norton transformations to simplify circuits that contain one or more.

Advertisements

Chapter 12 RL Circuits.

Fundamentals of Electric Circuits Chapter 10 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Parallel AC Circuits Analysis ET 242 Circuit Analysis II Electrical and Telecommunication Engineering Technology Professor Jang.

1 Sinusoidal Functions, Complex Numbers, and Phasors Discussion D14.2 Sections 4-2, 4-3 Appendix A.

R,L, and C Elements and the Impedance Concept

Lecture 16 AC Circuit Analysis (1) Hung-yi Lee. Textbook Chapter 6.1.

Lesson 20 Series AC Circuits. Learning Objectives Compute the total impedance for a series AC circuit. Apply Ohm’s Law, Kirchhoff’s Voltage Law and the.

Chapter 15 – Series & Parallel ac Circuits Lecture (Tutorial) by Moeen Ghiyas 14/08/

ELECTRIC CIRCUIT ANALYSIS - I

Lecture 27 Review Phasor voltage-current relations for circuit elements Impedance and admittance Steady-state sinusoidal analysis Examples Related educational.

Chapter 10 Sinusoidal Steady-State Analysis

ES250: Electrical Science

A sinusoidal current source (independent or dependent) produces a current That varies sinusoidally with time.

Series and Parallel AC Circuits By Asst. Professor Dhruba Shankar Ray For: B Sc Electronics I st Year.

Series and Parallel ac Circuits.

Fundamentals of Electric Circuits Chapter 10 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

ERT 105: Basic Electrical Technology AZRALMUKMIN BIN AZMI.

Fundamentals of Electric Circuits Chapter 9

Chapter 15 – Series & Parallel ac Circuits Lecture 19 by Moeen Ghiyas 11/10/

Fundamentals of Electric Circuits Chapter 9 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

1 ECE 3336 Introduction to Circuits & Electronics Note Set #10 Phasors Analysis Fall 2012, TUE&TH 4:00-5:30 pm Dr. Wanda Wosik.

RLC Series and Parallel Circuit Department of Electrical Engineering BY:- Shah Krishnaji Patel Daxil Patel Dakshit Patil Parita S. Panchal Swapnil Guided.

Overview of Impedance and Phases of RC Circuits for AC Sources….w/ Examples! PHY230 – Electronics Prof. Mitchell.

AC Series-Parallel Circuits Chapter 18. AC Circuits 2 Rules and laws developed for dc circuits apply equally well for ac circuits Analysis of ac circuits.

1 ELECTRICAL CIRCUIT ET 201  Define and explain phasors, time and phasor domain, phasor diagram.  Analyze circuit by using phasors and complex numbers.

Fundamentals of Electric Circuits Chapter 9

1 ELECTRICAL TECHNOLOGY EET 103/4  Define and explain sine wave, frequency, amplitude, phase angle, complex number  Define, analyze and calculate impedance,

1 ELECTRICAL TECHNOLOGY ET 201  Define series impedances and analyze series AC circuits using circuit techniques.

Sinusoids and Phasors Instructor: Chia-Ming Tsai

1 ELECTRICAL TECHNOLOGY EET 103/4  Define and explain sine wave, frequency, amplitude, phase angle, complex number  Define, analyze and calculate impedance,

1 ELECTRICAL TECHNOLOGY EET 103/4  Explain and analyze series and parallel circuits  Explain, derive and analyze Ohm’s Law, Kirchhoff Current Law, Kirchhoff.

EET 103: Basic Electrical Technology

Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 Chapter 10 Sinusoidal Steady- State Analysis.

CHAPTER I APPLICATION OF CIRCUIT LAWS. 2 Introduction Generally, we require 3 steps to analyze AC Circuit Transform the circuit to the phasor / frequency.

Circuit Theorems ELEC 202 Electric Circuit Analysis II.

Series and Parallel.  a single resistance that can replace all the resistances in an electrical circuit while maintaining the same current when connected.

SINUSOIDAL STEADY-STATE ANALYSIS – SINUSOIDAL AND PHASOR

1 ELECTRICAL TECHNOLOGY EET 103/4  Explain and analyze series and parallel circuits  Explain, derive and analyze Ohm’s Law, Kirchhoff Current Law, Kirchhoff.

Series and Parallel ac Circuits.

1 ELECTRICAL TECHNOLOGY EET 103/4 LECTURERS / TEACHING ENGINEERS: LATIFAH MOHAMED MUHAMMAD IRWANTO SALSABILA AHMAD.

1 ECE 3144 Lecture 32 Dr. Rose Q. Hu Electrical and Computer Engineering Department Mississippi State University.

Complex Impedances Sinusoidal Steady State Analysis ELEC 308 Elements of Electrical Engineering Dr. Ron Hayne Images Courtesy of Allan Hambley and Prentice-Hall.

CHAPTER 2: DC Circuit Analysis and AC Circuit Analysis Motivation Sinusoids’ features Phasors Phasor relationships for circuit elements Impedance and admittance.

A sinusoidal current source (independent or dependent) produces a current That varies sinusoidally with time.

Chapter 10 RC Circuits.

Chapter 9 Sinusoids and Phasors

RC Circuits (sine wave)

Chapter 12 RL Circuits.

12.1 Introduction This chapter will cover alternating current.

Chapter 9 Sinusoids and Phasors

ELECTRICAL TECHNOLOGY EET 103/4

Chapter 7 Sinusoidal Steady-State Analysis

Lesson 18: Series-Parallel AC Circuits

Week 11 Force Response of a Sinusoidal Input and Phasor Concept

ECE 3301 General Electrical Engineering

Sinusoidal Functions, Complex Numbers, and Phasors

Chapter 2: Single-Phase Circuits

ECE 3301 General Electrical Engineering

Thévenin and Norton Transformation

CHAPTER 4 AC Network Analysis.

Modeling in the Frequency Domain

Chapter 10 – AC Circuits Recall: Element Impedances and Admittances

Chapter 10 – AC Circuits Recall: Element Impedances and Admittances

Fundamentals of Electric Circuits Chapter 10

3/16/2015 Hafiz Zaheer Hussain.

Chapter 9 – Sinusoids and Phasors

UNIT-1 Introduction to Electrical Circuits

Chapter 9 – Sinusoids and Phasors

INC 111 Basic Circuit Analysis

Presentation transcript:

1 ELECTRICAL TECHNOLOGY EET 103/4  Define and explain sine wave, frequency, amplitude, phase angle, complex number  Define, analyze and calculate impedance, inductance, phase shifting  Explain and calculate active power, reactive power, power factor  Define, explain, and analyze Ohm’s law, KCL, KVL, Source Transformation, Thevenin theorem.

2 (CHAPTER 15) SERIES AND PARALLEL AC CIRCUITS

Parallel ac Networks  In a parallel ac network the total impedance or admittance is determined, then the source current is determined by Ohm’s law: where;

Parallel ac Networks where; and; By Ohm’s law;

Parallel ac Networks Power to the network; where  T is the phase difference between E and I. By Kircchoff’s current law;

Parallel ac Networks R-LR-L Time domain: Phasor (frequency) domain:

Parallel ac Networks R-LR-L

8 R-LR-L

9 R-LR-L

Parallel ac Networks R-LR-L Admittance diagram;

Parallel ac Networks R-LR-L

Parallel ac Networks R-LR-L (KCL)

Parallel ac Networks R-LR-L Phasor diagram; Power;

Parallel ac Networks R-LR-L Power factor;

Parallel ac Networks R-CR-C Time domain: Phasor (frequency) domain:

Parallel ac Networks R-CR-C

Parallel ac Networks R-CR-C Admittance diagram;

Parallel ac Networks R-CR-C

Parallel ac Networks R-CR-C

Parallel ac Networks R-CR-C

Parallel ac Networks R-CR-C (KCL)

Parallel ac Networks R-CR-C Phasor diagram;

Parallel ac Networks R-CR-C Waveform;

Parallel ac Networks R-CR-C Power factor; Power;

Current Divider Rule The basic format for the current divider rule in ac circuits is exactly the same as that for dc circuits; that is, for two parallel branches with impedances Z 1 and Z 2 :

Current Divider Rule Example Using current divider rule, find the current through each branch:

Current Divider Rule Example – solution

Current Divider Rule Example – solution (cont’d) By current divider rule;

Current Divider Rule Example – solution (cont’d) By current divider rule;