Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lecture 61 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Lecture 61 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001."— Presentation transcript:

1 Lecture 61 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001

2 Lecture 62 Maximum Average Power Transfer To obtain the maximum average power transfer to a load, the load impedance (Z L ) should be chosen equal to the complex conjugate of the Thevenin equivalent impedance representing the remainder of the network Z L = R L + j XL = R Th - j X Th = Z Th *

3 Lecture 63 Maximum Average Power Transfer V oc + - Z Th ZLZL Z L = Z Th * Note that ONLY the resistive component of the load dissipates power

4 Lecture 64 Max Power Xfer: Cases

5 Lecture 65 Class Examples Extension Exercise E9.5 Extension Exercise E9.6

6 Lecture 66 Effective or RMS Values Root-mean-square value (formula reads like the name: rms) For a sinusoid:I rms = I M /  2 –For example, AC household outlets are 120 Volts-rms

7 Lecture 67 Why RMS Values? The effective/rms current allows us to write average power expressions like those used in dc circuits (i.e., P=I²R), and that relation is really the basis for defining the rms value The average power (P) is

8 Lecture 68 Class Examples Extension Exercise E9.7 Extension Exercise E9.9 Extension Exercise E9.10

Download ppt "Lecture 61 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001."

Similar presentations

Network Theorems (AC Circuits)

Network Theorems (AC Circuits)
Lecture 131 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 131 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lesson 25 AC Thèvenin Max Power Transfer. Learning Objectives Explain under what conditions a source transfers maximum power to a load. Determine the.

Lesson 25 AC Thèvenin Max Power Transfer. Learning Objectives Explain under what conditions a source transfers maximum power to a load. Determine the.
EEE 302 Electrical Networks II

EEE 302 Electrical Networks II
Lecture 111 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 111 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 161 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 161 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 141 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 141 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 11 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 11 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 31 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 31 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 21 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 21 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 131 Maximum Power Transfer (4.4) Prof. Phillips February 28, 2003.

Lecture 131 Maximum Power Transfer (4.4) Prof. Phillips February 28, 2003.
ECE 201 Circuit Theory I1 Maximum Power Transfer Maximize the power delivered to a resistive load.

ECE 201 Circuit Theory I1 Maximum Power Transfer Maximize the power delivered to a resistive load.
Lecture 241 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 241 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 71 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 71 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 121 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 121 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 81 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 81 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 201 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 201 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 231 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 231 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lecture 41 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 41 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Lect19EEE 2021 AC Power Dr. Holbert April 9, 2008.

Lect19EEE 2021 AC Power Dr. Holbert April 9, 2008.

Similar presentations

Ads by Google