Presentation is loading. Please wait.

Presentation is loading. Please wait.

EE 221 Review 2 Nodal and Mesh Analysis Superposition Source transformation Thevenin and Norton equivalent Operational Amplifier.

Published byFrancis Snow Modified over 9 years ago

Similar presentations

Presentation on theme: "EE 221 Review 2 Nodal and Mesh Analysis Superposition Source transformation Thevenin and Norton equivalent Operational Amplifier."— Presentation transcript:

1 EE 221 Review 2 Nodal and Mesh Analysis Superposition Source transformation Thevenin and Norton equivalent Operational Amplifier

2 Nodal Analysis - Approach 1.Redraw circuit to emphasize nodes. 2.Assign reference node and voltages. N nodes result in N-1 unknown voltages. 3.Use KCL to find N-1 equations. 4.Relate dependent sources to node voltages. 5.Form supernode to enclose voltage sources and apply KCL. Add voltage equations.

3 Nodal analysis - Example KCL requires that all currents flowing into the region must sum to zero, or we would pile up or run out of electrons. At node 1: (KCL) At the “supernode:” (KCL) At the “supernode:” (KVL)

4 Nodal analysis - Example Independent voltage source (supernode containing reference) v 1 = -12 (I) (II) (III) variables

5 Mesh analysis - approach 1.Redraw planar circuit to emphasize meshes. 2.Assign clockwise mesh currents. M meshes result in M unknown currents. 3.Apply KVL around each mesh. 4.Relate dependent sources to mesh currents. 5.Use supermesh for current source shared between two meshes. Add current equation.

6 Mesh analysis - Example Creating a “supermesh” from meshes 1 and 3: -7 + 1 ( i 1 - i 2 ) + 3 ( i 3 - i 2 ) + 1 i 3 = 0 [1] Around mesh 2: 1 ( i 2 - i 1 ) + 2 i 2 + 3 ( i 2 - i 3 ) = 0[2] Rearranging, i 1 - 4 i 2 + 4 i 3 = 7[1] -i 1 + 6 i 2 - 3 i 3 = 0[2] i 1 - i 3 = 7[3] Solving, i 1 = 9 A, i 2 = 2.5 A, and i 3 = 2 A. Finally, we relate the currents in meshes 1 and 3: i 1 - i 3 = 7[3]

7 Circuit analysis (a) A voltage source set to zero acts like a short circuit. (b) A current source set to zero acts like an open circuit.

8 Superposition (a) Linear circuits allow superposition. (b) Keep only one independent source at a time activate. (c) Always keep dependent sources.

9 Source transformation A general practical voltage source connected to a load resistor R L. A general practical current source connected to a load resistor R L. Convert between the two - Sources are related by: R S = R p, and Vs = R s I s = R p I s Useful when asked for: Maximum terminal voltage (v s ) and/or current (i s ) (Maximum) power transferred (P L = v L i L when R L = R s )

10 Thevenin and Norton "Dead" network to find equivalent source resistance R TH and R N Open loop voltage to determine V TH (any method) Short circuit current determines I N

11 Thenenin - Example Open loop voltage to determine V TH and short circuit current determines I N Find equivalent source resistance R TH and R N use "Dead" network use R TH = R N = V TH / I N (the only way in case of dependent sources) Source transformation is used here.

12 Operational Amplifier (a) Electrical symbol. (b) “Minimum" op amp. Ideal: (1) No input current. (2) No voltage difference between input terminals. Neglected: (1) Output voltage saturation. (2) Input/output resistance. (3) Limited open loop gain. (4) Input bias current. (5) Input offset voltage.

13 Operational Amplifier - Circuits Op amp connected as an Inverting amplifier. V out = - (R f / R 1 ) V in Output characteristics. 1st step: Determine voltage at input terminals 2nd step: Determine current i 3rd step: Find output voltage v out

14 Operational Amplifier - Circuits (c) (a) An op amp used to construct a noninverting amplifier circuit. (b) Circuit with currents and voltages labeled. (c) Output characteristics. V out = (1 + R f / R 1 ) V in

15 OpAmp - Example a b c d Your choice: Nodal analysis and/or superposition v out = -R b /R c v 1 + R d (R a +R b ) / (R a (R c +R d )) v 2 Difference amplifier

Download ppt "EE 221 Review 2 Nodal and Mesh Analysis Superposition Source transformation Thevenin and Norton equivalent Operational Amplifier."

Similar presentations

© The McGraw-Hill Companies, Inc. 2000 McGraw-Hill 1 PRINCIPLES AND APPLICATIONS OF ELECTRICAL ENGINEERING THIRD EDITION G I O R G I O R I Z Z O N I C.

© The McGraw-Hill Companies, Inc McGraw-Hill 1 PRINCIPLES AND APPLICATIONS OF ELECTRICAL ENGINEERING THIRD EDITION G I O R G I O R I Z Z O N I C.
EE2010 Fundamentals of Electric Circuits Lecture - 6 Voltage Sources, Current Sources, Mesh Analysis.

EE2010 Fundamentals of Electric Circuits Lecture - 6 Voltage Sources, Current Sources, Mesh Analysis.
Lecture #24 Review for Exam #2

Lecture #24 Review for Exam #2
1 ECE 3144 Lecture 21 Dr. Rose Q. Hu Electrical and Computer Engineering Department Mississippi State University.

1 ECE 3144 Lecture 21 Dr. Rose Q. Hu Electrical and Computer Engineering Department Mississippi State University.
Lecture 81 Loop (Mesh) Analysis (3.2) Prof. Phillips February 17, 2003.

Lecture 81 Loop (Mesh) Analysis (3.2) Prof. Phillips February 17, 2003.
Fundamentals of Electric Circuits Chapter 10 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Fundamentals of Electric Circuits Chapter 10 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
LectR1EEE 2021 Exam #1 Review Dr. Holbert February 18, 2008.

LectR1EEE 2021 Exam #1 Review Dr. Holbert February 18, 2008.
LECTURE 2.

LECTURE 2.
Introduction to the OP AMP

Introduction to the OP AMP
ECE 201 Circuit Theory I1 Introduction to the Operational Amplifier μA 741 OP AMP.

ECE 201 Circuit Theory I1 Introduction to the Operational Amplifier μA 741 OP AMP.
ECE201 Lect-101 Loop (Mesh) Analysis (3.2) Dr. Holbert February 27, 2006.

ECE201 Lect-101 Loop (Mesh) Analysis (3.2) Dr. Holbert February 27, 2006.
Announcements First Assignment posted: –Due in class in one week (Thursday Sept 15 th )

Announcements First Assignment posted: –Due in class in one week (Thursday Sept 15 th )
EECS 42, Spring 2005Week 3a1 Announcements New topics: Mesh (loop) method of circuit analysis Superposition method of circuit analysis Equivalent circuit.

EECS 42, Spring 2005Week 3a1 Announcements New topics: Mesh (loop) method of circuit analysis Superposition method of circuit analysis Equivalent circuit.
Methods of Analysis PSUT 1 Basic Nodal and Mesh Analysis Al-Qaralleh.

Methods of Analysis PSUT 1 Basic Nodal and Mesh Analysis Al-Qaralleh.
1 Exam 1 Review Chapters 1, 2, 9. 2 Charge, q Recall Coulomb’s Law Unit: Newton meter 2 / coulomb 2 volt meter / coulomb Charge on an electron (proton)

1 Exam 1 Review Chapters 1, 2, 9. 2 Charge, q Recall Coulomb’s Law Unit: Newton meter 2 / coulomb 2 volt meter / coulomb Charge on an electron (proton)
Lecture 281 Loop Analysis. Lecture 282 Loop Analysis Nodal analysis was developed by applying KCL at each non-reference node. Loop analysis is developed.

Lecture 281 Loop Analysis. Lecture 282 Loop Analysis Nodal analysis was developed by applying KCL at each non-reference node. Loop analysis is developed.
ECE201 Exam #2 Review1 Exam #2 Review Dr. Holbert March 27, 2006.

ECE201 Exam #2 Review1 Exam #2 Review Dr. Holbert March 27, 2006.
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 Chapter 4 Basic Nodal and Mesh Analysis.

Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 Chapter 4 Basic Nodal and Mesh Analysis.
3. ANALYSIS TECHNIQUES CIRCUITS by Ulaby & Maharbiz All rights reserved. Do not reproduce or distribute. © 2013 National Technology and Science Press.

3. ANALYSIS TECHNIQUES CIRCUITS by Ulaby & Maharbiz All rights reserved. Do not reproduce or distribute. © 2013 National Technology and Science Press.
1 Chapter 3 Methods of Analysis Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

1 Chapter 3 Methods of Analysis Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Similar presentations

Ads by Google