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Chapter 5 Useful Circuit Analysis Techniques Engineering Circuit Analysis Sixth Edition W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin Copyright © 2002 McGraw-Hill, Inc. All Rights Reserved. User Note: Run View Show under the Slide Show menu to enable slide selection. Fig. 5.1 A circuit with two independent current sources. Fig. 5.2(a) A voltage source set to zero acts like a short circuit… Fig. 5.3 Circuit from Example 5.1 (Superposition Example). Fig. 5.6 Circuit from Example 5.3 (Superposition Example). Fig. 5.13 (and 5.14) Practical sources. Fig. 5.21 (a) A complex network including a load resistor R L. Fig. 5.22 Figs. from Example 5.6 (Thévenin/ Norton Equivalents). Fig. 5.30 Circuit from Example 5.10.
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Fig. 5.1 A circuit with two independent current sources. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved. A circuit with two independent current sources.
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Fig. 5.2 (a) A voltage source set to zero acts like a short circuit.l (b) A current source set to zero acts like an open circuit. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved. (a) A voltage source set to zero acts like a short circuit. (b) A current source set to zero acts like an open circuit.
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Fig. 5.3 Circuit from Example 5.1 (Superposition Example) W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved. Use superposition to find the current i x.
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Fig. 5.6 Circuit from Example 5.3 (Superposition Example). W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved. Use superposition to find the current i x.
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Figs. 5.13 and 5.14: Practical sources. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved. (a)A general practical voltage source connected to a load resistor R L. (b) The terminal characteristics compared to an ideal source. (a)A general practical current source connected to a load resistor R L. (b) The terminal characteristics compared to an ideal source.
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Source Transformations
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Fig. 5.21 (a) A complex network including a load resistor R L. (b) A Thévenin equivalent network connected to R L. (c) A Norton equivalent network connected to R L. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved. (a) A complex network including a load resistor R L. (b) A Thévenin equivalent network connected to R L. (c) A Norton equivalent network connected to R L.
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Fig. 5.22 Figures from Example 5.6 (Thévenin/ Norton Equivalents). W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved. Determine the Thévenin and Norton Equivalents of Network A in (a).
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Fig. 5.30 Circuit from Example 5.10. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved. Find the Thévenin equivalent of the circuit shown in (a).
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