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Chapter 7 Capacitors and Inductors

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1 Chapter 7 Capacitors and Inductors
Engineering Circuit Analysis Sixth Edition W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin Copyright © McGraw-Hill, Inc. All Rights Reserved. User Note: Run View Show under the Slide Show menu to enable slide selection. Fig Electrical symbol and current-voltage … for a capacitor. Fig. 7.3 (a) The current waveform applied to a 5-mF capacitor. Fig (and 7.6) From Example 7.2. Fig Electrical symbol and current-voltage …for an inductor. Fig Circuit for Example 7.6. Fig (and 7.19) Inductor combinations. Figs (and 7.21) Capacitor combinations. Fig An ideal op amp connected as an integrator. Fig An ideal op amp connected as a differentiator. Chapter 7 Capacitors and Inductors

2 Copyright ©2002 McGraw-Hill. All rights reserved.
Fig Electrical symbol and current-voltage conventions for a capacitor. Electrical symbol and current-voltage conventions for a capacitor. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

3 Copyright ©2002 McGraw-Hill. All rights reserved.
Find the capacitor voltage that is associated with the current shown graphically below. C = 5 mF Fig. 7.3 (a) The current waveform applied to a 5-mF capacitor. (b) The resultant voltage waveform obtained by graphical integration. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

4 Copyright ©2002 McGraw-Hill. All rights reserved.
Find the maximum energy stored in the capacitor of the circuit below, and the energy dissipated in the resistor over the interval 0 < t < 500 ms. Fig. 7.5 and 7.6 From Example 7.2. Graph of capacitor energy as a function of time. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

5 Copyright ©2002 McGraw-Hill. All rights reserved.
Electrical symbol and current-voltage conventions for an inductor. Fig Electrical symbol and current-voltage conventions for an inductor. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

6 Fig. 7.16 Circuit for Example 7.6
Find the maximum energy stored in the inductor of the circuit below. Fig Circuit for Example 7.6 W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

7 Figs. 7.18 and 7.19 Inductor combinations.
(a) N inductors connected in series; (b) equivalent circuit; (c) N inductors connected in parallel; (d) equivalent circuit for circuit in (c). Figs and 7.19 Inductor combinations. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

8 Figs. 7.20 and 7.21 Capacitor combinations.
(a) N capacitors connected in series; (b) equivalent circuit; (c) N capacitors connected in parallel; (d) equivalent circuit to (c). Figs and 7.21 Capacitor combinations. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

9 Fig. 7.27 An ideal op amp connected as an integrator.
W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

10 Fig. 7.28 An ideal op amp connected as a differentiator.
W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

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