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Chapter 17 Two-Port Networks

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1 Chapter 17 Two-Port Networks
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 (a) A one-port network. Fig A general two-port with terminal voltages and currents… Fig Circuit for Example 17.4. Fig (a,b) Two-ports which are equivalent to any general … Fig The three-terminal D network (a) and the three-terminal… Fig Circuit for Example 17.6. Table Transformations between y, z, h, and t parameters. Chapter 17 Two-Port Networks

2 Fig. 17.1 (a) A one-port network. (b) A two-port network.
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.
A general two-port with terminal voltages and currents specified. The two-port is composed of linear elements, possibly including dependent sources, but not containing any independent sources. Fig A general two-port with terminal voltages and currents specified. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

4 Fig. 17.6 Circuit for Example 17.4.
Find the four short-circuit admittance parameters for the resistive two-port shown below in (a). Fig Circuit for Example 17.4. 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.
Fig (a,b) Two-ports which are equivalent to any general linear two-port. (a, b) Two-ports which are equivalent to any general linear two-port. The dependent source in part a depends on V1, and that in part b depends on V2. (c) An equivalent for a bilateral network. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

6 Copyright ©2002 McGraw-Hill. All rights reserved.
The three-terminal D network (a) and the three-terminal Y network (b) are equivalent if the six impedances satisfy the conditions of the Y-D transformation. Fig The three-terminal D network (a) and the three-terminal Y network (b) are equivalent if the six impedances satisfy the conditions of the Y-D transformation. W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

7 Fig. 17.11 Circuit for Example 17.6.
Find the input resistance of the circuit shown in (a). W.H. Hayt, Jr., J.E. Kemmerly, S.M. Durbin, Engineering Circuit Analysis, Sixth Edition. Copyright ©2002 McGraw-Hill. All rights reserved.

8 Table 17.1 Transformations between y,z,h, and t parameters.
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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