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1 Single-Time-Constant Circuits. Microelectronic Circuits - Fifth Edition Sedra/Smith2 Copyright  2004 by Oxford University Press, Inc. Figure D.1 The.

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Presentation on theme: "1 Single-Time-Constant Circuits. Microelectronic Circuits - Fifth Edition Sedra/Smith2 Copyright  2004 by Oxford University Press, Inc. Figure D.1 The."— Presentation transcript:

1 1 Single-Time-Constant Circuits

2 Microelectronic Circuits - Fifth Edition Sedra/Smith2 Copyright  2004 by Oxford University Press, Inc. Figure D.1 The reduction of the circuit in (a) to the STC circuit in (c) through the repeated application of Thévenin’s theorem.

3 Microelectronic Circuits - Fifth Edition Sedra/Smith3 Copyright  2004 by Oxford University Press, Inc. Figure D.2 Circuit for Example D.2.

4 Microelectronic Circuits - Fifth Edition Sedra/Smith4 Copyright  2004 by Oxford University Press, Inc. Figure D.3 The response of the circuit in (a) can be found by superposition, that is, by summing the responses of the circuits in (d) and (e).

5 Microelectronic Circuits - Fifth Edition Sedra/Smith5 Copyright  2004 by Oxford University Press, Inc. Figure D.3 (Continued)

6 Microelectronic Circuits - Fifth Edition Sedra/Smith6 Copyright  2004 by Oxford University Press, Inc. Figure D.4 STC circuits of the low-pass type.

7 Microelectronic Circuits - Fifth Edition Sedra/Smith7 Copyright  2004 by Oxford University Press, Inc. Figure D.5 STC circuits of the high-pass type.

8 Microelectronic Circuits - Fifth Edition Sedra/Smith8 Copyright  2004 by Oxford University Press, Inc. Figure ED.1

9 Microelectronic Circuits - Fifth Edition Sedra/Smith9 Copyright  2004 by Oxford University Press, Inc. Figure D.6 (a) Magnitude and (b) phase response of STC circuits of the low-pass type.

10 Microelectronic Circuits - Fifth Edition Sedra/Smith10 Copyright  2004 by Oxford University Press, Inc. Figure D.7 (a) An amplifier circuit and (b) a sketch of the magnitude of its transfer function.

11 Microelectronic Circuits - Fifth Edition Sedra/Smith11 Copyright  2004 by Oxford University Press, Inc. Figure D.8 (a) Magnitude and (b) phase response of STC circuits of the high-pass type.

12 Microelectronic Circuits - Fifth Edition Sedra/Smith12 Copyright  2004 by Oxford University Press, Inc. Figure ED.3

13 Microelectronic Circuits - Fifth Edition Sedra/Smith13 Copyright  2004 by Oxford University Press, Inc. Figure ED.6

14 Microelectronic Circuits - Fifth Edition Sedra/Smith14 Copyright  2004 by Oxford University Press, Inc. Figure D.9 A step-function signal of height S.

15 Microelectronic Circuits - Fifth Edition Sedra/Smith15 Copyright  2004 by Oxford University Press, Inc. Figure D.10 The output y(t) of a low-pass STC circuit excited by a step of height S.

16 Microelectronic Circuits - Fifth Edition Sedra/Smith16 Copyright  2004 by Oxford University Press, Inc. Figure D.11 The output y(t) of a high-pass STC circuit excited by a step of height S.

17 Microelectronic Circuits - Fifth Edition Sedra/Smith17 Copyright  2004 by Oxford University Press, Inc. Figure D.12 A pulse signal with height P and width T.

18 Microelectronic Circuits - Fifth Edition Sedra/Smith18 Copyright  2004 by Oxford University Press, Inc. Figure D.13 Pulse responses of three STC low-pass circuits.

19 Microelectronic Circuits - Fifth Edition Sedra/Smith19 Copyright  2004 by Oxford University Press, Inc. Figure D.14 Pulse responses of three STC high-pass circuits.

20 Microelectronic Circuits - Fifth Edition Sedra/Smith20 Copyright  2004 by Oxford University Press, Inc. Figure PD.6

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