operational amplifiers 1. copyright 2004 by oxford university press, inc. microelectronic circuits...
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Operational Amplifiers
1
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Microelectronic Circuits - Fifth Edition Sedra/Smith 2Copyright 2004 by Oxford University Press, Inc.
Figure 2.1 Circuit symbol for the op amp.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 3Copyright 2004 by Oxford University Press, Inc.
Figure 2.2 The op amp shown connected to dc power supplies.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 4Copyright 2004 by Oxford University Press, Inc.
Figure 2.3 Equivalent circuit of the ideal op amp.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 5Copyright 2004 by Oxford University Press, Inc.
Figure 2.4 Representation of the signal sources v1 and v2 in terms of their differential and common-mode components.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 6Copyright 2004 by Oxford University Press, Inc.
Figure E2.3
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Microelectronic Circuits - Fifth Edition Sedra/Smith 7Copyright 2004 by Oxford University Press, Inc.
Figure 2.5 The inverting closed-loop configuration.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 8Copyright 2004 by Oxford University Press, Inc.
Figure 2.6 Analysis of the inverting configuration. The circled numbers indicate the order of the analysis steps.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 9Copyright 2004 by Oxford University Press, Inc.
Figure 2.7 Analysis of the inverting configuration taking into account the finite open-loop gain of the op amp.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 10Copyright 2004 by Oxford University Press, Inc.
Figure 2.8 Circuit for Example 2.2. The circled numbers indicate the sequence of the steps in the analysis.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 11Copyright 2004 by Oxford University Press, Inc.
Figure 2.9 A current amplifier based on the circuit of Fig. 2.8. The amplifier delivers its output current to R4. It has a current gain of (1 + R2/R3), a zero input resistance, and an infinite output resistance. The load (R4), however, must be floating (i.e., neither of its two terminals can be connected to ground).
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Microelectronic Circuits - Fifth Edition Sedra/Smith 12Copyright 2004 by Oxford University Press, Inc.
Figure E2.5
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Microelectronic Circuits - Fifth Edition Sedra/Smith 13Copyright 2004 by Oxford University Press, Inc.
Figure E2.6
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Microelectronic Circuits - Fifth Edition Sedra/Smith 14Copyright 2004 by Oxford University Press, Inc.
Figure 2.10 A weighted summer.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 15Copyright 2004 by Oxford University Press, Inc.
Figure 2.11 A weighted summer capable of implementing summing coefficients of both signs.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 16Copyright 2004 by Oxford University Press, Inc.
Figure 2.12 The noninverting configuration.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 17Copyright 2004 by Oxford University Press, Inc.
Figure 2.13 Analysis of the noninverting circuit. The sequence of the steps in the analysis is indicated by the circled numbers.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 18Copyright 2004 by Oxford University Press, Inc.
Figure 2.14 (a) The unity-gain buffer or follower amplifier. (b) Its equivalent circuit model.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 19Copyright 2004 by Oxford University Press, Inc.
Figure E2.9
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Microelectronic Circuits - Fifth Edition Sedra/Smith 20Copyright 2004 by Oxford University Press, Inc.
Figure E2.13
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Microelectronic Circuits - Fifth Edition Sedra/Smith 21Copyright 2004 by Oxford University Press, Inc.
Figure 2.15 Representing the input signals to a differential amplifier in terms of their differential and common-mode components.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 22Copyright 2004 by Oxford University Press, Inc.
Figure 2.16 A difference amplifier.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 23Copyright 2004 by Oxford University Press, Inc.
Figure 2.17 Application of superposition to the analysis of the circuit of Fig. 2.16.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 24Copyright 2004 by Oxford University Press, Inc.
Figure 2.18 Analysis of the difference amplifier to determine its common-mode gain Acm ; vO / vIcm.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 25Copyright 2004 by Oxford University Press, Inc.
Figure 2.19 Finding the input resistance of the difference amplifier for the case R3 = R1 and R4 = R2.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 26Copyright 2004 by Oxford University Press, Inc.
Figure 2.20 A popular circuit for an instrumentation amplifier: (a) Initial approach to the circuit; (b) The circuit in (a) with the connection between node X and ground removed and the two resistors R1 and R1 lumped together. This simple wiring change dramatically improves performance; (c) Analysis of the circuit in‘ (b) assuming ideal op amps.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 27Copyright 2004 by Oxford University Press, Inc.
Figure 2.21 To make the gain of the circuit in Fig. 2.20(b) variable, 2R1 is implemented as the series combination of a fixed resistor R1f and a variable resistor R1v. Resistor R1f ensures that the maximum available gain is limited.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 28Copyright 2004 by Oxford University Press, Inc.
Figure 2.22 Open-loop gain of a typical general-purpose internally compensated op amp.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 29Copyright 2004 by Oxford University Press, Inc.
Figure 2.23 Frequency response of an amplifier with a nominal gain of +10 V/V.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 30Copyright 2004 by Oxford University Press, Inc.
Figure 2.24 Frequency response of an amplifier with a nominal gain of –10 V/V.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 31Copyright 2004 by Oxford University Press, Inc.
Figure 2.25 (a) A noninverting amplifier with a nominal gain of 10 V/V designed using an op amp that saturates at ±13-V output voltage and has ±20-mA output current limits. (b) When the input sine wave has a peak of 1.5 V, the output is
clipped off at ±13 V.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 32Copyright 2004 by Oxford University Press, Inc.
Figure 2.26 (a) Unity-gain follower. (b) Input step waveform. (c) Linearly rising output waveform obtained when the amplifier is slew-rate limited. (d) Exponentially rising output waveform obtained when V is sufficiently small so that the initial slope (vtV) is smaller than or equal to SR.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 33Copyright 2004 by Oxford University Press, Inc.
Figure 2.27 Effect of slew-rate limiting on output sinusoidal waveforms.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 34Copyright 2004 by Oxford University Press, Inc.
Figure 2.28 Circuit model for an op amp with input offset voltage VOS.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 35Copyright 2004 by Oxford University Press, Inc.
Figure E2.23 Transfer characteristic of an op amp with VOS = 5 mV.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 36Copyright 2004 by Oxford University Press, Inc.
Figure 2.29 Evaluating the output dc offset voltage due to VOS in a closed-loop amplifier.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 37Copyright 2004 by Oxford University Press, Inc.
Figure 2.30 The output dc offset voltage of an op amp can be trimmed to zero by connecting a potentiometer to the two offset-nulling terminals. The wiper of the potentiometer is connected to the negative supply of the op amp.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 38Copyright 2004 by Oxford University Press, Inc.
Figure 2.31 (a) A capacitively coupled inverting amplifier, and (b) the equivalent circuit for determining its dc output offset voltage VO.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 39Copyright 2004 by Oxford University Press, Inc.
Figure 2.32 The op-amp input bias currents represented by two current sources IB1 and IB2.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 40Copyright 2004 by Oxford University Press, Inc.
Figure 2.33 Analysis of the closed-loop amplifier, taking into account the input bias currents.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 41Copyright 2004 by Oxford University Press, Inc.
Figure 2.34 Reducing the effect of the input bias currents by introducing a resistor R3.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 42Copyright 2004 by Oxford University Press, Inc.
Figure 2.35 In an ac-coupled amplifier the dc resistance seen by the inverting terminal is R2; hence R3 is chosen equal to R2.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 43Copyright 2004 by Oxford University Press, Inc.
Figure 2.36 Illustrating the need for a continuous dc path for each of the op-amp input terminals. Specifically, note that the amplifier will not work without resistor R3.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 44Copyright 2004 by Oxford University Press, Inc.
Figure 2.37 The inverting configuration with general impedances in the feedback and the feed-in paths.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 45Copyright 2004 by Oxford University Press, Inc.
Figure 2.38 Circuit for Example 2.6.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 46Copyright 2004 by Oxford University Press, Inc.
Figure 2.39 (a) The Miller or inverting integrator. (b) Frequency response of the integrator.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 47Copyright 2004 by Oxford University Press, Inc.
Figure 2.40 Determining the effect of the op-amp input offset voltage VOS on the Miller integrator circuit. Note that since the output rises with time, the op amp eventually saturates.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 48Copyright 2004 by Oxford University Press, Inc.
Figure 2.41 Effect of the op-amp input bias and offset currents on the performance of the Miller integrator circuit.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 49Copyright 2004 by Oxford University Press, Inc.
Figure 2.42 The Miller integrator with a large resistance RF connected in parallel with C in order to provide negative feedback and hence finite gain at dc.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 50Copyright 2004 by Oxford University Press, Inc.
Figure 2.43 Waveforms for Example 2.7: (a) Input pulse. (b) Output linear ramp of ideal integrator with time constant of 0.1 ms. (c) Output exponential ramp with resistor RF connected across integrator capacitor.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 51Copyright 2004 by Oxford University Press, Inc.
Figure 2.44 (a) A differentiator. (b) Frequency response of a differentiator with a time-constant CR.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 52Copyright 2004 by Oxford University Press, Inc.
Figure 2.45 A linear macromodel used to model the finite gain and bandwidth of an internally compensated op amp.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 53Copyright 2004 by Oxford University Press, Inc.
Figure 2.46 A comprehensive linear macromodel of an internally compensated op amp.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 54Copyright 2004 by Oxford University Press, Inc.
Figure 2.47 Frequency response of the closed-loop amplifier in Example 2.8.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 55Copyright 2004 by Oxford University Press, Inc.
Figure 2.48 Step response of the closed-loop amplifier in Example 2.8.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 56Copyright 2004 by Oxford University Press, Inc.
Figure 2.49 Simulating the frequency response of the µA741 op-amp in Example 2.9.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 57Copyright 2004 by Oxford University Press, Inc.
Figure 2.50 Frequency response of the µA741 op amp in Example 2.9.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 58Copyright 2004 by Oxford University Press, Inc.
Figure 2.51 Circuit for determining the slew rate of the µA741 op amp in Example 2.9.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 59Copyright 2004 by Oxford University Press, Inc.
Figure 2.52 Square-wave response of the µA741 op amp connected in the unity-gain configuration shown in Fig. 2.51.
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Microelectronic Circuits - Fifth Edition Sedra/Smith 60Copyright 2004 by Oxford University Press, Inc.
Figure P2.2
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Microelectronic Circuits - Fifth Edition Sedra/Smith 61Copyright 2004 by Oxford University Press, Inc.
Figure P2.8
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Microelectronic Circuits - Fifth Edition Sedra/Smith 62Copyright 2004 by Oxford University Press, Inc.
Figure P2.16
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Microelectronic Circuits - Fifth Edition Sedra/Smith 63Copyright 2004 by Oxford University Press, Inc.
Figure P2.22
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Microelectronic Circuits - Fifth Edition Sedra/Smith 64Copyright 2004 by Oxford University Press, Inc.
Figure P2.25
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Microelectronic Circuits - Fifth Edition Sedra/Smith 65Copyright 2004 by Oxford University Press, Inc.
Figure P2.30
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Microelectronic Circuits - Fifth Edition Sedra/Smith 66Copyright 2004 by Oxford University Press, Inc.
Figure P2.31
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Microelectronic Circuits - Fifth Edition Sedra/Smith 67Copyright 2004 by Oxford University Press, Inc.
Figure P2.32
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Microelectronic Circuits - Fifth Edition Sedra/Smith 68Copyright 2004 by Oxford University Press, Inc.
Figure P2.33
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Microelectronic Circuits - Fifth Edition Sedra/Smith 69Copyright 2004 by Oxford University Press, Inc.
Figure P2.34
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Microelectronic Circuits - Fifth Edition Sedra/Smith 70Copyright 2004 by Oxford University Press, Inc.
Figure P2.35
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Microelectronic Circuits - Fifth Edition Sedra/Smith 71Copyright 2004 by Oxford University Press, Inc.
Figure P2.43
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Microelectronic Circuits - Fifth Edition Sedra/Smith 72Copyright 2004 by Oxford University Press, Inc.
Figure P2.46
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Microelectronic Circuits - Fifth Edition Sedra/Smith 73Copyright 2004 by Oxford University Press, Inc.
Figure P2.47
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Microelectronic Circuits - Fifth Edition Sedra/Smith 74Copyright 2004 by Oxford University Press, Inc.
Figure P2.49
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Microelectronic Circuits - Fifth Edition Sedra/Smith 75Copyright 2004 by Oxford University Press, Inc.
Figure P2.50
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Microelectronic Circuits - Fifth Edition Sedra/Smith 76Copyright 2004 by Oxford University Press, Inc.
Figure P2.51
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Microelectronic Circuits - Fifth Edition Sedra/Smith 77Copyright 2004 by Oxford University Press, Inc.
Figure P2.59
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Microelectronic Circuits - Fifth Edition Sedra/Smith 78Copyright 2004 by Oxford University Press, Inc.
Figure P2.62
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Microelectronic Circuits - Fifth Edition Sedra/Smith 79Copyright 2004 by Oxford University Press, Inc.
Figure P2.68
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Microelectronic Circuits - Fifth Edition Sedra/Smith 80Copyright 2004 by Oxford University Press, Inc.
Figure P2.69
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Microelectronic Circuits - Fifth Edition Sedra/Smith 81Copyright 2004 by Oxford University Press, Inc.
Figure P2.70
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Microelectronic Circuits - Fifth Edition Sedra/Smith 82Copyright 2004 by Oxford University Press, Inc.
Figure P2.71
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Microelectronic Circuits - Fifth Edition Sedra/Smith 83Copyright 2004 by Oxford University Press, Inc.
Figure P2.77
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Microelectronic Circuits - Fifth Edition Sedra/Smith 84Copyright 2004 by Oxford University Press, Inc.
Figure P2.78
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Microelectronic Circuits - Fifth Edition Sedra/Smith 85Copyright 2004 by Oxford University Press, Inc.
Figure P2.108
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Microelectronic Circuits - Fifth Edition Sedra/Smith 86Copyright 2004 by Oxford University Press, Inc.
Figure P2.117
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Microelectronic Circuits - Fifth Edition Sedra/Smith 87Copyright 2004 by Oxford University Press, Inc.
Figure P2.118
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Microelectronic Circuits - Fifth Edition Sedra/Smith 88Copyright 2004 by Oxford University Press, Inc.
Figure P2.119
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Microelectronic Circuits - Fifth Edition Sedra/Smith 89Copyright 2004 by Oxford University Press, Inc.
Figure P2.122
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Microelectronic Circuits - Fifth Edition Sedra/Smith 90Copyright 2004 by Oxford University Press, Inc.
Figure P2.125
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Microelectronic Circuits - Fifth Edition Sedra/Smith 91Copyright 2004 by Oxford University Press, Inc.
Figure P2.126