《基于運(yùn)算放大器和模擬集成電路的電路設(shè)計(jì)(第4版 影印版)》全面闡述以運(yùn)算放大器和模擬集成電路為主要器件構(gòu)成的電路原理�����、設(shè)計(jì)方法和實(shí)際應(yīng)用����。電路設(shè)計(jì)以實(shí)際器件為背景,對(duì)實(shí)現(xiàn)中的許多實(shí)際問(wèn)題尤為關(guān)注�����。全書共分13章�,包含三大部分�����!酢醪糠忠赃\(yùn)算放大器作為理想器件介紹基本原理和應(yīng)用���,包括運(yùn)算放大器基礎(chǔ)�、具有電阻反饋的電路和有源濾波器等。第二部分涉及運(yùn)算放大器的諸多實(shí)際問(wèn)題��。第三部分著重介紹面向各種應(yīng)用的電路設(shè)計(jì)方法������!痘谶\(yùn)算放大器和模擬集成電路的電路設(shè)計(jì)(第4版 影印版)》可用作通信類、控制類��、遙測(cè)遙控�、儀器儀表等相關(guān)專業(yè)本科高年級(jí)及研究生有關(guān)課程的教材或主要參考書���,對(duì)從事實(shí)際工作的電子工程師們也有很大參考價(jià)值����。
賽爾吉?dú)W·佛朗哥����,出生于意大利的弗里埃雷(Friuli),獲伊利諾伊大學(xué)(University of Illinois at Urbana-Champaign)博士學(xué)位�����。早期他曾在美國(guó)和意大利均有過(guò)工業(yè)方面的工作經(jīng)歷,并于l980年就職于美國(guó)舊金山州立大學(xué)(San Francisco State University)�。在該校培養(yǎng)出了數(shù)百位成功的模擬工程師,他們以高薪受聘于硅谷�。
Preface
1 Operational Amplifier Fundamental□<□r>1.1 Amplifier Fundamental□<□r>1.□ The Operational Amplifier
1.3 Basic Op Amp Configuration□<□r>1.4 Ideal Op Amp Circuit Analysi□<□r>1.5 Negative Feedback
1.6 Feedback in Op Amp Circuit□<□r>1.7 The Return Ratio and Blackman's Formula
1.8 Op Amp Powering
Problem□<□r>Reference□<□r>Appendix 1A Standard Resistance Value□<□r>
□ Circuits with Resistive Feedback
□.1 Current-to-Voltage Converter□<□r>□.□ Voltage-to-Current Converter□<□r>□.3 Current Amplifier□<□r>□.4 Difference Amplifier□<□r>□.5 Instrumentation Amplifier□<□r>□.6 Instrumentation Application□<□r>□.7 Transducer Bridge Amplifier□<□r>Problem□<□r>Reference□<□r>
3 Active Filters: Part I
3.1 The Transfer Function
3.□ First-Order Active Filter□<□r>3.3 Audio Filter Application□<□r>3.4 Standard Second-Order Response□<□r>3.5 KRC Filter□<□r>3.6 Multiple-Feedback Filter□<□r>3.7 State-Variable and Biquad Filter□<□r>3.8 Sensitivity
Problem□<□r>Reference□<□r>
4 Active Filters: Part II
4.1 Filter Approximation□<□r>4.□ Cascade Design
4.3 Generalized Impedance Converter□<□r>4.4 Direct Design
4.5 The Switched Capacitor
4.6 Switched-Capacitor Filter□<□r>4.7 Universal SC Filter□<□r>Problem□<□r>Reference□<□r>
5 Static Op Amp Limitation□<□r>5.1 Simplified Op Amp Circuit Diagram□<□r>5.□ Input Bias and Offset Current□<□r>5.3 Low-Input-Bias-Current Op Amp□<□r>5.4 Input Offset Voltage
5.5 Low-Input-Offset-Voltage Op Amp□<□r>5.6 Input Offset Error and Compensation Technique□<□r>5.7 Input Voltage Range/Output Voltage Swing
5.8 Maximum Rating□<□r>Problem□<□r>Reference□<□r>Appendix 5A Data Sheets of the/zA741 Op Amp
6 Dynamic Op Amp Limitation□<□r>6.1 Open-Loop Frequency Response
6.□ Closed-Loop Frequency Response
6.3 Input and Output Impedance□<□r>6.4 Transient Response
6.5 Effect of Finite GBP on Integrator Circuit□<□r>6.6 Effect of Finite GBP on Filter□<□r>6.7 Current-Feedback Amplifier□<□r>Problem□<□r>Reference□<□r>
7 Noise
7.1 Noise Propertie□<□r>7.□ Noise Dynamic□<□r>7.3 Sources of Noise
7.4 Op Amp Noise
7.5 Noise in Photodiode Amplifier□<□r>7.6 Low-Noise Op Amp□<□r>Problem□<□r>Reference□<□r>
8 Stability
8.1 The Stability Problem
8.□ Phase and Gain Margin Measurement□<□r>8.3 Frequency Compensation of Op Amp□<□r>8.4 Op Amps Circuits with a Feedback Pole
8.5 Input-Lag and Feedback-Lead Compensation
8.6 Stability in CFA Circuit□<□r>8.7 Composite Amplifier□<□r>Problem□<□r>Reference□<□r>
9 Nonlinear Circuit□<□r>9.1 Voltage Comparator□<□r>9.□ Comparator Application□<□r>9.3 Schmitt Trigger□<□r>9.4 Precision Rectifier□<□r>9.5 Analog Switche□<□r>9.6 Peak Detector□<□r>9.7 Sample-and-Hold Amplifier□<□r>Problem□<□r>Reference□<□r>
10 Signal Generator□<□r>10.1 Sine Wave Generator□<□r>10.□ Multivibrator□<□r>10.3 Monolithic Timer□<□r>10.4 Triangular Wave Generator□<□r>10.5 Sawtooth Wave Generator□<□r>10.6 Monolithic Waveform Generator□<□r>10.7 V-F and F-V Converter□<□r>Problem□<□r>Reference□<□r>
11 Voltage References and Regulator□<□r>11.1 Performance Specification□<□r>11.□ Voltage Reference□<□r>11.3 Voltage-Reference Application□<□r>11.4 Linear Regulator□<□r>11.5 Linear-Regulator Application□<□r>11.6 Switching Regulator□<□r>11.7 The Error Amplifier
11.8 Voltage Mode Control
11.9 Peak Current Mode Control
11.10 PCMC of Boost Converter□<□r>Problem□<□r>Reference□<□r>
1□ D-A and A-D Converter□<□r>1□.1 Performance Specification□<□r>1□.□ D-A Conversion Technique□<□r>1□.3 Multiplying DAC Application□<□r>1□.4 A-D Conversion Technique□<□r>1□.5 Oversampling Converter□<□r>Problem□<□r>Reference□<□r>
13 Nonlinear Amplifiers and Phase-Locked Loop□<□r>13.1 Log/Antilog Amplifier□<□r>13.□ Analog Multiplier□<□r>13.3 Operational Transconductance Amplifier□<□r>13.4 Phase-Locked Loop□<□r>13.5 Monolithic PLLS
Problem□<□r>Reference□<□r>Index
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