Op Amps for Everyone, Third Edition | by Ron Mancini and Bruce Carter (eds) | 2009 | ISBN: 9781856175050. Comparison of Op Amps. Circuit Design and Analysis. Circuit Board Layout Techniques. Operational Amplifier Parameters. Active Filter Design Techniques. Noninverting Op Amp.

November 25, 2009 by kutenk
Filed under: Engineering Books 

Op Amps for Everyone

by Ron Mancini and Bruce Carter (eds)
2009 (642 pages)
ISBN:9781856175050

Providing step-by-step walkthroughs for design and selection of op amps and circuits, this book offers the theoretical tools and practical know-how to get the most from these versatile devices.

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Op Amps for Everyone, Third Edition







Foreword
Preface to the Third Edition
Chapter 1 – The Op Amp’s Place in the World
1.1: The Problem
1.2: The Solution
1.3: The Birth of the Op Amp
1.4: The Vacuum Tube Era
1.5: The Transistor Era
1.6: The IC Era
Reference


Chapter 2 – Review of Circuit Theory
2.1: Introduction
2.2: Laws of Physics
2.3: Voltage Divider Rule
2.4: Current Divider Rule
2.5: Thevenin’s Theorem
2.6: Superposition
2.7: Calculation of a Saturated Transistor Circuit
2.8: Transistor Amplifier

Chapter 3 – Development of the Ideal Op Amp Equations
3.1: Ideal Op Amp Assumptions
3.2: The Noninverting Op Amp
3.3: The Inverting Op Amp
3.4: The Adder
3.5: The Differential Amplifier
3.6: Complex Feedback Networks
3.7: Video Amplifiers
3.8: Capacitors
3.9: Why an Ideal Op Amp Would Destroy the Known Universe
3.10: Summary

Chapter 4 – Single Supply Op Amp Design Techniques
4.1: Single Supply versus Dual Supply
4.2: Circuit Analysis
4.3: Simultaneous Equations
4.4: Summary

Chapter 5 – Beyond Case 4
5.1: A Continuum of Applications
5.2: Noninverting Attenuator with Zero Offset
5.3: Noninverting Attenuation with Positive Offset
5.4: Noninverting Attenuation with Negative Offset
5.5: Inverting Attenuation with Zero Offset
5.6: Inverting Attenuation with Positive Offset
5.7: Inverting Attenuation with Negative Offset
5.8: Conclusion

Chapter 6 – Feedback and Stability Theory
6.1: Why Study Feedback Theory?
6.2: Block Diagram Math and Manipulations
6.3: Feedback Equation and Stability
6.4: Bode Analysis of Feedback Circuits
6.5: Loop Gain Plots are the Key to Understanding Stability
6.6: The Second Order Equation and Ringing/Overshoot Predictions
References

Chapter 7 – Development of the Nonideal Op Amp Equations
7.1: Introduction
7.2: Review of the Canonical Equations
7.3: Noninverting Op Amps
7.4: Inverting Op Amps
7.5: Differential Op Amps

Chapter 8 – Voltage Feedback Op Amp Compensation
8.1: Introduction
8.2: Internal Compensation
8.3: External Compensation, Stability, and Performance
8.4: Dominant Pole Compensation
8.5: Gain Compensation
8.6: Lead Compensation
8.7: Compensated Attenuator Applied to Op Amp
8.8: Lead/Lag Compensation
8.9: Comparison of Compensation Schemes
8.10: Conclusions

Chapter 9 – Current Feedback Op Amp Analysis
9.1: Introduction
9.2: CFA Model
9.3: Development of the Stability Equation
9.4: The Noninverting CFA
9.5: The Inverting CFA
9.6: Stability Analysis
9.7: Selection of the Feedback Resistor
9.8: Stability and Input Capacitance
9.9: Stability and Feedback Capacitance
9.10: Compensation of CF and CG
9.11: Summary

Chapter 10 – Voltage and Current Feedback Op Amp Comparison
10.1: Introduction
10.2: Precision
10.3: Bandwidth
10.4: Stability
10.5: Impedance
10.6: Equation Comparison

Chapter 11 – Fully Differential Op Amps
11.1: Introduction
11.2: What Does Fully Differential Mean?
11.3: How is the Second Output Used?
11.4: Differential Gain Stages
11.5: Single Ended to Differential Conversion
11.6: Working with Terminated Inputs
11.7: A New Function
11.8: Conceptualizing the VOCM Input
11.9: Instrumentation
11.10: Filter Circuits

Chapter 12 – Op Amp Noise Theory and Applications
12.1: Introduction
12.2: Characterization
12.3: Types of Noise
12.4: Noise Colors
12.5: Op Amp Noise
12.6: Putting it All Together
Reference


Chapter 13 – Understanding Op Amp Parameters
13.1: Introduction
13.2: Temperature Coefficient of the Input Offset Current, aIIO
13.3: Temperature Coefficient of Input Offset Voltage, aVIO or aVIO
13.4: Differential Gain Error, AD
13.5: Gain Margin Parameter, Am
13.6: Open Loop Voltage Gain Parameter, AOL
13.7: Large Signal Voltage Amplification Gain Condition, AV
13.8: Differential Large Signal Voltage Amplification Parameter, AVD
13.9: Unity Gain Bandwidth Parameter, B1
13.10: Maximum Output Swing Bandwidth Parameter, BOM
13.11: Bandwidth Parameter, BW
13.12: Input Capacitance Parameter, CI
13.13: Common Mode Input Capacitance Parameter, Cic or Ci(c)
13.14: Differential Input Capacitance Parameter, Cid
13.15: Load Capacitance Condition, CL
13.16: Supply Voltage Sensitivity, ?VDD±(or CC±)/?VIO or kSVS
13.17: Common Mode Rejection Ratio Parameter, CMRR or kCMR
13.18: Frequency Condition, f
13.19: Op Amp Gain Bandwidth Product Parameter, GBW
13.20: Supply Current (Shutdown) Parameter, ICC(SHDN) or IDD(SHDN)
13.21: Supply Current Parameter, ICC or IDD
13.22: Input Current Range Parameter, II
13.23: Input Bias Current Parameter, IIB
13.24: Input Offset Current Parameter, IIO
13.25: Input Noise Current Parameter, In
13.26: Output Current Parameter, IO
13.27: Low Level Output Current Condition, IOL
13.28: Short Circuit Output Current Parameter, IOS or ISC
13.29: Supply Rejection Ratio Parameter, kSVR
13.30: Power Dissipation Parameter, PD
13.31: Power Supply Rejection Ratio Parameter, PSRR
13.32: Junction to Ambient Thermal Resistance Parameter, ?JA
13.33: Junction to Case Thermal Resistance Parameter, ?JC
13.34: Input Resistance Parameter, ri
13.35: Differential Input Resistance Parameter (rid or ri(d))
13.36: Load Resistance Condition, RL
13.37: Null Resistance Condition, Rnull
13.38: Output Resistance Parameters, ro
13.39: Signal Source Condition, RS
13.40: Open Loop Transresistance Parameters, Rt
13.41: Op Amp Slew Rate Parameter, SR
13.42: Operating Free Air Temperature Condition, TA
13.43: Turn off Time (Shutdown) Parameter, tDIS or t(off)
13.44: Turn on Time (Shutdown) Parameter, tEN
13.45: Fall Time Parameter, tf
13.46: Total Harmonic Distortion Parameter, THD
13.47: Total Harmonic Distortion plus Noise Parameter, THD + N
13.48: Maximum Junction Temperature Parameter, TJ
13.49: Rise Time Parameter, tr
13.50: Settling Time Parameter, ts
13.51: Storage Temperature Parameter, TS or Tstg
13.52: Supply Voltage Condition, VCC or VDD
13.53: Input Voltage Range Condition or Parameter, VI
13.54: Common Mode Input Voltage Condition, VIC
13.55: Common Mode Input Voltage Range Parameter, VICR
13.56: Differential Input Voltage Parameter, VID
13.57: Differential Input Voltage Range Parameter, VDIR
13.58: Turn on Voltage (Shutdown) Parameter, VIH-SHDN or V(ON)
13.59: Turn off Voltage (Shutdown) Parameter, VIL-SHDN or V(OFF)
13.60: Input Voltage Condition, VIN
13.61: Input Offset Voltage Parameter, VIO or VOS
13.62: Equivalent Input Noise Voltage Parameter, Vn
13.63: Broadband Noise Parameter (VN(PP))
13.64: High Level Output Voltage Condition or Parameter, VOH
13.65: Low Level Output Voltage Condition or Parameter, VOL
13.66: Maximum Peak to Peak Output Voltage Swing Parameter, VOM±
13.67: Peak to Peak Output Voltage Swing Condition or Parameter, VO(PP)
13.68: Step Voltage Peak to Peak Condition, V(STEP)PP
13.69: Crosstalk Parameter, XT
13.70: Output Impedance Parameter, Zo
13.71: Open Loop Transimpedance Parameter, Zt
13.72: Differential Phase Error Parameter, FD
13.73: Phase Margin Parameter, Fm
13.74: Bandwidth for 0.1 dB Flatness
13.75: Case Temperature for 60 Seconds
13.76: Continuous Total Dissipation Parameter
13.77: Duration of Short Circuit Current
13.78: Input Offset Voltage Long Term Drift Parameter
13.79: Lead Temperature for 10 or 60 Seconds

Chapter 14 – Instrumentation—Sensors to A/D Converters
14.1: Introduction
14.2: Transducer Types
14.3: Design Procedure
14.4: Review of the System Specifications
14.5: Reference Voltage Characterization
14.6: Transducer Characterization
14.7: ADC Characterization
14.8: Op Amp Selection
14.9: Amplifier Circuit Design
14.10: Test
14.11: Summary
Reference

Chapter 15 – Interfacing an Op Amp to an Analog to Digital Converter
15.1: Introduction
15.2: System Information
15.3: Power Supply Information
15.4: Input Signal Characteristics
15.5: Analog to Digital Converter Characteristics
15.6: Operational Amplifier Characteristics
15.7: Architectural Decisions

Chapter 16 – Wireless Communication—Signal Conditioning for IF Sampling
16.1: Introduction
16.2: Wireless Systems
16.3: Selection of ADCs/DACs
16.4: Factors Influencing the Choice of Op Amps
16.5: Antialiasing Filters
16.6: Communication D/A Converter Reconstruction Filter
16.7: External VREF Circuits for ADCs/DACs
16.8: High Speed Analog Input Drive Circuits
References

Chapter 17 – Using Op Amps for RF Design
17.1: Introduction
17.2: Advantages
17.3: Disadvantages
17.4: Voltage Feedback or Current Feedback?
17.5: A Review of Traditional RF Amplifiers
17.6: Amplifier Gain Revisited
17.7: Scattering Parameters
17.8: Phase Linearity
17.9: Frequency Response Peaking
17.10: -1 dB Compression Point
17.11: Two Tone, Third Order Intermodulation Intercept
17.12: Noise Figure
17.13: Conclusions

Chapter 18 – Interfacing DACs to Loads
18.1: Introduction
18.2: Load Characteristics
18.3: Understanding the DAC and Its Specifications
18.4: DAC Error Budget
18.5: DAC Errors and Parameters
18.6: Compensating for DAC Capacitance
18.7: Increasing Op Amp Buffer Amplifier Current and Voltage

Chapter 19 – Sine Wave Oscillators
19.1: What is a Sine Wave Oscillator?
19.2: Requirements for Oscillation
19.3: Phase Shift in the Oscillator
19.4: Gain in the Oscillator
19.5: Active Element (Op Amp) Impact on the Oscillator
19.6: Analysis of the Oscillator Operation (Circuit)
19.7: Sine Wave Oscillator Circuits
19.8: Conclusion
References

Chapter 20 – Active Filter Design Techniques
20.1: Introduction
20.2: Fundamentals of Low Pass Filters
20.3: Low Pass Filter Design
20.4: High Pass Filter Design
20.5: Bandpass Filter Design
20.6: Band Rejection Filter Design
20.7: All Pass Filter Design
20.8: Practical Design Hints
20.9: Filter Coefficient Tables
References

Chapter 21 – Fast, Practical Filter Design for Beginners
21.1: Introduction
21.2: Picking the Response
21.3: Low Pass Filter
21.4: High Pass Filter
21.5: Narrow (Single Frequency) Bandpass Filter
21.6: Wide Bandpass Filter
21.7: Notch (Single Frequency Rejection) Filter
21.8: Band Reject Filter
21.9: Summary of Filter Characteristics

Chapter 22 – High Speed Filter Design
22.1: Introduction
22.2: High Speed, Low Pass Filters
22.3: High Speed, High Pass Filters
22.4: High Speed Bandpass Filters
22.5: High Speed Notch Filter
22.6: Conclusions

Chapter 23 – Circuit Board Layout Techniques
23.1: General Considerations
23.2: PCB Mechanical Construction
23.3: Grounding
23.4: The Frequency Characteristics of Passive Components
23.5: Decoupling
23.6: Input and Output Isolation
23.7: Packages
23.8: Summary
References

Chapter 24 – Designing Low Voltage Op Amp Circuits
24.1: Introduction
24.2: Dynamic Range
24.3: Signal to Noise Ratio
24.4: Input Common Mode Range
24.5: Output Voltage Swing
24.6: Shutdown and Low Current Drain
24.7: Single Supply Circuit Design
24.8: Transducer to ADC Analog Interface
24.9: DAC to Actuator Analog Interface
24.10: Comparison of Op Amps
24.11: Summary

Chapter 25 – Common Application Mistakes
25.1: Introduction
25.2: Op Amp Operated at Less than Unity (or Specified) Gain
25.3: Op Amp Used as a Comparator
25.4: Improper Termination of Unused Sections
25.5: DC Gain
25.6: Current Source
25.7: Current Feedback Amplifier: Shorted Feedback Resistor
25.8: Current Feedback Amplifier: Capacitor in the Feedback Loop
25.9: Fully Differential Amplifier: Incorrect Single Ended Termination
25.10: Fully Differential Amplifier: Incorrect DC Operating Point
25.11: Fully Differential Amplifier: Incorrect Common Mode Range
25.12: The Number 1 Design Mistake

Appendix A – Single Supply Circuit Collection
A.1: Introduction
A.2: Instrumentation Amplifier
A.3: Simplified Instrumentation Amplifier
A.4: T Network in the Feedback Loop
A.5: Inverting Integrator
A.6: Inverting Integrator with Input Current Compensation
A.7: Inverting Integrator with Drift Compensation
A.8: Inverting Integrator with Mechanical Reset
A.9: Inverting Integrator with Electronic Reset
A.10: Inverting Integrator with Resistive Reset
A.11: Noninverting Integrator with Inverting Buffer
A.12: Noninverting Integrator Approximation
A.13: Double Integrator
A.14: Differential Integrator
A.15: AC Integrator
A.16: Augmenting Integrator
A.17: Inverting Differentiator
A.18: Inverting Differentiator with Noise Filter
A.19: Augmented Differentiator
A.20: Basic Wien Bridge Oscillator
A.21: Wien Bridge Oscillator with Nonlinear Feedback
A.22: Wien Bridge Oscillator with AGC
A.23: Quadrature Oscillator
A.24: Classical Phase Shift Oscillator
A.25: Buffered Phase Shift Oscillator
A.26: Bubba Oscillator
A.27: Triangle Oscillator
A.28: Attenuation
A.29: Simulated Inductor
A.30: Twin T Single Op Amp Bandpass and Notch Filters
A.31: Constant Current Generator
A.32: Inverted Voltage Reference
A.33: Power Booster
A.34: Absolute Value
A.35: Peak Follower
A.36: Precision Rectifier
A.37: AC to DC Converter
A.38: Full Wave Rectifier
A.39: Tone Control
A.40: Curve Fitting Filters
References

Appendix B – Terminating Differential Amplifiers
B.1: Introduction
B.2: Terminating a Differential Amplifier
B.3: Inverting Side
B.4: Noninverting Side
B.5: Differential Output
B.6: Testing the Result

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