Book description
Op Amps for Everyone is an indispensable guide and reference for designing circuits that are reliable, have low power consumption, and are as small and low-cost as possible. Operational amplifiers are essential in modern electronics design, and are used in medical devices, communications technology, optical networks, and sensor interfacing.
This book is informed by the authors' years of experience, wisdom and expertise, giving engineers all the methods, techniques and tricks that they need to optimize their analog electronic designs.
With this book you will learn:
- Single op amp designs that get the most out of every amplifier
- Which specifications are of most importance to your design, enabling you to narrow down the list of amplifiers to those few that are most suitable
- Strategies for making simple "tweaks" to the design – changes that are often apparent once a prototype has been constructed
- How to design for hostile environments – extreme temperatures, high levels of shock, vibration, and radiation – by knowing what circuit parameters are likely to degrade and how to counteract that degradation
New to this edition:
- Unified design procedures for gain and offset circuits, and filter circuits
- Techniques for voltage regulator design
- Inclusion of design utilities for filter design, gain and offset, and voltage regulation
- Analysis of manufacturer design aids
- Companion website with downloadable material
- A complete, cookbook-style guide for designing and building analog circuits
- A multitude of workable designs that are ready to use, based on real-world component values from leading manufacturers using readily available components
- A treasure trove of practical wisdom: strategies to tweak a design; guidelines for developing the entire signal chain; designing for hostile environments, and more
Table of contents
- Cover image
- Title page
- Table of Contents
- Copyright
- List of Figures
- List of Tables
- List of Abbreviations
- Chapter 1. The Op Amp’s Place in the World
- Chapter 2. Review of Op Amp Basics
- Chapter 3. Separating and Managing AC and DC Gain
- Chapter 4. Different Types of Op Amps
- Chapter 5. Interfacing a Transducer to an Analog-to-Digital Converter
- Chapter 6. Active Filter Design Techniques
- Chapter 7. Using Op Amps for Radio frequency Design
- Chapter 8. Designing Low-Voltage Op Amp Circuits
- Chapter 9. Extreme Applications
- Chapter 10. Voltage Regulation
- Chapter 11. Other Applications
-
Chapter 12. Manufacturer Design Aids
- 12.1 Introduction
- 12.2 Texas Instruments Tina-TI
- 12.3 Texas Instruments Filter Pro
- 12.4 National Semiconductor/Texas Instruments Webench
- 12.5 Analog Devices Version of NI Multisim
- 12.6 Analog Devices OpAmp Error Budget
- 12.7 Linear Technology LT Spice
- 12.8 Printed Circuit Board Layout
- 12.9 Conclusions
- Chapter 13. Common Application Mistakes
-
Appendix A. Understanding Op Amp Parameters
- A.1 Introduction
- A.2 Temperature Coefficient of the Input Offset Current (αIIO)
- A.3 Temperature Coefficient of the Input Offset Voltage (αVIO or αVIO)
- A.4 Differential Gain Error (AD)
- A.5 Gain Margin Parameter (Am)
- A.6 Open-Loop Voltage Gain Parameter (AOL)
- A.7 Large-Signal Voltage Amplification Gain Condition (AV)
- A.8 Differential Large-Signal Voltage Amplification Parameter (AVD)
- A.9 Unity Gain Bandwidth Parameter (B1)
- A.10 Maximum-Output-Swing Bandwidth Parameter (BOM)
- A.11 Bandwidth Condition (BW)
- A.12 Input Capacitance Parameter (Ci)
- A.13 Common-Mode Input Capacitance Parameter (Cic or Ci(c))
- A.14 Differential Input Capacitance Parameter (Cid)
- A.15 Load Capacitance Condition (CL)
- A.16 Supply Voltage Sensitivity (ΔVDD±(or CC±)/ΔVIO, or kSVR, or PSRR)
- A.17 Common-Mode Rejection Ratio Parameter (CMRR or kCMR)
- A.18 Frequency Condition (f)
- A.19 Op Amp Gain Bandwidth Product Parameter (GBW)
- A.20 Supply Current (Shutdown) Parameter (ICC(SHDN) or IDD(SHDN))
- A.21 Supply Current Parameter (ICC or IDD)
- A.22 Input Current Range Parameter (II)
- A.23 Input Bias Current Parameter (IIB)
- A.24 Input Offset Current Parameter (IIO)
- A.25 Input Noise Current Parameter (In)
- A.26 Output Current Parameter (IO)
- A.27 Low-Level Output Current Condition (IOL)
- A.28 Short-Circuit Output Current Parameters (IOS or ISC)
- A.29 Supply Rejection Ratio Parameter (kSVR)
- A.30 Power Dissipation Parameter (PD)
- A.31 Power Supply Rejection Ratio Parameter (PSRR)
- A.32 Junction to Ambient Thermal Resistance Parameter (θJA)
- A.33 Junction to Case Thermal Resistance Parameter (θJC)
- A.34 Input Resistance Parameter (ri)
- A.35 Differential Input Resistance Parameter (rid or ri(d))
- A.36 Load Resistance Condition (RL)
- A.37 Null Resistance Condition (RL)
- A.38 Output Resistance Parameter (ro)
- A.39 Signal Source Condition (RS)
- A.40 Open-Loop Transresistance Parameters (Rt)
- A.41 Op Amp Slew Rate Parameter (SR)
- A.42 Operating Free-Air Temperature Condition (TA)
- A.43 Turn-Off Time (Shutdown) Parameter (tDIS or t(off))
- A.44 Turn-On Time (Shutdown) Parameters (tEN)
- A.45 Fall Time Parameter (tf)
- A.46 Total Harmonic Distortion Parameter (THD)
- A.47 Total Harmonic Distortion Plus Noise Parameter (THD+N)
- A.48 Maximum Junction Temperature Parameter (TJ)
- A.49 Rise Time Parameter (tr)
- A.50 Settling Time Parameter (ts)
- A.51 Storage Temperature Parameter (TS or Tstg)
- A.52 Supply Voltage Condition (VCC or VDD)
- A.53 Input Voltage Range Condition or Parameter (VI)
- A.54 Common-Mode Input Voltage Condition (Vic)
- A.55 Common-Mode Input Voltage Range Parameter (VICR)
- A.56 Differential Input Voltage Parameter (VID)
- A.57 Differential Input Voltage Range Parameter (VDIR)
- A.58 Turn-On Voltage (Shutdown) Parameter (VIH-SHDN or V(ON))
- A.59 Turn-Off Voltage (Shutdown) Parameters (VIL-SHDN or V(OFF))
- A.60 Input Voltage Condition (VIN)
- A.61 Input Offset Voltage Parameter (VIO or VOS)
- A.62 Equivalent Input Noise Voltage Parameter (Vn)
- A.63 High-Level Output Voltage Condition or Parameter (VOH)
- A.64 Low-Level Output Voltage Condition or Parameter (VOL)
- A.65 Maximum Peak-to-Peak Output Voltage Swing Parameter (VOM±)
- A.66 Peak-to-Peak Output Voltage Swing Condition or Parameter (VO(PP))
- A.67 Step Voltage Peak-to-Peak Condition (V(STEP)PP)
- A.68 Crosstalk Parameter (XT)
- A.69 Output Impedance Parameter (Zo)
- A.70 Open-Loop Transimpedance Parameter (Zt)
- A.71 Differential Phase Error Parameter (ΦD)
- A.72 Phase Margin Parameter (Φm)
- A.73 Bandwidth for 0.1dB Flatness
- A.74 Case Temperature for 60 Seconds
- A.75 Continuous Total Dissipation Parameter
- A.76 Duration of Short-Circuit Current
- A.77 Input Offset Voltage Long-Term Drift Parameter
- A.78 Lead Temperature for 10 or 60 Seconds
- Appendix B. Op Amp Noise Theory
- Appendix C. Circuit Board Layout Techniques
- Appendix D. Op Amp Circuit Collection
- Index
Product information
- Title: Op Amps for Everyone, 4th Edition
- Author(s):
- Release date: December 2012
- Publisher(s): Newnes
- ISBN: 9780123944061
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