Synopses & Reviews
The op amp IC has become the universal analog IC because it can perform all analog tasks. OP AMPS FOR EVERYONE provides the theoretical tools and practical know-how to get the most from these versatile devices. This new edition substantially updates coverage for low-speed and high-speed applications, and provides step by step walkthroughs for design and selection of op amps and circuits.
* Modular organization allows readers, based on their own background and level of experience, to start at any chapter
* written by experts at Texas Instruments and based on real op amps and circuit designs from TI
* NEW: large number of new cases for single supply op amp design techniques, including use of web-based design tool
* NEW: complete design walk-through for low-speed precision op amp selection and circuit design
* NEW: updates, including new techniques, for design for high-speed, low distortion applications.
* NEW: extensive new material on filters and filter design, including high-speed filtering for video and data
Review
OP AMPS FOR EVERYONE provides the theoretical tools and practical know-how to get the most from these versatile devices -- this new edition substantially updates coverage for low-speed and high-speed applications, and provides step by step walkthroughs for design and selection of op amps and circuits.
Review
... the book takes a different approach from the traditional textbook treatment of op amp theory in that the book is based on real-world op amps and their applications. The material in this book is applicable to op amp ICs from all manufacturers. - EDACafe.com
Table of Contents
1: The Op Amp's Place in the World
2: Review of Circuit Theory
3: Development of the Ideal Op Amp Equations
4: Single Supply Op Amp Design Techniques
5: Feedback and Stability Theory
6: Development of the Non-Ideal Op Amp Equations
7: Voltage Feedback Op Amp Compensation
8: Current Feedback Op Amp Analysis
9: Voltage and Current Feedback Op Amp Comparison
10: Op Amp Noise Theory and Applications
11: Understanding Op Amp Parameters
12: Instrumentation I: Sensors to A/D Conversion
13: Instrumentation II
14: Instrumentation III
15: Circuit Board Layout Techniques
16: Wireless Communication: Signal Processing for IF Sampling
17: Interfacing D/A Converters to Loads
18: Sine Wave Oscillators
19: Active Filter Design Techniques I
20: Active Filter Design Techniques II
21: Active Filter Design Techniques III
22: Active Filter Design Techniques IV
23: Active Filter Design Techniques V
24: Active Filter Design Techniques VI
25: Designing for Low Voltage Op Amp Circuits
A: Single Supply Circuit Collection