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Rating: 
Summary: Good book on op-amps
Review: This book is good for both beginners and professionals. The first chapters have introduction to circuts and op-amps analisys and introduce canonic op-amp schematics. The last chapters cover specific areas in quite good depth. The book is available for free at the www.ti.com (reference number spold006b), so you can preview it before buying a paper version.
Rating:
Summary: One for the designer's bookshelf
Review: Written by experienced, practicing engineers from Texas Instruments, this book provides the best general coverage of circuit design with op amps that I have seen. While there are some parts that provide only a basic introduction to complex areas, there is enough here for the learner to take and make a start with before attempting a deeper study of specialist areas.Theory is gently introduced and practical examples given. Especially valuable are the circuit layout techniques given. They are obviously the result of TI's hard-won experience. You could use this as an introductory text for formal learning or self education, or just have it to hand as a reference. To fully make use of this book you should have a grounding in circuit theory and solid state design equivalent to a first or second year university or TAFE student. The self-educated could make use of it, provided they have not skipped matrix algebra or complex numbers. Chapter headings include
Development of the ideal op amp equations
- inverting and non-inverting, adders, differential amps, complex feedback, video amps. A comprehensive coverage of the theory.
Single supply op am p design techniques
- circuit analysis and simultaneous equations. You really need to go back to a good text of matrix algebra and follow up on this.
Feedback and stability theory.
- a good introduction, but you need to read, say, Sedra & Smith after this.
Instrumentation: Sensors to A/D convertors
- transducer types, design procedures, ADC issues. Excellent introduction.
Wireless communication: signal conditioning for If sampling
- restricted to GSM and W-CDMA mobile/cellular phones. Some can be applied to digital radio, but there is better elsewhere for other wireless applications.
Interfacing D/A converters and loads
- load characteristics, D/A converters, error budgets. Good treatment of design issues which are often hard to find information on.
Sine wave oscillators
- comprehensive treatment of phase shift and quadrature oscillators at baseband.
Active filter design techniques.
- low pass, high pass, band pass, band reject, all-pass. Comprehensive coverage, but you should then go on to Chen or other standards for more detail.
Circuit board layout techniques
- excellent treatment. There is a lot to be learned here!
Designing low-voltage op amp circuits.
- good practical hints and tips. There are also forty well-chosen practical circuits including a number of analogue computer circuits (that neglected topic) that have modern, non-computing uses.
Rating:
Summary: One for the designer's bookshelf
Review: Written by experienced, practicing engineers from Texas Instruments, this book provides the best general coverage of circuit design with op amps that I have seen. While there are some parts that provide only a basic introduction to complex areas, there is enough here for the learner to take and make a start with before attempting a deeper study of specialist areas. Theory is gently introduced and practical examples given. Especially valuable are the circuit layout techniques given. They are obviously the result of TI's hard-won experience. You could use this as an introductory text for formal learning or self education, or just have it to hand as a reference. To fully make use of this book you should have a grounding in circuit theory and solid state design equivalent to a first or second year university or TAFE student. The self-educated could make use of it, provided they have not skipped matrix algebra or complex numbers. Chapter headings include
Development of the ideal op amp equations
-inverting and non-inverting, adders, differential amps, complex feedback, video amps. A comprehensive coverage of the theory.
Single supply op am p design techniques
-circuit analysis and simultaneous equations. You really need to go back to a good text of matrix algebra and follow up on this.
Feedback and stability theory.
-a good introduction, but you need to read, say, Sedra & Smith after this.
Instrumentation: Sensors to A/D convertors
-transducer types, design procedures, ADC issues. Excellent introduction.
Wireless communication: signal conditioning for If sampling
-restricted to GSM and W-CDMA mobile/cellular phones. Some can be applied to digital radio, but there is better elsewhere for other wireless applications.
Interfacing D/A converters and loads
-load characteristics, D/A converters, error budgets. Good treatment of design issues which are often hard to find information on.
Sine wave oscillators
-comprehensive treatment of phase shift and quadrature oscillators at baseband.
Active filter design techniques.
-low pass, high pass, band pass, band reject, all-pass. Comprehensive coverage, but you should then go on to Chen or other standards for more detail.
Circuit board layout techniques
-excellent treatment. There is a lot to be learned here!
Designing low-voltage op amp circuits.
-good practical hints and tips. There are also forty well-chosen practical circuits including a number of analogue computer circuits (that neglected topic) that have modern, non-computing uses.
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