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 | | Design with Operational Amplifiers and Analog Integrated Circuits by Sergio Franco ISBN-10: 0072320842 ISBN-10: 0-07-232084-2 ISBN-13: 9780072320848 ISBN-13: 978-0-07-232084-8 Hardcover 2001-08-08 McGraw-Hill Science/Engineering/Math Find Lowest Price |
Editorials | ||
Product Description Franco's "Design with Operational Amplifiers and Analog Integrated Circuits, 3e" is intended for a design-oriented course in applications with operational amplifiers and analog ICs. It also serves as a comprehensive reference for practicing engineers. This new edition includes enhanced pedagogy (additional problems, more in-depth coverage of negative feedback, more effective layout), updated technology (current-feedback and folded-cascode amplifiers, and low-voltage amplifiers), and increased topical coverage (current-feedback amplifiers, switching regulators and phase-locked loops). | ||
Reviews | ||
Great book Great book for reference and self study if you remember your circuit analysis and laplace transforms. Very detailed with out making ones eyes gloss over. Do wish it had a few more d examples but overall cant complain. | ||
still an outstanding, encyclopedic treatise Mulling through some old reviews, I noticed that I left a technical error (more of a technical glossing-over) in my review of Franco's opus. It's high time I corrected it, since it's been there for more than a year, no doubt befuddling readers who thought they knew something about analog electronics. Specifically, I had said that the designation of the input terminals as '+' and '-' really made no difference: it's more reflective of convention, sciz. (assuming something other than a difference amplifier), the significant input network is attached to '-'--with '+' grounded--if the configuration is inverting, but to '+' (with '-' grounded) if the configuration is non-inverting. That's the truth, but it isn't the whole truth. When we examine border cases--those that tax the operational limits of the device, straying outside the "passband," analogically speaking (yes, I know, that typically refers to a frequency range, but here I use it to address an input voltage difference range)--the otherwise cosmetic or mnemonic choice of '+' or '-' terminal becomes rather more manifest. Remember that the amplifier actually amplifies the input voltage difference in the microscopic sense--even though it implements a semantically notable linear operation in the macroscopic sense--relying upon the feedback network to remanufacture an appropriate input voltage difference that maintains the nominal purpose of the circuit. When things go ape and the input voltage difference is much too high or, alternatively, much too low (and that may be a tough nut to crack), the output characteristic will be dependent upon what was connected to '+' and what, to '-'. Now, wasn't that as clear as mud? Remember, I'm constrained to use words, and words alone, as my medium of communication, and, since I have only a fraction of a thousand words, I have only a fraction of a picture! | ||
Excellent Book This is an excellent book on linear circuit design, the best I have read to-date. It covers feedback theory, ideal op amps, active filter design & most importantly practical op amp limitations. It also covers voltage regulators, voltage references, ADCs, DACs, op amp noise & more. What I liked most was the combination of mathematical circuit analysis & practical design. Too many books show useful circuits without bothering to explain anything about how they work. It also has plenty of exercises to tax the brain. | ||
As good as it gets... Really a top notch book on op-amps and almost anything you'd ever do with them. Has math where it's needed and rules of thumb where it isn't. Actually is just a great analog design book altogether. Really the definative text on the subject of designing with op-amps. | ||
Excellent Resource for Student or Practicing Engineer This book can be an excellent resource for any Analog Integrated Circuit Design Electrical Engineering student or practicing engineer. The book can assist in the modeling of IC devices such as transistors, resistors, and capacitors. It also sensibly covers the building blocks of analog integrated circuits: gain stages, output stages, level shifters, current sources and mirrors. The reader is expected to have a general understanding of electronics, frequency-domain analysis procedures, and understand basic Pspice operations. The book generally covers enough material for a half-year of courses at the upper-division/graduate level although the book could certainly be useful for a single class. The material generally starts out as basic and proceeds to a complex level. There are helpful figures and diagrams on nearly every page and the organization is generally sensible and intuitive. There are many worked examples and hundreds of end-of-chapter problems. The text is supported by a website that offers downloadable design projects, additional examples, and design software. Franco has done an admiral job at presenting a complicated subject. Here's a brief description of SOME of the topics found in each chapter: 1) Basic amplifier concepts and arrangements are explored. Also covers negative feedback, the loop gain, and basic circuit analysis. 2) Current-to-Voltage & Voltage-to-Current Converters, Current, Difference, Instrumentation, and Transducer Bridge Amplifiers. 3) Active Filters. Transfer Function, 1st order, KRC, multiple-feedback, state-variable, audio, and biquad filters. 4) Filter Approximations, switched-capacitor, universal sc filters, and cascade design. 5) Low-input bias-current Op amps, low-input-offset-voltage Op Amps, Op Amp Circuit Diagrams, and Input offset Voltage. 6) Open and Closed loop response. Transient Response, Input and Output Impedances, and effect of Finite GBP on Filters and Integrator Circuits. 7) Noise Dynamics and Properties. Sources of Noise and Low-Noise Op Amps. 8) Stability problems. Stability of CFA Circuits and in Constant-GBP Op Amp Circuits. Internal and External Frequency Compensation. 9) Schmitt Triggers, analog switches, voltage comparators, and precision rectifiers. 10) Sine, Triangular, Sawtooth, and Monolithic Wave Generators. Also Multivibrators and V-F and F-V Converters. 11) Voltage References and Regulators. Switching, linear, and monolithic switching regulators. 12) Performance Specifications, D-A and A-D Conversion Techniques. Oversampling Converters and Multiplying DAC Applications. 13) Nonlinear Amplifiers. Phase-Locked Loops, Monolithic PLLs, Analog Multipliers. Log/Antilog and Operational Transconductance Amplifiers. | ||