Op Amps for Everyone

Name: Op Amps for Everyone
Price: 62.84 USD
Availability: InStock
ISBN: 9780123914958

ISBN-10: 0123914957

ISBN-13: 9780123914958

Edition: 4th 2013

Authors: Bruce Carter, Ron Mancini

List price: $69.95

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Description:

This book will help you design circuits that are reliable, have low power consumption and can be implemented in as small a size as possible, at the lowest possible cost. It bridges the gap between the theoretical and the practical by giving practical solutions using components that are available in the real world from component distributors. It does not just give a design with a transfer function but gives design tools based on that transfer function, getting you to a working circuit, bill of materials, and even board layout.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…

Book details

List price: $69.95
Edition: 4th
Copyright year: 2013
Publisher: Elsevier Science & Technology
Publication date: 1/11/2013
Binding: Paperback
Pages: 304
Size: 7.50" wide x 9.21" long x 0.75" tall
Weight: 1.386
Language: English

Bruce Carter, whose real name is Richard Hough, was born in 1922 in Brighton. He grew up in Brighton and loved the city all his life. After school he joined the RAF and fought in the Second World War. Throughout his life, he wrote many books for both adults and children. His daughter, who followed in his footsteps, is the well-known writer Deborah Moggach.



List of Figures


List of Tables


List of Abbreviations



The Op Amp's Place in the World



An Unbounded Gain Problem



The Solution



The Birth of the Op Amp as a Component



The Vacuum Tube Era



The Transistor Era



The Integrated Circuit Era


Reference



Review of Op Amp Basics



Introduction



Basic Concepts



Ohm's Law



The Voltage Divider Rule



Superposition



Basic Op Amp Circuits



The Non-Inverting Op Amp



The Inverting Op Amp



The Adder



The Differential Amplifier



Not So Fast!



Separating and Managing AC and DC Gain



A Small Complication



Single Supply versus Dual Supply



Simultaneous Equations



Case 1: V<sub>out</sub>= +mV<sub>IN</sub> + b



Case 2: V<sub>0ut</sub> = +mV<sub>IN</sub> - b



Case 3: V<sub>0ut</sub> = -mV<sub>IN</sub> + b



Case 4: V<sub>0ut</sub> =