000 03882nam a2200253Ia 4500
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_d13
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020 _a9789332549913
028 _q2016
_bAllied Informatics, Jaipur
040 _bEnglish
_aBSDU
_cBSDU
082 _a621.381 15
_bGAY
100 _aGayakwad, Ramakant A.
245 0 _aOp-AMPS and Linear Integrated Circuits
250 _a4th
260 _bPearson Education
_a New Delhi
_c2016,c2000
300 _a543
500 _aFor one-semester courses in Op-Amps, Op-Amp Applications or Linear Integrated Circuits. This successful technology-based text supports a thorough understanding of a wide variety of operational amplifiers and integrated circuit applications. It combines the right blend of theory and practice to present a simplified and methodical way to design, and develop students' understanding of the differences between theoretical, practical, and simulated results in the analysis of op-amp circuits.
501 _aSalient Features NEW - PSpice Simulation Examples and Problems—Added to most of the important chapters. Illustrates how many of the concepts presented in a given chapter can be simulated using the PSpice program, and demonstrates step-by-step approaches to circuit simulation. Ex.___ NEW - Reorganized, more logical approach—Opens text with an introduction to op-amps, and ends with IC system projects. Gives students a smoother and more methodical flow of information. Ex.___ NEW - Op-amps theory, experiments, and simulation. Makes the material more meaningful, and effective for learning. Ex.___ Analysis and design approach. Serves students with both theory and practice as it relates to op-amps, most popular linear, and lab tested circuits. Ex.___ An entire chapter on specialized integrated applications—Includes universal active and switched capacitor filters; phase-locked loop; 555 timer; voltage and switching regulators; and power amplifiers. A complete chapter on integrated system projects—Includes an audio function generator; LED temperature indicator; digital dc motor speed control; and appliance timer. Demonstrates the use of operational amplifiers with special purpose integrated circuits, in practical settings that serve a number of useful purposes. Ex.___ Focus on operational amplifier circuits—e.g., filters; oscillators; detectors; clippers; and sample-and-hold circuits. Introduces students to a collection of those commonly used. Ex___ Thorough discussion of various op-amp characteristics, circuit analysis, and design considerations. Provides students with a firm grasp of basic principles enabling them to adapt to changing technology as new devices appear on the market. Ex.___ Chapter objectives. Presents students with an outline of important topics so that they can organize their chapter goals and studies. Ex.___ Chapter-end summaries and lists of questions. Enables students to review and check their understanding of material before moving on. Ex.___ Worked-out examples and chapter-end problems—In every chapter. Allows students to better understand how to perform desired operations, and focus on design. Ex.___ Focus on practical and functional op-amp circuits. Provides students with a firm grasp of principles in practice op-amp circuits. Ex.___
504 _aTable of Content 1. Introduction to Operational Amplifiers. 2. Interpretation of Data Sheets and Characteristics of an Op-Amp. 3. An Op-Amp with Negative Feedback. 4. The Practical Op-Amp. 5. Frequency Response of an Op-Amp. 6. General Linear Applications. 7. Active Filters and Oscillators. 8. Comparators and Converters. 9. Specialized IC Applications. 10. Selected IC System Projects.
650 _aElectronics
942 _2ddc
_cBK