Handbook Of Operational Amplifier Applications (PDF 94p)
Handbook Of Operational Amplifier Applications (PDF 94p)
Handbook Of Operational Amplifier Applications (PDF 94p)
This note covers the following topics: Circuits and Analyses Using The
Ideal Operational Amplifier, Characteristics Of Practical Operational
Amplifiers, Frequency Dependent Properties, Bode Plots and Basic Practical
Circuitry, Voltage Detectors and Comparators, The Voltage Follower, Voltage and
Current References, The Non-inverting Amplifier, Inverting Amplifier,
Integrators, Practical Integrators, The Differential (balanced) Output Amplifier
and Dc Amplifiers.
The goal of this text, as its name implies, is to allow the reader to
become proficient in the analysis and design of circuits utilizing modern linear
ICs. It progresses from the fundamental circuit building blocks through to
analog/digital conversion systems. The text is intended for use in a second year
Operational Amplifiers course at the Associate level, or for a junior level
course at the Baccalaureate level.
This note discusses the following topics:Op Amp:
equivalent circuit, Op Amp circuits, Op Amp circuits (linear region), Op Amp
circuits: inverting amplifier , Non-inverting amplifier , Loading effects and Op
Amp buffer.
This note explains the design of following
amplifiers: Ideal op-Amp circuits, summing amplifiers, differential
amplifiers,Op-Amp difrentiators, Op-Amp integrators, Low pass amplifiers, High
pass amplifiers and Characteristics of Physical Op-Amps, effects of Finite Gain
and Bandwidth, effects of Finite Input Resistance, effects of Non-Zero Output
Resistance, output Waveform Distortion, output Waveform Distortion, DC Offsets
and Linear Op-Amp Macromodels.
This note covers the
following topics related to operational amplifier: Properites and Modeling of
Feedback Systems, Linear System Response, Stability, Compensation, Nonlinear
Systems, Direct-Coupled Amplifiers, Operational-Amplifier Design Techniques,
Integrated-Circuit Operational Amplifiers, Basic and Advanced Applications.
Author(s): James K. Roberge and Kent
H. Lundberg, Massachusetts Institute of Technology