This note
design and test IC analog components, and building blocks in CMOS technology.
Topics covered includes: Phase Margin Parameters, Linearity Metrics, Op Amp
Limitation SR, GB, 3dB Time Constant Computation, Conventional Op Amp Design,
Multi-Loop Gm-C Amplifiers, Nested Gm-C Amplifiers, Noise Fundamentals,
Common-Mode Feedback, Low Voltage Cells, Buck Drien and Bulk Bias, Floating Gate
Circuits, Class-D Amplifiers, Line Drivers, Multipliers Linearized OTAs,
Negative Impedance Converter, Rail-To-Rail Amplifiers.
This lecture note explains the following topics: introduction to operational amplifier,
Filters and oscillators, A or D and D or A converters, Pill and timer circuits
and special function ICS.
Author(s): Sathyabama Institute of Science
and Technology
This PDF book Structure
and Signal Path Analysis for Analog and Digital Circuits covers the following
topics related to Analog and Digital Circuits : Introduction, State of the Art,
Enhanced Building Block Analysis, Structural Signal Path Analysis, Symmetry
Computation, Application: Input Data Generation for Timing Characterization,
Application: Constraint Generation for Analog Circuits, Conclusion.
This note covers
the following topics: The place of testing in IC’s life cycle, Classification of
defects, The faults of the analog circuits, Testability measuring, The
approaches of analog circuit testing, Functional Diagnosis, DFT of Analog
Circuits, Built-In Self-Test, Analog-digital test bus.
This note deals with the
analysis and design of analog CMOS integrated circuits, emphasizing fundaments
as well as new paradigms that students and practicing engineers need to master
in todays industry. Topics covered includes: basic MOSFET current-voltage
relationships, f MOSFET small-signal models and the basics of CS Amplifier
analysis, CS Amplifier analysis and design, Source Follower Amplifier,
Common-Gate Amplifier, Cascode Amplifier, High Frequency Response of Amplifiers
–MOSFET capacitances, Frequency Response of CS, Frequency response of Source
Followers and Common-Gate amplifiers, Noise Effect in Amplifiers, Feedback in
CMOS amplifier, Feedback Network Topologies and Feedback Network Loading
effects, Feedback Design in CMOS op-amps
This note
design and test IC analog components, and building blocks in CMOS technology.
Topics covered includes: Phase Margin Parameters, Linearity Metrics, Op Amp
Limitation SR, GB, 3dB Time Constant Computation, Conventional Op Amp Design,
Multi-Loop Gm-C Amplifiers, Nested Gm-C Amplifiers, Noise Fundamentals,
Common-Mode Feedback, Low Voltage Cells, Buck Drien and Bulk Bias, Floating Gate
Circuits, Class-D Amplifiers, Line Drivers, Multipliers Linearized OTAs,
Negative Impedance Converter, Rail-To-Rail Amplifiers.
This note teach you how to
design basic analog electronic circuits for connecting one device to another
properly and efficiently: this is generally the function of most lab-built
electronic circuits.
This
note provides information about the following experiments: Low Frequency
Power Amplifiers, Analog Integrated Circuit Building Blocks, Pulse and
Frequency, Response of BJT Amplifiers, Transistor Feedback Amplifiers,
Characterization of PLL Building Blocks, - Wide Band Amplifiers, Low Frequency
Oscillators, Active Filters, PLL Applications, Switching Voltage Regulators.
This
note covers the following topics: Operational Amplifier, Difference Amplifiers,
Biasing of Differential Amplifiers, Practical Operational Amplifier, Parameters
of an OPAMP, Open loop OPAMP Configuration, Closed Loop Amplifier, Voltage Shunt
Feedback, OPAMP Applications , Oscillator, Harmonic Oscillators, Tuned
Oscillators, Voltage Regulators, Design of Series Voltage Regulator, Series
regulator with Current Pre-regulator.
This note explains the following topics:
Frequency Response, SPICE , Operational Amplifiers, Summing Amplifier Revisited,
Frequency Responses and Active Filter Circuits, Combination Notch and Bandpass
Filter, CMRR, Reverse Biased Capacitance, Small Signal Diode Models, BJT Circuit
Analysis, dc Bias Point Calculations, Common Collector Amplifier, IC
implementations, Diode-connected BJT.
This note covers the following topics: Analysis of
circuits with nonlinear elements, Incremental analysis of a nonlinear circuit,
MOSFET transconductance, Synthesis of Common Source Amplifier, Swing limits of
CSA, Bias Stabilization, Negative feedback, Differential amplifier, Frequency
response of feedback systems, ominant pole compensation, Two-stage opamps and
The Bipolar Junction Transistor.
This book explains the following topics: DC Biasing - BJTs, voltage
feedback, Bias stabilization, Design of bias, Small Signals Modeling of BJT and
their analysis, DC Biasing of FETs, Signal Modeling and Analysis of FETs, System
Approach-Effects of RS and RL, BJT and JFET Frequency Response, Compound
Configurations, Compound Configurations, Barkhausen Criterion of oscillation,
Oscillator operation, Power Amplifiers, Operational Amplifiers and operation,
op. amp. Applications.
Author(s): Veer Surendra Sai University of
Technology
This lecture note covers the
following topics: Elementary Electronic Circuits with a Diode, Elementary
Electronic Circuits with a BJT Transistor and FET Transistor, Biasing Transistor
Circuits, Double-Transistor Circuits, Negative Feedback in Single-Transistor
Circuits, Positive-Feedback Oscillators and High-Frequency Response.
This note focuses on understanding physical phenomena leading towards
intuition to aid to design with nonlinear design techniques. It mainly covers
the following topics: Impact of IC dynamics through Programmable and
Configurable Analog Computation, First-Order ODE circuits, Non-Homogeneous ODE
circuits, Linear second order and higher order ODE circuits, Nonlinear effects
in second order circuits, Multi-time scale analysis / oscillators, Bifurcation
analysis, Dynamics of Linear PDEs, Dynamics of nonlinear PDEs.