Microelectronic Circuits Analysis and Design

Name: Microelectronic Circuits Analysis and Design
Price: 96.0 USD
Availability: InStock
ISBN: 9780495667728

ISBN-10: 0495667722

ISBN-13: 9780495667728

Edition: 2nd 2011

Authors: Muhammad H. Rashid

List price: $228.95

30 day, 100% satisfaction guarantee!

Marketplace

1 new & used from $96.00

what's this?

Rush Rewards U
Members Receive:

You have reached 400 XP and carrot coins. That is the daily max!

Description:

MICROELECTRONIC CIRCUITS: ANALYSIS AND DESIGN combines a "breadth-first" approach to teaching electronics with a strong emphasis on electronics design and simulation. Professor Rashid first introduces students to the general characteristics of circuits (ICs) to prepare them for the use of circuit design and analysis techniques. He then moves on to a more detailed study of devices and circuits and how they operate within ICs. This approach makes the text easily adaptable to both one- and two-term electronics courses. Student's gain a strong systems perspective, and can readily fill in device-level detail as the course (and their job) requires. In addition, Rashid, author of five successful…

Book details

List price: $228.95
Edition: 2nd
Copyright year: 2011
Publisher: Course Technology
Publication date: 4/19/2010
Binding: Hardcover
Pages: 1283
Size: 8.25" wide x 10.50" long x 1.75" tall
Weight: 5.544
Language: English

Dr. Rashid is an internationally recognized teacher, author, and researcher in Power and Energy. He is a registered professional engineer in Canada, a Fellow of the IEE, and has won the IEEE Outstanding Engineer award. Rashid is also a member of the U.S. engineering accreditation team, ABET.




Introduction to Electronics and Design


Introduction


History of Electronics


Electronic Systems


Electronic Signals and Notation


Classifications of Electronic Systems


Specifications of Electronic Systems


Types of Amplifiers


Design of Electronic Systems


Design of Electronic Circuits


Electronic Devices


Emerging Electronics


References


Problems



Introduction to Amplifiers and Frequency Response


Introduction


Amplifier Characteristics


Amplifier Types


Cascaded Amplifiers


Frequency Response of Amplifiers


Miller's Theorem


Frequency Response Methods


PSpice/SPICE Amplifier Models


Amplifier Design


Summary


References


Review Questions


Problems



Introduction to Operational Amplifiers and Applications


Introduction


Characteristics of Ideal Op-Amps


Op-Amp PSpice/SPICE Models


Analysis of Ideal Op-Amp Circuits


Op-Amp Applications


Op-Amp Circuit Design


Summary


References


Review Questions


Problems



Semiconductor Diodes


Introduction


Ideal Diodes


Transfer Characteristics of Diode Circuits


Practical Diodes


Analysis of Practical Diode Circuits


Modeling of Practical Diodes


Zener Diodes


Light-Emitting Diodes


Power Rating


Diode Data Sheets


Summary


References


Review Questions


Problems



Applications of Diodes


Introduction


Diode Rectifier


Output Filters for Rectifiers


Diode Peak Detectors and Demodulators


Diode Clippers


Diode Clamping Circuits


Diode Voltage Multipliers


Diode Function Generators


Summary


References


Review Questions


Problems



Semiconductors and pn Junction Characteristics


Introduction


Semiconductor Materials


Zero-Biased pn Junction


Reverse-Biased pn Junction


Forward-Biased pn Junction


Junction Current Density


Temperature Dependence


High-Frequency AC Model


Summary


References


Review Questions


Problems



Metal Oxide Semiconductor Field-Effect Transistors


Introduction


Metal Oxide Field-Effect Transistors


Enhancement MOSFETs


Depletion MOSFETs


MOSFET Models and Amplifier


A MOSFET Switch


DC Biasing of MOSFETs


Common-Source (CS) Amplifiers


Common-Drain Amplifiers


Common-Gate Amplifiers


Multistage Amplifiers


DC Level Shifting and Amplifier


Frequency Response of MOSFET Amplifiers


Design of MOSFET Amplifiers


Summary


References


Review Questions


Problems



Bipolar Junction Transistors and Amplifiers


Introduction


Bipolar Junction Transistors


Principles of BJT Operation


Input and Output Characteristics


BJT Circuit Models


The BJT Switch


DC Biasing of Bipolar Junction Transistors


Common-Emitter Amplifiers


Emitter Followers


Common-Base Amplifiers


Multistage Amplifiers


The Darlington Pair Transistor


DC Level Shifting and Amplifier


Frequency Model and Response of Bipolar Junction Transistors


Frequency Response of BJT Amplifiers


Low Cutoff Frequencies


MOSFETs versus BJTs


Design of Amplifiers


Summary


References


Review Questions


Problems



Differential Amplifiers


Introduction


Internal Structure of Differential Amplifiers


MOSFET Current Sources


MOS Differential Amplifiers


Depletion MOS Differential Amplifiers


BJT Current Sources


BJT Differential Amplifiers


BiCMOS Differential Amplifiers


Frequency Response of Differential Amplifiers


Design of Differential Amplifiers


Summary


References


Review Questions


Problems



Feedback Amplifiers


Introduction


Feedback


Characteristics of Feedback


Feedback Topologies


Analysis of Feedback Amplifiers


Series-Shunt Feedback


Series-Series Feedback


Shunt-Shunt Feedback


Shunt-Series Feedback


Feedback Circuit Design


Stability Analysis


Compensation Techniques


Summary


References


Review Questions


Problems



Power Amplifiers


Introduction


Classification of Power Amplifiers


Power Transistors


Class A Amplifiers


Class B Push-Pull Amplifiers


Complementary Class AB Push-Pull Amplifiers


Class C Amplifiers


Class D Amplifiers


Class E Amplifiers


Short-Circuit and Thermal Protection


Power Op-Amps


Thermal Considerations


Design of Power Amplifiers


Summary


References


Review Questions


Problems



Active Filters


Introduction


Active versus Passive Filters


Types of Active Filters


First-Order Filters


The Biquadratic Function


Butterworth Filters


Transfer Function Realization


Low-Pass Filters


High-Pass Filters


Band-Pass Filters


Band-Reject Filter


All-Pass Filters


Switched-Capacitor Filters


Filter Design Guidelines


Summary


References


Review Questions


Problems



Oscillators


Introduction


Principles of Oscillators


Audio-Frequency Oscillators


Radio Frequency Oscillators


Crystal Oscillators


Active-Filter Tuned Oscillators


Design of Oscillators


Summary


References


Review Questions


Problems



Operational Amplifiers


Introduction


Internal Structure of Op-Amps


Parameters and Characteristics of Practical Op-Amps


CMOS Op-Amps


BJT Op-Amps


Analysis of the LM741 Op-Amp


BiCMOS Op-Amps


Design of Op-Amps


Summary


References


Review Questions


Problems



Introduction to Digital Electronics


Introduction


Logic States


Logic Gates


Performance Parameters of Logic Gates


NMOS Inverters


NMOS Logic Circuits


CMOS Inverters


CMOS Logic Circuits


Comparison of CMOS and NMOS Gates


BJT Inverters


Transistor-Transistor Logic Gates


Emitter-Coupled Logic OR/NOR Gates


BiCMOS Inverters


Interfacing of Logic Gates


Comparison of Logic Gates


Design of Logic Circuits


Summary


References


Review Questions


Problems



Integrated Analog Circuits and Applications


Introduction


Circuits with Op-Amps and Diodes


Comparators


Zero-Crossing Detectors


Schmitt Triggers


Square-Wave Generators


Triangular-Wave Generators


Sawtooth-Wave Generators


Voltage-Controlled Oscillators


The 555 Timer


Phase-Lock Loops


Voltage-to-Frequency and Frequency-to-Voltage Converters


Sample-and-Hold Circuits


Digital-to-Analog Converters


Analog-to-Digital Converters


Circuit Design Using Analog Integrated Circuits


Summary


References


Review Questions


Problems



Introduction to OrCAD


Introduction


Installing the Software


Overview


The Circuit Analysis Process


Drawing the Circuit


Selecting the Type of Analysis


Simulation with PSpice


Displaying the Results of a Simulation


Copying and Capturing Schematics


Varying Parameters


Frequency Response Analysis


Modeling Devices and Elements


Creating Netlists


Adding Library Files



Review of Basic Circuits


Introduction


Kirchhoff's Current Law


Kirchhoff's Voltage Law


Superposition Theorem


Thevenin's Theorem


Norton's Theorem


Maximum Power Transfer Theorem


Transient Response of First-Order Circuits


Resonant Circuits


Frequency Response of First- and Second-Order Circuits


Time Constants of First-Order Circuits



Low Frequency Hybrid BJT Model



Ebers-Moll Model of Bipolar Junction Transistors



Passive Components



Design Problems