PSPICE and MATLAB for Electronics (2nd Ed.) An Integrated Approach, Second Edition VLSI Circuits Series
Auteur : Attia John Okyere
Used collectively, PSPICE and MATLAB® are unsurpassed for circuit modeling and data analysis. PSPICE can perform DC, AC, transient, Fourier, temperature, and Monte Carlo analysis of electronic circuits with device models and subsystem subcircuits. MATLAB can then carry out calculations of device parameters, curve fitting, numerical integration, numerical differentiation, statistical analysis, and two- and three-dimensional plots. PSPICE and MATLAB® for Electronics: An Integrated Approach, Second Edition illustrates how to use the strong features of PSPICE and the powerful functions of MATLAB for electronic circuit analysis.
After introducing the basic commands and advanced features of PSPICE as well as ORCAD schematics, the author discusses MATLAB fundamentals and functions. He then describes applications of PSPICE and MATLAB for problem solving. Applications covered include diodes, operational amplifiers, and transistor circuits.
New to the Second Edition
- Updated MATLAB topics
- Schematic capture and text-based PSPICE netlists in several chapters
- New chapter on PSPICE simulation using the ORCAD schematic capture program
- New examples and problems, along with a revised bibliography in each chapter
This second edition continues to provide anintroduction to PSPICE and a simple, hands-on overview of MATLAB. It also demonstrates the combined power of PSPICE and MATLAB for solving electronics problems. The book encourages readers to explore the characteristics of semiconductor devices using PSPICE and MATLAB and apply the two software packages for analyzing electronic circuits and systems.
ORCAD PSPICE Capture Fundamentals. PSPICE Fundamentals. PSPICE Advanced Features. MATLAB Fundamentals. MATLAB Functions. Diode Circuits. Operational Amplifier. Transistor Characteristics and Circuits.
John Okyere Attia is a professor and head of the electrical and computer engineering department at Prairie View A&M University.
Date de parution : 09-2018
15.6x23.4 cm
Date de parution : 06-2010
Ouvrage de 356 p.
15.6x23.4 cm
Thèmes de PSPICE and MATLAB for Electronics :
Mots-clés :
RLC Circuit; Statement Group G1; ORCAD; PSPICE Program; PSPICE; MATLAB Script; MATLAB; Thevenin Equivalent Circuit; DC analysis; AC Analysis; electronic circuit analysis; Diode D1; electronics problems; Zener Diode; Monte Carlo analysis; ORCAD CAPTURE; statistical analysis; Common Emitter Amplifier; diodes; operational amplifiers; Probe Statement; transistor circuits; Midband Gain; Output Voltage; curve fitting; Transient Analysis; schematic capture; Model Parameter; Full Power Bandwidth; Fourier analysis; DC Sweep; numerical integration; Lowpass Lter; numerical differentiation; Highpass Lter; Model Type; Model Statement; Drain Current; Diode Current; Bias Point Calculations