
SPICE (Software Program with Integrated Circuit Emphasis) is a powerful design aid that electronics engineers learn and is the world standard for circuit simulation. And when circuit designers are using the various versions of SPICE to simulate circuits prior to fabrication and accurately predict future performance, this guide could be a useful reference. This revised version explains the ins and outs of SPICE, plus gives new data on modelling advanced devices such as MESFETs, ISFETs, and thyristors. The book should help readers gain maximum value from SPICE, also covering both MOS and FET models. Step by step, it takes the reader through the modelling process, providing complete information on a variety of semiconductor devices for designing specific circuit applications. These include: Pn junction and Schottky diodes; bipolar junction transistor (BJT); junction field effect transistor (JFET); metal oxide semiconductor field effect transistor (MESFET); ion sensitive field effect transistor (ISFET); and semiconductor controlled rectifier (SCR-thyristor). Given the immense and growing acceptance of SPICE, this revision should appeal to the audience of engineers, technicians, and students who use this design program.
This text investigates the technical methodologies required to accurately model semiconductor devices within the SPICE circuit simulation environment. Authors Giuseppe Antognetti and Paolo Massobrio provide a comprehensive framework for engineers and students to bridge the gap between theoretical device physics and practical circuit simulation. By detailing the mathematical and physical parameters necessary for SPICE, the authors enable designers to predict circuit performance prior to physical fabrication.
What You Will Find
Scope Limits
Experts and practitioners recognize this work as a foundational reference for understanding the internal mechanics of SPICE device models. Readers frequently note the technical density of the prose, which serves as a reliable manual for electronics engineers and students engaged in circuit design.
Page Count:
209
Publication Date:
1987-01-01
Publisher:
McGraw Hill
ISBN-10:
0070021074
ISBN-13:
9780070021075
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