Electronic Devices and Circuit TheoryFor upper-level courses in devices and circuits, at 2-year or 4-year engineering and technology institutes. Highly accurate and thoroughly updated, this text has set the standard in electronic devices and circuit theory for over 25 years. Boylestad offers students a complete and comprehensive survey, focusing on all the essentials they will need to succeed on the job. This very readable presentation is supported by strong pedagogy and content that is ideal for new students of this rapidly changing field. Its colorful, student-friendly layout boasts a large number of stunning photographs. A broad range of ancillary materials is available for instructor support. *NEW -Over 40 new end-of-chapter practical examples added throughout - Provides an understanding of the design process not normally available at this level. This helps students apply content to real-world situations and makes material more meaningful. *NEW - Expanded coverage of computer software - Adds coverage of Mathcad to illustrate the versatility of the package for use in electronics - keeping students up to date on a rapidly changing part of the field. *NEW - Summaries added to the end of every chapter - Uses boldface |
Contents
DIODE APPLICATIONS | 55 |
BIPOLAR JUNCTION TRANSISTORS | 131 |
8 | 218 |
Copyright | |
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Common terms and phrases
A₁ ac equivalent amplifier appearing in Fig applied beta C₁ Calculate capacitance capacitor characteristics of Fig circuit of Fig collector current common-emitter configuration of Fig connection current gain curve cutoff frequency dc bias decibel defined determined device differential amplifier diode Electronics Workbench electrons emitter equation equivalent circuit Example f₁ Figure filter fixed-bias configuration I₁ IDSS input impedance input signal input voltage JFET junction Kirchhoff's voltage law load line magnitude Mathcad maximum MOSFET n-channel network of Fig obtained op-amp operating point output impedance output voltage parameters plot Problem PSpice Q-point R₁ region resistance resistor result shown in Fig Solution temperature terminals transistor typically V₁ voltage gain voltage-divider waveform Z₁ Zener Zener diode ΚΩ μΑ ΜΩ