Electronic Devices and Amplifier Circuits : with MATLAB /

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This is an introductory text containing the description and applications of state-of-the-art solid=state electronic devices. It includes many practical examples to illustrate their use.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Karris, Steven T.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Fremont, California, USA : Orchard Publications, 2012.
Edición:3rd ed.
Temas:
MATLAB.
MATLAB
Electronic apparatus and appliances.
Amplifiers (Electronics)
Amplifiers, Electronic
Amplificateurs.
amplifiers.
TECHNOLOGY & ENGINEERING > Electronics > Circuits > General.
TECHNOLOGY & ENGINEERING > Electronics > Circuits > Integrated.
Electronic apparatus and appliances
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Matter Electronic DevicesTHIRD pBook; Preface Electronic Devices THIRD; Chapter 01 Electronic Devices THIRD; Chapter 02 Electronic Devices THIRD; Chapter 2; 2.1 Electrons and Holes; 2.2 The Junction Diode; 2.3 Graphical Analysis of Circuits with Non-Linear Devices; 2.4 Piecewise Linear Approximations; 2.5 Low Frequency AC Circuits with Junction Diodes; 2.6 Junction Diode Applications in AC Circuits; 2.7 Peak Rectifier Circuits; 2.8 Clipper Circuits; 2.9 DC Restorer Circuits; 2.10 Voltage Doubler Circuits; 2.11 Diode Applications in Amplitude Modulation (AM) Detection Circuits.
  • 2.12 Diode Applications in Frequency Modulation (FM) Detection Circuits2.13 Zener Diodes; 2.14 The Schottky Diode; 2.15 Tunnel Diode; 2.16 The Varactor; 2.17 Optoelectronic Devices; 2.18 Summary; 2.19 Exercises; 2.20 Solutions to End-of-Chapter Exercises; Chapter 03 Electronic Devices THIRD; Chapter 3; 3.1 Introduction; 3.2 NPN Transistor Operation; 3.3 The Bipolar Junction Transistor as an Amplifier; 3.3.1 Equivalent Circuit Models
  • NPN Transistors; 3.3.2 Equivalent Circuit Models
  • PNP Transistors; 3.3.3 Effect of Temperature on the
  • Characteristics.
  • 3.3.4 Collector Output Resistance
  • Early Voltage3.4 Transistor Amplifier Circuit Biasing; 3.5 Fixed Bias; 3.6 Self-Bias; 3.7 Amplifier Classes and Operation; 3.3.1 Class A Amplifier Operation; 3.3.2 Class B Amplifier Operation; 3.3.3 Class AB Amplifier Operation; 3.3.4 Class C Amplifier Operation; 3.4 Graphical Analysis; 3.5 Power Relations in the Basic Transistor Amplifier; 3.6 Piecewise-Linear Analysis of the Transistor Amplifier; 3.7 Incremental Linear Models; 3.8 Transconductance; 3.9 High-Frequency Models for Transistors; 3.10 The Darlington Connection; 3.11 Transistor Networks.
  • 3.3.1 The h-Equivalent Circuit for the Common-Base Transistor3.3.2 The T-Equivalent Circuit for the Common-Base Transistor; 3.3.3 The h-Equivalent Circuit for the Common-Emitter Transistor; 3.3.4 The T-Equivalent Circuit for the Common-Emitter Transistor; 3.3.5 The h-Equivalent Circuit for the Common-Collector Transistor; 3.3.6 The T-Equivalent Circuit for the Common-Collector Transistor Amplifier; 3.4 Transistor Cutoff and Saturation Regions; 3.3.1 Cutoff Region; 3.3.2 Active Region; 3.3.3 Saturation Region; 3.4 The Ebers-Moll Transistor Model; 3.5 Schottky Diode Clamp.
  • 3.6 Transistor Specifications3.7 Summary; 3.8 Exercises; 3.9 Solutions to End-of-Chapter Exercises; Chapter 04 Electronic Devices THIRD; Chapter 05 Electronic Devices THIRD; Chapter 5; 5.1 Operational Amplifier; 5.2 An Overview of the Op Amp; 5.3 Op Amp in the Inverting Mode; 5.4 Op Amp in the Non-Inverting Mode; 5.5 Active Filters; 5.6 Analysis of Op Amp Circuits; 5.7 Input and Output Resistances; 5.8 Op Amp Open Loop Gain; 5.9 Op Amp Closed Loop Gain; 5.10 Transresistance Amplifier; 5.11 Closed Loop Transfer Function; 5.12 Op Amp Integrator; 5.13 Op Amp Differentiator.

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