Principles of transistor circuits : introduction to the design of amplifiers, receivers, and digital circuits /

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Principles of Transistor Circuits: Sixth Edition discusses the principles, concepts, and practices involved integrated circuits. The current edition includes up-to-date circuits, the section on thyristors has been revised to give more information on modern types, and dated information has been elimi...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Amos, S. W. (Stanley William)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London ; Boston : Butterworths, 1981.
Edición:Sixth edition.
Temas:
Transistor circuits.
Circuits transistoris�es.
TECHNOLOGY & ENGINEERING > Mechanical.
Transistor circuits
Transistorschaltung
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Principles of Transistor Circuits; Coptyright Page; Preface; Acknowledgments; Table of Contents; Chapter 1 Semiconductors and Junction Diodes; INTRODUCTION; DEFINITION OF A SEMICONDUCTOR; PN JUNCTIONS; JUNCTION DIODES; BACKWARD DIODE; LIGHT-EMITTING DIODES; Chapter 2. Basic Principles of Transistors; BIPOLAR TRANSISTORS; Introduction; Operation of a pnp Transistor; Bias Supplies for a pnp Transistor; Operation of an npn Transistor; Current Amplification Factor; Collector Current-Collector Voltage Characteristics; Collector Current-Base Voltage Characteristics.
  • Equivalent Circuit of a TransistorFIELD-EFFECT TRANSISTORS; Chapter 3. Common-base and Common-gate Amplifiers; Introduction; Input Resistance; Output Resistance; COMMON-GATE AMPLIFIERS; Amplifier Properties; Chapter 4. Common-emitter and Common-source Amplifiers; Introduction; Input Resistance; Input Resistance of a Bipolar Transistor as Common-emitter Amplifier; Output Resistance; Applications of Common-emitter Amplifiers; COMMON-SOURCE AMPLIFIERS; Amplifier Properties; Applications; Chapter 5. Common-collector and Commondrain Amplifiers (Emitter and Source Followers); Introduction.
  • Current GainNumerical Examples; Output Resistance; Some Numerical Examples; Voltage Gain; Applications of Emitter Followers; COMPARISON OF BIPOLAR TRANSISTOR AMPLIFIERS; COMMON-DRAIN AMPLIFIERS; COMPARISON OF FIELD-EFFECT TRANSISTOR AMPLIFIERS; Chapter 6. Bias and D.C. Stabilisation; Introduction; Leakage Current; Stability Factor; Calculation of Stability Factor; Stability Factor for Useful Component of Collector Current; Potential Divider and Emitter Resistor Circuit; Design of a Potential-divider Circuit; Use of Diodes to Compensate for Falling Battery Voltage.
  • Use of Diodes for Temperature CompensationUse of Temperature-dependent Resistor for Temperature Compensation; FIELD-EFFECT TRANSISTORS; Stabilisation of Depletion; Minimising Signal-frequency Feedback; Potential Divider and Source Resistor Circuit; Chapter 7. Small-signal A.F. Amplifiers; DEFINITION OF SMALL-SIGNAL AMPLIFIER; DISTINCTION BETWEEN VOLTAGE A N D CURRENT AMPLIFIERS; TRANSISTOR PARAMETERS IN SMALL-SIGNAL AMPLIFIERS; SINGLE-TRANSISTOR STAGES; TWO-STAGE AMPLIFIERS; USE OF NEGATIVE FEEDBACK; TWO-STAGE AMPLIFIERS; COMPLEMENTARY AMPLIFIERS; DARLINGTON CIRCUIT.
  • LOW-NOISE TRANSISTOR AMPLIFIERSCIRCUITS EMPLOYING F.E.T. AND BIPOLAR TRANSISTORS; Chapter 8. Large-signal A.F. Amplifiers; DEFINITION OF A LARGE-SIGNAL AMPLIFIER; TRANSISTOR PARAMETERS IN LARGE-SIGNAL AMPLIFIERS; CLASS-A AMPLIFIERS; CLASS-B AMPLIFIERS; SYMMETRICAL CLASS-B AMPLIFIER; ASYMMETRIC CLASS-B AMPLIFIER; COMPLEMENTARY CLASS-B AMPLIFIER; INTEGRATED
  • CIRCUIT A.F. POWER AMPLIFIER; HEAT SINKS; Chapter 9. D.C. and Pulse Amplifiers; INTRODUCTION; D.C. AMPLIFIERS; OPERATIONAL AMPLIFIERS; PULSE AMPLIFIERS; VOLTAGE PULSE AMPLIFIERS; COMPLEMENTARY EMITTER FOLLOWER.

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