The art of electronics

The art of electronics

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Détails bibliographiques
Auteurs principaux : Horowitz Paul (Auteur), Hill Winfield (Auteur)
Format : Livre
Langue : anglais
Titre complet : The art of electronics / Paul Horowitz,... Winfield Hill,...
Édition : 3rd edition
Publié : Cambridge : Cambridge University press , cop. 2015
Description matérielle : 1 vol. (XXXI-1192 p.)
Sujets :
Microordinateurs > Bus
Microprocesseurs
Circuits électroniques > Conception et construction
Électronique
  • ONE: Foundations
  • 1.1 Introduction
  • 1.2 Voltage, current and resistance
  • 1.3 Signals
  • 1.4 Capacitors and ac circuits
  • 1.5 Inductors and transformers
  • 1.6 Diodes and diode circuits
  • 1.7 Impedance and reactance
  • 1.8 Putting it all together an AM radio
  • 1.9 Other passive components
  • 1.10 A parting shot: confusing markings and itty-bitty components
  • TWO: Bipolar Transistors
  • 2.1 Introduction
  • 2.2 Some basic transistor circuits
  • 2.3 Ebers Moll model applied to basic transistor circuits
  • 2.4 Some amplifier building blocks
  • 2.5 Negative feedback
  • 2.6 Some typical transistor circuits
  • THREE: Field-Effect Transistors
  • 3.1 Introduction
  • 3.2 FET linear circuits
  • 3.3 A closer look at JFETs
  • 3.4 FET switches
  • 3.5 Power MOSFETs
  • 3.6 MOSFETs in linear applications
  • FOUR: Operational Amplifiers
  • 4.1 Introduction to op-amps the perfect component
  • 4.2 Basic op-amp circuits
  • 4.3 An op-amp smorgasbord
  • 4.4 A detailed look at op-amp behavior
  • 4.5 A detailed look at selected op-amp cir- cuits
  • 4.6 Op-amp operation with a single power supply
  • 4.7 Other amplifiers and op-amp types
  • 4.8 Some typical op-amp circuits
  • 4.9 Feedback amplifier frequency compensation
  • FIVE: Precision Circuits
  • 5.1 Precision op-amp design techniques
  • 5.2 An example: the millivoltmeter, revisited
  • 5.3 The lessons: error budget, unspecified parameters
  • 5.4 Another example: precision amplifier with null offset
  • 5.5 A precision-design error budget
  • 5.6 Component errors
  • 5.7 Amplifier input errors
  • 5.8 Amplifier output errors
  • 5.9 RRIO op-amps: the good, the bad, and the ugly
  • 5.10 Choosing a precision op-amp
  • 5.11 Auto-zeroing (chopper-stabilized) amplifiers
  • 5.12 Designs by the masters: Agilent s accurate DMMs
  • 5.13 Difference, differential, and instrumentation amplifiers: introduction
  • 5.14 Difference amplifier
  • 5.15 Instrumentation amplifier
  • 5.16 Instrumentation amplifier miscellany
  • 5.17 Fully differential amplifiers
  • SIX: Filters
  • 6.1 Introduction
  • 6.2 Passive filters
  • 6.3 Active-filter circuits
  • SEVEN: Oscillators and Timers
  • 7.1 Oscillators
  • 7.2 Timers
  • EIGHT: Low-Noise Techniques
  • 8.1 Noise
  • 8.2 Signal-to-noise ratio and noise figure
  • 8.3 Bipolar transistor amplifier noise
  • 8.4 Finding en from noise-figure specifications
  • 8.5 Low-noise design with bipolar transistors
  • 8.6 Low-noise design with JFETS
  • 8.7 Charting the bipolar FET shootout
  • 8.8 Noise in differential and feedback amplifiers
  • 8.9 Noise in operational amplifier circuits
  • 8.10 Signal transformers
  • 8.11 Noise in transimpedance amplifiers
  • 8.12 Noise measurements and noise sources
  • 8.13 Bandwidth limiting and rms voltage measurement
  • 8.14 Signal-to-noise improvement by bandwidth narrowing
  • 8.15 Power-supply noise
  • 8.16 Interference, shielding, and grounding
  • NINE: Voltage Regulation and Power Conversion
  • 9.1 Tutorial: from zener to series-pass linear regulator
  • 9.2 Basic linear regulator circuits with the classic 723
  • 9.3 Fully integrated linear regulators
  • 9.4 Heat and power design
  • 9.5 From ac line to unregulated supply
  • 9.6 Switching regulators and dc dc converters
  • 9.7 Ac-line-powered ( offline ) switching converters
  • 9.8 A real-world switcher example
  • 9.9 Inverters and switching amplifiers
  • 9.10 Voltage references
  • 9.11 Commercial power-supply modules
  • 9.12 Energy storage: batteries and capacitors
  • 9.13 Additional topics in power regulation
  • TEN: Digital Logic
  • 10.1 Basic logic concepts
  • 10.2 Digital integrated circuits: CMOS and Bipolar (TTL)
  • 10.3 Combinational logic
  • 10.4 Sequential logic
  • 10.5 Sequential functions available as integrated circuits
  • 10.6 Some typical digital circuits
  • 10.7 Micropower digital design
  • 10.8 Logic pathology
  • ELEVEN: Programmable Logic Devices
  • 11.1 A brief history
  • 11.2 The hardware
  • 11.3 An example: pseudorandom byte generator
  • 11.4 Advice
  • TWELVE: Logic Interfacing
  • 12.1 CMOS and TTL logic interfacing
  • 12.2 An aside: probing digital signals
  • 12.3 Comparators
  • 12.4 Driving external digital loads from logic levels
  • 12.5 Optoelectronics: emitters
  • 12.6 Optoelectronics: detectors
  • 12.7 Optocouplers and relays
  • 12.8 Optoelectronics: fiber-optic digital links
  • 12.9 Digital signals and long wires
  • 12.10 Driving Cables
  • THIRTEEN: Digital meets Analog
  • 13.1 Some preliminaries
  • 13.2 Digital-to-analog converters
  • 13.3 Some DAC application examples
  • 13.4 Converter linearity a closer look
  • 13.5 Analog-to-digital converters
  • 13.6 ADCs I: Parallel ( flash ) encoder
  • 13.7 ADCs II: Successive approximation
  • 13.8 ADCs III: integrating
  • 13.9 ADCs IV: delta sigma
  • 13.10 ADCs: choices and tradeoffs
  • 13.11 Some unusual A/D and D/A converters
  • 13.12 Some A/D conversion system examples
  • 13.13 Phase-locked loops
  • 13.14 Pseudorandom bit sequences and noise generation
  • FOURTEEN: Computers, Controllers, and Data Links
  • 14.1 Computer architecture: CPU and data bus
  • 14.2 A computer instruction set
  • 14.3 Bus signals and interfacing
  • 14.4 Memory types
  • 14.5 Other buses and data links: overview
  • 14.6 Parallel buses and data links
  • 14.7 Serial buses and data links
  • 14.8 Number formats
  • FIFTEEN: Microcontrollers
  • 15.1 Introduction
  • 15.2 Design example 1: suntan monitor (V)
  • 15.3 Overview of popular microcontroller families
  • 15.4 Design example 2: ac power control
  • 15.5 Design example 3: frequency synthesizer
  • 15.6 Design example 4: thermal controller
  • 15.7 Design example 5: stabilized mechanical platform
  • 15.8 Peripheral ICs for microcontrollers
  • 15.9 Development environment
  • 15.10 Wrapup
  • APPENDIX A: Math Review
  • APPENDIX B: How to Draw Schematic Diagrams
  • APPENDIX C: Resistor Types
  • APPENDIX D: The ́venin s Theorem
  • APPENDIX E: LC Butterworth Filters
  • APPENDIX F: Load Lines
  • APPENDIX G: The Curve Tracer
  • APPENDIX H: Transmission Lines and Impedance Matching
  • APPENDIX I: Television: A Compact Tutorial
  • APPENDIX J: SPICE Primer
  • APPENDIX K: Where Do I Go to Buy Electronic Goodies?
  • APPENDIX L: Workbench Instruments and Tools
  • APPENDIX M: Catalogs, Magazines, Databooks
  • APPENDIX N: Further Reading and References
  • APPENDIX O: The Oscilloscope
  • APPENDIX P: Acronyms and Abbreviations