Electronics explained : the new systems approach to learning electronics

Electronics explained the new systems approach to learning electronics

Don't spend time reading about theory, components and old ham radios - that's history! Industry veteran, Louis Frenzel, gives you the real scoop on electronic product fundamentals as they are today. Rather than tearing electronics apart and looking at every little piece, the author takes a...

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Detalles Bibliográficos
Autor principal: Frenzel, Louis E., 1959- (-)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Amsterdam ; Boston : Newnes c2010.
Edición:Second edition
Materias:
Electronics > Textbooks.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627992306719
Tabla de Contenidos:
  • Front Cover; Electronics Explained: The New Systems Approach to Learning Electronics; Copyright Page; Contents; List of Figures; Preface; Chapter 1. Learning about Electronics for Your Own Good; Introduction; It Isn't Like It Used to Be; What's in It for You?; Electronics: The Big Picture; Communications; Computers; Control; Instrumentation; Components; How the Electronics Industry Works; Electricity versus Electronics; The Painful Truth; Cell Phone; Computers; Robots; Project 1.1. How Much Electronics Do You Own?; Project 1.2. How Much Electronics Do You Use?
  • Project 1.3. Decisions, DecisionsChapter 2. Electronic Concepts: More Interesting Than You Think; Introduction; Electricity and Electronics; Atoms and Electrons; Charge, Voltage, and Current; Dynamic Electricity and Current Flow; Conductors, Insulators, and Semiconductors; Magnetism; Magnetic Fields; Electromagnetism; Electromagnetic Induction; Voltage Sources; DC Voltages; AC Voltages; Practical DC and AC Voltage Sources; DC Voltage Sources; AC Voltage Sources; Analog and Digital Signals; Project 2.1. Getting Familiar with a Multimeter; Project 2.2. Hardware Sources
  • Project 2.3. Magazines of InterestProject 2.4. Measuring Voltages; Chapter 3. The Systems versus Components View of Electronics; Introduction; Why Systems and Not Circuits?; Electronic Components; Switches; Resistors; Capacitors; Inductors; Transformers; Diodes; Transistors; Integrated Circuits; Project 3.1. Setting Up a Simple Lab; Project 3.2. Light-Emitting Diode; Project 3.3. Capacitors; Project 3.4. Transistor Switch; Chapter 4. Electronic Circuits: Linear/Analog; Introduction; Linear Circuits; Amplifiers; Classifying Amplifiers; Amplifier Specifications; Filters; Oscillators; Mixers
  • Phase DetectorPhase-Locked Loops; Frequency Synthesizers; Power Supplies; Project 4.1. Build a Kit; Chapter 5. Electronic Circuits: Digital; Introduction; Binary Numbers; Binary-to-Decimal Conversions; Using Hardware to Represent Binary Quantities; Decimal-to-Binary Conversions; Maximum Decimal Value for N Bits; BCD and ASCII; Parallel and Serial Data; Digital Logic Elements; Inverter; AND Gate; OR Gate; NAND and NOR Gates; Exclusive OR Gate; Flip-Flops; Storage Registers; Shift Registers; Counters; Common Logic Circuits; Multiplexer; Demultiplexer; Decoder; Comparators; Arithmetic Circuits
  • Digital MemoriesRAM; ROM; Programmable Logic Devices; Data Conversion; Analog-to-Digital Conversion; Digital-to-Analog Conversion; Resolution and Sampling Interval; Project 5.1. Digging Deeper into Digital; Chapter 6. How Microcomputers Work; Introduction; Concepts and Definitions; Computer Organization and Operation; Operational Details; Registers and the ALU; Control Unit; Instruction-Word Formats; Program Execution Example; Microcomputer Buses; Popular Micros; 8- and 16-Bit Microcontrollers; 32- and 64-Bit Processors; A Word about Software; Programming Languages; Digital Signal Processing
  • Project 6.1. Use a Microcontroller

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