Circuit design
The Newnes Know It All Series takes the best of what our authors have written to create hard-working desk references that will be an engineer's first port of call for key information, design techniques and rules of thumb. Guaranteed not to gather dust on a shelf!Electronics Engineers need to ma...
| Otros Autores: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston :
Newnes
c2008.
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| Edición: | 1st edition |
| Colección: | Newnes know it all series.
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| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627512806719 |
Tabla de Contenidos:
- Front Cover; Copyright Page; Contents; About the Authors; Chapter 1: The Fundamentals; 1.1 Electrical Fundamentals; 1.2 Passive Components; 1.3 DC Circuits; 1.4 Alternating Voltage and Current; 1.5 Circuit Simulation; 1.6 Intuitive Circuit Design; 1.7 Troubleshooting Basics; Chapter 2: The Semiconductor Diode; Reference; Chapter 3: Understanding Diodes and Their Problems; 3.1 Speed Demons; 3.2 Turn 'em off-turn 'em on...; 3.3 Other Strange Things that Diodes Can Do to You...; 3.4 Zener, Zener, Zener...; 3.5 Diodes that Glow in the Dark, Efficiently; 3.6 Optoisolators; 3.7 Assault and Battery
- ReferencesChapter 4: Bipolar Transistors; Reference; Chapter 5: Transistors Field-Effect; References; Chapter 6: Identifying and Avoiding Transistor Problems; 6.1 More Beta-More Better?; 6.2 Field-Effect Transistors; 6.3 Power Transistors may Hog Current; 6.4 Apply the 5-Second Rule; 6.5 Fabrication Structures Make a Difference; 6.7 MOSFETs Avoid Secondary Breakdown; References; Chapter 7: Digital Circuit Fundamentals; 7.1 Digital Technology; References; Chapter 8: Number Systems; 8.1 Introduction; 8.2 Decimal-Unsigned Binary Conversion; 8.3 Signed Binary Numbers; 8.4 Gray Code
- 8.6 Octal-Binary Conversion8.7 Hexadecimal-Binary Conversion; Chapter 9: Binary Data Manipulation; 9.1 Introduction; 9.2 Logical Operations; 9.3 Boolean Algebra; 9.4 Combinational Logic Gates; Chapter 10: Combinational Logic Design; 10.1 Introduction; 10.2 NAND and NOR Logic; Chapter 11: Sequential Logic Design; 11.1 Introduction; 11.2 Level-Sensitive Latches and Edge-Triggered Flip-Flops; 11.3 The D-Latch and D-Type Flip-Flop; 11.5 State Machine Design; 11.6 Moore Versus Mealy State Machines; 11.7 Shift Registers; Chapter 12: Memory; 12.1 Introduction; 12.3 Read-Only Memory
- Chapter 13: Selecting a Design Route13.1 Introduction; 13.2 Discrete Implementation; 13.3 Mask Programmable ASICs; 13.4 Field-Programmable Logic; 13.5 VHDL; 13.6 Choosing a Design Route; Chapter 14: Designing with Logic ICs; 14.1 Logic ICs; Chapter 15: Interfacing; 15.1 Mixing Analog and Digital; 15.2 Generating Digital Levels from Analog Inputs; 15.3 Protection Against Externally Applied Overvoltages; 15.4 Isolation; 15.5 Classic Data Interface Standards; 15.6 High Performance Data Interface Standards; Chapter 16: DSP and Digital Filters
- 16.1 Origins of Real-World Signals and Their Unitsof Measurement16.2 Reasons for Processing Real-World Signals; 16.3 Generation of Real-World Signals; 16.4 Methods and Technologies Available for Processing Real-World Signals; 16.5 Analog Versus Digital Signal Processing; 16.6 A Practical Example; Chapter 17: Dealing with High-Speed Logic; References on Dealing with High Speed Logic; Chapter 18: Bridging the Gap between Analog and Digital; 18.1 Try to Measure Temperature Digitally; 18.2 Road Blocks Abound; 18.3 The Ultimate Key to Analog Success; 18.4 How Analog and Digital Design Differ
- 18.5 Time and its Inversion
