Circuit Design: Know It All (Record no. 2470)

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005 - DATE AND TIME OF LATEST TRANSACTION
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008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
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020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 97818561752729
082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER
Classification number 621.381
Item number ASH
100 ## - MAIN ENTRY--PERSONAL NAME
Personal name Ashby,Darren
245 ## - TITLE STATEMENT
Title Circuit Design: Know It All
Statement of responsibility, etc. Darren Ashby, Bonnie Baker, Ian Hickman, Walt Kester, Robert Pease, Tim Williams, Bob Zeidman
260 ## - PUBLICATION, DISTRIBUTION, ETC.
Name of publisher, distributor, etc. Newnes
Date of publication, distribution, etc. April 2011
300 ## - PHYSICAL DESCRIPTION
Page number 1228
505 ## - FORMATTED CONTENTS NOTE
Title Cover image<br/>Title page<br/>Table of Contents<br/>Copyright Page<br/>About the Authors<br/>Chapter 1. The Fundamentals<br/>1.1 Electrical Fundamentals<br/>1.2 Passive Components<br/>1.3 DC Circuits<br/>1.4 Alternating Voltage and Current<br/>1.5 Circuit Simulation<br/>1.6 Intuitive Circuit Design<br/>1.7 Troubleshooting Basics<br/>References<br/>Chapter 2. The Semiconductor Diode<br/>Reference<br/>Chapter 3. Understanding Diodes and Their Problems<br/>3.1 Speed Demons<br/>3.2 Turn ’em off—turn ’em on…<br/>3.3 Other Strange Things that Diodes Can Do to You…<br/>3.4 Zener, Zener, Zener…<br/>3.5 Diodes that Glow in the Dark, Efficiently<br/>3.6 Optoisolators<br/>3.6 Solar Cells<br/>3.7 Assault and Battery<br/>REFERENCES<br/>Chapter 4. Bipolar Transistors<br/>Reference<br/>Chapter 5. Transistors Field-Effect<br/>Reference<br/>Chapter 6. Identifying and Avoiding Transistor Problems<br/>6.1 More Beta—More Better?<br/>6.2 Field-Effect Transistors<br/>6.3 Power Transistors may Hog Current<br/>6.4 Apply the 5-Second Rule<br/>6.5 Fabrication Structures Make a Difference<br/>6.6 Power-Circuit Design Requires Expertise<br/>6.7 MOSFETs Avoid Secondary Breakdown<br/>REFERENCES<br/>Chapter 7. Digital Circuit Fundamentals<br/>7.1 Digital Technology<br/>REFERENCES<br/>Chapter 8. Number Systems<br/>8.1 Introduction<br/>8.2 Decimal–Unsigned Binary Conversion<br/>8.3 Signed Binary Numbers<br/>8.4 Gray Code<br/>8.5 Binary-Coded Decimal<br/>8.6 Octal-Binary Conversion<br/>8.7 Hexadecimal-Binary Conversion<br/>Chapter 9. Binary Data Manipulation<br/>9.1 Introduction<br/>9.2 Logical Operations<br/>9.3 Boolean Algebra<br/>9.4 Combinational Logic Gates<br/>9.5 Truth Tables<br/>REFERENCES<br/>Chapter 10. Combinational Logic Design<br/>10.1 Introduction<br/>10.2 NAND and NOR Logic<br/>10.3 Karnaugh Maps<br/>10.4 Don’t Care Conditions<br/>REFERENCES<br/>Chapter 11. Sequential Logic Design<br/>11.1 Introduction<br/>11.2 Level-Sensitive Latches and Edge-Triggered Flip-Flops<br/>11.3 The D-Latch and D-Type Flip-Flop<br/>11.4 Counter Design<br/>11.5 State Machine Design<br/>11.6 Moore Versus Mealy State Machines<br/>11.7 Shift Registers<br/>11.8 Digital Scan Path<br/>REFERENCES<br/>Chapter 12. Memory<br/>12.1 Introduction<br/>12.2 Random Access Memory<br/>12.3 Read-Only Memory<br/>Chapter 13. Selecting a Design Route<br/>13.1 Introduction<br/>13.2 Discrete Implementation<br/>13.3 Mask Programmable ASICs<br/>13.4 Field-Programmable Logic<br/>13.5 VHDL<br/>13.6 Choosing a Design Route<br/>Chapter 14. Designing with Logic ICs<br/>14.1 Logic ICs<br/>Chapter 15. Interfacing<br/>15.1 Mixing Analog and Digital<br/>15.2 Generating Digital Levels from Analog Inputs<br/>15.3 Protection Against Externally Applied Overvoltages<br/>15.4 Isolation<br/>15.5 Classic Data Interface Standards<br/>15.6 High Performance Data Interface Standards<br/>Chapter 16. DSP and Digital Filters<br/>16.1 Origins of Real-World Signals and Their Units of Measurement<br/>16.2 Reasons for Processing Real-World Signals<br/>16.3 Generation of Real-World Signals<br/>16.4 Methods and Technologies Available for Processing Real-World Signals<br/>16.5 Analog Versus Digital Signal Processing<br/>16.6 A Practical Example<br/>16.7 Finite Impulse Response (FIR) Filters<br/>16.8 FIR Filter Implementation in DSP Hardware Using Circular Buffering<br/>16.9 Designing FIR Filters<br/>16.10 Infinite Impulse Response (IIR) Filters<br/>16.11 IIR Filter Design Techniques<br/>16.12 Multirate Filters<br/>16.13 Adaptive Filters<br/>References<br/>Chapter 17. Dealing with High-Speed Logic<br/>References on Dealing with High Speed Logic<br/>Chapter 18. Bridging the Gap between Analog and Digital<br/>18.1 Try to Measure Temperature Digitally<br/>18.2 Road Blocks Abound<br/>18.3 The Ultimate Key to Analog Success<br/>18.4 How Analog and Digital Design Differ<br/>18.5 Time and its Inversion<br/>18.6 Organizing Your Toolbox<br/>18.7 Set Your Foundation and Move On, Out of The Box<br/>References<br/>Chapter 19. Op-Amps<br/>19.1 The Magical Mysterious Op-Amp<br/>19.2 Understanding Op-Amp Parameters<br/>19.3 Modeling Op-Amps<br/>19.4 Finding the Perfect Op-Amp<br/>References<br/>Chapter 20. Analog-to-Digital Converters<br/>20.1 ADCs<br/>20.2 Types of ADCs<br/>20.3 ADC Comparison<br/>20.4 Sample and Hold<br/>20.5 Real Parts<br/>20.6 Microprocessor Interfacing<br/>20.7 Clocked Interfaces<br/>20.8 Serial Interfaces<br/>20.9 Multichannel ADCs<br/>20.10 Internal Microcontroller ADCs<br/>20.11 Codecs<br/>20.12 Interrupt Rates<br/>20.13 Dual-Function Pins on Microcontrollers<br/>20.14 Design Checklist<br/>Chapter 21. Sensors<br/>21.1 Instrumentation and Control Systems<br/>21.2 Transducers<br/>21.3 Sensors<br/>21.4 Switches<br/>21.5 Semiconductor Temperature Sensors<br/>21.6 Thermocouples<br/>21.7 Threshold Detection<br/>21.8 Outputs<br/>21.9 LED Indicators<br/>21.10 Driving High-Current Loads<br/>21.11 Audible Outputs<br/>21.12 Motors<br/>21.13 Driving Mains Connected Loads<br/>Chapter 22. Active Filters<br/>22.1 Introduction<br/>22.2 Fundamentals of Low-Pass Filters<br/>22.3 Low-Pass Filter Design<br/>22.4 High-Pass Filter Design<br/>22.5 Bandpass Filter Design<br/>22.6 Band-Rejection Filter Design<br/>22.7 All-Pass Filter Design<br/>22.8 Practical Design Hints<br/>22.9 Filter coefficient tables<br/>References<br/>Chapter 23. Radio-Frequency (RF) Circuits<br/>23.1 Modulation of Radio Waves<br/>23.2 Low-Power RF Amplifiers<br/>23.3 Stability<br/>23.4 Linearity<br/>23.5 Noise and Dynamic Range<br/>23.6 Impedances and Gain<br/>23.7 Mixers<br/>23.8 Demodulators<br/>23.9 Oscillators<br/>REFERENCES<br/>Chapter 24. Signal Sources<br/>24.1 Voltage References<br/>24.2 NonsinusoidaI Waveform Generators<br/>24.3 Sine Wave Generators<br/>24.4 Voltage-Controlled Oscillators and Phase Detectors<br/>REFERENCES<br/>Chapter 25. EDA Design Tools for Analog and RF<br/>25.1 The Old Pencil and Paper Design Process<br/>25.2 Is Your Simulation Fundamentally Valid?<br/>25.3 Macromodels: What Can They Do?<br/>25.4 VHDL-AMS<br/>References<br/>Chapter 26. Useful Circuits<br/>26.1 Introduction<br/>26.2 Boundary Conditions<br/>26.3 Amplifiers<br/>26.4 Computing Circuits<br/>26.5 Oscillators<br/>26.6 Some Favorite Circuits<br/>References<br/>Chapter 27. Programmable Logic to ASICs<br/>27.1 Programmable Read-Only Memory (PROM)<br/>27.2 Programmable Logic Arrays (PLAs)<br/>27.3 Programmable Array Logic (PALs)<br/>27.4 The Masked Gate Array ASIC<br/>27.5 CPLDs and FPGAs<br/>27.6 Summary<br/>References<br/>Chapter 28. Complex Programmable Logic Devices (CPLDs)<br/>28.1 CPLD Architectures<br/>28.2 Function Blocks<br/>28.3 I/O Blocks<br/>28.4 Clock Drivers<br/>28.5 Interconnect<br/>28.6 CPLD Technology and Programmable Elements<br/>28.7 Embedded Devices<br/>28.8 Summary: CPLD Selection Criteria<br/>References<br/>Chapter 29. Field-Programmable Gate Arrays (FPGAs)<br/>29.1 FPGA Architectures<br/>29.2 Configurable Logic Blocks<br/>29.3 Configurable I/O Blocks<br/>29.4 Embedded Devices<br/>29.5 Programmable Interconnect<br/>29.6 Clock Circuitry<br/>29.7 SRAM vs. Antifuse Programming<br/>29.8 Emulating and prototyping ASICs<br/>29.9 Summary<br/>References<br/>Chapter 30. Design Automation and Testing for FPGAs<br/>30.1 Simulation<br/>30.2 Libraries<br/>30.3 Synthesis<br/>30.4 Physical Design Flow<br/>30.5 Place and Route<br/>30.6 Timing Analysis<br/>30.7 Design Pitfalls<br/>30.8 VHDL Issues for FPGA Design<br/>30.9 Summary<br/>References<br/>Chapter 31. Integrating Processors onto FPGAs<br/>31.1 Introduction<br/>31.2 A Simple Embedded Processor<br/>31.3 Soft Core Processors on an FPGA<br/>31.4 Summary<br/>Chapter 32. Implementing Digital Filters in VHDL<br/>32.1 Introduction<br/>32.2 Converting S-Domain to Z-Domain<br/>32.3 Implementing Z-Domain Functions in VHDL<br/>32.4 Basic Low-Pass Filter Model<br/>32.5 FIR Filters<br/>32.6 IIR Filters<br/>32.7 Summary<br/>Chapter 33. Microprocessor and Microcontroller Overview<br/>33.1 Microprocessor Systems<br/>33.2 Single-Chip Microcomputers<br/>33.3 Microcontrollers<br/>33.4 Microprocessor systems<br/>33.5 Data Types<br/>33.6 Data Storage<br/>33.7 The Microprocessor<br/>33.8 Microprocessor Operation<br/>33.9 A Microcontroller System<br/>Chapter 34. Microcontroller Toolbox<br/>34.1 Microcontroller Supply and Reference<br/>34.2 Resistor Networks<br/>34.3 Multiple Input Control<br/>34.4 AC Control<br/>34.5 Voltage Monitors and Supervisory Circuits<br/>34.6 Driving Bipolar Transistors<br/>34.7 Driving MOSFETs<br/>34.8 Reading Negative Voltages<br/>34.9 Example Control System<br/>Chapter 35. Power Supply Overview and Specifications<br/>35.1 Power Supplies<br/>35.2 Specifications<br/>35.3 Off-the-Shelf or Roll Your Own<br/>Chapter 36. Input and Output Parameters<br/>36.1 Voltage<br/>36.2 Current<br/>36.3 Fuses<br/>36.4 Switch-on Surge, or Inrush Current<br/>36.5 Waveform Distortion and Interference<br/>36.6 Frequency<br/>36.7 Efficiency<br/>36.8 Deriving the Input Voltage from the Output<br/>36.9 Low-Load Condition<br/>36.10 Rectifier and Capacitor Selection<br/>36.11 Load and Line Regulation<br/>36.12 Ripple and Noise<br/>36.13 Transient Response<br/>Chapter 37. Batteries<br/>37.1 Initial Considerations<br/>37.2 Primary Cells<br/>37.3 Secondary Cells<br/>37.4 Charging<br/>Chapter 38. Layout and Grounding for Analog and Digital Circuits<br/>38.1 The Similarities of Analog and Digital Layout Practices<br/>38.2 Where the Domains Differ—Ground Planes Can Be a Problem<br/>38.3 Where the Board and Component Parasitics Can Do the Most Damage<br/>38.4 Layout Techniques That Improve ADC Accuracy and Resolution<br/>38.5 The Art of Laying Out Two-Layer Boards<br/>38.6 Current Return Paths With or Without a Ground Plane<br/>38.7 Layout Tricks for a 12-bit Sensing System<br/>38.8 General Layout Guidelines—Device Placement<br/>38.9 General Layout Guidelines—Ground and Power Supply Strategy<br/>38.10 Signal Traces<br/>38.11 Did I Say Bypass and Use an Anti-Aliasing Filter?<br/>38.12 Bypass Capacitors<br/>38.13 Anti-Aliasing Filters<br/>38.14 PCB Design Checklist<br/>References<br/>Chapter 39. Safety<br/>39.1 The Hazards of Electricity<br/>39.2 Safety Classes<br/>39.3 Insulation Types<br/>39.4 Design Considerations for Safety Protection<br/>39.5 Fire Hazard<br/>Chapter 40. Design for Production<br/>40.1 Checklist<br/>40.2 The Dangers of ESD<br/>Chapter 41. Testability<br/>41.1 In-Circuit Testing<br/>41.2 Functional Testing<br/>41.3 Boundary Scan and JTAG<br/>41.4 Design Techniques<br/>Chapter 42. Reliability<br/>42.1 Definitions<br/>42.2 The Cost of Reliability<br/>42.3 Design for Reliability<br/>42.4 The Value of MTBF Figures<br/>42.5 Design Faults<br/>Chapter 43. Thermal Management<br/>43.1 Using Thermal Resistance<br/>43.2 Heatsinks<br/>43.3 Power Semiconductor Mounting<br/>43.4 Placement and Layout
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    Dewey Decimal Classification   Not For Loan Reference IIITDM Kurnool IIITDM Kurnool ELECTRONICS COMMUNICATION ENGINEERING 06.12.2024 New India Book Agency 296.00 5462 dt 4/10/2024   621.381 ASH 0007175 06.12.2024 296.00 06.12.2024 USD Reference
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