(Ebook PDF) Practical Electronic Design for Experimenters 1st edition by Louis Frenzel 1260456161 9781260456165 full chapters
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ISBN-10 : 1260456161
ISBN-13 : 9781260456165
Author: Louis E. Frenzel
Publisher’s Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. Learn the basics of electronics and start designing and building your own creations! This follow-up to the bestselling Practical Electronics for Inventors shows hobbyists, makers, and students how to design useful electronic devices from readily available parts, integrated circuits, modules, and subassemblies. Practical Electronic Design for Experimenters gives you the knowledge necessary to develop and construct your own functioning gadgets. The book stresses that the real-world applications of electronics design—from autonomous robots to solar-powered devices—can be fun and far-reaching. Coverage includes: • Design resources • Prototyping and simulation • Testing and measuring • Common circuit design techniques • Power supply design • Amplifier design • Signal source design • Filter design • Designing with electromechanical devices • Digital design • Programmable logic devices • Designing with microcontrollers • Component selection • Troubleshooting and debugging
Practical Electronic Design for Experimenters 1st Table of contents:
1 Introduction to Electronic Design
Defining Design
Design Perspective
Get a Design Notebook
Get a Calculator
A Standard Design Approach
Design Doctrine Dozen
Types of Design
Prerequisites for Design
A Design Example
An Alternative Beginning
2 Design Resources
Books
Sources of Catalogs, Components, and Equipment
Magazines
Data Sheets
Applications Notes
Useful Web Sites
Educational Sources
Back to Basics
Searches
3 Simulation and Prototyping
Circuit Simulation
Recommendation
Breadboarding
Dead Bug Method
Working with Surface-Mount Components
Components
One Good Prototyping Practice
A Workbench
Summarizing
A Word About Tools
Your Projects
4 Testing and Measuring
Multimeters
How to Use a Multimeter
Power Supply
Oscilloscopes
Function Generators
Virtual Instruments
Circuits for Testing
Power Supply
Signal Sources
Making L and C Measurements
5 Common Circuit Design Techniques
Drawing Circuits
Series-Dropping Resistor
Voltage Dividers
Special Sensor Resistors
Potentiometers
Error and Accuracy
Variable Voltage Dividers
Transistor Switches
Design Example 5.1
Design Example 5.2
Design Project 5.1
Design Project 5.2
Design Project 5.3
Design Project 5.4
Design Project 5.5
6 Power Supply Design
Power Supply Choices and Specifications
The Make vs. Buy Decision
Common Voltages
Designing a Battery Supply
Ampere-Hour Ratings
Battery Supply Design Procedure
Battery Supply Enhancements
Specifying a Linear Supply
Linear Supply Design Procedure
Linear Supply Design Example
Switch-Mode Power Supplies (SMPS)
Pulse-Width Modulation
Design Project 6.1
Design Project 6.2
Design Project 6.3
Design Project 6.4
7 Amplifier Design
Amplifier Types
Specifying Amplifiers
Understanding the Specifications
A Microphone Amplifier
Designing with Op Amps
Primary Op Amp Application Circuits
Differential Amplifier
Error Source Compensation
Comparators
Power Amplifiers
Design Projects
Design Project 7.1
Design Project 7.2
Design Project 7.3
Design Project 7.4
8 Signal Source Design
Signal Source Specifications
Sine Wave Oscillators
Clock Oscillators
Multivibrators
Frequency Synthesizers
Design Project 8.1
Design Project 8.2
Design Project 8.3
Design Project 8.4
Design Project 8.5
Design Project 8.6
9 Filter Design
Types of Filters
Filter Specifications
Filter Design Guidelines
Filter Response Options
RC Filter Design
Bandpass LC Filters
Band Reject Filters
RC Active Filters
Low-Pass Filter
LC Filter Design
Switched Capacitive Filters
DSP Filters
Design Project 9.1
Design Project 9.2
Design Project 9.3
Design Project 9.4
10 Electromechanical Design
Switches
Relays
Solenoids
Motors
Motor Control
Servo Motors
Design Project 10.1
Design Project 10.2
Design Project 10.3
11 Digital Design
Three Design Approaches
Preliminary Design Decisions
Combinational Logic Circuits
DeMorgan’s Theorem
Functional ICs
Practical Digital Design Procedures
Design Example
Designing with a Programmable ROM
TTL vs. CMOS
Sequential Logic Circuits
Flip Flops
Counters and Registers
State Machine Design
Design Example
Data Conversion
Data Conversion ICs
Design Project 11.1
Design Project 11.2
Design Project 11.3
Design Project 11.4
Design Project 11.5
Design Project 11.6
Design Project 11.7
Design Project 11.8
Design Project 11.9
12 Programmable Logic Devices (PLDs)
Programmable Logic Types
Programming PLDs
Complex Programmable Logic Devices
FPGA Dominance
Application Decisions
An Introduction to VHDL and Verilog
Development Boards
Coding the Digital Circuit with an HDL
FPGA Learning Resources
Development Board Sources
Summary
13 Designing with Microcontrollers
Embedded Controller Design Process
Choosing an MCU and the Software
More About Selecting an MCU or Processor
Software and Programming
Programming Language Examples
Some Takeaways
Learning to Love BASIC
The Case for Assembly Language
Microdesign Considerations
Microinterfacing
A Plan for Learning Micros
Committing to a Microfuture
Design Project 13.1
Design Project 13.2
Design Project 13.3
14 Component Selection
Resistors
E-24 Resistor Values—5 percent
E-96 Resistor Values—1 percent
Special Resistors
Potentiometers
Capacitors
Inductors
Semiconductor Selection
15 Troubleshooting and Debugging
Mitigating the Need for Hardware Troubleshooting
Test Equipment
Prototype Troubleshooting
Electrical Problems
Troubleshooting Procedures
Component Failure Likelihood
A Troubleshooting Example
Continuity Testing
General Troubleshooting Suggestions
Software Debugging
Troubleshooting Practice
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