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Practical Electronic Design for Experimenters /

"This book covers the basics of electronics but the focus is on the overall design of the product. The author argues that design is really a product-level consideration and not something that happens at the circuit level. Therefore, the book provides the reader with information about ready-made...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Frenzel, Louis E., Jr (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw-Hill Education, [2020]
Edición:First edition.
Colección:McGraw-Hill's AccessEngineering.
Temas:
Acceso en línea:Texto completo

MARC

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020 |a 1260456161 (e-ISBN) 
020 |a 9781260456158 (print-ISBN) 
020 |a 1260456153 (print-ISBN) 
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041 0 |a eng 
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100 1 |a Frenzel, Louis E.,  |c Jr.,  |e author. 
245 1 0 |a Practical Electronic Design for Experimenters /  |c Louis E. Frenzel, Jr. 
250 |a First edition. 
264 1 |a New York, N.Y. :  |b McGraw-Hill Education,  |c [2020] 
264 4 |c ?2020 
300 |a 1 online resource (255 pages) :   |b 70 illustrations. 
336 |a text  |2 rdacontent 
337 |a computer  |2 rdamedia 
338 |a online resource  |2 rdacarrier 
490 1 |a McGraw-Hill's AccessEngineering 
504 |a Includes bibliographical references and index. 
505 0 |a Cover --   |t Title Page --   |t Copyright Page --   |t Contents --   |t Introduction --   |t 1 Introduction to Electronic Design --   |t Defining Design --   |t Design Perspective --   |t Get a Design Notebook --   |t Get a Calculator --   |t A Standard Design Approach --   |t Design Doctrine Dozen --   |t Types of Design --   |t Prerequisites for Design --   |t A Design Example --   |t An Alternative Beginning --   |t 2 Design Resources --   |t Books --   |t Sources of Catalogs, Components, and Equipment --   |t Magazines --   |t Data Sheets --   |t Applications Notes --   |t Useful Web Sites --   |t Educational Sources --   |t Back to Basics --   |t Searches --   |t 3 Simulation and Prototyping --   |t Circuit Simulation --   |t Recommendation --   |t Breadboarding --   |t Dead Bug Method --   |t Working with Surface-Mount Components --   |t Components --   |t One Good Prototyping Practice --   |t A Workbench --   |t Summarizing --   |t A Word About Tools --   |t Your Projects --   |t 4 Testing and Measuring --   |t Multimeters --   |t How to Use a Multimeter --   |t Power Supply --   |t Oscilloscopes --   |t Function Generators --   |t Virtual Instruments --   |t Circuits for Testing --   |t Power Supply --   |t Signal Sources --   |t Making L and C Measurements --   |t 5 Common Circuit Design Techniques --   |t Drawing Circuits --   |t Series-Dropping Resistor --   |t Voltage Dividers --   |t Special Sensor Resistors --   |t Potentiometers --   |t Error and Accuracy --   |t Variable Voltage Dividers --   |t Transistor Switches --   |t Design Example 5.1 --   |t Design Example 5.2 --   |t Design Project 5.1 --   |t Design Project 5.2 --   |t Design Project 5.3 --   |t Design Project 5.4 --   |t Design Project 5.5 --   |t 6 Power Supply Design --   |t Power Supply Choices and Specifications --   |t The Make vs. Buy Decision --   |t Common Voltages --   |t Designing a Battery Supply --   |t Ampere-Hour Ratings --   |t Battery Supply Design Procedure --   |t Battery Supply Enhancements --   |t Specifying a Linear Supply --   |t Linear Supply Design Procedure --   |t Linear Supply Design Example --   |t Switch-Mode Power Supplies (SMPS) --   |t Pulse-Width Modulation --   |t Design Project 6.1 --   |t Design Project 6.2 --   |t Design Project 6.3 --   |t Design Project 6.4 --   |t 7 Amplifier Design --   |t Amplifier Types --   |t Specifying Amplifiers --   |t Understanding the Specifications --   |t A Microphone Amplifier --   |t Designing with Op Amps --   |t Primary Op Amp Application Circuits --   |t Differential Amplifier --   |t Error Source Compensation --   |t Comparators --   |t Power Amplifiers --   |t Design Projects --   |t Design Project 7.1 --   |t Design Project 7.2 --   |t Design Project 7.3 --   |t Design Project 7.4 --   |t 8 Signal Source Design --   |t Signal Source Specifications --   |t Sine Wave Oscillators --   |t Clock Oscillators --   |t Multivibrators --   |t Frequency Synthesizers --   |t Design Project 8.1 --   |t Design Project 8.2 --   |t Design Project 8.3 --   |t Design Project 8.4 --   |t Design Project 8.5 --   |t Design Project 8.6 --   |t 9 Filter Design --   |t Types of Filters --   |t Filter Specifications --   |t Filter Design Guidelines --   |t Filter Response Options --   |t RC Filter Design --   |t Bandpass LC Filters --   |t Band Reject Filters --   |t RC Active Filters --   |t Low-Pass Filter --   |t LC Filter Design --   |t Switched Capacitive Filters --   |t DSP Filters --   |t Design Project 9.1 --   |t Design Project 9.2 --   |t Design Project 9.3 --   |t Design Project 9.4 --   |t 10 Electromechanical Design --   |t Switches --   |t Relays --   |t Solenoids --   |t Motors --   |t Motor Control --   |t Servo Motors --   |t Design Project 10.1 --   |t Design Project 10.2 --   |t Design Project 10.3 --   |t 11 Digital Design --   |t Three Design Approaches --   |t Preliminary Design Decisions --   |t Combinational Logic Circuits --   |t DeMorgan?s Theorem --   |t Functional ICs --   |t Practical Digital Design Procedures --   |t Design Example --   |t Designing with a Programmable ROM --   |t TTL vs. CMOS --   |t Sequential Logic Circuits --   |t Flip Flops --   |t Counters and Registers --   |t State Machine Design --   |t Design Example --   |t Data Conversion --   |t Data Conversion ICs --   |t Design Project 11.1 --   |t Design Project 11.2 --   |t Design Project 11.3 --   |t Design Project 11.4 --   |t Design Project 11.5 --   |t Design Project 11.6 --   |t Design Project 11.7 --   |t Design Project 11.8 --   |t Design Project 11.9 --   |t 12 Programmable Logic Devices (PLDs) --   |t Programmable Logic Types --   |t Programming PLDs --   |t Complex Programmable Logic Devices --   |t FPGA Dominance --   |t Application Decisions --   |t An Introduction to VHDL and Verilog --   |t Development Boards --   |t Coding the Digital Circuit with an HDL --   |t FPGA Learning Resources --   |t Development Board Sources --   |t Summary --   |t 13 Designing with Microcontrollers --   |t Embedded Controller Design Process --   |t Choosing an MCU and the Software --   |t More About Selecting an MCU or Processor --   |t Software and Programming --   |t Programming Language Examples --   |t Some Takeaways --   |t Learning to Love BASIC --   |t The Case for Assembly Language --   |t Microdesign Considerations --   |t Microinterfacing --   |t A Plan for Learning Micros --   |t Committing to a Microfuture --   |t Design Project 13.1 --   |t Design Project 13.2 --   |t Design Project 13.3 --   |t 14 Component Selection --   |t Resistors --   |t E-24 Resistor Values?5 percent --   |t E-96 Resistor Values?1 percent --   |t Special Resistors --   |t Potentiometers --   |t Capacitors --   |t Inductors --   |t Semiconductor Selection --   |t 15 Troubleshooting and Debugging --   |t Mitigating the Need for Hardware Troubleshooting --   |t Test Equipment --   |t Prototype Troubleshooting --   |t Electrical Problems --   |t Troubleshooting Procedures --   |t Component Failure Likelihood --   |t A Troubleshooting Example --   |t Continuity Testing --   |t General Troubleshooting Suggestions --   |t Software Debugging --   |t Troubleshooting Practice --   |t A Recommended Reference Books --   |t B Solutions to Design Projects --   |t C Transistor Amplifier Design --   |t D How to Use Karnaugh Maps --   |t Index. 
520 0 |a "This book covers the basics of electronics but the focus is on the overall design of the product. The author argues that design is really a product-level consideration and not something that happens at the circuit level. Therefore, the book provides the reader with information about ready-made circuits, off-the-shelf components, and other readily available parts. Then the focus shifts to the fundamentals of design, resources, power supplies, digital designs, embedded controllers, wireless applications, prototyping, as well as testing, troubleshooting, and debugging. The applications of strong design training can be fun and far-reaching, from autonomous robots to smart clothing". 
530 |a Also available in print edition. 
533 |a Electronic reproduction.  |b New York, N.Y. :  |c McGraw Hill,   |d 2020.  |n Mode of access: World Wide Web.  |n System requirements: Web browser.  |n Access may be restricted to users at subscribing institutions. 
538 |a Mode of access: Internet via World Wide Web. 
546 |a In English. 
588 |a Description based on e-Publication PDF. 
650 0 |a Electronic circuit design  |v Amateurs' manuals. 
650 0 |a Electronic apparatus and appliances  |x Design and construction  |v Amateurs' manuals. 
650 0 |a Electronic apparatus and appliances  |x Design and construction. 
650 7 |a TECHNOLOGY & ENGINEERING / Electronics / General   |2 bisacsh. 
655 0 |a Electronic books. 
776 0 |i Print version:   |t Practical Electronic Design for Experimenters.  |b First edition.  |d New York, N.Y. : McGraw-Hill Education, 2020  |w (OCoLC)1119753030 
830 0 |a McGraw-Hill's AccessEngineering. 
856 4 0 |u https://accessengineeringlibrary.uam.elogim.com/content/book/9781260456158  |z Texto completo