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Learning the Art of Electronics, 2 Revised edition
出版済み 3-5週間でお届けいたします。
電子工学の作法を学ぶ 実践学習コース 第2版 A Hands-On Lab Course Author: Hayes, Thomas C. (Harvard University, Massachusetts) / Abrams, David (Harvard University, Massachusetts) / Horowitz, Paul (Harvard University, Massachusetts) Publisher: Cambridge University Press ISBN: 9781009535182 Cover: PAPERBACK Date: 2025年04月 DESCRIPTION 引き続き実践コースの意味を明らかにする「Learning the Art of Electronics」の新版は、ここで説明される数々の回路を試すように読者を誘います。本書のアナログセクションには、いくつかの新しい実習が追加されています。デジタルセクションはFPGAとARMマイクロコントローラを中心に再編されています。 The much-anticipated new edition of 'Learning the Art of Electronics' is here! It defines a hands-on course, inviting the reader to try out the many circuits that it describes. Several new labs (on amplifiers and automatic gain control) have been added to the analog part of the book, which also sees an expanded treatment of meters. Many labs now have online supplements. The digital sections have been rebuilt. An FPGA replaces the less-capable programmable logic devices, and a powerful ARM microcontroller replaces the 8051 previously used. The new microcontroller allows for more complex programming (in C) and more sophisticated applications, including a lunar lander, a voice recorder, and a lullaby jukebox. A new section explores using an Integrated Development Environment to compile, download, and debug programs. Substantial new lab exercises, and their associated teaching material, have been added, including a project reflecting this edition's greater emphasis on programmable logic. Online resources including online chapters, teaching materials and video demonstrations can be found at: https://LearningTheArtOfElectronics.com. * Teaches electronics in day-at-a-time practical doses so that students can learn in a hands-on way * The integration of discussion of design with a chance to try the circuits means students learn quickly * Accompanied by a companion web site LAoE.link that redirects the printed links in the book to the actual Internet reference * Additional online chapters cover breadboarding hints & tips, alternatives to the microcontroller and FPGA, creating Verilog test benches, and up-to-date lists of equipment and sources for parts * Provides a complete introduction to embedded programming, beginning with blinking an LED and ending with a complex application using a Real Time Operating System (RTOS) * Offers a simple, device-agnostic introduction to programmable devices using an online development system that runs in a browser TABLE OF CONTENTS Preface to the second edition Preface to the first edition Overview, as the course begins Part I. Analog: Passive Devices: 1. DC circuits 2. RC circuits 3. Diode circuits Part II. Analog: Discrete Transistors: 4. Transistors I 5. Transistors II Part III. Analog: Operational Amplifiers and their Applications: 6. Op-Amps I 7. Op-Amps II: Departures from ideal 8. Op-Amps III: Nice positive feedback 9. Op-Amps IV: Parasitic oscillations active filter 10, Op-Amps V: PID motor control loop and lock-in amplifier 11. Voltage regulators 12. MOSFET switches and an introduction to JFETs 13. Group audio project Part IV. Digital: Gates, Flip-Flops, Counters, PLD, Memory: 14. Logic gates 15. Introduction to programmable logic 16. Flip-Flops 17. Counters 18. Memory 19. Finite state machines Part V. Digital: Analog-digital, PLL, Digital project lab: 20. Analog ? digital PLL 21. Digital project lab Part VI. Microcontrollers: 22. Microcontrollers I: Introduction 23. Microcontrollers II: Stacks, timers and input 24. Microcontrollers III: Using internal peripherals 25. Microcontrollers IV: Timers & interrupts 26. Microcontrollers V: Serial communication 27. Microcontrollers VI: Using an RTOS 28. Project possibilities: toys in the attic A. Debugging circuits B. Pinouts C. Transmission lines D. Scope advice O. Online appendices Index.
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