Electronics Explained: Fundamentals For Enginee... ((INSTALL))
Electronics Explained, Second Edition, takes a systems based approach to the fundamentals of electronics, covering the different types of electronic circuits, how they work, and how they fit together to create modern electronic equipment, enabling you to apply, use, select, operate and discuss common electronic products and systems.
Electronics Explained: Fundamentals for Enginee...
This book is for those of you who want to learn about electronics and computers but frankly are put off by all the gory details. If you have a short attention span, a nonexistent background in science, math, and technology, and are looking for near-instant gratification of electronics knowledge, this book is for you. Electronics is a complex subject, especially if you want to be an electronics engineer. However, if you are merely curious or just need a working knowledge of electronics for your job, this book will give you a basic education on the fundamentals without boring you to death or loading you down with the excruciating details that other books lay on you. What I have attempted to do is write a book that tells you the most important concepts and fundamentals but leaves out the minutiae that only an engineer will need or appreciate. This book contains exactly what you need to know today in the 21st century.
MOS Transistors by Columbia University provides a focused curriculum dedicated to helping engineers learn how MOS transistors work and how to model them. This information is essential for device modelers, circuit designers, and microelectronics engineers, making it ideal for engineering students and professional engineers who need to establish these fundamentals to advance their careers. While the course does not have any prerequisites, it is not suitable for beginners as it contains difficult assignments for which students will likely need a background in electrical engineering. The course is available for free, including all lectures and assignments, but it does not offer a certificate of completion.
This course introduces the fundamentals of magnetism, and the properties of magnetic materials, before utilizing this understanding to discuss the applications of such materials to modern micro-electronics.
Control systems are encountered every day, including in temperature/climate control systems in buildings or navigational systems in vehicles, and they also play an integral role in any manufacturing process, including assembly lines monitored and regulated by electronics. A control systems specialization provides students with the necessary mathematical and computer programming background to analyze and design both analog and digital control systems. Associated lab work helps illustrate thecontrol algorithms learned in the classes. One sub-category of control systems is robotics. At Penn State, robotics is covered more in industrial or mechanical engineering. However, a controls background, in addition to courses in signal and image processing, provides students with many of the fundamentals needed for future work in robotics.
The goals of this course are to enable the students to gain a fundamental understanding of the basic physics and technology of quantum electronics devices and laser systems. These fundamentals include optical beam propagation in free space, in media and in cavities, interaction of electromagnetic radiation with matter, the creation of population inversions in various media, and the design of laser systems. Upon mastery of these fundamentals, students should be able to design simple laser systems. As this course is offered to both senior undergraduate and graduate students, the course has the additional goals of providing graduating seniors with sufficient background in laser systems to pursue career opportunities or to pursue graduate studies in the laser field; and of providing graduate students with an introductory course in laser systems to pursue further graduate studies in the field. 041b061a72