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Dieses Übungsbuch enthält vollständig durchgerechnete Aufgaben aus der Halbleiter-Schaltungstechnik. Es werden die Themen Halbleiterphysik, Bauelemente, Verstärker- und Logikschaltungen sowie der Entwurf integrierter Schaltungen abgedeckt. Anhand ausgewählter Aufgaben erkennt der Leser die Vorgehensweise bei der Lösung von Problemen aus den verschiedenen Bereichen der Halbleiter-Schaltungstechnik. Das Erlernen von methodischen Fähigkeiten steht im Vordergrund, weshalb auf die ausführliche Darstellung der Lösungswege besonderer Wert gelegt wurde. Das Übungsbuch ergänzt das ebenfalls im Springer-Verlag erschienene Lehrbuch Einführung in die Halbleiter-Schaltungstechnik, es kann jedoch auch unabhängig von diesem verwendet werden. Online-Materialien auf dem Extrasserver: Studentenversion des Schaltungssimulators OrCAD-PSpice 9.1 sowie zugehörige PSpice-Dateien. Die Zielgruppen Studierende der Elektrotechnik und anderer technischer Studiengänge sowie Ingenieure und Techniker, die ihre vorhandenen Kenntnisse auf dem Gebiet der Elektronik und Halbleiter-Schaltungstechnik mit Hilfe von Übungsaufgaben weiter vertiefen wollen. Die Autoren Holger Göbel Studium der Elektrotechnik an der Technischen Universität München, seit 1997 Professor für Elektronik an der Helmut-Schmidt-Universität/Universität der Bundeswehr in Hamburg. Henning Siemund Studium der Elektrotechnik an der Fachhochschule Hamburg und an der FernUniversität Hagen. Tätig als wissenschaftlicher Mitarbeiter an der Professur für Elektronik an der Helmut-Schmidt-Universität/Universität der Bundeswehr in Hamburg.

Electronics. --- Microelectronics. --- Computer hardware. --- Electronic circuits. --- Electronics and Microelectronics, Instrumentation. --- Computer Hardware. --- Circuits and Systems.

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Modeling Digital Switching Circuits with Linear Algebra describes an approach for modeling digital information and circuitry that is an alternative to Boolean algebra. While the Boolean algebraic model has been wildly successful and is responsible for many advances in modern information technology, the approach described in this book offers new insight and different ways of solving problems. Modeling the bit as a vector instead of a scalar value in the set {0, 1} allows digital circuits to be characterized with transfer functions in the form of a linear transformation matrix. The use of transfer functions is ubiquitous in many areas of engineering and their rich background in linear systems theory and signal processing is easily applied to digital switching circuits with this model. The common tasks of circuit simulation and justification are specific examples of the application of the linear algebraic model and are described in detail. The advantages offered by the new model as compared to traditional methods are emphasized throughout the book. Furthermore, the new approach is easily generalized to other types of information processing circuits such as those based upon multiple-valued or quantum logic; thus providing a unifying mathematical framework common to each of these areas. Modeling Digital Switching Circuits with Linear Algebra provides a blend of theoretical concepts and practical issues involved in implementing the method for circuit design tasks. Data structures are described and are shown to not require any more resources for representing the underlying matrices and vectors than those currently used in modern electronic design automation (EDA) tools based on the Boolean model. Algorithms are described that perform simulation, justification, and other common EDA tasks in an efficient manner that are competitive with conventional design tools. The linear algebraic model can be used to implement common EDA tasks directly upon a structural netlist thus avoiding the intermediate step of transforming a circuit description into a representation of a set of switching functions as is commonly the case when conventional Boolean techniques are used. Implementation results are provided that empirically demonstrate the practicality of the linear algebraic model.

Engineering. --- Electronic circuits. --- Control engineering. --- Robotics. --- Automation. --- Computers. --- Technology and Engineering. --- Electronic Circuits and Systems. --- Control, Robotics, Automation. --- Computer Hardware.

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Need some inspiration for your Raspberry Pi projects? Wondering how to work with Wii nunchucks, stepper motors, how to create a remote control panel? If you need guidance, Experimenting with Raspberry Pi is your own personal idea generator. Experimenting with Raspberry Pi covers how to work with various components and hardware like humidity and temperature sensors, Wii nunchucks, GPIO extenders, and IR receivers so you can add these to your own projects. Written with budgets in mind, author Warren Gay encourages you to build, experiment, and swap out various parts to learn more about the Pi and come up with the best ideas and instructions for your own amazing Raspberry Pi project ideas.

Raspberry Pi (Computer) --- Microcomputers --- Computer input-output equipment. --- Computer hardware. --- Operating systems (Computers). --- Hardware and Maker. --- Computer Hardware. --- Operating Systems. --- Computer operating systems --- Computers --- Disk operating systems --- Systems software --- Computer hardware --- Computer I/O equipment --- Electronic analog computers --- Electronic digital computers --- Hardware, Computer --- I/O equipment (Computers) --- Input equipment (Computers) --- Input-output equipment (Computers) --- Output equipment (Computers) --- Computer systems --- Operating systems --- Input-output equipment

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Learn Raspberry Pi Programming with Python will show you how to program your nifty new $35 computer to make a web spider, a weather station, a media server, and more. You'll learn how to program in Python on your Raspberry Pi with hands-on examples and fun projects. Even if you're completely new to programming in general, you'll figure out how to create a home security system, an underwater photography system, an RC plane with a camera, and even a near-space weather balloon with a camera. You'll learn how to make a variety of fun and even useful projects, from a web bot to search and download files to a toy to drive your pets insane. You'll even learn how to use Pi with Arduino as well as Pi with Gertboard, an expansion board with an onboard ATmega microcontroller.

computers --- computerkunde --- Computer science --- Computer. Automation --- informatica --- raspberry pi --- python --- Python (Computer program language) --- Raspberry Pi (Computer) --- Microcomputers --- Scripting languages (Computer science) --- Computer science. --- Computer Science. --- Computer Science, general. --- Informatics --- Science --- Computer input-output equipment. --- Computer hardware. --- Hardware and Maker. --- Computer Hardware. --- Computer hardware --- Computer I/O equipment --- Computers --- Electronic analog computers --- Electronic digital computers --- Hardware, Computer --- I/O equipment (Computers) --- Input equipment (Computers) --- Input-output equipment (Computers) --- Output equipment (Computers) --- Computer systems --- Input-output equipment

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Maintaining and Troubleshooting Your 3D Printer by Charles Bell is your guide to keeping your 3D printer running through preventive maintenance, repair, and diagnosing and solving problems in 3D printing. If you’ve bought or built a 3D printer such as a MakerBot only to be confounded by jagged edges, corner lift, top layers that aren’t solid, or any of a myriad of other problems that plague 3D printer enthusiasts, then here is the book to help you get past all that and recapture the joy of creative fabrication. The book also includes valuable tips for builders and those who want to modify their printers to get the most out of their investment. Good fabrication begins with calibration. Aligning the print bed to support deposition of medium in three dimensions is critical. Even off-the-shelf machines that are pre-built must be aligned and periodically realigned throughout their life cycle. Maintaining and Troubleshooting Your 3D Printer helps you achieve and hold proper alignment. Maintaining and Troubleshooting Your 3D Printer also helps with software and hardware troubleshooting. You’ll learn to diagnose and solve firmware calibration problems, filament and feed problems, chassis issues, and more. Finally there are regular maintenance and enhancements. You’ve invested significantly in your 3D printer. Protect that investment using the guidance in this book. Learn to clean and lubricate your printer, to maintain the chassis, and know when realignment of the print bed is needed. Learn ways to master your craft and improve the quality of your prints through such things as post-print finishing and filament management. Don’t let the challenges of 3D printing stand in the way of creativity. Maintaining and Troubleshooting Your 3D Printer by Charles Bell helps you conquer the challenges and get the most benefit from your expensive investment in personal fabrication.

Three-dimensional printing. --- Computer printers. --- Printers, Computer --- Printers (Data processing systems) --- Computer input-output equipment --- Printing machinery and supplies --- 3-D printing --- 3D printing --- 3DP (Three-dimensional printing) --- Rapid prototyping --- Computer input-output equipment. --- Computer hardware. --- Hardware and Maker. --- Computer Hardware. --- Computer hardware --- Computer I/O equipment --- Computers --- Electronic analog computers --- Electronic digital computers --- Hardware, Computer --- I/O equipment (Computers) --- Input equipment (Computers) --- Input-output equipment (Computers) --- Output equipment (Computers) --- Computer systems --- Input-output equipment