Neuerwerbungen im August 2020

Fach: Elektrotechnik

Stand: 07.09.2020, 13:10 -- Zahl der Neuerwerbungen: 14

Balischewski, Stephan:
Multifunktionaler Einsatz von Batteriespeichern in elektrischen Verteilnetzen : optimale Auslegung und Betrieb / Stephan Balischewski. - 1. Auflage. - Magdeburg : Otto-von-Guericke-Universität Magdeburg, 2020. - vi, 127 Seiten : Illustrationen, 21 cm. - (Res electricae Magdeburgenses ; Band 79)
Dissertation, Otto-von-Guericke-Universität Magdeburg, 2020
ISBN 978-3-944722-92-4
BV046837142
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Ciocoveanu, Radu:
Highly Integrated Millimeter-Wave CMOS Transceiver Frontend-Circuits for Radar and Communication Systems / Radu Ciocoveanu. - München : Dr. Hut, 2020. - XVI, 169 Seiten : Illustrationen, Diagramme, 24 cm x 17 cm, 389 g. - (Elektrotechnik)
Dissertation, Friedrich-Alexander-Universität Erlangen-Nürnberg, 2020. - 202006
ISBN 978-3-8439-4473-1 - ISBN 3-8439-4473-3
BV046842288
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Dembowski, Klaus:
Raspberry Pi – Das technische Handbuch : Konfiguration, Hardware, Applikationserstellung / Klaus Dembowski. - 3., erweiterte und aktualisierte Auflage. - Wiesbaden : Springer Vieweg, 2020. - XIII, 368 Seiten : Illustrationen, Diagramme, 24 cm x 16.8 cm
ISBN 978-3-658-27492-4
BV046222812
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Energy Internet : Systems and Applications / Ahmed F Zobaa, Junwei Cao, editors. - Cham : Springer, [2020]. - vi, 441 pages : illustrations, 834 grams
This textbook is the first of its kind to comprehensively describe the energy internet; a vast network that efficiently supplies electricity to anyone anywhere and is an internet based wide area network for information and energy fusion. The chapters are organized into five parts: Architecture and Design; Energy Switching and Routing; Information and Communication; Energy Management Systems; Market and Trading; while also presenting a plethora of open problems that this transformation poses for
researchers from mixed academic backgrounds. The scope includes key technologies on distributed energy sources, microgrids, energy storage, solar and wind energy, power grid, smart grid, power quality, power electronics, data centers, distributed computing and networking, cloud computing and big data, and software-defined networking. The book presents the basic principles of energy internet and emphasizes the current research trends in the field of energy Internet at an advanced level. It
includes instructor materials, case-studies, and worked examples throughout. This is an ideal resource for students in advanced graduate-level courses and special topics in energy, information and control systems, and is a useful tool for utility engineers who seek an intuitive understanding of the emerging applications of energy Internet.- Provides an ideal resource for students in advanced graduate-level courses and specialtopics in energy, information and control systems- Presents the basic
principles of energy Internet and emphasizes the current researchtrends in the field of energy Internet at an advanced level- Contains new systems-level knowledge of energy and information systems for sustaining the advancement of this emerging field- Includes instructor materials, case-studies, and worked examples throughout. - Modeling, Simulation and Analysis of Energy Internet.- Cyber-Physical System Security.- Demonstration Engineering and Applications.- Renewable Energy Generation.- Large
Scale Energy Storage.- Flexible AC/DC Distribution.- Energy "Routers", "Computers", and "Protocols".- Electrical Vehicles.- Monitoring and Measurement.- Energy Internet Enabled Data Centers.- Software Defined Energy Internet.- Big Data Analysis.- Complementary Scheduling and Optimization of Multiple Energy Flows.- Coordination of Energy Sources, Networks, Storage, and Loads.- Power Quality and Power Experience.- Artificial Intelligence for Energy Internet.- Demand Side Management and Response.-
Block Chains.- User Centric Energy Services.- Cost-effectiveness Analysis for Energy Internet Engineering.- Value Driven Energy Management
ISBN 978-3-030-45452-4
BV046798007


Imura, Takehiro:
Wireless Power Transfer : Using Magnetic and Electric Resonance Coupling Techniques / Takehiro Imura. - Singapore : Springer, [2020]. - xiii, 427 Seiten : Diagramme, 828 grams
This book describes systematically wireless power transfer technology using magnetic resonant coupling and electric resonant coupling and presents the latest theoretical and phenomenological approaches to its practical implementation, operation and its applications. It also discusses the difference between electromagnetic induction and magnetic resonant coupling, the characteristics of various types of resonant circuit topologies and the unique features of magnetic resonant coupling methods.
Designed to be self-contained, this richly illustrated book is a valuable resource for a broad readership, from researchers to engineers and anyone interested in cutting-edge technologies in wireless power transfer. - 1. About wireless power transfer 1.1 Category of wireless power transfer and coupling type 1.2 Overview of electromagnetic induction and magnetic resonant coupling 1.3 Overview of electric coupling and electric resonant coupling. 1.4 Radiative wireless power transfer; 2. Basic
knowledge of electromagnetism electric circuit 2.1 Resistor, Inductor and Capacitor 2.2 Fundamentals of electromagnetic induction 2.3 High Frequency losses (resistance) 2.4 Transient phenomena of non-resonant circuit(Pulse) 2.5 Transient phenomena of non-resonant circuit 2.6 Effective value, effective power, reactive power and instantaneous power; 3. Basic phenomena of magnetic resonant coupling 3.1 Inductor and resonator 3.2 Tolerance to air gap and misalignment 3.3 Near-field electromagnetic
fields 3.4 Determinant of frequency (kHz-MHz-GHz); 4. Basic resonant circuit topology (S-S) 4.1 Derivation of equivalent circuit 4.2 Equivalent circuits in non-resonant frequency; 5.^. - ^^ - Comparison of electromagnetic induction and magnetic resonant coupling 5.1 Introduction to five types of resonant coupling: N-N, N-S, S-N, S-S, S-P 5.2 Equivalent circuit of non-resonant circuit (N-N) 5.3 Equivalent circuit of secondary-side resonant circuit (N-S) 5.4 Equivalent circuit of primary-side
resonant circuit (S-N) 5.5 Equivalent circuit of magnetic resonant coupling (S-S) 5.6 Equivalent circuit of magnetic resonant coupling (S-P) 5.7 Summary of the five circuit types 5.8 Comparison and transition of four resonant circuits 5.9 Comparison of four resonant circuits under magnetic flux distribution 5.10 Role of main magnetic flux; 6. Other resonant circuit topologies (PS, PP, LCL, LCC); 7.^. - ^^ - Open end and short end type coil 7.1 Introduction to open end and short end type coil 7.2
Intuitive description of open end type by dipole antennas 7.3 Lumped constant circuit and distributed constant circuit 7.4 Open-end and short-end type coils from the point of view of distributed constant circuits 7.5 Open-end type coils 7.6 Short-end type coils 7.7 Summary; 8.^. - ^^ - System of magnetic resonant coupling 8.1 Overview of wireless power transfer system 8.2 Resistance load, constant voltage load (secondary batteries) and constant power load(motors, electronic devices) 8.3 High
power transfer by frequency tracking control 8.4 Overview of efficiency maximization by impedance tracking control 8.5 Achieving maximum efficiency tracking control by impedance optimization 8.6 Maximum efficiency and desired power 8.7 ON-OFF mechanism of secondary side power to deal with short modes and constant power loads 8.8 Realization of maximum efficiency and desired power by secondary side alone 8.9 Estimation of mutual inductance; 9. Repeater and multiple coils 9.1 Straight line layout
of repeaters 9.2 K-Inverter theory 9.3 Calculation using Z-matrix taking into account cross-coupling effects (three coils) 9.4 Positive and negative of mutual inductance 9.5 Calculation using Z-matrix taking into account cross-coupling effects (n coils); 10.^. - ^^ - Development of multiple coils; 10.1 Efficiency enhancement when transferring to multiple receivers 10.2 Cross Coupling Cancelling (CCC) method
ISBN 978-981-15-4579-5
BV046798001


Korf, Patrick ¬[Verfasser]:
Konzeption und Ansätze zur Realisierung eines modularen und kompakten Elektronenspinresonanz-Spektrometers / Patrick Korf. - München : Verlag Dr. Hut, 2020. - XIV, 201 Seiten : Illustrationen, Diagramme, 21 cm x 14.8 cm, 336 g. - (Elektrotechnik)
Dissertation, Friedrich-Alexander-Universität Erlangen-Nürnberg, 2020
ISBN 978-3-8439-4444-1
BV046764774
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Mauelshagen, Christine:
Energietechnische Innovationen in zentralen und dezentralen Versorgungssystemen : geographische Analyse lokaler, regionaler und nationaler Energieprojekte / Christine Mauelshagen. - Stuttgart : Fraunhofer Verlag, 2019. - XV, 122 Seiten : Illustrationen, Diagramme, Karten, 21 cm
Dissertation, Rheinische Friedrich-Wilhelms-Universität Bonn, 2019
ISBN 978-3-8396-1532-4 - ISBN 3-8396-1532-1
BV046869967
Schlagwort: Deutschland, Energieversorgung, Übertragungsnetz, Energietechnische Anlage, Dezentrale Elektrizitätserzeugung, Erneuerbare Energien, Netzausbau, Technische Infrastruktur, Akzeptanz
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Ose, Rainer:
Elektrotechnik für Ingenieure / von Rainer Ose. - München [u.a.] : Fachbuchverl. Leipzig im Carl Hanser Verl. - 25 cm

[1]. Grundlagen. - 6., überarbeitete und erweiterte Auflage. - [2020]. - 390 Seiten : Illustrationen, Diagramme + Formelsammlung 24 Seiten
ISBN 978-3-446-46408-7
BV046856129


Ose, Rainer:
Elektrotechnik für Ingenieure / von Rainer Ose. - München [u.a.] : Fachbuchverl. Leipzig im Carl Hanser Verl. - 25 cm

[3]. Übungsbuch. - [1. Auflage]. - [2020]. - 294 Seiten : Illustrationen, Diagramme
Wird im Vorwort als "1. Auflage" bezeichnet.
ISBN 978-3-446-46444-5 - ISBN 3-446-46444-1
BV046856091


Petzold, Jörg:
Analytische Beschreibung der Kopplung elektromagnetischer Felder durch Aperturen in Resonatoren / von Dipl.-Phys. Jörg Petzold. - 1. Auflage. - Magdeburg : Otto-von-Guericke-Universität Magdeburg, 2020. - ii, 136 Seiten : Diagramme, 21 cm. - (Res electricae Magdeburgenses ; Band 80)
Dissertation, Otto-von-Guericke-Universität Magdeburg, 2020
ISBN 978-3-944722-91-7
BV046833622
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Rhein, Bernd:
Elektrische Antriebe leichter Nutzfahrzeuge : Vorteile, Einsatzmöglichkeiten, Auslegung / Bernd Rhein. - München : Verlag Moderne Industrie, [2020]. - 70 Seiten : Illustrationen, Diagramme, 18.5 grams. - (¬Die Bibliothek der Technik ; Band 405)
ISBN 978-3-86236-129-8
BV046827121
Schlagwort: Nutzfahrzeug, Elektroantrieb
RVK: ZN 8280


Röhrl, Franz ¬[Verfasser]:
¬Ein flexibles Leiterplatten-Technologiekonzept für Anwendungen im Millimeterwellenbereich / Franz Röhrl. - 1. Auflage. - München : Verlag Dr. Hut, 2020. - XIV, 167 Seiten : Illustrationen, Diagramme. - (Elektrotechnik)
Dissertation, Friedrich-Alexander-Universität Erlangen-Nürnberg, 2020
ISBN 978-3-8439-4537-0
BV046870825


Smart Microgrids / Edited by Sasi K. Kottayil. - Boca Raton ; London ; New York : CRC Press, Taylor & Franics Group, [2020]. - xxiii, 285 Seiten : Illustrationen, Diagramme, 235 mm
1. INTRODUCTION D. Prasanna Vadana, Sasi K. Kottayil, A. Vijayakumari, P. Sivraj, and S. Nithin; 2. DESIGN OF MICROGRIDS A. Vijayakumari; 3. COMMUNICATION INFRASTRUCTURE OF SMART MICRO GRIDS P. Sivraj; 4. ICT APPLICATION OF DSM S. Nithin; 5. DYNAMIC ENERGY MANAGEMENT D. Prasanna Vadana
ISBN 978-0-367-34362-0
BV046827125


Zimmermann, Marco ¬[Verfasser]:
Entwurf und lagegeberlose Regelung einer permanentmagnetunterstützten Synchronreluktanzmaschine / Marco Zimmermann. - München : Verlag Dr. Hut, 2020. - viii, 167 Seiten : Illustrationen, Diagramme, 21 cm x 14.8 cm, 276 g. - (Elektrotechnik)
Dissertation, Friedrich-Alexander-Universität Erlangen-Nürnberg, 2020. - 202006
ISBN 978-3-8439-4464-9 - ISBN 3-8439-4464-4
BV046829592
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