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200 10$aGrundlegende experimentiertechnik im physikunterricht /$fvon Prof. Dr. Jan-Peter Meyn
205   $a2., aktualisierte Auflage.
210  1$aMunich, Germany :$cOldenbourg Verlag,$d2013.
210  4$d©2013
215   $a1 online resource (167 p.)
300   $aDescription based upon print version of record.
311   $a3-486-71624-7 
311   $a1-306-56959-1 
320   $aIncludes bibliographical references and index.
327   $tFront Matter -- $t1 Elektrizitätsquellen -- $t2 Elektrische Messtechnik -- $t3 Magnete -- $t4 Akustik -- $t5 Optik -- $t6 Handwerk -- $t7 Mechanik und Hydrodynamik -- $t8 Wärme -- $t9 Experimente -- $tBack Matter 
330   $aExperimente werden im Physikunterricht durchgeführt, um Naturphänomene zu verdeutlichen. Für die Vorbereitung solcher Schülerexperimente steht zwar eine Vielzahl von Lehrbüchern zur Verfügung, doch sieht man sich oft mit dem Problem konfrontiert, dass Physikexperimente schwierig aufzubauen sind oder nicht wie geplant durchgeführt werden können. Dieses Buch schlägt eine Brücke zwischen den rezeptartigen Versuchsbeschreibungen in Lehrmittelsammlungen und vorhandenen Lehrbüchern. Es stellt leicht verständlich spannende aber leicht durchzuführende Experimente aus der Physik vor und leistet wertvolle Hilfe bei der Durchführung. In der 2. Auflage wurden neben speziellen Themen wie der Messung der Lichtgeschwindigkeit auch Lösungen für Alltagsprobleme ergänzt.
606   $aPhysics$xStudy and teaching$xExperiments
606   $aPhysics$xStudy and teaching$vProblems, exercises, etc
615  0$aPhysics$xStudy and teaching$xExperiments.
615  0$aPhysics$xStudy and teaching
676   $a530.071
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997   $aUNINA

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035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/68683
035   $a(oapen)doab68683
035   $a(EXLCZ)995400000000040878
100   $a20202105d2020      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aSliding Mode Control of Power Converters in Renewable Energy Systems
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 online resource (344 p.)
311 08$a3-03928-098-8 
311 08$a3-03928-099-6 
330   $aRenewable energies are becoming a must to counteract the consequences of the global warming. More efficient devices and better control strategies are required in the generation, transport, and conversion of electricity. Energy is processed by power converters that are currently the key building blocks in modern power distribution systems. The associated electrical architecture is based on buses for energy distribution and uses a great number of converters for interfacing both input and output energy. This book shows that sliding-mode control is contributing to improve the performances of power converters by means of accurate theoretical analyses that result in efficient implementations. The sliding-mode control of power converters for renewable energy applications offers a panoramic view of the most recent uses of this regulation technique in practical cases. By presenting examples that range from dozens of kilowatts to only a few watts, the book covers control solutions for AC-DC and DC-AC generation, power factor correction, multilevel converters, constant-power load supply, wind energy systems, efficient lighting, digital control implementation, multiphase converters, and energy harvesting. The selected examples developed by recognized specialists are illustrated by means of detailed simulations and experiments to help the reader to understand the theoretical approach in each case considered in the book.
606   $aHistory of engineering and technology$2bicssc
610   $aAC-DC power converter
610   $aadaptive-gain second-order sliding mode
610   $abalanced and unbalanced grid voltage
610   $aboost converter
610   $abridgeless rectifier
610   $abuck converter
610   $aconstant power load
610   $aconstant power load (CPL)
610   $acontinuous signal generator
610   $acontrol
610   $aDC distribution bus
610   $aDC-DC converter
610   $aDC-DC converters
610   $aDC-DC power converter
610   $adc-to-dc converter
610   $adecision making
610   $adesign concept
610   $aDFIG
610   $adirect power control
610   $adisturbance observer
610   $adoubly-fed induction generator
610   $adual boost inverter
610   $adual-stator winding induction generator
610   $aelectric vehicles
610   $aenergy harvesting
610   $aequivalent control
610   $afast dynamic response
610   $afixed switching frequency
610   $agrid connection
610   $agrid-side converter
610   $aharmonic distortion
610   $aharvesting
610   $ahigh power factor rectifier
610   $aHigh-Intensity Discharge Lamps (HID)
610   $aInduction Electrodeless Fluorescent Lamps (IEFL)
610   $ainductive transducer
610   $ainput-output linearization
610   $ainrush current mitigation
610   $aisolated PFC rectifier
610   $aisolated SEPIC converter
610   $aloss free resistor
610   $aloss-free resistor (LFR)
610   $aLyapunov stability
610   $aLyapunov-based filter design
610   $amicroinverter
610   $amodular multilevel converter
610   $amulti-objective optimisation
610   $amultiphase converter
610   $aoutput regulation
610   $apower converter
610   $apower-hardware-in-the-loop
610   $aPWM
610   $arenewable energy systems
610   $asecond order sliding mode
610   $asecond-order sliding-mode control
610   $aseries-series-compensated wireless power transfer system
610   $asliding mode
610   $asliding mode control
610   $asliding mode control (SMC)
610   $asliding mode control (SMC), self-oscillating system
610   $aSliding Mode controlled power module
610   $asliding-mode control
610   $astate feedback
610   $astep-up inverter
610   $atuning
610   $atwo cascaded-boosts converters
610   $atwo-loop digital control
610   $aunbalanced voltage
610   $awind energy
610   $awind energy conversion system
610   $awind power generation
610   $azero dynamics stability
615  7$aHistory of engineering and technology
700   $aMartinez-Salamero$b Luis$4edt$01329472
702   $aMartinez-Salamero$b Luis$4oth
906   $aBOOK
912   $a9910557116803321
996   $aSliding Mode Control of Power Converters in Renewable Energy Systems$93039479
997   $aUNINA