Wireless power transfer via radiowaves / Naoki Shinohara

Von:

Shinohara, Naoki [aut]

Resource type: Ressourcentyp: Buch (Online)Buch (Online)Sprache: Englisch Reihen: Waves seriesVerlag: London : ISTE-Wiley, 2014Auflage: Online-AusgBeschreibung: Online-Ressource (1 online resource (1 online resource.))ISBN:

9781118863008
1118863003
1118862953
9781306373739
9781118862957
1306373735

Schlagwörter:

Andere physische Formen: 184821605X | 9781848216051 | 1306373204 | Erscheint auch als: Wireless power transfer via radiowaves. Druck-Ausgabe London : ISTE, 2014. XIII, 238 S.DDC-Klassifikation:

621.319

RVK: RVK: ZN 8300LOC-Klassifikation:

TK3001

Online-Ressourcen:

Zugang im Netz des KIT

Zusammenfassung: Recent advances in Wireless Power Transmission (WPT) technologies have enabled various engineering applications with potential product implementation. WPT can be utilized to charge batteries in various pieces of equipment without the need for a wired connection. Energy can be harvested from ambient RF and microwave radiation and 1 million kW microwaves can be transmitted from space to the ground.This book covers all the theory and technologies of WPT, such as microwave generators with semi-conductors and microwave tubes, antennas, phased arrays, beam efficiency, and rectifiers (rectenna). The authors also discuss coupling WPT. Applications, such as energy harvesting, sensor networks, point-to-point WPT, WPT to moving targets (airplane, vehicle, etc.) and Solar Power Satellite are also presented.Zusammenfassung: Cover -- Title Page -- Contents -- Introduction -- Chapter 1. History, Present and Future of WPT -- 1.1. Theoretical predictions and the first trial in the 19th Century -- 1.2. Rejuvenated WPT by microwaves in the 1960s -- 1.3. Inductive coupling WPT projects in the 20th Century -- 1.4. WPT as a game-changing technology in the 21st Century -- Chapter 2. Theory of WPT -- 2.1. Theoretical background -- 2.2. Beam efficiency and coupling efficiency -- 2.2.1. Beam efficiency of radiowaves -- 2.2.2. Theoretical increase of beam efficiency -- 2.2.3. Coupling efficiency at very close coupling distance -- 2.3. Beam forming -- 2.3.1. Beam-forming theory for the phased array and its error -- 2.3.2. Target detecting via radiowaves -- 2.4. Beam receiving -- Chapter 3. Technologies of WPT -- 3.1. Introduction -- 3.2. Radio frequency (RF) generation - HPA using semiconductors -- 3.3. RF generation - microwave tubes -- 3.3.1. Magnetrons -- 3.3.2. Traveling wave tube/traveling wave tube amplifier -- 3.3.3. Klystron -- 3.4 Beam-forming and target-detecting technologies with phased array -- 3.4.1. Introduction -- 3.4.2. Phased array in the 1990s -- 3.4.3. Phased array in the 2000s -- 3.4.4. Phased array using magnetrons -- 3.4.5. Retrodirective system -- 3.5. RF rectifier - rectenna and tube type -- 3.5.1. General rectifying theory of rectenna -- 3.5.2. Various rectennas I - rectifying circuits -- 3.5.3. Various rectennas II - higher frequency and dual bands -- 3.5.4. Various rectennas III - weak power and energy harvester -- 3.5.5. Rectenna array -- 3.5.6. Rectifier using vacuum tube -- Chapter 4. Applications of WPT -- 4.1. Introduction -- 4.2. Energy harvesting -- 4.3. Sensor network -- 4.4. Ubiquitous power source -- 4.5. MPT in a pipe -- 4.6. Microwave buildings -- 4.7. 2D WPT -- 4.8. Wireless charging for electric vehicles -- 4.9. Point-to-point WPT.PPN: PPN: 807217298Package identifier: Produktsigel: ZDB-26-MYL | ZDB-30-PAD | ZDB-30-PQE

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