2012 Electrical Systems for Aircraft, Railway and Ship Propulsion 2012
DOI: 10.1109/esars.2012.6387380
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Comparison of different electrical HVDC-architectures for aircraft application

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Cited by 58 publications
(33 citation statements)
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“…• +/-270V DC 2 phases with ground • 270V DC 1 phase with ground • +/-135V DC two phases with ground • +/-135V DC 2 phases without ground The conclusion of [23] certifies that in most cases, HVDC EPS can save weight from 4% (270/0V architecture with 230V AC supply) up to 28% (270/0V architecture with 115V AC supply). Fig.…”
Section: High Voltage DC (Hvdc) Aircraft Epsmentioning
confidence: 93%
“…• +/-270V DC 2 phases with ground • 270V DC 1 phase with ground • +/-135V DC two phases with ground • +/-135V DC 2 phases without ground The conclusion of [23] certifies that in most cases, HVDC EPS can save weight from 4% (270/0V architecture with 230V AC supply) up to 28% (270/0V architecture with 115V AC supply). Fig.…”
Section: High Voltage DC (Hvdc) Aircraft Epsmentioning
confidence: 93%
“…According to the aeronautical standard [28], the maximum allowable DC voltage is 270 V, which cannot be sufficient when a high power is required. In the paper, the investigations shown in the following sections are carried out assuming the possibility to use both the 270 V and the 540 V voltage levels on the DC-link [29,30]. As previous mentioned, the storage system is connected to the DC-link using a DC-DC converter: the use of this converter allows the stabilization on the DC-link also during the performance of electric power-train, when the discharge of currents determines the reduction of output voltage of the battery pack.…”
Section: Optimal Design Of Battery Storage Systemsmentioning
confidence: 99%
“…DC-AC converters are likely to perform many of the power conversion functions in a MEA power system, such as engine starting and active rectification functions in the generator converters, control of high speed pumps and flight control actuators, and synthesizing an AC electrical system for the hotel and auxiliary loads. Therefore there is a growing need for high efficiency DC-AC converters capable of operating at powers in the kWs range and at fundamental frequencies of 400 Hz and above [1,2]. High efficiency is essential to minimize the size of the converter and reduce fuel burn.…”
Section: Introductionmentioning
confidence: 99%
“…Some of the key benefits of the MEA concept include improving fuel efficiency and reducing the maintenance costs [1]. As a result of this technology change, a number of new electrical power system architectures are being developed including AC and DC sub-systems which require a range of power electronic converters to form the interconnections [1,2]. DC-AC converters are likely to perform many of the power conversion functions in a MEA power system, such as engine starting and active rectification functions in the generator converters, control of high speed pumps and flight control actuators, and synthesizing an AC electrical system for the hotel and auxiliary loads.…”
Section: Introductionmentioning
confidence: 99%
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