Peter Lucas scite author profile

Peter Lucas

5Publications

83Citation Statements Received

51Citation Statements Given

How they've been cited

120

How they cite others

Affiliations

TU Dresden, University of Western Brittany

Publications

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Design and analysis of a highly integrated 9-phase drivetrain for EV applications

Burkhardt

Spagnolo

Lucas

et al. 2014

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 Abstract --Cost and compactness are major success factors for electrical drivetrains for (hybrid) electric vehicles (EV). To increase the system power density, the focus is set on system integration, meaning to integrate emachine, inverter, control, and gearing into one common housing. The inverter integration is facilitated by multiphase motors leading to lower phase powers and thus smaller inverter modules. To overcome price uncertainties of rare earth magnets, improved hard ferrite magnets are chosen as an alternative. In this paper, a new highly integrated drivetrain with a ferrite based 9-phase synchronous motor concept is presented with special focus on the main choices leading to the particular electromagnetic and mechanical design. The advantages of an integrated triplex inverter power supply and the new mechanical arrangement of a spoke-type rotor design will be presented, without focusing on the detailed electromagnetic behavior of the machine.

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Automatic Grinding and Polishing Using Spherical Robot

Dieste¹,

Fernández

Roba³

et al. 2013

Procedia Engineering

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Investigation of Thermal Effects in Different Lightweight Constructions for Vehicular Wireless Power Transfer Modules

Zimmer

Helwig

Lucas

et al. 2020

WEVJ

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This paper presents a thermal investigation of lightweight on-board receiver modules of wireless power transfer systems for electric vehicles. The studied modules are capable of receiving up to 11 kW at a resonance frequency of 85 kHz over a distance of 110–160 mm. The receiver modules were built as sandwich and space–frame concept to design stiff and lightweight structures. The high transmission power of automotive wireless power transfer systems combined with the multi-part assembly of receiver modules led to challenges in heat management. To address this, the physical behaviour of the proposed lightweight concepts were studied on component and system level using a hardware-in-the-loop testing facility for wireless power transfer systems. Special emphasis was laid on the validation of a thermal simulation model, which uses analytical calculated power losses taking into account their temperature dependency. The proposed simulation model is consistent with the experimental validation of the critical active components. The performed systematic studies build the basis for a more sophisticated thermal dimensioning of various constructions for wireless power transfer modules.

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Electrical drivetrain without rare earth magnets and integrated inverter with inherent redundancy

Brockerhoff

Burkhardt

Ehlgen

et al. 2013

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Wireless Sensor Networks and Satellite Simulation

Lucas

Long

Truong

et al. 2015

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International audienceConnecting wireless sensor networks (WSN) by the air be- comes attractive due to advances in Satellites and Unmanned aerial vehi- cle (UAV). This work focus on specification and simulation of situations where several distant WSN have gateways visited periodically by a mo- bile on a static path. To develop and evaluate collection and control services, it is first needed to run system level simulation. This paper re- ports on producing automatically representations of complex topology where mobile cooperate with sensor fields with respect to timing con- straints from both sides. Simulation programs are produced for graphic accelerators (GPU), and concurrent process architectures

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Peter Lucas

Design and analysis of a highly integrated 9-phase drivetrain for EV applications

Automatic Grinding and Polishing Using Spherical Robot

Investigation of Thermal Effects in Different Lightweight Constructions for Vehicular Wireless Power Transfer Modules

Electrical drivetrain without rare earth magnets and integrated inverter with inherent redundancy

Wireless Sensor Networks and Satellite Simulation

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