A
Amelie Hagelauer
Researcher at University of Bayreuth
Publications - 147
Citations - 779
Amelie Hagelauer is an academic researcher from University of Bayreuth. The author has contributed to research in topics: Amplifier & CMOS. The author has an hindex of 11, co-authored 134 publications receiving 471 citations. Previous affiliations of Amelie Hagelauer include University of Erlangen-Nuremberg & Infineon Technologies.
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Microwave Acoustic Wave Devices: Recent Advances on Architectures, Modeling, Materials, and Packaging
TL;DR: This paper reviews applications of acoustic wave devices in mobile communication, and an overview on the modeling and characterization of SAW and BAW at high power levels is given.
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Conditional Capacity and Transmit Signal Design for SWIPT Systems With Multiple Nonlinear Energy Harvesting Receivers
TL;DR: A novel nonlinear EH model is developed that captures the saturation of the harvested DC power by taking into account not only the forward current of the rectifying diode but also the reverse breakdown current, and it is shown that the boundary of the R-E region saturates for high PP constraints due to the saturation for high input RF powers.
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Industrial mmWave Radar Sensor in Embedded Wafer-Level BGA Packaging Technology
Christopher Beck,Herman Jalli Ng,Roman Agethen,M. PourMousavi,Hans Peter Forstner,Maciej Wojnowski,Klaus Pressel,Robert Weigel,Amelie Hagelauer,Dietmar Kissinger +9 more
TL;DR: Highly integrated 60-GHz radar transceivers for industrial sensor applications implemented in the SiGe bipolar technology and packaged using the embedded wafer-level ball grid array technology that allows for direct embedding of the antennas in the package redistribution layer.
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Integrated Systems-in-Package: Heterogeneous Integration of Millimeter-Wave Active Circuits and Passives in Fan-Out Wafer-Level Packaging Technologies
TL;DR: The most prominent frequency ranges are currently the 60-GHz short-range communication frequency band and E-band wireless back-haul solutions, as well as the 76-81-GHz band for automotive radar sensor realizations.
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Design of a Novel Quarter-Mode Substrate-Integrated Waveguide Filter With Multiple Transmission Zeros and Higher Mode Suppressions
TL;DR: In this paper, the authors presented a novel quarter-mode packaged bandpass filter with four transmission zero (TZs) in substrate-integrated waveguide (SIW) technology.