Rüdiger Follmann scite author profile

Rüdiger Follmann

5Publications

62Citation Statements Received

46Citation Statements Given

How they've been cited

114

How they cite others

Affiliations

Institute for Mobile and Satellite Communication Technology, Mercator Institute for China Studies

Publications

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Liquid Crystal-Reconfigurable Antenna Concepts for Space Applications at Microwave and Millimeter Waves

Gaebler

Moessinger

Goelden

et al. 2009

International Journal of Antennas and Propagation

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Novel approaches of tunable devices for millimeter wave applications based on liquid crystal (LC) are presented. In the first part of the paper, a novel concept of a tunable LC phase shifter realized in Low Temperature Cofired Ceramics technology is shown while the second part of the paper deals with a tunable high-gain antenna based on an LC tunable reflectarray. The reflectarray features continuously beam scanning in between±25∘. Also first investigations on radiation hardness of LCs are carried out, indicating that LCs might be suitable for space applications.

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An Integrated 18 GHz fractional-N PLL in SiGe BiCMOS technology for satellite communications

Peters

Osmany

Schmalz

et al. 2009

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Liquida-Sky — A tunable liquid crystal filter for space applications

Follmann

Kother

Campo

et al. 2013

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Continuously tuneable liquid crystal based stripline phase shifter realised in LTCC technology

Jost¹,

Strunck²,

Heunisch³

et al. 2015

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Liquid-crystal-based amplitude tuner and tunable SIW filter fabricated in LTCC technology

Prasetiadi

Jost

Schulz

et al. 2018

Int. J. Microw. Wireless Technol.

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Tunable microwave devices will play an important role in future wireless systems, in which high-frequency bands, e.g. millimeter waves, will become promising, due to its huge spectrum availability. At such frequency bands, liquid crystals (LCs) exhibit low microwave loss, which is excellent compared with the other tuning elements. In this paper, LC-based microwave components are fabricated by using low temperature co-fired ceramic technology, allowing the integration of the LC into microwave structures. The first component, the amplitude tuner, controls the signal's amplitude by using the interference concept, which exhibits a tunable attenuation range from 11 dB to 30 dB at 30 GHz. The second component is a 3-pole tunable bandpass filter, which is realized by using a substrate integrated waveguide topology, enabling a device with comparatively high-quality factors (Q-factors). The measurement results show Q-factors in the range of 68 to 100 for a frequency tuning of 29.4–30.1 GHz, i.e. a tuning range of 700 MHz, accompanied by an insertion loss 2 dB to 4 dB.

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