Design and Realization of Chebyshev Bandstop Filters Based on Ceramic Resonators
Chair of High-Frequency Engineering, Department of Electrical and Computer Engineering, Technical University of Munich, Munich, Germany
Thomas F. Eibert
Chair of High-Frequency Engineering, Department of Electrical and Computer Engineering, Technical University of Munich, Munich, Germany
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Jonas Weindl, Matthias G. Ehrnsperger, Ananto Prasetiadi, and Thomas F. Eibert
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In the paper we describe how the detection of living objects, such as people and animals, can be significantly improved. It is particularly important to detect people in dangerous environments to protect them. For such a detection task we use a radar system. Radar, because the detection also has to work at night and if it rains or snows, these are the situations when other systems, i.e. cameras, fail. Our experiments showed that many radar applications can benefit from our approach.
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L. Li, K. Wang, H. Li, and T. F. Eibert
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Short summary
In high-frequency technology, devices for filtering signals in the frequency domain are often based on resonant structures. As a result, the physical dimensions of a filter generally increase with decreasing frequency of operation. In this work, bandstop filters are built from special resonant elements with small physical dimensions to reduce the filter size. The small sizes result from the large permittivity of the used ceramic, increasing the electrical length of the resonant elements.
In high-frequency technology, devices for filtering signals in the frequency domain are often...