Search

Your search keyword '"Dietz, Marco"' showing total 41 results
Start Over Author "Dietz, Marco"
41 results on '"Dietz, Marco"'

2. A Review of Integrated Systems and Components for 6G Wireless Communication in the D-Band

Author

Maiwald, Tim, primary, Li, Teng, additional, Hotopan, George-Roberto, additional, Kolb, Katharina, additional, Disch, Karina, additional, Potschka, Julian, additional, Haag, Alexander, additional, Dietz, Marco, additional, Debaillie, Bjorn, additional, Zwick, Thomas, additional, Aufinger, Klaus, additional, Ferling, Dieter, additional, Weigel, Robert, additional, and Visweswaran, Akshay, additional

Published
2023
Full Text
View/download PDF

8. Integrated Front-End Approaches for Wireless 100 Gb/s and Beyond: Enabling Efficient Ultra-High Speed Wireless Communication Systems

Author

Carlowitz, Christian and Dietz, Marco

Abstract

Wireless communication faces ever-growing demand for higher data rates, which has driven the need for modem implementations that are capable of providing single-link data rates on the order of 100 Gb/s and beyond for extremely fast data transmission. In recent years, the 60-GHz band has been employed to significantly increase wireless local area network data rates in IEEE’s 802.11ad standard targeting multigigabit modems. Its extension 802.11ay was finalized in 2021, targeting data rates toward 100 Gb/s in the same bands by increasing spectral efficiency and combining up to four channels with more than 8-GHz bandwidth in total [1]. This approach has the advantage of existing unlicensed regulatory allocations. Nevertheless, options for higher bandwidth have increasingly been investigated, also driven by the publication of the IEEE 802.15.3d [2] physical layer standard for a frequency range between 252 and 325 GHz, which resides in an atmospheric window that enables reasonable long-range communication links on the order of a few kilometers. In this frequency range, a substantially higher bandwidth is achievable. Specific regulatory allocations are still missing; nevertheless, the conditions to use this frequency range have already been discussed and described during the 2019 World Radiocommunication Conference [3]. Although the first demonstrations of 100-Gb/s modems in this frequency range were at least partially based on photonic technologies [4], integrated front ends in different semiconductor technologies have been demonstrated [5] and are discussed in the present article in more detail together with the major remaining challenges for practical applications.

Published
2023
Full Text
View/download PDF

26. Design of an Integrated Subretinal Implant using Cellular Neural Networks for Binary Image Generation in a 130 nm BiCMOS Process

Author

Potschka, Julian, primary, Dietz, Marco, additional, Beck, Christopher, additional, Voelkel, Matthias, additional, Hagelauer, Amelie, additional, Weigel, Robert, additional, Soell, Christopher, additional, Kirchner, Jens, additional, Mardin, Christian, additional, Stadelmayer, Markus, additional, Maiwald, Tim, additional, Breun, Sascha, additional, Kolb, Katharina, additional, and Bauch, Andreas, additional

Published
2019
Full Text
View/download PDF

41. Design of an Integrated Subretinal Implant using Cellular Neural Networks for Binary Image Generation in a 130 nm BiCMOS Process.

Author

Potschka J, Dietz M, Beck C, Voelkel M, Hagelauer A, Weigel R, Soell C, Kirchner J, Mardin C, Stadelmayer M, Maiwald T, Breun S, Kolb K, and Bauch A

Subjects
Animals, Blindness, Prostheses and Implants, Retina, Macular Degeneration therapy, Retinitis Pigmentosa therapy, Visual Prosthesis
Abstract

Blindness caused by the eye diseases Retinitis-Pigmentosa and Age-Related-Macular-Degeneration leads to a degeneration of the photoreceptor layer while postsynaptic cells mostly stay intact. In this Paper a new concept for retinal implants is proposed. Instead of converting the incident light to a gray-scale picture with corresponding continuous-value stimulation levels, we here suggest to produce a binary image picture that only highlight edges in order to stimulate the retina solely at points which belong to an edge. An integrated test circuit is designed with a 130 nm BiCMOS process by using cellular neural networks for binary image generation. The circuit yields a simulated maximum rated power consumption of 2.61 mW for a 1000 information processing cells.

Published
2019
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results