Jonas Weindl

Patent Attorney Candidate

M.Sc, B.Sc

Jonas Weindl has been a patent attorney candidate at df-mp since 2024. With his scientific expertise in the field of high-frequency engineering, he complements our expertise in the fields of electrical engineering and communications engineering.

+ 49 89 210 296 0
jonas.weindl@df-mp.com

Jonas Weindl

Patent Attorney Candidate

M.Sc, B.Sc

Jonas Weindl has been a patent attorney candidate at df-mp since 2024. With his scientific expertise in the field of high-frequency engineering, he complements our expertise in the fields of electrical engineering and communications engineering.

+ 49 89 210 296 0
jonas.weindl@df-mp.com

practice areas.

Jonas Weindl's scientific expertise lies in the field of high-frequency engineering. He specializes in the design of microwave circuits and their efficient calculation using numerical field solution methods. He specializes in European and German opposition proceedings, infringement proceedings and nullity proceedings.

AWARDS AND RECOMMENDATIONS.

Author and co-author of scientific publications in the field of radio frequency technology, focusing on filter structures for the mobile communication standards of the fifth and sixth generation (5G/6G).

curriculum vitae.

Since 2024
Since 2024

Patent att­or­ney can­di­da­te at df-mp

2018-2023
2018-2023

Doc­to­ra­te at the Chair of High Fre­quen­cy Tech­no­lo­gy at the Tech­ni­cal Uni­ver­si­ty of Munich. Rese­arch area: Hol­­low-wave­­gui­­de band­pass fil­ters with very good sup­pres­si­on of para­si­tic pass­bands in the 5G/6G ran­ge.

2015-2018
2015-2018

Master’s degree in Elec­tri­cal Engi­nee­ring and Infor­ma­ti­on Tech­no­lo­gy at the Tech­ni­cal Uni­ver­si­ty of Munich, the­sis on the imple­men­ta­ti­on of hier­ar­chi­cal mul­tis­ca­le wave­let methods in com­bi­na­ti­on with the fini­te ele­ment method for the effi­ci­ent solu­ti­on of par­ti­al dif­fe­ren­ti­al equa­tions.

2011-2015
2011-2015

Bachelor’s degree in Elec­tri­cal Engi­nee­ring and Infor­ma­ti­on Tech­no­lo­gy at the Tech­ni­cal Uni­ver­si­ty of Munich.

publications.

  • J. Weindl, A. Prasetiadi, T. F. Eibert: Pin-Loaded Rectangular Hollow-Waveguide Cavities for Filter Design with Excellent Suppression of Spurious Passbands, 26th European Microwave Week (EuMW), 2023
  • J. Weindl, M. G. Ehrnsperger, A. Prasetiadi, and T. F. Eibert: Interdigital Resonators in Wideband Ridged-Waveguide Filters, Adv. Radio Sci., 20, 29–35, 2023.
  • J. Weindl, T. F. Eibert, Analytical Slope Parameter Determination for Ridged-Waveguide Resonators, Kleinheubacher Tagung, 2022
  • J. Weindl, T. F. Eibert, Interdigital Resonators in Wideband Ridged-Waveguide Filters, Kleinheubacher Tagung, 2021
  • J. Weindl, T. F. Eibert, Study of Spurious Passbands of Ridged Hollow Waveguide Filters, German Microwave Week (GeMiC), 2020
  • J. Weindl, T. F. Eibert, Spurious Passband Considerations in Hollow Waveguide Bandpass Filters, Kleinheubacher Tagung, 2019