[Legacy Report] 3‐D Printing Applications in RF and Antenna Design

#32nd #ANNUAL #SYMPOSIUM #AND #MINI-SHOW

3-D printing is an affordable and efficient additive manufacturing approach to accomplishing complex and
unique RF and antenna structures beyond the geometries utilized in traditional subtractive manufacturing. This
talk aims to give an overview of the innovative ways in which 3-D printing has been utilized including
improving antenna gain and bandwidth, achieving planar antenna flexibility and manufacturing cost-effective
waveguides with a fast turnaround time.
Reena Dahle received her Ph.D. degree in 2008 from the University of Waterloo, Ontario, Canada, where she worked as
a researcher in the Center for Integrated RF Engineering (CIRFE). She was extensively involved with RF MEMS device
microfabrication and characterization, as well as microwave/antenna circuit design and development. While working as a
senior microwave systems engineer (2008-2012) at MITEQ in Hauppauge, LI, Professor Dahle oversaw the design of
high-performance components and systems for satellite communication and earth station systems.
Professor Dahle is currently an assistant professor at State University of New York (SUNY) New Paltz. She has authored
and co-authored multiple scientific publications in the field and holds numerous distinguished provincial and institutional
awards. She has been the recipient of a three-year Natural Sciences and Engineering Research Council of Canada
(NSERC) doctoral fellowship. Her research interests include wireless power transfer, biomedical near field sensing and
the use of 3-D printing for RF and antenna design
dahler@newpaltz.edu

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• East Hanover, New Jersey
• United States

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