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Abstract
Additive manufacturing technology provides high flexibility in designing custom enclosures for prototype devices such as nodes of distributed sensor networks. Although integration of components is desired from the perspective of sensor mobility, it might negatively affect the performance of radio-connectivity due to couplings between the antenna and system peripherals, as well as other unaccounted effects of the 3D printed enclosure. In this work, a design of a dual-band cellular antenna is considered. The structure is optimized to work on plastic substrates characterized by thicknesses ranging from 1 mm to 5 mm, respectively. The antenna features a –10 dB bandwidth within frequencies from 0.74 GHz to 1.05 GHz and 1.49 GHz to 1.92 GHz. Owing to a simple topology the structure can be implemented in the form of a copper-based sticker and attached on a 3D printed material (e.g., the enclosure of the device). The radiator has been compared against the state-of-the-art antennas in terms of bandwidth and gain.
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Authors (4)
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Tuan-Vu Cao
Cite as
Full text
- Publication version
- Accepted or Published Version
- DOI:
- Digital Object Identifier (open in new tab) 10.23919/MIKON60251.2024.10633960
- License
- Copyright (2024 Warsaw University of Technology)
Keywords
Details
- Category:
- Conference activity
- Type:
- publikacja w wydawnictwie zbiorowym recenzowanym (także w materiałach konferencyjnych)
- Language:
- English
- Publication year:
- 2024
- Bibliographic description:
- Bekasiewicz A., Askaripour K., Wójcikowski M., Cao T.: Design of a Cellular Dual-Band Sticker Antenna for Thickness-Independent 3D-Printed Substrates// / : , 2024,
- DOI:
- Digital Object Identifier (open in new tab) 10.23919/mikon60251.2024.10633960
- Sources of funding:
- Verified by:
- Gdańsk University of Technology
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