0-to-270° wide pattern reconfigurable antenna using 3D-Printed single quasi-yagi antenna with shape memory hinge
This study presents a 0-to-270° wide-pattern reconfigurable antenna incorporating a shape memory hinge. The substrate is 3D-printed using a shape memory polymer (SMP) and high-temperature filaments, with stretchable silver ink applied via screen printing. To enable reconfiguration in response to the...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
| Published: |
Taylor & Francis Group
2025-12-01
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| Series: | Virtual and Physical Prototyping |
| Subjects: | |
| Online Access: | https://www.tandfonline.com/doi/10.1080/17452759.2025.2468371 |
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| Summary: | This study presents a 0-to-270° wide-pattern reconfigurable antenna incorporating a shape memory hinge. The substrate is 3D-printed using a shape memory polymer (SMP) and high-temperature filaments, with stretchable silver ink applied via screen printing. To enable reconfiguration in response to thermal stimuli, the folding section is fabricated from SMP. Leveraging the end-fire radiation characteristics of a quasi-Yagi antenna, the shape memory hinge adjusts the radiation direction. The antenna’s performance was evaluated at folding angles of −180°, −90°, 0°, and 90°. In the flat position (0°), the measured −10 dB bandwidth ranges from 4.26 to 5.48 GHz, with a peak gain of 4.01–7.49 dBi. The measured −10 dB bandwidths at α = −180°, −90°, and 90° are 4.22–5.45, 4.26–5.47, and 4.28–5.54 GHz, respectively, with corresponding peak gains of 3.22–6.72, 4.52–7.07, and 5.01–7.24 dBi. These results demonstrate a stable frequency response and gain across different folding angles. With its straightforward design and fabrication process, the proposed antenna enables beam direction adjustment over a wide angular range, offering a novel approach to pattern reconfigurable antennas. |
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| ISSN: | 1745-2759 1745-2767 |