High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications
A new dipole antenna designed using polydimethylsiloxane–glass microsphere (PDMS-GM) substrate is presented. The PDMS-GM substrate offered a lower permittivity of 1.85 compared to pure PDMS of 2.7. This resulted in a wide operating frequency range from 19 GHz up to more than 45 GHz, indicating a ban...
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2017
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my.utm.802762019-04-25T01:24:45Z http://eprints.utm.my/id/eprint/80276/ High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications Wan Muhamad, Wan Asilah Ngah, Razali Jamlos, Mohd. Faizal Ping, Jack Soh Ali, Mohd. Tarmizi TK Electrical engineering. Electronics Nuclear engineering A new dipole antenna designed using polydimethylsiloxane–glass microsphere (PDMS-GM) substrate is presented. The PDMS-GM substrate offered a lower permittivity of 1.85 compared to pure PDMS of 2.7. This resulted in a wide operating frequency range from 19 GHz up to more than 45 GHz, indicating a bandwidth of more than 28 GHz. The proposed PDMS-GM antenna featured a gain of up to 13.3 dB compared to pure PDMS which only produced 13 GHz of bandwidth and 5.5 dB gain. Instead of wide bandwidth and high gain, the proposed antenna is capable of becoming water resistant by covering its radiator and SMA connector. Such capabilities of the new PDMS-GM antenna indicated suitability for the fifth-generation (5G) wireless communication systems. Springer-Verlag 2017 Article PeerReviewed Wan Muhamad, Wan Asilah and Ngah, Razali and Jamlos, Mohd. Faizal and Ping, Jack Soh and Ali, Mohd. Tarmizi (2017) High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications. Applied Physics A-Materials Science & Processing, 123 (1). pp. 1-5. ISSN 0947-8396 http://dx.doi.org/10.1007%2Fs00339-016-0633-3 DOI:10.1007%2Fs00339-016-0633-3 |
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TK Electrical engineering. Electronics Nuclear engineering Wan Muhamad, Wan Asilah Ngah, Razali Jamlos, Mohd. Faizal Ping, Jack Soh Ali, Mohd. Tarmizi High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications |
| description |
A new dipole antenna designed using polydimethylsiloxane–glass microsphere (PDMS-GM) substrate is presented. The PDMS-GM substrate offered a lower permittivity of 1.85 compared to pure PDMS of 2.7. This resulted in a wide operating frequency range from 19 GHz up to more than 45 GHz, indicating a bandwidth of more than 28 GHz. The proposed PDMS-GM antenna featured a gain of up to 13.3 dB compared to pure PDMS which only produced 13 GHz of bandwidth and 5.5 dB gain. Instead of wide bandwidth and high gain, the proposed antenna is capable of becoming water resistant by covering its radiator and SMA connector. Such capabilities of the new PDMS-GM antenna indicated suitability for the fifth-generation (5G) wireless communication systems. |
| format |
Article |
| author |
Wan Muhamad, Wan Asilah Ngah, Razali Jamlos, Mohd. Faizal Ping, Jack Soh Ali, Mohd. Tarmizi |
| author_facet |
Wan Muhamad, Wan Asilah Ngah, Razali Jamlos, Mohd. Faizal Ping, Jack Soh Ali, Mohd. Tarmizi |
| author_sort |
Wan Muhamad, Wan Asilah |
| title |
High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications |
| title_short |
High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications |
| title_full |
High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications |
| title_fullStr |
High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications |
| title_full_unstemmed |
High-gain dipole antenna using polydimethylsiloxane-glass microsphere (PDMS-GM) substrate for 5G applications |
| title_sort |
high-gain dipole antenna using polydimethylsiloxane-glass microsphere (pdms-gm) substrate for 5g applications |
| publisher |
Springer-Verlag |
| publishDate |
2017 |
| url |
http://eprints.utm.my/id/eprint/80276/ http://dx.doi.org/10.1007%2Fs00339-016-0633-3 |
| _version_ |
1643658365579034624 |
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13.211869 |