Г-Shaped Asymmetrical Monopole Antenna on Truncated DGS For Multiband RF Energy Harvesting Applications
Öz
In today's world, through the advancement of technology, wireless communication has become an integral part of our lives with the utilization of versatile electronic devices such as cell phones, tablets, and computers that contain wireless communication modules. The idea of utilizing different frequencies and power of RF signals in the environment has led to the concept of harvesting RF signals to produce DC output voltage. In this paper, a printed multiband monopole antenna is presented. The proposed antenna is composed of two Г-shaped asymmetrically positioned feeding lines which are located on slotted truncated ground plane with three stubs loaded on both ground plane sides. The antenna design covers the frequently used frequencies for electronic device communication, such as GSM 1800, UMTS 2100, WLAN 2450 and LTE 2600 With the numerically computed gain values of 3.89dBi at 1.8GHz, 4.51dBi at 2.1GHz, 5.02dBi at 2.45GHz, and 5.03dBi at 2.6GHz, respectively. The proposed antenna design has permissible gain values to be used for RF energy harvesting applications.
Anahtar Kelimeler
Destekleyen Kurum
İzmir Katip Çelebi Üniversitesi
Teşekkür
This study has been carried out using the laboratory of Izmir Katip Celebi University Smart Factory Systems Application and Research Center (AFSUAM).
Kaynakça
- Özkaya, U., & Seyfi, L. (2018). Dimension Forecast in Microstrip Antenna for C/X/Ku Band by Artificial Neural Network. In 2nd International Symposium on Innovative Approaches in Scientific Studies (Vol. 3, pp. 518-522).
- Brown, W. C. (1984). The history of power transmission by radio waves. IEEE Transactions on microwave theory and techniques, 32(9), 1230-1242.
- Adu-Manu, K. S., Adam, N., Tapparello, C., Ayatollahi, H., & Heinzelman, W. (2018). Energy-harvesting wireless sensor networks (EH-WSNs) A review. ACM Transactions on Sensor Networks (TOSN), 14(2), 1-50.
- Shahabuddin, A. A., Shalu, P. D., & Akter, N. (2018). Optimized process design of rf energy harvesting circuit for low power devices. International Journal of Applied Engineering Research, 13(2), 849-854.
- Takacs, A., Okba, A., Aubert, H., Charlot, S., & Calmon, P. F. (2017, May). Recent advances in electromagnetic energy harvesting and Wireless Power Transfer for IoT and SHM applications. In 2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) (pp. 1-4). IEEE.
- Theeuwes, J. A., Visser, H. J., Van Beurden, M. C., & Doodeman, G. J. (2007, October). Efficient, compact, wireless battery design. In 2007 European Conference on Wireless Technologies (pp. 233-236). IEEE.
- Kim, Y. J., Bhamra, H. S., Joseph, J., & Irazoqui, P. P. (2015). An ultra-low-power RF energy-harvesting transceiver for multiple-node sensor application. IEEE Transactions on Circuits and Systems II: Express Briefs, 62(11), 1028-1032.
RF Enerji Hasatlama Uygulamaları İçin Kesilmiş DGS Üzerinde Г-Şekilli Çok Bantlı Asimetrik Monopol Anten Tasarımı
Öz
In today's world, through the advancement of technology, wireless communication has become an integral part of our lives with the utilization of versatile electronic devices such as cell phones, tablets, and computers that contain wireless communication modules. The idea of utilizing different frequencies and power of RF signals in the environment has led to the concept of harvesting RF signals to produce DC output voltage. In this paper, a printed multiband monopole antenna is presented. The proposed antenna is composed of two Г-shaped asymmetrically positioned feeding lines which are located on slotted truncated ground plane with three stubs loaded on both ground plane sides. The antenna design covers the frequently used frequencies for electronic device communication, such as GSM 1800, UMTS 2100, WLAN 2450 and LTE 2600 With the numerically computed gain values of 3.89dBi at 1.8GHz, 4.51dBi at 2.1GHz, 5.02dBi at 2.45GHz, and 5.03dBi at 2.6GHz, respectively. The proposed antenna design has permissible gain values to be used for RF energy harvesting applications.
Anahtar Kelimeler
Kaynakça
- Özkaya, U., & Seyfi, L. (2018). Dimension Forecast in Microstrip Antenna for C/X/Ku Band by Artificial Neural Network. In 2nd International Symposium on Innovative Approaches in Scientific Studies (Vol. 3, pp. 518-522).
- Brown, W. C. (1984). The history of power transmission by radio waves. IEEE Transactions on microwave theory and techniques, 32(9), 1230-1242.
- Adu-Manu, K. S., Adam, N., Tapparello, C., Ayatollahi, H., & Heinzelman, W. (2018). Energy-harvesting wireless sensor networks (EH-WSNs) A review. ACM Transactions on Sensor Networks (TOSN), 14(2), 1-50.
- Shahabuddin, A. A., Shalu, P. D., & Akter, N. (2018). Optimized process design of rf energy harvesting circuit for low power devices. International Journal of Applied Engineering Research, 13(2), 849-854.
- Takacs, A., Okba, A., Aubert, H., Charlot, S., & Calmon, P. F. (2017, May). Recent advances in electromagnetic energy harvesting and Wireless Power Transfer for IoT and SHM applications. In 2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) (pp. 1-4). IEEE.
- Theeuwes, J. A., Visser, H. J., Van Beurden, M. C., & Doodeman, G. J. (2007, October). Efficient, compact, wireless battery design. In 2007 European Conference on Wireless Technologies (pp. 233-236). IEEE.
- Kim, Y. J., Bhamra, H. S., Joseph, J., & Irazoqui, P. P. (2015). An ultra-low-power RF energy-harvesting transceiver for multiple-node sensor application. IEEE Transactions on Circuits and Systems II: Express Briefs, 62(11), 1028-1032.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Mühendislik |
| Bölüm | Makaleler |
| Yazarlar | |
| Erken Görünüm Tarihi | 28 Şubat 2023 |
| Yayımlanma Tarihi | 28 Şubat 2023 |
| Yayımlandığı Sayı | Yıl 2023 Sayı: 48 |
- Makale Dosyaları