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RF ENERJİ HASATLAMA SİSTEMLERİ İÇİN ÇİFT BANDLI GREİNACHER DOĞRULTUCU DEVRE TASARIMI

Year 2018, , 348 - 353, 23.06.2018
https://doi.org/10.21923/jesd.396269

Abstract

Enerji hasatlama sistemleri günümüzde yeni bir enerji kaynağı olarak
adlandırılmakta ve ortamda bulunan mevcut elektromanyetik enerjinin
kullanılmasını hedeflemektedir. Enerji hasatlama sistemleri, düşük güç
tüketimine sahip cihazlar için etkili bir çözüm olarak ortaya çıkmaktadır. Bu
sistemlerinin temel amacı, düşük güç tüketimine sahip haberleşme sistemleri
(ZigBee teknolojileri ve Kablosuz sensör ağları) ile birlikte kullanılıp
batarya ömrünü uzatmaktır. Bu sistemlerin temel bileşenleri şunlardır: (1)
minyatür anten ve (2) yüksek verimli doğrultucu devresi. Birinci bileşen
ortamdaki RF dalgalarını toplarken, ikincisi ise toplanan RF enerjisini
doğrultarak DC'ye çevirir.Bu çalışmada 2.4GHz ve 2.7GHz frekanslarında çalışan
çift bandlı Greinacher doğrultucu devre tasarımı önerilmiştir. Uyumlandırma
katında L-C ve mikroşerit Stub yapıları kullanılmıştır. Greinacher doğrultucu
devresinin simetrik yapısı, diyotlar tarafından üretilen harmoniğin azalmasına
yardımcı olmaktadır. Yapılan simülasyon sonuçlarına göre, 10dBm giriş gücüne
karşılık çıkışta 100 Kohm’luk yük direncinde 4,023V’luk bir DC gerilim elde
edilmiştir. 0dBm’lik giriş gücünde ise LTE frekansında 100ohm ile 100Kohm
arasında değişen yük dirençlerinde -5 ile -15dBm arasında güç değerleri elde
edilmiştir. Doğrultucudan elde edilen DC gerilim kullanılarak düşük güç
tüketimine sahip sensörler ve sensör ağları beslenebilir ya da DC gerilim
depolanarak pil ömrü uzatılabilir.

References

  • Paradiso, J.A., Starner, T.: ‘Energy scavenging for mobile and wireless electronics’, IEEE Pervasive Comput., 4, (1), pp. 18–27, 2005.
  • Gilbert, J.M., Balouchi, F., ‘Comparison of energy harvesting systems for wireless sensor networks’, Int. J. Autom. Comput., 5, (4), pp. 334–347, 2008.
  • Rebello, J.: ‘Global wireless subscriptions reach 5 billion’, September 2010. Available: http://www.isuppli.com/Mobile-and-Wireless-communications/News/Pages/Global-Wireless-Subscriptions-Reach-5-Billion.aspx
  • Cheng, Y.-C., Chawathe, Y., LaMarca, A., Krumm, J.: ‘Accuracy characterization for metropolitan-scale Wi-Fi localization’. Proc. Third Int. Conf. on Mobile Systems, pp. 233–245, January 2005.
  • Hagerty, J.A., Helmbrecht, F.B., McCalpin, W.H., Zane, R., Popovic, Z.B., et al.: ‘Recycling ambient microwave energy with broadband rectenna arrays’, IEEE Trans. Microw. Theory Tech., MTT-52, (3), pp. 1014–1024, 2004.
  • Sample, A., Smith, J.: ‘Experimental results with two wireless power transfer systems’. Proc. IEEE RWS, pp. 16–18, January 2009.
  • Ostaffe, H.: ‘Power out of thin air: ambient RF energy harvesting for wireless sensors’, 2010, http://powercastco.com/PDF/Power-Out-of-Thin-Air.pdf
  • H. Yan, J. G. M. Montero, A. Akhnoukh, L. C. N. de Vreede, and J. N. Burghart, ”‘An integration scheme for RF power harvesting”, 8th Annu. Workshop Semiconductor Advances Future Electron. Sensors, Veldhoven, The Netherlands, 2005.
  • Curty, J.-P., Joehl, N., Krummenacher, F., Dehollain, C., Declercq, M.: ‘A model for m-power rectifier analysis and design’, IEEE Trans. Circuits Syst. I, 52, (12), pp. 2771–2779, 2000.
  • U. Olgun C.-C. Chen J.L. Volakis, Design of an efficient ambient WiFi energy harvesting system, IET Microw. Antennas Propag., Vol. 6, Iss. 11, pp. 1200–1206, 2012.

DUAL BAND GREINACHER RECTIFIER CIRCUIT DESIGN FOR ENERGY HARVESTING SYSTEMS

Year 2018, , 348 - 353, 23.06.2018
https://doi.org/10.21923/jesd.396269

Abstract










Harvester systems are seen as an effective solution method for low power
consumption circuits. These systems can be used with low power consumption
communication system (ZigBee and wireless sensors) to extend the battery life.
These systems are consist of: (a) a miniaturized antenna, (b) a high
performance rectifier circuit. The first component gathers
the RF signals in environment while the second component rectifies the signals
to a DC current. Herein, design of a dual band Greinacher rectifier circuit for
2.4 and 2.7 GHz applications is studied. L-C type circuits and microstrip stub
structures are used for matching layer. The symmetrical structure of
Greincacher rectifier provides reduction in harmonics of diodes. As it can be
seen from simulation results, for an input power of 10 dBm a voltage of 4.02V
DC voltage on a 100 Kohm load resistor, and for an input power of 0 dBm with a
variable load resistor of 100-100K ohm -5~15 dBm is obtained. Designs and
specifications were obtained by simulations performed in AWRsoftware. Thus, by
using the DC voltage that is rectified by the RF harvester it is possible to
supply low power sensors or extend the battery life of the systems.
    

References

  • Paradiso, J.A., Starner, T.: ‘Energy scavenging for mobile and wireless electronics’, IEEE Pervasive Comput., 4, (1), pp. 18–27, 2005.
  • Gilbert, J.M., Balouchi, F., ‘Comparison of energy harvesting systems for wireless sensor networks’, Int. J. Autom. Comput., 5, (4), pp. 334–347, 2008.
  • Rebello, J.: ‘Global wireless subscriptions reach 5 billion’, September 2010. Available: http://www.isuppli.com/Mobile-and-Wireless-communications/News/Pages/Global-Wireless-Subscriptions-Reach-5-Billion.aspx
  • Cheng, Y.-C., Chawathe, Y., LaMarca, A., Krumm, J.: ‘Accuracy characterization for metropolitan-scale Wi-Fi localization’. Proc. Third Int. Conf. on Mobile Systems, pp. 233–245, January 2005.
  • Hagerty, J.A., Helmbrecht, F.B., McCalpin, W.H., Zane, R., Popovic, Z.B., et al.: ‘Recycling ambient microwave energy with broadband rectenna arrays’, IEEE Trans. Microw. Theory Tech., MTT-52, (3), pp. 1014–1024, 2004.
  • Sample, A., Smith, J.: ‘Experimental results with two wireless power transfer systems’. Proc. IEEE RWS, pp. 16–18, January 2009.
  • Ostaffe, H.: ‘Power out of thin air: ambient RF energy harvesting for wireless sensors’, 2010, http://powercastco.com/PDF/Power-Out-of-Thin-Air.pdf
  • H. Yan, J. G. M. Montero, A. Akhnoukh, L. C. N. de Vreede, and J. N. Burghart, ”‘An integration scheme for RF power harvesting”, 8th Annu. Workshop Semiconductor Advances Future Electron. Sensors, Veldhoven, The Netherlands, 2005.
  • Curty, J.-P., Joehl, N., Krummenacher, F., Dehollain, C., Declercq, M.: ‘A model for m-power rectifier analysis and design’, IEEE Trans. Circuits Syst. I, 52, (12), pp. 2771–2779, 2000.
  • U. Olgun C.-C. Chen J.L. Volakis, Design of an efficient ambient WiFi energy harvesting system, IET Microw. Antennas Propag., Vol. 6, Iss. 11, pp. 1200–1206, 2012.
There are 10 citations in total.

Details

Primary Language Turkish
Subjects Engineering, Electrical Engineering
Journal Section Research Articles
Authors

Mehmet Ali Belen

Publication Date June 23, 2018
Submission Date February 17, 2018
Acceptance Date June 18, 2018
Published in Issue Year 2018

Cite

APA Belen, M. A. (2018). RF ENERJİ HASATLAMA SİSTEMLERİ İÇİN ÇİFT BANDLI GREİNACHER DOĞRULTUCU DEVRE TASARIMI. Mühendislik Bilimleri Ve Tasarım Dergisi, 6(2), 348-353. https://doi.org/10.21923/jesd.396269