SIMSIZ ZARYADLASH TEXNOLOGIYASI YOKI ELEKTR ENERGIYANI SIMSIZ UZATISH: NAZARIY VA AMALIY AHAMIYATI

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7 май 2024

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SIMSIZ ZARYADLASH TEXNOLOGIYASI YOKI ELEKTR ENERGIYANI SIMSIZ UZATISH: NAZARIY VA AMALIY AHAMIYATI

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MAQOLA ANNOTATSIYASI

Maqolada simsiz zaryadlash tizimining umumiy, prinsipial sxemalari va fundamental asoslari haqida ma’lumot berilgan hamda simsiz zaryadlashning induktiv aloqa, magnit-rezonansli aloqa va radiochastota/mikroto‘lqinlarni tarqalishi texnologiyalari, ularning fundamental tushunchadan muayyan qo‘llanilishigacha bo‘lgan ma’lumotlarga e’tibor qaratilgan. Shuningdek o‘tkazilgan tadqiqotlar asosida amaliyotga keng tadbiq etiluvchi, ishlab chiqilgan simsiz zaryadlash texnologiyasi yoki elektr energiyani simsiz uzatish qurilmasi bo‘yicha batafsil ma’lumotlar keltirilgan.

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Teglar

# инвертор# идентификация# receiver# identification# converter# inverter# identifikatsiya# приемник# invertor# coil# microwave# alternating current# постоянный ток# transmitter# переменный ток# резонатор# resonator# электромагнитная индукция# electromagnetic induction# катушка# wireless charge# inductive coupling# magnetic resonance coupling# capacitive coupling# radio frequency wave# ultrahigh frequency# direct current# беспроводной заряд# индуктивный связь# магнито-резонансный связь# емкостной связь# радиочастотатная волна# микроволны# сверхвысокая частота# передатчик# конвертор# simsiz zaryadlash# induktiv aloqa# magnit-rezonansli aloqa# sig‘imli aloqa# radiochastotali to‘lqin# mikroto‘lqin# elektromagnit induksiya# o‘ta yuqori chastota# g‘altak# uzatgich# qabul qilgich# o‘zgaruvchan tok# doimiy tok# konvertor# rezonator

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ROI:

https://eroi.uz/11.0206/A0524-0008

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Mavjud emas

Foydalanilgan adabiyotlar

1. Dusit Niyato, Ping Wang, Dong In Kim, Zhu Han, Lu Xiao. Performance Analysis of DelayConstrained Wireless Energy Harvesting Communication Networks under Jamming Attacks / IEEE Conference on Wireless Communications and Networking / New Orleans, Louisiana, USA. – Published by IEEE Xplore. 2014. – 31-47 p; DOI:10.13140/2.1.1918.9441

2. Xiao Lu, Ping Wang, Dusit Niyato. A Layered Coalitional Game Framework of Wireless Relay Network / IEEE Transactions on Vehicular Technology / New Orleans, Louisiana, USA. – Published by IEEE Xplore. 2015. – 27-34 p.

3. Xiao Lu, Ping Wang, Dusit Niyato, Zhu Han. Resource Allocation in Wireless Networks with RF Energy Harvesting and Transfer / IEEE Network / USA. –Published by Institute of Electrical and Electronics Engineers. – 2015. – 45-61 p.

4. Kanoun, O., Khriji, S., Naifar, S., Bradai, S., Bouattour, G., Bouhamed, A., El Houssaini, D., Viehweger, C. Prospects of Wireless Energy-Aware Sensors for Smart Factories in the Industry 4.0 Era. / Electronics / 2021, 10, 2929. doi.org/10.3390/electronics10232929

5. Salixdjanovich, X. S., & Mauletbayevna, D. G. (2022). DATA EXCHANGE TELECOMMUNICATION NETWORK-OPTIC-FIBER TRANSMISSION SYSTEM. Innovative Society: Problems, Analysis and Development Prospects, 192-198.

6. Xalikov S. (2022). UNIVERSAL DEVICE FOR RECOGNIZING PARAMETERS OF PASSIVE AND ACTIVE RADIO ELECTRONIC ELEMENTS AND CODE SIGNALS ALSC. Railway transport: topical issues and innovations, 3(1), 25-32.

7. Salixdjanovich Х.S., Mauletbayevna D.G. (2022, февраль). Advantages of digital wired and wireless local and global networks in different transport sectors. In Euro-Asian conferences (стр. 47-51).

8. Xalikov, S. S., Xolboyev, S. F. O. G. L., & Ikromov, N. T. O. G. L. (2021). TEMIR YO’l TRANSPORTIDA SVETOFORLARNI BOSHQARISHDAGI RELE BLOKLARIDAGI RELELARNI MIKROELEKTRON QURILMALAR BILAN ALMASHTIRISH. Scientific progress, 2(2), 1499-1501.

9. Azimov, A. A., & Khalikov, S. S. (2021, May). POSSIBILITIES AND TECHNICAL SOLUTIONS FOR THE USE OF INTELLIGENT NETWORKS IN RAILWAY TRANSPORT. In E-Conference Globe (pp. 189-191).

10. J. Yoo, L. Yan, S. Lee, Y. Kim, and H.-J Yoo. A 5.2 mW Self-Confi gured Wearable Body Sensor Network Controller and a 12 W Wirelessly Powered Sensor for a Continuous Health Monitoring System // IEEE Journal of Solid-State Circuits. Vol. 45. № 1. 2010.

11. J. Yoo, L. Yan, S. Lee, Y. Kim, and H.-J Yoo. A 5.2 mW Self-Confi gured Wearable Body Sensor Network Controller and a 12 W Wirelessly Powered Sensor for a Continuous Health Monitoring System // IEEE Journal of Solid-State Circuits. Vol. 45. № 1. 2010.

12. H.-M. Lee and M. Ghovanloo. An Adaptive Reconfi gurable Active Voltage Doubler/rectifi er for Extended-range Inductive Power Transmission // IEEE Transactions on Circuits and Systems II: Express Briefs. Vol. 59. № 8. 2012.

13. S.-Y. Lee, J.-H. Hong, C.-H. Hsieh, M.-C. Liang, and J.-Y. Kung. A Low-power 13.56 MHz RF Front-end Circuit for Implantable Biomedical Devices // IEEE Trans. Biomed. Circuits Syst. Vol. 7. № 3. 2013.

14. O. Lazaro and G. A. Rincon-Mora. 180-nm CMOS Wideband Capacitor-Free Inductively Coupled Power Receiver and Charger // IEEE Journal of Solid-State Circuits. Vol. 48. № 11. 2013.

15. X. Li, C.-Y. Tsui, and W.-H. Ki. Power Management Analysis of Inductively-Powered Implants with 1X/2X Reconfi gurable Rectifi er // IEEE Transactions on Circuits and Systems I: Regular Papers. Vol. 62/ № 3. 2015.