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Development and research of the scheme of the inverter with geometric voltage addition for photoelectric systems
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| bet | 1/3 | | Sana | 15.05.2024 | | Hajmi | 17,72 Kb. | | #235835 |
Bog'liq maqola maxsus songa
DEVELOPMENT AND RESEARCH OF THE SCHEME OF THE INVERTER WITH GEOMETRIC VOLTAGE ADDITION FOR PHOTOELECTRIC SYSTEMS
Odilov Sanjarbek
Tel: +9989916692120
e-mail: odilovsanjarbek1999@gmail.com
Fergana Polytechnic Institute.
Abstract: This article delves into the development and research of an innovative inverter scheme featuring geometric voltage addition specifically tailored for photoelectric systems. In light of the increasing relevance of photoelectric systems within the realm of renewable energy, the study explores the challenges of conventional inverter designs and the potential of this novel scheme in enhancing performance and efficiency. By examining the proposed inverter scheme from conceptualization to experimental validation, the article offers valuable insights into the advancements in inverter technology for photoelectric systems.
Keywords: Inverter, photoelectric systems, geometric voltage addition, renewable energy, efficiency, inverter technology, research and development.
Annotatsiya. Ushbu maqola fotoelektrik tizimlar uchun maxsus moslashtirilgan geometrik kuchlanish qo'shilishi bilan jihozlangan innovatsion invertor sxemasini ishlab chiqish va tadqiq qilishni o'rganadi. Qayta tiklanadigan energiya sohasida fotoelektrik tizimlarning tobora ortib borayotgan dolzarbligi nuqtai nazaridan, tadqiqot an'anaviy inverter dizaynlarining muammolarini va ushbu yangi sxemaning ishlash va samaradorlikni oshirishdagi imkoniyatlarini o'rganadi. Taklif etilayotgan inverter sxemasini kontseptualizatsiyadan eksperimental tasdiqlashgacha o'rganib chiqib, maqola fotoelektrik tizimlar uchun invertor texnologiyasidagi yutuqlar haqida qimmatli fikrlarni taqdim etadi.
Kalit so'zlar: Inverter, fotoelektrik tizimlar, geometrik kuchlanish qo'shilishi, qayta tiklanadigan energiya, samaradorlik, invertor texnologiyasi, tadqiqot va ishlanmalar.
Introduction:
In recent years, the growing demand for renewable energy sources has led to significant advancements in the field of photovoltaic (PV) systems. These systems use solar panels to convert sunlight into electrical energy, which can then be used to power various applications. One crucial component of a PV system is the inverter, which plays a vital role in converting the DC output from the solar panels into AC power that can be used by electrical appliances. In this article, we will explore the development and research of a new scheme for inverters, specifically focusing on the geometric voltage addition for photoelectric systems. In recent years, the harnessing of solar energy through photoelectric systems has seen a significant surge in popularity owing to its sustainable and environmentally friendly nature. Central to the functionality of photoelectric systems are inverters, which play a pivotal role in converting the direct current (DC) electricity generated by solar panels into alternating current (AC) electricity suitable for grid integration. As the demand for efficient and cost-effective renewable energy solutions continues to grow, the development and optimization of inverter technology have become increasingly crucial. This article seeks to delve into the cutting-edge research and development of a new inverter scheme featuring geometric voltage addition specifically tailored for photoelectric systems. By addressing the limitations of existing inverter designs and exploring the potential of this innovative scheme, this study aims to contribute to the advancement of inverter technology within the context of photoelectric systems.
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