Evolution of transformer technology in photovoltaic power generation systems: An analysis of core equipment in the context of new power systems

1.The rapid development of photovoltaic power generation has raised new requirements for power equipment

In the global context of “carbon neutrality” 그리고 “energy transition”, photovoltaic (PV) power generation has emerged as one of the fastest-growing forms of renewable energy. From large-scale centralized ground-mounted power plants to distributed rooftop PV systems for industrial and commercial buildings, the installed capacity of PV continues to climb. However, compared to PV modules and inverters, transformers are often underestimated, yet they are the key infrastructure equipment for the safe, stable, and efficient operation of PV systems.

Photovoltaic power generation exhibits characteristics of intermittency, variability, and strong power electronics, which directly alter the operational modes of power systems. These characteristics also pose new challenges to the design philosophy, technical parameters, and application scenarios of transformers.

2.Analysis of photovoltaic system structure: The transformer occupies a pivotal position, serving as a link between the preceding and the following

A typical photovoltaic power generation system usually includes:

• PV module
• combiner box
• inverter
• step-up transformer
• Grid-connected system

Photovoltaic modules generate direct current (DC), which is converted into low-voltage alternating current (AC) (usually 400V or 690V) by an inverter. Then, it is stepped up to 10kV, 20kV, or 35kV through a photovoltaic step-up transformer, and finally connected to the power grid.

In this process, the transformer not only completes voltage level conversion, but also undertakes:

• Electrical isolation
• Power quality regulation
• System stability assurance

It can be said that without high-reliability transformers, photovoltaic power generation cannot operate on a large scale and be connected to the grid.

3.Essential differences between photovoltaic dedicated transformers and traditional distribution transformers

Compared to traditional distribution transformers, photovoltaic systems impose more complex technical requirements on transformers.

3.1 Long-term low-load operation characteristics

Photovoltaic power generation is significantly influenced by illumination, and transformers operate at partial load conditions for most of the time. 그러므로, photovoltaic transformers place greater emphasis on:

• Low-load loss control
• High-efficiency interval optimization

This is significantly different from traditional distribution transformers that prioritize “full-load design”.

3.2 Adaptability to strong harmonic environment

Photovoltaic inverters are typical nonlinear loads that generate high-order harmonics. If the transformer is not specifically designed, it may lead to:

• The additional loss of the iron core increases
• Abnormal temperature rise of winding
• The service life is shortened

그러므로, photovoltaic transformers usually require stronger harmonic resistance capabilities.

4.Application differences of transformers in centralized and distributed photovoltaics

4.1 Transformer configuration for centralized photovoltaic power stations

In large-scale ground-based power stations, the following are commonly adopted:

• Oil-immersed step-up transformer
• Photovoltaic box-type substation

Its advantages lie in:

• Heat dissipation performance
• low loss

Suitable for long-term outdoor operation

Centralized projects place greater emphasis on the overall efficiency and long-term reliability of the system.

4.2 Transformer scheme in distributed photovoltaic system

For industrial and commercial roofs and places with high protection requirements, the following are more preferred:

• Dry-type transformer
• Compact box-type substation

This type of scheme places more emphasis on:

• 내화성
• environmental friendliness
• Installation flexibility

5.The upgrading of transformer’s role under the trend of photovoltaic + energy storage

With the emergence of “photovoltaic + energy storage” as a mainstream configuration, power systems are beginning to exhibit bidirectional power flow characteristics. Transformers are no longer merely one-way transmission devices, but need to adapt to:

• Frequent power fluctuations
• Bidirectional energy flow
• Switching among multiple operating conditions

This has driven:

• High-efficiency transformer
• Intelligent monitoring transformer

The development of low-loss material applications.

6.The long-term impact of the development of the global photovoltaic market on the transformer industry

Regions such as Europe, the Middle East, 아프리카, and Latin America have continuously increased their investment in photovoltaics, posing more specific requirements for transformers:

• Complies with IEC / IEEE standards
• Customized voltage level
• High reliability and long-life design

For photovoltaic transformer manufacturers and export enterprises, understanding the photovoltaic system itself is more important than simply competing on price.

Luoyang Datang Energy Technology Co., Ltd. R을 통합하는 하이테크 기업입니다.&디, 변압기 등 전력기기 제조 및 공급, 새로운 에너지 성분, 배전 캐비닛 및 인버터. 기술혁신을 핵심으로, 우리는 글로벌 고객에게 서비스를 제공하기 위해 높은 신뢰성과 고성능 전력 솔루션을 만드는 데 중점을 두고 있습니다.. 엄격한 품질관리 시스템과 국제표준 인증으로, 앞으로도 우수한 제품을 생산하여 고객이 안전하고 안정적인 전력시스템을 구축할 수 있도록 하겠습니다..