In the modern power supply field, to ensure that power devices can achieve precise control and reliable operation, it is necessary to employ power electronic technology, utilizing power semiconductor devices (such as thyristors) within the system. Power semiconductor devices offer numerous advantages, including high efficiency, excellent control performance, compact size, light weight, and reliability. Therefore, upgrading power regulators with power electronic technology has become the primary development trend for high-power power regulators. Aeronautical Power
Confirmed by the Information Science and Technology Research Institute of the Chinese Academy of Sciences, the "Osmum" non-contact voltage stabilizer boasts multiple technologies that are groundbreaking both domestically and internationally. Its overall technology has reached the advanced level of similar international products. The product operates without mechanical operation, carbon brush contact, noise during voltage regulation, instantaneous power interruptions, and full-phase regulation, with an extremely fast response speed. It features surge protection and all protective functions, ensuring stable and reliable performance, thus achieving long-term maintenance-free operation. The capacity has reached 2000KVA, with a compensation range of ±50%, and it is highly efficient and reliable. It is a new-generation green, energy-saving product. The Information Industry Department's Product Quality Supervision and Inspection Center has inspected this product and recognized it as the most advanced non-contact voltage stabilizer in terms of capacity in China. 36V Avionics Power Supply
As the touchless voltage regulators gain market and user recognition, numerous manufacturers have sequentially launched variously structured touchless voltage regulators. Due to the differences in the main circuit structure, their performance can vary greatly; coupled with some manufacturers' insufficient technical investment and lack of in-depth research; there is also a lack of adequate testing and understanding of the performance and applications of the key component in touchless voltage regulators—the thyristor module; even a few manufacturers engage in substandard practices, using outdated components instead of new ones and inferior parts instead of high-quality ones. All these factors collectively reflect in the product reliability, leading to highly unstable performance in many manufacturers' touchless voltage regulators, poor usage reliability, and over time, causing many users to form a misconception that all touchless voltage regulators in the current market are unreliable, unusable, and not worth purchasing. 400HZ power
