High-efficiency high-frequency power supply [Low cost, energy-saving, compact design] With a reflection resistance of over 600W, it withstands rapid load fluctuations due to short circuits and open circuits.
【13.56MHz 1kW/3kW/5kW (Pulse)】 The high-efficiency high-frequency power supplies newly developed by NRF【NR1NP】【NR3NP】【NR5NP】 have significantly improved durability compared to conventional high-efficiency RF power supplies, thanks to their unique high-reliability power amplifiers. The weakness of high-efficiency amplifiers has been their structural vulnerability to reflected power; however, NRF's high-efficiency RF power supplies possess an impressive reflection resistance capability of over 600W for a 3kW output, allowing them to withstand sudden load fluctuations such as short circuits and open circuits. Additionally, they are equipped with various protection circuits, making them a model that NRF confidently recommends. = Features = ■ Compact design ■ High reflection resistance ■ High power margin ■ Operation via handy controller ■ Safety design ■ Various protection circuits ■ High efficiency The catalog provides detailed information on features and specifications by model. ↓↓↓ For more details, please download the catalog and feel free to contact us. ↓↓↓
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basic information
【Matching Box Built-in High-Frequency Power Supply】 We have developed a high-frequency power supply that incorporates a matching device inside the power supply itself due to its unique structure. Compared to conventional products, we have increased the output from 500W to 750W while reducing the size from full rack size to half rack size, achieving thorough compactness. = Features = ■ Low Cost ■ Energy Efficient ■ Compact Design Please take a look at our catalog and feel free to contact us.
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P5
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RF Technologies has been involved in the development and design of high-frequency technologies since the time high-frequency power supplies began to be used in plasma processes, including "demonstration research," "material development," "surface modification," "semiconductor manufacturing," "FPD manufacturing," and "solar cells." Fortunately, we have had the opportunity for technical collaboration and exchange with academic researchers and major semiconductor manufacturing equipment manufacturers at the forefront of global technology. We have experienced many instances where the alignment of our technologies was essential to solving issues that overlap between areas that equipment manufacturers need to address and areas that power supply manufacturers need to resolve.