本课题是对无工频变压器开关电源控制器芯片模块电路的设计与研究。
My project is focused on the design and research of PWM switching power supply control circuitry that requires high efficiency and reliability.
最后给出了利用该变压器设计制作的开关电源的测试结果。
Finally, the application results of the switching mode power supply with the transformer are presented.
开关电源设计中,如何设计出性能稳定可靠的开关电源变压器是关键。
How to design the switching supply transformer which operate reliably is very important for design of switching supply.
高频开关电源功率变压器线圈优化设计技术能有效减小变压器损耗以及尺寸,提高开关电源功率密度。
Optimal design for the windings of high frequency power transformer in SNIPS can reduce greatly the windings loss to improve SNIPS power density.
高频开关电源功率变压器线圈优化设计技术能有效减小变压器损耗以及尺寸,提高开关电源功率密度。
The loss model can be easily used in optimal design for the windings excited by switch-mode current, especially for the litz wire windings.
本文通过对磁集成技术与薄膜技术的分析,详尽介绍了薄膜电感器和薄膜变压器的设计以及损耗分析,提出了基于薄膜技术设计开关电源中的集成磁件。
This paper analyses magnetic integration technology and thin-film technology, then brings out an idea of making integrated magnetics of switch power supply based on thin-film technology.
本文通过对磁集成技术与薄膜技术的分析,详尽介绍了薄膜电感器和薄膜变压器的设计以及损耗分析,提出了基于薄膜技术设计开关电源中的集成磁件。
This paper analyses magnetic integration technology and thin-film technology, then brings out an idea of making integrated magnetics of switch power supply based on thin-film technology.
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