Medium frequency high power induction heating apparatus, for many years has adopted silicon controlled as switching devices.
中频大功率感应加热装置,多年来一直采用可控硅做为开关器件。
On the basis of the study situation of induction heating, the digitization of the rectification control circuits of medium frequency power supply is achieved by using microcomputer in this paper.
基于感应加热研究现状,利用微机对中频电源控制电路实现了数字化。
So it is urgent to design and produce a high frequency induction heating power supply.
因此,设计并生产高频全固态感应加热电源变得尤为重要。
The series resonance circuit is simple, its start easy and resonance-frequency high. It is suitable in small power induction heating supply.
串联谐振电路简单、启动容易、谐振频率高,适应于小功率感应加热电源系统。
A medium frequency induction heating power source controlled by the microprocessor can not be run normally, in case its synchronous signals are disturbed by the harmonic from common network.
由于同步信号受电网谐波的干扰,常使微机控制的中频感应加热电源不能正常运行。
In the second chapter, it has introduced the super-frequency induction heating power supply in detail, including its rectifier, its inverter and its parallel-resonant load.
第二章对超音频感应加热电源做了详细的技术分析,包括它的整流电路、逆变电路和并联谐振槽路。
A solid state high frequency induction heating power supply using power MOSFETs is studied.
本文研究了使用功率MOSFET的固态高频感应加热电源。
XGP series of high-frequency induction heating power are designed on the current international advanced electronic technology and is the latest high-tech products.
XGP系列高频感应加热电源是采用目前国际先进的电力电子技术而设计生产的最新高科技产品。
Based on the conventional Class-E resonant high-frequency power amplifier, a new control scheme used in Active-clamped Class-E inverter for ultra-high frequency induction heating is proposed.
以传统的E类高频功率放大电路为基础,提出了应用于高频感应加热电源的有源箝位E类逆变电源的一种新型控制方法。
The aim of the paper is to research and develop a new, high-power, high efficiency and energy-saving intermediate frequency power supply for induction heating.
本课题旨在研究新型高效节能大功率感应加热电源,与合作单位共同研究提出一机三炉感应加热电源装置。
The aim of the paper is to research and develop a new, high-power, high efficiency and energy-saving intermediate frequency power supply for induction heating.
本课题旨在研究新型高效节能大功率感应加热电源,与合作单位共同研究提出一机三炉感应加热电源装置。
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