Loosely coupled transformer is a key part in contactless inductive power transfer system.
松耦合变压器是非接触感应电能传输系统中的关键部分。
The system integrated with Ultrasonic-vibration toolholder based on contactless inductive power transfer is designed.
在此基础上,设计出利用无接触感应电能传输的超声振动刀柄集成系统。
The vision is having inductive power transfer tech embedded right into roads so EVs will be able to charge as they move along.
他们的打算是讲这种感应能量转换技术植入路面,使得汽车可以在行驶的时候充电。
In this paper, the transfer characteristic of loosely coupled inductive power transfer full-bridge resonant converter is studied.
本文对基于非接触式感应电能传输技术的全桥谐振变换器的传输特性进行了研究。
It introduces the Contactless Inductive Power transfer system in this paper, and solved this problem of energy transfer during existing relative rotation.
本论文引入了非接触式电能传输,解决了相对转动时能量的传输问题。
Sliding transformer is a core element in contact-less inductive power transfer system of automatic dock, which can realize safe power supply for highspeed freight dollies.
滑动变压器是自动化码头非接触感应电能传输系统的核心部件,可以实现高速货物运输小车的安全供电。
Contactless inductive power transfer system with conventional inductive technology was researched and a design method was presented after applying it to ultrasonic vibration machining system.
利用传统电磁感应理论研究了无接触感应电能传输系统和应用在超声振动加工系统中的设计方法。
The paper introduce the structure of loosely coupled inductive power transfer system, and analyze its magnetic circuit model to get the parameters that impact on the efficiency of the system.
文章介绍了松耦合电能传输系统的结构,并对其进行磁路模型分析,得出影响效率的关键参数。
By studying the theory and method of realizing inductive power transfer for moving electrical apparatus in detail, this paper designs the phase-shifting full-bridge series resonance converter.
文中详细分析了感应电能传输技术的理论和方法,进而设计出用于感应电能传输系统的移相全桥串联谐振逆变器。
It based on the researches abroad and home, Designded Contactless Inductive Power Transfer system From reality, which includes Inverter source, detachable transformer and other key components.
本论文在国内外研究成果的基础上,从实际出发,设计了非接触式电能传输系统,包括逆变电源、可分离变压器等关键部件。
In order to improve both charge current and transfer efficiency via a lower coupling coefficient inductive link, class E power amplifier based on primary leakage inductance and compensat.
在低耦合系数条件下 ,通过基于初级漏感的E类功率放大器和次级漏感的补偿方法 ,提高电容充电电流和传输效率。
In order to improve both charge current and transfer efficiency via a lower coupling coefficient inductive link, class E power amplifier based on primary leakage inductance and compensat.
在低耦合系数条件下 ,通过基于初级漏感的E类功率放大器和次级漏感的补偿方法 ,提高电容充电电流和传输效率。
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