1) flyback coupled inductor
耦合反激式电感
3) inductively coupled
电感耦合
1.
Designed the control system based on ATmega 16 according to the requirement of inductively coupled plasma spectrum instrument.
针对电感耦合等离子光谱仪控制要求,设计了以ATm ega 64为核心的控制系统,给出了相应的控制方案和器部件选型,并提出软件的模块化设计。
4) coupled inductor
耦合电感
1.
A coupled inductor was used to substitute inductor, so that the circulating current in the zero state could be zero.
该变换器用耦合电感代替常规电感,耦合电感通过变压器反射到原边,使变换器在零状态时的环流减小到零,实现了外管零电压开通,内管零电流关断。
2.
Based on the analysis of the shortage of the single-phase Boost converter in the high gain applications,a method of adding an equivalent DC voltage source was proposed,and a type of Boost converter using coupled inductor was described.
在分析普通单相Boost变换器在高增益变换场合显现的不足的基础上,提出了串入等效电压源的概念,采用耦合电感实现了高增益变换。
3.
The auxiliary circuit is composed of an auxiliary switch,a coupled inductor(flyback transformer) and a feedback diode.
辅助电路由辅助开关管、耦合电感(反激变压器)和反馈二极管构成。
5) tapped inductor
耦合电感
1.
A tapped inductor ia attached at the secondary side of transformer instead of common filter inductor,the voltage induced by tapped inductor reflects to the primary side,which makes the circulating current of converter during the zero state decreas-es to zero.
该变换器以耦合电感取代常规滤波电感,耦合电感所感应出的电压通过功率变压器反射回初级,使变换器在零状态时的循环电流减小直至零,以实现内管的零电流关断。
2.
A tapped inductor was adopted to substitute for the normal inductor,so that the circulating current in the zero state could be reset to zero.
利用耦合电感取代常规滤波电感,耦合电感所感应出的电压通过功率变压器反射回原边,使变换器在零状态时的循环电流减小至零,以实现内管的零电流关断。
3.
To overcome the high voltage stress of the secondary side of the transformer, a novel zero-voltage and zero-current-switching (ZVZCS) three level converter is proposed: The free-wheeling primary current is reset to zero through introducing a tapped inductor attached at the secondary side.
针对零电流技术中因引入储能电容而引起的副边高电压应力问题,提出了一种新型的零电压零电流软开关三电平直流变换电路拓扑:通过耦合电感实现电流回零,通过改变耦合电感的变比来方便地设定原边环流置零时间,降低环流损耗,实现内管的零电流关断。
6) inductive coupling
电感耦合
1.
A brief talk about inductive coupling plasma atomic emission spectrograph(ICP-AES)
浅析电感耦合等离子体发射光谱仪
2.
Using self-made device, the functions of preventing electromagnetic interference of coaxial cable are studied, such as the capacitance coupling frequency characteristics, the shielding effects of the capacitive coupling and the inductive coupling.
利用自制实验装置 ,研究了同轴电缆的电容耦合频率特性、电容耦合屏蔽效果、电感耦合屏蔽效果 。
补充资料:电感器(见电感和标准电感器)
电感器(见电感和标准电感器)
inductor
diongon印电感器(inductor)见电感和标准电感器。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条