1) wireless power transmission
无线电能传输
1.
The paper mostly studied a new wireless power transmission used to the embedded telemetry instruments.
无线电能传输技术是近十年来所兴起的一种新型能量供给技术,可为植入式遥测装置提供更好的能量供给方法。
2.
At present,in wireless power transmission(WPT) technology,the power of microwave source is still not enough for the capacity of the electric system power.
总结了WPT技术应用于电力系统用时遇到的各种问题:电磁感应和近场谐振式无线电能传输的最大缺点是传输距离近;辐射式无线电能传输距离远,但需要研制具有极高方向性的定向天线。
2) wireless power transmission
无线能量传输
1.
The design and experimental research of wireless power transmission system of MEMS in human body
体内微机电无线能量传输系统的设计与试验
2.
A wireless power transmission method based on electromagnetic coupling was put forward for gastrointestinal microsystems.
针对人体消化道内微小系统,提出了利用电磁耦合进行无线能量传输的方法。
3.
The tethering problem which prevents the robot from going further into the body is overcome by wireless power transmission.
设计的双闭环控制无线能量传输系统传输效率达3~8%,传输功率800 mW,为体内无创、微创诊疗器械的进一步研究奠定了基础。
3) wireless power transfer
无线能量传输
1.
Magnetic resonance based wireless power transfer is a novel power transfer technique, which is based on nonradiative (near-field) magnetic resonant induction to achieve power transfer effectively and safely.
磁耦合谐振式无线能量传输技术是一种新型的电能传输技术,利用近区非辐射磁场的耦合,并应用谐振原理实现电能的有效、安全传输。
4) Wireless Energy Transmission
无线能量传输
1.
This paper sums up the fundamental structure of wireless energy transmission system for total artificial heart,and compares the key parameters and performance of some representative systems.
总结了用于全人工心脏的无线能量传输系统的基本结构,对比分析了一些有代表性的系统的关键参数和性能,并对其发展趋势提出了展望。
2.
The paper presents a new technical solution of wireless energy transmission for special-site drug delivery system in alimentary canal to solve controlling and energy supply problems.
本文采用无线能量传输技术解决消化道定点施药系统的控制与供能问题。
5) contactless power transfer
无接触电能传输
1.
Compensation of contactless power transfer system and performance analysis;
无接触电能传输系统的补偿及性能分析
补充资料:无线电通信波段(见无线电通信)
无线电通信波段(见无线电通信)
radio communication wave range
wuxiandian tongXin boduan无线电通信波段(rads。。ommunicationWaVe range)见无线电通信。
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