A mesoscopic double resonance circuit with mutual inductance and capacitance-inductance coupling was quantized using canonical quantization method.
用正则量子化方法将介观互感容感耦合双谐振电路量子化。
Mesoscopic double resonance mutual inductance and capacitance coupling circuit is quantized by the method of harmonic oscillator quantization.
对介观互感电容耦合电路作双模耦合谐振子处理,将其量子化。
It is easy to discuss the circuit with coupling inductance by using mesh current analysing method.
将网孔分析法用于含耦合电感电路,其结果和通常所用的网孔分析法相同,且较为简便。
Method of calculation for the non-contact IC card chip coupling power supply and the read and write distance were analyzed, and the relative low-voltage circuit designs were introduced.
分析了非接触式IC卡芯片耦台电源及读写距离的计算方法,并简要介绍了相关低压电路的设计技术。
Mesoscopic double resonance circuit with complicated coupling is quantized by the method of harmonic oscillator quantization and linear transformation.
对介观复杂耦合电路作双模耦合谐振子处理,将其量子化。
The invention relates to a coupling capacitance forming circuit, an integrated circuit using the same and a correlative method thereof.
本发明涉及耦合电容形成电路、使用该电路的集成电路及其相关方法。
Focusing on the method of galvanic coupling, an equivalent circuit model of human forearm at the transmitter was simplified and developed.
本研究着眼于电流耦合型人体通信方式,抽象并简化人体前臂的发送端等效电路模型。
Focusing on the method of galvanic coupling, an equivalent circuit model of human forearm at the transmitter was simplified and developed.
本研究着眼于电流耦合型人体通信方式,抽象并简化人体前臂的发送端等效电路模型。
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