耦合电路

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  • coupled circuit
耦合电路耦合电路
  1. 对磁路定理的改进磁耦合电路的PSPICE分析

    On the improved magnetic circuit rule PSPICE analysis of magnetic - coupled circuit

  2. 磁耦合电路的PSPICE分析

    PSPICE analysis of magnetic - coupled circuit

  3. 通过对比选择了合适的PLC专用芯片,针对其工作原理设计了滤波电路和耦合电路。

    By contrast , chose the appropriate PLC chip , designed the filter circuit and the coupling circuit according to its working principle .

  4. 两网孔介观RLC耦合电路的量子化

    Quantization in mesoscopic RLC coupled circuit of two meshes

  5. 用MCS-51单片机和光电耦合电路取代传统控制器,驱动步进电机。

    MCS 51 single chip and photoelectric coupling circuit were used to substitute for traditional controller to drive step motor .

  6. 在零温情况下,电容耦合电路的本征态是平移Fock态。

    At zero temperature , the eigenstates of the capacitive coupled electric circuit are the displaced Fock states .

  7. 对于一般形式的含时电容和电感耦合电路,利用Heisenberg对应原理研究了体系的量子经典对应关系以及量子涨落。

    For the general time-dependent inductance-capacitance coupled circuits , quantum-classical correspondence and the quantum fluctuations are studied by using the Heisenberg correspondence principle .

  8. 硬件电路包括了接口电路的设计、数模变换电路的设计、信号调理电路的设计以及耦合电路的设计等;软件部分包含了DSP的控制算法、FPGA的信号处理等。

    The hardware circuit includes the design of the interface circuits , analog circuits design , signal adjusting circuit design and coupling circuit design . The software part consists of DSP control algorithms and FPGA signal processing .

  9. 基于电荷的不连续性,对无耗散介观耦合电路进行量子化,在无相互作用Hamilton本征态基矢下给出介观电路的能谱关系;

    On the basis of the charge discreteness , the non-dissipative coupled mesoscopic circuit is quantized , the energy spectrum of the circuit is given under non-interaction Hamilton eigenstate basis vectors .

  10. 如果电路参数电容和电感随时间变化,则有源电感耦合电路的本征态是压缩平移Fock态。

    If the parameters of the electric circuit capacitances and inductances change with time , the displaced squeezed Fock state will be generated .

  11. 为提高信号的稳定性和保真度,对电路中的量子涨落进行了研究.利用热场动力学(TFD)方法计算了有限温度下介观电容耦合电路中的量子涨落。

    Using the thermal field dynamics , the quantum fluctuations in the capacitive coupled electric circuits at finite temperature are calculated .

  12. 从经典电容耦合电路的运动方程出发,研究了在平移压缩Fock态下介观电容耦合电路中每个回路的电荷和电流的量子涨落。

    Starting from the classical equation of motion for a mesoscopic capacitance coupling circuits , the quantum fluctuations of charge and current of the circuits in a displaced squeezed Fock state are investigated .

  13. 介绍了ECL电平的工作原理,并给出了PECL-PECL的等效变换耦合电路及PECL-TTL的电平转换电路。

    The operational principle of ECL level is introduced in the paper . A PECL-PECL equivalent transform coupling circuit and a PECL-TTL level transformation circuit are given .

  14. 压缩真空态下介观电容耦合电路的量子涨落

    Quantum Fluctuation of Mesoscopic Capacitor Coupled Circuit in Squeezed Vacuum State

  15. 耦合电路法推导直流电动机电动势平衡方程(电机)整流电动势

    Deduction of Voltage Equation of DC Motor by Coupling Circuit Method

  16. 海森堡对应原理在含时介观耦合电路中的应用

    Application of Heisenberg correspondence principle in the mesoscopic time-dependent coupled circuits

  17. 本文对光电耦合电路的工作速率进行了讨论。

    The rate of the photo-electric coupling circuit is discussed too .

  18. 介观互感耦合电路的量子化和库仑阻塞效应

    Quantization and Coulomb Blockade Effect in Mesoscopic Circuit with Mutual-Inductance

  19. 介观含源耦合电路中的量子力学效应

    Effects of Quantum Mechanics in an Active Mesoscopic Coupled Circuit

  20. 低压电力线载波通信的耦合电路分析

    Analysis About the Coupling Circuit of the Communication With Low-voltage Power Line

  21. 无耗散介观电感耦合电路中电压和电流的量子涨落

    Quantum Fluctuations of Voltage and Current in Mesoscopic Mutual Inductance Coupled Circuits

  22. 三网孔介观电容耦合电路的量子效应

    Quantum Effects in Mesoscopic Capacitor Coupled Circuits of Three Meshes

  23. 正则系综中介观耦合电路的量子涨落

    The Quantum Fluctuation of a Mesoscopic Coupled Circuit in the Canonical Ensemble

  24. 含时阻尼电感耦合电路的量子化和量子涨落

    Quantization and quantum fluctuations in a damped time-dependent inductive coupled electric circuit

  25. 基于低压电力线通信的信号耦合电路设计

    Design of Coupling Circuit for Communications in Low - voltage Power Line

  26. 耗散电感耦合电路的高阶量子涨落

    Higher-order Fluctuation of the Dissipative Mesoscopic Circuit With Coupled Inductor

  27. 非共振阻尼介观耦合电路中的量子效应

    Quantum Effects in the Non-Resonant Damped Mesoscopic Coupled Electric Circuits

  28. 用电荷耦合电路提高pH计测量准确度

    A new method to improve measuring accuracy of pH meter by charge coupled

  29. 介观耦合电路量子涨落与温度的关系

    The Dependence of the Quantum Fluctuation of a Mesoscopic Coupled Circuit on Temperature

  30. 压缩角对介观耦合电路压缩效应的影响

    Influence of the squeezed angle on the squeezing effect of mesoscopic coupled circuit