说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 感容并联谐振回路
1)  parallel resonant LC loop
感容并联谐振回路
1.
Considering the requirements of low input bias current and high output current stability, IC LM334 was used as a key component and a parallel resonant LC loop as a resonant band-reject circuit.
根据国家测试标准(GB6570-86)的要求,考虑到视频阻抗(Rv)测试仪所需偏置电流较小和恒流源稳定度较高的特点,选取了LM334集成电路作为恒流源的核心,采用由感容并联谐振回路组成的选频带阻电路,设计出具有操作便捷,性能可靠和制作成本低等显著特点的Rv测试仪,满足了测试精度的要求并获得实际应用。
2)  parallel resonance loop
并联谐振回路
1.
The equivalent circuit has been given for the parallel resonance loop and the characteristic of the loop had been ana- lyzed.
给出了并联谐振回路的等效电路,分析了谐振回路的特点及降Q电阻降Q的原理。
3)  LC parallel resonance circuit
LC并联谐振回路
1.
This thesis gets expressions to Q of two LC parallel resonance circuits which are different from each other in form from the definition of Q, and demonstrates that two expressions are the same.
从品质因数的定义推导出两种形式不同的LC并联谐振回路的Q值表达式,并证明二者的统一性。
4)  parallel resonant circuit
并联谐振电路
1.
The paper analyzes the features of three RLC parallel resonant circuits of different structure,including its admittance,resonant frequency,quality factor,and their relationship.
文章分析了三种不同结构的RLC并联谐振电路的输入复导纳、谐振频率和品质因数Q,指出了它们之间的联系,为选择RLC并联谐振电路提供一定的依据。
5)  series resonat circuit
串联谐振回路
6)  parallel resonance
并联谐振
1.
In order to improve the machining efficiency and surface quality of micro wire electrical discharge machining (Micro WEDM), this paper developed a new Micro WEDM pulse generator by applying the principle of parallel resonance.
为了提高微细电火花线切割(WEDM)效率和表面质量,应用并联谐振电路原理,研究出新型的并联谐振型微细WEDM脉冲电源。
2.
A new type EDM pulse power supply is designed applying the parallel resonance soft switch technique and high speed power MOSFET component, by analyzing the factors affected the pulse frequency in EDM pulse power.
分析了限制电火花加工脉冲电源高频化的因素 ,利用并联谐振软开关技术和高速功率MOSFET器件 ,设计了一种新型电火花加工脉冲电源 ,对这种新型电源的工作原理进行了探讨与分析。
3.
Both parallel resonance and series resonance are the two important parts of harmonic resonance problem.
串联谐振与并联谐振共同组成谐振问题的两个重要分支。
补充资料:并联谐振
      见电路中的谐振。
  

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