片语

Charge-Pump PLL电荷泵锁相环

charge-pump voltage converter电荷泵电压变换器

Charge-Pump Regulator升压

charge-pump effect电荷泵效应

charge e pump进料泵

Charge Oil Pump手动加油泵

conventional charge-pump传统电荷泵

CHARGE-PUMP OUTPUT电荷泵输出

英汉例句

• the optimized charge pump was used in an rs-232c serial communication circuit.

  最后，将该优化后的电荷泵应用到rs-232c串口通信电路中。

• a charge pump circuit is adopted for i-f converter of the gamma monitor.

  监测器的测量电路采用电荷泵电路构成的i-f变换电路；

• a novel positive charge pump for nor flash memory with high driving capability, high precision and low power consumption, is proposed in this paper.

  提出一种适用于nor结构快闪存储器应用的，具有大驱动能力、低功耗和高精度特性的电荷泵系统。

• a novel passive soft-switching technology equipped with a charge pump regeneration (cpr) network is presented.

  由此提出一种加入电荷泵能量再生（cpr）网络的无源软开关新技术。

• regulated charge pump circuits are a kind of new type dc/dc converters.

  稳压输出的电荷泵电路是一种新型dc／dc变换器。

• it is difficult to control disturb accompanied with linear transmission of conduction emi in the investing controller, high noise and low power exists in the charge pump circuit.

  极性反转型控制器难于控制传导emi线形传送所带来的干扰；充电泵电路则存在噪声较大、功率较小等缺点。

• two power stage power factor correction converter can be simplified to single stage one with the development of charge pump power factor correction(cppfc).

  电荷泵功率因数校正（cppfc）技术的发展，使得原双功率级有源校正变换电路可简化为单功率级变换电路。

• the new approaches for charge pump power factor correction (pfc), digital pfc and on - line ups with pfc are introduced.

  介绍了充电泵功率因数校正（pfc）、数字pfc和带pfc的在线ups的几种新方法。

• in order to overcome this problem, constructing the high performance charge pump circuits is essential for low voltage analog circuit design.

  为了解决这个问题，对低压模拟电路来说，设计高性能的电荷泵电路是十分重要的。

• furthermore, a simple adjustable current cell in the charge pump is proposed for additional stability compensation and a novel vco with linear gain is adopted to limit the total variation.

  为了获得更加稳定的系统，在电荷泵中设计了结构简单的电流单元用于补偿额外的参数变化，并采用线性压控增益的vco来减小参数的变化。

• the nonlinearities and some general structures of charge pump are briefly discussed in the paper. an improved differential charge pump based on negative feedback is then presented.

  简要讨论了电荷泵中的非线性问题及常用的一些结构，提出了一种改进的基于负反馈的全差分电荷泵结构。

• simulation results show that the charge pump gain is increased by 14%.

  模拟结果表明，该电荷泵的增益提高了大约14%。

• an adaptive phase-locked loop (pll) with a fast settling time and its key blocks including phase-frequency detector (pfd) and charge pump are then proposed and analyzed.

  提出并分析了一种自适应的具有快速建立时间的锁相环结构及其关键模块（鑒相鑒频器和电荷泵）。

• a type of dual switching capacitor charge pump with novel structure was introduced.

  介绍了一种结构新颖的升降压式的开关电容电荷泵。

• finally, employing the equivalent electricity quantity approach, the steady state output voltage expression of charge pump is derived.

  紧接着采用等效电量关系法详细地推导了电荷泵的稳态输出电压表达式。

• in conventional cmos charge pump circuits, the pumping high voltage is limited by mos threshold voltage, so that it can not use less cascade stages to pull up a high voltage which we want to generate.

  在传统的cmos电荷泵电路中，电荷泵输出的电压受mos管的阈值电压限制，所以当要求电荷泵的输出电压较高时，则不得不连很多阶来达到要求。

• a fully differential charge pump for a frequency synthesizer is proposed.

  提出了一种应用于频率综合器的全差分电荷泵电路。

• a pressure cycling system includes a reaction chamber configured to receive a sample and a charge pump in fluid communication with the reaction chamber.

  一种压力循环系统，包括：反应腔，其构造成接收试样；以及与所述反应腔流体连通的加料泵。

• the basic principles of charge pump dc/dc converter which is the theory guidance of the design and the implementation of xdj6316 have been analyzed and studied in this paper.

  本文全面而系统地研究了电荷泵dc/dc转换器的基本工作原理，为xdj6316的设计与实现提供了理论指导。

• a passive loop filter scheme and the design method of the filter for current charge pump pll frequency synthesizer chip are given in the paper.

  针对电流型电荷泵pll频率综合器芯片，提出一种称为极值相位裕量的无源环路滤波器方案和设计方法。

• a new charge pump quasi half bridge inverter with power factor correction is present in this paper.

  提出一种新型充电泵高功率因数準半桥逆变器拓扑结构。

• a buffer with miller compensation and feed-forward path for charge pump of tft-lcd driver ic was designed.

  针对tft-lcd驱动芯片的电荷泵，设计了一个带密勒补偿和一条前馈通路的缓沖电路。

• the charge pump is designed for lcd driver used in mobile telephone.

  本文中所设计的电荷泵将用于手机液晶显示驱动模块中。