extraction voltage

The influence of plate voltage of the oscillator , gas pressure and extraction voltage on the quality of ion beam is determined and analysed .

测试并分析了振荡器板压、离子源气压和引出电压对离子束品质的影响；

At 500 W microwave power , 45 kV extraction voltage and 5 mm of diameter of emittance hole on the plasma electrode , 100 mA peak current of hydrogen ion beam was extracted in pulse mode , corresponding to a beam density of 500 mA / cm2 ;

在微波功率500W、引出电压45kV及等离子体电极发射孔径为5mm的条件下，对于脉冲模式，峰值流强为100mA，柬流密度500mA／cm2；

The extracted beam current depends on operating parameter of source , extraction voltage and cathode material .

引出束流大小与源的工作参数、引出结构和电压以及阴极材料有关。

An stable ion beam with 178 μ A is obtained under the condition of the plate voltage of 580 V , the gas pressure of 8 × 10 ~ ( - 4 ) Pa , the extraction voltage of 1.65 kV and the focusing voltage of 21 kV .

在580V板压、8×10-4Pa气压1、.65kV引出电压和21kV聚焦电压的状态下，得到了束流为178μA的稳定离子束。

Characteristic parameter extraction of voltage signal during aluminum alloy spot welding using fractal dimension

利用分形维数提取铝合金点焊过程中电压信号特征量

In-depth Characteristics Extraction of Cell Voltage Fluctuation in Aluminum Reduction Cells

大型预焙铝电解槽槽电压波动特征提取

High Frequency Reversible Rectifier based Energy Extraction of Dynamic Voltage Restorer

基于高频整流的动态电压恢复器能量提取方式

Signal for the DC component of red and infrared light extraction using a voltage-controlled voltage source second-order low-pass filter circuit .

系统采用了压控二阶电压源低通滤波电路完成红光和红外光的直流分量提取。

Finally , the RT-LAB experimental verifies the correctness of the previous stage control , the positive-sequence fundamental extraction strategies of grid voltage , the design method of LCL filter and the proposed control strategy for PV grid-connected inverter .

最后实验验证了前级控制、电网电压正序基波提取策略、LCL滤波器设计以及并网控制策略的正确性。

The experiment was conducted on the basis of electrophoresis conditions recommended by the expert system . And the background electrolyte , extraction method and applied voltage were optimized according to the optimization steps recommended to develop the HPCE fingerprint of Radix et Rhizoma Notoginseng .

以专家系统中推荐的五加科植物的背景电解质条件为基础进行试验，并且根据系统推荐的优化步骤优化背景电解质组成、提取条件和分离电压等，最终建立了三七的HPCE指纹图谱。