在放电单元上,电流以相反的方向在扫描电极和维持电极中流动。
Current flows in the scan electrode and the sustain electrode in opposite directions on the discharge cells.
所述放电单元中包括因 扫描电极与维持电极相邻所形成的三个放电区域。
The above-said discharge unit includes three discharge areas that are formed since the Y-port is neighboring to the X-port.
本发明在放电时,通过放电单元中心部较强电场减少放电开始电压以及放电维持电压。
In the process of discharge, the invention can reduce the discharge initial voltage and the discharge maintaining voltage via the stronger electric field of the center of discharge unit.
该寻 址电极彼此平行地延伸并具有多个第一放电单元,其每一个对应于 一个放电室。
The address electrodes extend parallel to each other and have a plurality of first discharge units that each corresponding to a discharge cell.
微放电模式是工业应用中DBD的主要放电模式,微流注又是DBD中的主要放电单元。
The main DBD discharge mode in the industrial applications is micro-discharge, which is the discharge unit in the DBD.
在导师的指导下完成了冲放电单元电路的设计、制作和调试,并参与整机的安装、调试和实验。
Moreover, I designed, factured, and debugged the system circuit of boosting charge and impulsive discharge, and taked part in experiment, installation and debugging of the whole device.
每个第一放电单元部分地围绕放电室,并且连续的第一放电单元通过第二放电单元耦合在一起。
Each first discharge unit partially surrounds a discharge cell, and successive first discharge units are coupled together by second discharge units.
目前PD P放电单元工作特性的CAD研究方法主要有两类,流体力学模型法和等效电路模型法。
There are two main kinds of CAD method to study the property of PDP cell now, the fluid model and the equivalent electric circuit model.
在离开放电单元的中心部分的方向上凸出的第二凸出电极可有利于增加放电单元内的放电扩散效率。
A second projection electrode projecting in a direction away from the central portion of the discharge cell can be advantageous of increasing discharge diffusion efficiency within the discharge cell.
本发明具有如下效果:由于对蓝色放电单元的透明电极的结构进行了改进,因此可以增强灰度和色温。
The invention has the following effects: it can enhance the gray scale and the color temperature as it improves the structure of the transparent electrode on the blue discharge unit.
本 发明通过加强放电空间内放电单元中心部位上的电场,诱导较强放电,以此提高灰度以及效率。
The invention can induce stronger discharge via increasing the electric field of the center of discharge unit of discharge space, to improve the grey scale and the efficiency.
本发明能够很容易地积累壁电荷,并且与以往急剧增加和减少的波形供给相比,提高了放电单元的应答速度。
The invention could accumulate the wall electric charge easily, and improve the responding speed of discharging unit comparing with the ancient rapid increasing and decreasing waveform supply.
通过模拟单基板彩色AC - PD P放电单元的工作情形,给出了单元内电位、电子和离子浓度的分布情况。
By the simulation of discharge evolution in a discharge cell of SSAC-PDP, the space distributions of potential, electrons and ions density with time in a discharge cell are presented.
通过模拟单基板彩色AC - PD P放电单元的工作情形,给出了单元内电位、电子和离子浓度的分布情况。
By the simulation of discharge evolution in a discharge cell of SSAC-PDP, the space distributions of potential, electrons and ions density with time in a discharge cell ar...
结果表明,放电单元采用大电极间距可获得正柱区放电,正柱区的形成是正离子在阴极鞘层区不断积累将电位抬高所致。
The results show that the long electrode gap leads to the positive column which is caused by the climbing voltage on the cathode surface due to the accumulation of positive ions.
在上述母线电极中,支持电极的母线电极以如下为特征:将上下放电单元的母线电极合并为一体,同时向上部单元和下部单元施加支持电压。
In above mother electrode, the supportive electrode is characterized by the following: integrating upper and down discharging units into one part and exerting voltage on upper unit and down unit.
研究了放电过程中各单元内电子、氙谐振态浓度分布和其平均浓度随时间的变化情况。
Average density and density distribution of electron and resonance Xenon are presented to study the process of discharge.
为研究智能电器监控单元的静电放电敏感性,利用静电放电发生器对设备机壳放电进行了实验研究。
The electrostatic susceptibility of digital relay was experimentally studied through discharging to the shell by the electrostatic discharge (ESD) generator.
电池单元通过电池单元连接件(15,16)相互电连接并被连接到共同的外部的电接头(6)上,通过电接头对电池单元(7)进行充电和放电。
The battery cells 7 are electrically connected to one another by cell connectors 15, 16 and are connected to a common exterior electric connector 6 which charges and discharges the battery cells 7.
列出了部分前放电路的单元结构,并分析了它们的工作特点。
The unit structures of some preamplifier circuits were listed and their operating characteristics were analyzed.
经过测试表明,航空蓄电池智能充放电系统监控单元在测量精度,以及准确度上都能满足实际应用的要求。
Tests showed that measurement precision and accuracy of the monitoring unit in aircraft battery smart charging and discharging system can meet the requirements of practical applications.
经过测试表明,航空蓄电池智能充放电系统监控单元在测量精度,以及准确度上都能满足实际应用的要求。
Tests showed that measurement precision and accuracy of the monitoring unit in aircraft battery smart charging and discharging system can meet the requirements of practical applications.
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