材料的充放电效率较高,稳定性较好。
The material have higher charge-discharge efficiency and good stability.
本发明通过扩大阳性光柱区域,提高放电效率。
Through broadening area of positive light beam, the invention improves discharging efficiency.
分析结果表明,不良与像素电极放电效率相关。
The results shown the defect was correlated with discharging efficiency.
本发明涉及一种能够提高辉度和放电效率的等离子显示器。
The invention involves a kind of plasma display that can improve the brightness and discharge efficiency.
除首次循环外,前10次循环的充放电效率平均在98.5%以上。
The average charge-discharge efficiency of the first 10 cycles was above 98.5% except the initial cycle.
本发明改善了等离子显示器的透明电极结构,从而能够提高发光亮度和放电效率。
Therefore, the invention, which improves the structure of transparent electrode in plasma display, is able to improve the luminance brightness and discharging efficiency.
对影响介质阻挡放电的因素加以研究,可以在实际应用中优化反应器设计,提高放电效率。
The laboratory study on the factors that influence DBD has made it possible to optimize the design of discharge reactors in practical use and to improve the efficiency of electric discharge.
对使用不同电解液的电池的初始充放电效率、内阻、循环性能、电压平台、低温性能等进行了测试分析。
The initial efficiency of discharge-charge, resistance, cycle performance, voltage platform and low temperature performance of Li-ion batteries with different electrolyte was studied.
在电解液中同时添加氧化铟和氧化锌可提高电池的充放电效率和荷电保持能力,电池的循环寿命也得到提高。
Especially, the battery with electrolyte saturated by zinc oxide and indium oxide shows excellent charging-discharging performance and charge retention capacity as well as its cycle life.
本文采用流体模型,分析了多种驱动电压波形下,PDP的放电过程和放电效率。为选择合适的外加驱动电压提供帮助。
Fluid model was used to analyze the discharge process and the discharge efficiency of the driving pulse with different wave shapes.
并表明,开发中的电池在能量和功率密度、效率、500a充电和放电电流、内部电阻和维护等各方面都有极好的性能。
The battery under development has demonstrated excellent performance in terms of energy and power density, efficiency, 500a charge and discharge current, internal resistance and maintenance work.
本文对两种放电形式作了详细的论述,对四种电极结构的气泡效率作了对比,得出了一些曲线和经验公式。
In this paper the author details two kinds of discharge form, compares bubble efficiency of four electrode structures and offers some curves and empirical formulae.
相比较而言,恒流充电具有较高的充电效率,所以在高压强流脉冲放电技术当中一般都采用恒流充电方式。
Comparatively, the former has relatively higher charge efficiency, so it is frequently used in the technology of high voltage and large current discharge.
近年来,脉冲电晕放电等离子体烟气脱硫脱硝技术因其脱除效率高能耗低的特点而被认为是最有前途的新一代技术。
Considering the higher efficiency and the less energy wasted, pulsed corona discharge plasma is regarded as the new and promising technology to resolve the problem recently.
电除尘器收集低比电阻粉尘,由于放电过快,易产生“反弹”,形成“跳跃收集”过程,除尘效率较低。
It easily occurs "rebound" and "leap collection" phenomena in the collection of low specific resistance dust by ESP because of excessive discharge and collection efficiency is low.
介质阻挡放电(DBD)由于具有分解效率高、能耗低、占地少等特点而逐渐成为研究的热点。
Dielectric barrier discharge (DBD) process has become a highlight in research due to its advantages such as higher removal efficiency, lower energy consumption and less ground demand.
计算结果表明,脉冲放电加大了微粒的湍流掺混程度,使微粒的静电捕集效率降低。
The results of calculation show that the turbulent mixing of particulate is increased with pulse corona discharge, so the collection efficiency of particulate is decreased.
介绍了内燃机点火技术的研究进展,阐述了内燃机脉冲电晕放电点火新技术所涉及的点火能量、点火效率、燃烧时间和相关化学反应等问题。
The ignition energy, efficiency, burning time and main chemical reactions of the pulsed corona discharge ignition(PCD) used on internal combustion engine are discussed in detail.
研究结果表明,含有锥齿电极结构的电极放电相对均匀、稳定,且在相同的外加条件下具有更高的功率注入效率。
It is shown that, the configuration consisting of cone electrode is relatively homogeneous and stable which has higher power input efficiency under the same applied voltage.
另外,本发明还可以提高灰度以及效率,而且还可以提高放电安全性。
In addition, the invention also can improve the grey scale, the efficiency and the discharge safety.
所得二氧化锰产品厚度均匀,放电容量大而偏差小,电流效率高。
The obtained manganese dioxide features uniform thickness, large discharge capability, small deviation and high current efficiency.
然后对扭矩仪的电源部分进行了设计,并通过实验数据对功放电路的输出功率和变压器的传输效率的关系作了深入的研究。
Then the power circuit is designed. at last, with analysis of experiment data the relation of power output and transmission efficiency of transformer is researched in detail.
以获得高效率高浓度臭氧为目标,研究了平板式微间隙臭氧发生器的放电特点和性能。
For high ozone content and efficiency, the discharging behavior and performance of a plate-type micro-gap ozone generator were studied.
本发明修改了透 明电极的形状,以加宽放电区域,使得发光效率增加以提高亮度。
The present invention modifies the shape of the transparent electrode to broaden the discharge area, so that the luminous efficiency increases to improve a luminance.
简要介绍了电火花脉冲加工的现状、特点及加工原理;着重分析了放电加工中电参数对加工效率及加工精度的影响;定量分析了它们之间的相互影响。
It mainly analyses the influence of electrical parameters on the machining efficiency and precision in the course of electrical discharge, and analyses quantificationally the mutual influence of them.
本发明中的等离子显示面板,改善了放电结构与电极结构,从而降低等离子显示面板的小耗电量,增加亮度,提高等离子显示面板的效率。
And the invention improves discharge structure and electrode structure, so as to reduce power consumption of the PDP and increase brightness of the PDP and raise the efficiency of the PDP.
理论和实践都表明,平行电极放电震源比较实用,而爆炸丝放电震源效率较高。
Both the theory and the practice show that the parallel electrode source is more practical, while the explosion wire source has a higher efficiency.
考察了电源参数、放电参数和介质物理参数对传质效率的影响规律;
The effect of the power parameters, the discharger characteristic parameters and the wastewater physical properties on mass transfer efficiency was investigated.
适当降低冷却水温度,增加放电频率也可提高合成过程中的氧转化率、H2O2收率及合成H2O2能量效率。
The increase of discharge frequency and decrease of cooling-water temperature at a certain extent also favored the improvement of O2 conversion, H2O2 yield and energy efficiency.
适当降低冷却水温度,增加放电频率也可提高合成过程中的氧转化率、H2O2收率及合成H2O2能量效率。
The increase of discharge frequency and decrease of cooling-water temperature at a certain extent also favored the improvement of O2 conversion, H2O2 yield and energy efficiency.
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