电极结构

  • 网络electrode structure;electrode configuration
电极结构电极结构
  1. 对脉冲放电烟气脱硫技术中的OH自由基发生电极结构及放电特性进行了研究。

    The electrode structure and discharge characteristics of the apparatus producing OH radicals for desulfuration from flue gas by non-thermal plasma have been investigated .

  2. 介绍了pH值分析仪测量原理、电极结构及其优点,并对其选型、安装及维护情况进行了详细的阐述。

    The measuring principle , electrode structure and advantages of pH analyzers are introduced . Type selection , installation and maintence are described in detail .

  3. 表面无小丘Al双层栅电极结构研究

    Study on Hillock - Free Al Gate Materials with Double Layer Structure

  4. GaN基LED电流扩展的有限元模型及电极结构优化

    Finite Element Model of GaN Based LED and the Optimization of the Mesa Structure

  5. 设计了一种管-环式电极结构的大气压沿面介质阻挡放电Ar冷等离子射流装置。

    An atmospheric-pressure Ar cold plasma jet is developed with tube-ring electrodes in surface dielectric barrier discharge .

  6. 四边形电极结构PSD的特性测试与分析

    Characteristic Test and Analysis of the Tetra - lateral Electrode Frame Position Sensitive Detector

  7. 对a-SiC∶H膜平面电极结构样品的空间电荷限制电流的测量

    A Measurement of Space-Charge-Limited-Current for GD a-SiC : H Films with Coplaner-electrode Structure

  8. PEMFC的自增湿膜电极结构和性能研究

    Study on structure and performance of a self-humidifying membrane electrode assembly in PEMFC

  9. 本文旨在设计高功率板条波导CO2激光器放电电极结构及其水冷装置。

    The thesis aims to design the electrode structure and its water cooling system of high power slab waveguide CO2 laser .

  10. 医学EIT复合电极结构参数优化设计

    Optimizing design of compound electrode structure parameter in electrical impedance tomography

  11. 支撑形式及多孔电极结构参数对SOFC性能的影响

    Influences of different designs and structural parameters of electrodes on the performance of SOFC

  12. 目的研究医学电阻抗成像(EIT)系统电极结构对敏感场分布的影响。

    AIM To study the distribution of sensing field affected by the structure of electrodes .

  13. NTP电极结构对光催化去除室内HCHO的影响研究

    Study on the effect of NTP electrode configuration on the photocatalytic removal of HCHO

  14. 得到了电晕放电H2O、NH3活化装置设计方法:①电极结构选择多针&板电极结构,针电极和板电极平行。

    The design methods of the water & NH3 activation equipment is : ( 1 ) Multi-needle electrode configuration was selected and the needles are paralleled to the plate electrodes .

  15. 模拟结果表明:三电极结构荫罩式PDP在对向放电驱动波形下的点火和维持电压都低于表面放电驱动波形下的点火和维持电压;

    The simulation results indicate that the firing and sustaining voltages driven by opposite-discharge waveforms are lower than those driven by surface-discharge waveforms .

  16. 结果表明:在改善SOA增益恢复时间和频率啁啾的传统方法的基础上,运用多电极结构的SOA可以更灵活地调节SOA的增益恢复时间和频率啁啾大小,以适应不同的应用场合。

    The results shows that with the multi-electrode structure , the gain recovering time and chirp of SOA can be tuned more flexibly , which adapt to different circumstances better than the traditional SOAs .

  17. 高催化剂载量和高工作温度迫使DMFC采取特殊的膜电极结构,如无担载催化剂电极;

    High catalyst loading and high working temperature force DMFC to adopt special membrane-electrode structure , e.g. , unsupported catalyst electrode ;

  18. 本论文采用沿SOA腔长方向分布的多电极结构,将SOA的电流注入方式由均匀注入变化为非均匀注入,通过调节各电极的长度和注入电流的大小来优化SOA的各种性能。

    With the multi-electrode structure along the SOA cavity , the uniform current injection becomes non-uniform . By optimizing the lengths of the electrodes and the injecting currents , the characteristic of SOA can be improved .

  19. 采用预电离脉冲群开关技术,在一具有独特电极结构的横流CO2激光器上实现了高功率脉冲激光输出。

    The output of a high power pulsed CO 2 laser has been produced from a transverse flow CO 2 laser which has particular electrode structure and using the preionized pulse train switched technique .

  20. 目的探索医学EIT复合电极结构参数变化对系统性能的影响。

    Objective To explore the influences of structure parameters in compound electrode on the performance of medical electrical impedance tomography ( EIT ) system .

  21. 优化的活性炭电极结构改善了电极材料的电化学特性,比电容量可达424F·g-1,增幅10%。

    The modified activated carbon increased the specific capacitance of electrode by 10 % , up to 424 F · g - 1 .

  22. 本论文从ERT技术的原理性研究出发,针对该技术中电极结构设计进行了分析与优化,并对单电极电流激励模式做了深入的研究和优化。

    In this paper , the electrode structure and single electrode current exciting mode are deeply analyzed and optimized by the fundamental study of ERT technology .

  23. 制备了高分子PTC过流保护元件,讨论了电流密度、电极结构和电场强度等因素对于元件稳定性的影响;

    Over-current protective elements of polymer PTC are prepared . The influences of some factors , including current density , electrode structure and intensity of electrical field , on element stability are discussed .

  24. 在施加直流或交流电压的表面覆涂绝缘介质的楔形电极结构条件下,讨论了SF6中自由金属导电微粒在电场梯度力存在时的运动特性。

    Charging behavior of a metallic conducting particle on a dielectrically coated electrode in the presence of electrical gradient force in SF_6stressed by DC or AC voltage was discussed .

  25. 在偏25°的(111)硅片上制作倾斜下电极结构,实验测得的pullin电压为132V,几乎比平面下电极的pullin电压降低一半。

    The slanted under electrode was fabricated on tilting 2 5 ° ( 111 ) silicon . The pull in voltage obtained in the experiment is 13 2V , it is almost half of that based on the flat under electrode .

  26. 采用三维流体模型和老炼测试平台从理论模拟和实验测试角度研究三电极结构荫罩式PDP在对向放电和表面放电驱动波形下的放电发光特性。

    Three-dimensional fluid model and the aging system are used to investigate the characteristics of three-electrode shadow mask plasma display panel ( PDP ) cell in two types of driving waveforms .

  27. 该传感器采用微电子机械系统(MEMS)技术制备,以硅片作为基底,由铂制备的平面双电极结构以及SU-8光刻胶制备的微反应池所构成。

    The sensor , which is composed of two electrodes made of platinum and a micro reaction cell made of SU-8 photoresist , is fabricated on silicon wafer using the Micro-Electro-Mechanical Systems ( MEMS ) technology .

  28. 对这一现象进行了深入的理论分析,由此探索性地提出了一种嵌入式电极结构的侧向场FBAR,该结构在理论上能较好地消除杂波的影响。

    We theoretically analyzed this phenomenon , and then proposed a novel structure with embedded electrodes , which can successfully eliminate the influence of noises in theory .

  29. 成功制备了两种电极结构的氧化限制型RCLEDs。

    The oxide-confined RCLEDs with two types ofp-electrode have been fabricated and tested .

  30. 在分析ERT系统电极结构的基础上,对电极传感器提出了新的设计方法,包括电极的安装方法、多层电极的排列形式等。

    Based on the analysis of the electrode structure in ERT system , a new scheme for electrode sensor is proposed , including electrode installation method , the array of multi-plane electrodes , etc.