This work lay an experimental foundation for the application of monolithic highly dielectric capacitor materials.
这项工作为高介电的单片电容器材料的应用打下实验基础。
The present situation of organic dielectric capacitor production and the development of the materials for the capacitor is presented.
简述超细纤维的类型和主要的生产技术,重点介绍其功能性应用以及生产现状,并提出一些建议。
The reasons of high voltage organic dielectric capacitor should not available to be metallized are analyzed in the paper, including high energy, polarization thin film and high loss.
说明了高压有机介质电容器不宜采用金属化的三个原因:能量高、化膜薄、耗大。
Applications for Measuring Voltage from High Resistance Sources: Capacitor dielectric absorption and electrochemical measurements.
各种高阻源电压测量的应用:电容器的介电吸收和电化学测量等。
To ensure low leakage current and low dielectric absorption, the feed back capacitor should be made of a suitable dielectric material such as poly styrene, polypropylene, or Teflon.
为了保证低泄漏电流和低介电吸收,反馈电容器应当由合适的介电材料(如聚苯乙烯、聚丙烯或聚四氟乙烯)制成。
This article introduces a method to measure the relative dielectric constant of liquid dielectrics in physical experiments, with a special capacitor made by ourself.
通过自制的专用电容器,采用电容测量仪测电容的方法,在物理实验中开设液体电介质的相对介电常数的测量实验。
As noted initially, the capacitance depends on the dielectric properties of the water and the size and separation of the conductive elements forming the water capacitor.
正如最初的电容取决于水电容的介电性能的水,形成的导电分子大小和分离。
The electrolytic capacitor relies on charge to maintain its aluminium oxide dielectric. Without charge the dielectric decomposes over time.
电解电容依赖于充电以维持其氧化铝的介电特性。如果长时间不充电,其电介质会分解。
This paper analyses the dual-ramp A to D converter error due to dielectric absorption of the integrator capacitor with a rigorous mathematical method.
本文用严格的数学方法分析了积分电容的介质吸收效应引起的双积分模数转换的误差。
Test result of dielectric strength, partial discharge and endurance property are analyzed and contrasted between solid dielectric is two film and tree film in model capacitor elements.
本文比对分析了极间介质为两层膜和三层膜的模型电容器元件的介电强度、局部放电性能以及耐久性能的试验结果。
Dielectric ceramic, method for manufacturing the dielectric ceramic, and monolithic ceramic capacitor.
介电陶瓷,制造该介电陶瓷的方法,以及单片陶瓷电容器。
CAPACITOR, An electrical component of two metal plates separated by a dielectric material, for storing electrical energy.
电容器,两片金属中间用绝缘材料隔开的电器。用以储存电能。
In this paper, the regularity of transformations each other, between the energy of dielectric field and the energy of electrical field in the capacitor has been further discussed.
本文进一步讨论了电容器中介质场能量与电场能量的相互转换规律。
It was swiftly to obtain the thickness of alumina film by using of it's dielectric property and capacitor model, which was validated by means of EM, electric quantity and volt-ampere.
通过自制的铝电解电容器模型,利用氧化铝薄膜具有的介电性能,通过电容量法可以准确快捷地计算氧化膜的厚度,并通过显微直接观察法、电解电量法、伏安法进行了验证。
When voltage is applied to a dielectric, an electrostatic field is created. The atoms within the material polarize , enabling the capacitor to store energy that can be quickly released on demand.
当电压施加在绝缘材料上,会产生一个静电场,电场极化材料内部的原子,使电容器能够储存能量。
Week 10 conductor in static electric field, capacitor and capacity of conductor, dielectric in static electric field, Gauss theorem in dielectric medium.
第10周静电场中的导体、电容器和导体的电容;静电场中的电介质、有介质时的高斯定理。
We also provide different multi-layer ceramic structures, ceramic chip capacitor and ceramic dielectric resonator.
提供各种异型陶瓷件,以及陶瓷片式电容,陶瓷介质谐振器。
This capacitor adopt polyester film as dielectric.
该电容器采用聚酯薄膜作介质。
The internal of capacitor is composed of capacitance unit and dielectric with excellent performance.
内部由电容单元和性能优良的介质组成。
The first and second capacitors each have a multi-layer laminated structure which includes a lower electrode, a capacitor dielectric layer and an upper electrode.
第一电容器,形成于所述半导体衬底上方并且具有包括第一下部电极、第一电容器介电层和第一上部电极的层压结构;
The interelectrode dielectric adopts the polypropylene film with surface coarsening which is easy to impregnate so as to enhance the reliability of high-capacity capacitor.
极间介质为易于浸渍的表面粗化聚丙薄膜,特别提高了大容量电容器的可靠性。
The theory and method in measuring accurately the electronic and vacuum dielectric constant of parallel plate capacitor are introduced.
介绍了用电子分析天平测量平行板电容器两极板间的静电力和真空介电常量的原理和方法。
The dielectric is usefully applied to produce an embedded capacitor with the high dielectric constant and the PCB provided with the embedded capacitor.
通常应用电介质来产生具有高介电常数的嵌入电容器以及具有嵌入电容器的PCB。
This paper analyses the influences of the closing time scatter and dielectric characteristic of circuit breaker on synchronous energizing shunt capacitor banks.
分析了断路器绝缘特性和合闸时间分散性对并联电容器组同步关合的影响;
By using the high-k TiTaO dielectric an1d the high work-function ir electrode, we have exhibited a high performance MIM capacitor that meets the ITRS roadmap requirements for analog capacitors.
借由使用高介电常数介电质和高功函数的铱电极,我们达成满足国际半导体技术蓝图所需求性能的高性能金属-绝缘体-金属电容。
When measured voltage changes abruptly the dielectric absorption of capacitor will cause error for first a few measurements. The formula...
文中导出了误差的计算公式,并由此决定了误差变化的时间常数。
When measured voltage changes abruptly the dielectric absorption of capacitor will cause error for first a few measurements. The formula...
文中导出了误差的计算公式,并由此决定了误差变化的时间常数。
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