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。
This article introduces a method to measure the relative dielectric constant of liquid dielectrics in physical experiments, with a special capacitor made by ourself.
因其介电常数较高,特别适用于作低压、直流、脉冲电容器浸渍剂。
Because of their higher dielectric constant, they are particularly suitable for use as an impregnant for low voltage, direct current, and impulse capacitors.
电容式液位测量系统是基于改变介电常数时,电容器的电容量变化的原理来测量液位的。
Capacitive system for liquid level measurement can measure the liquid level according to the principle which capacitance value is changed with the dielectric constant.
通过求解电容器的等效电容,进一步导出复合材料有效介电常数的计算公式。
By solving the equivalent capacitance of the capacitor, the formulas of effective permittivity are derived.
本发明方法大大的提高了铌酸钠钾体系的介电常数,可满足大容量电容器的商业使用需求。
The method of the invention improves the dielectric coefficient of the potassium sodium niobate system greatly, and is capable of meeting the business usage requirement of large-capacity capacitors.
用有限元法分析了标准电容器电场的电位势的分布,得到了孔洞材料的介电常数。
The distribution of electrical potential of standard capacitor is analyzed by finite element method;
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。
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。
The dielectric is usefully applied to produce an embedded capacitor with the high dielectric constant and the PCB provided with the embedded capacitor.
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