提出了钽的氧化反应式及反应控制步骤;得出其氧化膜电容量随着氧化电位的增加而减少,阻抗与阳极极化行为存在相关关系。
The results shows the capacity of the anode oxidation membrane decreases with the increasing of oxidation potential, and there exists relationship between impedance and behavior anode polarization.
得出其氧化膜电容量随着氧化电位的增加而减少,阻抗与阳极极化行为存在相关关系。
The results shows the capacity of the anode oxidation membrane decreases with the increasing of oxidation potential, and there exists relationship between impedance and behavior anode polarization.
仪器采用双极性脉冲电压作为电导率测量的激励源,较好地解决高纯水电导率测量中的极化效应和电容效应对测量结果的影响。
The instrument adopts the bi-directional pulsed voltage as its exciting source, which has a better solution to the negative of capacitive and polarizational effects at the electrodes.
研究了两种去极化剂对液体钽电容器高频电性能的影响。
In this paper, the influence of two depolarizers on high-frequency electrical performance of wet tantalum capacitors is studied.
由电容频谱曲线的主要特征判断,界面驰豫极化机制主导这一电容弥散区。
The main features of capacitance frequency curve recognize that the capacitance dispersion region results from the mechanism of interface relaxation polarization.
推导了电化学体系中理想极化电极、电化学极化电极的复数电容表达式。
The expressions of complex capacitance for ideal polarized electrodes and kinetic ontrolled electrodes were deduced.
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。
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.
超级电容器主要由极化电极、集电极、电解质、隔离膜、引线和封装材料几部分组成,各部分的组成、结构均对其性能有重要的影响。
It consists of polarized electrode, collector, electrolyte, separator, lead and packing material, and its performances are affected by the composition and structure of each component greatly.
模拟结果表明,改进模型能够更精确地预测MF IS电容器铁电层的极化行为、电容器的C -V特性及记忆窗口。
The simulation results show that the improved model can predict the polarization behavior of ferroelectric layer, the C-V characteristic and memory window of MFIS capacitor more accurately.
钽电容器极化珠和低电压等级像电解电容器。
Tantalum bead capacitors are polarised and have low voltage ratings like electrolytic capacitors.
研究了两种去极化剂对液体钽电容器高频电性能的影响。
Influence of two depolarizing agents on the electrical performance of wet tantalum capacitors is studied in this paper.
研究了两种去极化剂对液体钽电容器的阴极界面双电层及电容器电性能的影响。
In this paper, the influence of two depolarizing agents on the double electric layer of cathode interface and the electrical performance of wet tantum capacitors is studied.
研究了两种去极化剂对液体钽电容器的阴极界面双电层及电容器电性能的影响。
In this paper, the influence of two depolarizing agents on the double electric layer of cathode interface and the electrical performance of wet tantum capacitors is studied.
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