In this work, the influence of organism on breakdown voltage and conductance of electrolyte of wet tantalum capacitor was investigated. 研究了有机物对液钽电容器工作电解质闪火电压及电导率的影响。
Shells of wet tantalum capacitor by deep drawing have been unable to meet quality requirements because the seizing tumour appears easily during deep drawing. 纯钽板通过深拉深制成的液体全钽电容器外壳在国内一直不能满足质量要求,主要原因是由于钽板在深拉深时极易产生粘结瘤。
A New Hermetically Sealed Wet Tantalum Capacitor 新型全密封液体钽电容器
High voltage-low ESR working electrolyte used in 160V/ 1 μ F wet tantalum electrolyte capacitor is emphatically studied in the paper. 本论文重点研究适合于高压小容量(160V/1μF)低ESR液体钽电解电容器使用的工作电解质。
If active filter circuit is adopted, wet tantalum capacitor will face test of high voltage and high frequency. 一旦采用有源滤波电路,钽电容器将面临高压和高频性能的严峻考验。
Analysis of ESR property of high-voltage ( 160 V) wet tantalum electrolytic capacitor 高压160V液体钽电解电容器ESR性能的分析
The surface microstructure of anodic tantalum core was analyzed by scanning electron microscope ( SEM), and then analyzed the failure mechanism of wet tantalum capacitor. 利用扫描电子显微镜(SEM)分析了阳极氧化后及产品失效后阳极钽芯表面介质膜的微观结构,并对液钽电容器失效机理进行了探讨。
Study on Working Electrolyte of High-Voltage Wet Tantalum Capacitor 高压液体钽电容器工作电解质的研究
Working electrolyte of high voltage ( 160V)-low ESR wet tantalum electrolytic capacitor ( call the tantalum capacitor as follows) is studied in this paper. Currently, high voltage-low ESR is a developing trend of the tantalum capacitor. 对高压(160V)、低ESR液体钽电解电容器(以下简称钽电容器)工作电解质进行了研究。目前,钽电容器正向着高压、低ESR的方向发展。
Under the instruction of the theories, we developed the working electrolyte that used for 160 V/ 1 μ F, 160 V/ 47 μ F wet tantalum capacitor by using orthonormal experiment full factor design method. 并在理论的指导下采用正交试验,全因素设计法,研制出160V/1μF、160V/47μF液体钽电容器工作电解质配方。