钽电解电容

高压160V液体钽电解电容器ESR性能的分析

Analysis of ESR property of high-voltage ( 160 V ) wet tantalum electrolytic capacitor

利用导电高分子研制了一种新型固体钽电解电容器。

A new type solid tantalum electrolytic capacitor with conducting polymer has been developed .

如果用片式二氧化锰钽电解电容，则分别需要127μF和192μF。

If a chip tantalum electrolytic capacitor was used , the capacitance must be 127 μ F and 192 μ F , respectively .

讨论分析了烧结型固体钽电解电容器电容量C、损耗tgδ、阻抗Z与使用频率f的关系。

This paper analyzed the relation that the capacitance , consumption and impedance of a solid tantalum electrolysis capacitor varied with the frequency .

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。

High voltage-low ESR working electrolyte used in 160V / 1 μ F wet tantalum electrolyte capacitor is emphatically studied in the paper .

AVX钽电解电容器，体积小、极性电容器，电性能稳定可靠、低ESE（等效串联电阻）值。

AVX tantalum electrolytic capacitors , small size , polarity capacitor , electrical properties of stable and reliable , low-ESE ( equivalent series resistance ) value .

总之，本文以PEDT材料在固体钽电解电容器上的应用为背景，研究了其相关的机理和各种工艺条件，为有机钽电容器的研制提供了关键的先期研究基础。

This has provided an essential work for the further research on the organic tantalum capacitors and its manufacturing .

在钽电解电容器多孔阳极体表面化学原位被覆聚乙烯二氧噻吩（PEDT）薄膜研究

Chemical synthesis of conducting poly ( 3,4-ethylenedioxythiophene )( PEDT ) film on the surface of anode of solid tantalum electrolytic capacitor

叙述了钽电解电容器阳极Ta2O5介质膜的形成过程，分析了电解液闪火与氧化膜击穿的微观过程。

Forming process of anodic Ta_2O_5 dielectric film of wet tantalum electrolytic capacitors was analyzed , and the microprocess of electrolyte sparking and the oxide film breakdown were studied .

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。

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 .

采用具有高导电率（1~500S/cm）、热稳定性好的导电聚合物PEDT（聚3,4-乙烯二氧噻吩）取代MnO）2，在固体钽电解电容器芯子上制作PEDT阴极层。

A high conductivity ( 1 ~ 500 S / cm ) and well thermal stability conductive poly ( 3 , 4-ethylenedioxythiophene ) ( PEDT ) was used as cathode material of tantalum electrolytic capacitors .

应用PPy-DEHS（2-（2-乙基己基）硫代丁二酸钠盐掺杂聚吡咯，溶剂为三氟乙酸）电解质装配的固体钽电解电容器具有较高的电容量和较低的损耗。

The capacitors prepared with PPy-DEHS ( PPy powder doped with di ( 2-ethylhexyl ) sulfosuccinate sodium salt ) electrolyte in trifluoroacetic acid show high capacitance and low tan δ .

简述了钽电解电容器的工作原理。

Principle of operation of tantalum electrolytic capacitor is briefly introduced .

固体钽电解电容器用导电浆中银粉的选择

Selection of Silver Powder Used in Conductive Paste for Solid Tantalum Capacitors

钽电解电容器使用中的注意事项

Points for Attention in Application of Tantalum Electrolytic Capacitors

有机片式固体钽电解电容器制备工艺研究

Research on Production Process of Organic Solid-electrolyte Tantalum Capacitor

固体钽电解电容器研究发展趋势

The Research and Development on Solid Electrolytic Tantalum Capacitor

液体钽电解电容器电参数的影响因素

The Influence Factor of the Liquid Tantalum Electrolytic Capacitor

综述了导电高分子钽电解电容器的最新研究进展。

Recent advances in tantalum electrolyte capacitor using conductive polymer for counter electrode are reviewed .

应用聚吡咯电解质的固体钽电解电容器

Tantalum Electrolytic Capacitors Using Polypyrrole Electrolyte

无极性固体钽电解电容器

Non-polarity solid tantalum electrolytic capacitor

导电高分子钽电解电容器的研究进展导电高分子材料导电高分子

Recent Advances in the Research on the Tantalum Electrolytic Capacitor : Using Conductive Polymer for Counter Electrode

氧含量对钽电解电容器阳极氧化膜形成及漏电流的影响

Influence of Oxygen Content on the Formation of Anode Oxide Film and Leakage Current of Ta Electrolytic Capacitor

液体钽电解电容器电容量大、不易击穿，且内阻低、体积小，需求量一直处于增长的趋势。

Tantalum capacitor has fabulous capacitance , low breakdown rate and internal resistance . It has a developing trend in need .

铌电解电容器具有比铝电解电容器优越的性能，而价格比钽电解电容器便宜，在电解电容器领域颇有发展前途。

Columbium electrolytic capacitor has the advantage of better performance and lower price than tantalum electrolytic capacitor , therefor has a bright future .

简要地叙述了固体钽电解电容器高比容化、小型化趋势和生产高比容钽粉的方法。

The trend of high CV and miniaturization of solid tantalum electrolytic capacitors and the progress of high CV tantalum powder were briefly described .

按与钽电解电容器相似的工艺将低价铌氧化物粉末制成了阳极，并采用电解电容器阳极测试方法对其电性能进行了研究。

Niobium suboxide anode is prepared with method similar to that for tantalum electrolytic capacitor and its electric property is investigated by electrolytic capacitor anode testing .

针对阳极氧化膜在钽电解电容器中所起的重要作用，对比分析了钽阳极块中氧含量对其形成及电性能的影响，并简述了有关影响机理。

In view of the importance of anode oxide film in Ta electrolytic capacitor , comparative analysis is made of the influence of oxygen content in Ta anode sheet .

叙述了聚吡咯电解质的制备过程，并比较了该电解质较传统电解质的特点，分析了聚吡咯电解质固体钽电解电容器的性能特征。

The preparation of polypyrrole electrolyte was introduced , the differences between polypyrrole and conventional electrolyte was compared , and the characteristics of tantalum electrolytic capacitors using polypyrrole electrolyte was analysed .

为了反应交流状态下的钽电解电容的噪声特性，通过模拟电容器的正常工作状态，设计了一种交流噪声测试方法，实验发现钽电解电容的介质层损伤在基准信号的低频部分反应明显。

We simulating the normal work state of capacitors , designed a kind of AC noise measure method , found that tantalum electrolytic capacitor dielectric layer damage in the low-frequency part of the reference signal reaction obvious .