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전도성 고분자 알루미늄 전해 커패시터 ECAS 시리즈
최대 470uF로 MLCC보다도 더 큰 용량을 가지는 대용량 커패시터 ‘ECAS 시리즈’에 대해 소개합니다. 무라타 제작소의 가장 대표적인 커패시터는 MLCC이지만, 사실 무라타 제작소에서는 전도성 고분자 알루미늄 전해 커패시터도 생산하고 있다는 것을 알고 계시나요? 무라타 제작소의 전도성 고분자 알루미늄 전해 커패시터인 ECAS 시리즈는 노트북이나 무선 충전, 가속기 등에 사용되고 있습니다.
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High-Q MLCC for RF Applications
Murata High-Q capacitors are mainly ideal for base stations of mobile communication devices and temperature compensation of related modules.
0:59
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“ECAS Series” Polymer Aluminum Electrolytic Capacitors
Let’s take a look at the high capacitance capacitor ECAS series with a maximum 470 μF that exceeds MLCC.
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Introduction of Murata's Automotive Capacitors response to various applications with high reliability
Through M&A and alliances in 2016, Murata added to its line-up not only ceramic capacitors but also polymer aluminum electrolytic capacitors, and film and silicon capacitors. By utilizing the advantages and collective straengths obtained from each of
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Ultra Small High-Capacitance Ceramic Capacitors from Murata
Due to their small size, MLCCs provide enormous freedom when designing compact and highly functional devices, contributing to ongoing improvements in smartphones. (as of November, 2020) Show more.
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Murata TechTalk - Small size and high capacitance MLCC
Murata has developed the small size and hight capacitance multilayer ceramic capacitor "GRM011R60J104M". The feature is a capacitance of 0.1µF in 008004 inch size and will contribute to smaller and higher density electronic circuitry.
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Advantage of Using a Variable Capacitor/Adjustment of Frequency Variation
Enables adjustment of the resonant frequency by applying the appropriate voltage.
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Murata 3D Silicon Capacitors
This video explains what a 3D silicon capacitor is. It shows its main benefits in terms of performances and miniaturization.
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Manufacturing Process Image of MLCC
Most of Murata’s core technologies have been cultivated through producing Multilayer Ceramic Capacitors. This video shows the manufacturing process and related technologies.
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Replacement evaluation of electrolytic capacitors
Extensive improvements in the characteristics and low profiles can be achieved, by replacing electrolytic capacitors with conductive polymer capacitors or monolithic ceramic capacitors.
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