Pressemitteilung BoxID: 759108 (Taiyo Yuden Europe GmbH)
  • Taiyo Yuden Europe GmbH
  • Siemensstraße 3
  • 90766 Fürth
  • Ansprechpartner
  • Harald Sauer
  • +49 (911) 9364-125

TAIYO YUDEN Extends its Lineup of Large-Capacitance Multilayer Ceramic Capacitors

Leading the Trend of Increased Capacitance toward the Realization of 1000μF Products

(PresseBox) (Tokyo, ) TOKYO, - TAIYO YUDEN CO., LTD. announced today the commencement of mass-production of the JMK325ABJ337MM (temperature characteristics: X5R, maximum operating temperature: 85°C) and AMK325AC6337MM (temperature characteristics: X6S, maximum operating temperature: 105°C) products, which realize a rated voltage of 6.3V and 4.0V, respectively, at a
capacitance of 330μF.
Both products have improved rated voltage compared to the company's conventional products, AMK325ABJ337MM (temperature characteristics: X5R) and PMK325AC6337MM (temperature characteristics: X6S), which both have a capacitance of 330μF at a rated voltage of 4.0V and 2.5V, respectively.

The mass-production system for JMK325ABJ337MM and AMK325AC6337MM will be prepared at at the company’s Tamamura Plant in Gunma Prefecture, Japan in October 2015, at a production rate of one million units per month.

By the end of the year, mass-production will also commence for the LMK325ABJ227MM (temperature characteristics: X5R) and MK325AC6227MM (temperature characteristics: X6S) products (both 3.2 x 2.5 x 2.5 mm), realizing a rated voltage of 10V and 6.3V, respectively, at a capacitance of 220μF.

These products will be used for power smoothing in information- and communications-related devices.

Technology Background
To improve the efficiency of power supplies, an increasing number of digital devices are now being provided with switching-type power supply circuits. Power supply circuits of this kind use multiple large-capacitance capacitors in the output stage to smooth the output voltage and ensure stable operation of the device. Generally, multilayer ceramic capacitors have a low ESR and superior
frequency characteristics compared to tantalum or aluminum electrolytic capacitors, and are effective as smoothing capacitors for controlling the ripple current in increasingly high-frequency power circuits. Additionally, being smaller in size than electrolytic capacitors, multilayer ceramic capacitors also contribute to reducing the mounting area.

TAIYO YUDEN is the world leader in the capacitance increase of multilayer ceramic capacitors. For example, in April of this year we commenced with mass-production of the AMK432BJ477MM (4.5 x 3.2 x 2.5 mm) product, featuring the world largest capacitance of 470μF as a multilayer ceramic capacitor, by continuously improving accuracy from the materials technology stage.
TAIYO YUDEN will continue to make further additions to its line-up of super high-end large-capacitance multilayer ceramic capacitor products having a capacitance in excess of 100μF, and we intend to continue the development of higher capacitance products with the aim of realizing a capacitance of 1000μF.
These products, together with multilayer ceramic capacitor prototypes that have achieved a capacitance of 1000μF, will be on display at the TAIYO YUDEN booth at CEATEC JAPAN 2015 to be held at Makuhari Messe (Mihama-ku, Chiba-City, Chiba Prefecture, Japan) from October 7th.

Main application
Power smoothing in information- and communications-related devices

Website Promotion

Für die oben stehenden Pressemitteilungen, das angezeigte Event bzw. das Stellenangebot sowie für das angezeigte Bild- und Tonmaterial ist allein der jeweils angegebene Herausgeber (siehe Firmeninfo bei Klick auf Bild/Meldungstitel oder Firmeninfo rechte Spalte) verantwortlich. Dieser ist in der Regel auch Urheber der Pressetexte sowie der angehängten Bild-, Ton- und Informationsmaterialien.
Die Nutzung von hier veröffentlichten Informationen zur Eigeninformation und redaktionellen Weiterverarbeitung ist in der Regel kostenfrei. Bitte klären Sie vor einer Weiterverwendung urheberrechtliche Fragen mit dem angegebenen Herausgeber. Bei Veröffentlichung senden Sie bitte ein Belegexemplar an