dc-Electrical Degradation of the BT-Based Material    for Multilayer Ceramic Capacitor with Ni internal Electrode:    Impedance Analysis and Microstructure

Hirokazu Chazono; Hiroshi Kishi

doi:10.1143/JJAP.40.5624

Japanese Journal of Applied Physics

dc-Electrical Degradation of the BT-Based Material for Multilayer Ceramic Capacitor with Ni internal Electrode: Impedance Analysis and Microstructure

Hirokazu Chazono¹ and Hiroshi Kishi¹

Copyright (c) 2001 The Japan Society of Applied Physics
Japanese Journal of Applied Physics, Volume 40, Number 9S Citation Hirokazu Chazono and Hiroshi Kishi 2001 Jpn. J. Appl. Phys. 40 5624 DOI 10.1143/JJAP.40.5624

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¹ Material Development Department, Taiyo Yuden Co., Ltd., 5607-2 Nakamuroda Haruna-machi Gunma-gun, Gunma 370-3347, Japan

Dates

Received 30 May 2001
Accepted 6 July 2001

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Abstract

The impedance of a BaTiO₃ (BT)-based multilayer ceramic capacitor with a nickel internal electrode (Ni-MLCC) was investigated by measuring the frequency domain at various temperatures. All the obtained impedance data could be successfully fitted to a 4-RC section electrical equivalent network. The 4-RC section electrical equivalent network was successfully correlated to the microstructure: the core, the shell, the grain boundary, and the ceramic/internal electrode interface regions. Based on this electrical equivalent network, the electrical properties including the Curie-Weiss law, the current-voltage characteristics, and dc electrical degradation, were well explained. A model for the degradation behavior for BT-based Ni-MLCC with thin active layer thickness was proposed.

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