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博客园 - 斑鸠,一生。

灌胶工艺 IEC60664-1 绝缘设计流程 Bond-ply工艺 DSP配置寄存器心得与感悟 TMS320F28335与XDS100V3使用问题记录 异形螺旋线绘制 Maxwell 网格划分方法ON SELECTION 下Length Base 与 Skin depth based 对比分析 带相位负反馈的ABC-DQ变换 增量式PI控制特点及适用场合 自耦变压器励磁电感和漏感等效电路及条件 变压器与变压器磁集成方案 变压器与电感的磁集成(全桥变压器与Buck电感) POCO 高直流偏置材料GPN 特性 POCO 低损耗材料NPA 特性 POCO 低损耗材料NPX 特性 Creo 分割或切除主体 Creo 绘制异形螺旋线 磁感应强度与磁场强度单位转换 Maxwell StrandedLoss and StrandedLossAC difference PCB 绘制线型禁止敷铜区域 Maxwell提取变压器阻抗参数和寄生电容参数用于EMI仿真和操作 HSC 电路分析(谐振型) HSC 电路自耦变压器分析 电容漏电流的测量方式 铝电解电容基础知识 伏秒平衡和安匝平衡 Creo 分割曲面方式 Topology and contol for MHz High Efficiency High density DC-DC Conveter AD PCB 导出3D设置及注意事项 MLCC dc bias character (From HELIX semiconductors) MLCC dc bias character (KYOCERA)
MLCC dc bias character(For infineon)
斑鸠,一生。 · 2026-01-01 · via 博客园 - 斑鸠,一生。

2026-01-01 13:02  斑鸠,一生。  阅读(44)  评论()    收藏  举报

The Multilayer Ceramic bias characteristic refers to the capacitance change of the ceramic capacitor with the applied DC voltage.

 As the applied DC voltage increases, the ceramic capacitor’s effective capacitance decreases.

   Figure 1 shows the relationship between the rate of change in capacitance and a range of DC bias voltages for 22-µF ceramic capacitors of different sizes with voltage rating of 6.3 V.

  As applied voltage increases to 3 V, the effective capacitance of a 0603-sized capacitor decreases to 40% of its nominal value while a 1206-sized capacitor’s effective capacitance is roughly 80% of its nominal value.

  It is clear that a larger ceramic capacitor has less capacitance change under the same DC bias voltage comparing to smaller ones.

image

 DC bias characteristic of MLCCs of different sizes

  Figure 2 illustrates MLCC (22 µF) DC bias characteristics with the same 1206 size but different rated voltages.

  It is obvious that rated voltage does not affect MLCC’s DC bias characteristic.

  Generally, using an MLCC with higher rated voltage does not necessarily improve its DC bias characteristic.

image

DC bias characteristic of MLCCs with different rate voltages

   For MLCCs used in power systems, its effective capacitance might decrease significantly based on the input and output voltage.

  This might cause effective input and output capacitance to fall short of the required value, which leads to large switching voltage ripple and low phase margin.

  Therefore, when designing power systems, it is necessary to confirm MLCC’ effective capacitance based on DC bias characteristic provided by vendors to fulfill the design requirements.