1) surface layer semiconductor ceramics capacitors
表面层型半导体陶瓷电容器
1.
Presented are surface layer semiconductor ceramics capacitors, including its bas ic structure, important techniques, design parameters, specifications and typic characteristics, and equipment.
对表面层型半导体陶瓷电容器的基本结构原理、关键生产技术、关键设计参数、关键生产设备以及电容器规格和典型特性作了简要介绍。
2) semiconductor ceramic capacitors
半导体陶瓷电容器
1.
ELECTRONIC COMPONENTS & MATERIALS (China), Vol 18, No 6, P 31 33(Dec 1999) In Chinese Introduced are semiconductor ceramic capacitors including general technology, ceramic structure, dielectric property and the differences between them and the capacitors of BaTiO 3.
论述半导体陶瓷电容器的一般工艺、瓷体结构、介电特性及其与一般BaTiO3 型陶瓷电容器之差异。
3) grain boundary layer semiconductor ceramic capacitor
晶界层半导体陶瓷电容器
1.
The grain boundary layer semiconductor ceramic capacitors were manufactured by one-time sintering technology.
采用一次性烧成技术研制了晶界层半导体陶瓷电容器,在瓷料配制过程中先后加入施主杂质和含有受主杂质的晶界助烧剂,两者在还原烧成时促使晶粒生长并半导化,助烧剂在氧化时有利于晶界绝缘层形成。
4) ceramic semiconductor device
陶瓷半导体器件
5) multilayer ceramic capacitors
多层陶瓷电容器
1.
Base metal electrode multilayer ceramic capacitors (BME-MLCCs) have nowadays become themainstream type of multilayer ceramic capacitors (MLCCs) after forty years of development.
贱金属内电极多层陶瓷电容器(BME-MLCCs)经过40年的发展,目前已成为多层陶瓷电容器的主流。
2.
Recent development trends of multilayer ceramic capacitors are miniaturisation, lower vol tage,larger capacitance, lower production cost and formation of HV MLCC series.
小型、低压、大容量化,片式高压系列化和低成本化是当前多层陶瓷电容器的主要技术发展趋势;移动通信设备和开关电源等产品是其应用的热门。
6) multilayer ceramic capacitor
多层陶瓷电容器
1.
05)TiO3 powder used for multilayer ceramic capacitor was prepared by means of solution-sol-gel method.
05)TiO3基多层陶瓷电容器用超细陶瓷的制备。
2.
Nanometer composite powder used for multilayer ceramic capacitor was prepared by the sol-gel method and supercritical desiccation technique.
采用溶胶-凝胶法及超临界干燥技术按多层陶瓷电容器磁粉添加剂配方比例制备Bi、Sr、Ce、Mn和Si的化合物纳米复合粉。
3.
05)TiO3 (BSCT) used for a multilayer ceramic capacitor were prepared by the sol–gel method from BaAc2, Sr(NO3)2, Cd(NO3)2, Ti(OC4H9)4, and ice HAc as raw materials in alcohol solution.
用溶胶-凝胶法,在乙醇溶液中以BaAc2、Sr(NO3)2、Cd(NO3)2、Ti(OC4H9)4,冰醋酸为原料制备了多层陶瓷电容器用(Ba0。
补充资料:半导体电极电容
分子式:
CAS号:
性质:半导体电极的电容等效于若干种电容的组合,相当于不同的储电场所。其中包含溶液相的紧密双层电容,半导体空间电荷层的电容和表面态的电容。测定半导体电极的电容和电势的关系,可以确定半导体的导电类型、空间电荷密度和固体表面能级等特性。
CAS号:
性质:半导体电极的电容等效于若干种电容的组合,相当于不同的储电场所。其中包含溶液相的紧密双层电容,半导体空间电荷层的电容和表面态的电容。测定半导体电极的电容和电势的关系,可以确定半导体的导电类型、空间电荷密度和固体表面能级等特性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条