新一代高性能电沉积铜箔

S.C. Lin, P. Tsao, C. Huang, K.C. Chen
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引用次数: 1

摘要

本研究的目的是介绍南亚塑料公司的先进电沉积铜箔的发展现状,以满足下一代的要求(高性能,环保,低成本等)。由于电子工业对高密度封装、高频传输、放热、高可靠性、环保等多方面的需求,电子器件的性能得到了极大的提高。为满足广大客户的需求,南亚公司已开发或将开发不同规格的铜箔。例如,超薄载流子箔(厚度范围从2到6um)和超低表面粗糙度箔(NPV系列)用于满足高密度封装和IC基板的应用。厚而光滑的NPVP薄膜应用于大电流和热放电场合。黑色NPVBR和NPHB箔主要用于电磁干扰屏蔽领域。最佳的NPM箔(正在开发中)具有优异的蚀刻能力、高剥离强度、优异的机械性能和环境友好性;衬托。对于2L FCCL工业来说,蚀刻和柔性是重要的性能要求。非常低的表面粗糙度和高柔性铜箔(即NPVT箔)被设计来满足这一要求。NPVT箔表现出与传统HTE箔不同的金相组织,如细晶粒尺寸、等轴晶粒结构和(111)择优取向。这些特性使薄膜具有优良的机械性能和蚀刻性能。由于特殊的处理工艺,使铜箔表面光滑、粗糙度高、粘接强度高、表面粉末少。经高温层合后,细小晶粒可退火成较大的等轴晶粒组织。NPVT箔将转变为更高的伸长率和更大的灵活性,适用于FCCL应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The high performance electrodeposited copper foil for next generation
The aim of this study is to introduce the development status of advanced electrodeposited copper foil of Nan Ya Plastic Corp. for the requirement of next generation (High performance, ECO friendly, low cost, etc...). Owing to the diversity need of electronic industry, such as high density packaging, high frequency transmission, heat discharge, high reliability and eco-friendly..., different copper foil was or will be developed from the Nan Ya company to satisfy the customers. For example, ultra thin carrier foil (thickness range from 2 to 6um) and super low surface roughness foil (NPV series) are used to meet the application of high density packaging and IC substrate. Thick and smooth NPVP foils are applied in the high current and heat discharge situation. Black NPVBR and NPHB foils are expecially used in EMI shielding field. The optimum NPM foils (under development) possess excellent etching ability, high peel strength, superior mechanical properties and environment friendly; foils. For the 2L FCCL industry, etching and flexibility are important performance requirement. The very low surface roughness and high flexible copper foil (namely NPVT foils) are designed to meet this requirement. The NPVT foil exhibits the different metallurgical microstructure as compared to traditional HTE foil, such as fine grain size, equiaxed grain structure and (111) preferred orientation. These characters make the foils having superior mechanical and etching properties. Owing to special treating technique, the copper foils have smooth surface roughness, high adhesive strength, and less surface powder. After high temp lamination (PI), the fine grain can be annealed to become larger equiaxed grain structure. The NPVT foils will transform to higher elongation and more flexibility, which is suitable for the FCCL application.
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