Mask line Machining made of non-woven using high-quality, single and multi-chip packaging, and customers can request for sterilization.
面膜系采用优质无纺布加工制成,有单片和多片包装,并可按客户要求作灭菌处理。
Multi-chip packaging ( MCP ) technologies and their basi status, state-of-art of applications for mobile phone memory are reviewed in this paper.
文章评述多芯片封装技术及目前的基本情况,这一技术在手机存储器的应用现状等。
The utility model discloses a multi-chip packaging structure comprising at least a loader, at least a packaging module, an insulation layer and a pattern metal layer.
本实用新型公开一种多芯片封装结构,至少包括一承载器、至少一封装模块、一绝缘层及一图案化金属层。
Moreover, some major processes package of MEMS, including wafer-level packaging, single-chip packaging, multi-chip packaging and stacked 3d packaging, etc were discussed.
阐述了MEMS的主要封装工艺和技术,包括圆片级封装、单芯片封装、多芯片组件和3d堆叠式封装等。
The pattern metal layer is arranged on the insulation layer and filled into the diversion holes, thereby being an inner linking layer of the multi-chip packaging structure of the utility model.
图案化金属层位于绝缘层上并填入于导通孔中,以作为本实用新型多芯片封装结构的内连线层。
Low Temperature Co-fired Ceramics (LTCC) is an excellent packaging technique for achieving highly reliable and miniature microwave multi-chip modules (MMCM).
低温共烧陶瓷(LTCC)是实现小型化、高可靠微波多芯片组件(MMCM)一种理想的组装技术。
In 3d-mcm (multi chip module) packaging designs, heat dissipation is one of the key issues that must be solved.
在3d -MCM(多芯片组件)封装设计中,大功率和高热流密度导致系统的散热成为关键技术之一。
To investigate the sensor packaging effect, the finite element method is adopted for analyzing the distribution of residual stress in the multi-sensor chip with FR4 substrates.
针对集成传感器芯片封装粘贴过程中的残余应力影响器件性能的问题,使用有限元方法对环氧粘胶粘贴集成传感器芯片产生的封装残余应力进行了分析。
To investigate the sensor packaging effect, the finite element method is adopted for analyzing the distribution of residual stress in the multi-sensor chip with FR4 substrates.
针对集成传感器芯片封装粘贴过程中的残余应力影响器件性能的问题,使用有限元方法对环氧粘胶粘贴集成传感器芯片产生的封装残余应力进行了分析。
应用推荐