Technical Library | 2011-01-20 18:43:39.0
PCB stack-up is an important factor in determining the EMC performance of a product. A good stack-up can be very effective in reducing radiation from the loops on the PCB (differential-mode emission), as well as the cables attached to the board (common-mo
Technical Library | 2010-12-02 20:09:41.0
Planning the multilayer PCB stackup configuration is one of the most important aspects in achieving the best possible performance of a product. A correctly stacked PCB substrate ca effectively reduce electromagnetic emissions, crosstalk and also make the
Technical Library | 2012-09-20 21:45:38.0
First published in the 2012 IPC APEX EXPO technical conference proceedings. An evaluation of four FR4 laminates in commonly used stack-ups was done to determine their survivability for the Pb-free HASL process followed by a worst case Pb-free manufacturin
Technical Library | 2021-12-21 23:21:34.0
Points of discussion in "HDI Microvia Technology – Cost Aspects" are: - Reasons for the use of HDI technology - Printed circuit board (PCB) size - Number of layers - Stack-up and complexity - Other important cost influences -–Design rules -–Drilling costs -–Microvia filling
Technical Library | 2008-02-26 15:02:19.0
More and more chip packages need multi-GHz RF structures to meet their performance targets. The ideal chip package needs to combine RF features with Digital features for these applications. They drive low-loss, controlled impedance transmission lines, flexibility in assigned signal and power layers, and clearances of various shapes in power layers. Building these features in a chip package is difficult without making the stack-up very thick or compromising the reliability of the product. In the present paper, we have designed and built a flip-chip package test vehicle (TV) to make new RF structures, using Z-axis interconnection (Zinterconnect) building blocks.
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