TY - GEN
T1 - Proton beam writer (PBW) for novel processing tool to increase surface utility of flexible printed circuits (FPC)
AU - Hayashi, Hidetaka
AU - Nishikawa, Hiroyuki
PY - 2012/12/1
Y1 - 2012/12/1
N2 - Reducing material usage is essentially important to construct sustainable society [1]. For this purpose FPC is important [2] as it is useful to reduce equipment size and numbers of interconnection components. It is also important to expand lifetime of equipment [3] with minimal replacement of obsolete components. Even though the material utility of FPC is higher than other printed circuit, reducing material in FPC is important. But it is difficult to simply reduce the thickness because the mechanical strength is damaged. We proposed a structure for this challenging task. The key technology is Proton Beam Writer (PBW) that uses accelerated proton to modify materials. By PBW we can create extra circuit space in surface layer of FPC with no extra film. As the thickness of surface layer is unchanged, the mechanical strength is not damaged. This technology also has possibility to create extra circuit space on FPC surface in use.
AB - Reducing material usage is essentially important to construct sustainable society [1]. For this purpose FPC is important [2] as it is useful to reduce equipment size and numbers of interconnection components. It is also important to expand lifetime of equipment [3] with minimal replacement of obsolete components. Even though the material utility of FPC is higher than other printed circuit, reducing material in FPC is important. But it is difficult to simply reduce the thickness because the mechanical strength is damaged. We proposed a structure for this challenging task. The key technology is Proton Beam Writer (PBW) that uses accelerated proton to modify materials. By PBW we can create extra circuit space in surface layer of FPC with no extra film. As the thickness of surface layer is unchanged, the mechanical strength is not damaged. This technology also has possibility to create extra circuit space on FPC surface in use.
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M3 - Conference contribution
AN - SCOPUS:84871839817
SN - 9783839604397
T3 - Electronics Goes Green 2012+, ECG 2012 - Joint International Conference and Exhibition, Proceedings
BT - Electronics Goes Green 2012+, ECG 2012 - Joint International Conference and Exhibition, Proceedings
T2 - Joint International Conference and Exhibition on Electronics Goes Green 2012+, ECG 2012
Y2 - 9 September 2012 through 12 September 2012
ER -