Pre-Study Of Printed Wired Board Identification
Lipponen, Timo (2015)
Lipponen, Timo
Oulun ammattikorkeakoulu
2015
All rights reserved
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-201503092918
https://urn.fi/URN:NBN:fi:amk-201503092918
Tiivistelmä
This thesis was made for Nokia Networks, which is a multinational telecommu-nications equipment and data networking company headquartered in Espoo, Finland. Nokia Networks is a subsidiary, owned by Nokia Corporation.
The scope of this thesis work was to study the identification methods for the existing and future products e.g. printed wired boards (PWB) and mechanics. The main content was to concentrate on product identification requirements during manufacturing process. This included content, specification and IT-restrictions.
The information that was required to complete this thesis work was predomi-nantly gathered by keeping weekly meetings with the experts from Nokia. The information obtained from these meetings was used to assist in the making of short and long term proposals as well as future marking method for the PWBs.
The output of this thesis work was a comprehensive summary of a different identification technologies, process specifications and alternative solution pro-posals. Laser technology was studied more deeply, as it seems to be the most potential identification method for the PWBs.
The scope of this thesis work was to study the identification methods for the existing and future products e.g. printed wired boards (PWB) and mechanics. The main content was to concentrate on product identification requirements during manufacturing process. This included content, specification and IT-restrictions.
The information that was required to complete this thesis work was predomi-nantly gathered by keeping weekly meetings with the experts from Nokia. The information obtained from these meetings was used to assist in the making of short and long term proposals as well as future marking method for the PWBs.
The output of this thesis work was a comprehensive summary of a different identification technologies, process specifications and alternative solution pro-posals. Laser technology was studied more deeply, as it seems to be the most potential identification method for the PWBs.