Junichi Kazama , Takeshi Nagao , Fumihiro Yabe , Seiryo Mishima , Hisanori Yonenaga , Norifumi Yamazaki , Tomohiro Akiyama , Yoshihide Nakayama , Satoshi Nagao , and Shoichi Yoshinaga
Abstract
As the transmission volume 米兰ac体育 information increases in the 2000s, wavelength
multiplexing in optical communications has been implemented along with the
upgrading 米兰ac体育 the communication speed. Such advancement has made optical fiber fusion
splicers one 米兰ac体育 the essential industrial equipment for the implementation 米兰ac体育 the communication
networks and the manufacturing 米兰ac体育 optical components. Also, in the non-communication fields
present in sensing technology using strains in optical fibers and laser technology for power
transmission, the use 米兰ac体育 optical fiber is rapidly growing. The fusion splicers are used in these
non-communication fields as well.
In light 米兰ac体育 this, we have been developing new fusion splicers with sufficient performance and
functions to meet requirements from the special market segments in response to customers'
needs. Simultaneously, we have been developing new products that provide superior robustness
required from all market segments.
Recently we have developed, around the same time, seven models 米兰ac体育 fusion splicers in three
series - namely S123, S153 and S178 in addition to our mainstay product 米兰ac体育 direct core
monitoring type. We have thus been successful servicing all 米兰ac体育 our customers in the different
segments by providing them with a range 米兰ac体育 applications with a state-米兰ac体育-the-art technology 米兰ac体育
Furukawa Electric.
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