FSM-60S Fusion Splicer FSM-60S The FSm-60S fusion splicer sets the standard for core alignment fusion splicing by incorporating a user-friendly interface with enhanced features to provide the most rugged and reliable fusion splicer in the market today. The new rugged construction adds. FSM-40S / FSM-40S-B Optical Fiber Fusion Splicer Top monitor type (FSM-40S-B) Front monitor type (FSM-40S) FEATURES Core-to-core fiber alignment system Quick '15sec' splicing and Full automatic operation NZDSF (ITU-T G.655) splicing capability Dissimilar fiber splicing capability Compact and light-weight and various power supply options.
Fujikura FSM-80S Single Fiber Splicer
The FSM-80S is core-to-core alignment
single fiber splicer,which is designed for
splicing single-count optical fiber for
telecommunication use.Shock resistance, dust
resistance, and rain resistance....
Feature
The FSM-80S is core-to-core alignment single fiber splicer succeeding to FSM-60S. In addition to
ruggedized concept, which 60S created, the 80S has a series of new features, such as 'Automated
wind-protector and tube-heater' for quicker splicing cycle as well as fewer operation steps,
Fujikura Fsm 60s
'innovative carrying-case design' for
quicker preparation, 'powerful Li-ion battey' for longer operation, high resolution bigger LCD monitor,
and 'built-in operation manuals' in various languages. Market is from backbone network installation
to opto-electronics components production for quality splice.
Applicable fibres
SM (ITU-T G.652 & G.657), MM (ITU-T G.651),DS (ITU-T G.653),
NZDS (ITU-T G.655),Others
Fibre Count
Single
Cladding diameter
80 to 150
µ
m
Coating diameter
100 to 1000
µ
m
Fibre cleaved length
5 to 16mm using Sheath Clamp A, B or 5 to13mm using FH-60-250, FH-60-
900
Actual average splice
loss
0.02dB with SM, 0.01dB with MM, 0.04dB with DS, 0.04dB with NZDS.
Splice time
7sec:SM FAST mode, 12sec :SM AUTO mode, 15sec:AUTO mode
Return loss
60dB or greater
Splicing modes
100 splicer modes are available
Splice loss estimate
Several types of core deformations as well as core axis offset are taken into