Sumitomo Fuision Splicer

Sumitomo Fuision Splicer
Origin:Made In Japan
Category:Electronics & Electricity / Optical Fiber, Cable & Wire / Optical Fiber
Label:fusion splicer , splicing machine , Type-39
Price: -
Min. Order:1 set
Inquire Now

Product Description

Sumitomo Fuision Splicer Type-39 





Sumitomo’s Type-39 Core Alignment Fusion splicer pioneers the industry first Dual-Automatic Heater System. Two independent heaters eliminate the bottleneck of “heater wait time”.

The advance electronic design of the Type-39 at features an Auto Start Heater and Auto Start Splice functions to make splicing quick and effortless. The Type-39 is a fully automatic, highly portable, selfcontained instrument for creating low-loss optical fiber splices. It is designed to work with virtually all fiber types including single-mode, multimode, dispersion shifted and other specialty fibers. 



  • European RoHS Compliant
  • Dual Independent Splice Protection Heaters
    • 5.6” Switchable Color Monitor to Back or Back to Front Operation
    • Automatic Heater Start
    • Automatic Splice Start
    • Automatic Fiber Profiling Detection
    • Complete Splice in Less than 48 seconds
    • Built in LED for V-Groove Illumination
    • BU-66L battery for ~ 200 splice and shrink cycles
    •  Fiber clamps operated with the wind hood or independently

Standard package

a)TYPE-39 main body -1pc
b)Battery Pack Model:BU-66L -1pc
C) AC adapter Model:PS-66 -1pc
d)Battery Charge cord Cable Model: BCC-66 -1pc
e)AC power cord Model: PC-AC2 -1pc
f) Cooling Tray -1pc
g)Spare electrodes Model: ER-10- 1pair
h)Operation manual -1pc
i)Carrying case -1pc
j) High precision fiber cleaver Model: FC-6S - 1 pc
k)Fiber Stripper Model: FO 103S - 1PC
l)1 year's warranty!

Sumitomo Fuision Splicer 1Sumitomo Fuision Splicer 2Sumitomo Fuision Splicer 3Sumitomo Fuision Splicer 4Sumitomo Fuision Splicer 5

Member Information

Hong Kong Honserv Limited
Country/Region:Guang Dong - China
Business Nature:Trading Company
Contact:Sophia (sales manager)
Last Online:25 Oct, 2017