Micro Core Sumitomo Fiber Optic Fusion Splicer Ribbon Fan Out ISO9001
| Place of Origin: | Zhejiang, China (Mainland) |
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Product Detail
Micro Core Sumitomo Fiber Optic Fusion Splicer Ribbon Fan Out ISO9001
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Micro Core Sumitomo Fiber Optic Fusion Splicer Ribbon Fan Out ISO9001
1. Superior qualified standard polishing;
2. 100% optic test: Insertion Loss: ≤0.3 (PC); ≤0.2 (APC); ≤0.2 (UPC);
3. 100% optic test: Return Loss: ≥45 (PC); ≥60 (APC); ≥55 (UPC);
4. φ0.9mm, φ2.0mm, φ3.0mm cable optional;
5. Simplex and duplex connector available;
6. Good exchange ability and good durability;
7. Available in fiber bunch, ribbon fan-out, pigtail available;
8. Meets ISO9001, ROHS and Bell core GR 326-core standards;
Fusion splicing is the act of joining two optical fibers end-to-end using heat. The goal is to fuse the two fibers together in such a way that light passing through the fibers is not scattred or reflected back by the splice, and so that the splice and the region surrounding it are almost as strong as the virgin fiber itself. The source of heat is usually an electric arc, but can also be a laser, or a gas flame, or a tungsten filament through which current is passed.
Fusion splicing machines are mostly automated tools that require you preset the splicing parameters or choose factory recommended settings that will control the splicing process itself. All require the use of a precision fiber cleaver that scribes and breaks (cleaves) the fibers to be spliced precisely, as the quality of the splice will depend on the quality of the cleave. Most splicing machines come with a recommended cleaver.
Specifications:
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Model
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SUMITOMO
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Spliceloss
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0.01dB (MM), 0.02dB (SM), 0.05dB (DS/ NZDS/ G.655/ G.657)
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Fiber Cleave Length
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8 to 16mm with 250μm coating diameter, 16mm with 900μm coating diameter
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Splicing Time
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Typical 12 seconds with standard single-mode fiber
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Protectionsleevelength
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25mm, 40mm, 50mm
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Tube-heatTime
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30s
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Splicingmethod
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Arcsplicing
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Dimension
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122mm (L)*122mm (W)*130mm (H)
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Display
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Color 3.5 Inch TFT
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Interface
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USB suitablefordatadownloadandsoftwareupdate
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SpliceMemory
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10000
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ElectrodeSpan
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Atleast5000times
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OperatingTemp
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-18~50
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StorageTemp
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-40~80
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WindowProtection
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Max.windvelocityof15m/s
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PowerSupply
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Internal Li-Battery DCadaptor
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Weight
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2.0KG (Include battery)
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Notices: Proper use of both the splicing machine and the cleaver require carefully following the manufacturer's directions. Each manufacturer's product is slightly different and requires somewhat different procedures. Reading the manuals and practice with the machine are important, especially if the operator has not been trained on the particular splicer in use.
About T600C fusion splicer:
| Applicable optical fiber | Material | Silica Glass |
| Profile type | Single Mode Fiber (SMF)/ITU-T G652 Multi Mode Fiber (MMF)/ITU-T G651 Dispersion Shifted Fiber (DSF)/ITU-T G653 Non-Zero Dispersion Shifted Fiber (NZ-DSF)/ITU-T G655, G656 Bend Insensitive Fiber (BIF)/ITU-T G657 |
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| Number of fiber | Single | |
| Cladding diameter | φ80 to φ150 μm *1 | |
| Coating diameter | φ100 to φ1,000 μm | |
| Cleave length | 5 to 16 mm (with coating clamp) 10mm (Drop cable / Indoor cable with fiber holder) |
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| Applicable Cable*2*3 | 0.25 mm primary coated 1-fiber drop cable | 3.1mm or 2.6mm×2.0mm (excluding messenger steel wire) |
| 0.25 mm primary coated 1-fiber indoor cable | 2.0mm×1.6mm | |
| Splice Performance | Splice loss (typical)*4 | SMF : 0.02 dB MMF: 0.01 dB DSF : 0.04 dB NZDSF : 0.04 dB |
| Return loss (typical) | 60dB or greater | |
| Screening load (typical) | 1.96N - 2.09N (at stage) | |
| Splice time (typical) | Approx. 7 seconds (SM G652 Quick Mode) Approx. 9 seconds (Auto Mode) |
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| Automatic fiber identification | SMF / MMF / Other | |
| Splice & Heat cycles*5 | Approx. 230 cycles (BU-11) | |
| Fiber view & magnification | 2 CMOS cameras observation, 320X (zoom:700X) for X or Y single axis view, 88X for X & Y dual axis view |
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| Splice program | Maximum 300 splice programs can be selected and customized. | |
| Splice data storage | 10,000 splices | |
| Splice image capture | 200 splices | |
| Fiber Alignment method | Core | Aligns the left and right fibers by the center of their cores. |
| Adaptive | The alignment method mainly for BIF. It is used in splicing optical fiber with complicated core profiles. | |
| Diameter | Aligns the left and right fibers by their outer diameter. | |
| ATTN | “Attenuation”. Fibers are spliced by shifting the centers of the left and right fiber cores to achieve intentional high splice losses. | |
| Heater Performance | The number of heaters | Single |
| Sleeve length | Up to 60mm | |
| Protection sleeve *6 | The protection sleeve for single fiber, up to 60mm length, up to φ5mm diameter. e.g. FPS-1 (single, 60mm, Cleave length 5-16mm) FPS-61-2.6 (thin, single, 60mm, Cleave length 5-16mm) FPS-40 (single, 40mm, Cleave length 5-10mm) FPS-40-2.6 (thin, single, 40mm, Cleave length 5-10mm) |
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| Heating time(typical) *7 | Approx. 20 seconds (Slim 60mm 0.25 Mode) | |
| Program | Max. 100 settings | |
| Physical Characteristics | Size (Main body) *8 |
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Company InfoKOCENT OPTEC LIMITED GROUP [China (Mainland)]
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