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| E-Glass Strength Central Loose Tube InOut Optical Cable | |||||||||
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Complied with or exceeds Standard:
. ITU-T G652.D
. ITU-T G657.A
. ITU-T G651.1 OM1 OM2 OM3 OM4
. IEC60793-2-10 type A1a.1/A1b OM1/OM2
. IEC60793-2-10 type A1a.2 OM3
. IEC60793-2-10 type A1a.3 OM4
. ISO/IEC 11801 , ISO/IEC 24702
. IEEE 802.3z Gigabit Ethernet
. ANSI/TIA/EIA 568C.3
. ROHS Compliant Directive 2011/65/EU(ROHS2.0)
The cable has excellent UV-stabilized and water blocking performance for outdoor duct application (PE outer jacket) or Indoor/ Outdoor application (LSZH outer jacket). The cable combines robust characteristics of outdoor cable and flexibility of indoor cable. By installing this cable costly splice at building entry can be avoided and cable can be routed from outside plant to telecommunication closets or main distribution frames (MDF) through the riser of building and eliminate “50 foot rule” for outdoor cables. The cable is mostly used in LAN application for intra building backbone and interconnections (Campus LAN).
MECHANICAL & ENVIRONMENTAL CHARACTERISTICS
| ITEM | Value |
| Max. Tensile Load (Short Term) | 1500N |
| Max. Tensile Load (Long Term) | 600N |
| Max. Crush Load (Short Term) | 1000N/100mm |
| Max Crush Load (Long Term) | 300N/100mm |
| UL Fire Rated | OFNR |
| Operating Temperature | -20°C to +60°C |
| Storage Temperature | -40°C to +85°C |
| Sheath Material | Standard: PVC Optional: LSZH, PE or other |
Optical Characteristics
Of all the differences between multimode & singlemode fiber, the most fundamental differences are the size of the fiber’s core and the associated attenuation or loss and bandwidth of the fiber. The smaller the core diameter, the higher the fiber’s bandwidth and the lower the attenuation (loss in dB per kilometer). The fiber’s attenuation and bandwidth are also dependent on wavelength.
Singlemode was for high-speed long distance transmission and multimode (in either the 50 µm or 62.5 µm core diameters) was used for lower speed short distance applications. Multimode 50 µm fiber had a lower cost and higher modal bandwidth than multimode 62.5 µm core fiber. Bandwidth is a measurement of the data carrying capacity of the fiber. A higher bandwidth fiber carries more data. See table below.
| Fiber Type | Max. Attenuation (dB/km) | Min.Overfill Launch Bandwidth (Mhz.km) | Min.Gigabit Ethernet Link Distance (m) | ||||||
| Gigabit | 10Gigabit | ||||||||
| 850nm | 1300nm | 1310nm | 1550nm | 850nm | 1300nm | 850nm | 1300nm | 850nnm | |
| OM1 62.5/125µm | ≤2.7 | ≤0.6 | - | - | ≥500 | ≥600 | 275 | 550 | - |
| OM2 50/125µm | ≤2.3 | ≤0.6 | - | - | ≥500 | ≥500 | 750 | 600 | 150 |
| OM3 50/125µm | ≤2.3 | ≤0.6 | - | - | ≥1500 | ≥500 | 1000 | 600 | 300 |
| OM4 50/125µm | ≤2.3 | ≤0.6 | - | - | ≥3500 | ≥500 | 1100 | 600 | 550 |
| G652D 9/125µm | - | - | ≤0.30 | ≤0.18 | - | - | - | - | - |
| G657A 9/125µm | - | - | ≤0.35 | ≤0.21 | - | - | - | - | - |
ANSI/TIA/EIA-598-B Standard Fiber Color Code
| Fiber Number | Fiber Color | Fiber Number | Fiber Color |
| Fiber 1 | Blue | Fiber 7 | Red |
| Fiber 2 | Orange | Fiber 8 | Black |
| Fiber 3 | Green | Fiber 9 | Yellow |
| Fiber 4 | Brown | Fiber 10 | Purple |
| Fiber 5 | Gray | Fiber 11 | Pink |
| Fiber 6 | White | Fiber 12 | Aqua |
| Fiber 13 and higher The color code is repeated with added black stripe or dash Note: Fiber Tube color will be followed with same order. | |||
Color Code
Ordering Information
Part Number: OC-XX-ABCDCL
Ordering Guide
| XX | A | B | C | D | CL |
| Cable Type | Jacket | Fiber/Tube | Fiber Count | Fiber Type | Jacket Color(CL) |
| GJFXTKV | 1=PVC 2=LSZH 3=PE 4=PU | 01=01 Fiber/T 02=02 Fiber/T …… 11=11 Fiber/T 12=12 Fiber/T | No. Of Fiber 004F,048F | OM1=62.5/125 OM1 OM2=50/125 OM2 OM3=50/125 OM3 OM4=50/125 OM4 G652D=9/125 G652D G657A=9/125 G657A | As noted in Color code chart |
Ordering Sample
| Part Number | Description |
| OC-GJFXTKV-11212OM3AQ | 12 cores Multimode OM3 GJFXTKV Fiber Optic Cable, 12 Fiber/Tube, PVC jacket, Aqua color. |
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