Description
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Description
Outdoor Loose Tube OM3 50/125 Multimode Fiber Optic Cable
This fiber cable is a dry loose tube made up of one to six sub-units, water-repellent yarn, a PVC outer jacket, a central strength component (optional), water-resistant tape (only for 72 strand), and an aramid ripcord. Each sub-unit is composed of a 3mm diameter PVC jacket, 12 colored glass fibers, and water-swellable yarn. All component materials adhere to REACH and RoHS regulations set by the EU. Sub-units may be sequentially numbered or color-coded.
Features
Features
- Gel-Free Waterproof Design
- UV Protected HD Polyethylene Jacket
- Water Blocking Yarn Strength Member
- Compliant with IEC60793-2-10
- 6 Strand Fiber
- EU RoHS and REACH Compliance
Applications
- Between Building Backbone.
- Inside Building Installations.
Specifications
Specifications
Temperature Range
- Storage Temperature: -20ºC to +70ºC
- Operating Temperature: -20ºC to +70ºC
- Installation Temperature: -10 ºC to +60ºC
- Fiber Count: 6
- Outer Jacket Material: Black HDPE
- Sub Unit Material: Flame Retardant PVC
- Strength Member: Aramid Yarn
- Central Strength Member: Fiber Reinforced Rod
- Coating on Central Strength Member: Flame Retardant PVC
- Nominal OD: 10.6 mm +/- 0.4mm
- Core Size: 50um
- Wavelength: (850/1300)nm
- Max. Attenuation: (3.0/1.0) dB/km
- Bandwidth (EMB) (High Performance): 2000 MHz @ 850nm
- Link Length (10GB/s): 300 Meters
Additional Information
Additional Information
Multi-Mode cable commonly has a diameter in the 50-to-100 micron range (typical multimode fiber core diameters are 50 or 62.5 micrometers). Multimode fiber gives you high bandwidth at high speeds (10 to 100MBS - Gigabit to 275m to 2km) over medium distances. Light waves are dispersed into numerous paths, or modes, as they travel through the cable's core typically 850 or 1300nm. However, in long cable runs (greater than 3000 feet [914.4 meters), multiple paths of light can cause signal distortion at the receiving end, resulting in an unclear and incomplete data transmission so designers now call for single mode fiber in new applications using Gigabit and beyond.
Description
Outdoor Loose Tube OM3 50/125 Multimode Fiber Optic Cable
This fiber cable is a dry loose tube made up of one to six sub-units, water-repellent yarn, a PVC outer jacket, a central strength component (optional), water-resistant tape (only for 72 strand), and an aramid ripcord. Each sub-unit is composed of a 3mm diameter PVC jacket, 12 colored glass fibers, and water-swellable yarn. All component materials adhere to REACH and RoHS regulations set by the EU. Sub-units may be sequentially numbered or color-coded.
Features
Features
- Gel-Free Waterproof Design
- UV Protected HD Polyethylene Jacket
- Water Blocking Yarn Strength Member
- Compliant with IEC60793-2-10
- 6 Strand Fiber
- EU RoHS and REACH Compliance
Applications
- Between Building Backbone.
- Inside Building Installations.
Specifications
Specifications
Temperature Range
- Storage Temperature: -20ºC to +70ºC
- Operating Temperature: -20ºC to +70ºC
- Installation Temperature: -10 ºC to +60ºC
- Fiber Count: 6
- Outer Jacket Material: Black HDPE
- Sub Unit Material: Flame Retardant PVC
- Strength Member: Aramid Yarn
- Central Strength Member: Fiber Reinforced Rod
- Coating on Central Strength Member: Flame Retardant PVC
- Nominal OD: 10.6 mm +/- 0.4mm
- Core Size: 50um
- Wavelength: (850/1300)nm
- Max. Attenuation: (3.0/1.0) dB/km
- Bandwidth (EMB) (High Performance): 2000 MHz @ 850nm
- Link Length (10GB/s): 300 Meters
Additional Information
Additional Information
Multi-Mode cable commonly has a diameter in the 50-to-100 micron range (typical multimode fiber core diameters are 50 or 62.5 micrometers). Multimode fiber gives you high bandwidth at high speeds (10 to 100MBS - Gigabit to 275m to 2km) over medium distances. Light waves are dispersed into numerous paths, or modes, as they travel through the cable's core typically 850 or 1300nm. However, in long cable runs (greater than 3000 feet [914.4 meters), multiple paths of light can cause signal distortion at the receiving end, resulting in an unclear and incomplete data transmission so designers now call for single mode fiber in new applications using Gigabit and beyond.