100Gbps 24 Cores MPO Mating Fiber Parallel Optics Multimode OM3 Trunk Polarity B Cable

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Product
100Gbps 24 Cores MPO Mating Fiber Parallel Optics Multimode OM3 Trunk ...
Posting date : Aug 24, 2017
Membership
Free Member Scince Aug 11, 2017
Port
China
Payment Terms
L/C, D/A, D
Package
1 ea for individual static-free bag
Keyword :
Category
Contact
Stanley Lee
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Product Detail
Company Info
 
Quick Detail
Place of Origin
China [CN]
Brand Name
SINO
Model Number
SN-004
HS-CODE
85-
Package & Delivery Lead Time
Package
1 ea for individual static-free bag
Delivery Lead Time
Delivery In 7 - 15 Business Days
Detailed Description
100Gbps 24 Cores MPO Mating Fiber Parallel Optics Multimode OM3 Trunk Polarity B Cable This kind ofMPO / MTP multi-fiber jumpers deliver the performance and reliability needed in todays demanding high-speed broadband and data networks. SINOs MPO / MTP jumpers utilizes precision ferrules, precise housing dimension and metal guide pins to ensure fiber positioning when mating and give excellent performance. SINOmanufacturers a wide variety of single-mode and multimode optical fiber jumpers for telecom and data center applications. Our state of the art manufacturing process is recognized by leading global service providers as one of the best in the industry. We attribute our success to the highly dedicated and skilled production team which starts by selecting only the highest quality fiber and connector components. Each of our valued technicians is expertly trained in assembling and polishing connectors to near perfection. With a relentless commitment to quality, we offer only products meeting and exceeding unsurpassed optical performance. Remarkably, we do this while maintaining a highly efficient production operation which ensures you get these highest quality jumpers in a timely fashion at highly competitive, market prices. Application: 1. The data centra application with high dense degree environment; 2. The optical fiber to the building; 3. The internal connector application in fiber equipment such as Splitter, 40G/100G SFP and SFP. Specification: - - - - Parameters | | Min | Typical | Max | Unit | Operating Wavelength | Single Mode | 1310 / 1550 | nm | Multimode | 850 | Insertion Loss | Single Mode Low Loss | | | 0.30 | dB | Multimode Premium | | | 0.35 | Return Loss | Single Mode | 65 | | | Multi-mode | 20 | | | Fiber Type | Follow PN Description | Connector Type | Follow PN Description | Length | Follow PN Description | m | Jacket Color | Yellow | SMF G652 and G657 Fiber | Orange | OM1 62.5/125um, OM2 50/125um | Aqua | OM3 50/125um, OM4 50/125um | - - - - - - - - Parameters | Unit | Specification | Min | Max | Uncontrolled Environment | | -40 | 75 | | -10 | 60 | - - - - - - - - Item | Unit | Requirement | | Fiber type | | A1a.2(OM3) | Core diameter | Nominal value | m | 50 | Tolerance | m | 2.5 | Cladding diameter | Nominal value | m | 125.0 | Tolerance | m | 2 | Core concentricity error | m | 3 | Cladding non-circularity | | 2% | Core non-circularity | | 6% | Coating diameter | Nominal value | m | 245 | Tolerance | m | 10 | Coating-cladding concentricity error | m | 12.5 | Uncabled fiber macrobending loss | Radius(mm) | mm | 15 | 7.5 | Number of turns | / | 2 | 2 | Max. at 850 nm | dB | 0.1 | 0.2 | Max. at 1300 nm | dB | 0.3 | 0.5 | Min. mode bandwidth | Overfilled launch bandwidth at 850nm | | 1500 MHz.km | Overfilled launch bandwidth at 1300nm | | 500 MHz.km | Effective laser launch bandwidth at 850nm | | 2000 MHz.km | Min. proof stress | GPa | 0.69 | Dynamic fatigue parameter | | 20 | Chromatic dispersion coefficient | 0min | | 1295 nm | 0max | | 1340 nm | S0max(from1295nm01310nm) | | 0.105ps/nm2km | S0max(from1310nm01340nm) | | 0.000375(1590-0) ps/nm2km | Other parameter meet standard | | IEC60793-2-10 | - - - - Fiber: - - - - Item | Unit | Requirement | | Fiber type | | A1a.2(OM3) | Core diameter | Nominal value | m | 50 | Tolerance | m | 2.5 | Cladding diameter | Nominal value | m | 125.0 | Tolerance | m | 2 | Core concentricity error | m | 3 | Cladding non-circularity | | 2% | Core non-circularity | | 6% | Coating diameter | Nominal value | m | 245 | Tolerance | m | 10 | Coating-cladding concentricity error | m | 12.5 | Uncabled fiber macrobending loss | Radius(mm) | mm | 15 | 7.5 | Number of turns | / | 2 | 2 | Max. at 850 nm | dB | 0.1 | 0.2 | Max. at 1300 nm | dB | 0.3 | 0.5 | Min. mode bandwidth | Overfilled launch bandwidth at 850nm | | 1500 MHz.km | Overfilled launch bandwidth at 1300nm | | 500 MHz.km | Effective laser launch bandwidth at 850nm | | 2000 MHz.km | Min. proof stress | GPa | 0.69 | Dynamic fatigue parameter | | 20 | Chromatic dispersion coefficient | 0min | | 1295 nm | 0max | | 1340 nm | S0max(from1295nm01310nm) | | 0.105ps/nm2km | S0max(from1310nm01340nm) | | 0.000375(1590-0) ps/nm2km | Other parameter meet standard | | IEC60793-2-10 | - - - - Quality Control: All connectors are not created equal. How do you know if your jumpers will go the distance? Our quality components and quality process is backed by a team of experts who know how fundamental jumper cables are to maintaining reliable network operations. We back up all of our claims with product performance testing and auditing of our manufacturing facility by Telcordia Technologies.Without fail, our jumper cables are fully compliant with Telcordia GR-1435-CORE, Issue 2 which requires performance characterization and testing at 1310nm, 1490nm, 1550nm, and 1625nm. Four wavelength testing ensures that your jumpers will support the demanding requirements for 10G/40G/100G transmission and next generation PON deployment. PUNO jumpers will give you the peace of mind that the foundation on which you build your network is capable of exceeding the ever demanding expectations of your customers. Dont settle for a second best! Features: 1. Available in OS1/2, OM2, OM3 and OM4; 2. Available in FC,LC, SC, ST, MU, and MTP; 3. Interface polished type has PC, UPC and APC; 4. Available in 12/24/36/48/72/96/144-fibers; 5. 100% factory tested; 6. Discrete connectors are heat-cured and use ceramic ferrules and sleeves; 7. Fan-out fibers from MPO/MTP connectors into individual simplex or duplex; 8. Customized for length, staggering, connector type, breakout style, fiber count, and labeling fiber. Cable Structure: Related Products:

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