Cidong Industrial park.Ningbo
China
Tel: +86-574-87127682
Fax: +86-574-56125238
E-mail: kenven1982@gmail.com
kenven@wisdombest.com
Detailed Product Description
LC optic patch cord
A patch cord can be split into three key components;
the connector
the cable
the manufacturing process
Optic Fiber Patch Cord
Description
Fiber Optic Patch cords are ultra reliable components featuring low insertion loss and return loss. They come with your choice of simplex or duplex cable configuration and are made to conform to IEC,Telcordia GR-326-CORE Standard.
Environmental Reliability Test
The performance of the patchcords has been carefully designed to meet the IEC standards, GR-326-CORE, in the test of optical characteristics, vibration test, thermal cycling, impact resistance, salt spray erosion, thermal aging, humidity resistance and others
Key Features
Low insertion loss
Low return loss
Various connector types available
Easy instalation
Environmentally stable
Applications
Fiber Optic Telecommunications
LAN (Local Area Network
FTTH (Fiber To The Home)
CATV&CCTV
High speed transmission systems
Fiber optic sensing
Specifications
Type | Standard,Master |
Style | LC,SC,ST,FC.MU,DIN,D4,MPO, SC/APC,FC/APC,LC/APC.MU/APC Duplex MTRJ/Female, MTRJ/Male |
Fiber Type | 9/125 SMF-28 or equivalent (Singlemade) OS1 50/125, 62.5/125 (Multimode) OM2&OM1 50/125, 10G (Multimode) OM3 |
Cable Type | Simplex, Duplex (Zipcord) Φ3.0mm, Φ2.0mm, Φ1.8mm Φ1.6mm PVC or LSZH Φ0.9mm, Φ0.6mm buffered fiber PVC or LSZH |
Polishing Manner | UPC,SPC,APC (8°& 6°) |
Insertion Loss | ≤ 0.1dB (For Singlemode Master) ≤ 0.25dB (For Singlemode Standard) ≤ 0.25dB (For Multimode) Tested by JDS RM 3750 |
Return Loss (For Singlemode) | UPC ≥ 50dB SPC ≥ 55dB APC ≥ 60dB (typ.65dB) Tested by JDS RM3750 |
Repeatability | ±0.1dB |
Operating temperature | -400C to 850C |
Geometry Requirement (For Singlemode) | Ferrule Endface Radius 7mm ≤ R ≤ 12mm (For APC) 10mm ≤ R ≤ 25mm (For Standard) Apex Offset ≤ 30 μm (For Master) Apex Offset ≤ 50 μm (For Standard) Undercut -50nm ≤ U ≤ 50nm Tested by DORC ZX-1 |