Wall Mounted Fiber optic patch panel

24 Fibers Wall Mounted Fiber optic patch panel

Key Features

Capacity: 1-48 fibers, if it is LC duplex adapter, the capacity can be double.
With changeable adapter plate and can be with SC, LC, ST and FC adapter.
The box will be with accessory such as fiber tray, fiber winding wheel, fiber protection sleeve, cable tie and so on.
Widen working space and easy for splicing, slack storage and distribution
With lock on the door
Individual adapter plate and easy for installation and backout
Steel plates and aluminum alloy
Suitable for both loose tube and ribbon cable management
The customer is able to order completed set with fiber adapter and pigtail.

24 port Terminal box Fiber optic patch panel

Product Description

Fiber optic patch panel terminal box 24 port - 270*137*45

Application
The product can be used on the terminal of the optical cables, different typed and structures, the diameter of which are within 18mm () tray.

Structural features
All property indexes are in accordance with National YD/T814-1996 Standard.
The body makes use of cold rolling steel, and the surface use the technique of dim blowing plastic. Strong adhesive force, artistic and durable
With pigtail output:  design of 1-2 cable entrance and fiber exit of 1-24 cores assures flexibility
With adaptor output: design of 1-2 cable entrance and 8 core SC adaptor or 12 core FC/ST adaptor
Cable entrance and fiber exit are sealed with oil resistance NBR to increase the flexibility. Users can choose to prick the entrance and exit.
Overlapping fiber-melting tray and separate insulation earth unit make the disposition of the cores, expanding the capacity and cable-earthen flexible, convenient and safe.

Main technical specification
Weight: 1Kg
Optical fiber winding radius: >=40mm
Extra loss of fiber tray: none
Fiber length left in tray: >=1.6m
Fiber capacity: 24 cores
Working temperature: -40oC ~ +80oC
Lateral pressure-resistance: 500N
Shock-resistance: 750N

Operations
Peel the cable, take off the outer and inner housing, as well as loose contract tube, and wash off the filling grease, leaving 1.1~1.6m fiber and 20~40mm steel core.
Fix the cable-pressing card and the cable, as well as the cable reinforce steel core.
Lead the fiber into the melting and connecting tray, fix heat contract tube and melted
tube to one of the connecting fiber. After melting and connecting the fiber, move heatcontract tube and melted tube and fix the stainless (of quartz) reinforce core stick. Makesure the connecting point is the middle of the housing pipe. Heat the pipe to make thetwo into one. Put the protected joint into the fiber-laying tray. (One tray can lay 12 cores).
Lay the left fiber in the melting and connecting tray evenly, and fix the winding fiber with nylon ties. Use the trays from the bottom up. After all the fiber has been connected, cover the top layer and fix it.
Position it and use the earth wire in accordance with the project plan.
Close the cover. It can be installed on the wall or in horizontal line.

24 port Terminal box Fiber optic patch panel

2U Optical Distribution Frame

2U 36 cores 19" Optical Distribution Frame

Features
Widen working space
Individual distribution panel for efficient work
Steel Plates and Aluminum Alloy
Suitable for inserting installation of SC FC ST and LC adaptor
Front and rear Covers can be opened, It is conveniences for Fiber connecting, supervising and maintaining
All kinds of types and specifications are available.
12-core Fusion splicing and Distributing Module

Features:
Adaptor installation and Fusion splicing points fixed in the module
Available for ribbon and common cables.
Fusion splicing and distributing can be operated in the same working panel.
Install Adaptor respectively.

More fiber optic distribution frame from http://www.jfiberoptic.com

Wall Mounted Fiber optic patch panel

12 Fibers Wall Mounted Fiber optic patch panel

Key Fearture:
Workability
Widen working space
Splicing, slack storge and distribution
Adopts the imported lock
Individual distribution panel for efficient work
Steel palates and aluminum alloy
Bother loose tube and ribbon cable managerment possible
suitable for inserting installation of SC FC ST and LC adapter
Integrated fiber, pigtail and cable management
Apply to extensive

Appliaction:
In fiber access, it is designatedfor fiber termination, protection and distribution

More Optical fiber patch panels from http://www.jfiberoptic.com

JFOC-BM1 62.5/125 bare fiber optic cable

JFOC-BM1 62.5/125 bare fiber optic cable Descriptio:

JFOC-BM1 Multimode Fiber complies with or exceeds ISO/EEC 11801 OM2 specification, IEC 60793-2-10 type Ala.l Optical Fiber Specification, and TIA/EIA-492AAAB-A detail specification.
JFOC-BM1 62.5/125 bare fiber optic cable specification

Features:

• Produced by the PCVD process
• Extremely refined refractive index profile
• Low attenuation
• High bandwidth at both 850nm and 1300nm wavelengths
• Coated with proprietary dual layer UV curable acrylate.

Application:

• Superior geometry, uniformity and purity of glass
• Local area networks (LAN)
• Video, voice and data services
• Gigabit Ethernet (IEEE 802.3z) using laser or light emitting diode (LED) sources
• Optimized performance in tight-buffer cable applications
• High resistance to microbending
• Stable performance over a wide range of environmental conditions

Geometry Characteristics
Core Diameter(µm)	62.5±2.5
Cladding Diameter(µm)	125.0±1.0
Cladding Non-Circularity (%)	≤1.0
Coating Diameter(µm)	245±7
Coating/Cladding Concentricity Error(µm)	≤12.0
Coating Non-Circularity (%)	≤6.0
Core/Cladding Concentricity Error (µm)	≤1.5
Delivery Length (km/reel)	Up to 17.6
Optical Characteristics
Attenuation (dB/km)	850nm 1300nm	≤2.7 ≤0.6
Minimum Modal Bandwidth (MHz.km)	850nm 1300nm	≥200 ≥600
Numerical Aperture	0.200±0.015
Group Refractive Index	850nm 1300nm	1.496 1.491
Zero Dispersion Wavelength (nm)	1320-1365
Zero Dispersion Slope (ps/(nm2.km))	≤0.097
Macrobending induced loss	850nm	≤0.50
100 turns @ 60 mm diameter	1300nm	≤0.50
Backscatter Characteristics(1300nm)
Step (Mean of bidirectional measurement) (dB)	≤0.10
Irregularities over fiber length and point discontinuity (dB)	≤0.10
Attenuation uniformity (dB/km)	≤0.10

Source: fiber optic cable supplier

PDB Terminal Box JFOPP-PDBO216-2

PDB Terminal Box JFOPP-PDBO216-2
PDB Terminal Box JFOPP-PDBO216-2 specification
Features:

• Industry Standard User Interface, be made of high impact plastic.
• Can accommodate 1x8 and 1×16 PLC splitter.
• Anti-UV, Ultra violet resistant and rainfall resistant.
• Outdoor use, wall and pole mountable.
• 2 inlet ports, up to 16 outlet ports.
• Size：306mm×240mm×106mm
• Weight：1.8KG

Application:

• Widely used in FTTH access network.
• Telecommunication Networks
• CATV Networks
• Data communications Networks
• Local Area Networks

Operating environment:

• Operating temperature：-40℃—60℃.
• Environment humidity：95% in 40℃.
• Air Pressure：62kPa—105kPa

Accessories for your option:

• Key for the terminal box one piece
• Hanging installation accessories one set
• Clamp for the pole one pair

Source: fiber optic cable manfuacturer

Fiber optic cables connectors Manufacturer

After the Second World War, in 1946, despite the participation of many British scientists in the Manhattan Project, and formal agreement of a joint technology-exchange program, the United States government passed legislation that closed its nuclear weapons program to all other countries. The British government, not wanting to be left behind as a world power in an emerging arms race, then embarked on a programme to build its own atomic bomb as quickly as possible. The Windscale Piles The reactors were built in a short time near the tiny village of Seascale, Cumberland, and were known as Windscale Pile 1 and Windscale Pile 2, housed in large, concrete buildings a few hundred feet from one another. The reactors were graphite-moderated and air-cooled. Because nuclear fission produces large amounts of heat, it was necessary to cool the reactor cores by blowing cold air through channels in the graphite. Hot air was then exhausted out of the back of the core and up the chimney. Filters were added late into construction at the insistence of Sir John Cockcroft and these were housed in galleries at the very top of the discharge stacks. They were deemed unnecessary, a waste of money and time and presented something of an engineering headache, being added very late in construction in large concrete houses at the top of the 400-ft chimneys.

We are high quality fiber optic connectors suppliers, our products such as fiber optic cables connectors Manufacturer , fiber optic fc connector for oversee buyer. To know more, please visits mtrj fiber optic connector.

Source: fiber optic cable manufacturer

About fiber optic attenuator technique

Fiber optic attenuator technique data
UPC type return loss 50dB or greater
APC type return loss 60dB or greater
Working wavelength 1310nm or 1550nm

About fiber Optic Attenuator
Sometimes in the fiber optic network, people need to reduce the fiber optic light power level when it is transmitted from one equipment to another; fiber optic attenuator is a device for this function. The unit “dB”, usually from 1dB fiber optic attenuator to 20dB fiber optic attenuators, measures fiber optic attenuation level. This is called a fixed value fiber optic attenuator, each piece of the fiber attenuator the attenuation rate is fixed. There are female to female and female to male type attenuators, the latter is also called a plug type attenuator.

Adustable fiber Optic Attenuator
There are also variable fiber optic attenuator , usually is inline type, with an adjustable unit on the attenuator to change its attenuation level to a certain amount according to its capacity.

Fiber optic splitter introduction and features

Fiber Optic Splitter Features

Single Mode, multimode, and PM fiber types
Multiple port configurations
Various splitting ratios, 50:50 to 1:99
Tube type or Box type
PC, UPC, and APC fiber optic connectors
Available with FC, SC, ST, LC, and MU terminations

Fiber Optic Splitters Introduction

fiber optic splitter is a device that split the fiber optic light into several parts by a certain ratio. For example, when a beam of fiber optic light transmitted from a 1X4 equal ratio splitter, it will be divided into 4-fiber optic light by equal ratio that is each beam is 25% of the original one. fiber optic splitter is different from WDM. WDM can divide the different wavelength fiber optic light into different channels. fiber optic splitter divide the light power and send it to different channels.

Single window Fiber Optic Splitter and dual window Fiber Optic Splitters

Here the window refers to the working wavelength. Single window fiber optic splitter is with one working wavelength, dual window fiber optic splitter is with two working wavelength. For multimode fiber, the term means that the fiber is optimized for 850 nm and 1310 nm operation. For single-mode fibers, the term means that the fiber is optimized for 1310 nm and 1550 nm operation. For single window fiber optic splitter, its working wavelength usually is one of the above said wavelength.

PLC Fiber Optic Splitter

We supply Planar Lightwave Circuits which are key components used in FTTx networks. We supply the PLC splitters including 1XN to 64 and 2XN to 32 types, they are with a wide range of working wavelength from 1260nm to 1620nm.

Fused Fiber Optic Splitter

We supply single mode fused fiber optic splitters, fiber optic cables, they are available in optional stainless tube package or standard box package. These fiber splitters are single window and dual window types, with optional various kinds of fiber connectors.

Fiber optic pigtail Specifications and Features

Fiber optic pigtail Specifications
Types: single mode, multimode
Terminations: FC, SC, ST, MU, LC, D4, DIN, E2000, MT-RJ, MPO, SMA, E2000, FDDI, and ESCON
Insertion Loss (dB): less than 0.2 (PC and UPC)
Exchangeability: less than 0.2 dB
Tensile Strength: less than 0.2 dB (0 to15 kgf)
Temp. Range: (- 40 to +80 degree centigrade)


Fiber optic pigtails description
If you cut a piece of fiber optic patch cable into two parts, it becomes two pieces of fiber optic pigtails. fiber optic pigtails is a piece of fiber optic cable with fiber connectors on one side of the cable, the other side is used usually for melting with other fiber optical cables. Usually fiber optic pigtails are 0.9mm cable diameter, because it is smaller size and fit for being put inside the fiber optic patch panel boxes or fiber optic splicing enclosures.

Waterproof fiber optic pigtail
Besides the commonly type fiber optic pigtails, we can also make it fan out structure with fiber optic fan out kit, and there is another waterproof fiber optic pigtails, this type fiber pigtails is with big diameter outdoor cable, with waterproof fiber optic connectors installed on it, usually used in harsh environment. They are made according to IEC standards, the products feature low insertion loss, high return loss, good interchangeability and repeat push-pull performance.

A New Kind Of Microphone Fiber Optic Cable

Fiber optic cables are everywhere, installed along roads and train lines, in buildings and under streets. And U.K. scientists have found a way to turn any length of fiber optic cable into a kind of microphone or remote sensor. They have decided to call it the worlds nervous system.

 OptaSense, a part of Qinetiq, has decided to call this new technology Distributed Acoustic Snesing, or DAS. This DAS enables companies to keep a watch on extremely long stretches of cable like railways, pipelines, and roads, in one area watching over a pipe almost 700 km long. With DAS, you can place a microphone every 30 feet.

 Thieves are often stealing cables or oil and now companies are using DAS as a detection system. Usually, thieves will dig out pipelines and then try to break open the pipeline, leaving gushing oil for them to drain from. The DAS system found evidence of an upcoming theft three weeks before it took place.

 By combining something known as Rayleigh scattering with sonar technology that Qinetiq developed for submarines, OptaSense was able to create what is basically land based sonar with DAS. Magnus McEwen-King, the Managing Director of OptaSense, discusses a trip to Monaco for testing the product in a real-world environment. After connecting the technology, he states that we were able to hear everything driving around Monaco: cars, even helicopters. Mr. McEwen-King states that the DAS monitors everything near the cable and is specific enough to detect tunneling below it, or a low flying airplane above it.

 The DAS is great for reporting heavy vibrations, but just how precise is it? Can it pick up voices and essentially be used as a bug? Mr. McEwen King says that is depends on how long the network cable is on a shorter cable, it is possible, with a longer cable, no. He added that dirt and soil tend to attenuate all frequencies higher than 500 hertz anyway.

 This technology can be used in an astounding number of ways; to track vehicle flow on the freeway, to keep an eye on tracking, to less expensive alternatives to ground radar for tracking taxiing airplanes at airports. DAS was installed at Qinetiqs headquarters to demonstrate its uses. Mr. McEwen-King tracked a car driving along the road. When it began to go faster, the tracking indicator changed color from green to orange, signaling that the car is getting very close to the speed limit. If the car went over the limit, the indicator will change to red. Combine this technology with CCTV and you will know exactly who was speeding. Watch out world, now not only is everyone always watching, now they can always be listening as well.

Armored fiber patch cable VS common fiber patch cable

Armoured fiber optic patch cables are with same types of fiber optic connectors as the commonly used types, the different is the cable itself. These armoured fiber optic cables are typically used for indoor applications, with outer diameter of 2mm or 3mm, just like the common types fiber patch cables .

The difference is armoured fiber optic cables are with stainless steel tape just inside the cable jacket and outside the Kevlar, This stainless steel unit provide extra feature as well as retain all the function that a common type fiber optic patch cable can give. Amored fiber optic cords are anti-rodent, and it can be handled as electric cables, it is not easy to get damaged or cut, and it can resist an adult step on it.