12 Core Optical Fiber Pgitail mm Om2 LC/Upc Jumper Connectors Patch Lead

12 Core Optical Fiber Pgitail mm Om2 LC/Upc Jumper Connectors Patch Lead

Optical fiber connector (also known as jumper) refers to the light at both ends of the connector plug, used to achieve optical road mobile connection
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Product Details

We can state with absolute certainty that for such high-quality at such rates we have been the lowest around for 10/100M WDM Fiber Media Converter, Micro 1X4 PLC Splitter, ST Optical Fiber Patch Cord. Dependable high-quality and fantastic credit standing are our principles, which will help us at a top-ranking position. The company attaches great importance to human resource strategy. We've got set up a wide sales network across the world. 'Making high quality products' is our unremitting pursuit.

FC to SC Fiber Optic Patch Cord

Optical fiber connector (also known as jumper) refers to the light at both ends of the connector plug, used to achieve optical road mobile connection; A plug at one end is called a tail fiber. Fiber optic connector connector types include FC, SC, ST, LC, MTRJ, MU, E2000, etc., and terminal contact modes include PC, UPC, APC. The jumpers with different connector types or contact surfaces at both ends are called fiber optic switching jumpers. NCC fiber optic jumper adopts advanced technology and equipment for large-scale production, with excellent product performance and stable and reliable quality.

Standards Compliance

Telcordia (formerly Bellcore) GR-326-CORE Generic requirements for

Single mode optical connectors and Jumper assemblies.

IEC 874-1 Generic specification for fiber optic connectors and cables

ANSI/TIA-568-C.3, ISO/IEC 11801 2nd Ed., CENELEC EN 50173, UL94V-0

Cable flame resistant rate: OFNR or IEC60332-3 standard

Features

1. 100% tested on optical performance . (Insertion Loss Customer specified length & Return Loss)

2. Standard colour is Yellow, Orange, Aqua or Purple, other colours available upon request

3. Cable outer jacket available in PVC, Low Smoke Zero Halogen (LSZH) PC, UPC, APC connectors type available

4. High concentricity 2.5mm ceramic ferrule for FC, ST, SC and 1.25mm ceramic ferrule for LC and MU

5. Available in G652D, G657A, OM1, OM2, OM3 and OM4

6. Position A/Position B markings

7. Available in 0.9mm, 1.6mm, 1.8mm, 2.0mm, 3.0mm sizes

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Optical Characteristics

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

-

-

-

-

-

Optical Performance Data

Item

Single mode

Multimode

PC

UPC

APC

62.5/125

50/125

50/125 10G

Insert Loss/connector (single Fiber)

0.2dB Max. (0.15dB typ.)

0.3dB Max. (0.25dB typ.)

Return Loss

≥45 dB

≥50 dB

≥60 dB

N.A

Insert Loss/MTRJ Connector

0.5dB Max. (0.45dB typ.)

0.5dB Max. (0.45dB typ.)

Pull Strength

≥98N

≥98N

Multimode fiber optic jumpers are used for jumpers from equipment to fiber optic wiring links. It has a thick protective layer and is generally used for the connection between the optical end machine and the terminal box.

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1. Low insertion loss

2. Good repeatability

3. High return loss

4. Good interplug performance

5. Good temperature stability

Application of editing

1. Optical fiber communication system

2. Optical fiber access network and fiber optic data transmission

3. Optical fiber catv .

4. Local area network (LAN)

5. The device under test

6. Optical fiber sensor use note: fiber optic jumper at the ends of the module to send and receive the wavelength of the light must agree, that is to say the ends of the optical fiber must be the same wavelengths of light module, a simple way to distinguish is the color of light module. In general, the short wave light module USES multi-mode fiber (orange) and the long wave light module USES single-mode fiber (yellow) to ensure the accuracy of data transmission. Do not over bend or wrap the fiber in use, which will increase the attenuation of light in the transmission process.

The difference between multi-mode fiber and single-mode fiber

Multimode fiber: the core is relatively thick (50 or 62.5 m), can transmit a variety of modes of light. However, the inter-mode dispersion is large, which limits the frequency of digital signal transmission and becomes more serious as the distance increases. Therefore, the transmission distance of multimode optical fiber is relatively short, generally only a few kilometers. Single-mode fiber: the center core is very thin (core diameter is generally 9 or 10 m), only one mode of light transmission. Therefore, the inter-mode dispersion is very small, which is suitable for remote communication, but there are also material dispersion and waveguide dispersion, so the single-mode fiber has higher requirements for the spectral width and stability of the light source, that is, the spectral width should be narrow and the stability should be better.

At the same time, we do the job actively to do research and improvement for 12 Core Optical Fiber Pgitail mm Om2 LC/Upc Jumper Connectors Patch Lead. We continue to provide customers with core technology solutions and professional operation services. After years of accumulation, we have the strength to independently research and develop products with a group of professional technical talents.

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