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fiber (17)

Steel Sleeper

Steel sleeper can provide lower installation and maintenance costs and more efficient logistics that are designed to cater for all types of application, from meter gauge railways to mainline passenger and heavy haul freight routes.

 

Moreover, stainless steel sleepers require less ballast than traditional concrete sleepers, contributing to lower track construction and renewal costs.

 

Advantage of Steel Sleeper

Reduced logistics costs and improved handling due to lightweight

Time and cost savings at installation due to reduced ballast requirements

Reduced maintenance through improved track stability

We have steel railway sleepers for sale! We offer a wide range of steel sleeper designs for different applications, including for heavier axle loads and higher speeds.

 

Weihai Ruihe Railway Sleepers Co.,Ltd, as the well-known manufacturer for quality railway sleepers, has intensively collaborated on the railroad market at home and abroad. We sincerely invite and welcome people from all around the world to invest and create more values together.8466657466?profile=original

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Wall Mounted Fiber Optical Terminal Box

 

Wall mounted fiber optical cable terminal box is a kind of fiber cable management products used to distribute and protect fiber optical connections in fiber optical application. It is available for the distribution and terminal connection of various optical fiber system.These units are available in sizes to fit the most common distribution requirements.

 

As one of the most professional fiber optical terminal box suppliers, UnitekFiber manufactures a series of wall mount and rack mount fiber optical terminal box and splice enclosures. All our fiber optical data cabinets are available pre-loaded with any connector interface required(ie SC,LC, FC and ST etc.). The wall mount terminal box is so economic and convenient for fiber optic solutions. It is easy to install and maintain.

 

The classification of the wall mounted fiber optical terminal box

Classified by shell material, it can be divided into ABS plastic shell and metal shell.

According to the fiber optic cable connection, it can be divided into straight-through type and branch type.

 

According to the assembled method, it can be divided into an adaptable adapter type and a PLC splitter type.

 

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Description:

UnitekFiber supply flat drop fiber cable, this cable also can be called as a small span of ADSS fiber cable to apply in a small span of ADSS installation system. The structure of FTTH flat drop cable is central loose tube, Kevlar and glass yarn is usually used as reinforcement in the tube.

 

The cable filling is to prevent water and moisture. And the ripcord is for peeling sheath easily. There are FRP strength members between the central tube for self-supporting system. The outer sheath is LSZH or MDPE material.

 

Features:

Good mechanical and temperature resistant performance.

Uni-tube gel-filled construction for superior fiber protection.

Two parallel steel wires ensure tensile strength.

PE sheath protects cable from ultraviolet radiation.

Light weight and small diameter, easy to installation and operation.

 

Applications:

Adopted to Outdoor Aerial, Duct installation

Adopted to trunk power transmission system.

Access network and local network

 

Product Parameter

No. of cable

1

Fiber Model  

G.652D

subelement

Tight line

Material

PVC

Thickness

0.32(±0.05)mm

Diameter

0.9(±0.1)mm

Strength Member

Material

Aramid Yarn

Inner Sheath

Material

LSZH

Thickness

0.45(±0.05)mm

Diameter

2.9(±0.1)mm

Color

White

Strength Member

Material

FRP

Diameter

1.5(±0.05)mm

No.

2

Water Blocking Layer(Material)

Special Water Blocking material used for

Effecive water blocking and ease of installation

Ripcord(Material)

Nylon

Outer Sheath

Material

MDPE

Color

Black

Cable Diameter

(4.5±0.2)×(8.1±0.2)mm

Cable Wetght

31 (± 2) kg / km

Max. allowable tension

(Short-term)

1350N

Max. allowable tension

(Long-term)

300N

Crush resistance test

2000N/10cm

Min. bending radius

Static

100mm

dynamic

150mm

Temperature range

(°C)

Installation

-30~+60

Transport&Storage

-40~+75

Operation

-40~+70

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Rack Mounted Optical Cable Terminal Box

What is a fiber optic terminal box?

Fiber optical terminal boxes is boxes to manage fiber optics cable and pigtails and to protect and distribute fiber optic links in fiber-to-the-home (FTTH) networks. One end is a fiber optic cable and the other end is a pigtail.

 

It means that a device that splits a fiber optic cable into a single fiber. Fiber optic terminal boxes are compact fiber optic cable management products used in FTTx (including FTTH, FTTB, etc.) cabling system. In some cases, fiber optic terminal boxes can be considered as small fiber optic adapter panels and Optical Cable Terminal Box.

 

What is Rack Mounted Optical Cable Terminal Box

Rack Mounted Optical Cable Terminal Box is standard 19” box installed in a cabinet for fiber optic rackmount cable management panel. A typical fiber optic terminal box has 12 or 24 ports,36-port, 48-port, and 96-port fiber optic terminal boxes. The fiber optic terminal box is made of cold-rolled steel and the case is electrostatically sprayed. It usually terminated with SC, LC FC or ST adapter.

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Description:

UnitekFiber produces Outdoor Armored PDLC Waterproof Assemblies. The PDLC fiber optical cable is used for outdoor RRU transmitting optical signal and remote fiber feeder etc. Single mode and multi mode is available for chosen. Our PDLC cables are with standard duplex LC connectors. All our cables meet the standards of IEC61754-20 and RoHS and REACH materials compliant.

 

Application:

Multi-purpose Outdoor

For connection between distribution box and RRH

Deployment in Remote Radio Head cell tower applications

Used for 3G 4G Base station

 

Features:

Standard Duplex LC connector, well connected with standard LC adapter

Available Single mode and Multi-mode

IP67 protection, salt-mist proof, humidity proof, dust proof

Low insertion/return loss, steady optical transmitting.

Light weight, waterproof, dust-proof, moisture proof, Metal hard housing.

The material in the jumpel cable are all-weather and UV-resistant.

Mechanical performance: IEC 61754-20 standard.

RoHS and REACH materials compliant.

 

Specification

 

Type

SM-UPC

SM-APC

MM-UPC

Typical

Max

Typical

Max

Typical

Max

Insertion Loss

≤0.1dB

≤0.3dB

≤0.15dB

≤0.3dB

≤0.05dB

≤0.3dB

Return Loss

≥50dB

≥60dB

≥30dB

Durability

500 mating cycles

Working temperature

 

-40 - 85°C

 

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Outdoor FTTH Drop Fiber Cable (GJXFH)

Description:

FTTH outdoor drop cable(GJYXFCH/GJYXCH) is also called self-supporting butterfly drop optical cable with a indoor butterfly cable and an additional strength member 1-12 fiber cores.

 

It is for outdoor communication applications. LSZH sheath is extruded outside for application of fiber to the home.

 

Features:

 

Special low-bend-sensitivity fiber provides high bandwidth and excellent communication transmission property

Two parallel strength members ensure good performance of crush resistance to protect the fiber

Simple structure, light weight and high practicability

Novel flute design, easily strip and splice, simplify the installation and maintenance

Low smoke, zero halogen and flame retardant sheath

Simple structure, light weight and high practicability

 

Application:

Used in indoor cabling, especially used for FTTH

Used as access building cable

 

Product Parameter

No. of cable

2/4

Fiber Model  

G.657A1

Steel wire

Diameter(±0.03)mm

1.0

NO.

1

FRP

Diameter(±0.03)mm

0.5

NO.

2

Outer Sheath

Material

LSZH

Colour

Black

Cable Diameter(±0.2)mm

5.0×2.0

Cable Wetght(±2)kg/km

twenty one

Attenuation

1310nm

dB/km

0.4

1550nm

0.3

Allowable Tensile Strength

Short Term

N

600

Long Term

300

Allowable Crush Resistance

Short Term

N/100mm

2200

Long Term

1000

Min. bending radius

Without Tension

15.0 × Cable-φ

Under Maximum Tension

30.0 × Cable-φ

Temperature range

(°C)

Installation

-20~+60

Transport&Storage

-40~+70

Operation

-40~+70


Fiber Characteristic

Cable code

Fiber

Count

Cable  diameter

mm

Cable 

weight 

Kg / km

Tensilse 

Strength 

Long/Short term 

N

Crush 

Resistance 

Long/Short term

N

Bedning

Radius

Dynamic/Static

mm

GJXFH-1

1

(2.0±0.2)×(3.0±0.2)

8

30/60

300/1000

15/30

GJXFH-2

2

(2.0±0.2)×(3.0±0.2)

8.5

30/60

300/1000

15/30

GJXFH-4

4

(2.0±0.2)×(3.0±0.2)

10

30/60

300/1000

15/30

GJXH-1

1

(2.0±0.2)×(3.0±0.2)

9

30/60

300/1000

15/30

GJXH-2

2

(2.0±0.2)×(3.0±0.2)

9.5

30/60

300/1000

15/30

GJXH-4

4

(2.0±0.2)×(3.0±0.2)

10

30/60

300/1000

15/30

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OSP Fiber Cable(Outside Plant Fiber Cable)

OSP fiber optic cable is outside plant fiber cable, commonly used for outdoor applications. OPS fiber optical cables are divided into two types: central tube and layer stranded cable.

 

The structure of central tube fiber cable is a loose tube in the center, and the reinforcing member is located around the loose tube. For example, the common GYXTW type optical cable has a small number of fiber cores, usually less than 12 cores, now can be 24 cores.

 

Small center tube cable is used abroad a lot. The cable structure is that glass fiber yarn or aramid Kevlar yarn is added to the central PBT loose tube and then sheathed with LSZH or PE. The cable is relatively soft and has a certain pulling strength, which common apply for indoors and outdoors. Overhead and pipeline are relatively convenient.

 

Stranded fiber optic cable is designed with 5 or 6 of loose tubes stranded around strength member. There are many type of stranded fiber cables, such as GYTS, GYTA, GYFTY, GYTA53, and GYTY53, etc..By combining the loose tubes, the fi

ber cores of stranded fiber cable can be 24-144cores.

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FTTH Terminal Box

The FTTH terminal box is made of ABS material and is a box for protecting optical fiber cable and pigtail welding at the termination of the optical cable, and is mainly used for straight-through force connection, branch connection of the indoor optical cable and fixing of the cable terminal, and functions as a pigtail disk storage and protection joint.

 

FTTH termination box is used in the end termination of drop cables in residential buildings and villas, to fix and splice with pigtails. FTTH terminal box can be installed on the wall and can adapt variety of optical connection styles.

 

Internal structure configuration instructions

Fiber fixing clip: fix incoming fiber cables;

Splice tray: used for welding and branching of optical fibers; the cover can be flipped, the disc can be stacked, the capacity is expanded, and the installation is extremely convenient.

 

UnitekFiber supplies various type of FTTH Terminal box. Our terminal box is including 2 ports, 4 ports, 8 ports, 16 ports, 24 ports, 48 port etc. With different design.

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Description:

Field Installation Fiber Optic Fast Connector is designed for simply connection without fusion splicing machine. The fiber optical fast connector for ftth is quick assembly which only requires fiber installation tools of cable stripping tool and fiber cleaver.

 

Features:

Factory-installed fiber stub

No epoxy or polishing required                                

Quick and easy fiber termination in the field

Eliminates cable excess length and pigtail splicestorage                                           

Cost effective

Applicable to bow-type drop cable and 2.0/3.0 indoor cable ,telecom cable

 

Applications:

Used to open the FTTH fiber terminal end.

In the box, cabinet, such as wiring into the box.

Off the back of the accidents such as fiber, maintenance.

LAN, wan, data and video transmission.

The construction of the fiber end user access and maintenance.

Optical fiber access of mobile base station.

 

Technical specification

ITEM

Technical Parameters

Applicable for

Drop cable / Indoor cable

0.9mm Tight Buffer Fiber, 2.0mm, 3.0mm Drop Cable

Optical fiber diameter

SM(9/125), MM(50/125, 62.5/125)

125μm ( 657A & 657B )

Tight buffer diameter

250μm

Fiber mode

Single mode

Operation time

About 100s(no fiber cut)

Insert loss

≤ 0.3dB(1310nm & 1550nm)

Return loss

> 50db(PC), > 55db(UPC), > 65db(APC)

Fastening strength of naked fiber

>5 N

Fastening strength of naked fiber holder

>10 N

Tensile strength

>50 N

Using temperature

-40~+75°C

On-line tensile strength (20 N)

 IL ≤ 0.5dB RL ≤ 5dB

Mechanical durability (500 times)

 IL ≤ 0.5dB RL ≤ 5dB

Drop-off test (drop-off height 4m,once per direction, totally 3 times)

 IL ≤ 0.5dB RL ≤ 5dB

 

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Fiber Optic Splice Closure

Fiber Optical Splice Closure is also called Fiber Optical Splice box or fiber optic joint box. It is attributed to the mechanical pressure sealing joint system, and is a continuous protection device for supplying optical, sealing and mechanical strength continuity between adjacent optical cables. The optical cable Splice box is suitable for the straight-through and branch connection of the overhead, pipeline, direct burial and other laying methods of various layout optical cables.

 

There aren't many requirements for the fiber optic splice closure itself, but to make the fiber optic network run as efficiently as possible, choosing the right splice box for the network is a very important issue. The environment of the fiber cable laying from the front end to the hub or node box is very harsh and are relatively complex. It needs to be able to adjust the climate, fireproof, trenches or overhead cable laying will encounter sinister weather, branches, chemicals, car accidents, excavators, animal bites, bullets and other hazards.

 

The body of cable joint enclosure is made of imported reinforced plastic, which has high strength and corrosion resistance. The terminal splice box is suitable for the connection in the terminal room of the layout optical cable. The cable layout is sophisticated, the seal is firm and the construction is convenient. Fiber optical splice closure is widely used in communication, network systems, CATV cable TV, optical cable network systems, and so on. It is used for protective connection and fiber distribution between two or more optical cables.

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FIBER DISC

Vulcanized fiber discs (commonly known as fiber discs) are round grinding wheels with a backing made of vulcanized fiber that is coated on one side with resin and abrasive grain. Fiber discs are fitted to suitable backing pads and used on angle grinders, predominantly for machining metal.

 

The safety requirements applicable to fiber discs and their backing pads are laid down in the EN 13743 standard. The maximum surface speed (maximum operating speed) for fiber discs is 80 m/s.

 

As they can be combined with a wide range of grain types and backing pad versions, fiber discs have an extensive scope of applications ranging from rough machining to finish grinding of surfaces. The benefits fiber discs offer over abrasive mop discs and grinding discs are the elasticity of the backing, resulting in excellent adaptability, a fine and uniform scratch pattern (compared to grinding discs) and, first and foremost, their more affordable price.

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Their downsides in contrast with abrasive mop discs lie in their inferior service life and their relatively high sensitivity to moisture and temperature.

According to the abrasives grain, fiber disc sanding kit include Aluminum Oxide, Silicon Carbide,

Zirconia, Ceramic and so on.

The size of fiber disc include 4', 4.5', 5', 6', 7', 9' and so on.

The grit size of Fiber disc is P16-P320. The most popular grit is P36-P120.

The hole pattern of fiber disc include center round holes and center star shape hole.

The thickness of fiber disc include 0.6mm and 0.8mm.

The application of fiber disc usually include grinding wood, metal.

These general purpose fiber discs include models designed for use on wood, metal, casting, and stainless steel applications. Aluminum Oxide discs are designed for applications such as weld removal, grinding, blending, and polishing. Silicon Carbide discs are ideal for rough surfaces or nonferrous materials such as marble, china clay, fiberglass, enamel, porcelain, quartz, terrazzo, concrete, and epoxy.

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There are two protective requirements for optical fibers in formation of the fiber optic cables: one is less stress on optical fibers; the other is waterproof of optical fibers.

The outermost layer of the cable is a plastic sheath, and the inside is a metal sheath, and more inside is a water-blocking layer expanded by water. The core of the cable is pasted together with the optical fiber. Fiber optic has four waterproof gates, namely, plastic sheath, metal sheath, water-proof layer and ointment. Then the question arises. Why are optical fibers so afraid of water? Why aren't the aquarium glass and window glass at home afraid of water while they are waterproof? Why are they all glass so different?

It is generally believed that optical fibers are not afraid of water, because glass has excellent water absorption. It is generally believed that optical fibers are not afraid of water, because glass has excellent water absorption. But in fact, water is very harmful to cables. If water enters the fiber optic cable, it will damage the optical fiber if it freezes and expands in the cold water, so the cable needs to be filled with ointment to prevent moisture from entering.

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The reason why optical fibers are afraid of water is that optical fibers are made up of glass (Si04) tetrahedrons connected with each other. In a Si-O-Si network, oxygen atoms exist in the form of bridge oxygen. However, in the environment with water, after the glass surface adsorbs water and gas, the hydrolysis reaction slowly occurs, which leads to the breakage of the silicon-oxygen bond in the original network-Si-10-Si-1 and the transformation of bridge oxygen into non-bridge oxygen. As a result, the glass cracks are caused, which are growing continuously. 

Whether for fish tank glass, window glass or optical fiber glass, they are afraid of water. The difference is that fish tank glass, window glass are very thick, with the thickness of 3mm, 5mm, l0mm, even if there are 0.05mm cracks do not affect the strength of the glass, and naked eyes can not see changes. Fiber optic glass is different. The diameter of fiber optic glass is only 0.125 mm, which is as thin as hair. If there is an 0.05 mm crack, the diameter of fiber optic will remain 0.075 mm. Therefore, fiber optic is very easy to break. In addition, the appearance of OH root will increase the absorption loss of fiber to light. This is why aquarium glass and window glass are not afraid of water while optical fiber glass is afraid of water.

Even so, the cable is damaged, and the joint box is not sealed properly, and the exposure of bare fibers will lead to shorter service life and natural fiber breakage due to water.

Shenzhen Yutai Optoelectronic Communications Co., Ltd. provides high quality optical cables, which is the best choice for buying fiber optic cable.

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Today, Shenzhen Yutai Photoelectric Communications Co., Ltd. came to tell you three common laying methods of outdoor optical cables

1. Selection conditions of direct burial laying method.
The direct burial laying method is suitable for the areas where excavation is not frequent between buildings.

Direct burial laying can also be used in frequently renovated areas or road edges under sidewalks.

In areas with more underground pipeline networks, there may be places where molten metals and high-temperature liquids overflow, so direct burial is not suitable.

It is not suitable to use direct burial method in the soil corroded by chemical or stray current.

2. Direct burial laying must meet the following requirements in concrete construction.
Avoid areas with severe acid, alkali or chemical corrosion. If no protective measures are taken, avoid termite hazards, heat sources and areas vulnerable to external force damage.

Fiber optic cable should be laid in trenches, soft soil or sand layer with thickness not less than 100 mm along the upper, lower and adjacent sides of the full length of the cable.

Along the full length of the optical cable, the protective panels with a width not less than 50 mm on each side of the cable should be covered, and the protective panels should be made of concrete.

Located in urban roads and other places where excavation is frequent, and visible signs can be laid on the upper protective board.

Located in the suburbs or open areas, the lines along the cable path with a straight interval of about 100 meters, turning or joint parts, we should set up a clear azimuth sign and marking pile.

When directly buried in the non-frozen soil area, the foundation from the outer skin of optical cable to the underground structure shall not be less than 0.3m; the depth from the outer skin of optical cable to the ground shall not be less than 0.7m; when located in the roadway or under the cultivated land, it shall be deepened appropriately, which is not less than 1m.

When directly buried radiation is in the frozen soil area, it is better to bury it below the frozen soil layer; when it cannot be buried deeply, it can be buried in the dry frozen soil layer or backfill soil with good drainage property of soil, and other measures can be taken to prevent the damage of optical cable.

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When directly buried optical cables intersect railways, highways and streets, they should be put through protective pipes, and the protective scope is more than 0.5m on both sides of roadbed, street pavement and drainage ditch.

When directly buried optical cables are introduced into structures, protective pipes should be installed at the holes through the walls, and water-blocking and blockage should be implemented at the orifices of the pipes.

The net distance between direct buried fiber cables and adjacent optical cables shall not be less than 0.25m; the joint positions of parallel optical cables shall be staggered and not less than 0.5m net distance; the joint placement at the slope terrain shall be horizontal; for the cable joints of important circuits, it is advisable to lay them in the local section starting at about 1000mm on both sides by reserved dosage method. We can set up optical cable according to reserved dosage method.

The soil quality of the backfill should be non-corrosive to the outer sheath of the fiber optic cable when special soil replacement is adopted for the backfill of the direct buried fiber cables.

Direct buried fiber cables are strictly prohibited directly under or under underground pipelines.

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(1) Aerial fiber cable should adopt steel strand support type in preference. The structure is erected by suspension or bundling (winding) of poles and routes.

(2) Aerial fiber cable should have the corresponding mechanical properties, such as shock resistance, wind resistance, snow, low temperature and other meteorological loads generated tension, and have moisture-proof, waterproof performance. Generally, according to the nature of the line, the environment and local conditions, whether using the filling paste optical cable or not can be decided, but there should be a moisture-proof layer (aluminum foil layer).

(3) The distance between poles of aerial lines is 35-40 meters in urban area and 40-50 meters in suburban area. The distance between poles of overhead lines varies with different weather load zones. The shortest distance is 25m and the longest distance is 67m. The division of load zones in China is based on wind, ice and temperature.

(4) The aerial fiber cable lines should make full use of the existing overhead pole road and hang optical cable. Its pole road strength and other requirements should meet the building standards of overhead communication lines.

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(5) Galvanized steel strand with specification of 7/2.2mm should be used for suspension of aerial fiber cable. The safety factor of the suspension line shall not be less than 3 (S > 3). When the weight of optical cable exceeds 1.5 kg/m, the distance between poles can be reduced or 7/2.6 mm strands can be used in heavy load area when the overhead laying mode is needed for long distance primary trunk lines.

(6) The aerial fiber cable should be selected to meet the requirements of temperature characteristics according to the use environment. - aerial laying should not be used in areas below 30℃.

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In the network hardware, there is another kind of network transmission media that can not be ignored. We usually call it the network line. At present, the common network cables are thin twisted pair, fiber optic cable, coaxial cable and thick coaxial cable.

Fiber optic cable is a new generation of transmission media.

Compared with copper media, the security, reliability and network performance of fiber cable have been greatly improved. In addition, the bandwidth of optical fiber transmission is much larger than that of copper cable, and the maximum connection distance supported by optical fiber transmission is more than two kilometers, which is the inevitable choice to build a large-scale network. Fiber optic cable has many advantages, such as good anti-electromagnetic interference, strong confidentiality, fast speed and large transmission capacity, so its price is more expensive, and it is seldom used in home occasions.

At present, there are two kinds of fibers--single-mode fibers and multi-mode fibers (so-called "mode" refers to a beam of light entering the fibers at a certain angle). Multi-mode optical fibers are generally used for network connections in the same office building or relatively close areas. Single-mode optical fibers transfer data with higher quality and longer transmission distance, which are usually used to connect office buildings or geographically dispersed networks. If the optical fiber cable is used as the transmission medium of the network, the optical transceiver and other devices need to be added, so the cost is higher, and it is seldom used in general applications.

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Twisted pair cable is a flexible communication cable, which contains pairs of insulated copper wires. It is characterized by low price, so it is widely used, such as our common telephone lines. According to the different maximum transmission rates, twisted pairs can be divided into three categories, five categories and super five categories. Three types of twisted pairs have a speed of 10 mb/s, five types can reach 100 mb/s, and the super-five types can reach 155 mb/s, which can meet the needs of multimedia data transmission in the future. Therefore, five or even super-five types of twisted pairs are recommended.

Twisted pair can also be divided into shielded twisted pair (stp) and unshielded twisted pair (utp). STP twisted pair has a lower speed (only 4mb/s), but its anti-interference ability is stronger than UTP twisted pair, so its price is much higher. Now this cheaper kind of twisted pair is a few yuan a meter, while it may be tens of yuan for the expensive ones. In contrast, the price of UTP twisted pair is generally about one yuan per meter, which is relatively low.

In addition, the popular terms of 10m and 100m unshielded twisted pairs are called 10Base-T and 100base-t, which are often seen on the market. RJ45 crystal head is also used to make the connection between twisted pair and network card RJ45 interface. Its quality is directly related to the stability of the whole network, which can not be ignored.

Coaxial cable is a kind of transmission medium which is familiar to many friends. It is a layer of insulated wire wrapped around the central copper conductor cable. Its greatest feature is good anti-interference ability, stable transmission data, and cheap, so it was once widely used, such as closed-circuit television lines. However, coaxial cables have been widely used in the past, mainly because the bus network structure composed of coaxial cables has low cost, but the damage of a single cable may lead to the paralysis of the whole network and difficult maintenance, which is its biggest drawback.

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Optical cable handover box is a kind of handover equipment which provides end-to-end and jump-over for main layer and distribution layer optical cables. After the cable is introduced into the cable junction box, the main layer cable and the distribution layer cable are connected by jumping fibers after being fixed, terminated and distributed.

The thing placed inside is the end of the optical cable, and the function of the end of the optical cable is to gather two or more signals of the original unrelated computer room together, and then use tail fiber to connect two unrelated cables according to need. Its signal source is the computer room.

Optical intersection boxes collect all optical signals. Optical signals can not be used directly. Photoelectric conversion equipment is needed to convert optical signals into electrical signals. Therefore, if you want to use the signals in optical intersection boxes directly, it is very expensive.

Similar to the optical cabinet, there are also electrical cabinets. The appearance of the electrical cabinet is not different from that of the optical cabinet. However, the signals collected in the electrical cabinet are electrical signals, which can be directly used without conversion. The signal source of the electrical cabinet is also the computer room.

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Fiber optic cable junction box is a kind of outdoor connection equipment. The most fundamental requirement for it is to be able to withstand dramatic changes in climate and harsh working environment. It should have the characteristics of waterproof gas condensation, waterproof and dust-proof, pest and rodent prevention, and strong impact damage resistance. It must be able to withstand the harsher external environment. Therefore, waterproof, moisture-proof, dust-proof, impact-proof, pest and rodent-proof requirements are relatively high on the outside of the box; temperature and humidity control requirements are very high on the inside of the box. According to international standards, the highest standard for these projects is IP66. But there are not many cases that can meet this standard.

At present, the main cabinets used in China are KRONE cabinet in Germany, which is made of unsaturated polyester glass fiber reinforced material (SMC) and has good performance in waterproof, moisture-proof and impact-proof. The imitation of domestic reference KRONE boxes is mainly iron metal boxes (generally up to IP65 standard). For metal box, because of its poor performance in waterproof gas condensation, it is doomed not to be widely used and gradually eliminated. Some domestic imitations are quite different from KRONE imported from Germany in terms of waterproof gas condensation and shock resistance due to material performance problems. In addition, due to the poor anti-aging performance of sealant strip, the performance of waterproof and dust-proof is also common. Of course, it is acceptable to reduce performance requirements and investment when the external environment of the installation location of the cable junction box is better.

Shenzhen Yutai Photoelectric Communication Co., Ltd. is a professional fiber optic cable supplier, providing high-quality optical cables. Welcome to buy.

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According to the physical and electrical properties of optical cables, the laying of optical cables must meet certain requirements. In addition, the laying of optical cables in different environments also have their own requirements.


The laying of optical cables shall strictly comply with the following requirements:

(1) Length and integrity: The length of each cable should be controlled within 800m, and there is no relay in the middle.

(2) Minimum installation bending radius of optical cable: under static load, the minimum bending radius of optical cable is 10 times than the diameter of optical cable; under load conditions during wiring operation, such as pulling the optical cable out of the pipe, the minimum bending radius is 20 times than the diameter of optical cable; the minimum installation bending radius of four-core optical cable must be greater than 2in (5.08 cm). 

(3) Installation stress: The maximum installation stress applied to 4/6 core cable shall not exceed 100lbf (45kgf); when multiple 4/6 core cables are installed at the same time, the maximum installation stress per cable shall be reduced by 20%. For example, for 4x4 core cable, the maximum installation stress shall be 320lbf (144kgf).

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Explanation: It is required that the traction force of the cable should not exceed 80% of the allowable tension of the cable, and the maximum instantaneous traction force should not exceed the allowable tension of the cable. The main traction force should be applied to the strengthened components of the cable, and the fiber can not bear the tension directly.

(4) Installation pulling force of optical fiber jumper: the maximum pulling force of single-core soft wire is 27 LBF (12.15 kgf), and the maximum pulling force of double-core soft wire is 550 LBF (22.5 kgf), and the distance of interconnection equipment should not exceed 100 ft (30 m).

(5) Judging the A.B end of optical cable: Before construction, we must first judge and determine the A.B end of optical cable. A-terminal should be oriented towards network hub
direction, while the B-terminal should be oriented to the user's side. The end of the laying cable should be in the same direction, and it must not be mistaken.

(6) No matter laying optical cables in buildings or between buildings, separate pipe holes should be occupied. If the original pipe and copper cable are used together, the plastic sub-pipe should be put through the hole. The inner diameter of the plastic sub-pipe should be 1.5 times than the outer diameter of the optical cable. The optical cable should be laid in the plastic sub-pipe, and the same sub-pipe should not be used with the copper cable. When laying optical cables are in parallel with other weak current systems in buildings, they should be laid separately and fixed, and the minimum net distance between the cables should meet the design requirements.

Shenzhen Yutai Photoelectric Communication Co., Ltd. is a professional fiber optic cable supplier, providing high-quality optical cables. Welcome to buy.

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