(1)Q: Are you a manufacturer or a trading company? A: We are a professional cable manufacturer with 27 years production experience. (2)Q: Can you print our logo or company name in cable? A: sí,we can print your logo or company name on products. (3)Q:Can you accept customize or design for us? A: sí, all communication cables are customized in our own factory and we can design for you according to your requirement. (4)Q:Is it possible to get a free sample ? A: sí, samples are free,and shipping cost have to be paid by your esteemed company. But we will return the sample cost to you when we receiving your initial order. (5)Q:¿Cuál es su MOQ? ? A: Usually,our coaxial cable MOQ is 100 thousand meters. (6)Q:If I want to purchase,how to pay? A: Usually, we do T/T in 30% deposit before production,70% balance against copy of B/L. Also payment terms are negotiable depending on customer’s request.
Note: Welcome to visit our factory and get our samples. Your inquiry will be answered within 24 horas . If you are interest in any our products,please do not hesitate to contact us ,we will do our best for you.
Access Building Cables Descripción del producto:: This specification covers a series of cables with 2 para 12 fibers. The cable fulfils the fire performance test of IEC332-1 and IEC332-3C.
Solicitud: l Backbone in LAN’s l Indoor/ outdoor in ducts l Internal wiring/ fan-outs
Construction Data:
Loose tube material
PBT
Loose tube diameter
3.0milímetro
Water blocking material
Fiber filling
Core reinforce
Glass yarn
Out jacket material
EDUCACIÓN FÍSICA
Jacket thickness
1.1milímetro
Technical Data-Physical:
Fiber count
2
4
6
8
10
12
Cable diameter (milímetro)
8.2
Cable weight (kg/km)
77
Temperature rating
-20 ~+60ºC
Operation storage
-20 ~+60ºC
Technical Data-Mechanical:
máx.. loading (IEC794-1) Installation operation
1000norte 400norte
Min. bend radius (IEC794-1) Long term (milímetro) Short term (milímetro)
20xD 10xD
Crush resistance (IEC794-1)
1000N/100mm
Technical Data-Transmission:
Fiber type
Single-mode (1310/1550nm)
Multi-mode (50/125um) (850/1300nm)
Multi-mode (62.5/125um) (850/1300nm)
Attenuation
Typical
0.36/0.22
3.0/1.0
3.0/1.0
Maximum
0.5/0.4
3.5/1.5
3.5/1.5
Zero dispersion slope
<0.093ps/km•nm2
–
–
Dispersion (1285~1340nm)
-3.5~ 3.5ps/ (nm•km)
–
–
Mode field diameter
9.3+/-0.4um
–
–
Cutoff wavelength cable
<1270nm
–
–
Bandwidth
@850nm
–
≥200MHz•km
≥160MHz•km
@1300nm
–
≥400MHz•km
≥200MHz•km
Cladding diameter (um)
125+/-1.0
125+/-1.0
125+/-1.0
ADSS Outdoor Optical Cable Solicitud 1. Laying method: Aerial 2. Mainly applied in electric power system to provide a convenient way to establish communication networks. It is suitable for aerial installation when a communication line has to span a river, a valley, a thunder area and other fields with special requirements. Characteristics: l Large span lengths and the largest span is over 1700m. l Non-metallic material, with high insulating property performances as well as lightningproof l Special Anti-Track outer sheath (Opcional) protection, strong anti-electro-corrosion ability. l The aramid yarn ensures the cable’s tensile resistance, and also have good bulletproof performances. l Light weight with small diameter, reducing the load caused by ice and wind as well as the load on the towers and backprops. l Can be installed without shutting off the power. Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
2-144
máx.. Tension (norte)
Short-term
3000
máx.. Tension (norte)
Long-term
1000
máx.. Crushing Resistance (N/100mm2)
1000
Temperature range(ºC)
-40ºC– +70ºC
Min. Bending Radius(milímetro)
Install
20D
Min. Bending Radius(milímetro)
Static
10D
Especificación GYFTA53 Outdoor Optical Cable Descriptions: The SM fibers are placed in a loose tube made of a high modulus plastic, the tubes are filled with a water-resistant filling compound, A piece of FIBER REINFORCED PLATIC(FRP) locates in the centre of core as a non-metallic strength member. The tubes ( and fillers ) are stranded around the strength member into a compact and circular cable core. An Aluminum Polyethylene Laminate (APL) is applied around the cable core, which is filled with the filling compound to protect it from water ingress. Then the cable core is covered with a thin PE inner sheath. After the PSP is longitudinally applied over the inner sheath, the cable is completed with a PE outer sheath. Solicitud: l Laying method: Direct buried l Suitable for long-distance trunk and LAN communication. l Fiber type: SM Characteristics: l Double sheaths construction l Accurate fiber excess length ensures good mechanical and temperature performance. l Specially designed compact structure is good at preventing loose tubes from shrinking. l High strength loose tube that is hydrolysis resistant and special tube filling compound ensure a citical protection of fiber. l Moistureproof and ratproof, crush resistance and flexibility. l The following measures are taken to ensure the cable watertight: 1) Single fiber reinforced plastic as the central strength member 2) Loose tube filling compound 3) 100% cable core filling 4) APL moisture barrier 5) PSP enhancing moisture-proof 6) Water-blocking material Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
Dia (milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure(N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
2-48
16.8
270
20×D
10×D
3000
1000
3000
1000
50-96
18.9
330
20×D
10×D
3000
1000
3000
1000
98-120
20.0
390
20×D
10×D
3000
1000
3000
1000
122-144
22.3
460
20×D
10×D
3000
1000
3000
1000
Especificación GYFTY Outdoor Optical Cable Corss Section Solicitud: l Laying method: Duct l Suitable for long-distance trunk and LAN communication in high-voltage area or access to telecom network. Especially for power transmission system, excessive thunder areas and high electromagnetic interference. l Fiber type: Single-mode/Multimode
Characteristics: l Non-metallic structure providing excellent anti-electromagnetism,anti-thunder and anti-static performance. l Accurate fiber excess length ensures good mechanical and temperature performance. l Specially designed compact structure is good at preventing loose tubes from shrinking. l High strength loose tube that is hydrolysis resistant and special tube filling compound ensure a citical protection of fiber.
Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
Cable Dia (milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure (N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
2-36
10.5
85
20×D
10×D
1000/3000
600/1000
1000
300
36-60
11.4
110
20×D
10×D
1000/3000
600/1000
1000
300
48-72
11.9
115
20×D
10×D
1000/3000
600/1000
1000
300
72-84
12.8
125
20×D
10×D
1000/3000
600/1000
1000
300
84-96
13.7
140
20×D
10×D
1000/3000
600/1000
1000
300
96-108
14.6
160
20×D
10×D
1000/3000
600/1000
1000
300
108-120
15.4
175
20×D
10×D
1000/3000
600/1000
1000
300
120-132
16.3
195
20×D
10×D
1000/3000
600/1000
1000
300
132-216
17.2
220
20×D
10×D
1000/3000
600/1000
1000
300
Especificación GYFTY53 Outdoor Optical Cable
Descripción The fibers, 250μm, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. A Fiber Reinforced Plastic (FRP) locates in the center of core as a non-metallic strength member. The tubes (and fillers) are stranded around the strength member into a compact and circular core. Then the cable core is covered with a thin polyethylene (EDUCACIÓN FÍSICA) inner sheath, which is filled with jelly to protect it from water ingress. A layer of water-blocking material is applied around the cable core to prevent water ingress all the same. After a corrugated steel tape armor is applied. the cable is completed with a PE outer sheath.
Characteristics ·Good mechanical and temperature performance ·High strength looes tube that is hydrolysis resistant ·Special tube filling compound ensure a critical protection of fiber ·Crush resistance and flexibility ·The following measures are taken to ensure the cable watertight: -Single Fiber Reinforced Plastic as the central strength member -Loose tube filling compound -100% cable core filling -PSP enhancing moisture-proof -Water-blocking material Estándares GYFTY53 cable complies with Standard YD/T 901-2001as well as IEC 60794-1. Optical Characteristics
G.652
G.655
50/125μm
62.5/125μm
Attenuation (+20ºC)
@850nm
≤3.0 dB/km
≤3.0 dB/km
@1300nm
≤1.0 dB/km
≤1.0 dB/km
@1310nm
≤0.36 dB/km
≤0.40 dB/km
@1550nm
≤0.22 dB/km
≤0.23dB/km
Bandwidth (Class A)
@850nm
≥500 MHz·km
≥200 MHz·km
@1300nm
≥1000 MHz·km
≥600 MHz·km
Numerical Aperture
0.200±0.015NA
0.275±0.015NA
Cable Cut-off Wavelengthλcc
≤1260nm
≤1480nm
Technical Parameters
Cable Type
Fiber Count
Tubes
Fillers
Dia milímetro
Cable Weight kg/km
Tensile Strength Long/Short Term
norte
Crush Resistance Long/Short Term
N/100mm
Bending Radius Static/Dynamic milímetro
GYFTY53-2~6
2~6
1
7
15.8
230
1000/3000
1000/3000
10D/20D
GYFTY53-8~12
8~12
2
6
15.8
230
1000/3000
1000/3000
10D/20D
GYFTY53-14~18
14~18
3
5
15.8
230
1000/3000
1000/3000
10D/20D
GYFTY53-20~24
20~24
4
4
15.8
230
1000/3000
1000/3000
10D/20D
GYFTY53-26~30
26~30
5
3
15.8
230
1000/3000
1000/3000
10D/20D
GYFTY53-32~36
32~36
6
2
15.8
230
1000/3000
1000/3000
10D/20D
GYFTY53-38~42
38~42
7
1
15.8
230
1000/3000
1000/3000
10D/20D
GYFTY53-44~48
44~48
8
0
15.8
230
1000/3000
1000/3000
10D/20D
GYFTY53-50~60
50~60
5
3
16.8
255
1000/3000
1000/3000
10D/20D
GYFT Y53-62~72
62~72
6
2
16.8
255
1000/3000
1000/3000
10D/20D
GYFTY53-74~84
74~84
7
1
16.8
255
1000/3000
1000/3000
10D/20D
GYFTY53-86~96
86~96
8
0
16.8
255
1000/3000
1000/3000
10D/20D
GYFTY53-98~108
98~108
9
1
19.2
320
1000/3000
1000/3000
10D/20D
GYFTY53-110~120
110~120
10
0
19.2
320
1000/3000
1000/3000
10D/20D
GYFTY53-122~132
122~132
11
1
21.2
380
1000/3000
1000/3000
10D/20D
GYFTY53-134~144
134~144
12
0
21.2
380
1000/3000
1000/3000
10D/20D
Storage/Operating Temperature : -40ºC to + 70ºC
Especificación GYFXY Outdoor Optical Cable
Descripción The fibers, 250μm, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. Over the tube. water-blocking material is applied to keep the cable watertight. Two parallel Fiber Reinforced Plastics (FRP) are placed at the two side. The cable is completed with a polyethylene(EDUCACIÓN FÍSICA) sheath.
Characteristics ·Good mechanical and temperature performance ·High strength loose tube that is hydrolysis resistant ·Special tube filling compound ensure a critical protection of fiber ·Two parallel FRPs ensure tensile strength ·PE sheath protects cable from ultraviolet radiation ·Small diameter, light weight and friendly installation ·Long delivery length Estándares GYFXY cable complies with Standard YD/T 769-2003. Optical Characteristics
G.652
G.655
50/125μm
62.5/125μm
Attenuation (+20ºC)
@850nm
≤3.0 dB/km
≤3.0 dB/km
@1300nm
≤1.0 dB/km
≤1.0 dB/km
@1310nm
≤0.36 dB/km
≤0.40 dB/km
@1550nm
≤0.22 dB/km
≤0.23dB/km
Bandwidth (Class A)
@850nm
≥500 MHz·km
≥200 MHz·km
@1300nm
≥1000 MHz·km
≥600 MHz·km
Numerical Aperture
0.200±0.015NA
0.275±0.015NA
Cable Cut-off Wavelengthλcc
≤1260nm
≤1480nm
Technical Parameters
Fiber Count
Cable Dia milímetro
Cable Weight kg/km
Tensile Strength Long/Short Term norte
Crush Resistance Long/Short Term N/100mm
Bending Radius Static /Dynamic milímetro
GYFXY -2~12
2~12
10.2
100
400/1000
300/1000
10D/20D
Storage/Operating Temperature : -40ºC to + 70ºC
Especificación GYHTY Outdoor Optical Cable
Descripción The fibers, 250μm, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. A Fiber Reinforced Plastic (FRP) locates in the center of core as a non-metallic strength member. The tubes (and fillers) are stranded around the strength member into a compact and circular core. After the cable core is filled with filling compound, it is covered with thin PE (polyethylene) inner sheath. Then, a layer of aramid yarn is applied as additional strength member and the cable is completed with a polyethylene (EDUCACIÓN FÍSICA) outer sheath.
Characteristics ·Good mechanical and temperature performance ·Aramid yarn strength member ensures good performance of tensile strength ·High strength loose tube that is hydrolysis resistant ·Special tube filling compound ensure a critical protection of fiber ·Crush resistance and flexibility · The following measures are taken to ensure the cable watertight: -Single Fiber Reinforced Plastic as the central strength member -Loose tube filling compound -100% cable core filling Estándares GYHTY cable complies with Standard YD/T 901-2001as well as IEC 60794-1. Optical Characteristics
G.652
G.655
50/125μm
62.5/125μm
Attenuation (+20ºC)
@850nm
≤3.0 dB/km
≤3.0 dB/km
@1300nm
≤1.0 dB/km
≤1.0 dB/km
@1310nm
≤0.36 dB/km
≤0.40 dB/km
@1550nm
≤0.22 dB/km
≤0.23dB/km
Bandwidth (Class A)
@850nm
≥500 MHz·km
≥200 MHz·km
@1300nm
≥1000 MHz·km
≥600 MHz·km
Numerical Aperture
0.200±0.015NA
0.275±0.015NA
Cable Cut-off Wavelengthλcc
≤1260nm
≤1480nm
Technical Parameters
Cable Type
Fiber Count
Tubes
Fillers
Cable Dia milímetro
Cable Weight kg/km
Tensile Strength Long/Short Term
Crush Resistance Long/Short Term N/100mm
Bending Radius Static/Dynamic milímetro
GYHTY-2~6
2~6
1
5
11.0
100
600/1500
300/1000
10D/20D
GYHTY-8~12
8~12
2
4
11.0
100
600/1500
300/1000
10D/20D
GYHTY-14~18
14~18
3
3
11.0
100
600/1500
300/1000
10D/20D
GYHTY -20~24
20~24
4
2
11.0
100
600/1500
300/1000
10D/20D
GYHTY-26~30
26~30
5
1
11.0
100
600/1500
300/1000
10D/20D
GYHTY-32~36
32~36
6
0
11.0
100
600/1500
300/1000
10D/20D
Storage/Operating Temperature : -40ºC to + 70ºC
Especificación GYTA Outdoor Optical Cable
Solicitud: l Laying method: Duct/Aerial l Suitable for long-distance trunk and LAN communication. l Fiber type: Single-mode/Multimode
Characteristics: l LAP Aluminum belt is applied around the cable core, which is filled with the filling compound to protect it from water-ingress. l Accurate fiber excess length ensures good mechanical and temperature performance. l Specially designed compact structure is good at preventing loose tubes from shrinking. l High strength loose tube that is hydrolysis resistant and special tube filling compound ensure a citical protection of fiber. l Moistureproof and ratproof.
Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
Dia (milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure (N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
2-30
10.2
95
20×D
10×D
1500
600
1000
300
30-36
10.9
115
20×D
10×D
1500
600
1000
300
36-60
11.6
125
20×D
10×D
1500
600
1000
300
60-72
12.4
150
20×D
10×D
1500
600
1000
300
72-84
13.3
155
20×D
10×D
1500
600
1000
300
84-96
14.2
185
20×D
10×D
1500
600
1000
300
96-108
15.1
205
20×D
10×D
2000
600
1000
300
108-120
15.9
225
20×D
10×D
2000
600
1000
300
120-132
16.8
245
20×D
10×D
2500
600
1000
300
132-216
17.7
270
20×D
10×D
2500
600
1000
300
Especificación GYTA53 Outdoor Optical Cable Solicitud: l Laying method: Direct buried l Suitable for long-distance trunk and LAN communication. l Fiber type: Single-mode/Multimode
Characteristics: l Double sheaths construction l Accurate fiber excess length ensures good mechanical and temperature performance. l Specially designed compact structure is good at preventing loose tubes from shrinking. l High strength loose tube that is hydrolysis resistant and special tube filling compound ensure a citical protection of fiber. l Moistureproof and ratproof, crush resistance and flexibility.
Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
Cable Dia (milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure (N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
2-30
13.3
180
25×D
12.5×D
3000
1000
3000
1000
30-36
14.0
205
25×D
12.5×D
3000
1000
3000
1000
36-60
14.7
220
25×D
12.5×D
3000
1000
3000
1000
48-72
15.5
255
25×D
12.5×D
3000
1000
3000
1000
72-84
16.4
265
25×D
12.5×D
3000
1000
3000
1000
84-96
17.3
300
25×D
12.5×D
3000
1000
3000
1000
96-108
18.2
325
25×D
12.5×D
3000
1000
3000
1000
108-120
19.0
355
25×D
12.5×D
3000
1000
3000
1000
120-132
19.9
385
25×D
12.5×D
3000
1000
3000
1000
132-216
20.8
410
25×D
12.5×D
3000
1000
3000
1000
Especificación GYTC8A Outdoor Optical Cable
Descripción The fibers, 250μm, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. A steel wire locates in the center of core as a metallic strength member. The tubes (and fillers) are stranded around the strength member into a compact and circular cable core. After an Aluminum Polyethylene Laminate (APL) moisture barrier is applied around the cable core, this part of cable accompanied with the stranded wires as the supporting part are completed with a polyethylene (EDUCACIÓN FÍSICA) sheath to be figure 8 structure.
Characteristics ·High tensile strength of stranded wires meet the requirement of self-supporting and reduce the installation cost. ·Good mechanical and temperature performance ·High strength loose tube that is hydrolysis resistant ·Special tube filling compound ensure a critical protection of fiber ·The following measures are taken to ensure the cable watertight: -Steel wire used as the central strength member -Loose tube filling compound -100% cable core filling -APL moisture barrier Estándares GYTC8A cable complies with Standard YD/T 1155-2001 as well as IEC 60794-1. Optical Characteristics
G.652
G.655
50/125μm
62.5/125μm
Attenuation (+20ºC)
@850nm
≤3.0 dB/km
≤3.0 dB/km
@1300nm
≤1.0 dB/km
≤1.0 dB/km
@1310nm
≤0.36 dB/km
≤0.40 dB/km
@1550nm
≤0.22 dB/km
≤0.23dB/km
Bandwidth (Class A)
@850nm
≥500 MHz·km
≥200 MHz·km
@1300nm
≥1000 MHz·km
≥600 MHz·km
Numerical Aperture
0.200±0.015NA
0.275±0.015NA
Cable Cut-off Wavelengthλcc
≤1260nm
≤1480nm
Technical Parameters
Cable Type
Fiber Count
Tubes
Fillers
Cable Dia milímetro
Cable Weight kg/km
Tensile Strength Long/Short Term
norte
Crush Resistance Long/Short Term N/100mm
Bending Radius Static/Dynamic milímetro
GYTC8A-2~6
2~6
1
4
9.5×18.3
218
600/1500
300/1000
10D/20D
GYTC8A-8~12
8~12
2
3
9.5×18.3
218
600/1500
300/1000
10D/20D
GYTC8A-14~18
14~18
3
2
9.5×18.3
218
600/1500
300/1000
10D/20D
GYTC8A -20~24
20~24
4
1
9.5×18.3
218
600/1500
300/1000
10D/20D
GYTC8A-26~30
26~30
5
0
9.5×18.3
218
600/1500
300/1000
10D/20D
Storage/Operating Temperature : -40ºC to + 70ºC
Especificación GYTC8Y/GYTCY Outdoor Optical Cable Solicitud: l Laying method: Self-supporting Aerial l Suitable for long-distance trunk and LAN communication l Fiber type: Single-mode/Multimode Characteristics: l Low dispersion and attenuation. l Proper design, precise control for fiber excess length and distinct stranding process render the cable excellent mechanical and enviromental properties. l Compact structure and lightness, flexible and good bend-resistant performance. l With small cable diameter, light cable weight, self-supporting. Fiber characteristic:
Fiber style
Unidad
SM G652D
Condition
nm
1310/1550
Attenuation
dB/km
0.36/0.23
Dispersion
1550nm
Ps (nm ·km)
≤18
1625nm
Ps (nm ·km)
≤22
Bandwidth
850nm
MHZ ·.km
—–
1300nm
MHZ. ·km
—–
Zero dispersion wavelength
nm
≥1302 ,≤1322
Zero dispersion slope
nm
≤0.091
PMD Maximum Individual Fibre
um
≤0.2
PMD Design Link Value
Ps/(nm2*km)
≤0.08
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
Cable cutoff wavelengthλcc
nm
≤1260
Mode field diameter(MFD)
1310nm
um
9.2±0.4
1550nm
um
10.4±0.8
Numerical Aperture(NA)
—–
Step(mean of bidirectional measurement)
dB
≤0.05
Irregularities over fibre length and point discontinuity
dB
≤0.05
Difference backscatter coefficient
dB/km
≤0.03
Attenuation uniformity
dB/km
≤0.01
Core diameter
um
—–
Cladding diameter
um
125.0±0.1
Cladding non-circularity
%
≤1.0
Coating diameter
um
242±7
Coating/cladding concentricity error
um
≤12.0
Coating non-circularity
%
≤6.0
Core/cladding concentricity error
um
≤0.6
Curl(radius)
um
≤4
Technical Requirements:
Fiber Count
Cable Dia(milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure (N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
6 core
Cable:φ8.7mm Web:φ 4.7mm
130
20×D
10×D
3000
1000
1000
300
GYTS Outdoor Optical Cable
Solicitud: l Laying method: Duct/Aerial l Suitable for long-distance trunk and LAN communication. l Fiber type: Single-mode/Multimode l Characteristics l The PSP is longitudinally applied over the cable core, which is filled with the filling compound to protect it from water-ingress. l Accurate fiber excess length ensures good mechanical and temperature performance. l Specially designed compact structure is good at preventing loose tubes from shrinking. l High strength loose tube that is hydrolysis resistant and special tube filling compound ensure a citical protection of fiber. l Moistureproof and ratproof. Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
Dia (milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure(N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
2-30
10.6
120
20×D
10×D
1500
600
1000
300
30-36
11.1
140
20×D
10×D
1500
600
1000
300
36-60
12.1
155
20×D
10×D
1500
600
1000
300
48-72
12.6
185
20×D
10×D
1500
600
1000
300
72-84
13.5
190
20×D
10×D
1500
600
1000
300
84-96
14.4
215
20×D
10×D
2000
600
1000
300
96-108
15.3
240
20×D
10×D
2500
600
1000
300
108-120
16.1
265
20×D
10×D
2500
600
1000
300
120-132
17.0
290
20×D
10×D
2500
600
1000
300
132-216
17.9
310
20×D
10×D
2500
600
1000
300
GYTY53 Outdoor Optical Cable Solicitud: l Laying method: Direct buried l Suitable for long-distance trunk and LAN communication. l Fiber type: Single-mode/Multimode
Characteristics: l Double sheaths construction l Accurate fiber excess length ensures good mechanical and temperature performance. l Specially designed compact structure is good at preventing loose tubes from shrinking. l High strength loose tube that is hydrolysis resistant and special tube filling compound ensure a citical protection of fiber. l Moistureproof and ratproof. l Crush resistance and flexibility Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
Cable Dia(milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure(N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
2-30
12.1
165
25×D
12.5×D
3000
1000
3000
1000
30-36
13.4
205
25×D
12.5×D
3000
1000
3000
1000
36-60
13.9
235
25×D
12.5×D
3000
1000
3000
1000
48-72
14.8
250
25×D
12.5×D
3000
1000
3000
1000
72-84
15.7
265
25×D
12.5×D
3000
1000
3000
1000
84-96
16.5
300
25×D
12.5×D
3000
1000
3000
1000
96-108
17.4
320
25×D
12.5×D
3000
1000
3000
1000
108-120
18.2
345
25×D
12.5×D
3000
1000
3000
1000
120-132
19.0
370
25×D
12.5×D
3000
1000
3000
1000
132-216
19.9
400
25×D
12.5×D
3000
1000
3000
1000
GYXTC8S/GYXTCS33 Outdoor Optical Cable Solicitud: Laying method: Self-supporting Aerial Suitable for long-distance communication, local trunk line, CATV & computer networks system. Fiber type: Single-mode/Multimode. Characteristics Low dispersion and attenuation. PSP enhances the cable crush resistance, impact resistance and moisture-proof. Proper design, precise control for fiber excess length and distinct stranding process render the cable excellent mechanical and enviromental properties. The armoring of steel wire and corrugate steel tape make cable have nice properties of moisture resistance and crush resistance Compact structure and lightness, flexible and good bend-resistant performance. Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
Cable Dia(milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure (N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
2~12
Cable:φ9.3mm Web:φ4.7mm
180
25×D
12.5×D
5000
2000
1000
300
GYXTW Outdoor Optical Cable Solicitud: l Laying method: Aerial l Suitable for long-distance trunk and LAN communication. l Fiber type: Single-mode/Multimode Characteristics l Two parallel steel wires ensure tensile strength l PSP enhances the cable crush resistance, impact resistance and moisture-proof. l Accurate fiber excess length ensures good mechanical and temperature performance. l Specially designed compact structure is good at preventing loose tubes from shrinking. l High strength loose tube that is hydrolysis resistant and special tube filling compound ensure a citical protection of fiber. l Small diameter, light weight and it is easy to be installed. l Crush resistance and flexibility Fiber characteristic:
Fiber style
Unidad
SM G652D
MM 50/125
MM 62.5/125
MM OM3-300
Condition
nm
1310/1550
850/1300
850/1300
850/1300
Attenuation
dB/km
0.36/0.23
3.0/1.0
3.0/1.0
3.0/1.0
Dispersion
1550nm
Ps (nm ·km)
≤18
—–
—–
Dispersion
1625nm
Ps (nm ·km)
≤22
—–
—–
Bandwidth
850nm
MHZ ·.km
—–
≥400
≥160
Bandwidth
1300nm
MHZ. ·km
—–
≥800
≥500
Zero dispersion wavelength
nm
≥1302 ,≤1322
——
——
≥1295 ,≤1320
Zero dispersion slope
nm
≤0.091
——
——
≤0.11
PMD Maximum Individual Fibre
um
≤0.2
——
——
——
PMD Design Link Value
Ps/(nm2*km)
≤0.08
——
——
——
Fibre cutoff wavelength λc
nm
≥1180 ,≤1330
——
——
——
Cable cutoff wavelengthλcc
nm
≤1260
——-
——-
——-
Mode field diameter(MFD)
1310nm
um
9.2±0.4
——
——-
——-
1550nm
um
10.4±0.8
——
——-
——-
Numerical Aperture(NA)
—–
0.200±0.015
0.275±0.015
0.200±0.015
Step(mean of bidirectional measurement)
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Irregularities over fibre length and point discontinuity
dB
≤0.05
≤0. 10
≤0. 10
≤0. 10
Difference backscatter coefficient
dB/km
≤0.03
≤0. 08
≤0. 10
≤0. 08
Attenuation uniformity
dB/km
≤0.01
—–
——
—–
Core diameter
um
—–
50±1.0
62.5±2.5
50±1.0
Cladding diameter
um
125.0±0.1
125.0±0.1
125.0±0.1
125.0±0.1
Cladding non-circularity
%
≤1.0
≤1.0
≤1.0
≤1.0
Coating diameter
um
242±7
242±7
242±7
242±7
Coating/cladding concentricity error
um
≤12.0
≤12.0
≤12.0
≤12.0
Coating non-circularity
%
≤6.0
≤6.0
≤6.0
≤6.0
Core/cladding concentricity error
um
≤0.6
≤1.5
≤1.5
≤1.5
Curl(radius)
um
≤4
—–
—–
—–
Technical Requirements:
Fiber Count
Cable Diameter(milímetro)
Peso (kg/km)
Min.Bending Radius(milímetro)
Max Tension(norte)
Crush Pressure(N/100mm)
Dynamic
Static
Short Term
Long Term
Short Term
Long Term
2-6
8.0
70
20×D
10×D
1500
600
1000
300
8-12
8.5
75
20×D
10×D
1500
600
1000
300
GYXY Outdoor Optical Cable
Descripción The fibers, 250μm, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. Over the tube, water-blocking material is applied to keep the cable watertight. Two parallel steel wires are placed at the two sides. The cable is completed with a polyethylene (EDUCACIÓN FÍSICA) sheath.
Characteristics ·Good mechanical and temperature performance ·High strength loose tube that is hydrolysis resistant ·Special tube filling compound ensure a critical protection of fiber ·Two parallel steel wires ensure tensile strength ·PE sheath protects cable from ultraviolet radiation ·Small diameter, light weight and friendly installation ·Long delivery length Estándares GYXY cable complies with Standard YD/T 769-2003. Optical Characteristics
G.652
G.655
50/125μm
62.5/125μm
Attenuation (+20ºC)
@850nm
≤3.0 dB/km
≤3.0 dB/km
@1300nm
≤1.0 dB/km
≤1.0 dB/km
@1310nm
≤0.36 dB/km
≤0.40 dB/km
@1550nm
≤0.22 dB/km
≤0.23dB/km
Bandwidth (Class A)
@850nm
≥500 MHz·km
≥200 MHz·km
@1300nm
≥1000 MHz·km
≥600 MHz·km
Numerical Aperture
0.200±0.015NA
0.275±0.015NA
Cable Cut-off Wavelengthλcc
≤1260nm
≤1480nm
Technical Parameters
Cable Type
Fiber Count
Cable Dia milímetro
Cable Weight kg/km
Tensile Strength Long/Short Term
norte
Crush Resistance Long/Short Term N/100mm
Bending Radius Static/Dynamic milímetro
GYXY
2~12
9.5
90
600/1500
300/1000
10D/20D
GY XY
2~12
10.2
100
1000/3000
1000/3000
10D/20D
Storage/Operating Temperature : -40ºC to + 70ºC
Unitube Non-metallic Micro Cable–JET
Descripción The fibers,250μm, either of single-mode or multimode type, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. A layer of aramid yarn or high strength glass is applied around the cable core as additional strength member. Then, the cable is completed with a black or color HDPE sheath.
Characteristics ·Non-mental design can prevent the cable from radio interference and magnetic wave interference
·Specially designed compact structure is good at preventing loose tubes from shrinking
·Aramid yarn ensures good performance of tensile strength
·Loose tube filling compound ensure good moisture resistance performance
·Good flexibility
·High dense fiber packed, small diameter and light weight; it’s the better option for blowing installation process Solicitud Adopted to backbone network, access network and fiber to the home. Optical Characteristics
