Double Jacket All-Dielectric Self-Supporting (ADSS) Cable

ADSS cable is loose tube stranded. The 250um bare fibers are positioned into a loose tube made of high modulus plastics. The tubes are filled with a water-resistant filling compound. The tubes and fillers are stranded around a FRP (Fiber Reinforced Plastic) as a non-metallic central strength member into a compact and circular cable core. After the cable core is filled with filling compound. It is covered with thin PE (polyethylene) inner sheath. After stranded layer of armaid yarns are applied over the inner sheath as strength member, the cable is completed with PE or AT (anti-tracking) outer sheath.

GL’s ADSS cable has the characteristics of full dielectric, no metal, non-conductivity, small cable diameter, high tensile force, low linear expansion coefficient, and wide temperature adaptation.

Fiber Type: G652D; G655C.
Fiber Count: 2-144 Core Is Available.
Span: Up to 1000m.
Standard: IEC 60794-4、 IEC 60793、TIA/EIA 598 A

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Description

Specification

Package & Tansportation

Structure Design:

Main Features:
1. Two Jacket and stranded loose tube design . Stable performance and compatibility with all common fiber types;
2. Track -Resistant outer jacket available for the high voltage ( ≥35KV)
3. Gel-Filled buffer tubes are S-Z stranded
4. Instead of Aramid yarn or glass yarn,there is no support or messenger wire required. Aramid yarn is used as the strength member to assure the tensile and strain Performance
5. Fiber counts from 6 to 288fibers
6. Span up to 1000meter

Standards: GL Technology's ADSS Cable complies with IEC 60794-4, IEC 60793, TIA/EIA 598 A standards.

Advantages of GL ADSS Optical Fiber Cable:
1.Good aramid yarn have excellent tensile performance;
2.Fast delivery, 200km ADSS cable regular production time about 10 days;
3.Can using glass yarn instead of aramid to anti rodent.

Cable Parameter:

Fibers	Structure	Outside Diameter of Cable(mm)	Weight(kg/km)	KN Max. Operating Tension	KN Max. Rated Tensile Strength	Max. Anti-crushing Force Long term, Short term	Bending Radius Static / Dynamic
2-30	1+6	11.9	117	4.0	15	1000; 3000	12.5D; 25D
22-36	1+6	11.9	117	4.0	15	1000; 3000	12.5D; 25D
38-60	1+6	12.4	127	4.0	15	1000; 3000	12.5D; 25D
62-72	1+6	12.4	128	4.0	15	1000; 3000	12.5D; 25D
74-84	1+7	13.0	144	4.0	15	1000; 3000	12.5D; 25D
96-96	1+8	14.0	162	4.0	15	1000; 3000	12.5D; 25D
98-108	1+9	14.7	177	4.0	15	1000; 3000	12.5D; 25D
110-120	1+10	15.5	196	4.0	15	1000; 3000	12.5D; 25D
122-132	1+11	16.1	211	4.0	15	1000; 3000	12.5D; 25D
134-144	1+12	16.7	229	4.0	15	1000; 3000	12.5D; 25D

The excellent quality and service of GL's ADSS cable have won the praise of a large number of customers at home and abroad, and the products are exported to many countries and regions such as South and North America, Europe, Asia and UEA. We can customize the number of cores of ADSS fiber optic cables according to customer needs. The number of cores of optical fiber ADSS cable is 2, 6, 12, 24, 48 cores, up to 288 cores.

Remarks:
Detail requirements need to be sent to us for cable design and price calculation. Below requirements are a must:
A, Power transmission line voltage level
B, fiber count
C, Span or tensile strength
D, weather conditions

How to Ensure the Quality and Performance of Your Fiber Optic Cable?

We control the products quality from the raw material to the finish produts All the raw material should be tested to match the Rohs standard when they arrived at our manufacture.We control the quality during the producing process by advanced technology and equipments. We test the finished products according to the test standard. Approved by various professional optical and communication product institution , GL also conduct various in-house testing in its own Laboratory and Test Center. We also conduct test with special arrangement with the Chinese Government Ministry of Quality Supervision & Inspection Center of Optical Communication Products(QSICO).

Quality Control - Test Equipment and Standard:

Feedback: In order to meet the world’s highest quality standards, we continuously monitor feedback from our customers. For comments and suggestions, please, contact us, Email: inquiry@gl-fibercable.com.

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Specification of Optical Fiber:

(Item)		Unit	Specification	Specification	Specification	Specification
(Item)		Unit	G. 657A1	G. 657A2	G. 652D	G. 655
Mode field diameter	1310nm	mm	8.6-9.5 ± 0.4	8.6-9.5 ± 0.4	9.2 ± 0.4	9.6± 0.4μm
Cladding diameter		mm	125.0 ± 0.7	125.0 ± 0.7	125.0 ± 1	125 ±0.7μm
Cladding non-circularity		%	<1.0	<1.0	<1.0	<1.0
Core/cladding concentricity error		mm	<0.5	<0.5	<0.5	<0.5
Coating diameter		mm	245 ± 5	245 ± 5	242 ± 7	242 ± 7
Coating/cladding concentricity error		mm	<12	<12	<12	<12
Cable cut-off wavelength		nm	< 1260	< 1260	< 1260	< 1260
Attenuation Coefficient	1310nm	dB/km	<0.36	<0.36	<0.35	<0.35
Attenuation Coefficient	1550nm	dB/km	<0.22	<0.22	<0.22	<0.22
1 turn on 10±0.5mm Dia. Mandrel	1550nm	dB/km	<0.75	<0.5	-	-
1 turn on 10±0.5mm Dia. Mandrel	1625nm	dB/km	<1.5	<1.0	-	-
Proof stress level		kpsi	≥100	≥100	≥100	≥100

(Item)		Unit	Specification	Specification	Specification	Specification
(Item)		Unit	OM1	OM2	OM3	OM4
Mode field diameter	1310nm	mm	62.5±2.5	50±2.5	50±2.5	50±2.5
Mode field diameter	1550nm	mm	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0
Cladding diameter		mm	<1.0	<1.0	<1.0	<1.0
Cladding non-circularity		%	<1.5	<1.5	<1.5	<1.5
Core/cladding concentricity error		mm	245 ± 10	245 ± 10	245 ± 10	245 ± 10
Coating diameter		mm	<12	<12	<12	<12
Coating/cladding concentricity error		mm	≥ 160	≥ 500	≥ 1500	≥ 3500
Cable cut-off wavelength		nm	≥ 500	≥ 500	≥ 500	≥ 500
Attenuation Coefficient	1310nm	dB/km	<3.5	<3.5	<3.5	<3.5
Attenuation Coefficient	1550nm	dB/km	<1.5	<1.5	<1.5	<1.5
Proof stress level		kpsi	≥100	≥100	≥100	≥100

Specification of Optical Fiber:

(Item)		Unit	Specification	Specification	Specification	Specification
(Item)		Unit	G. 657A1	G. 657A2	G. 652D	G. 655
Mode field diameter	1310nm	mm	8.6-9.5 ± 0.4	8.6-9.5 ± 0.4	9.2 ± 0.4	9.6± 0.4μm
Cladding diameter		mm	125.0 ± 0.7	125.0 ± 0.7	125.0 ± 1	125 ±0.7μm
Cladding non-circularity		%	£1.0	£1.0	£1.0	£1.0
Core/cladding concentricity error		mm	£0.5	£0.5	£0.5	£0.5
Coating diameter		mm	245 ± 5	245 ± 5	242 ± 7	242 ± 7
Coating/cladding concentricity error		mm	£12	£12	£12	£12
Cable cut-off wavelength		nm	£ 1260	£ 1260	£ 1260	£ 1260
Attenuation Coefficient	1310nm	dB/km	£0.36	£0.36	£0.35	£0.35
Attenuation Coefficient	1550nm	dB/km	£0.22	£0.22	£0.22	£0.22
1 turn on 10±0.5mm Dia. Mandrel	1550nm	dB/km	£0.75	£0.5	-	-
1 turn on 10±0.5mm Dia. Mandrel	1625nm	dB/km	£1.5	£1.0	-	-
Proof stress level		kpsi	≥100	≥100	≥100	≥100

(Item)		Unit	Specification	Specification	Specification	Specification
(Item)		Unit	OM1	OM2	OM3	OM4
Mode field diameter	1310nm	mm	62.5±2.5	50±2.5	50±2.5	50±2.5
Mode field diameter	1550nm	mm	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0
Cladding diameter		mm	£1.0	£1.0	£1.0	£1.0
Cladding non-circularity		%	£1.5	£1.5	£1.5	£1.5
Core/cladding concentricity error		mm	245 ± 10	245 ± 10	245 ± 10	245 ± 10
Coating diameter		mm	£12	£12	£12	£12
Coating/cladding concentricity error		mm	≥ 160	≥ 500	≥ 1500	≥ 3500
Cable cut-off wavelength		nm	≥ 500	≥ 500	≥ 500	≥ 500
Attenuation Coefficient	1310nm	dB/km	£3.5	£3.5	£3.5	£3.5
Attenuation Coefficient	1550nm	dB/km	£1.5	£1.5	£1.5	£1.5
Proof stress level		kpsi	≥100	≥100	≥100	≥100