All dielectric self-supporting optical fiber cable
1 Scope
This standard specifies the classification, structure, marking, delivery length, technical requirements, test methods, inspection rules, packaging, transportation and storage, and installation recommendations of all dielectric self-supporting optical fiber cable (ADSS).
ADSS optical fiber cable specified in this standard is mainly used for communication lines of high-voltage transmission systems, and may be used in overhead laying environments such as lightning and large span.
This standard requires that the structure and properties provided shall be within the scope of this standard, so as to maintain the insulation property of optical fiber cable components, the integrity of optical fibers and the normal optical transmission.
2 Normative references
The following standards contain provisions which, through reference in this standard, constitute provisions of this standard. At the time of publication, all the editions listed are valid. All standards are subject to revision, and all parties using this standard are encouraged to investigate the possibility of applying the latest editions of the following standards.
GB/T 2951-1998 Common test methods for insulating and sheating materials of electric cables (idt IEC 811-1993)
GB/T 2952-1989 Protective coverings for electric cables
GB/T 3408.7-1994 Test methods for electrical properties of electric cables and wires - Part 7: Tracking resistance test
GB/T 6995.2-1986 Markings for electric wires and cables - Part 2: Standard colours
GB/T 7424.1-1998 Optical fibre cables - Part 1: General specification (eqv IEC 794-1-1-1996)
GB/T 9771-2000 The series of single-mode optical fibres for telecommunication
GB/T 12666-1990 Test method on electric wires or cables under fire conditions
GB/T 15065-1994 Black polyethylene compounds for wire and cable
GB/T 15972.1-1998 Generic specification for optical fibres - Part 1: General (eqv IEC 793-1-1-1995)
GB/T 15972.2-1998 Generic specification for optical fibres - Part 2: Measuring methods for dimensions (eqv IEC 793-1-2-1995)
GB/T 15972.3-1998 Generic specification for optical fibres - Part 3: Measuring methods for mechanical characteristics (eqv IEC 793-1-3-1995)
GB/T 15972.4-1998 Generic specification for optical fibres - Part 4: Measuring methods for transmission and optical characteristics (eqv IEC 793-1-4-1995)
GB/T 15972.5-1998 Generic specification for optical fibres - Part 5: Measuring methods for environmental characteristics (eqv IEC 793-1-5-1995)
YD/T 629-1993 Monitoring methods for optical fibre transmission attenuation change
YD/T 837.4-1996 Test method of copper-core, polyolefin insulated, composite aluminum-plastic sheathed cables for urban local communications - Part 4: Test method of environmental performances
YD/T 839-2000 Filling compounds and flooding compounds for telecommunication cable and optical fibre cable
YD/T 901-2001 Optical fiber cables for core network - Loose tube stranding type of outdoor optical fiber cables for telecommunication
YD/T 908-2000 The naming rules for type of optical fibre cables
YD/T 1114-2001 Halogen-free flame retardant optical fiber cable
JB/T 8137-1999 Delivery drums for electric wires and cables
IEC 60794-1 (1996) Optical fibre cables - Part 1: Generic specification
IEC 60794-3 (1998) Optical fibre cables - Part 3: Duct, buried and aerial cables - Sectional specification
IEC 61395 (1998) Creep test procedures for stranded conductors
IEC 68-2-5 Environmental testing - Part 2: Simulated solar radiation test
3 Definitions
For the purposes of this standard, the following definitions apply.
3.1 rated tensile strength (RTS)
value obtaining by multiplying the product of the total cross-sectional area of the load-bearing components (aramid fiber bundle) and its minimum tensile strength in ADSS optical fiber cable structure by the coefficient k
Foreword i
1 Scope
2 Normative references
3 Definitions
4 Product classification
5 Optical fiber cable structure
6 Marking
7 Delivery length
8 Technical requirements for optical fiber cables
9 Test method
10 Inspection rules
11 Packaging
12 Transportation and storage
13 Installation recommendations
Annex A (Normative) Characteristics of silica multi-mode optical fiber
Annex B (Normative) Temperature cycling test
Annex C (Normative) Tracking resistance test
Annex D (Normative) Aeolian vibration test
Annex E (Normative) Galloping test
Annex F (Normative) Sheave test
All dielectric self-supporting optical fiber cable
1 Scope
This standard specifies the classification, structure, marking, delivery length, technical requirements, test methods, inspection rules, packaging, transportation and storage, and installation recommendations of all dielectric self-supporting optical fiber cable (ADSS).
ADSS optical fiber cable specified in this standard is mainly used for communication lines of high-voltage transmission systems, and may be used in overhead laying environments such as lightning and large span.
This standard requires that the structure and properties provided shall be within the scope of this standard, so as to maintain the insulation property of optical fiber cable components, the integrity of optical fibers and the normal optical transmission.
2 Normative references
The following standards contain provisions which, through reference in this standard, constitute provisions of this standard. At the time of publication, all the editions listed are valid. All standards are subject to revision, and all parties using this standard are encouraged to investigate the possibility of applying the latest editions of the following standards.
GB/T 2951-1998 Common test methods for insulating and sheating materials of electric cables (idt IEC 811-1993)
GB/T 2952-1989 Protective coverings for electric cables
GB/T 3408.7-1994 Test methods for electrical properties of electric cables and wires - Part 7: Tracking resistance test
GB/T 6995.2-1986 Markings for electric wires and cables - Part 2: Standard colours
GB/T 7424.1-1998 Optical fibre cables - Part 1: General specification (eqv IEC 794-1-1-1996)
GB/T 9771-2000 The series of single-mode optical fibres for telecommunication
GB/T 12666-1990 Test method on electric wires or cables under fire conditions
GB/T 15065-1994 Black polyethylene compounds for wire and cable
GB/T 15972.1-1998 Generic specification for optical fibres - Part 1: General (eqv IEC 793-1-1-1995)
GB/T 15972.2-1998 Generic specification for optical fibres - Part 2: Measuring methods for dimensions (eqv IEC 793-1-2-1995)
GB/T 15972.3-1998 Generic specification for optical fibres - Part 3: Measuring methods for mechanical characteristics (eqv IEC 793-1-3-1995)
GB/T 15972.4-1998 Generic specification for optical fibres - Part 4: Measuring methods for transmission and optical characteristics (eqv IEC 793-1-4-1995)
GB/T 15972.5-1998 Generic specification for optical fibres - Part 5: Measuring methods for environmental characteristics (eqv IEC 793-1-5-1995)
YD/T 629-1993 Monitoring methods for optical fibre transmission attenuation change
YD/T 837.4-1996 Test method of copper-core, polyolefin insulated, composite aluminum-plastic sheathed cables for urban local communications - Part 4: Test method of environmental performances
YD/T 839-2000 Filling compounds and flooding compounds for telecommunication cable and optical fibre cable
YD/T 901-2001 Optical fiber cables for core network - Loose tube stranding type of outdoor optical fiber cables for telecommunication
YD/T 908-2000 The naming rules for type of optical fibre cables
YD/T 1114-2001 Halogen-free flame retardant optical fiber cable
JB/T 8137-1999 Delivery drums for electric wires and cables
IEC 60794-1 (1996) Optical fibre cables - Part 1: Generic specification
IEC 60794-3 (1998) Optical fibre cables - Part 3: Duct, buried and aerial cables - Sectional specification
IEC 61395 (1998) Creep test procedures for stranded conductors
IEC 68-2-5 Environmental testing - Part 2: Simulated solar radiation test
3 Definitions
For the purposes of this standard, the following definitions apply.
3.1 rated tensile strength (RTS)
value obtaining by multiplying the product of the total cross-sectional area of the load-bearing components (aramid fiber bundle) and its minimum tensile strength in ADSS optical fiber cable structure by the coefficient k
Contents of YD/T 980-2002
Foreword i
1 Scope
2 Normative references
3 Definitions
4 Product classification
5 Optical fiber cable structure
6 Marking
7 Delivery length
8 Technical requirements for optical fiber cables
9 Test method
10 Inspection rules
11 Packaging
12 Transportation and storage
13 Installation recommendations
Annex A (Normative) Characteristics of silica multi-mode optical fiber
Annex B (Normative) Temperature cycling test
Annex C (Normative) Tracking resistance test
Annex D (Normative) Aeolian vibration test
Annex E (Normative) Galloping test
Annex F (Normative) Sheave test