PD CLC/TR 50117-8:2013
Current
The latest, up-to-date edition.
Coaxial cables used in cabled distribution networks Repair and substitute of damaged buried cables
Hardcopy , PDF
English
04-30-2013
Foreword
1 Scope
2 Normative References
3 Terms and definitions
4 Coaxial cables
5 Laying of underground cables
6 Effects of damage
7 Types of errors
8 Failure analysis and repair
9 Attenuation of cable joints and connectors
10 Use of materials and correct handling
11 Documentation
12 Measurement evidence
Annex A (informative) - Theoretical Background
Annex B (informative) - Examples of damage
Bibliography
Defines the procedure to repair damaged CATV cables.
Committee |
EPL/46
|
DocumentType |
Standard
|
Pages |
28
|
PublisherName |
British Standards Institution
|
Status |
Current
|
This Technical Report describes the procedure to repair damaged CATV cables.
The following coaxial cables are considered in this guide :
Coaxial cables with semi air spaced dielectric Outer conductor: copper band, longitudinal welded
Coaxial cables foamed polyethylene or solid poly ethylene dielectric Outer conductor: copper band, longitudinal welded
Coaxial cables foamed polyethylene or solid polyethylene dielectric Outer conductor: Overlapped foil of copper or aluminium with braid
Coaxial cables foamed polyethylene or solid polyethylene dielectric Outer conductor: Overlapped foil of copper or aluminium without braid
Coaxial cables foamed polyethylene dielectric Outer conductor: Corrugated copper
This guide is a helpful tool for providers and installers to find out the extend and the effects of damaged cables and to achieve and to evaluate appropriate repair operation.
For not buried cables, e.g. indoor cables, the application of this guide is analogous.
NOTE The kind respectively the material of the cable sheath makes the coaxial cable an \'underground\' cable. In the underground area the cable jacket determines the long term behaviour of the cable significantly. For this purpose, only plastics with a high long-term stability are used, usually polyethylene (PE). This material pr ovides protection against ingress of water or water-diffusion with good mechanical properties.
Standards | Relationship |
CLC/TR 50117-8:2013 | Identical |
IEC 61196-1-112:2006 | Coaxial communication cables - Part 1-112: Electrical test methods - Test for return loss (uniformity of impedance) |
IEC 61196-1-108:2011 | Coaxial communication cables - Part 1-108: Electrical test methods - Test for characteristic impedance, phase and group delay, electrical length and propagation velocity |
EN 50117-2-3:2004/A2:2013 | COAXIAL CABLES - PART 2-3: SECTIONAL SPECIFICATION FOR CABLES USED IN CABLED DISTRIBUTION NETWORKS - DISTRIBUTION AND TRUNK CABLES FOR SYSTEMS OPERATING AT 5 MHZ - 1000 MHZ |
EN 50290-4-2:2014 | Communication cables - Part 4-2: General considerations for the use of cables - Guide to use |
IEC 60728-1-1:2014 | Cable networks for television signals, sound signals and interactive services - Part 1-1: RF cabling for two way home networks |
EN 60728-1-1:2014 | Cable networks for television signals, sound signals and interactive services - Part 1-1: RF cabling for two way home networks |
EN 60728-1:2014 | Cable networks for television signals, sound signals and interactive services - Part 1: System performance of forward paths |
EN 50290-1-2:2004 | Communication cables - Part 1-2: Definitions |
IEC 61196-1-115:2006 | Coaxial communication cables - Part 1-115: Electrical test methods - Test for regularity of impedance (pulse/step function return loss) |
EN 50117-1 : 2002 AMD 2 2013 | COAXIAL CABLES - PART 1: GENERIC SPECIFICATION |
IEC 60728-1:2014 | Cable networks for television signals, sound signals and interactive services - Part 1: System performance of forward paths |
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