1 - AS/NZS 3080:2000 TELECOMMUNICATIONS INSTALLATIONS-INTEGRATED TELECOMMUNICATIONS CABLING SYSTEMS FOR COMMERCIAL PREMISES (ISO/
4 - PREFACE
6 - CONTENTS
10 - FIGURES
12 - TABLES
14 - FOREWORD
15 - 1 Scope
16 - 2 Normative references
18 - 3 Definitions and abbreviations
18 - 3.1 Definitions
18 - 3.1.1 application
18 - 3.1.2 balanced cable
18 - 3.1.3 building backbone cable
18 - 3.1.4 building distributor
18 - 3.1.5 building entrance facility
18 - 3.1.6 cable
19 - 3.1.7 cable element
19 - 3.1.8 cable unit
19 - 3.1.9 cabling
19 - 3.1.10 campus
19 - 3.1.11 campus backbone cable
19 - 3.1.12 campus distributor
19 - 3.1.13 channel
19 - 3.1.14 cross-connect
19 - 3.1.15 distributor
19 - 3.1.16 equipment cable
19 - 3.1.17 equipment room
19 - 3.1.18 floor distributor
20 - 3.1.19 generic cabling
20 - 3.1.20 horizontal cable
20 - 3.1.21 hybrid cable
20 - 3.1.22 individual work area
20 - 3.1.23 interconnect
20 - 3.1.24 interface
20 - 3.1.25 jumper
20 - 3.1.26 keying
20 - 3.1.27 link
20 - 3.1.28 optical fibre cable (or optical cable)
20 - 3.1.29 optical fibre duplex adapter
20 - 3.1.30 optical fibre duplex connector
21 - 3.1.31 pair
21 - 3.1.32 patch cord
21 - 3.1.33 patch panel
21 - 3.1.34 permanent link
21 - 3.1.35 public network interface
21 - 3.1.36 quad
21 - 3.1.37 side circuit
21 - 3.1.38 shielded cables
21 - 3.1.39 shielded twisted pair cables
21 - 3.1.40 splice
21 - 3.1.41 star quad
22 - 3.1.42 telecommunications
22 - 3.1.43 telecommunications closet
22 - 3.1.44 telecommunications outlet
22 - 3.1.45 transition point
22 - 3.1.46 twisted pair
22 - 3.1.47 unshielded twisted pair cable
22 - 3.1.48 work area
22 - 3.1.49 work area cable
22 - 3.2 Abbreviations
23 - 4 Conformance
24 - 5 Structure of the generic cabling system
24 - 5.1 Structure
24 - 5.1.1 Functional elements
25 - 5.1.2 Cabling subsystems
25 - 5.1.3 Campus backbone cabling subsystem
25 - 5.1.4 Building backbone cabling subsystem
25 - 5.1.5 Horizontal cabling subsystem
26 - 5.1.6 Work area cabling
27 - 5.2 Overall structure
29 - 5.3 Location of distributors
30 - 5.4 Interfaces to the generic cabling system
30 - 5.4.1 Public network interface
31 - 5.5 Dimensioning and configuring
31 - 5.5.1 Floor distributor
31 - 5.5.2 Preferred cable types for pre-cabling and recommended use
31 - 5.5.3 Telecommunications outlets
32 - 5.5.4 Telecommunications closets and equipment rooms
32 - 5.5.5 Building entrance facilities
32 - 5.6 Electromagnetic compatibility
32 - 5.7 Earthing and bonding
33 - 6 Implementation
34 - 6.1 Horizontal cabling
34 - 6.1.1 Horizontal distances
35 - 6.1.2 Choosing cable types
35 - 6.1.3 Configuring TOs
36 - 6.2 Backbone cabling
36 - 6.2.1 Physical topology
37 - 6.2.2 Choosing cable types
37 - 6.2.3 Backbone cabling distances
38 - 7 Permanent link and channel specifications
38 - 7.1 Permanent links and channels
38 - 7.1.1 General
39 - 7.1.2 Permanent links
39 - 7.1.3 Channels
41 - 7.2 Classification of applications, links and channels
41 - 7.2.1 Application classification
42 - 7.2.2 Link and channel classification
43 - 7.3 Balanced cabling permanent links and channels
43 - 7.3.1 General
43 - 7.3.2 Nominal impedance
43 - 7.3.3 Return loss
44 - 7.3.4 Attenuation (insertion loss)
45 - 7.3.5 NEXT loss
46 - 7.3.6 Attenuation to crosstalk loss ratio
48 - 7.3.7 ELFEXT
50 - 7.3.8 DC loop resistance
50 - 7.3.9 Propagation delay
51 - 7.3.10 Delay skew
51 - 7.3.11 Longitudinal to differential conversion loss (balance)
52 - 7.3.12 Transfer impedance of shield
52 - 7.4 Optical fibre permanent links/channels
52 - 7.4.1 General
52 - 7.4.2 Optical attenuation
53 - 7.4.3 Multimode modal bandwidth
53 - 7.4.4 Return loss
53 - 7.4.5 Propagation delay
54 - 8 Cable requirements
54 - 8.1 General requirements for 100 ohms and 120 ohms balanced cable
57 - 8.1.1 Additional requirements for 100 ohms balanced cable
57 - 8.1.2 Additional requirements for 120 ohms balanced cable
58 - 8.2 General requirements for 150 ohms balanced cable
59 - 8.3 Additional crosstalk considerations for balanced cables
60 - 8.3.1 Power summation
60 - 8.4 Multimode optical fibre cables
61 - 8.5 Singlemode optical fibre cables
61 - 9 Connecting hardware requirements
61 - 9.1 General requirements
62 - 9.1.1 Location
62 - 9.1.2 Design
62 - 9.1.3 Operating environment
62 - 9.1.4 Mounting
62 - 9.1.5 Cross-connect jumpers and patch cords
63 - 9.1.6 Installation practices
63 - 9.1.7 Marking and colour coding
63 - 9.2 Connecting hardware for 100 ohms and 120 ohms cabling
63 - 9.2.1 General requirements
63 - 9.2.2 Performance marking
64 - 9.2.3 Mechanical characteristics
64 - 9.2.4 Electrical characteristics
65 - 9.2.5 Telecommunications outlet requirements
67 - 9.2.6 Installation practices
67 - 9.3 Connecting hardware for 150 ohms cabling
67 - 9.3.1 General requirements
67 - 9.3.2 Performance marking
67 - 9.3.3 Mechanical characteristics
68 - 9.3.4 Electrical characteristics
69 - 9.3.5 Telecommunications outlet requirements
69 - 9.3.6 Installation practices
70 - 9.4 Optical fibre connecting hardware
70 - 9.4.1 General requirements
70 - 9.4.2 Marking and colour coding
70 - 9.4.3 Mechanical and optical characteristics
71 - 9.4.4 Telecommunications outlet requirements
71 - 9.4.5 Cross-connect jumpers and patch cords
71 - 9.4.6 Optical fibre connectivity
71 - 10 Shielding practices
71 - 10.1 EMC
72 - 10.2 Grounding
72 - 11 Administration
72 - 11.1 Scope of administration
72 - 11.2 Identifiers
73 - 11.3 Records
73 - 11.3.1 Documentation
74 - Annex A - Test procedures
74 - A.1 Link performance testing
78 - A.2 Transmission testing of connecting hardware for balanced cabling
83 - A.3 Termination procedure and set- up verification for modular jack and plug testing
89 - Annex B - Reliability testing of connecting hardware for balanced cabling
89 - B.1 Introduction
90 - B.2 Contact resistance measurement
90 - B.3 Insulation resistance
90 - B.4 Durability
91 - B.5 Vibration
91 - B.6 Stress relaxation
91 - B.7 Thermal shock
91 - B.8 Humidity/ temperature cycle
92 - B.9 Corrosion testing
93 - Annex C - Requirements for flexible 100 ohms, 120 ohms and 150 ohms balanced cables
93 - C.1 General requirements
93 - C.2 Additional requirements for 150 ohms flexible cables
95 - Annex D - Topology
95 - D.1 Common topologies
96 - D.2 Configurations
97 - D.3 Application of the structured framework
99 - Annex E - Acronyms for balanced cables
100 - Annex F - Tutorial on link performance
100 - F.1 Balanced cable transmission
102 - F.2 Optical cabling
103 - Annex G - Supported applications
107 - Annex H - Fibre optic connectivity planning guide
107 - H.1 Introduction
107 - H.2 General recommendations
108 - H.3 Connectivity options at the TO
109 - H.4 Connectivity options at distributors
110 - Annex J - Bibliographical references
112 - Annex K - Additional Relevant Information for Australia and New Zealand
112 - K.1 General
115 - K.2 Segregation of power and telecommunications cables
115 - K.3 Colour codes
116 - K.4 Earthing
121 - K.5 Installation and testing
121 - K.6 Mandatory issues (in Australia)
123 - Annex L - Telecommunications outlets-Modular 8-way connectors
123 - L.1 Considerations
124 - Annex M - Shared sheath compatability guidelines
126 - Annex N - Supplementary glossary of terms, definitions, abbreviations and acronyms
126 - N.1 General
126 - N.2 Definitions
135 - N.3 Abbreviations and acronyms
137 - Annex O - Open office cabling
137 - O.1 General
137 - O.2 Definitions
138 - O.3 Standard practice
138 - O.4 Multi-user telecommunications outlet (MUTO)
140 - O.5 Consolidation point
142 - O.6 Testing open office cabling
143 - Annex P - Centralized optical fibre cabling
143 - P.1 General
144 - P.2 Cabling requirements
145 - P.3 Connecting hardware requirements
146 - P.4 Link specification
147 - Annex Q - Electromagnetic compatibility (EMC)
147 - Q.1 General
147 - Q.2 EMC framework
147 - Q.3 Cabling installation practices
148 - Q.4 Using transmission equipment with generic cabling
149 - Annex R - Referenced documents for Annexes K, L and ZZ
150 - Annex ZZ - Variations to ISO/IEC 11801:2000 Edition 1.2-Modified for application in Australia and New Zealand
150 - ZZ1 Introduction
150 - ZZ2 Variations