1、 ETSI GR OEU 023 V1.1.1 (2017-12) Operational energy Efficiency for Users (OEU); Plastic Optical Fiber Plugtests to determine the interoperability of networking equipment manufactured by different vendors Disclaimer The present document has been produced and approved by the Operational energy Effici
2、ency for Users (OEU) ETSI Industry Specification Group (ISG) and represents the views of those members who participated in this ISG. It does not necessarily represent the views of the entire ETSI membership. GROUP REPORT ETSI ETSI GR OEU 023 V1.1.1 (2017-12) 2 Reference DGR/OEU-0023 Keywords custome
3、r premises networks, fibre, intelligent homes Essential, or potentially Essential, IPRs notified to ETSI in respect of ETSI standards“, which is available from the ETSI Secretariat. Latest updates are available on the ETSI Web server (https:/ipr.etsi.org/). Pursuant to the ETSI IPR Policy, no invest
4、igation, including IPR searches, has been carried out by ETSI. No guarantee can be given as to the existence of other IPRs not referenced in ETSI SR 000 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the present document. Trademarks The present document
5、 may include trademarks and/or tradenames which are asserted and/or registered by their owners. ETSI claims no ownership of these except for any which are indicated as being the property of ETSI, and conveys no right to use or reproduce any trademark and/or tradename. Mention of those trademarks in
6、the present document does not constitute an endorsement by ETSI of products, services or organizations associated with those trademarks. Foreword This Group Report (GR) has been produced by ETSI Industry Specification Group (ISG) Operational energy Efficiency for Users (OEU). The present document is
7、 a Position Paper authored by the ICT users in the three main domains of ICT Sites, Smart Cities and Electrical/Electronic Equipment through the support of eG4U, the European Non-Governmental Organisation (NGO) of ICT users from public and private sector, working together in order to improve Energy
8、Management enabling engineers to get together to test the interoperability of their implementation of the standard. ETSI ETSI GR OEU 023 V1.1.1 (2017-12) 5 The present document introduces the interoperability tests of networking equipment manufactured by different vendors for Home and Small Office H
9、ome Office (SoHo) optical networks made of Plastic Optical Fibre (POF). Introduction Plastic Optical Fibre (POF) has recently emerged as a low-cost alternative to traditional twisted pair copper cabling in Home and Small Office Home Office (SoHo). POF offers several benefits to the user amongst whic
10、h the ease of installation is particularly significant (can even be cut with a simple pair of scissors). POF is lightweight, robust and uses 650 nm red light (LED) which makes the technology completely safe for the users vision. Furthermore, this safety feature is of extra benefit to the installer b
11、ecause the red light is extremely clear for the human eye and therefore helps to diagnose if the data communication link is operational. Significant upgrades on the Fibre to the X (FTTH the operational scenario used during the tests; the interoperability test descriptions describing the scenarios, w
12、hich the participants will follow to perform the interoperability tests. 2 References 2.1 Normative references Normative references are not applicable in the present document. 2.2 Informative references References are either specific (identified by date of publication and/or edition number or versio
13、n number) or non-specific. For specific references, only the cited version applies. For non-specific references, the latest version of the referenced document (including any amendments) applies. NOTE: While any hyperlinks included in this clause were valid at the time of publication, ETSI cannot gua
14、rantee their long term validity. The following referenced documents are not necessary for the application of the present document but they assist the user with regard to a particular subject area. i.1 ISO/IEC 11801: “Information technology - Generic cabling for customer premises“. i.2 ETSI TS 105 17
15、5-1: “Access, Terminals, Transmission and Multiplexing (ATTM); Plastic Optical Fibre System Specifications for 100 Mbit/s and 1 Gbit/s“. i.3 ETSI TS 105 175-1-1: “Access, Terminals, Transmission and Multiplexing (ATTM); Plastic Optical Fibres; Part 1: Plastic Optical Fibre System Specifications for
16、100 Mbit/s and 1 Gbit/s; Sub-part 1: Application requirements for physical layer specifications for high-speed operations over Plastic Optical Fibres“. i.4 ETSI TS 105 175-1-2: “Access, Terminals, Transmission and Multiplexing (ATTM); Plastic Optical Fibres; Part 1: Plastic Optical Fibre System Spec
17、ifications for 100 Mbit/s and 1 Gbit/s; Sub-part 2: 1 Gbit/s and 100 Mbit/s physical layer for Plastic Optical Fibres“. i.5 IEEE 802.3u: “IEEE Standards for Local and Metropolitan Area Networks-Supplement - Media Access Control (MAC) Parametres, Physical Layer, Medium Attachment Units and Repeater f
18、or 100Mb/s Operation, Type 100BASE-T (Clauses 21-30)“. ETSI ETSI GR OEU 023 V1.1.1 (2017-12) 7 i.6 IEEE 802.3z: “Media Access Control Parametres, Physical Layers, Repeater and Management Parametres for 1,000 Mb/s Operation, Supplement to Information Technology - Local and Metropolitan Area Networks
19、- Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications“. i.7 IEEE 802.3bv: “IEEE Standard for Ethernet Amendment 9: Physical Layer Specifications and Management Parametres for 1000 Mb/s Operation Over Plastic Optical Fibre“. i.8 IEC
20、 60793-2-40 ed.3.0:2009: “Optical fibres - Part 2-40: Product specifications - Sectional specification for category A4 multimode fibres“. i.9 IEC 60793-2-40 ed.2.0:2006 : “Optical fibres - Part 2-40: Product specifications - Sectional specification for category A4 multimode fibres“. i.10 ETSI ES 201
21、 873-1: “Methods for Testing and Specification (MTS); The Testing and Test Control Notation version 3; Part 1: TTCN-3 Core Language“. i.11 ETSI TS 102 950-2: “Methods for Testing and Specification (MTS); TTCN-3 Conformance Test Suite; Part 2: Test Suite Structure and Test Purposes (TSS with either a
22、 passive or an active POF equipment; without involving any Internet Protocol (IP) over Ethernet network host. Tests investigations in this category are realized through visual observations of both mechanical and optical behaviours. A passive POF equipment is from types: fibre patch panel, fibre in-l
23、ine adaptor. An active POF equipment is from types: Ethernet media converter, Ethernet switch. 4.5.1.1 PASSIVE - TP/POF/PSPT/PCOMPONENT/BV TP ID TP/POF/PSPT/PCOMPONENT/BV/01 Test objective Verifying mechanical POF cable dimension (diameter) compliance with MDI physical interface and vice versa as we
24、ll as the correct clamping conditions for passive equipment when the cable is cut with a regular cutting tool. Initial situation POF cable cut with a scissor or a cutter. A POF cable segment of 1 metre minimum with fibre diameter (including jacket) included between 1,5 and 2,2 mm. A POF passive equi
25、pment with connector less MDI interface. Expected behaviour Connecting the POF cable to the equipment MDI interface. POF cable raw cut should not impact the mechanical connection between the media and the MDI interface. POF cable should easily be inserted into the connector less MDI interface. POF c
26、able manipulation near the connector less MDI interface should not have any impact on clampings strength. Final situation POF cable should be appropriately inserted and hold with the clamping mechanism of the MDI interface of the passive equipment. TP ID TP/POF/PSPT/PCOMPONENT/BV/02 Test objective V
27、erifying mechanical POF cable dimension (diameter) compliance with MDI physical interface and vice versa as well as the correct clamping conditions for a passive equipment when the cable is cut with a dedicated cutting tool. Initial situation POF cable cut with a dedicated cutting tool. A POF cable
28、segment of 1 metre minimum with fibre diameter (including jacket) included between 1,5 and 2,2 mm. A POF passive equipment with connector less MDI interface. Expected behaviour Connecting the POF cable to the equipment MDI interface. POF cable should easily be inserted into the connector less MDI in
29、terface. POF cable manipulation near the connector less MDI interface should not have any impact on clampings strength. Final situation POF cable should be appropriately inserted and hold with the clamping mechanism of the MDI interface of the passive equipment. ETSI ETSI GR OEU 023 V1.1.1 (2017-12)
30、 22 4.5.1.2 PASSIVE - TP/POF/PSPT/PCOMPONENT/BI TP ID TP/POF/PSPT/PCOMPONENT/BI/01 Test objective Verifying mechanical impact of incorrect POF cable coupling with MDI physical interface for a passive equipment. Initial situation POF cable cut with a dedicated cutting tool. A POF cable segment of 1 m
31、etre minimum with fibre diameter (including jacket) included between 1,5 and 2,2 mm. A POF passive equipment with connector less MDI interface. Expected behaviour Connecting the POF cable to the equipment MDI interface. POF cable should easily be inserted into the connector less MDI interface. POF c
32、able introduction into the MDI interface should be realized without complete insertion. POF cable manipulation near the connector less MDI interface should have some impacts on clampings strength. Final situation POF cable should be inappropriately inserted and the clamping mechanism of the MDI inte
33、rface should not be tight on the passive equipment. 4.5.1.3 PASSIVE - TP/POF/PSPT/ACOMPONENT/BV TP ID TP/POF/PSPT/ACOMPONENT/BV/01 Test objective Verifying mechanical POF cable dimension (diameter) compliance with MDI physical interface and vice versa as well as the correct clamping conditions for a
34、n active equipment when the cable is cut with a regular cutting tool. Initial situation POF cable cut with a scissor or a cutter. A POF cable segment, length of 1 metre minimum, with fibre diameter (including jacket) included between 1,5 and 2,2 mm. A POF active equipment with connector less MDI int
35、erface. Expected behaviour Connecting the POF cable to the equipment MDI interface. POF cable should easily be inserted into the connector less MDI interface. POF cable raw cut should not impact the mechanical connection between the media and the MDI interface. POF cable manipulation near the connec
36、tor less MDI interface should not have any impact on clampings strength. Final situation POF cable should be appropriately inserted and hold with the clamping mechanism of the MDI interface of the active equipment. TP ID TP/POF/PSPT/ACOMPONENT/BV/02 Test objective Verifying mechanical POF cable dime
37、nsion (diameter) compliance with MDI physical interface and vice versa as well as the correct clamping conditions for an active equipment when the cable is cut with a POF cutting tool. Initial situation POF cable cut with a dedicated cutting tool. A POF cable segment, length of 1 metre minimum, with
38、 fibre diameter (including jacket) included between 1,5 and 2,2 mm. A POF active equipment with connector less MDI interface. Expected behaviour Connecting the POF cable to the equipment MDI interface. POF cable should easily be inserted into the connector less MDI interface. POF cable manipulation
39、near the connector less MDI interface should not have any impact on clampings strength. Final situation POF cable should be appropriately inserted and hold with the clamping mechanism of the MDI interface of the active equipment. ETSI ETSI GR OEU 023 V1.1.1 (2017-12) 23 4.5.1.4 PASSIVE - TP/POF/PSPT
40、/ACOMPONENT/BI TP ID TP/POF/PSPT/ACOMPONENT/BI/01 Test objective Verifying mechanical impact of incorrect POF cable coupling with MDI physical interface for an active equipment. Initial situation POF cable cut with a dedicated cutting tool. A POF cable segment, length of 1 metre minimum, with fibre
41、diameter (including jacket) included between 1,5 and 2,2 mm. A POF active equipment with connector less MDI interface. Expected behaviour Connecting the POF cable to the equipment MDI interface. POF cable should easily be inserted into the connector less MDI interface. POF cable introduction into th
42、e MDI interface should be realized without complete insertion. POF cable manipulation near the connector less MDI interface should have some impacts on clampings strength. Final situation POF cable should be inappropriately inserted and the clamping mechanism of the MDI interface should not be tight
43、 on the active equipment. 4.5.1.5 SEMI PASSIVE - TP/POF/PSPT/ACOMPONENT/BV =no bending= TP ID TP/POF/PSPT/ACOMPONENT/BV/03 Test objective Verifying optical impact of POF cable MDI physical interface clamping on light transmission through the fibre with a length of 10 metres without any bends when th
44、e cable is cut with a regular cutting tool. Initial situation POF cable cut with a scissor or a cutter. A POF cable segment of 10 metres with fibre diameter (including jacket) included between 1,5 and 2,2 mm. A setup with straight wires without any bends. A POF active equipment (media converter or E
45、thernet switch) with connector less MDI interface. Expected behaviour Connecting the POF cable to the equipment MDI interface. POF cable raw cut should not impact the light signal transmission between the optical LED transceiver and the media. Manipulating the POF cable near the connector less MDI i
46、nterface should not have any impact light transmission at the other extremity of the cable. Final situation Red Light observation on the unconnected extremity of the POF cable should stay visible without interruption and provides the same visual lightning conditions. TP ID TP/POF/PSPT/ACOMPONENT/BV/
47、04 Test objective Verifying optical impact of POF cable MDI physical interface clamping on light transmission through the fibre with a length of 10 metres without any bends when the cable is cut with a POF cutting tool. Initial situation Cutting the POF cable with a dedicated cutting tool. A POF cab
48、le segment of 10 metres with fibre diameter (including jacket) included between 1,5 and 2,2 mm. A setup with straight wires without any bends. A POF active equipment (media converter or Ethernet switch) with connector less MDI interface. Expected behaviour Connecting the POF cable to the equipment M
49、DI interface. Manipulating the POF cable near the connector less MDI interface should not have any impact light transmission at the other extremity of the cable. Final situation Red Light observation on the unconnected extremity of the POF cable should stay visible without interruption and provides the same visual lightning conditions. ETSI ETSI GR OEU 023 V1.1.1 (2017-12) 24 TP ID TP/POF/PSPT/ACOMPONENT/BV/05 Test objective Verifying optical impact of POF cable MDI physical interface clamping on light transmission through the fibre with a length of
