INCOAX D2508 MoCA Access DPU User Manual

INCOAX D2508 MoCA Access DPU

Disclaimer

InCoax Networks AB makes no representations or warranties with respect to this manual and, to the maximum extent permitted by law, expressly limits its liability for breach of any warranty that may be implied to the replacement of this manual with another. Furthermore, InCoax Networks AB reserves the right to revise this publication at any time without incurring an obligation to notify any person of the revision. The information provided in this documentation contains general descriptions and/or technical characteristics of the performance of the products contained herein. This documentation is not intended as a substitute for and is not to be used for determining suitability or reliability of these products for specific user applications. It is the duty of any such user or integrator to perform the appropriate and complete risk analysis, evaluation and testing of the products with respect to the relevant specific application or use thereof. Neither InCoax Networks AB nor any of its affiliates or subsidiaries shall be responsible or liable for misuse of the information that is contained herein. If you have any suggestions for improvements or amendments or have found errors in this publication, please notify us. All pertinent state, regional, and local safety regulations must be observed when installing and using this product. For reasons of safety and to help ensure compliance with documented system data, only the manufacturer shall perform repairs to components. Failure to observe this information can result in injury or equipment damage.

Copyright © 2022 InCoax Networks AB. All rights reserved. Confidential under NDA.
No part of this publication may be reproduced, distributed, or transmitted in any form or by any means, including photocopying, recording, or other electronic or mechanical methods, without the publisher’s prior written permission

Document Revisions

Preface

Conventions Used in this Manual
The references to another document or websites are labeled with lower case bold and italic characters within curly brackets { }.
All references in the text to a section, figure, and table are denoted in bold and italic.

Safety Instructions

WARNING
Always make sure to connect all coaxial cables and network cables to DPU before connecting the power cable. Ground the DPU enclosure in the DPU earth terminal with coaxial network earth terminal. This must be done to avoid electrical shock and to avoid damage to the unit. Ground loops might build up enough electrical charge to give an electrical shock if not properly connected before connecting the power cord. Make sure to connect the CATV amplifier’s ground connection to the DPU unit if both the CATV amplifier and DPU are installed in the same physical location.

When using the DPU

WARNING
The DPU is designed to operate on 100/230 VAC or Reverse Power Feeding. To enable RPF, an InCoax RPF modem must be used.
Please observe the following:

• Do not stick any foreign objects, like metal or flammable objects into the DPU, as this can cause fire or electric shock.

• Do not remove the inner cover sheets or modify them in any way.

  • High voltages which can cause severe electric shocks are present inside the DPU enclosure. For any inspection, adjustment, and repair work please contact the local InCoax dealer. The warranty may be void if the cover to the high voltage DPU area has been opened.
  • Never attempt to repair this product yourself. Improper repair work can be dangerous. Never disassemble or modify this product. Tampering with this product may result in injury or fire.
    The warranty is void if the cover to the low voltage DPU area has been opened.

• Do not handle the power supply plug with wet hands as this may cause electric shocks.

• Do not use in locations subject to high humidity or dust levels exceeding IP certification, as this may cause damage to the equipment or start a fire.

• Do not do anything that may damage the power cable. When disconnecting the power cable, pull on the plug body, not the cable.

• Do not damage a power cable, make any modifications to it, place heavy objects on top of it, heat it, place it near any hot objects, twist it, bend it excessively, or pull it. To do so may cause fire and electric shock. The whole power cord should be discarded if the cable is damaged in any way.

• The power cord shall also be discarded if the plug is damaged.

• Do not place heavy objects on top of the DPU.

• Securely insert the power supply plug as far as it will go.

• Unplug all cables connected to the DPU before moving it.

It is recommended to unplug the power cord from the wall outlet if the DPU is not going to be used for any prolonged length of time.
Never have a management port connected while using management VLAN!

Temperature Warning

If the DPU is installed in an environment where the surrounding temperature is 70 oC (158 oF) or more,
the coax connectors can reach a temperature of more than 85 oC (185 oF). In this case the coax connectors must not be covered or in contact with combustible materials due to the risk of fire.

Installation Environment

• Install the DPU in a site free from strong electromagnetic field generators (such as motors), vibration, dust, and direct exposure to sunlight.

• Install the DPU in a cool and dry place for the acceptable temperature and humidity operating ranges.
  See section 6 on page 12 for the actual temperature ranges.

• Install the DPU on a sturdy, level surface that can support at least 5 kg (11 lbs) of weight. Leave at least 10 cm (4 inches) of space at the front for the coax cable F-connectors.

• Make sure that there are no insulating materials that can cover the DPU by accident.

• Please also make sure that there are no corrosive liquids or materials that can emit any corrosive gases in the same room as the DPU.

Storage Environment

The ideal storage location is a dry and well-ventilated location, e.g. in a space with climate-control. Please refer to section 6 on page 12 for more details about the specified environmental storage conditions.

Theft and Vandalism

Depending on the circumstances for the installation it may be appropriate to mount the equipment (i.e. the DPU, Diplexers and Switches) in a cabinet that can be locked securely.

Abbreviations and Definitions

Abbreviations
The abbreviations that are used in this document are defined in Table 1.

health, safety, and environmental protection standards for products sold within the European Economic Area.
CPE| Customer-Premises Equipment or Customer-Provided Equipment.
C- VLAN| Customer VLAN is the VLAN that the customer uses or sees (the inner tag). C-VLAN is the VLAN tag the customer is using on their own devices. (See QinQ.)
DHCP| Dynamic Host Configuration Protocol is an automatic configuration protocol used to automatically assign IP addresses to devices on a TCP/IP network.
DPU| Data Processing Unit; often referred to as an Access Node or Control Unit.
EMC| Electro Magnetic Compatibility.
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FCC

| The Federal Communications Commission is an independent agency of the United States government created by statute to regulate interstate communications by radio, television, wire, satellite, and cable.
IGMP| Internet Group Management Protocol is a protocol used to establish multicast group membership.
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MAC Address

| Media Access Control address is a unique identifier assigned to a Network Interface DPU (NIC) for communications at the data link layer of a network segment. MAC addresses are used as a network address for most IEEE 802 network technologies, including Ethernet, Wi-Fi, and Bluetooth.
MGMT| Denotes the Management port on the DPU.
OFDM| Orthogonal Frequency-Division Multiplexing is a method of encoding digital data on multiple carrier frequencies.
PA| Power amplifier
PHY| Physical Layer of the OSI model.
PPPoE| Point-to-Point Protocol over Ethernet is a network protocol for encapsulating PPP frames inside Ethernet frames.
PON| Passive Optical Network with its variants XGS-PON, GPON and EPON.
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QAM

| Quadrature Amplitude Modulation is the name of a family of digital modulation methods and a related family of analog modulation methods widely used in modern telecommunications to transmit information.
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QinQ

| An Ethernet networking standard informally known as QinQ, was incorporated into the base IEEE 802.1Q standard in 2011. The IEEE 802.1Q technology improves the utilization of VLANs by adding another IEEE 802.1Q tag to tagged packets. (See C-VLAN and S-VLAN.) See reference {a }.
QoS| Quality of Service is the ability to provide different priority to different applications, users, or data flows, or to guarantee a certain level of performance to a data flow.
QPSK| Quadrature Phase-Shift Keying.
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RPF

| Reverse power feeding (RPF) is a technology being standardized by ETSI and the Broadband Forum. It allows sending power from the customer CPE to a distribution point (DP), in order to power the distribution point unit (DPU).
RoHS| Restriction of Hazardous Substances. This is a directive on the restriction of the use of certain hazardous substances in electrical and electronic equipment. See reference {b }.
SerDes| Serializer/Deserializer is a pair of functional blocks commonly used in high-speed communications to compensate for limited input/output.
SFP/SFP+| Small Form factor Pluggable transceiver. SFP ≤ 1 Gbps and SFP+/Enhanced ≤ 10 Gbps.
Abbreviation| Description
---|---
SOAP| Simple Object Access Protocol is a protocol for exchanging structured information.
S-VLAN| Service VLAN is the VLAN that the service provider network sees (the outer Q-tag). S-VLAN is the VLAN the service provider puts the entire customer traffic in. (See QinQ.)
TCP/IP| Transmission Control Protocol/Internet Protocol is the architecture for data communication over networks.
TDD| Time Division Duplex is the topology adopted to make communication between two wireless devices at one frequency but with two different time instants.
TDMA| Time-Division Multiple Access is a channel access method for shared-medium networks.
URL| Uniform Resource Locator is the address of a resource on the Internet.
UTP| Unshielded Twisted Pair.
Web GUI| Web Graphical User Interface is a user interface that allows users to interact with in:xtnd electronic devices through a web page.
WEEE| Waste Electrical and Electronic Equipment.
XML| eXtensible Markup Language is languages which describe the information.

Definitions
Table 2 shows the terminology and definitions that are being used in this document.

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Access Modem

| The InCoax Modems is a series of Ethernet over Coax network terminals providing 1 Gbps Ethernet. The modems communicate with the InCoax D2508 DPU based on the MoCA Access™

2.5 standard. The Access Modems are installed in the subscribers’ premises. The in:xtnd™ Access A101 is a 1 Gbps Ethernet port Modem.

These devices will be referred to as the Modem in this document.

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DPU

| The InCoax D2508 is a eight-channel Ethernet over Coax Access Node, capable of 2.5 Gbps on the RF port supporting up to 4 Modems. The communication with the Modems is based on the MoCA Access™ 2.5 standard.

This device will be referred to as the DPU in this document.

Customer| End user or subscriber of broadband services.
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Diplexer

| The in:xtnd™ Combine(diplexer) is a series of high-performance bidirectional frequency combiners, i.e. for combining and splitting frequencies. The combiners/diplexers are used for connecting one or two MoCA Access broadband frequency spectrum signals from an in:xtnd™ DPU with Radio/TV frequency spectrum signals into a single coaxial cable. The bidirectional diplexer also protects

the DPU from receiving RF signal disturbances outside of the MoCA Access broadband frequency spectrum and should always be installed.

These devices will be referred to as the Diplexer in this document.

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Management System

| The InCoax Management System is a Linux-based, advanced element manager with features for DPU deployment, control, and supervision of the coax link conditions. It includes essential functions for service provisioning and network management.

This software will be referred to as the Management System in this document.

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MoCA Access

| The MoCA Access™ 2.5 standard is a point-to-multipoint access technology over coaxial network. It is designed to co-exist with legacy services such as TV and DOCSIS 3.0/3.1. The operating frequency range is between 400 MHz and 1675 MHz. See reference {c }.
Trunk| The Trunk is the uplink port from the DPU. It uses SFP modules.

Package Content

Check that all the accessories and items, as shown in Table 3, are present in the package.

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MoCA Access DPU D2508

| XGS-PON, GPON, EPON and Ethernet Access Node, capable of 2.5 Gbps (max.

3.2 Gbps aggregated) on each coax RF port.

|
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Warranty

| __

Warranty coverage, Technical specification, Disposal & Recycling document.

|
Additional Information
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Power Supply

| Power cord with EU plug, order DPU with article D2508 EU| If Reverse Power Feed (RPF) is used, the Power Cord may be disconnec- ted from power outlet (if not used for back-up power). The cord can be

detached from the Power Supply unit and disconnected from the enclosure. Please fill the Power Input bushing with the rubber plug.

Power cord with UK plug, order DPU with article D2508 UK
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Power cord with US plug, order DPU with article D2508 US

Introduction

This document describes some of the features of an InCoax D2508 model. It also includes a technical specification, as well as information about the regulatory statements and the proper disposal of the equipment. This specific model of the DPU provides a throughput of 2.5 Gbps (max. 3.2 Gbps) on each coax port.

InCoax D2508 MoCA Access DPU System
InCoax™ is a provider of broadband access solutions leveraging existing in- building coaxial cable networks. The InCoax D2508 MoCA Access DPU System consists of a Persistent Management Agent Aggregator (PMAA) if NETCONF/YANG communication protocol is used or Automatic Configuration Server (ACS) if Configuration WLAN Management Protocol (CWMP) is used, hereafter called Management System, which manages the DPUs installed in, or near, buildings and Modems installed in the customers’ homes. An illustration of the Management System can be seen in Figure 1. The Modem is easily connected by the customers without any requirements for customer configuration. This architecture makes the MoCA Access DPU System very flexible supporting different types of networks. Once the DPU has been installed in, or near, the building the only required operation to connect new customers is to provide them with a Modem. (Please refer to the InCoax handbook System Design Guidelines for Cable Technicians for guidance). As soon as the Modem has been connected to the coaxial network, it will automatically be detected and configured by the DPU through the Management System (if such setup has been enabled in the Management System). The typical MoCA Access DPU System consists of distributed Management System Architecture which handles thousands of DPUs and millions of Modems. If there is a legacy cable-TV service in the building the TV signal must be combined with the broadband signal using the Diplexer Filter. The Management System is used as a customer configuration, monitoring, and provisioning tool through a web interface or be accessed by provisioning system or Operating Support System through NETCONF or TR-069 interface.

The DPU
The DPU acts as a bridge between the incoming XGS-PON, GPON, EPON or Ethernet access network and customers’ Ethernet Modem port, using the in-building coaxial network as transport for data traffic to the Modems. The DPU communicates with all Modems, over dedicated RF bands, in the coaxial network to manage their individual configuration, enforces traffic, and security policies. It also collects and stores traffic statistics data from the network.

D2508 Input Power alternatives
The DPU is powered by the AC Power cord connected to the public power grid (100 – 120VAC or 200 – 240VAC). It can also be powered through the coax cable by Reverse Power Feeding (RPF) from a customer modem. To offer this powering, an InCoax Reverse Powering modem must be used. If Reverse Power Feeding is to be utilized, only one modem per RF port can be connected. DPU with RPF capabilities is named D2508 RPF or D2508 RPF ER. When powered by RPF, the AC power cord can then be detached from the AC outlet. To ensure continuous power, the AC power cord can still be connected to AC power. AC power will be prioritized when present.

D2508 ER extended range
The DPU is communicating with the InCoax Access (CPE) modems using RF signals. The standard DPU RF signal strength is normally sufficient within a common P2P (Point-To-Point/Homerun) coaxial network. If the distance between the DPU and modem is long or multiple modems are connected to an individual RF-port (P2MP – Point-To-Multipoint), an ER (Extended Range) DPU version is available. The ER functionality increases the individual RF output signal strength. To access the ER functionality, the DPU version must be marked InCoax D2508 ER or InCoax D2508 RPF ER. The ER functionality can be switched off by configuration of the DPU in ER versions.

Coaxial Network Use Cases

In general, the D2508 can be used for different coaxial network use cases depending on the used spectrum for the current TV/DOCSIS services. MoCA Access have five default frequency bands and InCoax has added two additional frequency bands as presented hereunder:

• Band A-A 400-900 MHz for residential networks with specified spectrum up to 1002 MHz
• Band A-AH 550-850 MHz for hotel networks with specified spectrum up to 862 MHz
• Band A-AS 400-800 MHz co-existence in satellite networks with spectrum up to 2150 MHz
• Band A-B 800-1300 MHz co-existence in TV networks with a spectrum up to 1300 MHz
• Band A-C 1025-1675 MHz co-existence in TV / DOCSIS 3.0 networks with a spectrum up to 1800 MHz
• Band A-D 1125-1675 MHz co-existence in TV / DOCSIS 3.0 networks with a spectrum up to 1800 MHz
• Band A-E 1375-1675 MHz co-existing in TV/DOCSIS 3.1 networks with a spectrum up to 1800 MHz

DPU Web Interface Access

The DPU can be managed via the management port using a web interface. Please refer to the InCoax document “Configuration Manual” for a more detailed description of the web interface and how to set up the DPU. See reference {f}.

Accessing the DPU Web Interface
Connect a computer with an Ethernet cable to the Management port on the DPU.

NOTICE
For best user experience, InCoax recommends to enable JavaScript.

Specifications

The electrical, physical, and functional specifications for the D2508 DPU. Please note that the specification may be subject to change.

Performance

• Based on MoCA Access 2.5 Profile D. See reference {c}
• 2.5 Gbps throughput on the MoCA port with 30dB SNR
• 3.2 Gbps throughput on the MoCA port with 40dB SNR
• Max 4 Modems
• MoCA Bands: A – A, A – AH, A – AS, A – B, A – C, A – D and A – E
• Frequency range: 400 to 1675 MHz
• RF channel bandwidth: 100 MHz
• Bonded operation supporting 3, 4, or 5 RF channels
• 17 dBm maximum output power; automatically adjusted per modem
• Configurable beacon frequency
• Modulation: OFDM, QAM 8, 16, 32, 64, 128, 256, 512, or 1024; BPSK and QPSK
• Multiplexing methods: TDMA/TDD
• Communication: Half-duplex

Physical

• Northbound fiber SFP+ port inside enclosure
• Multi Source Agreement (MSA) compliant, SerDes – 10 Gbps data rate, SFF-8472 (see reference
• {h}) – Diagnostics interfacea
• Supporting XGS-PON, XG-PON, GPON, EPON and Ethernet
• Management Ethernet port : 10 / 100 / 1000 Mbps, configuration and statistics port
• RJ-45 connector supports type CAT5 UTP (as a minimum)
• Eight coax MoCA ports
• F-female connector – 3/8-UNEF32, 75 Ω
• F-female connector – 3/8-UNEF32, 75 Ω for 56VDC, 0.368A max power feed

Indicators

• Power on, Management, Trunk, Coax Link traffic and alerts

Dimensions

• 326 × 123 × 204 mm (W × H × D)
• Wall mount

Weight

• 7 kg

Environmental

• Outdoor equipment, IP67
• Type 4X enclosure
• Operating temperature: -30 °C to +70 °C
  • Relative humidity: 20 % to 80 %
  • Altitude: maximum 2000 m
  • Dynamic temperature control with cooling redundancy
  • Abnormal operation conditions alarms
  • Storage (non-condensing): -40 °C to +70 °C and 5 % to 90 % relative humidity
  • RoHS and RoHS 2. See reference {b}
  • UL 94 V-0. See reference {i}

Power

• 100-120VAC, 50/60Hz, 1.2A max
  or

• 200-240VAC, 50/60Hz, 0.6A

  • Power consumption 45 W nominal when PA is activated
  • Automatic power on after power grid failure

IEEE Standards

• IEEE 802.3 (Ethernet) {k}
• IEEE 802.3u (Fast Ethernet) {m}
• IEEE 802.1p (Priority tags) {g}
• IEEE 802.1q (VLAN with full VLAN-ID range. Up to 200 VLAN Configurable internal VLAN for policing, shaping and prioritization for ingress untagged frames) {a}
• IEEE 802.1ad (QinQ) {j}

Approvals

• FCC ID 2ATQM1000-0577 {s}
  • Marking: CE (see section 7.1.2), FCC (see section 7.1.3), IC, TUV SUD NRTL (see section 7.1.4), UKCA (see section 7.1.5)
  • EMC: EN55032:2015 Class A, EN55035:2017 {p}, FCC Part 15 B Class A, ICES-003 Class A (see section 7.1.1)
  • Safety: IEC62368-1:2014, EN62368-1:2014 {q} + A11:2017, AS/NZS 62368.1:2018, CSA/UL 62368-1:2014, IEC60950-22:2016
  • ROHS: ROHS 2.0

Security

• DHCP snooping, Option 82 rewrite and trusted/untrusted clients, limit setting, configurable options per VLAN
  • Blocking of unknown CPE
  • Broadcast storm protection from clients
  • Support for PPPoE IA option 0x105 Remote ID

Multicast

• IGMP snooping (v2, v3)
  • IGMP filtering per VLAN
  • Configurable IGMP timeout
  • Multicast VLAN Registration
  • Bandwidth reservation per multicast group
  • Max. 256 Multicast groups and MAC addresses

QoS

• Traffic classification
  • Mapping and remarking
  • Congestion management
  • Strict priority, four separate queues for broadcast, multicast, and unicast
  • Configurable rate limitation per queue
  • Configurable upstream/downstream ratio

Management

• IPv4 WEB GUI via https
  • NETCONF / YANG
  • CWMP -TR069
  • MoCA Access MIB and TR-181
  • Statistics and system/version information
  • Configuration
  • Define and assign service profiles
  • Built in spectrum analyzer
  • Access through management VLAN or separate management Ethernet port
  • Remotely upgradable

Legal Information

Regulatory Notice and Statement (Class A)
Model List:

• InCoax D2508 EU
• InCoax D2508 UK
• InCoax D2508 US
• InCoax D2508 ER EU
• InCoax D2508 ER UK
• InCoax D2508 ER US
• InCoax D2508 RPF EU
• InCoax D2508 RPF UK
• InCoax D2508 RPF US
• InCoax D2508 RPF ER EU
• InCoax D2508 RPF ER UK
• InCoax D2508 RPF ER US

Canada
The following information applies if the product is used within the Canada area.
Industry Canada ICES Statement
CAN ICES-003 Class A. See reference
{r} WEEE Directive 2012/19/EU – This is the European Community Directive on Waste Electrical and Electronic Equipment (WEEE) which, together with the RoHS Directive 2011/65/EU, became European Law in February 2003.
ec.europa.eu/environment/waste/weee/index_en.htm
and
eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:32012L0019
{s} Battery Directive 2013/56/EU – This is an amendment to the Directive 2006/66/EC of the European Parliament and of the Council of 6 September 2006 on batteries, accumulators, waste batteries, and accumulators.
https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex%3A32013L0056

European Union
The following information applies if the product is used within the European Union. CE EMC Statement

Warning: This equipment is compliant with Class A of EN 55032. In a residential environment this equipment may cause radio interference. See reference {n}.

United States of America

FCC Part 15 B Class A
The following information applies if the product is used within the USA area.

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. See reference {s}. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at the user’s own expense.
Caution: Changes or modifications not expressly approved by the party responsible for the compliance could void the user’s authority to operate the equipment.

TUV SUD NRTL

This equipment is compliant with the UL62368-1, CAN/CSA-C22.2 NO. 62368-standard. TÜV SÜD is an OSHA-recognized Nationally Recognized Test Laboratory (NRTL), a Certified Body and Inspection Body with SCC (Standards Council of Canada), an accredited EMC Testing laboratory with A2LA, and many others. TÜV SÜD is authorized by OSHA (Occupational Safety & Health Administration) as a NRTL capable of performing product safety testing to UL/ANSI Standards.

Great Britain

The UKCA (UK Conformity Assessed) product marking is used for goods being placed on the market in Great Britain (England, Wales and Scotland). The UKCA marking alone cannot be used for goods placed on the Northern Ireland market, which require the CE marking or UKCA marking. It corresponds to the EU CE marking and covers most goods which previously required the CE marking.

UKCA (CE) EMC Statement
Warning: This equipment is compliant with Class A of EN 55032. In a residential environment this equipment may cause radio interference. See reference {n}.

Disposal of Equipment

Waste Electrical and Electronic Equipment
The Waste Electrical and Electronic Equipment Directive (WEEE Directive) is the European Community Directive 2002/96/EC on waste electrical and electronic equipment which, together with the Restriction of Hazardous Substances Directive (RoHS Directive) 2002/95/EC (also known as RoHS 1) became European Law in February 2003. The WEEE Directive was amended into the Directive 2012/19/EU and the RoHS 1 has been evolved into the RoHS 2 Directive 2011/65/EU. See references Error! Reference source not found.} and {b}, respectively.  The symbol adopted by the European Council to represent WEEE comprises of a crossed-out wheelie bin. The black rectangle below the wheelie bin indicates that the product has been placed on the market after 2005, when the WEEE Directive came into force. The symbol shall be placed on the products, packaging, and/or accompanying documents. It means that used electrical and electronic products and batteries should not be mixed with general household waste but taken to a designated collection site as indicated by the local authorities. In accordance with national legislation and the WEEE Directives 2002/96/EC and 2012/19/EU, and the Battery Directive 2006/66/EC amended by 2013/56/EU. See reference Error! Reference source not found.}. For more information about collection and recycling of old products and batteries, please contact the local municipality, the local waste disposal service, or the point of sale where the item was purchased. Penalties may be applicable for incorrect disposal of this waste, in accordance with national legislation.

For Business Users in the European Union
Please contact the dealer or supplier for further information to discard electrical and electronic equipment.

Disposal in Countries Outside the European Union
The symbol has only validity in the European Union. Please contact the local authorities or dealer and ask for the correct method of disposal.

Battery Symbol
The WEEE symbol can be supplemented with one or more chemical symbols to indicate what kind of battery is used in the product. The chemical symbols will then be placed under the black rectangle.

References

• {a} IEEE 802.1Q – The IEEE Standard for Local and Metropolitan Area Networks—Bridges and Bridged Networks. standards.ieee.org/standard/802_1Q-2018

• {b} RoHS 2 Directive 2011/65/EU – This is a directive on the restriction of the use of certain hazardous substances in electrical and electronic equipment.
  ec.europa.eu/environment/waste/rohs_eee

• {c} MoCA Access™ 2.5 standard.
  mocalliance.org

• {d} EN 60728 – The Cable networks for television signals, sound signals and interactive services.
  ec.europa.eu/standards/iec-60728

• {e} EN 50083-1 – Cabled Distribution Systems for Television, Sound and Interactive Multimedia Signals
  Part 1: Safety Requirements.
  standards.globalspec.com/std/178814/EN50083-1

• {f} InCoax D2508 Software User Manual – A detailed description of the web interface and the setup of the DPU.

• {g} IEEE 802.1p refers to a specification for giving Layer 2 switches the ability to prioritize traffic as well as perform dynamic multicast filtering. Basically, it provides a mechanism for implementing Quality of Service at the MAC (Media Access Level) level. Quality of Service is a mechanism that allows for better handling of data that passes through the network.

• {h} SFF-8472 standard – Specification for Management Interface for SFP+
  members.snia.org

• {i} UL 94 – This is a standard for tests for the flammability of plastic materials for parts in devices and appliances; Underwriters Laboratories. V-0 – burning stops within 10 seconds on a vertical specimen; drips of particles allowed as long as they are not inflamed. standardscatalog.ul.com/standards/en/standard_94_6

• {j} IEEE 802.1ad – This was an Ethernet networking standard informally known as “QinQ” and was an amendment to the standard IEEE 802.1Q-1998. The IEEE 802.1ad was incorporated into the base standard IEEE 802.1Q in 2011.

• {k} IEEE 802.3 – This is a working group and a collection of IEEE standards produced by the working group defining the physical layer and data link layer’s media access control (MAC) of wired Ethernet.
  standards.ieee.org/standard/802_3-2018

• {l} IEEE 802.3ac – IEEE Standard for Information technology – Telecommunications and information exchange between systems – Local and metropolitan area networks – Specific requirements Part 3: Carrier sense multiple access with collision detection (CSMA/CD) frame extensions for Virtual Bridged Local Area Networks (VLAN) tagging on IEEE 802.3 networks. standards.ieee.org/standard/802_3ac-1998

• {m} IEEE 802.3u – IEEE Standards for Local and Metropolitan Area Networks: Supplement – Media Access Control (MAC) Parameters, Physical Layer, Medium Attachment Units, and Repeater for 100Mb/s Operation, Type 100BASE-T (Clauses 21-30).
  standards.ieee.org/standard/802_3u-1995

• {n} FCC Class A part 15 of the FCC Rules
  ecfr.gov/…47.1.15&rgn=div5#sp47.1.15.b

• {o} EN 55035:2017 – Radio equipment Directive (2014/53/EU) – Electromagnetic compatibility of multimedia equipment -Immunity requirements CISPR 35:2016 (Modified).
  ce-marking.help/directive/radio-equipment/standard/5/en-550352017#

• {p} EN 62368-1:2014 – Low voltage (LVD) Directive (2014/35/EU) – Audio/video, information and communication technology equipment – Part 1: Safety requirements.
  ce-marking.help/directive/low-voltage-lvd/standard/1639/en-62368-12014

• {q} CAN ICES-003 Class A – Information Technology Equipment (Including Digital Apparatus) — Limits and Methods of Measurement.
  ic.gc.ca/eic/site/smt-gst.nsf/eng/sf00020.html

• {r} WEEE Directive 2012/19/EU – This is the European Community Directive on Waste Electrical and Electronic Equipment (WEEE) which, together with the RoHS Directive 2011/65/EU, became European Law in February 2003.
  ec.europa.eu/environment/waste/weee/index_en.htm
  and
  eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:32012L0019

• {s} Battery Directive 2013/56/EU – This is an amendment to the Directive 2006/66/EC of the European Parliament and of the Council of 6 September 2006 on batteries, accumulators, waste batteries, and accumulators.
  https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex%3A32013L0056

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SE-802 91 Gävle
Sweden
sales@incoax.com
Revision 2.2

References

• ICES-003 — Information Technology Equipment (including Digital Apparatus) - Spectrum management and telecommunications
• SNIA - Login
• Multimedia over Coax Alliance
• CENELEC - EN 50083-1 - Cabled Distribution Systems for Television, Sound and Interactive Multimedia Signals Part 1: Safety Requirements | Engineering360
• IEEE SA - IEEE 802.1Q-2018
• IEEE SA - IEEE 802.3-2018
• IEEE SA - IEEE 802.3ac-1998
• IEEE SA - IEEE 802.3u-1995

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