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User Manual for Tenda models including: TES7001V1.0, TES7002V1.0, TES7001 Network Switches, TES7001, Network Switches, TES7001 Switches
User Manual(TES7001V1.0&TES7002V1.0 )-Tenda (Argentina)
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DocumentDocumentUser Manual GPON OLT TES7001&TES7002 1 Copyright statement © 2024 Shenzhen Tenda Technology Co., Ltd. All rights reserved. is a registered trademark legally held by Shenzhen Tenda Technology Co., Ltd. Other brand and product names mentioned herein are trademarks or registered trademarks of their respective holders. Copyright of the whole product as integration, including its accessories and software, belongs to Shenzhen Tenda Technology Co., Ltd. No part of this publication can be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form or by any means without the prior written permission of Shenzhen Tenda Technology Co., Ltd. Disclaimer Pictures, images and product specifications herein are for references only. To improve internal design, operational function, and/or reliability, Tenda reserves the right to make changes to the products without obligation to notify any person or organization of such revisions or changes. Tenda does not assume any liability that may occur due to the use or application of the product described herein. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information and recommendations in this document do not constitute a warranty of any kind, express or implied. i Preface Thank you for choosing Tenda! If you want to know more product basic introduction, hardware and technical specifications, networking application and system management modes, please read this user manual carefully. Application model This manual applies to Tenda GPON OLT. The "OLT" and "device" mentioned in this manual refer to GPON OLT. All the figures herein, unless other specified, are taken from TES7002. The appearances and parameters may differ with product models. The actual product prevails. Audience This manual is intended for network planning engineer, field maintenance engineer, system maintenance engineer and data configuration engineer. Conventions This manual is for reference only and does not imply that the product supports all functions in the manual. The functions may differ with product models. The actual product prevails. The product figures and screenshots in this manual are for examples only. They may be different from the actual products you purchased, but do not affect the normal use. If the function or parameter is displayed in gray on the product web UI, which is not supported or cannot be modified. The symbol that may be found in this document is defined as follows. Symbol Meaning This format is used to supplement or explain relevant operations. For more documents If you want to get more documents about the device, visit www.tendacn.com and search for the corresponding product model. Technical support Contact us if you need more help. We will be glad to assist you as soon as possible. ii Email address: support@tenda.cn Website: www.tendacn.com Revision history Tenda is constantly searching for ways to improve its products and documentation. The following table indicates any changes that might have been made since the manual was released. Version Date Description V1.0 2024-06-30 Original publication. iii Contents 1 Product introduction ...........................................................................................................1 1.1 Overview .................................................................................................................................1 1.2 Product positioning.................................................................................................................2 1.3 Functions and features ........................................................................................................... 3 1.3.1 Various port types .......................................................................................................... 3 1.3.2 High density and fully non-blocking design ...................................................................3 1.3.3 Flexible networking method .......................................................................................... 3 1.3.4 Powerful GPON access capability...................................................................................4 1.3.5 Complete multicast function .......................................................................................... 4 1.3.6 Powerful VLAN function ................................................................................................. 5 1.3.7 Safety and reliability design ........................................................................................... 5 1.3.8 Good maintenance and management function ............................................................. 6 2 Hardware specifications.......................................................................................................7 2.1 Appearance ............................................................................................................................. 7 2.1.1 Front panel ..................................................................................................................... 7 2.1.2 Back panel ...................................................................................................................... 7 2.2 Basic parameters...................................................................................................................10 3 Networking application ..................................................................................................... 11 3.1 Network topology ................................................................................................................. 11 3.2 Networking features ............................................................................................................. 12 3.3 Networking suggestions........................................................................................................13 4 System management modes .............................................................................................. 14 4.1 Web network management .................................................................................................. 15 4.2 CLI management ................................................................................................................... 16 iv 4.2.1 Serial port CLI management.........................................................................................16 4.2.2 Telnet CLI management................................................................................................16 5 Technical specifications and standards ............................................................................... 17 5.1 Port specifications.................................................................................................................17 5.1.1 GPON ports...................................................................................................................17 5.1.2 SFP Ethernet ports........................................................................................................18 5.1.3 RJ45 Ethernet ports ...................................................................................................... 19 5.1.4 Debug ports .................................................................................................................. 19 5.2 Functions specifications ........................................................................................................ 20 5.3 Protocols and standards........................................................................................................ 22 Appendixes .............................................................................................................................. 28 Acronyms and abbreviations ...................................................................................................... 28 v Document version: V1.0 1 Product introduction 1.1 Overview TES70 series optical access devices are FTTx carrier-grade GPON OLT devices independently developed by Shenzhen Tenda Technology Co., Ltd. The devices comply with the international standard ITU-T G.984.x, and GB/T 33845-2017 Technical requirements for access network--Gigabit-capable passive optical network (GPON), which can provide users with access to various services such as broadband, IPTV and voice. 1 Document version: V1.0 1.2 Product positioning Positioning of TES70 series devices in the network - Can be used as Optical Line Terminal (OLT) devices in GPON system, and used in conjunction with Optical Network Termination/Optical Network Unit (ONT/ONU) terminal devices - Meet various networking requirements such as Fiber to the Home (FTTH), Fiber to the Building (FTTB), base station transmission, and IP private line interconnection Positioning of TES70 series devices in the market - Uplink: 1 * 10-gigabit SFP port, 4 * gigabit RJ45 Ethernet ports. - Guided service configuration, plug-and-play without configuration. - ONTs under the PON port can communicate with each other. - Rogue ONT detection. - Strong environmental adaptability (-20°C-55°C). - The network status and alarms are displayed on the homepage of the web UI, and the data is clear and easy to view. - Remotely manage PoE devices. 2 Document version: V1.0 1.3 Functions and features 1.3.1 Various port types TES70 series devices provide various types of network ports, service ports and maintenance ports to adapt to different networking environments. TES70 series devices provide up to one 10-gigabit uplink port and four GE uplink ports, providing 10-gigabit uplink transmission for GPON systems. TES70 series devices port description Type Description Uplink port 10 GE port GE port User port GPON port Management port Console port 10 GE/GE port Provide 10-gigabit Ethernet uplink port Provide gigabit Ethernet uplink port Provide GPON user port Meet Command Line Interface (CLI) management requirements Meet the Graphical User Interface (GUI) inband management requirements 1.3.2 High density and fully non-blocking design TES70 series devices are 1U standard box-type devices with compact structure, which achieves high integration in the industry. - TES7001 integrates 1 PON port, which can connect to 128 ONTs (1:128 branch ratio). - TES7002 integrates 2 PON ports, which can connect to 256 ONTs (1:128 branch ratio). 1.3.3 Flexible networking method Triple-play solution The FTTx system adopts wavelength division multiplexing technology. By adding a combiner to the external of the TES70 series devices, CATV signal and user's data service and voice service are transmitted in the same optical fiber, realizing the three-service integration in one network. 3 Point-to-multipoint optical access solution Document version: V1.0 The TES70 series devices are connected to the terminals in users' home through optical fiber, providing users with high-speed data internet access and multicast IPTV services. 1.3.4 Powerful GPON access capability As a multi-service access platform, TES70 series devices can provide multiple access modes and support multiple networking modes to meet the networking requirements of users in different environments and services. - Support GPON function specified by ITU-T G.988/ITU-T G.984 standard. - Provide data and video services by using a single optical fiber to meet the individual needs of users. - Provide large-capacity GPON transmission bandwidth. Uplink rate 1 Gbit/s; Downlink rate 2.2 Gbit/s - GPON system adopts passive optical transmission technology, and the optical path separation adopts the way of Point to Multiple Point (P2MP). - It has a split ratio of 1:128, thereby increasing capacity, saving fiber resources, and facilitating network expansion. - Support Dynamic Bandwidth Allocation (DBA) algorithm: The minimum bandwidth allocation granularity of DBA is not greater than 512 Kbit/s. The configurable minimum bandwidth of DBA is not greater than 256 Kbit/s. The accuracy of DBA is greater than +5%. - Support up to 20 km long-distance transmission. - Support multiple types of ONTs. 1.3.5 Complete multicast function TES70 series devices are equipped with the structural characteristics of PON network Point-to-Multi-Point (PTMP), which is the best access structure for multicast services. With the multicast function, it is convenient to provide users with some new value-added services, including live streaming, internet radio, IPTV, telemedicine, remote education, real-time video conferencing and other internet information services. TES70 series devices support the following multicast functions. Multicast protocol - Support Internet Group Management Protocol (IGMP) V2/V3. - Support IGMP Snooping. Multicast service - Support up to 1,000 multicast groups. - Support IGMP fast-leave function. 4 Document version: V1.0 - Equipped with IGMP high-performance processing capability. - Support program and user management based on multicast VLAN. 1.3.6 Powerful VLAN function With powerful VLAN function, TES70 series devices enhance the manageability and security of the network, and realize service isolation and user isolation. TES70 series devices support the following VLAN functions. - Support port-based VLAN. - Support 512 VLANs based on IEEE 802.1Q. 1.3.7 Safety and reliability design TES70 series devices consider system reliability index in system, hardware and software design, which fully guarantees the normal operation of the device and the safety and reliability of user services. System design - Support reporting the ONT's SN to the Network Management System (NMS), and authenticating ONT's legitimacy based on ONT's SN. - Support broadcast storm suppression function. - Prevent Denial of Service (DoS) attacks and improve the anti-attack performance of the system. - To ensure the operation security of the NMS, both the web network management system and the command line can provide several user levels with different operation permissions. Hardware design Support dual power supply redundancy. Software design - Following the idea of modularization and platformization, the design of each software module is based on loose coupling mechanism. - Adopt advanced design methods such as object-oriented, fault-tolerant, error-correcting, and automatic recovery. - Implement Capability Maturity Model (CMM) management. - Support software online upgrade. Power reliability - Redundant design for power supply, TES70 series support dual AC power supplies. - The power board is equipped with a protection circuit to prevent service interruption when the single-board power supply is faulty. 5 - Support input/output current limiting protection. Document version: V1.0 Heat dissipation reliability - The heat dissipation system has a passive heat dissipation design, using heat dissipation fins and large-area thermal conductive strips to conduct heat to the shell. - The device adopts wide temperature chip design. 1.3.8 Good maintenance and management function TES70 series devices support good maintenance, management and monitoring functions, which is convenient for daily management and fault diagnosis. Diversified maintenance methods - Support local maintenance and remote maintenance. - Support command line and web maintenance modes. - Support web management, which can realize the basic configuration management of OLT and ONT devices on the simple and easy-to-operate interface. Terminal management - Support GPON terminal management function. - Support the offline configuration of the ONT by the OLT, and automatically configure the ONT data during ONT registration, facilitating service delivery. - Support the reporting of alarm information to help users determine the cause and solution of the alarm. - Provide performance monitoring and testing of optical modules. Security authentication management Provide diversified authentication management methods to meet different operation and maintenance requirements. It supports the assignment and management of multiple management domains and operation permissions. Software upgrade Both TES70 series devices and ONT software support remote and online upgrade. 6 Document version: V1.0 2 Hardware specifications The appearances may differ with product models. The actual product prevails. 2.1 Appearance 2.1.1 Front panel TES7001 2.1.2 Back panel TES7002 7 Indicator status description Document version: V1.0 Device Model Port Type TES7001 TES7002 PWR1 - PWR2 Power indicator - Solid green: Normal power input/output - Off: No power supply or abnormal power input/output System status indicator - Solid green: System is working properly - Slowly blinking green: System is initializing, or software is starting but ACT master-slave communication state is not established - Fast blinking green: System is receiving configuration commands, or is establishing master-slave communication state - Off: System is powered off or software is not started PON port indicator PON - Solid on: ONT is connected to the PON port - Off: ONT is not connected to the PON port or connected improperly Uplink port indicator XGE - Solid on: Port is connected properly - Off: Port is disconnected or connected improperly Ethernet port indicator - Yellow: Port rate is 100 Mbps. Blinking indicates that port is transmitting GE data. - Green: Port rate is 1000 Mbps. Blinking indicates that port is transmitting data. - Off: Port is disconnected or connected improperly OLT front panel ports description Device Model Port Type TES7001 TES7002 Uplink SFP Port 1 * 10-gigabit port Uplink RJ45 Ethernet Port 4 * gigabit ports 8 Device Model Port Type TES7001 Document version: V1.0 TES7002 GPON port 1 2 Console port 1 port that meets RS232 technical specifications Local management port of the OLT Inband management 5 ports port The uplink ports of the OLT are XGE1, GE2 - GE5 respectively. OLT front panel button description Device Model Port Type TES7001 TES7002 - Hold down the button with a needle-like object for about 5 - 30 seconds, and the OLT will automatically reboot. RST - Hold down the button with a needle-like object for more than 30 seconds, and the OLT will restore the factory settings and automatically reboot. OLT back panel description Type Description GND 1 grounding terminal on the left side of the rear panel for the grounding of the device. Power Power port of the device. You can use a single power port or both ports for power supply as required. When both ports are used for power supply, it is recommended to connect the two power supplies to different power lines. 9 Document version: V1.0 2.2 Basic parameters Device Model Parameter Rated power consumption Dimensions (Length * width * height) TES7001 TES7002 13W 18W 294 mm * 180 mm* 44 mm Working environment Environment temperature: -20°C - 55°C (- 4 - 131); environment humidity: (10% - 93%) RH, non-condensing Storage environment Environment temperature: -40°C - 70°C (-40 - 158); environment humidity: (5% - 90%) RH, non-condensing Power supply AC: 100 V - 240 V 10 Document version: V1.0 3 Networking application 3.1 Network topology TES70 series devices are suitable for the application of fiber access occasions, and are usually placed in the central office. The network topology of TES70 series devices is shown as below. 11 Document version: V1.0 3.2 Networking features The networking features of TES70 series devices are listed as below. - Select device types in terms of the number of users. - Support management of Tenda series PoE ONT terminal devices. 12 Document version: V1.0 3.3 Networking suggestions The networking suggestions for TES70 series devices are as below. - In the case of FTTH networking of villa and residential areas featured with high user density, centralized light splitting is recommended. - In the case of more optical fibers that need to be laid in the pipeline of the community featured with scattered users, distributed splitting is recommended to reduce the number of optical cables laid in residential pipelines. 13 Document version: V1.0 4 System management modes The management modes of TES70 series devices are flexible and convenient, which can be divided into the multiple categories. This part introduces the two management modes of web network management system and CLI. For detailed web network management introduction, refer to the user guide for web management (downloaded from www.tendacn.com). Classified by network management location: Local management mode and Telnet remote login mode - Local management mode: The management computer or server is directly connected to the devices through the network management ports of the device for management. - Telnet remote login mode: The management computer or server is connected to the device through the internet for management. For example, the GE and 10 GE uplink port of TES70 series devices are typical remote login management ports. Classified by management channels: Local serial port management mode and inband management mode - Local serial port management mode: Transmitted through separate physical channels, the management information and service information are completely independent and do not affect each other. - Inband management mode: The management information is transmitted over the service channel provided by the managed device. The disadvantage of inband management mode is that the management information occupies the service channel, and the device cannot be maintained when the service channel fails. Classified by management interface: CLI mode and GUI mode - Command Line Interface (CLI) mode executes various complex commands in the form of strings in the CLI of the Windows system, which is mostly used for debugging and fault diagnosis. The NMS in CLI mode does not require installation and is easy to operate. Users only need to connect the Console port of the device to the RS232 serial port on the management computer, and manage the TES70 series devices through HyperTerminal. The disadvantage is that various functions and configurations need to be entered in text line by line, which is highly professional and difficult for ordinary users to master. - Graphical User Interface (GUI) mode adopts a graphical interface, and users can click the button with the mouse to operate, which is simple and intuitive. Compared with 14 Document version: V1.0 CLI mode, the human-computer interaction of GUI mode is stronger, which is easier for users to master. 4.1 Web network management TES70 series can be connected to the network through the inband management mode. To log in to the web UI to complete the basic configuration and query of the OLT and ONT, users can start a web browser, and enter the inband management IP address (ensure that the IP addresses of the computer and the OLT's in-band management are on the same network segment and different). The following figure is for reference only. 15 Document version: V1.0 4.2 CLI management The TES70 series can realize CLI management through local serial port connection and telnet. 4.2.1 Serial port CLI management Connect the local serial port of the computer to the Console port of the TES70 series OLT, and use the HyperTerminal of the local computer to manage the OLT. - Baud Rate: 115200 - Data Bit: 8 - Parity Check: NO - Stop Bit: 1 - Flow Control: NO - Username: admin - Password: admin 4.2.2 Telnet CLI management The TES70 series can connect to the network through in-band management and use telnet to manage OLT. - Username: admin - Password: admin 16 Document version: V1.0 5 Technical specifications and standards 5.1 Port specifications This part introduces the various technical specifications of TES70 series devices. 5.1.1 GPON ports GPON ports specifications Parameter Class B+ Class C+ Class C++ Port type SFP (SC/PC) SFP (SC/PC) SFP (SC/PC) Signal nominal rate 2.488 Gbit/s ± 100 2.488 Gbit/s ± 100 2.488 Gbit/s ± 100 ppm ppm ppm Wavelength range 1480 nm - 1500 nm 1480 nm - 1500 nm 1480 nm - 1500 nm Transmitter Average transmit power (Max.) 5 dBm 7 dBm 10 dBm Average transmit power (Min.) 1.5 dBm 3 dBm 5 dBm Extinction ratio (Min.) 10 dB 10 dB 10 dB Signal nominal rate 1.244 Gbit/s ± 100 1.244 Gbit/s ± 100 1.244 Gbit/s ± 100 ppm ppm ppm Receiver Wavelength range Receive sensitivity 1290 nm - 1330 nm 1290 nm - 1330 nm 1290 nm - 1330 nm -28 dBm -30 dBm -30 dBm Overload optical power -8 dBm -12 dBm -12 dBm 17 5.1.2 SFP Ethernet ports Document version: V1.0 The specifications of the SPF Ethernet ports are determined by the optical module. The following table only lists the specifications of some modules for reference. SFP Ethernet ports specifications Parameter 1000Base-SX 1000Base-LX 1000Base-LX 10000Base-SR 10000Base-LR 10000Base-LR Port type LC/PC LC/PC LC/PC LC/PC LC/PC LC/PC Port rate 1000 Mbit/s 1000 Mbit/s 1000 Mbit/s 10000 Mbit/s 10000 Mbit/s 10000 Mbit/s Standards compliant IEEE 802.3z IEEE 802.3z IEEE 802.3z IEEE 802.3ae IEEE 802.3ae IEEE 802.3ae Center wavelength 850 nm 1310 nm TX:1550/1310nm 850 nm RX:1310/1550nm 1310 nm TX:1270/1310 nm RX:1310/1270 nm Transmission distance 500m (Max.) 20 km 80 km 300m 10 km 10 km Transmit optical power (Max.) -4 dBm -3 dBm 5 dBm -1 dBm 0.5 dBm 1 dBm Transmit optical -9.5 dBm power (Min.) -11.5 dBm 0 dBm -7.3 dBm -8.2 dBm -5 dBm Overload optical 0 power (Min.) -3 dBm -3 dBm -1 dBm 0.5 dBm 0.5 dBm Receive sensitivity (Max.) -17 dBm -19 dBm -24 dBm -9.9 dBm -14 dBm -14 dBm Extinction ratio (Min.) 9 dB 9 dB 9 dB 3 dB 3.5 dB 3.5 dB 18 5.1.3 RJ45 Ethernet ports RJ45 Ethernet ports specifications Parameter 10/100/1000Base-T Port type Port rate Transmission medium Standards compliant Transmission distance RJ45 10/100/1000 Mbit/s auto-negotiation Category 5 IEEE 802.3-2005 100m 5.1.4 Debug ports Console ports specifications Parameter Description Port type Port standard Rate RJ45 Asynchronous EIA/TIA-232 115200 bit/s Document version: V1.0 19 Document version: V1.0 5.2 Functions specifications TES7002 functions specifications Functions Specifications Switching function The overall switching capacity is 60 Gbit/s 4K MAC address table; support 1K multicast tables; support 512 VLANs (IEEE 802.1Q) Aggregation of up to 1 uplink 10 GE and 4 uplink GE ports; support port-based mirroring VLAN Support IEEE 802.1Q standard VLAN; support 512 concurrent VLANs Powerful VLAN extension function, support VLAN Stacking/Trunk/Translation Loopback detection Support uplink port and ONT port loopback detection IGMP Support IGMPV2/V3 protocol; support IGMP snooping Storm suppression Support broadcast and Destination Lookup Failure (DLF) broadcast storm suppression, and suppression based on the set number of packets per second (pps) Flow control Support IEEE 802.3x flow control in full duplex mode; support backpressure flow control in half duplex mode Encryption and security Support downlink data encryption of PON ports Support enabling or disabling the encryption function of the corresponding GEM Port when ONT is online Link test Support link diagnosis of PON network through Ping and Link test Configuration recovery Support ONT offline configuration, and the configuration is automatically delivered during registration Management mode Telnet, Console Support inband and local serial port management; support ONT Management Control Interface (OMCI) 20 Functions Management function Redundant backup Specifications Document version: V1.0 Support device configuration management, performance management, fault management, resource management, security management functions and so on Support ONT remote management function, remote batch configuration download, and remote software upgrade Support ONT offline configuration, and the configuration is automatically delivered during registration Support ONT link diagnosis and distance measure function Dual power supply redundancy, support AC and DC power supply protection at the same time 21 Document version: V1.0 5.3 Protocols and standards Environmental standards description Standard Description ANSI/UL 94-2006 Tests for Flammability of Plastic Materials for Parts in Devices and Appliances (Proposal dated March 17, 2006) BS EN 60950-1-2006 Information technology equipment - Safety - General requirements BS EN 60950-22-2006 Information technology equipment - Safety - Equipment installed outdoors IEC 60917-1 Modular order for the development of mechanical structures for electronic equipment practices - Part 1: Generic standard IEC 60917-1-amd1 Amendment 1 - Modular order for the development of mechanical structures for electronic equipment practices - Part 1: Generic standard IEC 60917-2 Modular order for the development of mechanical structures for electronic equipment practices - Part 2: Sectional specification - Interface co-ordination dimensions for the 25 mm equipment practice IEC 60917-2-1 Modular order for the development of mechanical structures for electronic equipment practices - Part 2: Sectional specification - Interface co-ordination dimensions for the 25 mm equipment practice - Section 1: Detail specification Dimensions for cabinets and racks IEC 60917-2-2 Modular order for the development of mechanical structures for electronic equipment practices - Part 2: Sectional specification - Interface co-ordination dimensions for the 25 mm equipment practice - Section 2: Detail specification Dimensions for subracks, chassis, backplanes, front panels and plug-in units IEC 60917-2-3 Modular order for the development of mechanical structures for electronic equipment practices - Part 2-3: Sectional specification - Interface co-ordination dimensions for the 25 mm equipment practice - Extended detail specification Dimensions for subracks, chassis, backplanes, front panels and plug-in units IEC 60950-22-2005 Information technology equipment - Safety - Part 22: Equipment to be installed outdoors IEC 61587-1-2007 Mechanical structures for electronic equipment - Tests for IEC 60917 and IEC 60297 - Part 1: Climatic, mechanical tests and safety aspects for cabinets, racks, subracks and chassis 22 Standard Description Document version: V1.0 IEC 61587-2-2000 Mechanical structures for electronic equipment - Tests for IEC 60917 and IEC 60297 - Part 2: Seismic tests for cabinets and racks IEC 61587-3-2006 Mechanical structures for electronic equipment - Tests for IEC 60917 and IEC 60297 - Part 3: Electromagnetic shielding performance tests for cabinets, racks and subracks GB4943-2001 Security of Information Technology Equipment: This standard is equivalent to the third edition of the international standard IEC 60950:1999 Security of Information Technology Equipment GB/T4857 Packaging series standard UL 94-1996 Test for flammability of plastic materials for parts in devices and appliances Electromagnetic compatibility standards description Standard Description CISPR 22 Information technology equipment - Radio Disturbance characteristics - Limits and methods of measurement CISPR 24 Information technology equipment - Immunity characteristics - Limits and methods of measurement EN 300 386 Electromagnetic compatibility and Radio spectrum Matters (ERM); Telecommunication network equipment; Electromagnetic Compatibility (EMC) requirements EN 55022 Information technology equipment - Radio disturbance characteristics - Limits and methods of measurement EN 55024 Information technology equipment - Immunity characteristics - Limits and methods of measurement EN 61000-4-2 Electromagnetic compatibility (EMC) - Part 4 - 2: Electrostatic discharge immunity test EN 61000-4-3 Electromagnetic compatibility (EMC) - Part 4 - 3: Testing and measurement techniques-Radiated, radio-frequency, electromagnetic field immunity test EN 61000-4-4 Electromagnetic compatibility (EMC) - Part 4 - 4: Testing and measurement techniques-Electrical fast transient/burst immunity test 23 Standard Description Document version: V1.0 EN 61000-4-5 Electromagnetic compatibility (EMC) - Part4 - 5: Testing and measurement techniques-Surge immunity test EN 61000-4-6 Electromagnetic compatibility (EMC) - Part 4 - 5: Testing and measurement techniques-Immunity to conducted disturbances, induced by radio-frequency fields ETSI EN 300132-2 Power supply interface at the input telecommunications equipment; Part 2: Operated by direct current (DC) ETSI EN 300386 V 1.4.1 Electromagnetic compatibility and Radio spectrum Matters (ERM); Telecommunication network equipment; Electromagnetic Compatibility (EMC) requirements IEC 61000-4-2 Electromagnetic compatibility (EMC) - Part 4 - 2: Testing and measurement techniques-Electrostatic discharge immunity test IEC 61000-4-3 Electromagnetic compatibility (EMC) - Part 4 - 3: Testing and measurement techniques-Radiated, radio-frequency, electromagnetic field immunity test IEC 61000-4-4 Electromagnetic compatibility (EMC) - Part 4 - 4: Testing and measurement techniques-Electrical fast transient/burst immunity test IEC 61000-4-5 Electromagnetic compatibility (EMC) - Part4 - 5: Testing and measurement techniques-Surge immunity test IEC 61000-4-6 Electromagnetic compatibility (EMC) - Part 4 - 6: Testing and measurement techniques-Immunity to conducted disturbances, induced by radio-frequency fields ITU-T K.20 Resistibility of telecommunication equipment installed in a telecommunications center to overvoltages and overcurrents ITU-T K.43 Immunity requirements for telecommunication equipment ITU-T K.48 EMC requirements for telecommunication equipment - Product family Recommendation YD/T 1244-2002 Electromagnetic compatibility requirements and measurement methods for digital subscriber line (xDSL) equipment 24 Document version: V1.0 Safety standards description Standard Description EN 60825-1 Safety of laser products Part 1: Equipment classification and requirements EN 60825-2 Safety of laser products Part 2: Safety of optical fiber communication EN 60950-1 Information technology equipment Safety Part 1: General Requirements IEC 60825-1 Safety of laser products Part 1: Equipment classification and requirements IEC 60825-2 Safety of laser products Part 2: Safety of optical fiber communication IEC 60950-2001 Safety of Information technology equipment including Electrical Business Equipment UL 60950-1:2003 Information Technology Equipment Safety Part 1: General Requirements GPON standards description Standard Description ITU-T G.984.1 Gigabit-capable passive optical networks (GPON): General characteristics ITU-T G.984.2 Gigabit-capable Passive Optical Networks (GPON): Physical Media Dependent (PMD) layer specification ITU-T G.984.3 Gigabit-capable passive optical networks (G-PON): Transmission convergence layer specification ITU-T G.984.4 Gigabit-capable Passive Optical Networks (G-PON): ONT management and control interface specification ITU-T G.984.5 Gigabit-capable passive optical networks (GPON): Enhancement band ITU-T G.984.6 Gigabit-capable passive optical networks (GPON): Reach extension ITU-T G.984.7 Gigabit-capable passive optical networks (GPON): Long reach 25 Document version: V1.0 Ethernet protocol description Standard Description IEEE 802-2001 IEEE Standard for Local and Metropolitan Area Networks: Overview and Architecture IEEE 802.1ad IEEE Standard for Local and Metropolitan Area Networks--Virtual Bridged Local Area Networks--Amendment 4: Provider Bridges IEEE802.1ag-2007 IEEE Standard for Local and Metropolitan Area Networks Virtual Bridged Local Area Networks Amendment 5: Connectivity Fault Management IEEE802.1s IEEE Standard for Local and Metropolitan Area Networks--Virtual Bridged Local Area Networks--Amendment 4: Provider Bridges IEEE 802.1x-2004 IEEE Standard for Local and Metropolitan Area Networks Port-Based Network Access Control IEEE 802.1D-2004 IEEE Standard for Local and Metropolitan Area Networks: Media Access Control (MAC) Bridges IEEE 802.1Q-2005 IEEE Standard for Local and Metropolitan Area Networks--Virtual Bridged Local Area Networks--Amendment 4: Provider Bridges ITU-T Y.1291 An architectural framework for support of Quality of Service in packet networks ITU-T Y.1730 Requirements for OAM functions in Ethernet-based networks and Ethernet services TR-101 Migration to Ethernet-Based DSL Aggregation YD/T 1691-2007 Technical Specification for Content Ethernet Switch YD/T 1694-2007 Technical Requirements for OAM Function in Ethernet Based on Network 26 Multicast protocol description Standard Description Document version: V1.0 IETF RFC 1112 Host Extensions for IP Multicasting IETF RFC 2236 Internet Group Management Protocol, Version 2 IETF RFC 3376 Internet Group Management Protocol, Version 3 YD/T 1695-2007 Technical Requirements of Access Network for IPTV (Phase I) Other protocol description Standard Description IETF RFC 2284 PPP Extensible Authentication Protocol (EAP) SFF-8472 Specification for Diagnostic Monitoring Interface for Optical Transceivers (Rev 10.3 Dec.1, 2007) 27 Appendixes Document version: V1.0 Acronyms and abbreviations Acronym or Abbreviation AC ANSI CATV CLI CMM DBA DC DLF DoS EAP EMC ETSI FTTB FTTH GE GPON GUI Full Spelling Alternating Current American National Standards Institute Community Access Television Command Line Interface Capability Maturity Model Dynamic Bandwidth Allocation Direct Current Destination Lookup Failure Denial of Service Extensible Authentication Protocol Electro Magnetic Compatibility European Telecommunications Standards Institute Fiber to the Building Fiber to the Home Gigabit Ethernet Gigabit-capable Passive Optical Network Graphical User Interface 28 Acronym or Abbreviation IEC IEEE IETF IGMP IP IPTV ITU-T MAC NMS OLT OMCI ONT ONU P2MP PMD PoE PON PPP PTMP RFC SFP TV Full Spelling Document version: V1.0 International Electrotechnical Commission Institute of Electrical and Electronics Engineers Internet Engineering Task Force Internet Group Management Protocol Internet Protocol Internet Protocol Television International Telecommunication Union Telecommunication Standardization Sector Medium Access Control Network Management System Optical Line Terminal ONT Management Control Interface Optical Network Termination Optical Network Unit Point to Multiple Point Physical Media Dependent Power over Ethernet Passive Optical Network Point to Point Protocol Point-to-Multi-Point Request for Comments Small Form-factor Pluggable Television 29 Acronym or Abbreviation UI VLAN Full Spelling User Interface Virtual Local Area Network Document version: V1.0 30