1. Ua5000 System Description
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UA5000 Universal Access Unit
System Description
HUAWEI TECHNOLOGIES CO., LTD.
UA5000 Universal Access Unit V100R011
System Description
Issue
02
Date
2006-11-01
BOM
31026219
Huawei Technologies Proprietary
Huawei Technologies Co., Ltd. provides customers with comprehensive technical support and service. Please feel free to contact our local office or company headquarters.
Huawei Technologies Co., Ltd. Address:
Administration Building, Huawei Technologies Co., Ltd., Bantian, Longgang District, Shenzhen, 518129, People’s Republic of China
Website:
http://www.huawei.com
Email:
[email protected]
Copyright © Huawei Technologies Co., Ltd. 2006. All rights reserved. No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other trademarks and trade names mentioned in this document are the property of their respective holders.
Notice The information in this document is subject to change without notice. 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 the warranty of any kind, express or implied.
Huawei Technologies Proprietary
UA5000 System Description
Contents
Contents About This Document.....................................................................................................................1 1 System Overview ..........................................................................................................................1 2 Features and Benefits ...................................................................................................................3 2.1 Multi-Service Access Platform....................................................................................................................... 3 2.2 High-Density Subscriber Line Access ............................................................................................................ 5 2.3 Powerful Service Processing Capabilities ...................................................................................................... 5 2.4 Operable Broadband Video Service................................................................................................................ 6 2.5 Flexible Networking Modes ........................................................................................................................... 6 2.6 Carrier-Class Reliability ................................................................................................................................. 6 2.7 Range of UA5000 Models.............................................................................................................................. 7 2.8 Element Management System ........................................................................................................................ 8
3 System Structure ...........................................................................................................................9 3.1 Cabinets.......................................................................................................................................................... 9 3.2 Frames .......................................................................................................................................................... 10 3.2.1 Rear-Access Frames ........................................................................................................................... 10 3.2.2 Front-Access Frames.......................................................................................................................... 12 3.3 Cards............................................................................................................................................................. 17
4 Service Implementation.............................................................................................................21 4.1 PSTN Voice Services.................................................................................................................................... 21 4.2 Next Generation Voice Services ................................................................................................................... 22 4.3 Broadband Services ...................................................................................................................................... 23 4.4 Private Circuit Services ................................................................................................................................ 24 4.5 Multicast Video Service................................................................................................................................ 24
5 Networking Applications..........................................................................................................25 5.1 Typical Networking Topologies.................................................................................................................... 26 5.1.1 MSTP Networking ............................................................................................................................. 26 5.1.2 SDH+FE/GE Networking................................................................................................................... 28 5.1.3 SDH+STM-1 ATM Networking......................................................................................................... 30 5.2 Typical Application Scenarios ...................................................................................................................... 33 5.2.1 NGN Consolidation............................................................................................................................ 33
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Contents
5.2.2 Private Circuit Service........................................................................................................................ 34 5.2.3 Triple Play .......................................................................................................................................... 35
6 Equipment Management ...........................................................................................................37 6.1 Management Through the CLI ..................................................................................................................... 37 6.2 Management Through the EMS ................................................................................................................... 37 6.2.1 Hardware and Software Configuration............................................................................................... 37 6.2.2 Management Functions ...................................................................................................................... 38 6.2.3 Networking Modes Between the N2000 and UA5000 ....................................................................... 41
7 Technical Specifications ............................................................................................................43 7.1 Equipment Parameters.................................................................................................................................. 43 7.1.1 Dimensions......................................................................................................................................... 43 7.1.2 Weights............................................................................................................................................... 44 7.1.3 Running Environment ........................................................................................................................ 44 7.1.4 Power Supply ..................................................................................................................................... 44 7.2 Performance and Capacity Specifications .................................................................................................... 45 7.2.1 System Performance Specifications ................................................................................................... 45 7.2.2 Port Types and Numbers .................................................................................................................... 46 7.3 Port Specifications........................................................................................................................................ 48 7.3.1 STM-1/OC-3c Optical Port ................................................................................................................ 48 7.3.2 100Base-TX ....................................................................................................................................... 48 7.3.3 100Base-FX........................................................................................................................................ 49 7.3.4 1000Base-SX...................................................................................................................................... 49 7.3.5 1000Base-LX ..................................................................................................................................... 50 7.3.6 1000Base-ZX ..................................................................................................................................... 50 7.3.7 E3 ....................................................................................................................................................... 51 7.3.8 T3 ....................................................................................................................................................... 51 7.3.9 ADSL.................................................................................................................................................. 52 7.3.10 ADSL2+ ........................................................................................................................................... 52 7.3.11 SHDSL ............................................................................................................................................. 53 7.3.12 VDSL ............................................................................................................................................... 53 7.3.13 E1 ..................................................................................................................................................... 54 7.3.14 V.35 .................................................................................................................................................. 54 7.4 Standards Compliance .................................................................................................................................. 55
A Acronyms and Abbreviations..................................................................................................61 Index ................................................................................................................................................ i-1
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Figures
Figures Figure 1-1 UA5000 in the overall solution.......................................................................................................... 2 Figure 3-1 HABA frame layout ......................................................................................................................... 11 Figure 3-2 HABC frame layout ......................................................................................................................... 12 Figure 3-3 HABD frame layout......................................................................................................................... 13 Figure 3-4 HABE frame layout ......................................................................................................................... 14 Figure 3-5 HABF frame layout.......................................................................................................................... 15 Figure 3-6 HABL frame layout ......................................................................................................................... 16 Figure 5-1 Single-level MSTP networking........................................................................................................ 27 Figure 5-2 Two-level MSTP networking ........................................................................................................... 27 Figure 5-3 Single-level SDH+FE/GE networking............................................................................................. 29 Figure 5-4 Two-level SDH+FE/GE networking ................................................................................................ 30 Figure 5-5 Single-level SDH+STM-1 ATM networking ................................................................................... 32 Figure 5-6 Two-level SDH+STM-1 ATM networking ...................................................................................... 32 Figure 5-7 Integrated access in NGN ................................................................................................................ 34 Figure 5-8 Private circuit service....................................................................................................................... 35 Figure 5-9 Triple play application ..................................................................................................................... 36 Figure 6-1 Maintaining the UA5000 through the CLI....................................................................................... 37 Figure 6-2 Inband EMS networking .................................................................................................................. 41 Figure 6-3 Outband EMS networking ............................................................................................................... 42
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Tables
Tables Table 2-1 Description of the UA5000 broadband subsystems ............................................................................. 3 Table 2-2 Description of the UA5000 narrowband subsystem ............................................................................ 4 Table 3-1 Specification of the cabinets that can house the UA5000 frame.......................................................... 9 Table 3-2 Description of control cards............................................................................................................... 17 Table 3-3 Description of narrowband line cards ................................................................................................ 18 Table 3-4 Description of broadband line cards .................................................................................................. 19 Table 3-5 Description of broadband and narrowband combo line cards............................................................ 19 Table 3-6 Description of other cards.................................................................................................................. 20 Table 5-1 MSTP networking description ........................................................................................................... 26 Table 5-2 SDH+FE/GE networking description ................................................................................................ 28 Table 5-3 SDH+STM-1 ATM networking description....................................................................................... 31 Table 6-1 Configuration functions of UA5000 NE Manager............................................................................. 40 Table 7-1 Dimensions of the UA5000 cabinets ................................................................................................. 43 Table 7-2 Dimensions of the UA5000 frames.................................................................................................... 43 Table 7-3 Weights of the UA5000 cabinets ....................................................................................................... 44 Table 7-4 The running environment of the UA5000 in different cabinets ......................................................... 44 Table 7-5 Voltage specification of the power supply systems............................................................................ 44 Table 7-6 System performance specifications.................................................................................................... 45 Table 7-7 Types and numbers of the management interfaces............................................................................. 46 Table 7-8 Types and numbers of the network interfaces.................................................................................... 46 Table 7-9 Types and numbers of the user interfaces .......................................................................................... 47 Table 7-10 Technical specifications of the STM-1 optical port ......................................................................... 48 Table 7-11 Technical specifications of the 100Base-TX port ............................................................................ 48 Table 7-12 Technical specifications of the 100Base-FX port ............................................................................ 49 Table 7-13 Technical specifications of the 1000Base-SX port .......................................................................... 49 Table 7-14 Technical specifications of the 1000Base-LX port .......................................................................... 50
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Tables
Table 7-15 Technical specifications of the 1000Base-ZX port .......................................................................... 50 Table 7-16 Technical specifications of the E3 port ............................................................................................ 51 Table 7-17 Technical specifications of theT3 port ............................................................................................. 51 Table 7-18 Technical specifications of the ADSL port....................................................................................... 52 Table 7-19 Technical specifications of the ADSL2+ port .................................................................................. 52 Table 7-20 Technical specifications of the SHDSL port .................................................................................... 53 Table 7-21 Technical specifications of the VDSL port ...................................................................................... 53 Table 7-22 Technical specifications of the E1 port ............................................................................................ 54 Table 7-23 Technical specifications of the V.35 port ......................................................................................... 54 Table 7-24 Standards compliance ...................................................................................................................... 55
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About This Document
About This Document Purpose This section describes the related versions, intended audience, organisation, convention, and update history of this document.
Related Versions The following table lists the product versions related to this document. Product Name
Version
UA5000
IPMB V100R011 PVMB V100R011
N2000
V200R009
Intended Audience The intended audience of this document is network planning engineers.
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UA5000 System Description
About This Document
Organization This document consists of eight chapters and is organized as follows. Chapter
Description
1
Overview
The major applications of the UA5000 in the network
2
Features and Benefits
The features of the UA5000 and the services provided by the UA5000
3
System Structure
The structure, including the cabinet, frames, and cards of the UA5000
4
Service Implementation
The broadband and narrowband services provided by the UA5000
5 Networking Applications
The typical network applications of the UA5000
6
Equipment Management
Information on the system management and maintenance
7
Technical Specifications
Technical specifications of the UA5000 as well as the standards the UA5000 complies with
A Acronyms and Abbreviations
The anonyms and abbreviations in this manual
Conventions Symbol Conventions The following symbols may be found in this document. They are defined as follows. Symbol
Description Indicates a hazard with a high level of risk which, if not avoided, will result in death or serious injury. Indicates a hazard with a medium or low level of risk which, if not avoided, could result in minor or moderate injury. Indicates a potentially hazardous situation that, if not avoided, could cause equipment damage, data loss, and performance degradation, or unexpected results. Indicates a tip that may help you solve a problem or save you time.
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About This Document
Symbol
Description Provides additional information to emphasize or supplement important points of the main text.
General Conventions Convention
Description
Times New Roman
Normal paragraphs are in Times New Roman.
Boldface
Names of files, directories, folders, and users are in boldface. For example, log in as user root.
Italic
Book titles are in italics.
Courier New
Terminal display is in Courier New.
Command Conventions Convention
Description
Boldface
The keywords of a command line are in boldface.
Italic
Command arguments are in italic.
[]
Items (keywords or arguments) in square brackets [ ] are optional.
{ x | y | ... }
Alternative items are grouped in braces and separated by vertical bars. One is selected.
[ x | y | ... ]
Optional alternative items are grouped in square brackets and separated by vertical bars. One or none is selected.
{ x | y | ... } *
Alternative items are grouped in braces and separated by vertical bars. A minimum of one or a maximum of all can be selected.
GUI Conventions Convention
Description
Boldface
Buttons, menus, parameters, tabs, window, and dialog titles are in boldface. For example, click OK.
>
Multi-level menus are in boldface and separated by the “>” signs. For example, choose File > Create > Folder.
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About This Document
Keyboard Operation Format
Description
Key
Press the key. For example, press Enter and press Tab.
Key 1+Key 2
Press the keys concurrently. For example, pressing Ctrl+Alt+A means the three keys should be pressed concurrently.
Key 1, Key 2
Press the keys in turn. For example, pressing Alt, A means the two keys should be pressed in turn.
Mouse Operation Action
Description
Click
Select and release the primary mouse button without moving the pointer.
Double-click
Press the primary mouse button twice continuously and quickly without moving the pointer.
Drag
Press and hold the primary mouse button and move the pointer to a certain position.
Update History Updates between document versions are cumulative. Therefore, the latest document version contains all updates made to previous versions.
Updates in Issue 02 (2006-11-01) Fifth commercial release. The updated contents are as follows. Chapter 3 System Structure Descriptions of the HABC shelf are added. Chapter 7 Technical Specifications Dimensions of the HABC shelf are added
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1 System Overview
1
System Overview
With an increasing demand in telecommunications services such as voice, data, video and multi-media, the need for an access network that can provide multiple large-capacity, high-speed and high-quality services has become imperative. Huawei UA5000 Universal Access Unit (referred to as the UA5000) allows you to construct an access network that keeps pace with the technological advances in the fiber access networks, broadband networks and the evolution of the Next Generation Network (NGN). The UA5000 meets both the current and the future customer requirements through its advanced technical features, such as: !
"IP+TDM" bus architecture
!
V5 and AG concurrent uplink
!
Manageable Triple Play
With these features, the UA5000 helps you to construct a multi-service access network at low cost.
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1 System Overview
Figure 1-1 shows the UA5000 in the overall solution. Figure 1-1 UA5000 in the overall solution H.248 PSTN
DDN
E1(V5)
E1
ATM
STM-1
IP
FE/GE
H.248
Aggregation layer
STM-1/FE STM-1/FE/GE
MSTP
Access layer
CPE
: UA5000
2
V.24 V.35 E1
POTS ADSL LAN ISDN ADSL2+ FXO VDSL VoIP SHDSL
: Softswitch
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2 Features and Benefits
2
Features and Benefits
The chapter describes the features of the UA5000.
2.1 Multi-Service Access Platform The UA5000 consists of the broadband and narrowband subsystems. The control cards of the broadband subsystem are IPMB and APMB and that of the narrowband subsystem are PVM and PVU. You can select any combination of the broadband and narrowband subsystems to fit your needs. Table 2-1 Description of the UA5000 broadband subsystems Control card IPMB
Function
Interface description
Supports:
Downstream ports:
!
Broadband access
!
ADSL
!
Broadband private circuit
!
ADSL2+
!
VDSL
!
ATM SHDSL
!
FE
Upstream ports:
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!
FE
!
GE
!
STM-1
!
E3
!
T3
!
IMA
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2 Features and Benefits
Control card
Function
Interface description
APMB
Supports:
Downstream ports:
!
Broadband access
!
ADSL
!
Broadband and narrowband private circuit
!
ADSL2+
!
VDSL
!
ATM SHDSL
!
TDM SHDSL
!
FE
Upstream ports: !
STM-1
!
E3
!
T3
!
IMA
!
E1
Table 2-2 Description of the UA5000 narrowband subsystem Control card PVM
Function Supports: ! !
Interface description Downstream ports:
IP voice
!
POTS
Legacy voice
!
ISDN BRI
!
ISDN PRI
!
TDM SHDSL
!
FE1
!
E1
!
V.35
!
V.24
!
Z
Upstream ports:
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!
FE
!
E1
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2 Features and Benefits
Control card PVU
Function Supports: ! !
Interface description Downstream ports:
Legacy voice
!
POTS
Narrowband private circuit
!
ISDN BRI
!
ISDN PRI
!
TDM SHDSL
!
2/4-wire VF
!
64 k VF
!
E&M
!
Z
!
FE1
!
E1
!
V.35
!
V.24
Upstream port: !
E1
2.2 High-Density Subscriber Line Access The UA5000 allows a high-density subscriber line access. The maximum number of ports provided by UA5000 in a single cabinet is !
1984 for pure narrowband configuration
!
992 for pure broadband configuration
!
992 for narrowband and broadband combination configuration
2.3 Powerful Service Processing Capabilities The UA5000 supports TDM, ATM and IP technologies, and features powerful service processing capabilities. !
The APMB card supports 5 Gbit/s ATM switching capability.
!
The IPMB card supports 34 Gbit/s Ethernet switching capability.
!
The PVM card supports 8 k x 8 k TDM switching capability.
!
The backplane capacity reaches 100 Gbit/s.
!
The IPMB card provides two GE upstream ports.
!
The IPMB card supports 1024 multicast channels.
!
The master frame, slave frame and extended frame are connected through high-speed star buses.
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2 Features and Benefits
2.4 Operable Broadband Video Service When the UA5000 adopts the IPMB card as its broadband main control card, it supports multicast protocols and managed multicast for broadband video services. The features of UA5000 for the multicast services are as follows: !
GE ports for video services and a high-speed extended bus to guarantee non-blocking forwarding of video streams
!
Fast switching between channels
!
Channel preview function
!
Audience statistics function
!
Controlled channel access
!
Connection to the Service Management System (SMS)/Operating Support System (OSS) through the transaction language 1 (TL1) interface on the EMS to support service auto provisioning
!
Guaranteed Quality of Service (QoS) to forward video streams
2.5 Flexible Networking Modes The UA5000 adapts to various access network scenarios. You can use the UA5000 in complex topologies and challenging engineering environments. The UA5000 networking features include: !
Structure: supports the 2-layer structure: (the Optical Line Terminal (OLT) and the Optical Network Unit (ONU)), and the 1-layer structure (ONU independent).
!
Topology: supports the ring, star and tree topologies, or a combination of them
!
Broadband upstream interface: supports the ATM and IP upstream interfaces
!
Bearing technology: supports the MSTP bearing technology
!
Subtending: supports local subtending through a star bus, remote RSU8/RSU4 subtending through the E1 port, and remote ONU60A subtending through the TDM G.SHDSL port. (The remote ONU device accesses narrowband services only.)
2.6 Carrier-Class Reliability The UA5000 adopts reliability design in terms of system, hardware and software to ensure the robustness of the system.
System reliability design The features of the system reliability design are as follows:
6
!
Redundant backup of the control systems, switching fabrics, clocks, service processing modules and upstream line cards
!
Multiple clock references
!
Redundant fan configuration with intelligent control and alarm functions
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2 Features and Benefits !
Redundant backup of the primary power supplies and the secondary power supplies. Both power supplies work in the load-sharing mode. The power supplies support the real-time monitoring and alarm function, and overvoltage and undervoltage protection.
!
Load sharing of the Digital Signal Processing (DSP) resource of the PVM card
Card reliability design The features of the card reliability design are as follows: !
POTS line card and xDSL line cards with port backup capability. You can switch a faulty port to the backup port to resume the service.
Software reliability design The features of the software reliability design are as follows: !
Modularization and platform design
!
Advanced design technologies based on the object, error tolerance, error correction and auto recovery
!
Capability maturity model (CMM) compliance
Networking reliability design The features of the networking reliability design are as follows: !
1+1 backup of the broadband star bus for local subtending
!
MSTP networking to prevent single point of failures
!
1+1 Automatic Protection Switching (APS) protection for the STM-1 ports
!
Rapid Spanning Tree Protocol (RSTP) protection and trunk for FE/GE ports
!
Sub-network Connection Protection (SNCP) and Multiplex Section Protection (MSP) of Synchronous Digital Hierarchy (SDH) ports
!
Support of dual homing. One UA5000 can register in two SoftSwitches. If one SoftSwitch is faulty, the UA5000 switches over to the other. The switchover will not affect the calls in progress.
2.7 Range of UA5000 Models The UA5000 provides a wide range of models for a variety of situations. !
Capacities ranging from dozens of ports to thousands of ports
!
Indoor and outdoor cabinets for mild and harsh climates
!
Large and small sized (cabinet, chassis and desktop) units
!
Front-access and rear-access cabinets
!
A wide variety of terminals
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2 Features and Benefits
2.8 Element Management System The UA5000 adopts the Huawei iManager N2000 Fixed Network Integrated Management System as its Element Management System (EMS). The following describes the features of the Huawei iManager N2000.
8
!
Uniform management mode: The iManager N2000 provides a centralized management for the narrowband and broadband services of the UA5000.
!
Rich interfaces: The iManager N2000 provides various southbound interfaces such as Telnet, Man Machine Language (MML) and Simple Network Management Protocol (SNMP) to connect to the managed devices. It also provides standard SNMP and TL1 northbound interfaces to connect to the OSS. The iManager N2000 helps the carriers to build an integrated and automatic OSS platform at the network layer.
!
Security management: The iManager N2000 provides abundant user management and authentication functions down to the shelves and cards of the managed devices.
!
In-service upgrade and maintenance: The iManager N2000 supports the online reporting of hardware and software versions, supports the in-service upgrade and loading of card software and host software, as well as the in-service loading and management of patches.
!
Environment monitor: The environmental monitoring unit (EMU) carries out the real-time monitoring and generates remote alarms with regard to humidity, temperature, access control sensors and power systems.
!
Performance measurement: The iManager N2000 provides the functions to collect, query and analyze the performance data.
!
Uniform management of terminals: the iManager N2000 provides the functions to configure, test and monitor the ADSL/ADSL2+ and ATM G.SHDSL terminals in centralized mode. This function helps the carriers to reduce the maintenance cost.
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3 System Structure
3
System Structure
This section describes the cabinets, frames and cards of the UA5000.
3.1 Cabinets Table 3-1 lists the cabinets that can house the UA5000 frame. Table 3-1 Specification of the cabinets that can house the UA5000 frame Model
Type
Frame configuration
Max. ports POTS only
ADSL only
POTS & ADSL combo
ONU-F01D200
Outdoor, front-access
One HABD
384
192
192
ONU-F01D500
Outdoor, front-access
One HABD + one HABF
960
480
480
ONU-F01D1000
Outdoor, front-access
One HABD + one HABF + one HABE
1408
704
704
One HABD + one HABF + one HABD
1344
672
672
One HABA
960
480
480
One HABA+ one HABB
1984
992
992
One HABA+ one HABA
1920
960
960
One HABC
384
192
192
One HABC+ one HABC
768
384
384
ONU-F02A
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Model
Type
ONU-F02AF
Indoor, front-access
Frame configuration
Max. ports POTS only
ADSL only
POTS & ADSL combo
One HABD+ One HABF
960
480
480
One HABD+ two HABFs+ one HABE
1984
992
992
One HABD+ two HABFs+ one HABD
1920
960
960
3.2 Frames There are two types of frames. One is a front-access frame and the other is the rear- access frame. This section describes the frame types.
3.2.1 Rear-Access Frames There are two models of rear-access frames: HABA (master frame) and HABC (master frame).
HABA frame
10
!
The HABA frame is the master frame of the rear-access UA5000, which stands at a height of 16 U (1 U = 44.55 mm). The HABA frame can subtend slave frames and aggregate services from the subordinate frames.
!
The HABA frame provides 36 slots, of which 30 are available for line cards and 6 for the other types of cards. However, if you are using the AIUB and TSSB, you must insert the AIUB cards and the TSSB card in the positions shown in Figure 3-1. The remaining six slots are reserved for other types of cards.
!
You can insert narrowband line cards and broadband line cards in any of the 30 line card slots.
!
The two narrowband control cards and the two broadband control cards in the frame support backup in the event of a primary controller failure.
!
The HABA frame can use a minimum of one and a maximum of two PWX cards. The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
!
The HABA can also serve as a slave frame. In this case, the HABA frame is equipped with only broadband control cards and as many as 30 line cards.
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3 System Structure
Figure 3-1 shows the layout of the HABA frame. Figure 3-1 HABA frame layout Fan 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17
x x P P P P W W M M X X B B
P V x / R S U x
P V x / R S U x
A I U B / x S L
T A S I S U x x x x x x x x x B B S S S S S S S S S / / L L L L L L L L L x x S S L L Cable routing area Fan
18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35
x x x x x x x x x x x x x x x x x x S S S S S S S S S S S S S S S S S S L L L L L L L L L L L L L L L L L L
Cable routing area
PWX: Secondary power supply card xPMB: Broadband control card (APMB/IPMB) PVx: Narrowband control card (PVU8/PVU4/PVM) RSUx: Remote subscriber unit (RSU8/RSU4) AIUB: ATM interface card xSL: Service line card (ASL/DSL/ADMB/VDLA/…) TSSB: Test card
HABC frame !
The HABC frame is the master of the rear-access UA5000, which stands at a height of 8 U (1 U = 44.55 mm).
!
The HABC frame provides 18 slots, of which 12 are available for line cards. The TSSB card must be inserted in the position shown in Figure 3-2.
!
You can insert narrowband line cards and broadband line cards in any of the 12 line card slots.
!
The two narrowband control cards and the two broadband control cards in the frame support backup in the event of a primary controller failure.
!
The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
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3 System Structure
Figure 3-2 shows the layout of the HABC frame. Figure 3-2 HABC frame layout FAN 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 P V I I x P P P P / W W M M R X X B B S U x
P V x x / S R L S U x
T S S x x x x x x x x x x x S S S S S S S S S S / L L L L L L L L L L x S L Cabling area
PWX: Secondary power supply card IPMB: Broadband control card PVx: Narrowband control card (PVU8/PVU4/PVM) RSUx: Remote subscriber unit (RSU8/RSU4) xSL: Service line card (ASL/DSL/ADMB/VDLA/SDLB…) TSSB: Test card
3.2.2 Front-Access Frames There are three models of rear-access frames: HABD (master frame), HABE (slave frame), HABF (extended frame) and HABL (master frame).
HABD frame
12
!
The HABD frame is the master frame of the front-access UA5000, which stands at a height of 10 U. The HABD frame can be subtended with multiple slave frames, and the HABD frame can aggregate the services from the subordinate frames.
!
The HABD provides 18 slots, of which 12 are available for line cards. However, if you are using the AIUB and TSSB, you must insert the AIUB cards and the TSSB card in the positions shown in Figure 3-3. The remaining six slots are for other types of cards.
!
You can insert narrowband line cards and broadband line cards in any of the 12 line card slots.
!
The two narrowband control cards and the two broadband control cards in the frame support backup in the event of a primary controller failure.
!
The HABD frame can use a minimum of one and a maximum of two PWX cards. The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
!
The HABD can also serve as a slave frame. In this case, the HABD frame is equipped with only broadband control cards and as many as 12 line cards.
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3 System Structure
Figure 3-3 shows the layout of the HABD frame. Figure 3-3 HABD frame layout Fan 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17
x x P P P P W W M M X X B B
P V x/ R S U x
P V x/ R S U x
A I U B / x S L
T A S I S U x x x x x x x x x B B S S S S S S S S S / / L L L L L L L L L x x S S L L
Cable routing area Control & interconnect cable connecting area
Line card cable connecting area
PWX: Secondary power supply card xPMB: Broadband control card (APMB/IPMB) PVx: Narrowband control card (PVU8/PVU4/PVM) RSUx: Remote subscriber unit (RSU8/RSU4) xSL: Service line card (ASL/DSL/ADMB/VDLA/…) AIUB: ATM interface card TSSB: Test card
HABE frame !
The HABE frame is the slave frame of the front-access UA5000, which stands at a height of 10 U.
!
The HABE frame operates under the control of the HABD frame. The HABE frame can be subtended with the HABF frame.
!
The HABE frame provides 18 slots, of which 14 are reserved for line cards and 4 for other types of cards. You can insert narrowband line cards and broadband line cards as desired.
!
The two broadband control cards in the frame support backup in the event of a primary controller failure. The HABE frame does not have narrowband control cards. The narrowband line cards in the frame are controlled by the narrowband control card in the HABD frame.
!
The HABE frame can use a minimum of one and a maximum of two PWX cards. The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
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Figure 3-4 shows the layout of the HABE frame. Figure 3-4 HABE frame layout Fan 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17
A A x x x x x x x x x x x x x x P P P P S S S S S S S S S S S S S S W W S S L L L L L L L L L L L L L L X X B B
Cable routing area Control & interconnect cable connecting area
Line card cable connecting area
PWX: Secondary power supply card APSB: Broadband control card for the slave frame xSL: Service line card (ASL/DSL/ADMB/VDLA/…)
HABF frame
14
!
The HABF frame is the extended frame of the front-access UA5000, which stands at a height of 10 U.
!
The HABF frame operates under the control of either the HABD frame or the HABE frame. The serving HABD or HABE frame provides the power supply to the HABF frame.
!
The HABF frame provides 18 slots. You can insert narrowband line cards and broadband line cards as desired.
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3 System Structure
Figure 3-5 shows the layout of the HABF frame. Figure 3-5 HABF frame layout Fan 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17
x x x x x x S S S S S S L L L L L L
x x x x x x x x x x x x S S S S S S S S S S S S L L L L L L L L L L L L
Cable routing area Interconnect cable connecting area
Line card cable connecting area
xSL: Service line card (ASL/DSL/ADMB/VDLA/…)
HABL frame !
The HABL shelf, which stands at a height of 10 U, is the mini master shelf.
!
The HABL shelf provides 12 slots, of which 6 are available for line cards. You can insert the narrowband line cards and broadband line cards as desired. The shelf supports up to three 32-port ADSL/ADSL2+ line cards, three POTS and ADSL/ADSL2+ combo line cards, or five other line cards.
!
The two narrowband control cards and the two broadband control cards in the shelf support backup in the event of primary controller failures.
!
The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
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Figure 3-6 shows the layout of the HABL frame. Figure 3-6 HABL frame layout FAN 00 01 02 03 04 05 06 07 08 09 10 11 P V I I x P P P P / W W M M R X X B B S U x
P V x x / S R L S U x
T S x x x x S S S S S B L L L L / x S L
Cable routing area Cable connecting area
PWX: Secondary power supply card IPMB: Broadband control card PVx: Narrowband control card (PVU8/PVU4/PVM) RSUx: Remote subscriber unit (RSU8/RSU4) xSL: Service line card (ASL/DSL/ADMB/SDLB…) TSSB: Test card
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3.3 Cards Table 3-2, Table 3-3, Table 3-4, Table 3-5 and Table 3-6 describe the details of the cards used in the UA5000. Table 3-2 Description of control cards Abbr. name
Full name
Function description
APMB
Master frame ATM service processing card
The APMB card is also called the broadband control card for ATM signaling.
IPMB
PVM
PVU8/PVU4
Master frame IP service processing card
Packet voice processing card
V5 interface processing unit
The APMB card: !
Controls the broadband line cards
!
Provides various types of upstream ports for broadband services, including IMA E1, ATM E3, ATM T3 and STM-1 ATM,
!
Supports active/standby backup
!
Provides the switch fabric and working clock for broadband services
The IPMB card is also called the broadband control card for IP signaling. The IPMB card: !
Controls the broadband line cards
!
Aggregates and processes broadband services
!
Provides GE/FE ports
!
Supports active/standby backup
The PVM card: !
Processes the H.248 protocol
!
Converts the TDM voice signals into IP packets
!
Provides one FE port to transmit the VoIP service
The PVU8/PVU4 is also called the master frame narrowband control card. The PVU8/PVU4 card:
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!
Controls the narrowband line cards
!
Provides upstream V5 E1 ports for TDM services
!
Provides TDM switch fabric and working clock for TDM services
!
Supports the active/standby backup
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Abbr. name
Full name
APSB
Slave frame broadband service processing card
RSU8/RSU4
RSUG
Remote subscriber processing unit
Remote subscriber processing unit
Function description The APSB card: !
Controls the broadband line cards in the slave frame
!
Subtends the broadband services with the master frame
!
Supports the active/standby backup
The RSU8/RSU4 card: !
Controls the narrowband line cards in the remote subscriber frame
!
Subtends the narrowband services with the UA5000 master frame or the MD5500 frame
!
Provides upstream E1 ports for narrowband services
!
Supports the active/standby backup
The RSUG card: !
Serves the ONU-60A multi-service access unit
!
Connects the G.SHDSL interface card on the central office side to forward the primary and secondary node signaling
!
Manages the secondary nodes
Table 3-3 Description of narrowband line cards
18
Short name
Full name
Function description
ASL
POTS line card
Provides 16 POTS ports
A32
POTS line card
Provides 32 POTS ports
DSL
ISDN BRI line card
Provides 8 ISDN BRI ports
VFB
2/4-wire VF line card
Provides 16 2-wire VF ports or 8 4-wire VF ports
CDI
Direct dial-in line card
Provides 16 DDI ports
SDL
SHDSL line card
Provides 4 TDM SHDSL ports and 4 E1 ports
SDLE
TDM G.SHDSL line card
Provides 8 TDM G.SHDSL ports and 8 E1 ports
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Table 3-4 Description of broadband line cards Short name
Full name
SDLB
SHDSL line card
Function description The SDLB card supports: !
ADLB
ADMB
ADMC
VDLA
EAUA
ADSL line card
ADSL/ADSL2+ line card
ADSL/ADSL2+ line card
VDSL line card
Ethernet line card
16 ATM SHDSL ports
The ADLB card supports: !
16 ADSL ports
!
a built-in splitter
The ADMB card supports: !
16 ADSL/ADSL2+ ports
!
a built-in splitter
The ADMC card supports: !
16 ADSL/ADSL2+ ports
!
A built-in splitter
The VDLA card supports: !
16 VDSL ports
!
a built-in splitter
!
external line test
!
CO emulation on port 0
The EAUA card supports: !
8 Ethernet ports
Table 3-5 Description of broadband and narrowband combo line cards Abbr. Name
Full name
CSMB
ADSL/ADSL2+ and POTS combo line card
CSLB
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ADSL and POTS combo line card
Function description The CSMB card supports: !
16 ADSL/ADSL2+ ports
!
16 POTS ports
!
a built-in splitter
The CSLB card supports: !
16 ADSL ports
!
16 POTS ports
!
a built-in splitter
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Table 3-6 Description of other cards Abbr. Name
Full name
Function description
AIUB
ATM interface card
The AIUB card carries out remote subtending of the UA5000. An AIUB card supports:
DEHA
Circuit emulation E1 interface card
!
2 STM-1 ATM ports, 2 ATM E3 ports or 2 ATM T3 ports
!
8 IMA E1 ports through backplane
!
1 + 1 card-level protection
The DEHA card supports: !
16 E1 ports
!
unstructured CES
EDTB
E1 trunk card
The EDTB card supports16 E1 trunk ports
TSSB
Test card
The TSSB and TSSC cards are used to test the narrowband and broadband line cards. TSSC card supports Tx and Rx of 1 kHz signal tone.
Environment and power supply monitor card
The ESC card controls or monitors:
TSSC ESC
!
temperature
!
humidity
!
door sensor
!
fan status
!
battery status
!
power supply status
This card reports the above information to the control card through a serial port. PWX
20
Secondary power supply card
The PWX card occupies one slot. A frame can use a minimum of one and a maximum of two PWX cards. The PWX cards support inter-card and inter-frame load-sharing.
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4 Service Implementation
4
Service Implementation
The UA5000 supports multiple services including voice, broadband and private circuit through different main control cards. The PVM or PVU card supports the voice and narrowband private circuit services, the APMB or IPMB card supports the broadband access and broadband private circuit services, and the PVM card supports the Voice over IP (VoIP) services.
4.1 PSTN Voice Services The UA5000 supports the standard V5.1 and V5.2 protocols, and provides E1 ports to connect to Local Exchanges (LEs) to access PSTN services. The major features of the PSTN voice service are as follows:
POTS The UA5000 provides POTS ports to support the access of analog subscribers and PBXs. The UA5000 supports supplementary services such as Central Exchange (CENTREX) and Caller Identification Display (CID).
ISDN The UA5000 provides ISDN BRI (2B+D) ports and ISDN PRI (30B+D) ports, and supports various N-ISDN services, including: !
Video conferencing
!
Videotext
!
G4 facsimile
!
E-mail
!
Data retrieval
!
LAN interconnection
!
Internet access
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The UA5000 also supports ISDN supplementary services. These ISDN supplementary services include: !
Direct dial-in (DDI)
!
Multi-subscriber number (MSN)
!
Calling line identification presentation (CLIP)
The UA5000 supports a mixed configuration of ISDN subscribers and analog telephone subscribers.
Direct-Dial-In The UA5000 provides DDI subscriber ports to support the subscriber line extension service. This service enables the external analog subscriber ports of other exchanges to be transparently extended inside the access network.
4.2 Next Generation Voice Services Working as an access media gateway (AMG), the UA5000 provides the following services under the control of a SoftSwitch. !
VoIP services for POTS subscribers
!
VoIP services for ISDN BRI subscribers
!
Fax over IP (FoIP) in the G.711 transparent transmission mode
!
FoIP in the T.38 mode
!
Modem over IP (MoIP) in the transparent transmission mode
!
DDI services
The major features of the next generation voice services are as follows:
22
!
Supports all PSTN basic services, complementary services, and intelligent services
!
Supports the G.711 (a-law/ µ-law), G.723.1 and G.729 (A/B) codecs
!
Supports the emergency standalone capability
!
Supports echo cancellation complying with ITU-T G.165/G.168
!
Supports pulse metering and polarity reversal metering
!
Provides QoS assurance for voice traffics with functions including priority queuing, jitter buffering, IP Type of Service (ToS), Differentiated Service Code Point (DSCP), and 802.1Q VLAN
!
Supports separate gain control of the transmission and reception streams
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4 Service Implementation
4.3 Broadband Services Broadband service port The UA5000 provides the following broadband service ports: !
ADSL and ADSL 2+
!
SHDSL
!
VDSL
!
Ethernet
The UA5000 provides the following broadband upstream ports: !
IP interface including FE and GE
!
ATM interface including STM-1 ATM, ATM E3, ATM T3 and IMA E1
Subscriber security management The UA5000 provides various methods to guarantee the security of the subscriber data and network. !
Subscriber isolation at layer 2 through VLAN
!
Subscriber isolation within Smart VLAN
!
Host number restriction of each port
!
Port searching by a MAC address
!
Binding of a MAC address and a port
!
Binding of an IP address and a port
!
MAC address filtering
!
Controlled number of multicast groups to access a port
!
Standard ACL and extended ACL, ACL for data link frames and user-defined ACL
!
DHCP Option82 to identify subscribers
Layer 2 and layer 3 features The UA5000 provides a complete TCP/IP protocol stack through its IPMB card. The layer 2 and layer 3 features of the UA5000 include: !
DHCP relay
!
ARP proxy
!
PPPoE+
!
DHCP Option82
!
Protocol conversion between IPoA and IPoE
!
Protocol conversion between PPPoA and PPPoE
!
ACL
!
RIP
!
OSPF
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QoS features The UA5000 supports the following QoS features: !
Packet forwarding based on 802.1p priority to provide appropriate QoS for different services
!
IP priority labeling or DSCP priority labeling for packets matching the ACL rules
!
Port-based, connection-based and VLAN-based flow control
!
Congestion control
!
Queue scheduling
4.4 Private Circuit Services The UA5000 provides rich private circuit services to meet the needs of group customers. The major private circuit service offerings of the UA5000 are as follows: !
Local and remote DDN access through DDN ports such as E1, V.35, V.24, SHDSL (in the TDM mode) and 2/4-wire VF
!
2/4-wire SHDSL access through ATM SHDSL ports
!
Private circuit data at a symmetric rate of 10 Mbit/s within 1.5 km through VDSL ports
!
Broadband private circuit LAN interconnection through FE ports
4.5 Multicast Video Service The UA5000 supports multicast protocols to offer the broadband multicast services, as follows:
24
!
Non-blocking forwarding of video services by a GE video port and a dedicated high-speed multicast bus
!
1024 multicast channels
!
Processing of 400 concurrent user requests per second
!
Receiving multicast streams and unicast streams from one or more network ports
!
Distributing multicast streams through the Metropolitan Area Network (MAN) or the Video Distribution Network (VDN)
!
Internet Group Management Protocol (IGMP) Proxy, IGMP V1 and V2
!
Fast switching between channels
!
Channel preview and audience statistics
!
Controlled channel access right, channel number, channel preview right, preview duration and preview times
!
Guaranteed QoS to forward the video streams
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5 Networking Applications
5
Networking Applications
The UA5000 adapts to various access network scenarios. You can use the UA5000 in complex topologies and challenging engineering environments. You can select the most suitable networking solution based on the requirements of transmission resources, ATM/IP network resources, service types, QoS and security. The following lists the equipment icons used in the networking diagrams below.
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Add/Drop Multiplexer (ADM)
UA5000
Terminal Multiplexer (TM)
MD5500
Multiple Add/Drop Multiplexer (MADM)
SoftSwitch
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5.1 Typical Networking Topologies When the broadband network at the upper layer is an IP network, the UA5000 can use the "MSTP Networking" or "SDH+FE/GE Networking". When the broadband network at the upper layer is an ATM network, the UA5000 can use the "SDH+STM-1 ATM Networking".
5.1.1 MSTP Networking In the MSTP networking, all services of the UA5000 are sent upstream through the MSTP equipment.
Networking description Table 5-1 describes the MSTP networking. Table 5-1 MSTP networking description Item
Description
Upper layer network
PSTN, DDN and IP
Access network topology
Ring, ring with chain, and tangent ring
Access network equipment
MSTP equipment, UA5000 and MD5500 (optional)
Service stream
Broadband services and narrowband services are accessed and transmitted together. Services are sent to the PSTN, DDN or IP network on the central office side through the MSTP. The VoIP services are sent to the IPMB card through an FE port of the PVM card, and then to the MSTP equipment through an FE or GE port of the IPMB.
Based on the aggregation state of the narrowband services, MSTP networking falls into two modes: single-level networking and two-level networking. !
Single-level networking
The UA5000 at the remote end sends the narrowband and broadband services to the central office through the MSTP transmission ring. The central office forwards the services to the BRAS/L3, PSTN switch or DDN node without convergence. !
Two-level networking
The narrowband services are sent to the PSTN or DDN through the MD5500 or UA5000 at the central office. When there are many remote nodes and subscribers, select the MD5500 in the central office to converge services. When there are a few remote nodes and subscribers, select the UA5000 to converge services.
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The broadband services are aggregated and forwarded to the BRAS/L3 by the transmission equipment at the central office.
Networking diagram Figure 5-1 and Figure 5-2 show the MSTP networking. You can replace the MD5500 in Figure 5-2 with a UA5000. Figure 5-1 Single-level MSTP networking H.248 PSTN
E1( V5)
IP
DDN FE/GE
E1
H.248
FE/GE
FE/GE MSTP
E1
E1
MSTP FE/GE
E1
E1
FE/GE H.248
FE/GE
Figure 5-2 Two-level MSTP networking H.248 PSTN
DDN
E1( V5)
E1
IP FE/GE H.248
FE/GE
FE/GE MSTP
E1
E1
MSTP E1
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FE/GE
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FE/GE H.248
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Networking features The MSTP networking has the following features: !
Suitable for the scenarios where the narrowband E1 and the broadband FE/GE resources coexist
!
Saving the optical fibers by accessing and transmitting both the narrowband and broadband services
!
Supporting multiple capacity specifications to meet various networking requirements
!
Suitable for the IPTV service deployment
5.1.2 SDH+FE/GE Networking In the SDH+FE/GE networking, narrowband services are transmitted through the SDH equipment, and broadband services through optical fibers.
Networking description Table 5-2 describes the SDH+FE/GE networking. Table 5-2 SDH+FE/GE networking description Item
Description
Upper layer network
PSTN, DDN and IP
Access network topology
Narrowband: ring, ring with chain, and tangent rings Broadband: star
Access network equipment
SDH equipment, UA5000 and MD5500 (optional)
Service stream
Broadband and narrowband services are accessed together but transmitted separately. Narrowband services are transmitted to the central office through the SDH network, and then upstream to PSTN and DDN. The broadband services are transmitted to the upper-layer network through the FE ports of the IPMB card. The VoIP services are sent to the IPMB card from the PVM card through its internal FE port. The services are then sent to the MSTP equipment through an FE or GE port of the IPMB.
The SDH+FE/GE networking falls into two modes: single-level networking and two-level networking. !
Single-level networking
The narrowband and broadband services are sent to the BRAS/L3, PSTN switch or DDN node directly. Neither of them is aggregated within the access network. !
Two-level networking
The MD5500 or the UA5000 at the central office aggregates the narrowband services and then sends them to PSTN or DDN.
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When there are many remote nodes and subscribers, select the MD5500 in the central office to aggregate the V5 interfaces. When there are a few remote nodes and subscribers, select the UA5000 in the central office to aggregate the V5 services. The broadband services are sent to the IP network through the FE or GE ports directly.
Networking diagram Figure 5-3 and Figure 5-4 show the SDH+FE/GE networking. You can replace the MD5500 in Figure 5-4 with a UA5000. Figure 5-3 Single-level SDH+FE/GE networking H.248 PSTN
E1( V5)
IP
DDN
E1
FE/GE
FE/GE H.248
FE/GE
SDH E1
SDH E1
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E1
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Figure 5-4 Two-level SDH+FE/GE networking H.248 PSTN E1( V5)
IP
DDN E1 FE/GE
FE/GE H.248
FE/GE FE/GE
SDH E1
SDH E1
E1
Networking features The SDH+FE/GE networking has the following features: !
Suitable for the consolidation of the networks with the SDH equipment or the construction of a new access network with abundant optical fibers.
!
The broadband service channel is separated from the narrowband service channel, while their EMS channels are integrated.
!
Suitable for the IPTV service deployment thanks to the direct GE/FE connection with IP MAN.
5.1.3 SDH+STM-1 ATM Networking When the broadband network at the upper layer network is an ATM network, the UA5000 uses the SDH+STM-1 ATM networking. In the SDH+STM-1 ATM networking, narrowband services are transmitted by the SDH equipment and broadband services by STM-1 ATM links.
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Networking description Table 5-3 describes the SDH+STM-1 ATM networking. Table 5-3 SDH+STM-1 ATM networking description Item
Description
Upper layer network
PSTN, DDN and ATM
Access network topology
Narrowband: ring, ring with chain, and tangent rings Broadband: star
Access network equipment
SDH equipment, UA5000 and MD5500 (optional)
Service stream
Broadband and narrowband services are accessed together but transmitted separately. The narrowband services are transmitted to the central office through the SDH network, and then upstream to PSTN and DDN. The broadband services are transmitted to the upper-layer network through an STM-1 port of the APMB card.
The SDH+STM-1 ATM networking falls into two modes: single-level networking and two-level networking. !
In the single-level networking, neither narrowband nor broadband services are aggregated within the access network.
!
In the two-level networking, the central office aggregates the services from the V5 and ATM interfaces and then sends them to PSTN or ATM network.
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Networking diagram Figure 5-5 and Figure 5-6 show the SDH+STM-1 ATM networking. Figure 5-5 Single-level SDH+STM-1 ATM networking PSTN
ATM
DDN
E1
E1( V5)
STM-1 STM-1
STM-1
SDH E1
E1
SDH E1
E1
E1
Figure 5-6 Two-level SDH+STM-1 ATM networking PSTN
E1(V5)
DDN E1
STM-1
STM-1
STM-1
E1
ATM
SDH
E1
E1
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Networking features The SDH+ STM-1 ATM networking has the following features: !
Suitable for the networks with the SDH equipment, ATM switches and abundant optical fibers.
!
The broadband service channel is separated from the narrowband service channel, while their EMS channels are integrated.
5.2 Typical Application Scenarios Typical application scenarios of the UA5000 include: !
NGN Consolidation
!
Private Circuit Service
!
Triple play application
5.2.1 NGN Consolidation The UA5000 acts as an AG to serve the NGN consolidation. In addition, the UA5000 can also send the broadband and narrowband services to IP and PSTN networks respectively. Figure 5-7 depicts the NGN consolidation scenario. In this scenario, the UA5000 carries out: !
The access of broadband and narrowband services over the same copper wire
!
The access of VoIP, FoIP and MoIP under the control of a SoftSwitch
!
The ISDN BRA and ISDN PRA services
!
The ADSL broadband network access and SHDSL broadband private circuit interconnection services
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Figure 5-7 Integrated access in NGN
Internet
SoftSwitch BRAS
IP MAN L2/L3 PSTN FE/GE E1 UA5000
ADSL2+
SHDSL
ISDN BRI
ISDN PRI
Splitter
Modem
PBX
Modem
SHDSL
ADSL
NT1
POTS/VoIP FAX
ISDN BRA
ISDN PRA
5.2.2 Private Circuit Service The UA5000 supports rich private circuit services to suit the group customers. Figure 5-8 depicts the scenario that provides the private circuit service. In this scenario, the UA5000 carries out:
34
!
The narrowband private circuit interconnection of narrowband services through E1 and V.35 interfaces provided by TDM SHDSL
!
The high speed private circuit interconnection through broadband ports such as FE and ATM SHDSL
!
QinQ VLAN and VLAN stacking for broadband services
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5 Networking Applications
Figure 5-8 Private circuit service
IP
DDN/SDH
VLAN \QinQ \Stacking VLAN
E1/STM-1
E1/STM-1
FE/GE
FE/GE UA5000 V.35
E1
UA5000
UA5000 E1
FE
FE
ATM SHDSL
TDM SHDSL Modem
DDN node
Modem
Modem
DTE
DDN node Headquarters
Branch 1
Branch 2
5.2.3 Triple Play The UA5000 is able to offer narrowband, data, and video services to end users simultaneously with appropriate QoS. Such a scenario is also called the Triple Play. Figure 5-9 shows this scenario. In this scenario, the UA5000 carries out: !
The access of both the broadband and narrowband services over the same copper wire
!
Appropriate QoS schemes for different services
!
IP TV service through the IGMP proxy and managed multicast mechanism
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Figure 5-9 Triple play application
Internet MGC IP TV Server BRAS
IP MAN
L2/L3
UA5000 Triple Play Home gateway STB
VoIP
36
Internet access
IP TV
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Equipment Management
6.1 Management Through the CLI Through the CLI, you can log on to the UA5000 through a serial port or an Ethernet port. Figure 6-1 shows the connection for maintenance through the CLI. Figure 6-1 Maintaining the UA5000 through the CLI Control card
Serial port
COM ETH
Ethernet port
UA5000
6.2 Management Through the EMS The Huawei iManager N2000 is the EMS that manages the DSLAM and MSAN of Huawei. The iManager N2000 communicates with the UA5000 through SNMP, and manages the broadband and narrowband services of the UA5000.
6.2.1 Hardware and Software Configuration Hardware configuration of the server A PC server or a UNIX workstation can be used. The EMS server can be configured differently to manage networks of different scales. For large and medium networks, UNIX workstations are recommended.
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Software configuration of the server Windows platform: Windows 2000 Server + SQL Server 2000 UNIX platform: Solaris 8 or later + Sybase 12 or later iManager N2000 software: iManager N2000 server software
Hardware configuration of the client A PC client or a UNIX workstation can be used. In general, a UNIX workstation is not recommended since the cost is high.
Software configuration of the client Windows platform: Windows 2000 Professional UNIX platform: Solaris 8 or later iManager N2000 software: iManager N2000 client software
6.2.2 Management Functions Overview The management functions of the iManager N2000 include: !
Topology management
!
Performance monitoring and traffic measurement
!
Fault management
!
Security management
!
Batch service provisioning
!
Backup and uploading of NE data
!
Database management
!
Environment and power supply monitoring
!
Configuration management
Topology management The iManager N2000 can display the network elements (NE) in the whole network in one topology view. Through a unified management platform, it can monitor and manage all NEs in the network. This simplifies network maintenance.
Performance monitoring and traffic measurement The iManager N2000 helps you to monitor system performance and collect traffic statistics of all NEs or a specified NE in the network, so that the network resources can be efficiently used.
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Fault management The iManager N2000 offers an overall network alarm management solution, enabling fast fault locating and troubleshooting. In addition, to simplify the troubleshooting, the iManager N2000 supports window switching. For example, it allows shift from the topological window to the alarm window, or shift from the alarm window to the faulty port.
Security management The iManager N2000 manages the network based on different user authorities and different domains. It can divide users’ authorities based on users, user groups, operations, applications or ACLs. It can enable automatic lock, forced disconnection and user operation logging on the clients.
Batch service provisioning The iManager N2000 supports batch service processing to shorten the time in deploying the service and responding to customers’ demands.
Backup and uploading of NE data The iManager N2000 provides manual or timed backup or uploading of data of all NEs or a specified NE in the network. This greatly enhances security of the NE data in the network and eases your burden in large scale software upgrade in the network.
Database management The iManager N2000 provides a tool to carry out the backup and recovery of the EMS database. This enhances security of the system data. The iManager N2000 also provides a monitoring terminal to monitor the running status of the EMS server and the usage of the EMS database. In addition, the iManager N2000 supports the remote dual system backup scheme to ensure the database safety.
Environment and power supply monitoring The iManager N2000 monitors environment and power supply of the NEs in a centralized manner. This function helps you to know about the situation of the environment and the power supply timely.
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Configuration management The EMS provides multiple configuration functions for the UA5000. Refer to Table 6-1 for details. Table 6-1 Configuration functions of UA5000 NE Manager Function feature
Description
Device management
The NE manager manages the hardware of the device, including shelves, cards and ports. Through the NE manager, you can display the panel, maintain the system, cards and ports, as well as measure the physical resources.
ADSL/ADSL2+ management
The NE manager enables you to:
Terminal management
SHDSL management
VLAN management
Ethernet management
Service port management
40
!
Query, configure and maintain the ADSL or the ADSL2+ port information and statuses
!
Manage the profiles of the ADSL or the ADSL2+ port
!
Monitor and measure the port traffic
The NE manager enables you to: !
Configure the IP address of a terminal
!
Configure the terminal profile
!
Query the detailed information about a terminal
!
Ping a terminal
!
Restart a terminal
The NE manager enables you to: !
Query, configure and maintain SHDSL port information and statuses
!
Manage SHDSL port profiles
The NE manager enables you to: !
Add the MUX VLAN, Smart VLAN, and Standard VLAN
!
Configure auxiliary ports and service virtual ports
!
Query VLAN information
The NE manager enables you to: !
Configure, activate and query Ethernet ports
!
Add, configure, activate and query aggregated Ethernet ports
The NE manager enables you to: !
Add service ports for ATM ports, ADSL ports, G.SHDSL ports, and VDSL ports.
!
Configure service port attributes, including physical ports and the maximum number of MAC addresses.
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Function feature
Description
IGMP Proxy management
The NE manager enables you to configure and query global parameters, users, upstream ports, and programs of the IGMP Proxy. You can also manage and provision the managed video services.
6.2.3 Networking Modes Between the N2000 and UA5000 Overview The EMS server and the UA5000 can communicate through in-band or out-band EMS channels. These two modes are usually used together.
Inband networking Inband networking means that the management is carried out using the service transmission channel of the UA5000. In this fashion, the EMS messages are transmitted through the service channel. Figure 6-2 shows the inband EMS networking. Figure 6-2 Inband EMS networking EMS Client
EMS Client
EMS Server
IP
UA5000
UA5000
Features of the inband networking are as follows: !
Advantage: The networking is flexible, and does not require additional devices. It saves cost.
!
Disadvantage: When the service channel is interrupted, network management cannot be carried out.
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Outband networking Outband networking means that the management is carried out using a channel separated from the service channel. Figure 6-3 shows the outband EMS networking. Figure 6-3 Outband EMS networking Management side
Service side
RTU UA5000 EMS Client
UA5000
IP
EMS Client
RTU EMS Server
Features of the outband networking are as follows:
42
!
Advantage: The EMS channel is more reliable than that of the inband EMS. When the service channel is interrupted, you can still manage the UA5000 through the outband EMS.
!
Disadvantage: Additional devices are required to set up an EMS channel separated from the service channel.
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Technical Specifications
7.1 Equipment Parameters 7.1.1 Dimensions Table 7-1 Dimensions of the UA5000 cabinets Cabinet
Dimension (W x D x H, in mm)
ONU-F01D200
1250 x 550 x 1200
ONU-F01D500
1550 x 550 x 1550
ONU-F01D1000
1900 x 550 x 1650
ONU-F02A
600 x 600 x 2200
ONU-F02AF
600 x 600 x 2200
Table 7-2 Dimensions of the UA5000 frames Frame
Dimensions (W x D x H, in mm)
HABC
482 x 445 x 352.8
HABL
310 x 370 x 444
HABA
482 x 445 x 711
HABB
482 x 445 x 711
HABD
482 x 370 x 444
HABE
482 x 370 x 444
HABF
482 x 370 x 444
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7.1.2 Weights Table 7-3 Weights of the UA5000 cabinets Cabinet
Weight (fully-populated, in kg)
ONU-F01D200
370 (with two battery groups weighing 120 kg)
ONU-F01D500
550 (with two battery groups weighing 200 kg)
ONU-F01D1000
850 (with two battery groups weighing 200 kg)
ONU-F02A
250
ONU-F02AF
260
7.1.3 Running Environment Table 7-4 The running environment of the UA5000 in different cabinets Cabinet
Temperature (oC)
Humidity
ONU-F01D200
–45 – 50
5% – 100%
ONU-F01D500
–45 – 50
5% – 100%
ONU-F01D1000
–45 – 50
5% – 100%
ONU-F02A
–5 – 45
5% – 90%
ONU-F02AF
–5 – 45
5% – 90%
7.1.4 Power Supply Table 7-5 Voltage specification of the power supply systems
44
Power supply type
Nominal voltage
Voltage range
DC
–48 V
–48 V to –72 V
AC
220 V / 230 V / 240 V
154 V to 286 V, 48 Hz to 52 Hz
110 V / 115 V / 127 V
90 V to 150 V, 47 Hz to 53 Hz
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7.2 Performance and Capacity Specifications 7.2.1 System Performance Specifications Table 7-6 System performance specifications Item
Index
Narrowband TDM switching capacity
PVU8/PVU4: 4k x 4k PVM: 8k x 8k
Maximum V5 interfaces
16
Maximum trunk ports
104 E1 ports (PVM); 108 E1 ports (PVU)
Maximum subscriber number
4000
Maximum SPC number
512
HDLC
48
Call processing capacity
40k BHCA
VoIP DSP channel number
1000
Maximum number of subscribers
4000
Call processing capacity
40k BHCA
Broadband (using the APMB card) ATM switch capacity
5 Gbit/s
Maximum number of PVCs in one frame
8000
Maximum number of PVPs in one frame
4000
Maximum number of STM-1 ports
APMB: 2 AIUB: 2
Maximum number of ATM E3 ports
APMB: 2
Maximum number of ATM T3 ports
APMB: 2
Maximum number of IMA E1 ports
APMB: 8
Maximum number of CES E1 ports
APMB: 8
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Item
Index
Broadband (using the IPMB card) Ethernet switching capacity
34 Gbit/s
Forwarding capacity
Wire speed forwarding
Maximum number of GE ports
2
Maximum number of FE ports
The IPMB card provides six ports, and each EAUA card provides eight ports.
VLAN number
4k
802.1p priority
Recognizing the 802.1p tag, and supporting eight priorities and four PQ queues scheduling.
MAC address number
16 k
Multicast group number
1k
Typical forward delay
40 µs
Clock Clock stratum
Stratum 3
Backplane Backplane bus capacity
100 Gbit/s
7.2.2 Port Types and Numbers Table 7-7 Types and numbers of the management interfaces Interface type
Provided by
Number per card
Maintenance Ethernet port
IPMB / APMB / PVM / PVU8 / PVU4
1
Local configuration serial port
IPMB / APMB / PVM / PVU8 / PVU4
1
Table 7-8 Types and numbers of the network interfaces
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Interface type
Provided by
Number per card
TDM E1
PVU8/RSU8
8
PVU4/RSU4
4
IMA E1
APMB/AIUB
8
ATM E3
APMB/AIUB
2
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Interface type
Provided by
Number per card
ATM T3
APMB/AIUB
2
STM-1 ATM
APMB/AIUB
2
FE electrical port
PVM
1
IPMB
2
FE optical port
IPMB
2
GE optical port
IPMB
2
Table 7-9 Types and numbers of the user interfaces Interface type
Provided by
Number per card
POTS
ASL/CSMB
16
A32 (CC0HASL / CC0RASL / CC0NASL)
32
ISDN BRI
DSL
8
ISDN PRI
EDTB
16
2B1Q
DSL
8
EDTB
16
DEHA
16
APMB
8
V.24
Through MTA
3
2-wire VF port
VFB
16
4-wire VF port
VFB
8
FXO
CDI
16
ADSL
CSLB/ADLB
16
ADSL2+
ADMB/ADMC/CSMB
16
VDSL
VDLA
16
TDM SHDSL
H303HSL
2
H521SDL
4
ATM SHDSL
SDLB
16
FE
EAUA
8
CES E1
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7.3 Port Specifications 7.3.1 STM-1/OC-3c Optical Port Table 7-10 Technical specifications of the STM-1 optical port Parameter
Specification
Transmission rate (Mbit/s)
155.520
Connector type
SC
Fiber type
G.652
Optical source type
MLM
Central wavelength (nm)
1310
1310
1310
Interface mode
Multi-mode
Single mode
Single mode
Maximum transmission distance (km)
2
30
60
Mean transmit power (dBm)
> –23.5
–14 to –8
–5 to 0
Extinction ratio (dB)
10
8.2
10
Receiver sensitivity (dBm)
< –29
< –34
< –34
Receiver overload power (dBm)
–14
–8
–10
Standard compliance
ITU-T G.707, ITU-T G.958, ITU-T G.783 and ITU-T I.432.1
7.3.2 100Base-TX Table 7-11 Technical specifications of the 100Base-TX port
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Parameter
Specification
Transmission rate
10 Mbit/s and 100 Mbit/s compatible
Interface type
RJ-45 (TPI)
Transmission distance
100 m
Interface mode
UTP/STP
Cable type
Category-5 twisted pair
Differential mode output voltage
1165 mV–1285 mV (STP) 950 mV–1050 mV (UTP)
Duty ration extortion
Less than ±0.5 ns
Output jitter
Less than 0.5 ns
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Parameter
Specification
Impedance return loss
2–30 MHz
>16 dB
30–60 MHz
>16 - 20log(f/30) dB (f-frequency, in MHz)
60–80 MHz
>10 dB
Common mode suppression
The input end can sustain the sine common mode interference of 0–125 MHz, 1.0 Vpp
Standard compliance
IEEE 802.3u
7.3.3 100Base-FX Table 7-12 Technical specifications of the 100Base-FX port Parameter
Specification
Transmission rate
100 Mbit/s
Interface type
LC
Interface mode
Multi-mode
Single mode
Single mode
Transmission distance (km)
2
15
40
Central wavelength (nm)
1310
1310
1310
Mean transmit power (dBm)
–19 to –14
–15 to –8
–5 to 0
Extinction ratio (dB)
10
8.2
8.2
Receiver sensitivity (dBm)
< –30
< –31
< –36
Receiver overload power (dBm)
–14
–8
–8
Standard compliance
IEEE 802.3u
7.3.4 1000Base-SX Table 7-13 Technical specifications of the 1000Base-SX port Parameter
Specification
Transmission rate
1000 Mbit/s
Interface type
LC
Interface mode
Multi-mode
Transmission distance (m)
500
Average transmit power (dBm)
–9.5 to –4
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Parameter
Specification
Central wavelength (nm)
850
Extinction ratio (dB)
9
Receiver sensitivity (dBm)
< –17
Receiver overload power (dBm)
0
Standard compliance
IEEE 802.3z
7.3.5 1000Base-LX Table 7-14 Technical specifications of the 1000Base-LX port Parameter
Specification
Transmission rate
1000 Mbit/s
Interface type
LC
Interface mode
Single mode
Transmission distance (km)
10
Central wavelength (nm)
1310
Average transmit power (dBm)
–11 to –3
Extinction ratio (dB)
8.2
Receiver sensitivity (dBm)
< –19
Receiver overload power (dBm)
–3
Standard compliance
IEEE 802.3z
7.3.6 1000Base-ZX Table 7-15 Technical specifications of the 1000Base-ZX port
50
Parameter
Specification
Transmission rate
1000 Mbit/s
Interface type
LC
Interface mode
Single mode
Transmission distance (km)
40
80
Central wavelength (nm)
1550
1550
Average transmit power (dBm)
–5 to 0
–3 to 2
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Parameter
Specification
Extinction ratio (dB)
9.0
9.0
Receiver sensitivity (dBm)
< –21
< –23
Receiver overload power (dBm)
–3
–3
Standard compliance
IEEE 802.3z
7.3.7 E3 Table 7-16 Technical specifications of the E3 port Parameter
Specification
Transmission rate
34.368 Mbit/s
Line code
HDB3
Line jitter
Comply with ITU-T G.823, G.824 and ETSI-TBR-2 standards
Maximum transmission distance
1200 feet/366 m
Input/output impedance
75 Ω
Standard compliance
ITU-T G.703, ITU-T G.704 and ITU-T G.823
7.3.8 T3 Table 7-17 Technical specifications of theT3 port Parameter
Specification
Transmission rate
44.736 Mbit/s
Line code
B3ZS
Line jitter
Comply with ITU-T G.823 and G.824 standards
Maximum transmission distance
1100 feet/335 m
Input/output impedance
75 ohm
Standard compliance
The frame structure complies with ITU-T G.704 standard.
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7.3.9 ADSL Table 7-18 Technical specifications of the ADSL port Parameter Upstream
Downstream
Specification Bandwidth
26 kHz–138 kHz
Maximum transmission rate
896 kbit/s
Bandwidth
138 kHz–1.104 MHz
Maximum transmission rate
8160 kbit/s
Maximum transmission distance
5 km
Line code
DMT
Standard compliance
ITU-T G.992.1 (G.dmt), ITU-T G.992.2 (G.lite) and ANSI T1.413
7.3.10 ADSL2+ Table 7-19 Technical specifications of the ADSL2+ port Parameter Upstream
Downstream
52
Specification Bandwidth
26 kHz–138 kHz
Maximum transmission rate
1.2 Mbit/s
Bandwidth
138 kHz–2.208 MHz
Maximum transmission rate
24 Mbit/s
Maximum transmission distance
6 km
Line code
DMT
Standard compliance
ITU-T G.992.5
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7.3.11 SHDSL Table 7-20 Technical specifications of the SHDSL port Parameter
Specification Over one twisted pair
Over two twisted pairs
Transmission rate
192 kbit/s–2312kbit/s
384 kbit/s–4608 kbit/s
Rate adjustment step
64 kbit/s
128 kbit/s
Transmission distance
3–6 km
Line code
TC-PAM
Frame protocol
E1, PCM, ATM and ISDN
Transmission mode
G.991.2 Annex A and G.991.2 Annex B
Standard compliance
ITU-T G.991.2
7.3.12 VDSL Table 7-21 Technical specifications of the VDSL port Parameter Upstream
Downstream
Maximum transmission distance Line code
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Specification Bandwidth
4.5 MHz–7.9 MHz
Maximum transmission rate
12.5 Mbit/s
Bandwidth
0.9 MHz–3.3 MHz
Maximum transmission rate
12.5 Mbit/s
At 0.5 mm wire
1.5 km
At 0.4 mm wire
1.2 km QAM
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7.3.13 E1 Table 7-22 Technical specifications of the E1 port Parameter
Specification
Transmission rate
2048 kbit/s
Bit rate tolerance
±50 ppm
Line code
HDB3
Standard impedance
75 ohm (coaxial)
120 ohm (STP)
Transmission distance
≤ 1000 m
≤ 3000 m
Nominal pulse width
244 ns
Port protection capability
Comply with ITU-T K.20
Standard compliance
Physical layer complies with ITU-T G.703, and frame structure complies with ITU-T G.704.
7.3.14 V.35 Table 7-23 Technical specifications of the V.35 port
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Parameter
Specification
Mechanical characteristic
34-pin connector
Electric characteristic
Clock and data signals
Balanced interface circuit
Control signal
Unbalanced interface circuit
Interface function
Data, control, clock and earthing
Maximum data transmission rate
10 Mbit/s
Transmission rate in practice
N x 64 kbit/s (N = 1–32)
Transmission distance
15 m
Standard compliance
ITU-T V.35, ITU-T V.24 and ISO2593 (M34)
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7.4 Standards Compliance Table 7-24 lists the standards compliance. Table 7-24 Standards compliance Standards
Description
AF-PHY-0086.000
Inverse Multiplexing for ATM(IMA)Specification Version1.0
AF-PHY-0086.001
Inverse Multiplexing for ATM(IMA)Specification Version1.1
ANSI T1.413 issue 1 & issue 2
Asymmetrical Digital Subscriber Line(ADSL)Metallic Interface Specification (issue 1 & issue 2 )
ATM FORUM: AS_VTOA-0078.00 0
Circuit Emulation Services Version 2.0
IEEE 802.1D
IEEE standard for local and metropolitan area networks--Common specifications--Media access control (MAC) Bridges
IEEE 802.1p
Traffic class expediting and dynamic multicast filtering
IEEE 802.1Q
IEEE standard for local and metropolitan area networks: Virtual Bridged Local Area Networks
IEEE 802.1w
Local and metropolitan area networks---Common specifications Part 3: Media Access Control (MAC) Bridges---Amendment 2---Rapid Reconfiguration
IEEE 802.1x
Port Based Network Access Control
IEEE 802.2
IEEE standard for local and metropolitan area networks Specific requirements Part 2: Logical Link Control
IEEE 802.3
Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications
IEEE 802.3ac
Frame Extensions for Virtual Bridged Local Area Network (VLAN) Tagging on 802.3 Networks
IEEE 802.3ad
(Clause 43) Aggregation of Multiple Link Segments
IEEE 802.3u
Definition of Fast Ethernet (100BTX, 100BT4, 100BFX)
IEEE 802.3x
Definition of Full Duplex operation in a switched (LAN Flow control)
IEEE 802.3z
Definition of Gigabit Ethernet (over Fibre)
ITU-T G.168
Digital network echo cancellers
ITU-T G.702
Digital hierarchy bit rates
ITU-T G.703
Physical / electrical characteristics of hierarchical digital interfaces
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Standards
Description
ITU-T G.704
Synchronous frame structures used at primary and secondary hierarchical levels
ITU-T G.706
Frame alignment and cyclic redundancy check (CRC) Procedures relating to basic frame structures defined in recommendation G.704
ITU-T G.707
G.707 Network Node Interface for the Synchronous Digital Hierarchy (SDH)
ITU-T G.711
Pulse code modulation (PCM) of voice frequencies
ITU-T G.712
Transmission performance characteristics of pulse code modulation channels
ITU-T G.723.1
Dual rate speech coder for multimedia communications transmitting at 5.3 and 6.3 kbit/s
ITU-T G.729
C source code and test vectors for implementation verification of the G.729 8 kbit/s CS-ACELP speech coder
ITU-T G.781
Synchronization layer functions
ITU-T G.783
Characteristics of synchronous digital hierarchy (SDH) equipment functional blocks
ITU-T G.785
Characteristics of a flexible multiplexer in a synchronous digital hierarchy environment
ITU-T G.797
Characteristics of a flexible multiplexer in a plesiochronous digital hierarchy environment
ITU-T G.803
Architecture of transport networks based on the synchronous digital hierarchy (SDH)
ITU-T G.804
ATM cell mapping into plesiochronous digital hierarchy (PDH)
ITU-T G.811
Timing requirements at the outputs of primary reference clocks suitable for plesiochronous operation of international digital links
ITU-T G.812
Timing requirements of slave clocks suitable for use as node clocks in synchronization networks
ITU-T G.813
Timing characteristics of SDH equipment slave clocks (SEC)
ITU-T G.821
Error performance of an international digital connection operating at a bit rate below the primary rate and forming part of an integrated services digital network
ITU-T G.823
The control of jitter and wander within digital networks which are based on the 2048kbit/s hierarchy
ITU-T G.824
The control of jitter and wander within digital networks which are based on the 1544kbit/s hierarchy
ITU-T G.826
Error performance parameters and objectives for international constant bit rate digital paths at or above the primary rate
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Standards
Description
ITU-T G.902
Framework recommendation on functional access networks (AN): architecture and functions, access type, management and service node aspects
ITU-T G.957
Optical interfaces for equipments and systems relating to the synchronous digital hierarchy
ITU-T G.958
Digital line systems based on the synchronous digital hierarchy for use on optical fibre cables
ITU-T G.960
Access digital section for ISDN basic rate access
ITU-T G.961
Digital transmission system on metallic local lines for ISDN basic rate access
ITU-T G.962
Access digital section for ISDN primary rate at 2048kbit/s
ITU-T G.964
V-interfaces at the digital local exchange (LE) V5.1-interface (based on 2048kbit/s) for the support of access network (AN)
ITU-T G.965
V-interfaces at the digital local exchange (LE) V5.2-interface (based on 2048kbit/s) for the support of access network (AN)
ITU-T G.982
Optical access networks to support services up to the ISDN primary rate or equivalent bit rates
ITU-T G.991.2
Single-pair high-speed digital subscriber line (SHDSL) transceivers
ITU-T G.992.1
Asymmetric Digital Subscriber Line (ADSL) transceivers
ITU-T G.992.2
ITU standard for low-speed Asymmetrical Digital Subscriber Line without voice splitter
ITU-T G.992.3
Asymmetrical digital subscriber line (ADSL) transceivers – 2 (ADSL2)
ITU-T G.992.5
Asymmetrical digital subscriber line (ADSL) transceivers – extended bandwidth ADSL2 (ADSL2plus)
ITU-T G.996.1
Digital Subscriber Line (DSL) Transceiver Testing Procedure
ITU-T G.997.1
Physical layer management for Digital Subscriber Line (DSL) transceivers
ITU-T H.248
Gateway control protocol
ITU-T I.361
B-ISDN ATM layer specification
ITU-T I.363
B-ISDN ATM Adaptation Layer specification
ITU-T I.363.1
B-ISDN ATM Adaptation Layer Specification: Type 1 AAL
ITU-T I.363.5
B-ISDN ATM Adaptation Layer specification: Type 5 AAL
ITU-T I.371
Traffic control and congestion control in B-ISDN
ITU-T I.430
ISDN basic user-network interface layer 1 specification
ITU-T I.431
ISDN primary rate user-network interface layer 1 specification
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Standards
Description
ITU-T I.432.2
B-ISDN user-network interface-Physical layer specification: 155,520kbit/s and 622,080kbit/s operation
ITU-T I.432.3
B-ISDN user-network interface - Physical layer specification: 1544 kbit/s and 2048 kbit/s operation
ITU-T I.610
B-ISDN operation and maintenance principles and functions
ITU-T I.630
ATM protection switching
ITU-T M.3100
Generic network information model
ITU-T Q.811
Lower layer protocol profiles for the Q3 and X interfaces
ITU-T Q.812
Upper layer protocol profiles for the Q3 and X interfaces
ITU-T Q.831
Fault and performance management of V5 interface environments and associated customer profiles
ITU-T Q.921
ISDN user-network interface – Data link layer specification
ITU-T Q.931
ISDN user-network interface layer 3 specification for basic call control
ITU-T T.30
Procedures for document facsimile transmission in the general switched telephone network
ITU-T T.38
Procedures for real-time Group 3 facsimile communication over IP networks
ITU-T V.24
List of definitions for interchange circuits between data terminal equipment (DTE) and data circuit-terminating equipment (DCE)
ITU-T V.36
Modem using the 60-108 kHz frequency band for synchronous data transmission
ITU-T V.90
A digital modem and analogue modem pair for use on the Public Switched Telephone Network (PSTN) at data signaling rates of up to 56 000 bit/s downstream and up to 33 600 bit/s upstream
ITU-T Y.1310
Transport of IP over ATM in public networks
RFC 0768
User Datagram protocol
RFC 0783
The TFTP Protocol (Revision 2)
RFC 0791
Internet protocol
RFC 0792
Internet Control Message Protocol
RFC 0793
Transmission Control Protocol
RFC 0826
An Ethernet Address Resolution Protocol (ARP)
RFC 0854
Telnet protocol
RFC 0894
A standard for the transmission of IP datagrams over Ethernet networks
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7 Technical Specifications
Standards
Description
RFC 1112
Host extensions for IP multicasting
RFC 1155
Structure and Identification of Management Information for TCP/IP-based Internets, Network Working Group, May 1990
RFC 1157
Simple Network Management Protocol (SNMP)
RFC 1213
Management Information Base for Network Management of TCP/IP-based internets: MIB-II 2.Draft Standards
RFC 1483
Multiprotocol Encapsulation over ATM Adaptation Layer 5
RFC 1493
Bridge MIB
RFC 1542
Clarifications and Extensions for the Bootstrap Protocol (DHCP-Relay)
RFC 1643
Definitions of Managed Objects for the Ethernet-like Interface Types
RFC 1661
Point to Point Protocol (PPP)
RFC 1723
RIP Version 2 (RIP2)
RFC 1757
Remote Network Monitoring Management Information Base
RFC 1889
RTP: A Transport Protocol for Real-Time Applications
RFC 1890
RTP Profile for Audio and Video Conferences with Minimal Control
RFC 1907
Management Information Base for Version 2 of the Simple Network Management Protocol (SNMPv2)
RFC 2198
RTP Payload for Redundant Audio Data
RFC 2225
Classical IP and ARP Over ATM (IPoA)
RFC 2236
Internet Group Management Protocol Version 2 (IGMP V2)
RFC 2328
OSPF Version 2,Network Working Group, April 1998
RFC 2364
PPP Over AAL5 (PPPoA)
RFC 2515
Definitions of Managed Objects for ATM Management
RFC 2516
A Method for Transmitting PPP Over Ethernet (PPPoE)
RFC 2613
Remote Network Monitoring MIB Extensions for Switched Networks
RFC 2652
Ethernet Interface MIB
RFC 2662
Definitions of Managed Objects for the ADSL Lines
RFC 2784
Generic Routing Encapsulation (GRE)
RFC 2819
Remote Network Monitoring
RFC 2833
RTP Payload for DTMF Digits, Telephony Tones and Telephony Signals
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Standards
Description
RFC 2960
Stream Control Transmission Protocol
RFC 3015
Megaco Protocol Version 1.0
RFC 3057
ISDN Q.921-User Adaptation Layer (IUA)
RFC 3389
Real-time Transport Protocol (RTP) Payload for Comfort Noise (CN)
RFC 3440
Definitions of Extension Managed Objects for Asymmetric Digital Subscriber Lines
RFC 3525
Gateway Control Protocol Version 1
RFC 3550
RTP: A Transport Protocol for Real-Time Applications
RFC 3551
RTP Profile for Audio and Video Conferences with Minimal Control
RFC 4040
RTP payload format for a 64 kbit/s transparent call.
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A Acronyms and Abbreviations
A
Acronyms and Abbreviations
A AAL1
ATM Adaptation Layer Type 1
AAL5
ATM Adaptation Layer Type 5
ACL
Access Control List
ADM
Add and Drop Multiplexer
ADSL
Asymmetric Digital Subscriber Line
AG
Access Gateway
AN
Access Network
APS
Automatic Protection Switching
ARP
Address Resolution Protocol
ASL
Analog Subscriber Line
ATM
Asynchronous Transfer Mode
B BHCA
Busy Hour Call Attempt
BMS
Broadband integrated network Management System
BRI
Basic Rate Interface
BRAS
Broadband Remote Access Server
C CAPEX
Capital Expenditure
CBR
Constant Bit Rate
CENTREX
Central Exchange
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A Acronyms and Abbreviations
CES
Circuit Emulation Service
CHAP
Challenge Handshake Authentication Protocol
CID
Caller Identification Display
CLI
Command Line Interface
CLIP
Calling Line Identification Presentation
CMM
Capability Maturity Model
CNG
Comfort Noise Generation
CPE
Customer Premises Equipment
CRC
Cyclic Redundancy Check
D DCE
Data Circuit-terminating Equipment
DDI
Direct-Dialing-In
DDN
Digital Data Network
DMT
Discrete Multi-Tone
DSLAM
Digital Subscriber Line Access Multiplexer
DSP
Digital Signal Processing
DTE
Data Terminal Equipment
DTMF
Dual Tone Multi-Frequency
E EMU
Environment Monitor Unit
ETSI
European Telecommunications Standards Institute
F FE
Fast Ethernet
FoIP
Fax over IP
FTTB
Fiber To The Building
FTTC
Fiber To The Curb
FXO
Foreign Exchange Office
G GE
62
Gigabit Ethernet
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GUI
A Acronyms and Abbreviations
Graphical User Interface
H HDLC
High-speed Data Link Control
HW
High Way
I IGMP
Internet Group Management Protocol
IMA
Inverse Multiplexing for ATM
IP
Internet Protocol
IPoA
IP over ATM
ISDN
Integrated Services Digital Network
L LE
Local Exchange
M MAN
Metropolitan Area Network
MDF
Main Distribution Frame
MGCP
Media Gateway Control Protocol
MIB
Management Information Base
MML
Man Machine Language
MoIP
Modem over IP
MSN
Multiple-Subscriber Number
MSP
Multiplex Section Protection
MSTP
Multi-Service Transmission Platform
MTA
Multifunctional Terminal Adapter
N NGN
Next Generation Network
nrt-VBR
non-real time Variable Bit Rate
O OLT
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Optical Line Terminal
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A Acronyms and Abbreviations
ONU
Optical Network Unit
OPEX
Operative Expenditure
OSPF
Open Shortest Path First
OSS
Operating Support System
P PCM
Pulse-Code Modulation
PDH
Plesiochronous Digital Hierarchy
POTS
Plain Old Telephone Service
PPP
Point-to-Point Protocol
PPPoE
PPP over Ethernet
PRI
Primary Rate Interface
PSTN
Public Switched Telephone Network
PVC
Permanent Virtual Connection
Q QAM
Quadrature Amplitude Modulation
QoS
Quality of Service
R RADIUS
Remote Authentication Dial In User Service
RIP
Routing Information Protocol
RSTP
Rapid Spanning Tree Protocol
RTCP
Real-time Transport Control Protocol
RTP
Real-time Transport Protocol
rt-VBR
real time Variable Bit Rate
S SDH
Synchronous Digital Hierarchy
SEC
SDH Equipment Slave Clocks
SMS
Service Management System
SNCP
Sub-network Connection Protection
SNMP
Simple Network Management Protocol
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A Acronyms and Abbreviations
SHDSL
Single-pair High-bit-rate Digital Subscriber Line
SPC
Semi-permanent Connection
STB
Set Top Box
STM
Synchronous Transfer Mode
T TDM
Time Division Multiplexing
TL1
Transaction Language 1
ToS
Type of Service
U UBR
Unspecified Bit Rate
V VAD
Voice Activity Detection
VBR
Variable Bit Rate
VDN
Video Distribution Network
VDSL
Very High Speed DSL
VF
Voice Frequency
VLAN
Virtual Local Area Network
VoIP
Voice over IP
VP
Virtual Path
W WAN
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Wide Area Network
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Index
Index A
F
ADLB, 19 ADMB, 19 ADMC, 19 AIUB, 20 APMB, 17 APSB, 18 ASL, 18
frame dimension, 43 front-access frames HABD, 12 HABE, 13 HABF, 14 HABL, 15
B
I
broadband service layer 2 and layer 3 features, 23 port, 23 QoS features, 24 security, 23
IPMB, 17
C cabinet dimension, 43 CDI, 18 CLI, 37 CSLB, 19 CSMB, 19
D DEHA, 20 DSL, 18
E EAUA, 19 EMS hardware configuration, 37 inband networking, 41 management function, 38 outband networking, 42 software configuration, 38 ESC, 20
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M MSTP networking single-level, 27 two-level, 27 multicast video service, 24
N network application triple play, 35 networking description MSTP, 26 SDH+FE/GE, 28 SDH+STM-1 ATM, 31 networking features MSTP, 28 SDH+FE/GE, 30 SDH+STM-1 ATM, 33 NGN, 1 NGN voice service, 22
O ONU-F01D1000, 9 ONU-F01D200, 9 ONU-F01D500, 9 ONU-F02A, 9 ONU-F02AF, 10
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UA5000 System Description
Index
P power supply, 44 private circuit service, 24 PSTN voice service, 21 PVM, 17 PVU8/PVU4, 17 PWX, 20
two-level, 30 SDH+STM-1 ATM networking single-level, 32 two-level, 32 SDL, 18 SDLB, 18, 19 system performance specifications, 45
T
R rear-access frames HABC, 11 RSU8/RSU4, 18 running environment, 44
TSSB, 20
U UA5000 features, 3
S
V
scenarios NGN consolidation, 33 private circuit service, 34 SDH+FE/GE networking single-level, 29
VFB, 18
W weight, 44
i.
i-2
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Issue 02(2006-11-01)
HUAWEI TECHNOLOGIES CO., LTD. Huawei Industrial Base Bantian Longgang Shenzhen 518129, P.R.China www.huawei.com 31026219
System Description
HUAWEI TECHNOLOGIES CO., LTD.
UA5000 Universal Access Unit V100R011
System Description
Issue
02
Date
2006-11-01
BOM
31026219
Huawei Technologies Proprietary
Huawei Technologies Co., Ltd. provides customers with comprehensive technical support and service. Please feel free to contact our local office or company headquarters.
Huawei Technologies Co., Ltd. Address:
Administration Building, Huawei Technologies Co., Ltd., Bantian, Longgang District, Shenzhen, 518129, People’s Republic of China
Website:
http://www.huawei.com
Email:
[email protected]
Copyright © Huawei Technologies Co., Ltd. 2006. All rights reserved. No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other trademarks and trade names mentioned in this document are the property of their respective holders.
Notice The information in this document is subject to change without notice. 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 the warranty of any kind, express or implied.
Huawei Technologies Proprietary
UA5000 System Description
Contents
Contents About This Document.....................................................................................................................1 1 System Overview ..........................................................................................................................1 2 Features and Benefits ...................................................................................................................3 2.1 Multi-Service Access Platform....................................................................................................................... 3 2.2 High-Density Subscriber Line Access ............................................................................................................ 5 2.3 Powerful Service Processing Capabilities ...................................................................................................... 5 2.4 Operable Broadband Video Service................................................................................................................ 6 2.5 Flexible Networking Modes ........................................................................................................................... 6 2.6 Carrier-Class Reliability ................................................................................................................................. 6 2.7 Range of UA5000 Models.............................................................................................................................. 7 2.8 Element Management System ........................................................................................................................ 8
3 System Structure ...........................................................................................................................9 3.1 Cabinets.......................................................................................................................................................... 9 3.2 Frames .......................................................................................................................................................... 10 3.2.1 Rear-Access Frames ........................................................................................................................... 10 3.2.2 Front-Access Frames.......................................................................................................................... 12 3.3 Cards............................................................................................................................................................. 17
4 Service Implementation.............................................................................................................21 4.1 PSTN Voice Services.................................................................................................................................... 21 4.2 Next Generation Voice Services ................................................................................................................... 22 4.3 Broadband Services ...................................................................................................................................... 23 4.4 Private Circuit Services ................................................................................................................................ 24 4.5 Multicast Video Service................................................................................................................................ 24
5 Networking Applications..........................................................................................................25 5.1 Typical Networking Topologies.................................................................................................................... 26 5.1.1 MSTP Networking ............................................................................................................................. 26 5.1.2 SDH+FE/GE Networking................................................................................................................... 28 5.1.3 SDH+STM-1 ATM Networking......................................................................................................... 30 5.2 Typical Application Scenarios ...................................................................................................................... 33 5.2.1 NGN Consolidation............................................................................................................................ 33
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5.2.2 Private Circuit Service........................................................................................................................ 34 5.2.3 Triple Play .......................................................................................................................................... 35
6 Equipment Management ...........................................................................................................37 6.1 Management Through the CLI ..................................................................................................................... 37 6.2 Management Through the EMS ................................................................................................................... 37 6.2.1 Hardware and Software Configuration............................................................................................... 37 6.2.2 Management Functions ...................................................................................................................... 38 6.2.3 Networking Modes Between the N2000 and UA5000 ....................................................................... 41
7 Technical Specifications ............................................................................................................43 7.1 Equipment Parameters.................................................................................................................................. 43 7.1.1 Dimensions......................................................................................................................................... 43 7.1.2 Weights............................................................................................................................................... 44 7.1.3 Running Environment ........................................................................................................................ 44 7.1.4 Power Supply ..................................................................................................................................... 44 7.2 Performance and Capacity Specifications .................................................................................................... 45 7.2.1 System Performance Specifications ................................................................................................... 45 7.2.2 Port Types and Numbers .................................................................................................................... 46 7.3 Port Specifications........................................................................................................................................ 48 7.3.1 STM-1/OC-3c Optical Port ................................................................................................................ 48 7.3.2 100Base-TX ....................................................................................................................................... 48 7.3.3 100Base-FX........................................................................................................................................ 49 7.3.4 1000Base-SX...................................................................................................................................... 49 7.3.5 1000Base-LX ..................................................................................................................................... 50 7.3.6 1000Base-ZX ..................................................................................................................................... 50 7.3.7 E3 ....................................................................................................................................................... 51 7.3.8 T3 ....................................................................................................................................................... 51 7.3.9 ADSL.................................................................................................................................................. 52 7.3.10 ADSL2+ ........................................................................................................................................... 52 7.3.11 SHDSL ............................................................................................................................................. 53 7.3.12 VDSL ............................................................................................................................................... 53 7.3.13 E1 ..................................................................................................................................................... 54 7.3.14 V.35 .................................................................................................................................................. 54 7.4 Standards Compliance .................................................................................................................................. 55
A Acronyms and Abbreviations..................................................................................................61 Index ................................................................................................................................................ i-1
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Figures
Figures Figure 1-1 UA5000 in the overall solution.......................................................................................................... 2 Figure 3-1 HABA frame layout ......................................................................................................................... 11 Figure 3-2 HABC frame layout ......................................................................................................................... 12 Figure 3-3 HABD frame layout......................................................................................................................... 13 Figure 3-4 HABE frame layout ......................................................................................................................... 14 Figure 3-5 HABF frame layout.......................................................................................................................... 15 Figure 3-6 HABL frame layout ......................................................................................................................... 16 Figure 5-1 Single-level MSTP networking........................................................................................................ 27 Figure 5-2 Two-level MSTP networking ........................................................................................................... 27 Figure 5-3 Single-level SDH+FE/GE networking............................................................................................. 29 Figure 5-4 Two-level SDH+FE/GE networking ................................................................................................ 30 Figure 5-5 Single-level SDH+STM-1 ATM networking ................................................................................... 32 Figure 5-6 Two-level SDH+STM-1 ATM networking ...................................................................................... 32 Figure 5-7 Integrated access in NGN ................................................................................................................ 34 Figure 5-8 Private circuit service....................................................................................................................... 35 Figure 5-9 Triple play application ..................................................................................................................... 36 Figure 6-1 Maintaining the UA5000 through the CLI....................................................................................... 37 Figure 6-2 Inband EMS networking .................................................................................................................. 41 Figure 6-3 Outband EMS networking ............................................................................................................... 42
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Tables
Tables Table 2-1 Description of the UA5000 broadband subsystems ............................................................................. 3 Table 2-2 Description of the UA5000 narrowband subsystem ............................................................................ 4 Table 3-1 Specification of the cabinets that can house the UA5000 frame.......................................................... 9 Table 3-2 Description of control cards............................................................................................................... 17 Table 3-3 Description of narrowband line cards ................................................................................................ 18 Table 3-4 Description of broadband line cards .................................................................................................. 19 Table 3-5 Description of broadband and narrowband combo line cards............................................................ 19 Table 3-6 Description of other cards.................................................................................................................. 20 Table 5-1 MSTP networking description ........................................................................................................... 26 Table 5-2 SDH+FE/GE networking description ................................................................................................ 28 Table 5-3 SDH+STM-1 ATM networking description....................................................................................... 31 Table 6-1 Configuration functions of UA5000 NE Manager............................................................................. 40 Table 7-1 Dimensions of the UA5000 cabinets ................................................................................................. 43 Table 7-2 Dimensions of the UA5000 frames.................................................................................................... 43 Table 7-3 Weights of the UA5000 cabinets ....................................................................................................... 44 Table 7-4 The running environment of the UA5000 in different cabinets ......................................................... 44 Table 7-5 Voltage specification of the power supply systems............................................................................ 44 Table 7-6 System performance specifications.................................................................................................... 45 Table 7-7 Types and numbers of the management interfaces............................................................................. 46 Table 7-8 Types and numbers of the network interfaces.................................................................................... 46 Table 7-9 Types and numbers of the user interfaces .......................................................................................... 47 Table 7-10 Technical specifications of the STM-1 optical port ......................................................................... 48 Table 7-11 Technical specifications of the 100Base-TX port ............................................................................ 48 Table 7-12 Technical specifications of the 100Base-FX port ............................................................................ 49 Table 7-13 Technical specifications of the 1000Base-SX port .......................................................................... 49 Table 7-14 Technical specifications of the 1000Base-LX port .......................................................................... 50
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Tables
Table 7-15 Technical specifications of the 1000Base-ZX port .......................................................................... 50 Table 7-16 Technical specifications of the E3 port ............................................................................................ 51 Table 7-17 Technical specifications of theT3 port ............................................................................................. 51 Table 7-18 Technical specifications of the ADSL port....................................................................................... 52 Table 7-19 Technical specifications of the ADSL2+ port .................................................................................. 52 Table 7-20 Technical specifications of the SHDSL port .................................................................................... 53 Table 7-21 Technical specifications of the VDSL port ...................................................................................... 53 Table 7-22 Technical specifications of the E1 port ............................................................................................ 54 Table 7-23 Technical specifications of the V.35 port ......................................................................................... 54 Table 7-24 Standards compliance ...................................................................................................................... 55
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About This Document
About This Document Purpose This section describes the related versions, intended audience, organisation, convention, and update history of this document.
Related Versions The following table lists the product versions related to this document. Product Name
Version
UA5000
IPMB V100R011 PVMB V100R011
N2000
V200R009
Intended Audience The intended audience of this document is network planning engineers.
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UA5000 System Description
About This Document
Organization This document consists of eight chapters and is organized as follows. Chapter
Description
1
Overview
The major applications of the UA5000 in the network
2
Features and Benefits
The features of the UA5000 and the services provided by the UA5000
3
System Structure
The structure, including the cabinet, frames, and cards of the UA5000
4
Service Implementation
The broadband and narrowband services provided by the UA5000
5 Networking Applications
The typical network applications of the UA5000
6
Equipment Management
Information on the system management and maintenance
7
Technical Specifications
Technical specifications of the UA5000 as well as the standards the UA5000 complies with
A Acronyms and Abbreviations
The anonyms and abbreviations in this manual
Conventions Symbol Conventions The following symbols may be found in this document. They are defined as follows. Symbol
Description Indicates a hazard with a high level of risk which, if not avoided, will result in death or serious injury. Indicates a hazard with a medium or low level of risk which, if not avoided, could result in minor or moderate injury. Indicates a potentially hazardous situation that, if not avoided, could cause equipment damage, data loss, and performance degradation, or unexpected results. Indicates a tip that may help you solve a problem or save you time.
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About This Document
Symbol
Description Provides additional information to emphasize or supplement important points of the main text.
General Conventions Convention
Description
Times New Roman
Normal paragraphs are in Times New Roman.
Boldface
Names of files, directories, folders, and users are in boldface. For example, log in as user root.
Italic
Book titles are in italics.
Courier New
Terminal display is in Courier New.
Command Conventions Convention
Description
Boldface
The keywords of a command line are in boldface.
Italic
Command arguments are in italic.
[]
Items (keywords or arguments) in square brackets [ ] are optional.
{ x | y | ... }
Alternative items are grouped in braces and separated by vertical bars. One is selected.
[ x | y | ... ]
Optional alternative items are grouped in square brackets and separated by vertical bars. One or none is selected.
{ x | y | ... } *
Alternative items are grouped in braces and separated by vertical bars. A minimum of one or a maximum of all can be selected.
GUI Conventions Convention
Description
Boldface
Buttons, menus, parameters, tabs, window, and dialog titles are in boldface. For example, click OK.
>
Multi-level menus are in boldface and separated by the “>” signs. For example, choose File > Create > Folder.
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About This Document
Keyboard Operation Format
Description
Key
Press the key. For example, press Enter and press Tab.
Key 1+Key 2
Press the keys concurrently. For example, pressing Ctrl+Alt+A means the three keys should be pressed concurrently.
Key 1, Key 2
Press the keys in turn. For example, pressing Alt, A means the two keys should be pressed in turn.
Mouse Operation Action
Description
Click
Select and release the primary mouse button without moving the pointer.
Double-click
Press the primary mouse button twice continuously and quickly without moving the pointer.
Drag
Press and hold the primary mouse button and move the pointer to a certain position.
Update History Updates between document versions are cumulative. Therefore, the latest document version contains all updates made to previous versions.
Updates in Issue 02 (2006-11-01) Fifth commercial release. The updated contents are as follows. Chapter 3 System Structure Descriptions of the HABC shelf are added. Chapter 7 Technical Specifications Dimensions of the HABC shelf are added
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1 System Overview
1
System Overview
With an increasing demand in telecommunications services such as voice, data, video and multi-media, the need for an access network that can provide multiple large-capacity, high-speed and high-quality services has become imperative. Huawei UA5000 Universal Access Unit (referred to as the UA5000) allows you to construct an access network that keeps pace with the technological advances in the fiber access networks, broadband networks and the evolution of the Next Generation Network (NGN). The UA5000 meets both the current and the future customer requirements through its advanced technical features, such as: !
"IP+TDM" bus architecture
!
V5 and AG concurrent uplink
!
Manageable Triple Play
With these features, the UA5000 helps you to construct a multi-service access network at low cost.
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1 System Overview
Figure 1-1 shows the UA5000 in the overall solution. Figure 1-1 UA5000 in the overall solution H.248 PSTN
DDN
E1(V5)
E1
ATM
STM-1
IP
FE/GE
H.248
Aggregation layer
STM-1/FE STM-1/FE/GE
MSTP
Access layer
CPE
: UA5000
2
V.24 V.35 E1
POTS ADSL LAN ISDN ADSL2+ FXO VDSL VoIP SHDSL
: Softswitch
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2 Features and Benefits
2
Features and Benefits
The chapter describes the features of the UA5000.
2.1 Multi-Service Access Platform The UA5000 consists of the broadband and narrowband subsystems. The control cards of the broadband subsystem are IPMB and APMB and that of the narrowband subsystem are PVM and PVU. You can select any combination of the broadband and narrowband subsystems to fit your needs. Table 2-1 Description of the UA5000 broadband subsystems Control card IPMB
Function
Interface description
Supports:
Downstream ports:
!
Broadband access
!
ADSL
!
Broadband private circuit
!
ADSL2+
!
VDSL
!
ATM SHDSL
!
FE
Upstream ports:
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!
FE
!
GE
!
STM-1
!
E3
!
T3
!
IMA
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UA5000 System Description
2 Features and Benefits
Control card
Function
Interface description
APMB
Supports:
Downstream ports:
!
Broadband access
!
ADSL
!
Broadband and narrowband private circuit
!
ADSL2+
!
VDSL
!
ATM SHDSL
!
TDM SHDSL
!
FE
Upstream ports: !
STM-1
!
E3
!
T3
!
IMA
!
E1
Table 2-2 Description of the UA5000 narrowband subsystem Control card PVM
Function Supports: ! !
Interface description Downstream ports:
IP voice
!
POTS
Legacy voice
!
ISDN BRI
!
ISDN PRI
!
TDM SHDSL
!
FE1
!
E1
!
V.35
!
V.24
!
Z
Upstream ports:
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!
FE
!
E1
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2 Features and Benefits
Control card PVU
Function Supports: ! !
Interface description Downstream ports:
Legacy voice
!
POTS
Narrowband private circuit
!
ISDN BRI
!
ISDN PRI
!
TDM SHDSL
!
2/4-wire VF
!
64 k VF
!
E&M
!
Z
!
FE1
!
E1
!
V.35
!
V.24
Upstream port: !
E1
2.2 High-Density Subscriber Line Access The UA5000 allows a high-density subscriber line access. The maximum number of ports provided by UA5000 in a single cabinet is !
1984 for pure narrowband configuration
!
992 for pure broadband configuration
!
992 for narrowband and broadband combination configuration
2.3 Powerful Service Processing Capabilities The UA5000 supports TDM, ATM and IP technologies, and features powerful service processing capabilities. !
The APMB card supports 5 Gbit/s ATM switching capability.
!
The IPMB card supports 34 Gbit/s Ethernet switching capability.
!
The PVM card supports 8 k x 8 k TDM switching capability.
!
The backplane capacity reaches 100 Gbit/s.
!
The IPMB card provides two GE upstream ports.
!
The IPMB card supports 1024 multicast channels.
!
The master frame, slave frame and extended frame are connected through high-speed star buses.
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2.4 Operable Broadband Video Service When the UA5000 adopts the IPMB card as its broadband main control card, it supports multicast protocols and managed multicast for broadband video services. The features of UA5000 for the multicast services are as follows: !
GE ports for video services and a high-speed extended bus to guarantee non-blocking forwarding of video streams
!
Fast switching between channels
!
Channel preview function
!
Audience statistics function
!
Controlled channel access
!
Connection to the Service Management System (SMS)/Operating Support System (OSS) through the transaction language 1 (TL1) interface on the EMS to support service auto provisioning
!
Guaranteed Quality of Service (QoS) to forward video streams
2.5 Flexible Networking Modes The UA5000 adapts to various access network scenarios. You can use the UA5000 in complex topologies and challenging engineering environments. The UA5000 networking features include: !
Structure: supports the 2-layer structure: (the Optical Line Terminal (OLT) and the Optical Network Unit (ONU)), and the 1-layer structure (ONU independent).
!
Topology: supports the ring, star and tree topologies, or a combination of them
!
Broadband upstream interface: supports the ATM and IP upstream interfaces
!
Bearing technology: supports the MSTP bearing technology
!
Subtending: supports local subtending through a star bus, remote RSU8/RSU4 subtending through the E1 port, and remote ONU60A subtending through the TDM G.SHDSL port. (The remote ONU device accesses narrowband services only.)
2.6 Carrier-Class Reliability The UA5000 adopts reliability design in terms of system, hardware and software to ensure the robustness of the system.
System reliability design The features of the system reliability design are as follows:
6
!
Redundant backup of the control systems, switching fabrics, clocks, service processing modules and upstream line cards
!
Multiple clock references
!
Redundant fan configuration with intelligent control and alarm functions
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Redundant backup of the primary power supplies and the secondary power supplies. Both power supplies work in the load-sharing mode. The power supplies support the real-time monitoring and alarm function, and overvoltage and undervoltage protection.
!
Load sharing of the Digital Signal Processing (DSP) resource of the PVM card
Card reliability design The features of the card reliability design are as follows: !
POTS line card and xDSL line cards with port backup capability. You can switch a faulty port to the backup port to resume the service.
Software reliability design The features of the software reliability design are as follows: !
Modularization and platform design
!
Advanced design technologies based on the object, error tolerance, error correction and auto recovery
!
Capability maturity model (CMM) compliance
Networking reliability design The features of the networking reliability design are as follows: !
1+1 backup of the broadband star bus for local subtending
!
MSTP networking to prevent single point of failures
!
1+1 Automatic Protection Switching (APS) protection for the STM-1 ports
!
Rapid Spanning Tree Protocol (RSTP) protection and trunk for FE/GE ports
!
Sub-network Connection Protection (SNCP) and Multiplex Section Protection (MSP) of Synchronous Digital Hierarchy (SDH) ports
!
Support of dual homing. One UA5000 can register in two SoftSwitches. If one SoftSwitch is faulty, the UA5000 switches over to the other. The switchover will not affect the calls in progress.
2.7 Range of UA5000 Models The UA5000 provides a wide range of models for a variety of situations. !
Capacities ranging from dozens of ports to thousands of ports
!
Indoor and outdoor cabinets for mild and harsh climates
!
Large and small sized (cabinet, chassis and desktop) units
!
Front-access and rear-access cabinets
!
A wide variety of terminals
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2.8 Element Management System The UA5000 adopts the Huawei iManager N2000 Fixed Network Integrated Management System as its Element Management System (EMS). The following describes the features of the Huawei iManager N2000.
8
!
Uniform management mode: The iManager N2000 provides a centralized management for the narrowband and broadband services of the UA5000.
!
Rich interfaces: The iManager N2000 provides various southbound interfaces such as Telnet, Man Machine Language (MML) and Simple Network Management Protocol (SNMP) to connect to the managed devices. It also provides standard SNMP and TL1 northbound interfaces to connect to the OSS. The iManager N2000 helps the carriers to build an integrated and automatic OSS platform at the network layer.
!
Security management: The iManager N2000 provides abundant user management and authentication functions down to the shelves and cards of the managed devices.
!
In-service upgrade and maintenance: The iManager N2000 supports the online reporting of hardware and software versions, supports the in-service upgrade and loading of card software and host software, as well as the in-service loading and management of patches.
!
Environment monitor: The environmental monitoring unit (EMU) carries out the real-time monitoring and generates remote alarms with regard to humidity, temperature, access control sensors and power systems.
!
Performance measurement: The iManager N2000 provides the functions to collect, query and analyze the performance data.
!
Uniform management of terminals: the iManager N2000 provides the functions to configure, test and monitor the ADSL/ADSL2+ and ATM G.SHDSL terminals in centralized mode. This function helps the carriers to reduce the maintenance cost.
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System Structure
This section describes the cabinets, frames and cards of the UA5000.
3.1 Cabinets Table 3-1 lists the cabinets that can house the UA5000 frame. Table 3-1 Specification of the cabinets that can house the UA5000 frame Model
Type
Frame configuration
Max. ports POTS only
ADSL only
POTS & ADSL combo
ONU-F01D200
Outdoor, front-access
One HABD
384
192
192
ONU-F01D500
Outdoor, front-access
One HABD + one HABF
960
480
480
ONU-F01D1000
Outdoor, front-access
One HABD + one HABF + one HABE
1408
704
704
One HABD + one HABF + one HABD
1344
672
672
One HABA
960
480
480
One HABA+ one HABB
1984
992
992
One HABA+ one HABA
1920
960
960
One HABC
384
192
192
One HABC+ one HABC
768
384
384
ONU-F02A
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Indoor, rear-access
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Model
Type
ONU-F02AF
Indoor, front-access
Frame configuration
Max. ports POTS only
ADSL only
POTS & ADSL combo
One HABD+ One HABF
960
480
480
One HABD+ two HABFs+ one HABE
1984
992
992
One HABD+ two HABFs+ one HABD
1920
960
960
3.2 Frames There are two types of frames. One is a front-access frame and the other is the rear- access frame. This section describes the frame types.
3.2.1 Rear-Access Frames There are two models of rear-access frames: HABA (master frame) and HABC (master frame).
HABA frame
10
!
The HABA frame is the master frame of the rear-access UA5000, which stands at a height of 16 U (1 U = 44.55 mm). The HABA frame can subtend slave frames and aggregate services from the subordinate frames.
!
The HABA frame provides 36 slots, of which 30 are available for line cards and 6 for the other types of cards. However, if you are using the AIUB and TSSB, you must insert the AIUB cards and the TSSB card in the positions shown in Figure 3-1. The remaining six slots are reserved for other types of cards.
!
You can insert narrowband line cards and broadband line cards in any of the 30 line card slots.
!
The two narrowband control cards and the two broadband control cards in the frame support backup in the event of a primary controller failure.
!
The HABA frame can use a minimum of one and a maximum of two PWX cards. The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
!
The HABA can also serve as a slave frame. In this case, the HABA frame is equipped with only broadband control cards and as many as 30 line cards.
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Figure 3-1 shows the layout of the HABA frame. Figure 3-1 HABA frame layout Fan 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17
x x P P P P W W M M X X B B
P V x / R S U x
P V x / R S U x
A I U B / x S L
T A S I S U x x x x x x x x x B B S S S S S S S S S / / L L L L L L L L L x x S S L L Cable routing area Fan
18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35
x x x x x x x x x x x x x x x x x x S S S S S S S S S S S S S S S S S S L L L L L L L L L L L L L L L L L L
Cable routing area
PWX: Secondary power supply card xPMB: Broadband control card (APMB/IPMB) PVx: Narrowband control card (PVU8/PVU4/PVM) RSUx: Remote subscriber unit (RSU8/RSU4) AIUB: ATM interface card xSL: Service line card (ASL/DSL/ADMB/VDLA/…) TSSB: Test card
HABC frame !
The HABC frame is the master of the rear-access UA5000, which stands at a height of 8 U (1 U = 44.55 mm).
!
The HABC frame provides 18 slots, of which 12 are available for line cards. The TSSB card must be inserted in the position shown in Figure 3-2.
!
You can insert narrowband line cards and broadband line cards in any of the 12 line card slots.
!
The two narrowband control cards and the two broadband control cards in the frame support backup in the event of a primary controller failure.
!
The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
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Figure 3-2 shows the layout of the HABC frame. Figure 3-2 HABC frame layout FAN 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 P V I I x P P P P / W W M M R X X B B S U x
P V x x / S R L S U x
T S S x x x x x x x x x x x S S S S S S S S S S / L L L L L L L L L L x S L Cabling area
PWX: Secondary power supply card IPMB: Broadband control card PVx: Narrowband control card (PVU8/PVU4/PVM) RSUx: Remote subscriber unit (RSU8/RSU4) xSL: Service line card (ASL/DSL/ADMB/VDLA/SDLB…) TSSB: Test card
3.2.2 Front-Access Frames There are three models of rear-access frames: HABD (master frame), HABE (slave frame), HABF (extended frame) and HABL (master frame).
HABD frame
12
!
The HABD frame is the master frame of the front-access UA5000, which stands at a height of 10 U. The HABD frame can be subtended with multiple slave frames, and the HABD frame can aggregate the services from the subordinate frames.
!
The HABD provides 18 slots, of which 12 are available for line cards. However, if you are using the AIUB and TSSB, you must insert the AIUB cards and the TSSB card in the positions shown in Figure 3-3. The remaining six slots are for other types of cards.
!
You can insert narrowband line cards and broadband line cards in any of the 12 line card slots.
!
The two narrowband control cards and the two broadband control cards in the frame support backup in the event of a primary controller failure.
!
The HABD frame can use a minimum of one and a maximum of two PWX cards. The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
!
The HABD can also serve as a slave frame. In this case, the HABD frame is equipped with only broadband control cards and as many as 12 line cards.
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Figure 3-3 shows the layout of the HABD frame. Figure 3-3 HABD frame layout Fan 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17
x x P P P P W W M M X X B B
P V x/ R S U x
P V x/ R S U x
A I U B / x S L
T A S I S U x x x x x x x x x B B S S S S S S S S S / / L L L L L L L L L x x S S L L
Cable routing area Control & interconnect cable connecting area
Line card cable connecting area
PWX: Secondary power supply card xPMB: Broadband control card (APMB/IPMB) PVx: Narrowband control card (PVU8/PVU4/PVM) RSUx: Remote subscriber unit (RSU8/RSU4) xSL: Service line card (ASL/DSL/ADMB/VDLA/…) AIUB: ATM interface card TSSB: Test card
HABE frame !
The HABE frame is the slave frame of the front-access UA5000, which stands at a height of 10 U.
!
The HABE frame operates under the control of the HABD frame. The HABE frame can be subtended with the HABF frame.
!
The HABE frame provides 18 slots, of which 14 are reserved for line cards and 4 for other types of cards. You can insert narrowband line cards and broadband line cards as desired.
!
The two broadband control cards in the frame support backup in the event of a primary controller failure. The HABE frame does not have narrowband control cards. The narrowband line cards in the frame are controlled by the narrowband control card in the HABD frame.
!
The HABE frame can use a minimum of one and a maximum of two PWX cards. The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
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Figure 3-4 shows the layout of the HABE frame. Figure 3-4 HABE frame layout Fan 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17
A A x x x x x x x x x x x x x x P P P P S S S S S S S S S S S S S S W W S S L L L L L L L L L L L L L L X X B B
Cable routing area Control & interconnect cable connecting area
Line card cable connecting area
PWX: Secondary power supply card APSB: Broadband control card for the slave frame xSL: Service line card (ASL/DSL/ADMB/VDLA/…)
HABF frame
14
!
The HABF frame is the extended frame of the front-access UA5000, which stands at a height of 10 U.
!
The HABF frame operates under the control of either the HABD frame or the HABE frame. The serving HABD or HABE frame provides the power supply to the HABF frame.
!
The HABF frame provides 18 slots. You can insert narrowband line cards and broadband line cards as desired.
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Figure 3-5 shows the layout of the HABF frame. Figure 3-5 HABF frame layout Fan 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17
x x x x x x S S S S S S L L L L L L
x x x x x x x x x x x x S S S S S S S S S S S S L L L L L L L L L L L L
Cable routing area Interconnect cable connecting area
Line card cable connecting area
xSL: Service line card (ASL/DSL/ADMB/VDLA/…)
HABL frame !
The HABL shelf, which stands at a height of 10 U, is the mini master shelf.
!
The HABL shelf provides 12 slots, of which 6 are available for line cards. You can insert the narrowband line cards and broadband line cards as desired. The shelf supports up to three 32-port ADSL/ADSL2+ line cards, three POTS and ADSL/ADSL2+ combo line cards, or five other line cards.
!
The two narrowband control cards and the two broadband control cards in the shelf support backup in the event of primary controller failures.
!
The two PWX cards in the frame share the power supply load, and if one PWX fails, the other has the capacity to dynamically provide the necessary power.
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Figure 3-6 shows the layout of the HABL frame. Figure 3-6 HABL frame layout FAN 00 01 02 03 04 05 06 07 08 09 10 11 P V I I x P P P P / W W M M R X X B B S U x
P V x x / S R L S U x
T S x x x x S S S S S B L L L L / x S L
Cable routing area Cable connecting area
PWX: Secondary power supply card IPMB: Broadband control card PVx: Narrowband control card (PVU8/PVU4/PVM) RSUx: Remote subscriber unit (RSU8/RSU4) xSL: Service line card (ASL/DSL/ADMB/SDLB…) TSSB: Test card
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3.3 Cards Table 3-2, Table 3-3, Table 3-4, Table 3-5 and Table 3-6 describe the details of the cards used in the UA5000. Table 3-2 Description of control cards Abbr. name
Full name
Function description
APMB
Master frame ATM service processing card
The APMB card is also called the broadband control card for ATM signaling.
IPMB
PVM
PVU8/PVU4
Master frame IP service processing card
Packet voice processing card
V5 interface processing unit
The APMB card: !
Controls the broadband line cards
!
Provides various types of upstream ports for broadband services, including IMA E1, ATM E3, ATM T3 and STM-1 ATM,
!
Supports active/standby backup
!
Provides the switch fabric and working clock for broadband services
The IPMB card is also called the broadband control card for IP signaling. The IPMB card: !
Controls the broadband line cards
!
Aggregates and processes broadband services
!
Provides GE/FE ports
!
Supports active/standby backup
The PVM card: !
Processes the H.248 protocol
!
Converts the TDM voice signals into IP packets
!
Provides one FE port to transmit the VoIP service
The PVU8/PVU4 is also called the master frame narrowband control card. The PVU8/PVU4 card:
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Controls the narrowband line cards
!
Provides upstream V5 E1 ports for TDM services
!
Provides TDM switch fabric and working clock for TDM services
!
Supports the active/standby backup
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Abbr. name
Full name
APSB
Slave frame broadband service processing card
RSU8/RSU4
RSUG
Remote subscriber processing unit
Remote subscriber processing unit
Function description The APSB card: !
Controls the broadband line cards in the slave frame
!
Subtends the broadband services with the master frame
!
Supports the active/standby backup
The RSU8/RSU4 card: !
Controls the narrowband line cards in the remote subscriber frame
!
Subtends the narrowband services with the UA5000 master frame or the MD5500 frame
!
Provides upstream E1 ports for narrowband services
!
Supports the active/standby backup
The RSUG card: !
Serves the ONU-60A multi-service access unit
!
Connects the G.SHDSL interface card on the central office side to forward the primary and secondary node signaling
!
Manages the secondary nodes
Table 3-3 Description of narrowband line cards
18
Short name
Full name
Function description
ASL
POTS line card
Provides 16 POTS ports
A32
POTS line card
Provides 32 POTS ports
DSL
ISDN BRI line card
Provides 8 ISDN BRI ports
VFB
2/4-wire VF line card
Provides 16 2-wire VF ports or 8 4-wire VF ports
CDI
Direct dial-in line card
Provides 16 DDI ports
SDL
SHDSL line card
Provides 4 TDM SHDSL ports and 4 E1 ports
SDLE
TDM G.SHDSL line card
Provides 8 TDM G.SHDSL ports and 8 E1 ports
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Table 3-4 Description of broadband line cards Short name
Full name
SDLB
SHDSL line card
Function description The SDLB card supports: !
ADLB
ADMB
ADMC
VDLA
EAUA
ADSL line card
ADSL/ADSL2+ line card
ADSL/ADSL2+ line card
VDSL line card
Ethernet line card
16 ATM SHDSL ports
The ADLB card supports: !
16 ADSL ports
!
a built-in splitter
The ADMB card supports: !
16 ADSL/ADSL2+ ports
!
a built-in splitter
The ADMC card supports: !
16 ADSL/ADSL2+ ports
!
A built-in splitter
The VDLA card supports: !
16 VDSL ports
!
a built-in splitter
!
external line test
!
CO emulation on port 0
The EAUA card supports: !
8 Ethernet ports
Table 3-5 Description of broadband and narrowband combo line cards Abbr. Name
Full name
CSMB
ADSL/ADSL2+ and POTS combo line card
CSLB
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ADSL and POTS combo line card
Function description The CSMB card supports: !
16 ADSL/ADSL2+ ports
!
16 POTS ports
!
a built-in splitter
The CSLB card supports: !
16 ADSL ports
!
16 POTS ports
!
a built-in splitter
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Table 3-6 Description of other cards Abbr. Name
Full name
Function description
AIUB
ATM interface card
The AIUB card carries out remote subtending of the UA5000. An AIUB card supports:
DEHA
Circuit emulation E1 interface card
!
2 STM-1 ATM ports, 2 ATM E3 ports or 2 ATM T3 ports
!
8 IMA E1 ports through backplane
!
1 + 1 card-level protection
The DEHA card supports: !
16 E1 ports
!
unstructured CES
EDTB
E1 trunk card
The EDTB card supports16 E1 trunk ports
TSSB
Test card
The TSSB and TSSC cards are used to test the narrowband and broadband line cards. TSSC card supports Tx and Rx of 1 kHz signal tone.
Environment and power supply monitor card
The ESC card controls or monitors:
TSSC ESC
!
temperature
!
humidity
!
door sensor
!
fan status
!
battery status
!
power supply status
This card reports the above information to the control card through a serial port. PWX
20
Secondary power supply card
The PWX card occupies one slot. A frame can use a minimum of one and a maximum of two PWX cards. The PWX cards support inter-card and inter-frame load-sharing.
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Service Implementation
The UA5000 supports multiple services including voice, broadband and private circuit through different main control cards. The PVM or PVU card supports the voice and narrowband private circuit services, the APMB or IPMB card supports the broadband access and broadband private circuit services, and the PVM card supports the Voice over IP (VoIP) services.
4.1 PSTN Voice Services The UA5000 supports the standard V5.1 and V5.2 protocols, and provides E1 ports to connect to Local Exchanges (LEs) to access PSTN services. The major features of the PSTN voice service are as follows:
POTS The UA5000 provides POTS ports to support the access of analog subscribers and PBXs. The UA5000 supports supplementary services such as Central Exchange (CENTREX) and Caller Identification Display (CID).
ISDN The UA5000 provides ISDN BRI (2B+D) ports and ISDN PRI (30B+D) ports, and supports various N-ISDN services, including: !
Video conferencing
!
Videotext
!
G4 facsimile
!
!
Data retrieval
!
LAN interconnection
!
Internet access
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The UA5000 also supports ISDN supplementary services. These ISDN supplementary services include: !
Direct dial-in (DDI)
!
Multi-subscriber number (MSN)
!
Calling line identification presentation (CLIP)
The UA5000 supports a mixed configuration of ISDN subscribers and analog telephone subscribers.
Direct-Dial-In The UA5000 provides DDI subscriber ports to support the subscriber line extension service. This service enables the external analog subscriber ports of other exchanges to be transparently extended inside the access network.
4.2 Next Generation Voice Services Working as an access media gateway (AMG), the UA5000 provides the following services under the control of a SoftSwitch. !
VoIP services for POTS subscribers
!
VoIP services for ISDN BRI subscribers
!
Fax over IP (FoIP) in the G.711 transparent transmission mode
!
FoIP in the T.38 mode
!
Modem over IP (MoIP) in the transparent transmission mode
!
DDI services
The major features of the next generation voice services are as follows:
22
!
Supports all PSTN basic services, complementary services, and intelligent services
!
Supports the G.711 (a-law/ µ-law), G.723.1 and G.729 (A/B) codecs
!
Supports the emergency standalone capability
!
Supports echo cancellation complying with ITU-T G.165/G.168
!
Supports pulse metering and polarity reversal metering
!
Provides QoS assurance for voice traffics with functions including priority queuing, jitter buffering, IP Type of Service (ToS), Differentiated Service Code Point (DSCP), and 802.1Q VLAN
!
Supports separate gain control of the transmission and reception streams
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4.3 Broadband Services Broadband service port The UA5000 provides the following broadband service ports: !
ADSL and ADSL 2+
!
SHDSL
!
VDSL
!
Ethernet
The UA5000 provides the following broadband upstream ports: !
IP interface including FE and GE
!
ATM interface including STM-1 ATM, ATM E3, ATM T3 and IMA E1
Subscriber security management The UA5000 provides various methods to guarantee the security of the subscriber data and network. !
Subscriber isolation at layer 2 through VLAN
!
Subscriber isolation within Smart VLAN
!
Host number restriction of each port
!
Port searching by a MAC address
!
Binding of a MAC address and a port
!
Binding of an IP address and a port
!
MAC address filtering
!
Controlled number of multicast groups to access a port
!
Standard ACL and extended ACL, ACL for data link frames and user-defined ACL
!
DHCP Option82 to identify subscribers
Layer 2 and layer 3 features The UA5000 provides a complete TCP/IP protocol stack through its IPMB card. The layer 2 and layer 3 features of the UA5000 include: !
DHCP relay
!
ARP proxy
!
PPPoE+
!
DHCP Option82
!
Protocol conversion between IPoA and IPoE
!
Protocol conversion between PPPoA and PPPoE
!
ACL
!
RIP
!
OSPF
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QoS features The UA5000 supports the following QoS features: !
Packet forwarding based on 802.1p priority to provide appropriate QoS for different services
!
IP priority labeling or DSCP priority labeling for packets matching the ACL rules
!
Port-based, connection-based and VLAN-based flow control
!
Congestion control
!
Queue scheduling
4.4 Private Circuit Services The UA5000 provides rich private circuit services to meet the needs of group customers. The major private circuit service offerings of the UA5000 are as follows: !
Local and remote DDN access through DDN ports such as E1, V.35, V.24, SHDSL (in the TDM mode) and 2/4-wire VF
!
2/4-wire SHDSL access through ATM SHDSL ports
!
Private circuit data at a symmetric rate of 10 Mbit/s within 1.5 km through VDSL ports
!
Broadband private circuit LAN interconnection through FE ports
4.5 Multicast Video Service The UA5000 supports multicast protocols to offer the broadband multicast services, as follows:
24
!
Non-blocking forwarding of video services by a GE video port and a dedicated high-speed multicast bus
!
1024 multicast channels
!
Processing of 400 concurrent user requests per second
!
Receiving multicast streams and unicast streams from one or more network ports
!
Distributing multicast streams through the Metropolitan Area Network (MAN) or the Video Distribution Network (VDN)
!
Internet Group Management Protocol (IGMP) Proxy, IGMP V1 and V2
!
Fast switching between channels
!
Channel preview and audience statistics
!
Controlled channel access right, channel number, channel preview right, preview duration and preview times
!
Guaranteed QoS to forward the video streams
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5 Networking Applications
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Networking Applications
The UA5000 adapts to various access network scenarios. You can use the UA5000 in complex topologies and challenging engineering environments. You can select the most suitable networking solution based on the requirements of transmission resources, ATM/IP network resources, service types, QoS and security. The following lists the equipment icons used in the networking diagrams below.
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Add/Drop Multiplexer (ADM)
UA5000
Terminal Multiplexer (TM)
MD5500
Multiple Add/Drop Multiplexer (MADM)
SoftSwitch
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5.1 Typical Networking Topologies When the broadband network at the upper layer is an IP network, the UA5000 can use the "MSTP Networking" or "SDH+FE/GE Networking". When the broadband network at the upper layer is an ATM network, the UA5000 can use the "SDH+STM-1 ATM Networking".
5.1.1 MSTP Networking In the MSTP networking, all services of the UA5000 are sent upstream through the MSTP equipment.
Networking description Table 5-1 describes the MSTP networking. Table 5-1 MSTP networking description Item
Description
Upper layer network
PSTN, DDN and IP
Access network topology
Ring, ring with chain, and tangent ring
Access network equipment
MSTP equipment, UA5000 and MD5500 (optional)
Service stream
Broadband services and narrowband services are accessed and transmitted together. Services are sent to the PSTN, DDN or IP network on the central office side through the MSTP. The VoIP services are sent to the IPMB card through an FE port of the PVM card, and then to the MSTP equipment through an FE or GE port of the IPMB.
Based on the aggregation state of the narrowband services, MSTP networking falls into two modes: single-level networking and two-level networking. !
Single-level networking
The UA5000 at the remote end sends the narrowband and broadband services to the central office through the MSTP transmission ring. The central office forwards the services to the BRAS/L3, PSTN switch or DDN node without convergence. !
Two-level networking
The narrowband services are sent to the PSTN or DDN through the MD5500 or UA5000 at the central office. When there are many remote nodes and subscribers, select the MD5500 in the central office to converge services. When there are a few remote nodes and subscribers, select the UA5000 to converge services.
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The broadband services are aggregated and forwarded to the BRAS/L3 by the transmission equipment at the central office.
Networking diagram Figure 5-1 and Figure 5-2 show the MSTP networking. You can replace the MD5500 in Figure 5-2 with a UA5000. Figure 5-1 Single-level MSTP networking H.248 PSTN
E1( V5)
IP
DDN FE/GE
E1
H.248
FE/GE
FE/GE MSTP
E1
E1
MSTP FE/GE
E1
E1
FE/GE H.248
FE/GE
Figure 5-2 Two-level MSTP networking H.248 PSTN
DDN
E1( V5)
E1
IP FE/GE H.248
FE/GE
FE/GE MSTP
E1
E1
MSTP E1
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FE/GE
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FE/GE H.248
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Networking features The MSTP networking has the following features: !
Suitable for the scenarios where the narrowband E1 and the broadband FE/GE resources coexist
!
Saving the optical fibers by accessing and transmitting both the narrowband and broadband services
!
Supporting multiple capacity specifications to meet various networking requirements
!
Suitable for the IPTV service deployment
5.1.2 SDH+FE/GE Networking In the SDH+FE/GE networking, narrowband services are transmitted through the SDH equipment, and broadband services through optical fibers.
Networking description Table 5-2 describes the SDH+FE/GE networking. Table 5-2 SDH+FE/GE networking description Item
Description
Upper layer network
PSTN, DDN and IP
Access network topology
Narrowband: ring, ring with chain, and tangent rings Broadband: star
Access network equipment
SDH equipment, UA5000 and MD5500 (optional)
Service stream
Broadband and narrowband services are accessed together but transmitted separately. Narrowband services are transmitted to the central office through the SDH network, and then upstream to PSTN and DDN. The broadband services are transmitted to the upper-layer network through the FE ports of the IPMB card. The VoIP services are sent to the IPMB card from the PVM card through its internal FE port. The services are then sent to the MSTP equipment through an FE or GE port of the IPMB.
The SDH+FE/GE networking falls into two modes: single-level networking and two-level networking. !
Single-level networking
The narrowband and broadband services are sent to the BRAS/L3, PSTN switch or DDN node directly. Neither of them is aggregated within the access network. !
Two-level networking
The MD5500 or the UA5000 at the central office aggregates the narrowband services and then sends them to PSTN or DDN.
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When there are many remote nodes and subscribers, select the MD5500 in the central office to aggregate the V5 interfaces. When there are a few remote nodes and subscribers, select the UA5000 in the central office to aggregate the V5 services. The broadband services are sent to the IP network through the FE or GE ports directly.
Networking diagram Figure 5-3 and Figure 5-4 show the SDH+FE/GE networking. You can replace the MD5500 in Figure 5-4 with a UA5000. Figure 5-3 Single-level SDH+FE/GE networking H.248 PSTN
E1( V5)
IP
DDN
E1
FE/GE
FE/GE H.248
FE/GE
SDH E1
SDH E1
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E1
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Figure 5-4 Two-level SDH+FE/GE networking H.248 PSTN E1( V5)
IP
DDN E1 FE/GE
FE/GE H.248
FE/GE FE/GE
SDH E1
SDH E1
E1
Networking features The SDH+FE/GE networking has the following features: !
Suitable for the consolidation of the networks with the SDH equipment or the construction of a new access network with abundant optical fibers.
!
The broadband service channel is separated from the narrowband service channel, while their EMS channels are integrated.
!
Suitable for the IPTV service deployment thanks to the direct GE/FE connection with IP MAN.
5.1.3 SDH+STM-1 ATM Networking When the broadband network at the upper layer network is an ATM network, the UA5000 uses the SDH+STM-1 ATM networking. In the SDH+STM-1 ATM networking, narrowband services are transmitted by the SDH equipment and broadband services by STM-1 ATM links.
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Networking description Table 5-3 describes the SDH+STM-1 ATM networking. Table 5-3 SDH+STM-1 ATM networking description Item
Description
Upper layer network
PSTN, DDN and ATM
Access network topology
Narrowband: ring, ring with chain, and tangent rings Broadband: star
Access network equipment
SDH equipment, UA5000 and MD5500 (optional)
Service stream
Broadband and narrowband services are accessed together but transmitted separately. The narrowband services are transmitted to the central office through the SDH network, and then upstream to PSTN and DDN. The broadband services are transmitted to the upper-layer network through an STM-1 port of the APMB card.
The SDH+STM-1 ATM networking falls into two modes: single-level networking and two-level networking. !
In the single-level networking, neither narrowband nor broadband services are aggregated within the access network.
!
In the two-level networking, the central office aggregates the services from the V5 and ATM interfaces and then sends them to PSTN or ATM network.
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Networking diagram Figure 5-5 and Figure 5-6 show the SDH+STM-1 ATM networking. Figure 5-5 Single-level SDH+STM-1 ATM networking PSTN
ATM
DDN
E1
E1( V5)
STM-1 STM-1
STM-1
SDH E1
E1
SDH E1
E1
E1
Figure 5-6 Two-level SDH+STM-1 ATM networking PSTN
E1(V5)
DDN E1
STM-1
STM-1
STM-1
E1
ATM
SDH
E1
E1
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Networking features The SDH+ STM-1 ATM networking has the following features: !
Suitable for the networks with the SDH equipment, ATM switches and abundant optical fibers.
!
The broadband service channel is separated from the narrowband service channel, while their EMS channels are integrated.
5.2 Typical Application Scenarios Typical application scenarios of the UA5000 include: !
NGN Consolidation
!
Private Circuit Service
!
Triple play application
5.2.1 NGN Consolidation The UA5000 acts as an AG to serve the NGN consolidation. In addition, the UA5000 can also send the broadband and narrowband services to IP and PSTN networks respectively. Figure 5-7 depicts the NGN consolidation scenario. In this scenario, the UA5000 carries out: !
The access of broadband and narrowband services over the same copper wire
!
The access of VoIP, FoIP and MoIP under the control of a SoftSwitch
!
The ISDN BRA and ISDN PRA services
!
The ADSL broadband network access and SHDSL broadband private circuit interconnection services
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Figure 5-7 Integrated access in NGN
Internet
SoftSwitch BRAS
IP MAN L2/L3 PSTN FE/GE E1 UA5000
ADSL2+
SHDSL
ISDN BRI
ISDN PRI
Splitter
Modem
PBX
Modem
SHDSL
ADSL
NT1
POTS/VoIP FAX
ISDN BRA
ISDN PRA
5.2.2 Private Circuit Service The UA5000 supports rich private circuit services to suit the group customers. Figure 5-8 depicts the scenario that provides the private circuit service. In this scenario, the UA5000 carries out:
34
!
The narrowband private circuit interconnection of narrowband services through E1 and V.35 interfaces provided by TDM SHDSL
!
The high speed private circuit interconnection through broadband ports such as FE and ATM SHDSL
!
QinQ VLAN and VLAN stacking for broadband services
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Figure 5-8 Private circuit service
IP
DDN/SDH
VLAN \QinQ \Stacking VLAN
E1/STM-1
E1/STM-1
FE/GE
FE/GE UA5000 V.35
E1
UA5000
UA5000 E1
FE
FE
ATM SHDSL
TDM SHDSL Modem
DDN node
Modem
Modem
DTE
DDN node Headquarters
Branch 1
Branch 2
5.2.3 Triple Play The UA5000 is able to offer narrowband, data, and video services to end users simultaneously with appropriate QoS. Such a scenario is also called the Triple Play. Figure 5-9 shows this scenario. In this scenario, the UA5000 carries out: !
The access of both the broadband and narrowband services over the same copper wire
!
Appropriate QoS schemes for different services
!
IP TV service through the IGMP proxy and managed multicast mechanism
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Figure 5-9 Triple play application
Internet MGC IP TV Server BRAS
IP MAN
L2/L3
UA5000 Triple Play Home gateway STB
VoIP
36
Internet access
IP TV
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6 Equipment Management
6
Equipment Management
6.1 Management Through the CLI Through the CLI, you can log on to the UA5000 through a serial port or an Ethernet port. Figure 6-1 shows the connection for maintenance through the CLI. Figure 6-1 Maintaining the UA5000 through the CLI Control card
Serial port
COM ETH
Ethernet port
UA5000
6.2 Management Through the EMS The Huawei iManager N2000 is the EMS that manages the DSLAM and MSAN of Huawei. The iManager N2000 communicates with the UA5000 through SNMP, and manages the broadband and narrowband services of the UA5000.
6.2.1 Hardware and Software Configuration Hardware configuration of the server A PC server or a UNIX workstation can be used. The EMS server can be configured differently to manage networks of different scales. For large and medium networks, UNIX workstations are recommended.
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Software configuration of the server Windows platform: Windows 2000 Server + SQL Server 2000 UNIX platform: Solaris 8 or later + Sybase 12 or later iManager N2000 software: iManager N2000 server software
Hardware configuration of the client A PC client or a UNIX workstation can be used. In general, a UNIX workstation is not recommended since the cost is high.
Software configuration of the client Windows platform: Windows 2000 Professional UNIX platform: Solaris 8 or later iManager N2000 software: iManager N2000 client software
6.2.2 Management Functions Overview The management functions of the iManager N2000 include: !
Topology management
!
Performance monitoring and traffic measurement
!
Fault management
!
Security management
!
Batch service provisioning
!
Backup and uploading of NE data
!
Database management
!
Environment and power supply monitoring
!
Configuration management
Topology management The iManager N2000 can display the network elements (NE) in the whole network in one topology view. Through a unified management platform, it can monitor and manage all NEs in the network. This simplifies network maintenance.
Performance monitoring and traffic measurement The iManager N2000 helps you to monitor system performance and collect traffic statistics of all NEs or a specified NE in the network, so that the network resources can be efficiently used.
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Fault management The iManager N2000 offers an overall network alarm management solution, enabling fast fault locating and troubleshooting. In addition, to simplify the troubleshooting, the iManager N2000 supports window switching. For example, it allows shift from the topological window to the alarm window, or shift from the alarm window to the faulty port.
Security management The iManager N2000 manages the network based on different user authorities and different domains. It can divide users’ authorities based on users, user groups, operations, applications or ACLs. It can enable automatic lock, forced disconnection and user operation logging on the clients.
Batch service provisioning The iManager N2000 supports batch service processing to shorten the time in deploying the service and responding to customers’ demands.
Backup and uploading of NE data The iManager N2000 provides manual or timed backup or uploading of data of all NEs or a specified NE in the network. This greatly enhances security of the NE data in the network and eases your burden in large scale software upgrade in the network.
Database management The iManager N2000 provides a tool to carry out the backup and recovery of the EMS database. This enhances security of the system data. The iManager N2000 also provides a monitoring terminal to monitor the running status of the EMS server and the usage of the EMS database. In addition, the iManager N2000 supports the remote dual system backup scheme to ensure the database safety.
Environment and power supply monitoring The iManager N2000 monitors environment and power supply of the NEs in a centralized manner. This function helps you to know about the situation of the environment and the power supply timely.
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Configuration management The EMS provides multiple configuration functions for the UA5000. Refer to Table 6-1 for details. Table 6-1 Configuration functions of UA5000 NE Manager Function feature
Description
Device management
The NE manager manages the hardware of the device, including shelves, cards and ports. Through the NE manager, you can display the panel, maintain the system, cards and ports, as well as measure the physical resources.
ADSL/ADSL2+ management
The NE manager enables you to:
Terminal management
SHDSL management
VLAN management
Ethernet management
Service port management
40
!
Query, configure and maintain the ADSL or the ADSL2+ port information and statuses
!
Manage the profiles of the ADSL or the ADSL2+ port
!
Monitor and measure the port traffic
The NE manager enables you to: !
Configure the IP address of a terminal
!
Configure the terminal profile
!
Query the detailed information about a terminal
!
Ping a terminal
!
Restart a terminal
The NE manager enables you to: !
Query, configure and maintain SHDSL port information and statuses
!
Manage SHDSL port profiles
The NE manager enables you to: !
Add the MUX VLAN, Smart VLAN, and Standard VLAN
!
Configure auxiliary ports and service virtual ports
!
Query VLAN information
The NE manager enables you to: !
Configure, activate and query Ethernet ports
!
Add, configure, activate and query aggregated Ethernet ports
The NE manager enables you to: !
Add service ports for ATM ports, ADSL ports, G.SHDSL ports, and VDSL ports.
!
Configure service port attributes, including physical ports and the maximum number of MAC addresses.
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Function feature
Description
IGMP Proxy management
The NE manager enables you to configure and query global parameters, users, upstream ports, and programs of the IGMP Proxy. You can also manage and provision the managed video services.
6.2.3 Networking Modes Between the N2000 and UA5000 Overview The EMS server and the UA5000 can communicate through in-band or out-band EMS channels. These two modes are usually used together.
Inband networking Inband networking means that the management is carried out using the service transmission channel of the UA5000. In this fashion, the EMS messages are transmitted through the service channel. Figure 6-2 shows the inband EMS networking. Figure 6-2 Inband EMS networking EMS Client
EMS Client
EMS Server
IP
UA5000
UA5000
Features of the inband networking are as follows: !
Advantage: The networking is flexible, and does not require additional devices. It saves cost.
!
Disadvantage: When the service channel is interrupted, network management cannot be carried out.
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Outband networking Outband networking means that the management is carried out using a channel separated from the service channel. Figure 6-3 shows the outband EMS networking. Figure 6-3 Outband EMS networking Management side
Service side
RTU UA5000 EMS Client
UA5000
IP
EMS Client
RTU EMS Server
Features of the outband networking are as follows:
42
!
Advantage: The EMS channel is more reliable than that of the inband EMS. When the service channel is interrupted, you can still manage the UA5000 through the outband EMS.
!
Disadvantage: Additional devices are required to set up an EMS channel separated from the service channel.
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Technical Specifications
7.1 Equipment Parameters 7.1.1 Dimensions Table 7-1 Dimensions of the UA5000 cabinets Cabinet
Dimension (W x D x H, in mm)
ONU-F01D200
1250 x 550 x 1200
ONU-F01D500
1550 x 550 x 1550
ONU-F01D1000
1900 x 550 x 1650
ONU-F02A
600 x 600 x 2200
ONU-F02AF
600 x 600 x 2200
Table 7-2 Dimensions of the UA5000 frames Frame
Dimensions (W x D x H, in mm)
HABC
482 x 445 x 352.8
HABL
310 x 370 x 444
HABA
482 x 445 x 711
HABB
482 x 445 x 711
HABD
482 x 370 x 444
HABE
482 x 370 x 444
HABF
482 x 370 x 444
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7.1.2 Weights Table 7-3 Weights of the UA5000 cabinets Cabinet
Weight (fully-populated, in kg)
ONU-F01D200
370 (with two battery groups weighing 120 kg)
ONU-F01D500
550 (with two battery groups weighing 200 kg)
ONU-F01D1000
850 (with two battery groups weighing 200 kg)
ONU-F02A
250
ONU-F02AF
260
7.1.3 Running Environment Table 7-4 The running environment of the UA5000 in different cabinets Cabinet
Temperature (oC)
Humidity
ONU-F01D200
–45 – 50
5% – 100%
ONU-F01D500
–45 – 50
5% – 100%
ONU-F01D1000
–45 – 50
5% – 100%
ONU-F02A
–5 – 45
5% – 90%
ONU-F02AF
–5 – 45
5% – 90%
7.1.4 Power Supply Table 7-5 Voltage specification of the power supply systems
44
Power supply type
Nominal voltage
Voltage range
DC
–48 V
–48 V to –72 V
AC
220 V / 230 V / 240 V
154 V to 286 V, 48 Hz to 52 Hz
110 V / 115 V / 127 V
90 V to 150 V, 47 Hz to 53 Hz
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7.2 Performance and Capacity Specifications 7.2.1 System Performance Specifications Table 7-6 System performance specifications Item
Index
Narrowband TDM switching capacity
PVU8/PVU4: 4k x 4k PVM: 8k x 8k
Maximum V5 interfaces
16
Maximum trunk ports
104 E1 ports (PVM); 108 E1 ports (PVU)
Maximum subscriber number
4000
Maximum SPC number
512
HDLC
48
Call processing capacity
40k BHCA
VoIP DSP channel number
1000
Maximum number of subscribers
4000
Call processing capacity
40k BHCA
Broadband (using the APMB card) ATM switch capacity
5 Gbit/s
Maximum number of PVCs in one frame
8000
Maximum number of PVPs in one frame
4000
Maximum number of STM-1 ports
APMB: 2 AIUB: 2
Maximum number of ATM E3 ports
APMB: 2
Maximum number of ATM T3 ports
APMB: 2
Maximum number of IMA E1 ports
APMB: 8
Maximum number of CES E1 ports
APMB: 8
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AIUB: 2 AIUB: 2 AIUB: 8 Each DEHA: 16 (A frame supports two DEHA cards.)
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Item
Index
Broadband (using the IPMB card) Ethernet switching capacity
34 Gbit/s
Forwarding capacity
Wire speed forwarding
Maximum number of GE ports
2
Maximum number of FE ports
The IPMB card provides six ports, and each EAUA card provides eight ports.
VLAN number
4k
802.1p priority
Recognizing the 802.1p tag, and supporting eight priorities and four PQ queues scheduling.
MAC address number
16 k
Multicast group number
1k
Typical forward delay
40 µs
Clock Clock stratum
Stratum 3
Backplane Backplane bus capacity
100 Gbit/s
7.2.2 Port Types and Numbers Table 7-7 Types and numbers of the management interfaces Interface type
Provided by
Number per card
Maintenance Ethernet port
IPMB / APMB / PVM / PVU8 / PVU4
1
Local configuration serial port
IPMB / APMB / PVM / PVU8 / PVU4
1
Table 7-8 Types and numbers of the network interfaces
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Interface type
Provided by
Number per card
TDM E1
PVU8/RSU8
8
PVU4/RSU4
4
IMA E1
APMB/AIUB
8
ATM E3
APMB/AIUB
2
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Interface type
Provided by
Number per card
ATM T3
APMB/AIUB
2
STM-1 ATM
APMB/AIUB
2
FE electrical port
PVM
1
IPMB
2
FE optical port
IPMB
2
GE optical port
IPMB
2
Table 7-9 Types and numbers of the user interfaces Interface type
Provided by
Number per card
POTS
ASL/CSMB
16
A32 (CC0HASL / CC0RASL / CC0NASL)
32
ISDN BRI
DSL
8
ISDN PRI
EDTB
16
2B1Q
DSL
8
EDTB
16
DEHA
16
APMB
8
V.24
Through MTA
3
2-wire VF port
VFB
16
4-wire VF port
VFB
8
FXO
CDI
16
ADSL
CSLB/ADLB
16
ADSL2+
ADMB/ADMC/CSMB
16
VDSL
VDLA
16
TDM SHDSL
H303HSL
2
H521SDL
4
ATM SHDSL
SDLB
16
FE
EAUA
8
CES E1
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7.3 Port Specifications 7.3.1 STM-1/OC-3c Optical Port Table 7-10 Technical specifications of the STM-1 optical port Parameter
Specification
Transmission rate (Mbit/s)
155.520
Connector type
SC
Fiber type
G.652
Optical source type
MLM
Central wavelength (nm)
1310
1310
1310
Interface mode
Multi-mode
Single mode
Single mode
Maximum transmission distance (km)
2
30
60
Mean transmit power (dBm)
> –23.5
–14 to –8
–5 to 0
Extinction ratio (dB)
10
8.2
10
Receiver sensitivity (dBm)
< –29
< –34
< –34
Receiver overload power (dBm)
–14
–8
–10
Standard compliance
ITU-T G.707, ITU-T G.958, ITU-T G.783 and ITU-T I.432.1
7.3.2 100Base-TX Table 7-11 Technical specifications of the 100Base-TX port
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Parameter
Specification
Transmission rate
10 Mbit/s and 100 Mbit/s compatible
Interface type
RJ-45 (TPI)
Transmission distance
100 m
Interface mode
UTP/STP
Cable type
Category-5 twisted pair
Differential mode output voltage
1165 mV–1285 mV (STP) 950 mV–1050 mV (UTP)
Duty ration extortion
Less than ±0.5 ns
Output jitter
Less than 0.5 ns
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Parameter
Specification
Impedance return loss
2–30 MHz
>16 dB
30–60 MHz
>16 - 20log(f/30) dB (f-frequency, in MHz)
60–80 MHz
>10 dB
Common mode suppression
The input end can sustain the sine common mode interference of 0–125 MHz, 1.0 Vpp
Standard compliance
IEEE 802.3u
7.3.3 100Base-FX Table 7-12 Technical specifications of the 100Base-FX port Parameter
Specification
Transmission rate
100 Mbit/s
Interface type
LC
Interface mode
Multi-mode
Single mode
Single mode
Transmission distance (km)
2
15
40
Central wavelength (nm)
1310
1310
1310
Mean transmit power (dBm)
–19 to –14
–15 to –8
–5 to 0
Extinction ratio (dB)
10
8.2
8.2
Receiver sensitivity (dBm)
< –30
< –31
< –36
Receiver overload power (dBm)
–14
–8
–8
Standard compliance
IEEE 802.3u
7.3.4 1000Base-SX Table 7-13 Technical specifications of the 1000Base-SX port Parameter
Specification
Transmission rate
1000 Mbit/s
Interface type
LC
Interface mode
Multi-mode
Transmission distance (m)
500
Average transmit power (dBm)
–9.5 to –4
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Parameter
Specification
Central wavelength (nm)
850
Extinction ratio (dB)
9
Receiver sensitivity (dBm)
< –17
Receiver overload power (dBm)
0
Standard compliance
IEEE 802.3z
7.3.5 1000Base-LX Table 7-14 Technical specifications of the 1000Base-LX port Parameter
Specification
Transmission rate
1000 Mbit/s
Interface type
LC
Interface mode
Single mode
Transmission distance (km)
10
Central wavelength (nm)
1310
Average transmit power (dBm)
–11 to –3
Extinction ratio (dB)
8.2
Receiver sensitivity (dBm)
< –19
Receiver overload power (dBm)
–3
Standard compliance
IEEE 802.3z
7.3.6 1000Base-ZX Table 7-15 Technical specifications of the 1000Base-ZX port
50
Parameter
Specification
Transmission rate
1000 Mbit/s
Interface type
LC
Interface mode
Single mode
Transmission distance (km)
40
80
Central wavelength (nm)
1550
1550
Average transmit power (dBm)
–5 to 0
–3 to 2
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7 Technical Specifications
Parameter
Specification
Extinction ratio (dB)
9.0
9.0
Receiver sensitivity (dBm)
< –21
< –23
Receiver overload power (dBm)
–3
–3
Standard compliance
IEEE 802.3z
7.3.7 E3 Table 7-16 Technical specifications of the E3 port Parameter
Specification
Transmission rate
34.368 Mbit/s
Line code
HDB3
Line jitter
Comply with ITU-T G.823, G.824 and ETSI-TBR-2 standards
Maximum transmission distance
1200 feet/366 m
Input/output impedance
75 Ω
Standard compliance
ITU-T G.703, ITU-T G.704 and ITU-T G.823
7.3.8 T3 Table 7-17 Technical specifications of theT3 port Parameter
Specification
Transmission rate
44.736 Mbit/s
Line code
B3ZS
Line jitter
Comply with ITU-T G.823 and G.824 standards
Maximum transmission distance
1100 feet/335 m
Input/output impedance
75 ohm
Standard compliance
The frame structure complies with ITU-T G.704 standard.
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7.3.9 ADSL Table 7-18 Technical specifications of the ADSL port Parameter Upstream
Downstream
Specification Bandwidth
26 kHz–138 kHz
Maximum transmission rate
896 kbit/s
Bandwidth
138 kHz–1.104 MHz
Maximum transmission rate
8160 kbit/s
Maximum transmission distance
5 km
Line code
DMT
Standard compliance
ITU-T G.992.1 (G.dmt), ITU-T G.992.2 (G.lite) and ANSI T1.413
7.3.10 ADSL2+ Table 7-19 Technical specifications of the ADSL2+ port Parameter Upstream
Downstream
52
Specification Bandwidth
26 kHz–138 kHz
Maximum transmission rate
1.2 Mbit/s
Bandwidth
138 kHz–2.208 MHz
Maximum transmission rate
24 Mbit/s
Maximum transmission distance
6 km
Line code
DMT
Standard compliance
ITU-T G.992.5
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7 Technical Specifications
7.3.11 SHDSL Table 7-20 Technical specifications of the SHDSL port Parameter
Specification Over one twisted pair
Over two twisted pairs
Transmission rate
192 kbit/s–2312kbit/s
384 kbit/s–4608 kbit/s
Rate adjustment step
64 kbit/s
128 kbit/s
Transmission distance
3–6 km
Line code
TC-PAM
Frame protocol
E1, PCM, ATM and ISDN
Transmission mode
G.991.2 Annex A and G.991.2 Annex B
Standard compliance
ITU-T G.991.2
7.3.12 VDSL Table 7-21 Technical specifications of the VDSL port Parameter Upstream
Downstream
Maximum transmission distance Line code
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Specification Bandwidth
4.5 MHz–7.9 MHz
Maximum transmission rate
12.5 Mbit/s
Bandwidth
0.9 MHz–3.3 MHz
Maximum transmission rate
12.5 Mbit/s
At 0.5 mm wire
1.5 km
At 0.4 mm wire
1.2 km QAM
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7.3.13 E1 Table 7-22 Technical specifications of the E1 port Parameter
Specification
Transmission rate
2048 kbit/s
Bit rate tolerance
±50 ppm
Line code
HDB3
Standard impedance
75 ohm (coaxial)
120 ohm (STP)
Transmission distance
≤ 1000 m
≤ 3000 m
Nominal pulse width
244 ns
Port protection capability
Comply with ITU-T K.20
Standard compliance
Physical layer complies with ITU-T G.703, and frame structure complies with ITU-T G.704.
7.3.14 V.35 Table 7-23 Technical specifications of the V.35 port
54
Parameter
Specification
Mechanical characteristic
34-pin connector
Electric characteristic
Clock and data signals
Balanced interface circuit
Control signal
Unbalanced interface circuit
Interface function
Data, control, clock and earthing
Maximum data transmission rate
10 Mbit/s
Transmission rate in practice
N x 64 kbit/s (N = 1–32)
Transmission distance
15 m
Standard compliance
ITU-T V.35, ITU-T V.24 and ISO2593 (M34)
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7 Technical Specifications
7.4 Standards Compliance Table 7-24 lists the standards compliance. Table 7-24 Standards compliance Standards
Description
AF-PHY-0086.000
Inverse Multiplexing for ATM(IMA)Specification Version1.0
AF-PHY-0086.001
Inverse Multiplexing for ATM(IMA)Specification Version1.1
ANSI T1.413 issue 1 & issue 2
Asymmetrical Digital Subscriber Line(ADSL)Metallic Interface Specification (issue 1 & issue 2 )
ATM FORUM: AS_VTOA-0078.00 0
Circuit Emulation Services Version 2.0
IEEE 802.1D
IEEE standard for local and metropolitan area networks--Common specifications--Media access control (MAC) Bridges
IEEE 802.1p
Traffic class expediting and dynamic multicast filtering
IEEE 802.1Q
IEEE standard for local and metropolitan area networks: Virtual Bridged Local Area Networks
IEEE 802.1w
Local and metropolitan area networks---Common specifications Part 3: Media Access Control (MAC) Bridges---Amendment 2---Rapid Reconfiguration
IEEE 802.1x
Port Based Network Access Control
IEEE 802.2
IEEE standard for local and metropolitan area networks Specific requirements Part 2: Logical Link Control
IEEE 802.3
Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications
IEEE 802.3ac
Frame Extensions for Virtual Bridged Local Area Network (VLAN) Tagging on 802.3 Networks
IEEE 802.3ad
(Clause 43) Aggregation of Multiple Link Segments
IEEE 802.3u
Definition of Fast Ethernet (100BTX, 100BT4, 100BFX)
IEEE 802.3x
Definition of Full Duplex operation in a switched (LAN Flow control)
IEEE 802.3z
Definition of Gigabit Ethernet (over Fibre)
ITU-T G.168
Digital network echo cancellers
ITU-T G.702
Digital hierarchy bit rates
ITU-T G.703
Physical / electrical characteristics of hierarchical digital interfaces
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Standards
Description
ITU-T G.704
Synchronous frame structures used at primary and secondary hierarchical levels
ITU-T G.706
Frame alignment and cyclic redundancy check (CRC) Procedures relating to basic frame structures defined in recommendation G.704
ITU-T G.707
G.707 Network Node Interface for the Synchronous Digital Hierarchy (SDH)
ITU-T G.711
Pulse code modulation (PCM) of voice frequencies
ITU-T G.712
Transmission performance characteristics of pulse code modulation channels
ITU-T G.723.1
Dual rate speech coder for multimedia communications transmitting at 5.3 and 6.3 kbit/s
ITU-T G.729
C source code and test vectors for implementation verification of the G.729 8 kbit/s CS-ACELP speech coder
ITU-T G.781
Synchronization layer functions
ITU-T G.783
Characteristics of synchronous digital hierarchy (SDH) equipment functional blocks
ITU-T G.785
Characteristics of a flexible multiplexer in a synchronous digital hierarchy environment
ITU-T G.797
Characteristics of a flexible multiplexer in a plesiochronous digital hierarchy environment
ITU-T G.803
Architecture of transport networks based on the synchronous digital hierarchy (SDH)
ITU-T G.804
ATM cell mapping into plesiochronous digital hierarchy (PDH)
ITU-T G.811
Timing requirements at the outputs of primary reference clocks suitable for plesiochronous operation of international digital links
ITU-T G.812
Timing requirements of slave clocks suitable for use as node clocks in synchronization networks
ITU-T G.813
Timing characteristics of SDH equipment slave clocks (SEC)
ITU-T G.821
Error performance of an international digital connection operating at a bit rate below the primary rate and forming part of an integrated services digital network
ITU-T G.823
The control of jitter and wander within digital networks which are based on the 2048kbit/s hierarchy
ITU-T G.824
The control of jitter and wander within digital networks which are based on the 1544kbit/s hierarchy
ITU-T G.826
Error performance parameters and objectives for international constant bit rate digital paths at or above the primary rate
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7 Technical Specifications
Standards
Description
ITU-T G.902
Framework recommendation on functional access networks (AN): architecture and functions, access type, management and service node aspects
ITU-T G.957
Optical interfaces for equipments and systems relating to the synchronous digital hierarchy
ITU-T G.958
Digital line systems based on the synchronous digital hierarchy for use on optical fibre cables
ITU-T G.960
Access digital section for ISDN basic rate access
ITU-T G.961
Digital transmission system on metallic local lines for ISDN basic rate access
ITU-T G.962
Access digital section for ISDN primary rate at 2048kbit/s
ITU-T G.964
V-interfaces at the digital local exchange (LE) V5.1-interface (based on 2048kbit/s) for the support of access network (AN)
ITU-T G.965
V-interfaces at the digital local exchange (LE) V5.2-interface (based on 2048kbit/s) for the support of access network (AN)
ITU-T G.982
Optical access networks to support services up to the ISDN primary rate or equivalent bit rates
ITU-T G.991.2
Single-pair high-speed digital subscriber line (SHDSL) transceivers
ITU-T G.992.1
Asymmetric Digital Subscriber Line (ADSL) transceivers
ITU-T G.992.2
ITU standard for low-speed Asymmetrical Digital Subscriber Line without voice splitter
ITU-T G.992.3
Asymmetrical digital subscriber line (ADSL) transceivers – 2 (ADSL2)
ITU-T G.992.5
Asymmetrical digital subscriber line (ADSL) transceivers – extended bandwidth ADSL2 (ADSL2plus)
ITU-T G.996.1
Digital Subscriber Line (DSL) Transceiver Testing Procedure
ITU-T G.997.1
Physical layer management for Digital Subscriber Line (DSL) transceivers
ITU-T H.248
Gateway control protocol
ITU-T I.361
B-ISDN ATM layer specification
ITU-T I.363
B-ISDN ATM Adaptation Layer specification
ITU-T I.363.1
B-ISDN ATM Adaptation Layer Specification: Type 1 AAL
ITU-T I.363.5
B-ISDN ATM Adaptation Layer specification: Type 5 AAL
ITU-T I.371
Traffic control and congestion control in B-ISDN
ITU-T I.430
ISDN basic user-network interface layer 1 specification
ITU-T I.431
ISDN primary rate user-network interface layer 1 specification
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Standards
Description
ITU-T I.432.2
B-ISDN user-network interface-Physical layer specification: 155,520kbit/s and 622,080kbit/s operation
ITU-T I.432.3
B-ISDN user-network interface - Physical layer specification: 1544 kbit/s and 2048 kbit/s operation
ITU-T I.610
B-ISDN operation and maintenance principles and functions
ITU-T I.630
ATM protection switching
ITU-T M.3100
Generic network information model
ITU-T Q.811
Lower layer protocol profiles for the Q3 and X interfaces
ITU-T Q.812
Upper layer protocol profiles for the Q3 and X interfaces
ITU-T Q.831
Fault and performance management of V5 interface environments and associated customer profiles
ITU-T Q.921
ISDN user-network interface – Data link layer specification
ITU-T Q.931
ISDN user-network interface layer 3 specification for basic call control
ITU-T T.30
Procedures for document facsimile transmission in the general switched telephone network
ITU-T T.38
Procedures for real-time Group 3 facsimile communication over IP networks
ITU-T V.24
List of definitions for interchange circuits between data terminal equipment (DTE) and data circuit-terminating equipment (DCE)
ITU-T V.36
Modem using the 60-108 kHz frequency band for synchronous data transmission
ITU-T V.90
A digital modem and analogue modem pair for use on the Public Switched Telephone Network (PSTN) at data signaling rates of up to 56 000 bit/s downstream and up to 33 600 bit/s upstream
ITU-T Y.1310
Transport of IP over ATM in public networks
RFC 0768
User Datagram protocol
RFC 0783
The TFTP Protocol (Revision 2)
RFC 0791
Internet protocol
RFC 0792
Internet Control Message Protocol
RFC 0793
Transmission Control Protocol
RFC 0826
An Ethernet Address Resolution Protocol (ARP)
RFC 0854
Telnet protocol
RFC 0894
A standard for the transmission of IP datagrams over Ethernet networks
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7 Technical Specifications
Standards
Description
RFC 1112
Host extensions for IP multicasting
RFC 1155
Structure and Identification of Management Information for TCP/IP-based Internets, Network Working Group, May 1990
RFC 1157
Simple Network Management Protocol (SNMP)
RFC 1213
Management Information Base for Network Management of TCP/IP-based internets: MIB-II 2.Draft Standards
RFC 1483
Multiprotocol Encapsulation over ATM Adaptation Layer 5
RFC 1493
Bridge MIB
RFC 1542
Clarifications and Extensions for the Bootstrap Protocol (DHCP-Relay)
RFC 1643
Definitions of Managed Objects for the Ethernet-like Interface Types
RFC 1661
Point to Point Protocol (PPP)
RFC 1723
RIP Version 2 (RIP2)
RFC 1757
Remote Network Monitoring Management Information Base
RFC 1889
RTP: A Transport Protocol for Real-Time Applications
RFC 1890
RTP Profile for Audio and Video Conferences with Minimal Control
RFC 1907
Management Information Base for Version 2 of the Simple Network Management Protocol (SNMPv2)
RFC 2198
RTP Payload for Redundant Audio Data
RFC 2225
Classical IP and ARP Over ATM (IPoA)
RFC 2236
Internet Group Management Protocol Version 2 (IGMP V2)
RFC 2328
OSPF Version 2,Network Working Group, April 1998
RFC 2364
PPP Over AAL5 (PPPoA)
RFC 2515
Definitions of Managed Objects for ATM Management
RFC 2516
A Method for Transmitting PPP Over Ethernet (PPPoE)
RFC 2613
Remote Network Monitoring MIB Extensions for Switched Networks
RFC 2652
Ethernet Interface MIB
RFC 2662
Definitions of Managed Objects for the ADSL Lines
RFC 2784
Generic Routing Encapsulation (GRE)
RFC 2819
Remote Network Monitoring
RFC 2833
RTP Payload for DTMF Digits, Telephony Tones and Telephony Signals
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Standards
Description
RFC 2960
Stream Control Transmission Protocol
RFC 3015
Megaco Protocol Version 1.0
RFC 3057
ISDN Q.921-User Adaptation Layer (IUA)
RFC 3389
Real-time Transport Protocol (RTP) Payload for Comfort Noise (CN)
RFC 3440
Definitions of Extension Managed Objects for Asymmetric Digital Subscriber Lines
RFC 3525
Gateway Control Protocol Version 1
RFC 3550
RTP: A Transport Protocol for Real-Time Applications
RFC 3551
RTP Profile for Audio and Video Conferences with Minimal Control
RFC 4040
RTP payload format for a 64 kbit/s transparent call.
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UA5000 System Description
A Acronyms and Abbreviations
A
Acronyms and Abbreviations
A AAL1
ATM Adaptation Layer Type 1
AAL5
ATM Adaptation Layer Type 5
ACL
Access Control List
ADM
Add and Drop Multiplexer
ADSL
Asymmetric Digital Subscriber Line
AG
Access Gateway
AN
Access Network
APS
Automatic Protection Switching
ARP
Address Resolution Protocol
ASL
Analog Subscriber Line
ATM
Asynchronous Transfer Mode
B BHCA
Busy Hour Call Attempt
BMS
Broadband integrated network Management System
BRI
Basic Rate Interface
BRAS
Broadband Remote Access Server
C CAPEX
Capital Expenditure
CBR
Constant Bit Rate
CENTREX
Central Exchange
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A Acronyms and Abbreviations
CES
Circuit Emulation Service
CHAP
Challenge Handshake Authentication Protocol
CID
Caller Identification Display
CLI
Command Line Interface
CLIP
Calling Line Identification Presentation
CMM
Capability Maturity Model
CNG
Comfort Noise Generation
CPE
Customer Premises Equipment
CRC
Cyclic Redundancy Check
D DCE
Data Circuit-terminating Equipment
DDI
Direct-Dialing-In
DDN
Digital Data Network
DMT
Discrete Multi-Tone
DSLAM
Digital Subscriber Line Access Multiplexer
DSP
Digital Signal Processing
DTE
Data Terminal Equipment
DTMF
Dual Tone Multi-Frequency
E EMU
Environment Monitor Unit
ETSI
European Telecommunications Standards Institute
F FE
Fast Ethernet
FoIP
Fax over IP
FTTB
Fiber To The Building
FTTC
Fiber To The Curb
FXO
Foreign Exchange Office
G GE
62
Gigabit Ethernet
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GUI
A Acronyms and Abbreviations
Graphical User Interface
H HDLC
High-speed Data Link Control
HW
High Way
I IGMP
Internet Group Management Protocol
IMA
Inverse Multiplexing for ATM
IP
Internet Protocol
IPoA
IP over ATM
ISDN
Integrated Services Digital Network
L LE
Local Exchange
M MAN
Metropolitan Area Network
MDF
Main Distribution Frame
MGCP
Media Gateway Control Protocol
MIB
Management Information Base
MML
Man Machine Language
MoIP
Modem over IP
MSN
Multiple-Subscriber Number
MSP
Multiplex Section Protection
MSTP
Multi-Service Transmission Platform
MTA
Multifunctional Terminal Adapter
N NGN
Next Generation Network
nrt-VBR
non-real time Variable Bit Rate
O OLT
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Optical Line Terminal
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UA5000 System Description
A Acronyms and Abbreviations
ONU
Optical Network Unit
OPEX
Operative Expenditure
OSPF
Open Shortest Path First
OSS
Operating Support System
P PCM
Pulse-Code Modulation
PDH
Plesiochronous Digital Hierarchy
POTS
Plain Old Telephone Service
PPP
Point-to-Point Protocol
PPPoE
PPP over Ethernet
PRI
Primary Rate Interface
PSTN
Public Switched Telephone Network
PVC
Permanent Virtual Connection
Q QAM
Quadrature Amplitude Modulation
QoS
Quality of Service
R RADIUS
Remote Authentication Dial In User Service
RIP
Routing Information Protocol
RSTP
Rapid Spanning Tree Protocol
RTCP
Real-time Transport Control Protocol
RTP
Real-time Transport Protocol
rt-VBR
real time Variable Bit Rate
S SDH
Synchronous Digital Hierarchy
SEC
SDH Equipment Slave Clocks
SMS
Service Management System
SNCP
Sub-network Connection Protection
SNMP
Simple Network Management Protocol
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A Acronyms and Abbreviations
SHDSL
Single-pair High-bit-rate Digital Subscriber Line
SPC
Semi-permanent Connection
STB
Set Top Box
STM
Synchronous Transfer Mode
T TDM
Time Division Multiplexing
TL1
Transaction Language 1
ToS
Type of Service
U UBR
Unspecified Bit Rate
V VAD
Voice Activity Detection
VBR
Variable Bit Rate
VDN
Video Distribution Network
VDSL
Very High Speed DSL
VF
Voice Frequency
VLAN
Virtual Local Area Network
VoIP
Voice over IP
VP
Virtual Path
W WAN
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Wide Area Network
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UA5000 System Description
Index
Index A
F
ADLB, 19 ADMB, 19 ADMC, 19 AIUB, 20 APMB, 17 APSB, 18 ASL, 18
frame dimension, 43 front-access frames HABD, 12 HABE, 13 HABF, 14 HABL, 15
B
I
broadband service layer 2 and layer 3 features, 23 port, 23 QoS features, 24 security, 23
IPMB, 17
C cabinet dimension, 43 CDI, 18 CLI, 37 CSLB, 19 CSMB, 19
D DEHA, 20 DSL, 18
E EAUA, 19 EMS hardware configuration, 37 inband networking, 41 management function, 38 outband networking, 42 software configuration, 38 ESC, 20
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M MSTP networking single-level, 27 two-level, 27 multicast video service, 24
N network application triple play, 35 networking description MSTP, 26 SDH+FE/GE, 28 SDH+STM-1 ATM, 31 networking features MSTP, 28 SDH+FE/GE, 30 SDH+STM-1 ATM, 33 NGN, 1 NGN voice service, 22
O ONU-F01D1000, 9 ONU-F01D200, 9 ONU-F01D500, 9 ONU-F02A, 9 ONU-F02AF, 10
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UA5000 System Description
Index
P power supply, 44 private circuit service, 24 PSTN voice service, 21 PVM, 17 PVU8/PVU4, 17 PWX, 20
two-level, 30 SDH+STM-1 ATM networking single-level, 32 two-level, 32 SDL, 18 SDLB, 18, 19 system performance specifications, 45
T
R rear-access frames HABC, 11 RSU8/RSU4, 18 running environment, 44
TSSB, 20
U UA5000 features, 3
S
V
scenarios NGN consolidation, 33 private circuit service, 34 SDH+FE/GE networking single-level, 29
VFB, 18
W weight, 44
i.
i-2
Huawei Technologies Proprietary
Issue 02(2006-11-01)
HUAWEI TECHNOLOGIES CO., LTD. Huawei Industrial Base Bantian Longgang Shenzhen 518129, P.R.China www.huawei.com 31026219
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