Huawei Technologies EGW1500E Enterprise Gateway User Manual Manual
Huawei Technologies Co.,Ltd Enterprise Gateway Manual
Manual
eSpace EGW1500E Enterprise Gateway
V100R001C07
Product Description
Issue
04
Date
2012-07-18
HUAWEI TECHNOLOGIES CO., LTD.
Issue 04 (2012-07-18)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
i
Copyright © Huawei Technologies Co., Ltd. 2012. 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 purchased products, services and features are stipulated by the contract made between Huawei and
the customer. All or part of the products, services and features described in this document may not be
within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements,
information, and recommendations in this document are provided "AS IS" without warranties, guarantees or
representations of any kind, either express or implied.
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 Co., Ltd.
Address:
Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website:
http://enterprise.huawei.com
eSpace EGW1500E Enterprise Gateway
Product Description
Contents
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Contents
1 Product Positioning and Highlights .......................................................................................... 1
1.1 Product Positioning .......................................................................................................................................... 1
1.2 Highlights ......................................................................................................................................................... 1
2 Application Scenarios .................................................................................................................. 3
2.1 SOHO Application ........................................................................................................................................... 3
2.2 Enterprise Branch Application ......................................................................................................................... 5
3 Architecture .................................................................................................................................... 7
3.1 Appearance ....................................................................................................................................................... 7
3.2 Ports and Buttons ............................................................................................................................................. 8
3.3 Indicators ........................................................................................................................................................ 10
4 Functions and Features .............................................................................................................. 12
4.1 Voice Features ................................................................................................................................................ 12
4.1.1 Voice Access ......................................................................................................................................... 12
4.1.2 Voice Services ....................................................................................................................................... 13
4.1.3 Voice QoS ............................................................................................................................................. 15
4.1.4 Reliability .............................................................................................................................................. 15
4.2 Data Features .................................................................................................................................................. 16
4.3 QoS................................................................................................................................................................. 18
4.4 Security .......................................................................................................................................................... 18
5 Operation and Maintenance ..................................................................................................... 21
5.1 Web-based Management ................................................................................................................................ 21
5.2 Unified Network Management ....................................................................................................................... 22
6 Technical Specifications, Standards, and Certificates ......................................................... 23
6.1 Technical Specifications ................................................................................................................................. 23
6.2 Standards ........................................................................................................................................................ 24
6.3 Certificates ..................................................................................................................................................... 28
A Glossary ....................................................................................................................................... 29
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Product Description
1 Product Positioning and Highlights
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1
1 Product Positioning and Highlights
About This Chapter
This topic describes the product positioning and highlights of the eSpace EGW1500E.
1.1 Product Positioning
Huawei eSpace EGW1500 series are multi-service access gateways that integrate applications
such as voice, data, and broadband connections and provide a complete access solution. It is
an optimal choice for Small Office Home Office (SOHO) users and small enterprises to
establish an integrated office network.
1.2 Highlights
This topic describes the product highlights of the EGW1500E. Providing various services and
ports, the EGW1500E features cost-effectiveness, high reliability and security, easy
deployment, and simplified maintenance.
1.1 Product Positioning
Huawei eSpace EGW1500 series are multi-service access gateways that integrate applications
such as voice, data, and broadband connections and provide a complete access solution. It is
an optimal choice for Small Office Home Office (SOHO) users and small enterprises to
establish an integrated office network.
The eSpace EGW1500 provides multiple uplink ports for networks in different uplink modes.
It also provides user ports to establish flexible office networks.
1.2 Highlights
This topic describes the product highlights of the EGW1500E. Providing various services and
ports, the EGW1500E features cost-effectiveness, high reliability and security, easy
deployment, and simplified maintenance.
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High Reliability and Security
The EGW1500E's reliability reaches 99.99%. The mean time between failures (MTBF) is
over 30000 hours, and the mean time to repair (MTTR) is less than 30 minutes.
The EGW1500E provides various mechanisms such as dual-homing, power-off survival, local
survival, 3G connection, and QoS to ensure the reliability, and uses advanced technologies
such as VPN, URL filtering, NAT, and DMZ to enhance network security.
Multi-Service Integration
The EGW1500E integrates various functions such as broadband access, voice, routing,
security, wireless network, firewall, voice mail and VPN. Multiple services can be deployed
on the same node, which significantly reduces the initial investment and long-term
maintenance costs of the enterprise network. The EGW1500E uses an advanced hardware
platform and software architecture to provide users with an integrated network solution with a
minimum investment.
Various Ports
The EGW1500E provides various uplink ports for different networking scenarios, including
WAN, ADSL, USB, and FXO ports. The EGW1500E also provides diversified user ports such
as Wi-Fi, LAN, and FXS ports to set up flexible office networks.
Easy Installation and Maintenance
The EGW1500E is a box-shaped device that can be placed on a desk or mounted on a wall.
The EGW1500E provides standard external ports that are clearly marked to facilitate
installation and cable connection. The EGW1500E uses standard connection parts and does
not require a dedicated installation tool.
Users can configure the EGW1500E on web pages. The web management system provides
step-by-step configuration guidance for quick installation.
Efficient Remote Maintenance
The EGW1500E ensures the remote access security. Users can access the EGW1500E through
an uplink port (WAN, ADSL, or 3G) to perform remote configuration and maintenance.
The EGW1500E, complying with the TR-069 protocol, connects to the Element Management
System (EMS) server (such as the eSpace EMS) to enable the remote configuration and
aintenance functions, such as software version upgrade, configuration file backup and
restoration, and device status monitoring.
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2 Application Scenarios
About This Chapter
The EGW1500E supports the following application scenarios:
Functions as a gateway to provide the Internet access and small-capacity voice services
for small enterprises or Small Office Home Office (SOHO) users.
Integrates with the eSpace UC solution to provide a comprehensive access solution for
small branches.
2.1 SOHO Application
The EGW1500E provides a small-capacity solution integrating voice and broadband services
for small enterprises or SOHO users.
2.2 Enterprise Branch Application
The EGW1500E can be integrated with the eSpace UC solution and deployed in small-sized
enterprise branches. As the network ingress, the EGW1500E provides a comprehensive access
solution for enterprise branches.
2.1 SOHO Application
The EGW1500E provides a small-capacity solution integrating voice and broadband services
for small enterprises or SOHO users.
Figure 2-1 shows the application of the EGW1500E in SOHOs.
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Figure 2-1 Application of the EGW1500E in SOHOs
Uplink Modes
The EGW1500E supports three uplink access modes: Asymmetric Digital Subscriber Line
(ADSL), Wide Area Network (WAN), and 3G, as shown in Figure 2-1.
The EGW1500E can connect to an IP network through an ADSL or a WAN port. When
neither an ADSL nor a WAN port is available, users can use a USB-based 3G data card to
connect to a 3G network to transmit voice and data streams (excluding fax data).
The ADSL and WAN connections are two parallel modes, which cannot be used together or back each
other up.
Voice Application
The EGW1500E supports the IP PBX function. Users can use different terminals (such as
analog phones, fax machines, and IP phones) to connect to the EGW1500E for internal
communication. In addition, the EGW1500E acts as an agent to register users with the IP
Multimedia Subsystem (IMS) or Next Generation Network (NGN) to implement outgoing
calls and provide voice services.
The PHONE1 port supports the power-off survival function. When the EGW1500E
encounters a power failure, the analog phone connected to the PHONE1 port can be
connected to the PSTN through the FXO port. In this way, the call function is still available
even when the EGW1500E is powered off.
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Data Application
The EGW1500E can be used to set up an enterprise network in LAN or WLAN mode. LAN
users use the EGW1500E to connect to the Internet to use various services. The EGW1500E
also supports various data functions, such as WLAN, DNS, VLAN, Dynamic Host
Configuration Protocol (DHCP), static routing, Quality of Service (QoS), Network Address
Translation (NAT), Virtual Private Network (VPN), URL filtering, Demilitarized Zone (DMZ),
virtual server, and MAC address filtering.
2.2 Enterprise Branch Application
The EGW1500E can be integrated with the eSpace UC solution and deployed in small-sized
enterprise branches. As the network ingress, the EGW1500E provides a comprehensive access
solution for enterprise branches.
Figure 2-2 shows the application of the EGW1500E in enterprise branches.
Figure 2-2 Application of the EGW1500E in enterprise branches
Uplink Modes
The EGW1500E supports three uplink access modes: ADSL, WAN, and 3G, as shown in
Figure 2-2.
The EGW1500E can connect to an IP network through an ADSL or a WAN port. When
neither an ADSL nor a WAN port is available, users can use a USB-based 3G data card to
connect to a 3G network to transmit voice and data streams (excluding fax data).
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The ADSL and WAN connections are two parallel modes, which cannot be used together or back each
other up.
Voice Application
Users within the enterprise branches are registered with the SIP server on the central node at
the headquarters. The user numbers are allocated and synchronized to the EGW1500E by the
data synchronization server. In the eSpace UC solution, the SIP server on the central node at
the headquarters controls incoming and outgoing calls of enterprise branch users and provides
voice services for these users.
The EGW1500E can function as the local PSTN trunking gateway to process incoming and
outgoing calls for the local PSTN. This helps an enterprise reduce toll call fees.
The PHONE1 port supports the power-off survival function. When the EGW1500E
encounters a power failure, the analog phone connected to the PHONE1 port can be
connected to the PSTN through the FXO port. In this way, the call function is still available
even when the EGW1500E is powered off.
Local Survival
The EGW1500E registers with the active and standby SIP servers at the same time. If the
active and standby SIP servers are both faulty, the EGW1500E switches to the local survival
mode to process intra-office calls as a local server. When the active or standby SIP server is
restored, the EGW1500E exits the local survival mode.
Data Application
The EGW1500E can be used to set up an enterprise network in LAN or WLAN mode. LAN
users use the EGW1500E to connect to the Internet to use various services. The EGW1500E
also supports various data functions, such as WLAN, DNS, VLAN, DHCP, static routing,
QoS, NAT, VPN, URL filtering, DMZ, virtual server, and MAC address filtering.
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3 Architecture
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3 Architecture
About This Chapter
This topic describes the appearance, ports, and indicators of the EGW1500E.
3.1 Appearance
The EGW1500E is a box-shaped device that can be placed on a desk or mounted on a wall.
3.2 Ports and Buttons
This topic describes EGW1500E ports and buttons.
3.3 Indicators
This topic describes EGW1500E indicators.
3.1 Appearance
The EGW1500E is a box-shaped device that can be placed on a desk or mounted on a wall.
Its dimensions (H x W x D) are 35 mm x 305 mm x 175 mm, as shown in Figure 3-1.
Figure 3-1 EGW1500E appearance
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3.2 Ports and Buttons
This topic describes EGW1500E ports and buttons.
Figure 3-2 and Figure 3-3 shows the EGW1500E ports and buttons.
Figure 3-2 EGW1500E ports
Figure 3-3 EGW1500E buttons
Table 3-1 describes the EGW1500E ports.
Table 3-1 EGW1500E ports and buttons
SN
Label
Quan
tity
Physical
Port and
Attribute
Function
1
ADSL
1
ADSL port
RJ-11
Connects to the peer Digital Subscriber
Line Access Multiplexer (DSLAM)
through a telephone line to access the
broadband network.
2
FXO
1
FXO port
RJ-11
Enables phones connected to the
EGW1500E to make calls.
Enables the phone connected to PHONE1
to access the PSTN when the EGW1500E
is powered off.
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SN
Label
Quan
tity
Physical
Port and
Attribute
Function
3
PHONE1
-4
4
POTS port
RJ-11
Connects to analog phones and fax
machines.
PHONE1 supports power-off survival.
One PHONE port can connect to only
one analog phone.
User line length (diameter: 0.4 mm) is
equal to or less than 1 km.
PHONE ports are only used indoors.
Ports specifications
The feed voltage is -48 V DC when an
analog phone is in the on-hook state.
The supply current is 25 mA when an
analog phone is in the off-hook state.
The value of the EGW1500E's ringing
power is 50Vrms.
4
USB
1
USB port
USB 2.0
Uses a 3G data card to connect to a 3G
network.
5
WAN
1
WAN port
RJ-45
MDI-X
10/100Base-
TX
Outdoor
network port
Connects to the broadband network in
WAN mode.
6
LAN1-8
8
LAN port
RJ-45
MDI-X
10/100Base-
TX
Indoor
network port
Connects to Ethernet devices such as
local computers and IP phones to
establish a LAN.
When LAN ports connect to IP phones,
they are only used indoors.
7
12 V DC,
2 A
1
Power
supply port
Connects to the power supply adapter to
provide power for the EGW1500E.
8
ON/OFF
1
Power
switch
Switch for powering on and off the
EGW1500E.
9
RESET
1
Reset button
Restores the factory settings if this button
is held down for more than 6 seconds.
Restarts the EGW1500E if this button is
held down less than 6 seconds.
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SN
Label
Quan
tity
Physical
Port and
Attribute
Function
10
WLAN
1
Wi-Fi
control
button
Enables the Wi-Fi Protected Setup (WPS)
function if this button is held down for
more than 6 seconds.
NOTE
With the WPS function, the Wi-Fi terminal
starts to authenticate the WPS. If the
authentication lasts for more than 2 minutes,
the function is not enabled.
Enables or disables the WLAN function if
this button is held down for less than 6
seconds.
3.3 Indicators
This topic describes EGW1500E indicators.
Figure 3-4 shows the EGW1500E indicators.
Figure 3-4 EGW1500E indicators
Table 3-2 describes the indicators on the EGW1500E front panel.
Table 3-2 Indicators on the EGW1500E front panel
Indicato
r
Indication
Description
POWER
Indicates the
power status.
Steady on: The EGW1500E is powered on.
Off: The EGW1500E is powered off.
ADSL
Indicates the
ADSL connection
status.
Steady on: The ADSL connection has been established
and activated.
Blinking: The ADSL connection is being activated.
Off: The EGW1500E is powered off or the ADSL
connection has not been established.
INTERN
ET
Indicates the
WAN or 3G
Steady on: The EGW1500E works in routing mode and is
connected to the WAN, but no data is being transmitted.
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Indicato
r
Indication
Description
connection status.
Blinking: The EGW1500E works in routing mode and is
connected to the WAN, and data is being transmitted.
Off: The EGW1500E works in bridge mode, works in
routing mode but is disconnected from the WAN, or is
powered off.
WLAN
Indicates the
WLAN power or
communication
status.
Steady on: The WLAN has been enabled, but no data is
being transmitted.
Blinking: The WLAN has been enabled, and data is being
transmitted.
Off: The EGW1500E is powered off or the Wi-Fi
function is disabled.
VOIP
Indicates the VoIP
status.
Steady on: At least one VoIP user is registered with the
SIP server and is in the idle state.
Blinking: At least one VoIP user is working.
Off: The EGW1500E is powered off or no VoIP user has
been registered with the SIP server.
PHONE
Indicates the
phone status.
Steady on: The analog phone is picked up.
Off: The EGW1500E is powered off or the analog phone
is hung up.
In addition to the indicators on the front panel, each network port has an indicator, as shown
in Table 3-3.
Table 3-3 EGW1500E network port indicators
Indicator
Description
Network port indicator
Steady on: The network port is properly connected.
Off: The network port is disconnected.
Blinking: Data is being transmitted.
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4 Functions and Features
About This Chapter
With diversified functions and features, the EGW1500E provides users with various voice and
data services.
4.1 Voice Features
4.2 Data Features
The EGW1500E provides various data services to meet requirements of different users.
4.3 QoS
The EGW1500E provides a complete QoS mechanism to ensure that core services are
allocated with sufficient bandwidth.
4.4 Security
The EGW1500E provides various mechanisms to ensure the security of calls and transmitted
data.
4.1 Voice Features
4.1.1 Voice Access
SIP Trunk
The SIP trunk supports the registration mode and static mode.
The EGW1500E supports only the SIP trunk in the registration mode. The SIP trunk sends a
registration message to the SIP server to set up a dynamic link.
After being registered with the IMS or NGN network using the SIP trunk, the EGW1500E
processes internal calls and SIP signaling for outer-office calls.
Common Mode
When functioning as a device on the access layer, the EGW1500E can register with the IMS
or NGN network using the SIP trunk and process SIP signaling. When functioning as a small
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IP-PBX device, the EGW1500E provides various functions, such as IP phone registration, call
control, and protocol processing.
A maximum of 20 SIP users can be registered.
The EGW1500E provides four foreign exchange station (FXS) ports, connecting to a
maximum of four POTS users.
The EGW1500E supports a maximum of eight concurrent voice calls made by SIP users
and POTS users. The maximum number of POTS calls varies according to codec
standard:
− Four concurrent POTS calls for G.711 and G.729
− Two concurrent POTS calls for G.726 and G.722
The EGW1500E voice services comply with the following standards:
G.711A, G.711u, G.729, G.726, and G.722
SIP (RFC 3261-3265)
SIP Session Timers (RFC 4028)
SDP (RFC 2327)
RTP/RTCP
RFC2833
UC Mode
In UC mode, the EGW1500E can be registered with multiple SIP servers at the same time.
Phones connecting to the EGW1500E are registered with the SIP server on the central node at
the headquarters. All calls are processed by the SIP server at the headquarters.
When the EGW1500E is disconnected from the active and standby SIP servers, the
EGW1500E automatically enters the local survival mode and functions as the local SIP server
to implement internal user registration and process all calls.
The EGW1500E can function as the local PSTN trunking gateway to process incoming and
outgoing calls for the local PSTN. This helps an enterprise reduce toll call fees.
Connecting to the PSTN Network
The EGW1500E provides one FXO port used to connect to the PSTN. An intra-office user
dials the outgoing prefix and an inter-office user's number to make an outgoing call through
the FXO port. An inter-office user dials the number that the PSTN carrier allocates to the
FXO port to make an incoming call. The EGW1500E supports the switchboard and private
line functions. By default, the switchboard function is enabled.
The EGW1500E supports one FXO port.
The FXO port supports only the one-stage dialing mode.
Only one call can be made through the FXO port at a time.
4.1.2 Voice Services
This topic describes voice services supported by the EGW1500E. Table 4-1 lists the voice
services.
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Table 4-1 Voice services
Type
Service
Voice service
Calling line identification presentation (CLIP)
Switchboard service
Private line service
Call pickup
Call waiting
Three-way calling
Call forwarding unconditional (CFU)
Call forwarding busy (CFB)
Call forwarding on no reply (CFNR)
Anonymous call
Called number presentation
Called number presentation restriction
Do not disturb (DND)
Night service
Call hold
Malicious caller identification
Call history
Call transfer
Outgoing call barring (OCB)
Call back on busy (CBB)
Voice message
Message notification
Message retrieval
Anonymous call rejection
Automatic call rejection
Fax service
T.30 and T.38 fax services
Fixed mobile convergence
(FMC) service
Simultaneous ringing
Sequential ringing
Call switch
Voice message
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4.1.3 Voice QoS
This topic describes voice QoS policies supported by the EGW1500E.
VAD
Voice activity detection (VAD) is a technology used in speech coding and speech recognition
where the presence or absence of human speech is detected. The VAD avoids unnecessary
coding and transmission of silence packets in Voice over Internet Protocol (VoIP) applications,
saving computation and network bandwidth.
CNG
Comfort noise generator (CNG) is used with VAD. When the VAD function is enabled and no
packets are sent during the silent period, the listener may think that the call has disconnected.
To avoid this, the EGW1500E enables the CNG function on the receiver end. The EGW1500E
CNG technology complies with RFC3389.
EC
Echo cancellation (EC) is a process of removing echo from a voice communication to
improve voice quality on a telephone call. In addition to improving subjective quality, this
process increases the capacity achieved through silence suppression by preventing echo from
traveling across a network. The EGW1500E EC technology complies with ITU-T G.168.
PLC
Packets are often lost on the connectionless IP network as a result of network congestion,
buffer overflow, or bit error. A packet loss compensation (PLC) algorithm is used to minimize
the effects of packet loss. Lost frames can be reconstructed during decoding based on the
voice context, which ensures the quality of the received voice.
Jitter Buffer
When the jitter buffer function is enabled, received packets can be buffered and then retrieved
and processed to remove jitter.
4.1.4 Reliability
The EGW1500E provides various technologies to ensure voice communication reliability.
Multi-SIP Registration–DR Mechanism in a Small Branch
Multi-SIP registration is a disaster recovery (DR) mechanism that ensures service continuity
in emergencies such as SIP server breakdown. Functioning as a voice access device in small
branches, the EGW1500E can register with two SIP servers at the same time. When the active
SIP server is faulty, the EGW1500E switches services to the standby SIP server. When the
active SIP server is restored, the EGW1500E switches services back to the active SIP server.
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Power-off Survival
The EGW1500E provides an FXO port for power-off survival. When the EGW1500E is
powered off, the analog phone connected to the PHONE port is automatically connected to
the FXO port to access the PSTN. In this way, basic voice services are still available even
when the EGW1500E is powered off.
Local Survival
Functioning as a voice access device in small branches, the EGW1500E supports local
survival.
When the EGW1500E detects that it is disconnected from the SIP server on the central node
at the headquarters, the EGW1500E processes local calls.
4.2 Data Features
The EGW1500E provides various data services to meet requirements of different users.
ADSL
The EGW1500E can connect to an uplink network through an ADSL port. ADSL is an
asymmetric transmission technology. It uses high frequencies that are not used by voice phone
calls and several modulation methods to achieve high-speed data transmission.
The routing and bridging connection types are supported.
The EGW1500E can use a static IP address or use DHCP or Point-to-Point Protocol over
Ethernet (PPPoE) to obtain a dynamic IP address.
Two Point-to-Point Protocol (PPP) authentication modes are supported, including
Password Authentication Protocol (PAP) and Challenge Handshake Authentication
Protocol (CHAP).
The ADSL Seamless Rate Adaptation (SRA) technology is supported.
The voice and data services use the same ADSL Permanent Virtual Circuit (PVC)
channel.
The EGW1500E can connect to an IP network through an ADSL or a WAN port. The
ADSL and WAN ports cannot be used at the same time or back each other up.
WAN Port
The EGW1500E can connect to an IP network through a WAN port.
The EGW1500E provides a 10/100/1000 Mbit/s self-adaptive WAN port.
The EGW1500E can use a static IP address or use DHCP or PPPoE to obtain a dynamic
IP address.
The WAN port automatically chooses a work mode between the full-duplex and
half-duplex modes. The duplex mode cannot be manually configured.
The EGW1500E can connect to an IP network through an ADSL or a WAN port. The
ADSL and WAN ports cannot be used at the same time or back each other up.
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3G
Generally, the EGW1500E connects to an IP network through an ADSL or a WAN port. When
neither an ADSL nor a WAN port is available, users can use a USB-based 3G data card to
connect to a 3G network to transmit voice and data streams (excluding fax data).
The EGW1500E supports the following 3G data cards:
Time Division-Synchronous Code Division Multiple Access (TD-SCDMA) data cards:
− Huawei ET302 (software version: 11.100.05.00.00)
− Huawei ET127 (software version: 11.101.01.36.00)
Wideband Code Division Multiple Access (WCDMA) data cards:
− Huawei K3765 (software version: 11.126.03.06.00)
− Huawei E176G (software version: 11.126.03.02.00)
The 3G connection can be used as a backup network connection when no ADSL or WAN
connection is available. However, it does not support fax, DMZ host, and virtual server
functions.
Static RouteRouting Capability
Users can manually configure static routes on the EGW1500E. Proper static routes improve
the network performance and allocate sufficient bandwidth to important network applications.
LAN Port
Terminals such as PCs and IP phones can connect to the EGW1500E through LAN ports to
join a small LAN. Functions such as file management, application sharing, printer sharing,
scheduling in a work group, email, and fax can be implemented in the LAN.
The EGW1500E provides eight 10/100 Mbit/s self-adaptive LAN ports.
The default IP address and subnet mask for accessing the EGW1500E through LAN
ports is 192.168.1.1 and 255.255.255.0.
The EGW1500E can function as a DHCP server and assign IP addresses to data
terminals such as PCs and IP phones connected to the EGW1500E through LAN ports.
WLAN
The EGW1500E supports Wi-Fi services and wireless networking. It provides an integrated
wired and wireless access solution for small enterprises.
IEEE 802.11b/g/n is supported.
A maximum of 16 Wi-Fi terminals can connect to the EGW1500E at the same time.
Four Service Set Identifiers (SSIDs) can be configured and the SSID broadcasting or
hiding function is supported.
The MAC address filtering function is supported. A maximum of 16 MAC addresses can
be filtered.
The Wi-Fi bridging function is not supported.
DNS
DNS allows users to specify meaningful domain names for network devices. The EGW1500E
can function as a DNS client and use DNS servers to resolve domain names.
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VLAN
The VLAN technology is used to divide a LAN into multiple virtual LANs (VLANs). Each
VLAN is a broadcast domain. Hosts in the same VLAN communicate with each other in the
same way as they are in a physical LAN. Hosts in different VLANs cannot communicate with
each other directly. The EGW1500E supports port-based VLANs. LAN ports are added to
different VLANs so that users are separated and virtual work groups are created.
A maximum of eight VLANs can be created.
Only port-based VLANs are supported.
DHCP
DHCP is a protocol for dynamically managing and configuring users in a centralized manner.
It uses the Client/Server (C/S) structure. A DHCP client sends the DHCP server a request to
apply for parameter settings, including the IP address, subnet mask, and default gateway. The
EGW1500E can function as a DHCP server, DHCP relay, or DHCP client.
As a DHCP server, the EGW1500E provides a configurable address pool. The default
address pool ranges from 192.168.1.2 to 192.168.1.254.
As a DHCP relay, the EGW1500E complies with RFC3361.
As a DHCP client, the EGW1500E supports Option42/43/60/61/66/67/120/125/150.
4.3 QoS
The EGW1500E provides a complete QoS mechanism to ensure that core services are
allocated with sufficient bandwidth.
QoS policies can be customized to ensure precedence of core services. In addition, the
EGW1500E limits bandwidth for common services (such as the web-based upload service)
and saves it for core services (such as voice services). The EGW1500E supports the following
Diff-Serv-based QoS technologies: priority mark, congestion management, and traffic
policing.
The 802.1p/q priority can be marked with VLAN tags.
The Differentiated Services Code Point (DSCP) priority can be marked with tags.
The bandwidth control can be performed on uplink data streams.
Voice packets can be listed in the queue of high priority packets and be transferred
preferentially.
4.4 Security
The EGW1500E provides various mechanisms to ensure the security of calls and transmitted
data.
NAT
Network Address Translation (NAT) is a process of converting a private IP address in an IP
packet header to a public IP address. This function enables computers with private IP
addresses to connect to a public network. NAT solves the problem of insufficient public IP
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addresses and prevents attacks from other networks, hiding and protecting computers on the
private network.
A maximum of 1024 NAT entries are supported.
SIP ALG
NAT is the technology for converting private IP addresses to public IP addresses, and allows
one or more hosts on the private network to use the same public IP address to access a public
network. NAT works in the transport layer, and is transparent to the application layer. This
may cause that data for SIP applications cannot be transmitted. The EGW1500E supports SIP
Application Layer Gateway (ALG) that solves the SIP NAT traversal problem.
Incoming Packet Filtering
If the firewall function is enabled on LAN ports or the WAN port, all packets sent to the
EGW1500E through LAN ports or the WAN port are blocked. The incoming packet filtering
function allows specific packets to be sent to the EGW1500E. For example, if the firewall is
enabled on LAN ports, voice and data packets sent to the EGW1500E through LAN ports are
blocked. Users can configure the incoming packet filtering function to allow voice packets to
be sent to the EGW1500E.
Outgoing Packet Filtering
By default, the EGW1500E does not block any outgoing packets sent from LAN ports. Users
can configure the outgoing packet filtering function to prevent specific packets from being
sent from LAN ports.
MAC Address Filtering
If the ADSL service type is set to Bridge, users can configure the MAC address filtering
function to prevent the ADSL port from forwarding certain data frames.
URL Filtering
The EGW1500E supports URL filtering, controlling the access to URLs effectively.
A maximum of 100 URLs can be filtered.
The maximum length of a URL is 128 bytes.
Fuzzy match and full match are supported.
Wildcard characters are not supported in filtering rules. For example, users cannot use
the asterisk (*) to represent full match.
Virtual Server
The virtual server function allows devices on external networks to access servers on private
networks. These servers can provide services such as web access and FTP download,
functioning as public servers on private networks.
This function is unavailable when the 3G access mode is used.
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DMZ
If there are many services to be provided, multiple virtual servers must be configured, which
involves a complicated configuration process. The Demilitarized Zone (DMZ) function
simplifies the configuration process. Only the IP address of the DMZ host needs to be
configured.
One DMZ host is supported.
This function is unavailable when the 3G access mode is used.
IPSec VPN
The EGW1500E can function as an access gateway for a small branch and connect to the
headquarters through an IP Security (IPSec) VPN channel, implementing secure access.
The EGW1500E uses IPSec to establish a VPN channel to the headquarters in Site-to-Site
tunnel encapsulation mode. As the initiator of the VPN channel, the EGW1500E can use the
peer device's IP address as the peer device ID.
Configuration File Encryption
The EGW1500E encrypts the configuration file and sensitive data such as user names and
passwords in the file.
The EGW1500E encrypts the following items:
User name and password for logging in to the web management page
PPPoE user name and password
PPPoA user name and password
Password for connecting to a WLAN
User name and password for connecting to a 3G network
TR-069 ACS user name and password
SIP user name and password
Password for connecting to an NTP server
VPN shared key
The configuration file cannot be manually modified.
HTTPS
Users can use a web browser to interact with the EGW1500E using HTTPS, which ensures
user information security.
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5 Operation and Maintenance
About This Chapter
Users can manage the EGW1500E in the web management system and operate and maintain
the EGW1500E in the eSpace element management system (EMS).
5.1 Web-based Management
5.2 Unified Network Management
5.1 Web-based Management
Users can configure, diagnose, and upgrade the EGW1500E in the web management system.
The HTTPS and HTTP protocols are supported.
Figure 5-1 shows the main page of the EGW1500E web management system.
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Figure 5-1 Main page of the EGW1500E web management system
5.2 Unified Network Management
TR-069 is a digital subscriber line (DSL) forum technical specification entitled CPE WAN
Management Protocol (CWMP). It defines an application layer protocol for remote
management of terminals on the user side. Huawei eSpace EMS uses TR-069 to manage and
maintain the EGW1500E remotely.
The EGW1500E uses the TR-069 protocol to connect to the eSpace EMS to enable remote
configuration and maintenance, including upgrading devices, backing up and restoring files,
and monitoring device status and performance. The EGW1500E supports the following data
models:
TR-098
TR-104
For details about Huawei eSpace EMS, see the eSpace EMS Documentation.
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6 Technical Specifications, Standards, and
Certificates
About This Chapter
This topic describes the technical specifications, standards, and certificates of the
EGW1500E.
6.1 Technical Specifications
This topic describes EGW1500E technical specifications, such as dimensions, weight, power
supply, power consumption, and running environment.
6.2 Standards
This topic describes standards that the EGW1500E complies with.
6.3 Certificates
This topic describes the certificates on the EGW1500E.
6.1 Technical Specifications
This topic describes EGW1500E technical specifications, such as dimensions, weight, power
supply, power consumption, and running environment.
Table 6-1 describes EGW1500E parameters.
Table 6-1 EGW1500E parameters
Item
Specification
Dimensions (H x W x
D)
35 mm x 305 mm x 175 mm
Weight
1 kg (device weight, without the power adapter and other
accessories)
Maximum power
24 W
Power supply
12 V DC, 2 A
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Item
Specification
Power supply adapter
Input: 100 – 240 V AC, 1.0 A, 50 or 60 Hz
Output: +12 V DC, 2 A
Maximum transmit
power of Wi-Fi
802.11b/g/n (SISO): 16±2 dBm
802.11n (MIMO): 18±2 dBm
Long-term operating
temperature
0°C - 40°C
Long-term operating
humidity
5% - 95% (non-condensing)
Altitude
≤ 4 km
Atmospheric pressure
70 - 106 kPa
6.2 Standards
This topic describes standards that the EGW1500E complies with.
Table 6-2 Standards compliance
Service Name
Standard
ADSL/ADSL2/ADSL2+/A
nnex M
ITU-T G.992.1 Annex A
ITU-T G.992.3 (ADSL 2) Annex A, L, and M
ITU-T G.992.5 (ADSL 2+) Annex A/M
Seamless Rate Adaption
Encapsulation: PPPoE and PPPoA
Wi-Fi
IEEE 802.11b/g/n
Timing
NTP (RFC 1305)
SIP protocol
RFC 3323
RFC 3325
RFC 3515 – Refer method
RFC 3891 – Replaces header
RFC 3261
RFC 3262
RFC 3264
RFC 3455
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Service Name
Standard
SIP session timers
RFC 4028
SIP locating servers
RFC 3263 for SIP over UDP
P-CSCF discovery
DHCP method – RFC 3361
DNS Client
CLIP/CLIR
RFC 3323
RFC 3325
Message waiting indication
RFC 3842
RFC 3265
Event notification
RFC 3265
NAT traversal
NAT Traversal (RFC 3947)
Codec
G.711 A-Law
G.711 μ-Law
G.729 Annex A (must include annexb=no)
G.729 Annex B
G.726 (optional)
G.722
Fax
T.38
T.30 over G.711
Comfort noise generation
RFC 3389
Echo cancellation
G.168
DTMF
RFC 2833
CPE provisioning
TR-069
TR-104
Table 6-3 Standards compliance
Service Name
Standard
Standard Version
ADSL/ADSL2/
ADSL2+/Anne
x M
ITU-T G.992.1 Annex A
ITU-T G.992.1 (06/1999)
ITU-T G.992.3 (ADSL 2) Annex A,
L, and M
ITU-T G.992.3 (01/2005)
ITU-T G.992.5 (ADSL 2+) Annex
A/M
ITU-T G.992.5 (01/2005)
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Service Name
Standard
Standard Version
Seamless Rate Adaption
ITU-T G.992.3 (01/2005)
Encapsulation: PPPoE and PPPoA
PPPoE-RFC 2516 (February
1999)
PPPoA-RFC 2364 (July 1998)
Wi-Fi
IEEE 802.11b/g/n
IEEE 802.11b-1999
IEEE 802.11g-2003
IEEE 802.11n-2009
IP requirements
MAC Address (IEEE 802.3)
IEEE 802.3-2002
IPv4 (RFC 791)
IP Version 4-RFC 791
(September 1981)
ARP (RFC 826)
RFC 826 (November 1982)
ICMP (RFC792)
RFC 792 (September 1981)
TCP (RFC793)
RFC 792 (September 1981)
UDP (RFC768)
RFC 768 (August 1980)
RTP (RFC 3550 and RFC 3551)
RTP Version 2-RFC 3550 (July
2003)
RFC 3551 (July 2003)
RTCP (RFC 3550)
RTCP-RFC 3550 (July 2003)
Ethernet Address Resolution
Protocol (RFC 826)
RFC 826 (November 1982)
Standard for the Transmission of IP
Datagrams over Ethernet Networks
(RFC 894)
RFC 894 (April 1984)
Standard for the Transmission of IP
Datagrams over IEEE 802
Networks (RFC 1042)
RFC 1042 (February 1988)
DHCP (RFC 2131)
RFC 2131 (March 1997)
VLAN tagging 802.1 p/q
IEEE802.1 Q-2003
Timing
NTP (RFC 1305)
NTP Version 3-RFC1305 (March
1992)
SIP protocol
RFC 3323
RFC 3323 (November 2002)
RFC 3325
RFC 3325 (November 2002)
RFC 3515 – Refer method
RFC 3515 (April 2003)
RFC 3891 – Replaces header
RFC 3891 (September 2004)
RFC 3261
SIP Version 2-RFC 3261 (June
2002)
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Service Name
Standard
Standard Version
RFC 3262
RFC 3262 (June 2002)
RFC 3264
RFC 3264 (June 2002)
RFC 3455
RFC 3455 (January 2003)
SIP session
timers
RFC 4028
RFC 4028 (April 2005)
SIP locating
servers
RFC 3263 for SIP over UDP
RFC 3263 (June 2002)
P-CSCF
discovery
DHCP method – RFC 3361
RFC 3361 (August 2002)
DNS Client
DNS for IPv4
CLIP/CLIR
RFC 3323
RFC 3323 (November 2002)
RFC 3325
RFC 3325 (November 2002)
Message
waiting
indication
RFC 3842
RFC 3842 (August 2004)
RFC 3265
RFC 3265 (June 2002)
Event
notification
RFC 3265
RFC 3265 (June 2002)
NAT traversal
NAT Traversal (RFC 3947)
NAT for IPv4-RFC 3947
(January 2005)
Codec
G.711 A-Law
None
G.711 μ-Law
None
G.729 Annex A (must include
annexb=no)
None
G.729 Annex B
None
G.726 (optional)
None
G.722
None
Fax
T.38
ITU-T T.38 (09/2005)
T.30 over G.711
ITU-T T.30 (09/2005)
Comfort noise
generation
RFC 3389
RFC 3389 (September 2002)
Echo
cancellation
G.168
ITU-T G.168 (08/2004)
DTMF
RFC 2833
RFC 2833 (May 2000)
CPE
provisioning
TR-069
TR-069 v1.1, Amendment 2
(December 2007)
TR-104
TR-104 (September 2005)
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6.3 Certificates
This topic describes the certificates on the EGW1500E.
Table 6-4 Certificates on the EGW1500E
Certificate
Icon
CE-CETECOM
China compulsory certificate (CCC)
Restriction of hazardous substances (RoHS)
Waste electrical and electronic equipment
(WEEE)
Wireless fidelity (Wi-Fi)
Registration, evaluation, authorization and
restriction of chemicals (REACH)
N/A
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A Glossary
Numerics
3G
See 3rd generation.
3rd generation (3G)
The third generation of digital wireless technology, as defined by the International
Telecommunications Union (ITU). Third generation technology is expected to deliver
data transmission speeds between 144 kbit/s and 2 Mbit/s, compared to the 9.6 kbit/s to
19.2 kbit/s offered by second generation technology.
A
ACS
See Application Control Server.
ADSL
asymmetric digital subscriber line
Application Control
Server (ACS)
A subsystem of the Media Entertainment Middleware (MEM), used for providing a
service control interface for the Electronic Program Guide (EPG) server.
D
DHCP
See Dynamic Host Configuration Protocol.
DMZ
See demilitarized zone.
DNS
See domain name service.
DSCP
See differentiated services code point.
Dynamic Host
Configuration
Protocol (DHCP)
A client-server networking protocol. A DHCP server provides configuration
parameters specific to the DHCP client host requesting, generally, information required
by the host to participate on the Internet network. DHCP also provides a mechanism
for allocation of IP addresses to hosts.
demilitarized zone
(DMZ)
A buffer area between an insecure system and the secure system and is used to solve
the problem that the external network equipped with a firewall cannot access the
internal network server. The DMZ is located between the internal network and the
external network. In the DMZ, some public server facilities, such as the enterprise Web
server and FTP server, can be located. The DMZ effectively protects the internal
network.
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differentiated services
code point (DSCP)
According to the QoS classification standard of the Differentiated Service (Diff-Serv),
the type of services (ToS) field in the IP header consists of six most significant bits and
two currently unused bits, which are used to form codes for priority marking.
Differentiated services code point (DSCP) is the six most important bits in the ToS. It
is the combination of IP precedence and types of service. The DSCP value is used to
ensure that routers supporting only IP precedence can be used because the DSCP value
is compatible with IP precedence. Each DSCP maps a per-hop behavior (PHB).
Therefore, terminal devices can identify traffic using the DSCP value.
domain name service
(DNS)
A hierarchical naming system for computers, services, or any resource connected to the
Internet or a private network. It associates various information with domain names
assigned to each of the participants. The DNS distributes the responsibility of assigning
domain names and mapping those names to IP addresses by designating authoritative
name servers for each domain.
F
FXO
foreign exchange office
H
HTTPS
See Hypertext Transfer Protocol Secure.
Hypertext Transfer
Protocol Secure
(HTTPS)
An HTTP protocol that runs on top of transport layer security (TLS) and Secure
Sockets Layer (SSL). It is used to establish a reliable channel for encrypted
communication and secure identification of a network web server. For details, see
RFC2818.
I
IEEE
See Institute of Electrical and Electronics Engineers.
IP
Internet Protocol
IP Security (IPSec)
A protocol family defined by the Internet Engineering Task Force (IETF). By
authenticating and encrypting each IP packet of a data stream, this protocol family
provides high quality, interoperable, and cryptology-based security for IP packets.
IPSec
See IP Security.
IPv4
See Internet Protocol version 4.
Institute of Electrical
and Electronics
Engineers (IEEE)
A society of engineering and electronics professionals based in the United States but
boasting membership from numerous other countries. The IEEE focuses on electrical,
electronics, computer engineering, and science-related matters.
Internet Protocol
version 4 (IPv4)
The current version of the Internet Protocol (IP). IPv4 utilizes a 32bit address which is
assigned to hosts. An address belongs to one of five classes (A, B, C, D, or E) and is
written as 4 octets separated by periods and may range from 0.0.0.0 through to
255.255.255.255. Each IPv4 address consists of a network number, an optional
subnetwork number, and a host number. The network and subnetwork numbers
together are used for routing, and the host number is used to address an individual host
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within the network or subnetwork.
indicator
Description of a performance feature collected from the managed devices by the
performance collector.
L
LAN
See local area network.
local area network
(LAN)
A network formed by the computers and workstations within the coverage of a few
square kilometers or within a single building. It features high speed and low error rate.
Ethernet, FDDI, and Token Ring are three technologies used to implement a LAN.
Current LANs are generally based on switched Ethernet or Wi-Fi technology and
running at 1,000 Mbit/s (that is, 1 Gbit/s).
N
NAT
See Network Address Translation.
NTP
Network Time Protocol
Network Address
Translation (NAT)
An IETF standard that allows an organization to present itself to the Internet with far
fewer IP addresses than there are nodes on its internal network. The NAT technology,
which is implemented in a router, firewall or PC, converts private IP addresses (such as
in the 192.168.0.0 range) of the machine on the internal private network to one or more
public IP addresses for the Internet. It changes the packet headers to the new address
and keeps track of them via internal tables that it builds. When packets come back from
the Internet, NAT uses the tables to perform the reverse conversion to the IP address of
the client machine.
P
PBX
private branch exchange
POTS
See plain old telephone service.
PPPoA
Point-to-Point Protocol over ATM
PPPoE
Point-to-Point Protocol over Ethernet
PSTN
See public switched telephone network.
plain old telephone
service (POTS)
The basic telephone service provided through the traditional cabling such as twisted
pair cables.
public switched
telephone network
(PSTN)
A telecommunications network established to perform telephone services for the public
subscribers. Sometimes it is called POTS.
Q
QoS
See quality of service.
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quality of service
(QoS)
A commonly-used performance indicator of a telecommunication system or channel.
Depending on the specific system and service, it may relate to jitter, delay, packet loss
ratio, bit error ratio, and signal-to-noise ratio. It functions to measure the quality of the
transmission system and the effectiveness of the services, as well as the capability of a
service provider to meet the demands of users.
S
SIP
Session Initiation Protocol
U
UC
unified communication
URL
uniform resource locator
V
VLAN
virtual local area network
VPN
virtual private network
VoIP
See voice over IP.
voice over IP (VoIP)
An IP telephony term for a set of facilities used to manage the delivery of voice
information over the Internet. VoIP involves sending voice information in a digital
form in discrete packets rather than by using the traditional circuit-committed protocols
of the public switched telephone network (PSTN).
W
WAN
See wide area network.
WLAN
See wireless local area network.
wide area network
(WAN)
A network composed of computers which are far away from each other which are
physically connected through specific protocols. WAN covers a broad area, such as a
province, a state or even a country.
wireless local area
network (WLAN)
A hybrid of the computer network and the wireless communication technology. It uses
wireless multiple address channels as transmission media and carriers out data
interaction through electromagnetic wave to implement the functions of the traditional
LAN.
Huawei eSpace EGW1500E Enterprise Gateway
Compliance and Safety Manual
Issue 02
Date 2012-10-15
HUAWEI TECHNOLOGIES CO., LTD.
Issue (2012-11-20) Huawei Technologies Proprietary i
Copyright © Huawei Technologies Co., Ltd. 2012 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 purchased products, services and features are stipulated by the contract made between Huawei and
the customer. All or part of the products, services and features described in this document may not be
within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements,
information, and recommendations in this document are provided "AS IS" without warranties, guarantees or
representations of any kind, either express or implied.
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 Co., Ltd.
Address: Huawei Industrial Base
Bantian, Longgang
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Website: http://enterprise.huawei.com
Compliance and Safety Manual Contents
Issue (2012-11-20) Huawei Technologies Proprietary iii
About This Document
Intended Audience
This document describes Electromagnetic Compatibility (EMC) and other safety standards
compliance and information about the ESpace EGW1500E enterprise gateway.
This document provides the general safety guidelines for handling, installing or operating the
eSpace EGW1500E enterprise gateway.
This document is intended for:
Maintenance engineers
Technical support engineers
Installation engineers
Network planning engineers
Symbol Conventions
The symbols that may be found in this document 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, which if not
avoided, could result in equipment damage, data loss,
performance degradation, or unexpected results.
Indicates a tip that may help you solve a problem or save
time.
Provides additional information to emphasize or
supplement important points of the main text.
Contents
Compliance and Safety Manual
iv Huawei Technologies Proprietary Issue (2012-11-20)
Change History
Changes between document issues are cumulative. Therefore, the latest document issue
contains all the changes in previous issues.
Compliance and Safety Manual Contents
Issue (2012-11-20) Huawei Technologies Proprietary v
Contents
1 Regulatory Compliance Statement.........................................................................................1-1
2 Regulatory Compliance Information .....................................................................................2-2
2.1 Regulatory Compliance Standards ................................................................................................................2-3
2.2 European Directives Compliance..................................................................................................................2-5
2.3 USA Regulatory Compliance........................................................................................................................2-6
2.3.1 FCC Part 15..........................................................................................................................................2-6
2.3.2 FCC Part 68..........................................................................................................................................2-7
2.4 Canada Regulatory Compliance....................................................................................................................2-8
2.4.1 RSS-Gen & RSS-210 statement...........................................................................................................2-8
2.4.1 RSS-102 statement...............................................................................................................................2-8
2.5 CISPR 22 Compliance ..................................................................................................................................2-8
2.6 China RoHS hazardous substance table ........................................................................................................2-8
3 Safety Information.....................................................................................................................3-1
3.1 Basic Requirements.......................................................................................................................................3-2
3.2 Usage Notice.................................................................................................................................................3-2
3.3 Cleaning Notice.............................................................................................................................................3-3
3.4 Environment Protection.................................................................................................................................3-3
Compliance and Safety Manual Tables
Issue (2012-11-20) Huawei Technologies Proprietary vii
Tables
Table 2-1 Regulatory compliance standards.......................................................................................................2-3
Table 2-2 SOC, FIC and USOC information......................................................................................................2-7
Compliance and Safety Manual 1 Regulatory Compliance Statement
Issue (2012-11-20) Huawei Technologies Proprietary 1-1
1
Regulatory Compliance Statement
About This Chapter
This chapter provides the certification details for eSpace EGW1500E.
2 Regulatory Compliance Information
Compliance and Safety Manual
2-2 Huawei Technologies Proprietary Issue (2012-11-20)
2
Regulatory Compliance Information
About This Chapter
2.1 Regulatory Compliance Standards
2.2 European Regulatory Compliance
2.3 U.S.A Regulatory Compliance
2.4 Canada Regulatory Compliance
2.5 CISPR 22 Compliance
2.6 China RoHS hazardous substance table
Compliance and Safety Manual 2 Regulatory Compliance Information
Issue (2012-11-20) Huawei Technologies Proprietary 2-3
2.1 Regulatory Compliance Standards
eSpace EGW1500E comply with the standards listed in Table 2-1.
Table 2-1 Regulatory compliance standards
Discipline Standards
EMC
CISPR22 Class B
CISPR24
EN55022 Class B
EN50024
ETSI EN 301 489 Class B
CFR 47 FCC Part 15 Class B
ICES 003 Class B
AS/NZS CISPR22 Class B
GB9254 Class B
CNS 13438 Class B
IEC61000-3-2
IEC61000-3-3
EN61000-3-2
EN61000-3-3
Safety
IEC 60950-1
EN 60950-1
UL 60950-1
CSA C22.2 No 60950-1
AS/NZS 60950.1
BS EN 60950-1
GB4943
Telecom
FCC Part68(CFR47)
IC CS-03
RF
ETSI EN 300 328(for 2.4 GHz WLAN product)
CRF47 FCC Part15 Subpart C
RSS-GEN
RSS-210
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Discipline Standards
Health
ICNIRP Guideline
1999-519-EC
EN 62311
OET Bulletin 65
IEEE Std C95.1
RSS-102
Environmental protection
2002/95/EC & 2011/65/EU (RoHS)
EC NO. 1907/2006 (REACH)
2002/96/EC (WEEE)
Note:
EMC: electromagnetic compatibility
NEBS: Network Equipment Build Standard
RF: radio frequency
CISPR: International Special Committee on Radio Interference
EN: European Standard
ETSI: European Telecommunications Standards Institute
CFR: Code of Federal Regulations
FCC: Federal Communication Commission
IEC: International Electrotechnical Commission
AS/NZS: Australian/New Zealand Standard
VCCI: Voluntary Control Council for Interference
CNS: Chinese National Standard
UL: Underwriters Laboratories
CSA: Canadian Standards Association
BS: British Standard
IS: Indian Standard
GR: general requirement
FDA: Food and Drug Administration
BTS: base transceiver station
GSM: Global System for Mobile communications
WLAN: wireless local area network
ICNIRP: International Commission on Non-Ionizing Radiation Protection
OET: Office of Engineering Technology
IEEE: Institute of Electrical and Electronics Engineers
RoHS: restriction of the use of certain hazardous substances
Compliance and Safety Manual 2 Regulatory Compliance Information
Issue (2012-11-20) Huawei Technologies Proprietary 2-5
2.2 European Directives Compliance
eSpace EGW1500E complies with the following European directives and regulations.
2004/108/EC (EMC)
2006/95/EC (low voltage)
1999/5/EC (R&TTE)
2002/95/EC & 2011/65/EU (RoHS)
EC NO. 1907/2006 (REACH)
2002/96/EC (WEEE)
eSpace EGW1500E complies with Directive 2002/95/EC, 2011/65/EU and other similar
regulations from the countries outside the European Union, on the RoHS in electrical and
electronic equipment. The device does not contain lead, mercury, cadmium, and hexavalent
chromium and brominated flame retardants (Polybrominated Biphenyls (PBB) or
Polybrominated Diphenyl Ethers (PBDE)) except for those exempted applications allowed by
RoHS directive for technical reasons.
Product complies with Regulation EC NO. 1907/2006 (REACH) and other similar regulations
from the countries outside the European Union. Huawei will notify to the European Chemical
Agency (ECHA) or the customer when necessary and regulation requires.
Product complies with Directive 2002/96/EC on waste electrical and electronic equipment
(WEEE). Huawei is responsible for recycling its end-of-life devices, and please contact
Huawei local service center when recycling is required. Huawei strictly complies with the EU
Waste Electrical and Electronic Equipment Directive (WEEE Directive) and electronic waste
management regulations enacted by different countries worldwide. In addition, Huawei has
established a system for recycling and reuse of electronic wastes, and it can provide service of
dismantling and recycling for WEEE. By Huawei recycling system, the waste can be handled
environmentally and the resource can be recycled and reused fully, which is also Huawei
WEEE stratagem in the word. Most of the materials in product are recyclable, and our
packaging is designed to be recycled and should be handled in accordance with your local
recycling policies.
In accordance with Article 11(2) in Directive 2002/96/EC (WEEE), products were marked
with the following symbol: a cross-out wheeled waste bin with a bar beneath as below:
2 Regulatory Compliance Information
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2-6 Huawei Technologies Proprietary Issue (2012-11-20)
2.3 USA Regulatory Compliance
2.3.1 FCC Part 15
2.3.2 FCC Part 68
2.3.1 FCC Part 15
eSpace EGW1500E complies with Part 15 of the FCC Rules. Operation is subject to the
following two conditions:
This device does not cause harmful interference.
This device must accept any interference received, including interference that may cause
undesired operation.
If this device is modified without authorization from Huawei, the device may no longer
comply with FCC requirements for Class B digital devices. In that a case, your right to use the
device may be limited by FCC regulations. Moreover, you may be required to correct any
interference to radio or television communications at your own expense.
This device has been tested and found to comply with the limits for a Class B digital device,
pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation.
This device generates, uses and radiates radio frequency energy. If it is not installed and used
in accordance with the instructions, it may cause harmful interference to radio
communications.
However, there is no guarantee that interference will not occur in a particular installation. If
this device does cause harmful interference to radio or television reception, which can be
determined by turning the device off and on, the user may take one or more of the following
measures:
Reorient or relocate the receiving antenna.
Reinforce the separation between the device and receiver.
Connect the device into an outlet on a circuit different from that to which the receiver is
connected.
Consult the dealer or an experienced radio or TV technician for assistance.
This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled
environment. This transmitter must not be co-located or operating in conjunction with any
other antenna or transmitter. This equipment should be installed and operated with a minimum
distance of 20 centimeters between the radiator and your body.
The manufacturer is not responsible for any radio or TV interference caused by unauthorized
modifications to this equipment. Such modifications could void the user authority to operate
the equipment.
Compliance and Safety Manual 2 Regulatory Compliance Information
Issue (2012-11-20) Huawei Technologies Proprietary 2-7
2.3.2 FCC Part 68
eSpace EGW1500E complies with Part 68 of the FCC rules and the requirements adopted by
the Administrative Council on Terminal Attachments (ACTA). On the bottom of the chassis is
a label that contains, among other information, the FCC registration number and ringer
equivalence number (REN)
for this equipment
. On request, this number must be provided to
the telephone company.
Table 2-3 lists the service order code (SOC), facility interface code (FIC) and Universal
Service Order Code (USOC).
Table 2-2 SOC, FIC and USOC information
Interface Type SOC FIC Jack Type (USOC)
ADSL Metallic RJ-11C
FXO 9.0F 02LS2 RJ-11C
eSpace EGW1500E that bears labeling identification complies with:
FCC Rules and Regulations 47 CFR Part 68
TIA/EIA/IS-968, Technical Criteria for Terminal Device to Prevent Harms to the
Telephone Network, July 2001, as adopted by the ACTA.
A plug and jack used to connect this device to the premises wiring and telephone network
must comply with the FCC Part 68 rules and requirements adopted by the ACTA. A compliant
telephone cord and modular plug are provided with this device. The plug is designed to
connect to a compatible modular jack that is also compliant with the applicable FCC Part 68
rules and requirements.
The REN is used to determine the number of devices that may be connected to a telephone
line. Excessive RENs on a telephone line may result in the devices not ringing in response to
an incoming call. In most areas, the sum of RENs should not exceed five (5.0). To be certain
of the number of devices that may be connected to a line, as determined by the total RENs,
contact the local telephone company.
If this device causes harm to the telephone network, the telephone company will notify you in
advance that temporary discontinuance of service may be required. If advance notice is not
practical, the telephone company will notify the customer as soon as possible. In this case,
you will be advised of your right to file a complaint with the FCC.
The telephone company may make changes in its facilities, device, operations or procedures
that could affect the operation of the device. If this happens, the telephone company will
provide advance notice so that you make necessary modifications to maintain uninterrupted
service.
If this device causes any trouble, contact Futurewei Technologies,Inc for repairs or warranty
information. If the device causes harm to the telephone network, the telephone company may
request that you disconnect the device until the problem is resolved.
Connection to party-line service is subject to state tariffs. Contact the state public utility
commission, public service commission, or corporation commission for information.
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2-8 Huawei Technologies Proprietary Issue (2012-11-20)
2.4 Canada Regulatory Compliance
2.3.1 RSS-GEN and RSS-210
2.3.2 RSS-102
2.4.1 RSS-Gen & RSS-210 statement
This device complies with Industry Canada licence-exempt RSS standard(s).
Operation is subject to the following two conditions: (1) this device may not cause
interference, and (2) this device must accept any interference, including interference that may
cause undesired operation of the device.
2.4.1 RSS-102 statement
This equipment complies with IC radiation exposure limits set forth for an uncontrolled
environment. This equipment should be installed and operated with minimum distance 20cm
between the radiator and your body.
2.5 CISPR 22 Compliance
eSpace EGW1500E complies with CISPR 22 for Class B by the ITE.
2.6 China RoHS hazardous substance table
This products described in this guide complies with the Chinese RoHS
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物质
质质
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元素
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Frame 〇 ╳ 〇 〇 〇 〇
Alloy Parts 〇 ╳ 〇 〇 〇 〇
Power Adapter 〇 ╳ 〇 〇 〇 〇
Metal Fittings 〇 〇 〇 〇 〇 〇
PCBA 〇 ╳ 〇 〇 〇 〇
Capacitor 〇 ╳ 〇 〇 〇 〇
Other electronics 〇 ╳ 〇 〇 〇 〇
Compliance and Safety Manual 2 Regulatory Compliance Information
Issue (2012-11-20) Huawei Technologies Proprietary 2-9
Screen 〇 〇 〇 〇 〇 〇
Solder 〇 ╳ 〇 〇 〇 〇
Cable ╳ ╳ 〇 〇 〇 〇
Plastic and Polymer 〇 ╳ 〇 〇 〇 ╳
Label 〇 〇 〇 〇 〇 〇
Battery 〇 〇 〇 〇 〇 〇
Compliance and Safety Manual 3 Safety Information
Issue (2012-11-20) Huawei Technologies Proprietary 3-1
3
Safety Information
About This Chapter
Pay attention to following precautions when installing and using the device.The following
table lists the contents of this chapter.
Title Description
3.1 Basic Requirement Information about the basic requirement
3.2 Usage Notice Information about the usage notice
3.3 Clean Notice Information about the clean notice.
3.4 Environment Protection Information about the environment protection
3 Safety Information
Compliance and Safety Manual
3-2 Huawei Technologies Proprietary Issue (2012-11-20)
3.1 Basic Requirements
Keep the device dry when storing, transporting, and using the device.
Take care to avoid collision when storing, transporting, and using the device.
The installation instructions provided should be followed.
In the event of a fault, contact the maintenance personnel. Do not open the device.
Any company or person cannot change the design of the structure or security without permission.
Any changes to the device must be carried out by an authorized and suitably qualified person with the
permission of manufacturer.
This device must be used in compliance with the legal and regulatory requirements of the country in
which it is being used. Please respect the legal rights of others when using this device.
3.2 Usage Notice
This device should be installed by a suitably qualified person.
The device must be far away from heat sources. Do not place any objects on the device. Ensure that the
heat dissipation vents on are not blocked.
DO NOT Drop the device from a height of 80 cm or greater; this may damage the device.
In the event of an electrical storm / lightning, turn off the power to the device and remove cables to avoid
damage to the device.
All the phone cables are only used indoors, or the lightning may damage the device.
Keep the power plug clean and dry to avoid risk of electric shock and other potential risk.
Use the power supply adapter provided with this product.
When using this device with mains power, the power socket should be located close to the device and
should be easily accessible.
Keep your hands dry when plugging in or out the device cable.
When the device is not in use, the power should be turned off and the mains power cable should be
disconnected from the mains supply.
Keep water and other liquids away from the device. In the event of liquid coming into contact with the
device, disconnect from the power immediately. Remove all cables, including network connections and
power cables and contact your maintenance personnel.
Never use damaged or old cables.
In the event of unusual behavior, such as smoke emitting from the device, unusual noises or smells,
disconnect from the mains power supply immediately, remove all the cables connected to the device and
contact an authorized maintenance personnel.
Care should be taken to prevent foreign objects from entering the device, with particular attention being
paid to the heat dissipation hole.
Please keep this device and accessories away from children.
The antennas and 3G USB label used for this device must be installed to provide a safety distance of at
least 20 cm from all persons.
Compliance and Safety Manual 3 Safety Information
Issue (2012-11-20) Huawei Technologies Proprietary 3-3
Do not use the device where use of wireless devices is prohibited or may cause interference or danger
such as hospitals.
The radio waves generated by the device may interfere with the operation of electronic medical devices.
Use electrical medical device under the guidance of the professionals or contact its manufacturer for the
restrictions on the use of the device.
3.3 Cleaning Notice
Before cleaning, the device should be shut down and disconnected from the mains power supply,
removing all power and network cables.
Clean using a soft, dry cloth. Do not use liquid or aerosol cleaners on this device.
3.4 Environment Protection
Please comply to all legal and environmental requirements when disposing of obsolete devices and
packaging.