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The crossed-out wheeled bin symbol on this electric or electronic equipment, or on its
packaging, indicates that, at the end of its life, it must not be disposed of as unsorted
household waste. Instead it must be separately collected.
As a consumer you must, therefore, use the specific collection schemes and, in partic-
ular, the municipal collection schemes provided for waste electrical and electronic
equipment.
The separate collection and appropriate treatment of the equipment at the time of dis-
posal helps to conserve natural resources and to ensure that it is recycled in a manner
that protects human health and the environment from materials, components and sub-
stances that can be dangerous to the environment and harmful to human health.
Furthermore, the separate collection and appropriate treatment of the equipment, at
the time of disposal, facilitates its possible reuse or possible materials recovery.
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IP Addressing
The Internet Protocol Suite
The Internet protocol suite consists of a well-defined set of communications protocols and several standard
application protocols. Transmission Control Protocol/Internet Protocol (TCP/IP) is probably the most widely
known and is a combination of two of the protocols (IP and TCP) working together. TCP/IP is an internationally
adopted and supported networking standard that provides connectivity between equipment from many vendors
over a wide variety of networking technologies.
Managing the Router over the NetworK
To manage a device over the network, the Router must be correctly configured with the following IP information:
An IP address
A Subnet Mask
IP Addresses and Subnet Masks
Each device on your network must have a unique IP address to operate correctly. An IP address identifies the
address of the device to which data is being sent and the address of the destination network. IP addresses have
the format n.n.n.x where n is a decimal number between 0 and 255 and x is a number between 1 and 254 inclu-
sive.
However, an IP Address alone is not enough to make your device operate. In addition to the IP address, you
need to set a subnet mask. All networks are divided into smaller sub-networks and a subnet mask is a number
that enables a device to identify the sub-network to which it is connected.
For your network to work correctly, all devices on the network must have:
The same sub-network address.
The same subnet mask.
The only value that will be different is the specific host device number. This value must always be unique.
An example IP address is ‘192.168.10.8’. However, the size of the network determines the structure of this IP
Address. In using the Router, you will probably only encounter two types of IP Address and subnet mask struc-
tures.
Type One
In a small network, the IP address of ‘192.168.10.8’ is split into two parts:
Part one (‘192.168.10’) identifies the network on which the device resides.
Part two (‘.8’) identifies the device within the network.
This type of IP Address operates on a subnet mask of ‘255.255.255.0’.
Type Two
B
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In larger networks, where there are more devices, the IP address of ‘192.168.10.8’ is, again, split into two parts
but is structured differently:
Part one (‘192.168’) identifies the network on which the device resides.
Part two (‘.10.8’) identifies the device within the network.
This type of IP Address operates on a subnet mask of ‘255.255.0.0’.
How does a Device Obtain an IP Address and Subnet Mask?
There are three different ways to obtain an IP address and the subnet mask. These are:
Dynamic Host Configuration Protocol (DHCP) Addressing
Static Addressing
Automatic Addressing (Auto-IP Addressing)
DHCP Addressing
The Router contains a DHCP server, which allows computers on your network to obtain an IP address and sub-
net mask automatically. DHCP assigns a temporary IP address and subnet mask which gets reallocated once
you disconnect from the network.
DHCP will work on any client Operating System. Also, using DHCP means that the same IP address and subnet
mask will never be duplicated for devices on the network. DHCP is particularly useful for networks with large
numbers of users on them.
Static Addressing
You must enter an IP Address and the subnet mask manually on every device. Using a static IP and subnet
mask means the address is permanently fixed.
Auto-IP Addressing
Network devices use automatic IP addressing if they are configured to acquire an address using DHCP but are
unable to contact a DHCP server. Automatic IP addressing is a scheme where devices allocate themselves an
IP address at random from the industry standard subnet of 169.254.x.x (with a subnet mask of 255.255.0.0). If
two devices allocate themselves the same address, the conflict is detected and one of the devices allocates
itself a new address. Automatic IP addressing support was introduced by Microsoft in the Windows 98 operating
system and is also supported in Windows 2000 and Windows XP.
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Technical Specifications
This section lists the technical specifications for the
DISCUS™ Multiplay Wireless VoIP AG
.
Interfaces/Standard
WAN Interface
N°1 Line port (RJ-11plug, inner pair) supporting the following standards:
- ADSL (G.992.1, G992.2, T1.413, G994.1, G.997.1)
- ADSL2 (G.992.3)
- ADSL2+ (G992.5)
Annex A/Annex B are available in different product version
LAN Interface
- N° 4 10/100BASE-T Ethernet ports (RJ-45 plug), compliant IEEE 802.3, with auto MDIX
and auto-negotiation
- Ports can be configured in order to be dedicated to video traffic to/from a STB
- N° 1 USB Host v.2.0
- N° 1 USB Device v1.1
Wireless LAN
Interface
Wi-Fi access point solution is compliant with the following standards:
- IEEE 802.11b/g (MiniPCI for an easy upgrade to 811.11n technology)
- WPA/WPA2 (IEEE 802.11i)
- WMM (IEEE 802.11e)
- N°2 external antennas
Voice Interface
- N°2 FXS Phone port (RJ11 Plug)
- N°1 FXO Phone port (RJ11 Plug)
DSL (ATM)
Features
- AAL5 (ITU-T I.363.5)
- UBR, VBR-nrt, VBR-rt, CBR traffic classes
- Multiple VC/PPP connections
- Classic IP (CLIP) and ARP over ATM, RFCs 1577, 2225
- Multiple PPPoE connections on a single VC
- Multi-protocol encapsulation over AAL5 bridging and routing, RFCs 1483, 268
- PPP over AAL5 (PPPoATM), RFC 2364
- OAM (ITU-T I.610)
– F4, F5
– Loop-back
- Encapsulation modes in ATM stack: LLC and VC-Mux
C
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Routing/Bridging
Routing:
- Static routing
- RIPv1, RIPv2
- IP Multicasting – IGMP v2, v3
Bridge:
- WAN-LAN transparent bridging
- Transparent bridging between LAN devices
- Automatic discovery of MAC addresses
- Spanning tree protocol
NAT
- NAT-NAPT, RFCs 3022
- Static NAT
- Static NAPT
- Application Level Gateway (ALGs) modules
QoS
- ATM QoS: UBR, VBR-nrt, VBR-rt, CBR
- 802.1P/Q prioritization
- Diffserv (RFC2474, RFC2475) marking and queuing according to connection type, network
interface, MAC, IP, hostname, DSCP/ToS value, port number and application
- Port based QoS
Voice Over IP
Codecs:
G.711 a-law/μ-law, G.729(*) , G.726(*), G.723 (*)
Codecs Control:
- RTP/RTCP, RFC 1889
- SDP, RFC 2327
- RTP payload for DTMF digits RFC 2833
Voip stacks supported:
- SIP/SIPv2
- MGCP
- H323
VoIP QoS:
- Layer 3 QoS: control ToS and DSCP for VoIP RTP
- Prioritization of voice over data at the network stack
(*) optional to be quoted a part

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