Alcatel-Lucent MDR-8000 User Manual

9

Alcatel-Lucent | MDR-8000 Packet Plus

Flexible Ethernet Options
Having established its reliability,

scalability, and versatility in

delivering TDM traffic, the MDR-

8000 Packet Plus is also poised for

the next wave of network migration.

With the industry-wide migration

to IP data networks, carriers are

requiring innovative ways to bridge

the gaps between their legacy

networks and the packet-based

networks of the future. The MDR-

8000 Packet Plus Ethernet interface

utilizes the same RF and common

modules as the TDM versions of the

radio, operating in all the same

frequency bands and virtually

identical bandwidths.

The Ethernet interface supports

10/100/1000 Base-T transport, with

a possible combined data throughput

of 300 Mb/s in a single shelf. The

Ethernet I/O card offers RJ45

electrical and SFP optical inputs,

both of which are auto-sensing. In

addition, the Ethernet interface

supports a variety of bandwidth

choices which enables users to tailor

the radio to meet facility and data

transport requirements of today and

tomorrow.

The Ethernet interface of the

MDR-8000 Packet Plus also allows

users to gracefully migrate their

network services from TDM to

Ethernet with no equipment

changeout. Up to 32 DS1s (48

Mb/s) can be individually and

dynamically provisioned to carry

TDM traffic alongside the Ethernet

bandwidth. As TDM services get

converted to IP over time, each

of the TDM-based DS1s can be

deprovisioned individually, allowing

that bandwidth to be recaptured as

part of the Ethernet bandwidth.

Provisioning (or deprovisioning)

can be done in-service, with no

disruption to other DS1 or Ethernet

traffic on the radio.

Unlike standard TDM radios, the

Ethernet version of the MDR-8000

Packet Plus offers input/output

(I/O) provisioning options and

operating modes uniquely developed

to support packet data transport:

■

A Only – Nonstandby

While the most cost-effective

method of transporting Ethernet,

this operating mode provides no

Ethernet port or radio link

protection.

■

A Only – Hot Standby

This operating mode provides

radio link protection, but does not

provide Ethernet port protection.

This mode would be used when

the operator desires link

protection, but cannot support

redundant interfaces in the

Ethernet device connected to the

MDR-8000 Packet Plus.

■

A & B Switched – Hot

Standby

By making use of the Ethernet

Port Switching capabilities of the

MDR-8000 Packet Plus, this

mode provides both Ethernet port

and radio link protection.

■

A & B Summed – Hot

Standby

This operating mode utilizes

the Ethernet Port Aggregation

capabilities of the radio and

combines two data sources over

a single RF link.

■

A & B Separate – Dual

Channel

The dual channel configuration

uses the same hardware as a

frequency diversity configuration

in a TDM version of the radio.

It provides two separate RF

channels from a single shelf. The

A & B Separate operating mode

can support a combined data

throughput of 300 Mb/s in a

single shelf. However, if one of

the RF channels failed, half of the

data would be lost, although the

DS1s would still be protected.

■

A & B Summed – Dual

Channel

This mode also makes use of

the Ethernet Port Aggregation

capabilities of the radio. When

the radio is operating in normal

mode without failures, it operates

in a similar manner as the A & B

Separate – Dual Channel. The A

& B Summed mode also supports

a combined data throughput of

300 Mb/s in a single shelf. In this

configuration, the full 300 Mb/s

radio bandwidth is available to

either Ethernet input to handle

traffic bursts. In addition, if one

of the RF channels fails, the data

is summed onto the remaining

working channel and the

throughput of the shelf falls back

to a combined total of 150 Mb/s.

The DS1s are always protected.