Route transfer unit (rtu), 2.6. route transfer unit (rtu), Sagem 3p@c – Sagem 4450E User Manual

SAGEM 3P@C

3P@C Installation Manual

Page 2-23

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1.1.1.28

1.1.1.28

1.1.1.28

1.1.1.28

Interface features of the DS-4ITX module

Table 2-20 Interface features of the DS-4ITX module

Module
type

Quantity of
interfaces

Interface
type

Interface
attributes

Fiber
specifications

Transmission
distance

DS-4ITX

4

RJ-45

10/100Base
-TX

Category-3/4/5
shielded/unshiel
ded twisted
pairs

100m

2.6.

2.6.

2.6.

2.6. Route Transfer Unit (RTU)

At present, some special application modes of 3P@C 4450E need to be supported by the RTU,
including the non-PPPoE packet filtering and user name binding in the L2 PPPoE transparent
transmission mode.

With the board structure, the RTU is composed of such components as chips, crystal
oscillators and resistance-capacitance devices. It does not provide any external interface. It
is installed on the SMUB (see Section 4.4.2 for its installation) and connected to the socket
on the SMUB via the pins on the board to provide the L3 routing and flow table functions. Its
structure is shown in the following figure.

Table 2-21 Structure of the RTU

Screw

hole

Front face

Rear face

Connection

socket

The RTU is optional. You may use it as required.

„

When 3P@C 4450E uses the 100M electrical interface uplink interface module,
though the RTU routing function can be provided, the L2 application mentioned
above will be limited. To perfectly support the L2 application, it is necessary to add
the RTU.

„

When 3P@C 4450E uses the gigabit electrical interface uplink interface module, the
L2 application mentioned above can be implemented without using the RTU.

When 3P@C 4450E uses the ATM interface uplink interface module, the RTU must be adopted so as

to provide the L2 application function mentioned above and the L3 function.