8 switching timeslots between lius, 1 switching model, Switching timeslots between lius 4.8.1 – Dialogic DSI SS7MD User Manual

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4 Dialogic® DSI SS7MD Board Configuration and Operation

4.8

Switching Timeslots between LIUs

The Dialogic DSI SS7MD Boards support multiple T1/E1/J1 Line Interface Units (LIUs). The onboard signaling
processor handles the SS7 signaling timeslots, while the remaining circuits (voice or data bearer circuits) are
switched to another onboard LIU for distribution to other boards.

Communication between the application and the board is message-based. Initial configuration is typically
handled by the s7_mgt protocol configuration utility that takes commands from the config.txt protocol
configuration file and generates the necessary configuration messages for the board. Subsequent operation
is entirely message driven, with messages being passed in both directions between the board and the
application.

One of the roles of the application is to control the dynamic switching between LIUs. This section provides
details of how to interface with the cross connect switch, including the initial (static) configuration and the
subsequent (dynamic) switching. The operation of the switching interface is described in terms of the SCbus
switching model using:

•

MVD_MSG_SC_DRIVE_LIU

and

MVD_MSG_SC_LISTEN

messages

•

LIU_SC_DRIVE

,

SCBUS_LISTEN

, and

STREAM_XCON

config.txt commands

4.8.1

Switching Model

The basic switching model assumes that at system initialization all incoming T1/E1/J1 timeslots and all
resource board output timeslots are connected to channels on the cross connect switch and that these
connections are never changed. This scheme has the advantage that once the cross connect switch drivers
have been set up, they are never changed, reducing the chances of inadvertently causing switch conflict. It
also means that the user can predict the exact switch channels where any input timeslot can be located,
which in turn can assist with fault diagnosis and general system test.

Having completed system initialization, drives to the switch are set up. Then, on a dynamic (call-by-call)
basis, the connectivity must be modified when a new call arrives and when it finishes.

When a new call arrives, typically the application will need to initiate two listen commands as follows:

•

One command causes the resource to listen to the appropriate switch channel to hear the incoming voice
path.

•

The other command causes the T1/E1/J1 interface to listen to the output from the resource board to
generate the outgoing voice path.

Figure 1

shows the function of the commands.

Figure 1. Switch Connections

Switch