4 IP Network Interface Series 3 Card


Overview

Purpose

The document describes the IP Network Series 3 card including:

• Description

• Benefits to Customer

• Comparison of IPN-2 and IPN-3 Cards

• IP Network Interface Series 3 Voice Coder Packet Rate Information

• Software Requirements

• Obtaining Additional Software Fault Log Information

Description

The IP Network Interface Series 3 line card (hereafter referred to as the IPN-3 card) is the third generation IP Network card in the CSP product line. The following were the first two versions:

• VDAC-ONE card

• IP Network Interface Series 2 (hereafter referred to as the IPN-2 card)

Refer to Comparison of IPN-2 and IPN-3 Cards.

Backward Compatible

Functionally, the IPN-3 card is very similar to the IPN-2 card. Beside some minor differences to a few OAM messages, the IPN-3 interfaces (internally and externally) are backward compatible with the IPN-2 card.

New VoIP Module

The IPN-3 has a new VoIP Module using the Mindspeed Picasso DSP Chips. There are some changes to the VoIP profiles that are described in the section, Comparison of IPN-2 and IPN-3 Cards

New Physical Network Architecture

On the IPN-2 there are three Ethernet ports configured as a Link Aggregation Group (LAG) allowing a 300 Mbps pipes. The IPN-3 provides six Ethernet ports:

• two dedicated to a segregated control network

• four dedicated to a public network

Only two ports need to be trunked because the maximum bandwidth needed does not exceed 200 Mbps (about two DS3 worth of G.711).

Benefits to Customer

The following are benefits to migrating to the IPN-3 card:

• SwitchKit customers who replace their IPN-2 card with the IPN-3 card will not have to re-write their applications because the IPN-3 card is backward compatible. (Customers who do not use SwitchKit have to code the new board ID in their applications.)

• The IPN-3 has a more powerful CPU and more memory than the
IPN-2 card. Refer to Comparison of IPN-2 and IPN-3 Cards for the details.

• The IPN-3 binds a logical span/channel to a specific module so when a DSP fails the L4 channels can stay out of service which prevents further problems. To support this feature, the physical span offsets on the IPN-3 card is associated with a module. You assign the first eight spans (or 16 depending on the profile) to the first module and then assign the next eight (or 16) spans to the second module.