Understanding ISDN

which provides access to 23 B-channels in North America and Japan and 30 B-channels in Europe and most of Asia, and a 64 Kbps D-channel in both.

Basic Rate Interface

The XSR’s BRI NIM provides two BRI ports. Each port has two 64 Kbps B-channels and one 16 Kbps D-channel. BRI is configured on the XSR by interface bri sub-commands.

Primary Rate Interface

ISDN PRI is provisioned over T1 service in North America and Japan and includes one 64 Kbps D- channel and 23 B-channels, and over E1 service includes 30 B-channels in most other parts of the world.

The number of B-channels is limited by the size of the standard trunk line used in the region; T1 in North America and Japan and E1 most everywhere else. Unlike BRI, PRI does not support a bus configuration, and only one device can be connected to a PRI line - point-to-point service.

A single PRI connection is usually much less expensive than obtaining the equivalent number of B-channels through multiple BRI connections. BRI and PRI are used for the same applications, only the number of channels differ. PRI is configured on the XSR by controller t1/e1 sub- commands.

B-Channels

The XSR’s B-channels are 56 or 64 Kbps “pipes” also known as DSOs. B-channels typically form circuit-switched connections. Just like a telephone connection, a B-channel connection is an end- to-end physical circuit that is temporarily dedicated to transferring data between two devices. The circuit-switched nature of B-channel connections, combined with their reliability and relatively high bandwidth, makes ISDN suitable for a range of applications including video, fax, and data. They can be used to transfer any Layer 2 or higher protocols across a link. The XSR employs PPP or Multilink PPP over the switched BRI or PRI connections. For more information, refer to the PPP and MLPPP chapters in this manual.

The router’s B-channels can also be configured as permanent or nailed-upconnections which are always up, as a leased-line application similar to the channelized T1/E1 application.

D-Channel

The XSR’s D-channel is used for signaling, such as instructing the ISDN carrier to set up or tear down a call along a B-channel, to ensure that a B-channel is available to receive an incoming call, or to provide the signaling information that is required for such features as caller identification. The D-channel uses packet-switched connections, which are best adapted to the intermittent but latency-sensitive nature of signaling traffic, thus accounting for the vastly reduced call setup time of 1 to 2 seconds on ISDN calls (vs. 10 to 40 seconds using an analog modem).

Unlike the B-channel, which functions as a simple pipe for user data, the D-channel is associated with higher level protocols, Layer 2: Q.921 and 3: Q.931 of the OSI model.

Q.931 is the call-control protocol component of this definition, although various carriers tend to use variants. This Layer 3 signaling protocol is transferred on the D-channel using Link Access Procedure-D-channel (LAPD): Q.921, a Layer 2 HDLC-like protocol.

XSR User’s Guide 11-3

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Enterasys Networks X-PeditionTM manual Basic Rate Interface, Primary Rate Interface, Channels