Basic rate interface

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Basic rate interface (BRI, 2B+D, 2B1D) is an Integrated Services Digital Network (ISDN) configuration defined in the physical layer standard I.430 produced by the ITU. This configuration consists of two 64 kbit/s "bearer" channels (B channels) and one 16 kbit/s "data" channel (D channel). The B channels are used for voice or user data, and the D channel is used for any combination of: data, control/signalling and X.25 packet networking. The two B channels can be bonded together giving a total data rate of 128 kbit/s. BRI is the kind of ISDN interface most likely to be found in residential service.

The I.430 protocol defines 48-bit packets comprising 16 bits from the B1 channel, 16 bits from B2 channel, 4 bits from the D channel, and 12 bits used for synchronization purposes. These packets are sent at a rate of 4 kHz, giving the data rates listed above for a maximum possible throughput of 144 kbit/s.

Two modulation methods are used to deliver U-Interface signals over an ordinary copper pair: 2B1Q in North America, and 4B3T elsewhere.

Contents

[edit] 2B1Q line coding

Main article: 2B1Q


2B1Q coding is the standard used in North America. 2B1Q means that two bits are combined to form a single Quaternary line state (symbol). 2B1Q combines two bits at a time to be represented by one of four signal levels on the line. The signal rate, therefore, is 80 kilobaud and the line rate 160 Kbit/s. It operates with a maximum frequency range (bandwidth) of 40 kHz.

2B1Q coding is defined in ANSI T1.601 and ETR 080, Annex A. It can operate at distances up to about 18,000 feet (5.5 km) with loss up to 42 dB. An internal termination impedance of 135 ohms is presented to the line at each end of the U-interface. Echo cancellation techniques allow full-duplex operation on the line.

2B1Q transmission can be simply described as an amplitude modulation scheme for DC pulses.

[edit] 4B3T line coding

Main article: 4B3T

4B3T is a standard used in Europe and elsewhere in the world. 4B3T is a "block code" that uses Return-to-Zero states on the line. 4B3T converts each group of 4 data bits into 3 "ternary" line signal states (3 symbols). The symbol rate is 3/4ths of the data rate (120 kbaud).

4B3T is defined in ETR 080, Annex B and other national standards, like Germany's 1TR220. 4B3T can be transmitted reliably at up to 4.2 km over 0.4 mm cable or up to 8.2 km over 0.6 mm cable. An internal termination impedance of 150 ohms is presented to the line at each end of the U-interface. Echo cancellation techniques allow full-duplex operation on the line.

In 4B3T coding, there are three states presented to line: a positive pulse (+), a negative pulse (-), or a zero-state (no pulse: 0). An analogy here is that operation is similar to B8ZS or HDB3 in T1/E1 systems, except that there is an actual gain in the information rate by coding 16 possible binary states to one of 27 ternary states.

There are many ways to perform this conversion, but BRI standards define a code known as MMS43 (Modified Monitoring State 43).

One of the requirements for line transmission is that there should be no DC build-up on the line, so there are some code substitutions based upon the transmission of the previous bits. These are indicated in the lower half of the table above. The next state (S1 - S4) to be transmitted is indicated in the column labeled Go. In the table above, the left-most bits and pulses are transmitted first.

[edit] Physical interfaces

In ISDN technology there are three main types of interfaces for ISDN Basic Rate interface:

[edit] References

This article was originally based on material from the Free On-line Dictionary of Computing, which is licensed under the GFDL.

[edit] See also