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T1 and E1 Overview

Page 33-2

T1 and E1 Overview

Carrier digital services were designed primarily to support digitized voice over long distances.

Digital services are the primary method for carrying voice between two endpoints using two

pairs of copper wire. Digital wide-area data networking uses the same digital services that

were originally designed for digitized voice.

Analog to Digital Conversion

To improve quality and reliability, long-distance phone networks upgraded their backbones

from analog Frequency Division Multiplexing (

FDM) to digital Time Division Multiplexing

(TDM). In TDM, analog data is converted to digital data using a CODEC device that employs a

method called Pulse Code Modulation (PCM).

In Pulse Code Modulation, the

CODEC samples the analog signal 8,000 times a second and

converts each sample to an 8-bit digital value. These 8,000 8-bit samples yield a total digital

data rate of 64,000 BPS for one voice service. This service is also known as Digital Service

Zero (DS0), which is the basis for T1 and E1 connections.

These 8,000 8-bits in time are also known as a time slot. A channel is a time slot that can

carry voice or data. Using Time Division Multiplexing,

24 channels (for T1) or 32 channels (for

E1) are multiplexed to create a service called Digital Service 1 (DS1). The more common name

for DS1 is T1 or E1.

T1 Framing

A T1 frame consists of 24, 8-bit time slots and a 1-bit synchronization and control bit. Twelve

(12) T1 frames can be grouped into a SuperFrame (SF/D4), or 24 T1 frames can be grouped

into an Extended SuperFrame. In each SuperFrame, the 6th and 12th frame may contain

“robbed bit” (A, B) signalling, which means the least significant bit is robbed from each time

slot in the 6th and 12th frame and used for signalling. In Extended SuperFrames, this robbed-

bit signalling (A, B, C, D) occurs in the 6th, 12th, 18th, and 24th frames.

E1 Framing

The E1 frame consists of 32, 8-bit time slots (two of these time slots are used for synchroniza-

tion and multiframe signalling) for 256 bits per frame at 2.048 megabits per second. Sixteen

(16) E1 frames are grouped into a multiframe. An E1 multiframe can use Channel Associated

Signalling (

CAS) contained in time slot 16. Timeslot 16 in multiframe 0 is used for multiframe

synchronization and control. Timeslot 16 of multiframes 1 through 15 are used to carry A, B,

C, and D signaling bits.