MT90732 Mitel Networks Corporation, MT90732 Datasheet - Page 7

MT90732

Manufacturer Part Number

MT90732

Description

CMOS E2/E3 Framer (E2/E3F)

Manufacturer

Mitel Networks Corporation

Datasheet

1.MT90732.pdf (8 pages)

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Advance Information

The transmitter operates independently of the receiver,

unless the loop timing feature(LPT) is selected, when

the receive clock becomes the transmitted clock. In the

transmit direction, the terminal side bit-serial interface

consists of: data input signal (XSD), a clock input sig-

nal (XCK), and a framing pulse (XSF). The nibble-par-

allel interface consists of the following signals: a data

input signal having a nibble format (XNIB3 - XNIB0), a

clock input signal (XCK), a framing output pulse (XNF),

and a nibble output clock signal (XNC). The transmit

nibble clock (XNC) is stretched to accommodate the

framing pattern, service bit and BIP-4 times.

MT90372 provides interface to service bits as defined

in G.7XX recommendations.The receive service bit

interface consists of: data output (ROD), clock output

(ROC), and framing pulse (ROF) output. The clock sig-

nal (ROC) is gapped and is provided for clocking out

the service bits. The service bit states are also written

into E2/E3F memory locations, which can be read by

the microprocessor. The transmitted service bits are

inserted into the frame format from either an external

interface or from memory map locations. The transmit

service bit interface consists of data input signal

(TOD), a clock output (TOC), and a framing pulse

(TOF) output.

To fix transmit time-base for the terminal payload multi-

plexer circuitry, while operating in the bit-serial mode,

the E2/E3F provides a transmit frame reference gener-

ator. The transmit frame reference generator accepts

an external 8.448 or 34.368 MHz clock signal (TCIN)

and produces a clock out signal (TCOUT), a framing

pulse (TFOUT), a clock gap signal (TCG), and a data

signal (TDOUT). The data signal consists of G.7XX

framing bits and zeros elsewhere.

The selection of the transmit line interface, dual rail or

NRZ, is controlled by the NRZLINE control lead, which

Line

Interface

Unit

Figure 2. Wideband Data Transport using E2/E3 Framer

Line Side

Overhead bit-I/O

Framer

E2/E3

also controls the receive interface selection. When the

internal HDB3 Encoder Block is bypassed, the trans-

mit line interface consists of a data signal (TDL) and a

clock signal (TCKL). When the HDB3 encoder is

enabled, the transmit line interface consists of positive

(TP) and negative (TN) rail signals and a clock signal

(TCK).

A high placed on the microprocessor control lead

(MICRO) selects the microprocessor interface. All the

external control leads, except the loop timing (LPT),

receive AIS disable (DAIS), and the line interface con-

trol leads (NRZLINE) are disabled when the micropro-

cessor interface is selected.

The microprocessor interface consists of eight bidirec-

tional data and address leads (AD7 - AD0), along with

other microprocessor control leads, including a ready

(RDY) signal.

Typical Application

The E2/E3 Framer is used for wideband data

transport as shown in Figure 2. In the receive

direction, the E2/E3 Framer receives NRZ or dual rail

data from LIU, removes overhead bits and puts out

only the payload of the incoming signal to the

terminal. Overhead bits can be accessed through

microprocessor or by service bit interface. In the

transmit direction, the E2/E3 Framer receives data

generated from Data Source, adds framing pattern

and service bits and sends it out to LIU. The E2/E3

Framer handles wideband data at either 8448 or 34

368 Kb/s, and can optionally perform BIP-4 making

data transport more reliable.

Terminal Side

Data Sink/ Source

Wideband

CMOS

MT90732

5-21

MT90732 Mitel Networks Corporation, MT90732 Datasheet - Page 7

MT90732

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