XRT83L34ES Exar, XRT83L34ES Datasheet - Page 35

XRT83L34ES

Manufacturer Part Number

XRT83L34ES

Description

Peripheral Drivers & Components - PCIs

Manufacturer

Exar

Datasheet

1.XRT83L34ES.pdf (99 pages)

Specifications of XRT83L34ES

Product Category

Peripheral Drivers & Components - PCIs

Rohs

yes

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QUAD T1/E1/J1 LH/SH TRANSCEIVER WITH CLOCK RECOVERY AND JITTER ATTENUATOR

ARBITRARY PULSE GENERATOR FOR T1 AND E1

The arbitrary pulse generator divides the pulse into eight individual segments. Each segment is set by a 7-Bit

binary word by programming the appropriate channel register. This allows the system designer to set the

overshoot, amplitude, and undershoot for a unique line build out. The MSB (bit 7) is a sign-bit. If the sign-bit is

set to “1”, the segment will move in a positive direction relative to a flat line (zero) condition. If this sign-bit is set

to “0”, the segment will move in a negative direction relative to a flat line condition. A pulse with numbered

segments is shown in Figure 11.

TRANSMITTER

DIGITAL DATA FORMAT

Both the transmitter and receiver can be configured to operate in dual or single-rail data formats. This feature is

available under both Hardware and Host control modes, on a global basis. The dual or single-rail data format

is determined by the state of the SR/DR pin in Hardware mode or SR/DR interface bit in the Host mode. In

single-rail mode, transmit clock and NRZ data are applied to TCLK_n and TPOS_n/TDATA_n pins respectively.

In single-rail and Hardware mode the TNEG_n/CODES_n input can be used as the CODES function. With

TNEG_n/CODES_n tied “Low”, HDB3 or B8ZS encoding and decoding are enabled for E1 and T1 modes

respectively. With TNEG_n/CODES_n tied “High”, the AMI coding scheme is selected. In both dual or single-

rail modes of operations, the transmitter converts digital input data to a bipolar format before being transmitted

to the line.

TRANSMIT CLOCK (TCLK) SAMPLING EDGE

Serial transmit data at TPOS_n/TDATA_n and TNEG_n/CODES_n are clocked into the XRT83L34 under the

synchronization of TCLK_n. With a “0” written to the TCLKE interface bit, or by pulling the TCLKE pin “Low”,

input data is sampled on the falling edge of TCLK_n. The sampling edge is inverted with a “1” written to TCLKE

interface bit, or by connecting the TCLKE pin “High”.

OTE

IGURE

: By default, the arbitrary segments are programmed to 0x00h. The transmitter outputs will result in an all zero pattern

to the line.

11. A

RBITRARY

Segment

ULSE

EGMENT

0xn8

0xn9

0xna

0xnb

0xnc

0xnd

0xne

0xnf

SSIGNMENT

XRT83L34

REV. 1.0.1

XRT83L34ES Exar, XRT83L34ES Datasheet - Page 35

XRT83L34ES

Specifications of XRT83L34ES

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