82V2042EPF8 IDT, Integrated Device Technology Inc, 82V2042EPF8 Datasheet - Page 20

82V2042EPF8

Manufacturer Part Number

82V2042EPF8

Description

Manufacturer

IDT, Integrated Device Technology Inc

Datasheet

1.82V2042EPF8.pdf (83 pages)

Specifications of 82V2042EPF8

Screening Level

Industrial

Mounting

Surface Mount

Package Type

TQFP

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Lead Free Status / RoHS Status

Not Compliant

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3.3.3.2 User-Programmable Arbitrary Waveform

waveform generator mode can be used in the corresponding channel. This

allows the transmitter performance to be tuned for a wide variety of line con-

dition or special application.

UI[1:0] bits (TCF3, 07H...) and each UI is divided into 16 sub-phases,

addressed by the SAMP[3:0] bits (TCF3, 07H...). The pulse amplitude of

each phase is represented by a binary byte, within the range from +63 to -

63, stored in WDAT[6:0] bits (TCF4, 08H...) in signed magnitude form. The

most positive number +63 (D) represents the maximum positive amplitude

of the transmit pulse while the most negative number -63 (D) represents the

maximum negative amplitude of the transmit pulse. Therefore, up to 64

bytes are used. For each channel, a 64 bytes RAM is available.

User can select one of them as reference and make some changes to get

the desired waveform.

pulse shape. In order to do this, firstly, users can choose a set of waveform

value from the following eight tables, which is the most similar to the desired

pulse shape. Table-2, Table-3, Table-4, Table-5, Table-6, Table-7,

and

plates. Then modify the corresponding sample data to get the desired trans-

mit pulse shape.

by 1, the pulse amplitude can be scaled up or down at the percentage ratio

FUNCTIONAL DESCRIPTION

IDT82V2042E

There are eight standard templates which are stored in an on-chip ROM.

When the PULS[3:0] bits are set to ‘11xx’, user-programmable arbitrary

Each pulse shape can extend up to 4 UIs (Unit Interval), addressed by

User can change the wave shape and the amplitude to get the desired

Secondly, through the value of SCAL[5:0] bits increased or decreased

Table-9

list the sample data and scaling data of each of the eight tem-

Table-8

DUAL CHANNEL T1/E1/J1 SHORT HAUL LINE INTERFACE UNIT

against the standard pulse amplitude if needed. For different pulse shapes,

the value of SCAL[5:0] bits and the scaling percentage ratio are different.

The following eight tables list these values.

grammed, based on the selected waveform template:

from the internal RAM.

lap of two consecutive pulses could make the pulse amplitude overflow

(exceed the maximum limitation) if the pulse amplitude is not set properly.

This overflow is captured by DAC_OV_IS bit (INTS1, 19H...), and, if

enabled by the DAC_OV_IM bit (INTM1, 14H...), an interrupt will be gen-

erated.

Do the followings step by step, the desired waveform can be pro-

(1).Select the UI by UI[1:0] bits (TCF3, 07H...)

(2).Specify the sample address in the selected UI by SAMP [3:0] bits

(3).Write sample data to WDAT[6:0] bits (TCF4, 08H...). It contains the

(4).Set the RW bit (TCF3, 07H...) to ‘0’ to implement writing data to RAM,

(5).Implement the Read from RAM/Write to RAM by setting the DONE

Repeat the above steps until all the sample data are written to or read

(6).Write the scaling data to SCAL[5:0] bits (TCF2, 06H...) to scale the

When more than one UI is used to compose the pulse template, the over-

(TCF3, 07H...)

data to be stored in the RAM, addressed by the selected UI and the

corresponding sample address.

or to ‘1’ to implement read data from RAM

bit (TCF3, 07H...)

amplitude of the waveform based on the selected standard pulse

amplitude

December 12, 2005

82V2042EPF8 IDT, Integrated Device Technology Inc, 82V2042EPF8 Datasheet - Page 20

82V2042EPF8

Specifications of 82V2042EPF8

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