NB100LVEP224 Datasheet, PDF(1/10 Page) ON Semiconductor – 2.5V/3.3V 1:24 Differential ECL/PECL Clock Driver with Clock Select and Output Enable

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NB100LVEP224 Datasheet, PDF (1/10 Pages) ON Semiconductor – 2.5V/3.3V 1:24 Differential ECL/PECL Clock Driver with Clock Select and Output Enable

NB100LVEP224

2.5V/3.3V 1:24 Differential

ECL/PECL Clock Driver with

Clock Select and Output

Enable

The NB100LVEP224 is a low skew 1-to-24 differential clock

driver, designed with clock distribution in mind, accepting two clock

sources into an input multiplexer. The part is designed for use in low

voltage applications which require a large number of outputs to drive

precisely aligned low skew signals to their destination. The two clock

inputs are differential ECL/PECL and they are selected by the

CLK_SEL pin. To avoid generation of a runt clock pulse when the

device is enabled/disabled, the Output Enable (OE) is synchronous

ensuring the outputs will only be enabled/disabled when they are

already in LOW state (See Figure 4).

The NB100LVEP224 guarantees low output-to-output skew. The

optimal design, layout, and processing minimize skew within a device

and from lot to lot. In any differential output, the same bias and

termination scheme is required. Unused output pairs should be left

unterminated (open) to âreduce power and switching noise as much as

possible.â Any unused single line of a differential pair should be

terminated the same as the used line to maintain balanced loads on the

differential driver outputs. The wide VIHCMR specification allows

both pair of CLOCK inputs to accept LVDS levels.

The NB100LVEP224, as with most other ECL devices, can be

operated from a positive VCC supply in LVPECL mode. This allows

the LVEP224 to be used for high performance clock distribution in

+3.3 V or +2.5 V systems. Single-ended CLK input operation is

limited to a VCC â¥ 3.0 V in LVPECL mode, or VEE â¤ -3.0 V in NECL

mode. In a PECL environment, series or Thevenin line terminations

are typically used as they require no additional power supplies. For

more information on PECL terminations, designers should refer to

Application Note AND8020/D.

â¢ 20 ps Typical Output-to-Output Skew

â¢ 75 ps Typical Device-to- Device Skew

â¢ Maximum Frequency > 1 GHz

â¢ 650 ps Typical Propagation Delay

â¢ LVPECL Mode Operating Range:

VCC = 2.375 V to 3.8 V with VEE = 0 V

â¢ NECL Mode Operating Range:

VCC = 0 V with VEE = -2.375 V to -3.8 V

â¢ Internal Input Pulldown Resistors

â¢ Q Output will Default Low with Inputs Open or at VEE

â¢ Thermally Enhanced 64-Lead LQFP

â¢ CLOCK Inputs are LVDS-Compatible; Requires External 100 W

LVDS Termination Resistor

http://onsemi.com

MARKING

DIAGRAM*

64 1

64-LEAD LQFP

CASE 848G

THERMALLY ENHANCED

FA SUFFIX

NB100

LVEP224

AWLYYWW

= Assembly Location

WL = Wafer Lot

= Year

WW = Work Week

*For additional information, see Application Note

AND8002/D

ORDERING INFORMATION

Device

Package Shipping

NB100LVEP224FA LQFP-64 160 Units/Tray

NB100LVEP224FAR2 LQFP-64 1500/Tape & Reel

June, 2003 - Rev. 4

Publication Order Number:

NB100LVEP224/D

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