DS90LV028ATMX Datasheet, PDF(7/18 Page) Texas Instruments – DS90LV028A 3V LVDS Dual CMOS Differential Line Receiver

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DS90LV028ATMX Datasheet, PDF (7/18 Pages) Texas Instruments – DS90LV028A 3V LVDS Dual CMOS Differential Line Receiver

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DS90LV028A

www.ti.com

SNLS013E â JUNE 1998 â REVISED APRIL 2013

PROBING LVDS TRANSMISSION LINES

Always use high impedance (> 100kâ¦), low capacitance (< 2 pF) scope probes with a wide bandwidth (1 GHz)

scope. Improper probing will give deceiving results.

CABLES AND CONNECTORS, GENERAL COMMENTS

When choosing cable and connectors for LVDS it is important to remember:

Use controlled impedance media. The cables and connectors you use should have a matched differential

impedance of about 100â¦. They should not introduce major impedance discontinuities.

Balanced cables (e.g. twisted pair) are usually better than unbalanced cables (ribbon cable, simple coax) for

noise reduction and signal quality. Balanced cables tend to generate less EMI due to field canceling effects and

also tend to pick up electromagnetic radiation a common-mode (not differential mode) noise which is rejected by

the receiver.

For cable distances < 0.5M, most cables can be made to work effectively. For distances 0.5M â¤ d â¤ 10M, CAT 3

(category 3) twisted pair cable works well, is readily available and relatively inexpensive.

Pin Descriptions

Pin No.

1, 4

2, 3

6, 7

Name

RIN-

RIN+

ROUT

VCC

GND

Inverting receiver input pin

Non-inverting receiver input pin

Receiver output pin

Power supply pin, +3.3V Â± 0.3V

Ground pin

Description

Product Folder Links: DS90LV028A

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