LVDS, M-LVDS & PECL ICs

Solve your high-speed data transmission challenges with our broad portfolio of LVDS devices

parametric-filterView all products
Deliver and distribute data faster and more reliably with our robust portfolio of LVDS, M-LVDS and PECL serializers, deserializers, drivers, receivers, transceivers and buffers. Our devices offer high noise immunity, minimal EMI and low power for use in a wide variety of applications.

Browse by category

Select by type

LVDS SerDes

Browse our broad portfolio of LVDS serializers, deserializers, buffers, drivers, receivers and cross-points for bridging, signal distribution, reach extension and level translation.

LVDS buffers, drivers & more

Browse our broad portfolio of LVDS serializers, deserializers, buffers, drivers, receivers and cross-points for bridging, signal distribution, reach extension and level translation.

M-LVDS drivers & receivers

High-speed multipoint drivers and receivers for applications requiring multiple devices interconnected on a single transmission line, support data rates up to 250 Mbps and are IEC 61000-4-2 compliant.

PECL & LVPECL drivers & receivers

High-speed drivers and receivers enable level translation to and from PECL and LVPECL in high-speed communications.

Related categories
Isolated LVDS buffers

Our portfolio of high-performance, isolated dual-LVDS buffers feature 8-kVPK reinfored isolation voltage to help increase reliability and save board space in your design.

Featured LVDS, M-LVDS & PECL ICs

DS90LVRA2-Q1
LVDS, M-LVDS & PECL ICs

Automotive, 1.8V-to-3.6V 600Mbps LVDS dual differential line receiver

Approx. price (USD) 1ku | 1.22

Technical resources

Design guide
Design guide
LVDS Owner's Manual Design Guide, 4th Edition
Browse the industry’s go-to guide for low-voltage differential signaling.
document-pdfAcrobat PDF
Video series
Video series
Learn the fundamentals of LVDS 
TI's LVDS training series is a quick and interactive way to refresh on everything LVDS. This video series covers a number of topics including LVDS topologies, use cases, performance and more.
Application note
Application note
An Introduction to M-LVDS and Clock and Data Distribution Applications (Rev. C)
Dive into M-LVDS and the benefits of data and clock distribution with differential multipoint topologies.  
document-pdfAcrobat PDF

Discover featured applications

Automotive lighting
Enable the next generation of automotive lighting with LVDS
Motor drive
Improve EMC in motor drives through LVDS
Space
Ensure highly reliable serial communication with our LVDS space products

Enable the next generation of automotive lighting with LVDS

The advancement of LED technology is pushing the bounds of what's possible for automotive lighting. State-of-the-art lamp designs with high pixel density are enabling adaptive lighting, ground projection, animation and more. Low-voltage differential signaling (LVDS) enables designers to increase serial data throughput to control an increasing number of pixels.

Benefits:

  • Greater than 400-Mbps signaling rates per LVDS lane.
  • Enables lower-power designs.
  • High signal integrity over long cables or traces.

Featured resources

PRODUCTS

Improve EMC in motor drives through LVDS

High switching frequency electronics enable motor drives to maximize efficiency, but with increased efficiency comes increased system noise. Minimizing the effects of electromagnetic interference (EMI) in system communication has never been more crucial.

Low-voltage differential signaling (LVDS) gives system designers a tool to reduce EMI for high-speed intrasystem data, clock and control communication.

Benefits:

  • Very low EMI noise.
  • Enables lower-power designs.
  • High signal integrity over long cables or traces.

Featured resources

PRODUCTS
TECHNICAL RESOURCES

Ensure highly reliable serial communication with our LVDS space products

Low-voltage differential signaling (LVDS) serves as a foundation for high-speed communication throughout satellite subsystems and payloads. For over 20 years, TI's portfolio of space-rated LVDS drivers, receivers and crosspoints have provided best-in-class radiation performance.

Benefits:

  • Qualified manufacturers list class V-rated products.
  • Extended common-mode voltage receivers.
  • Enables high-density systems with small footprints.
  • Cold sparing and extended common-mode voltage receivers.

Featured resources

PRODUCTS
TECHNICAL RESOURCES