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DS92001  Product Folder

3.3V B/LVDS-BLVDS Buffer
Generic P/N 92001
General
Description
Features Datasheet Package
& Models
Samples
& Pricing
Reliability
Metrics

Datasheet

TitleSize in KbytesDate
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DS92001 3.3V B LVDS-BLVDS Buffer 257 Kbytes 19-Jun-02 View Online Download Receive via Email
DS92001 3.3V B LVDS-BLVDS Buffer (JAPANESE)
464 Kbytes   View Online Download Receive via Email

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Package Availability, Models, Samples & Pricing

Part NumberPackageStatusModelsSamples &
Electronic
Orders
Budgetary PricingStd
Pack
Size
Package
Marking
TypePinsMSL/Lead-Free AvailabilityLead
Time
QtySPICEIBISQty$US each
DS92001TLDLLP8StatusFull productionN/AN/ASamples
Buy Now
1K+$0.80reel
of
1000
ZXYTT
92001
3-6 weeks1000
DS92001TLDXLLP8StatusFull productionN/AN/A 1K+$0.80reel
of
4500
ZXYTT
92001
3-6 weeks5000
DS92001TMASOIC NARROW8StatusFull productionN/Ads92001tm.ibs24 Hour Samples
Buy Now
1K+$0.80rail
of
95
NSXYTT
92001
TMA
8 weeks1000
DS92001TMAXSOIC NARROW8StatusFull productionN/AN/A 1K+$0.80reel
of
2500
NSXYTT
92001
TMA
3-8 weeks5000

General Description

The DS92001 B/LVDS-BLVDS Buffer takes a BLVDS input signal and provides an BLVDS output signal. In many large systems, signals are distributed across backplanes, and one of the limiting factors for system speed is the "stub length" or the distance between the transmission line and the unterminated receivers on individual cards. Although it is generally recognized that this distance should be as short as possible to maximize system performance, real-world packaging concerns often make it difficult to make the stubs as short as the designer would like.

The DS92001 has edge transitions optimized for multidrop backplanes where the switching frequency is in the 200 MHz range or less. The output edge rate is critical in some systems where long stubs may be present, and utilizing a slow transition allows for longer stub lengths.

The DS92001, available in the LLP (Leadless Leadframe Package) package, will allow the receiver inputs to be placed very close to the main transmission line, thus improving system performance.

A wide input dynamic range allows the DS92001 to receive differential signals from LVPECL as well as LVDS sources. This will allow the device to also fill the role of an LVPECL-BLVDS translator.

The LOS# pin detects a non-driven B/LVDS bus state at the input and provides an active LOW output. The LOS# pin can be tied to the device's output enable pin (EN) to generate a TRI-STATE output state when the input is un-driven. The LOS# pin can also be used locally to inform the system of the bus state.

Features

  • Single +3.3 V Supply
  • B/LVDS receiver inputs accept LVPECL signals
  • TRI-STATE outputs
  • Loss of Signal (LOS#) pin detects a non-driven bus
  • Receiver input threshold < ±100 mV
  • Fast propagation delay of 1.4 ns (typ)
  • Low jitter 400 Mbps fully differential data path
  • Compatible with BLVDS 10-bit SerDes (40MHz)
  • Compatible with ANSI/TIA/EIA-644-A LVDS standard
  • Available in SOIC and space saving LLP package
  • Industrial Temperature Range

Reliability Metrics

Part Number Process Early Failure Rate - Rejects Sample Size (EFR) PPM * Rel. Rejects Device Hours Long Term Failure Rates (FITS) MTTF
DS92001TLDCMOS721420014108000005226190940
DS92001TLDXCMOS721420014108000005226190940
DS92001TMACMOS721420014108000005226190940
DS92001TMAXCMOS721420014108000005226190940

For more information on Reliablitity Metrics, please click here.


[Information as of 15-Jan-2004]