MC100EP196: 3.3 V ECL Programmable Delay Chip

The MC100EP196 is a programmable delay chip (PDC) designed primarily for clock deskewing and timing adjustment. It provides programmably variable delay of a differential ECL input signal. It has similar architecture to the EP195 with the added feature of further tuneability in delay using the FTUNE pin. The FTUNE input takes an analog voltage from VCC to VEE to fine tune the output delay from 0 to 60 ps.

Features
  • Maximum Frequency > 1.2 GHz Typical
  • PECL Mode Operating Range: VCC = 3.0 V to 3.6 V with VEE = 0 V
  • NECL Mode Operating Range: VCC = 0 V with VEE = -3.0 V to -3.6 V
  • Open Input Default State
  • Safety Clamp on Inputs
  • A Logic High on the ENbar Pin Will Force Q to Logic Low
  • D[0:10] Can Accept Either ECL, LVCMOS, or LVTTL Inputs
  • VBB Output Reference Voltage
  • Pb-Free Packages are Available
Application Notes (14)
Document TitleDocument ID/SizeRevisionRevision Date
AC Characteristics of ECL DevicesAND8090/D (896.0kB)1
Clock Generation and Clock and Data Marking and Ordering Information GuideAND8002/D (71kB)12
Designing with PECL (ECL at +5.0 V)AN1406/D (105.0kB)2
ECL Clock Distribution TechniquesAN1405/D (54.0kB)1
ECLinPS, ECLinPS Lite, ECLinPS Plus and GigaComm Marking and Ordering Information GuideAND8002 (71kB)12
Interfacing Between LVDS and ECLAN1568/D (121.0kB)11
Interfacing with ECLinPSAND8066/D (72kB)3
Odd Number Divide By Counters with 50% Outputs and Synchronous ClocksAND8001/D (90.0kB)0
Phase Lock Loop General OperationsAND8040/D (64.0kB)3
Storage and Handling of Drypack Surface Mount DeviceAND8003/D (49kB)2Mar, 2016
Termination of ECL Logic DevicesAND8020/D (176.0kB)6
The ECL Translator GuideAN1672/D (142.0kB)12
Thermal Analysis and Reliability of WIRE BONDED ECLAND8072/D (119.0kB)5
Using Wire-OR Ties in ECLInPS™ DesignsAN1650/D (1130.0kB)3
Data Sheets (1)
Document TitleDocument ID/SizeRevisionRevision Date
3.3V ECL Programmable Delay Chip with FTUNEMC100EP196/D (145kB)16
Simulation Models (1)
Document TitleDocument ID/SizeRevisionRevision Date
IBIS Model for MC100EP196FAMC100EP196FA_33V_ECL.IBS (0.0kB)
Order Information
ProductStatusCompliancePackageMSL*ContainerBudgetary Price/Unit
MC100EP196FAGActivePb-free Halide freeLQFP-32Contact BDTIC2Tray JEDEC250Contact BDTIC
MC100EP196FAR2GActivePb-free Halide freeLQFP-32Contact BDTIC2Tape and Reel2000Contact BDTIC
Specifications
ProductInput LevelOutput LevelVCC Typ (V)fMax Typ (MHz)td(prog) Min (ns)td(prog) Max (ns)td(step) Typ (ps)tJitter Typ (ps)tR & tF Max (ps)
MC100EP196FAGCML ECLECL3.312008.612113200
MC100EP196FAR2GECL CMLECL3.312008.612113200
3.3V ECL Programmable Delay Chip with FTUNE (145kB) MC100EP196
AC Characteristics of ECL Devices NB100LVEP91
Clock Generation and Clock and Data Marking and Ordering Information Guide NB100LVEP91
Designing with PECL (ECL at +5.0 V) NB100LVEP91
ECL Clock Distribution Techniques NB100LVEP91
ECLinPS, ECLinPS Lite, ECLinPS Plus and GigaComm Marking and Ordering Information Guide NB100LVEP91
Interfacing Between LVDS and ECL NB100ELT23L
Interfacing with ECLinPS NB100LVEP91
Odd Number Divide By Counters with 50% Outputs and Synchronous Clocks NUP4201
Phase Lock Loop General Operations MC10H604
Storage and Handling of Drypack Surface Mount Device NB3U23C
Termination of ECL Logic Devices NB100LVEP91
The ECL Translator Guide NB100LVEP91
Thermal Analysis and Reliability of WIRE BONDED ECL NB100LVEP91
Using Wire-OR Ties in ECLInPS™ Designs MC10H351
IBIS Model for MC100EP196FA MC100EP196B