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MC100E142FNONN/a57avai5V ECL 9-Bit Shift Register
MC100E310FNR2ONN/a288avai2:8 Differential Fanout Buffer
MC100E445FNMN/a154avai5V ECL 4-Bit Serial/Parallel Converter
MC100EL12DR2N/a442avai5V ECL Low Impedance Driver
MC100EL35DONN/a486avai5V ECL JK Flip-Flop
MC100EL57DR2MN/a48avai5V ECL 4:1 Differential Multiplexer
MC100ELT21DR2ON N/a2880avai5V Differential PECL To TTL Translator
MC100EP29ONN/a138avai3.3V / 5V ECL Dual Differential Data and Clock D Flip-Flop With Set and Reset
MC100EP451FAR2ONN/a1792avai3.3V / 5V ECL 6-Bit Differential Register with Master Reset
MC100H642FNONN/a2294avaiECL/TTL Clock Driver
MC100LVEP11DR2MOT ?N/a192avai2.5V / 3.3V ECL 1:2 Differential Fanout Buffer
MC10E160FNMOTOROLA ?N/a28avai5V ECL 12-Bit Parity Generator/Checker
MC10E160FNMOTON/a411avai5V ECL 12-Bit Parity Generator/Checker
MC10E160FNR2MOTN/a1227avai5V ECL 12-Bit Parity Generator/Checker
MC10E451FNR2MOTN/a15000avai5V ECL 6-Bit D Register Differential Data and Clock
MC10EL34DR2ONN/a2500avai5V ECL Divide by 2, Divide by 4, Divide by 8 Clock Generation Chip
MC10EL51DONN/a280avai5V ECL Differential Clock D Flip-Flop
MC10EL51DR2ONN/a827avai5V ECL Differential Clock D Flip-Flop
MC10H105FNR2MOTOROLAN/a5500avaiTriple 2-3-2-Input OR/NOR Gate
MC10H105FNR2MOTN/a12avaiTriple 2-3-2-Input OR/NOR Gate
MC10H107FNR2MOTOROLAN/a4850avaiTriple 2-Input XOR/XNOR Gate
MC10H107MONN/a378avaiTriple 2-Input XOR/XNOR Gate
MC10H107MMOTON/a720avaiTriple 2-Input XOR/XNOR Gate
MC10H109FNR2MOTOROLAN/a5500avaiDual 4-5-Input OR/NOR Gate
MC10H115MOTN/a583avaiQuad Line Receiver
MC10H117MELMOTON/a2000avaiDual 2-Wide 2-3-Input OR-AND/OR-AND-Invert Gate
MC10H121PON SemiconductorN/a300avai4-Wide OR-AND/OR-ANDbar Gate
MC10H158MMOTON/a1930avaiQuad 2-Input Multiplexer (Non-Inverting)
MC10H160MOTN/a20avai12-Bit Parity Generator-Checker
MC10H160MOTON/a4745avai12-Bit Parity Generator-Checker
MC10H160PONN/a21avai12-Bit Parity Generator-Checker
MC10H161FNR2ONN/a1000avaiBinary to 1-8 Decoder (Low)
MC10H161MELMOTN/a727avaiBinary to 1-8 Decoder (Low)
MC10H172PONN/a3350avaiDual Binary 1-4-Decoder (High)
MC10H186FNR2MOTOROLAN/a10000avaiHex D Master-Slave Flip-Flop with Reset
MC10H209FNMOTN/a22avaiDual 4-5-Input OR/NOR
MC10H211FNONN/a4738avaiDual 3-Input 3-Output NOR Gate
MC10H646ONN/a998avaiPECL/TTL-TTL 1:8 Distribution Chip
MC10H646MOTN/a14avaiPECL/TTL-TTL 1:8 Distribution Chip


MC10E451FNR2 ,5V ECL 6-Bit D Register Differential Data and Clock
MC10E451FNR2 ,5V ECL 6-Bit D Register Differential Data and Clock
MC10E452FN ,5V ECL 5-Bit Differential RegisterGeneral Descriptionsources for battery charger applications based on theToday’s most popular rechar ..
MC10E452FNR2 ,5V ECL 5-Bit Differential RegisterOrder this document by AN1593/D * * * ** * * **Prepared by: Ondrej PaukIndustrial System Applicat ..
MC10E457FNR2 ,5V ECL Triple Differential 2:1 Multiplexer2AN1672/DSection 1: Translation Between Differently Supplied ECL Drivers and ReceiversTable 3. Tran ..
MC10EL01DR2 ,5V ECL 4-Input OR/NORhttp://onsemi.comEVALUATION BOARD MANUALBoard Lay−UpINTRODUCTIONThe 8−lead SOIC evaluation board is ..
MC34025PG , High Speed Double−Ended PWM Controller
MC3403 ,Quad Operational Amplifiermaximum ratings over operating free-air temperature range (unless otherwise noted)Supply voltage (s ..
MC3403D ,Quad Operational AmplifierOrder this document by MC3403/D* ** ** *The MC3403 is a low cost, quad operational amplifier with ..
MC3403DR ,Quad Low-Power General-Purpose Operational Amplifiermaximum ratings” may cause permanent damage to the device. These are stress ratings only, andfuncti ..
MC3403DR2 ,Single Supply Quad Operational Amplifier3MC3403, MC3303CIRCUIT DESCRIPTIONstage performs not only the first stage gain function but alsoper ..
MC3403DR2 ,Single Supply Quad Operational AmplifierELECTRICAL CHARACTERISTICS(V = +15 V, V = −15 V for MC3403; V = +14 V, V = Gnd for MC3303 T = 25°C, ..


MC100E142FN-MC100E310FNR2-MC100E445FN-MC100EL12DR2-MC100EL35D-MC100EL57DR2-MC100ELT21DR2-MC100EP29-MC100EP451FAR2-MC100H642FN-MC100LVEP11DR2-MC10E160FN-MC10E160FNR2-MC10E451FNR2-MC10EL34DR2-MC10EL51D-MC10EL51DR2-MC10H105FNR2-MC10H107FNR2-MC10H107M-MC10H109FNR2
Hex D Master-Slave Flip-Flop with Reset
AN1568/D
Interfacing Between L VDS
and ECL
Prepared by: Paul Lee

Logic Applications Engineer
ON Semiconductor
Introduction

Recent growth in high−speed data transmission between
high−speed ICs demand more bandwidth than ever before
while still maintaining high performance, low power
consumption and good noise immunity. Emitter Coupled
Logic (ECL) recognized the challenge and provided high
performance and good noise immune devices. ECL
migrated toward low voltages to reduce the power
consumption and to keep up with current technology trends
by offering 3.3 V and 2.5 V Low Voltage ECL (LVECL)
devices.
LVDS (Low V oltage Differential Signaling) technology
also addresses the needs of current high performance
applications. LVDS as specified in ANSI/TIA/EIA−644 by
Data Transmission Interface committee TR30.2 and IEEE
1596.3 SCI−LVDS by IEEE Scalable Coherent Interface
standard (SCI) is a high speed, low power interface that is a
solution in many application areas. LVDS provides an
output swing of 250 mV to 400 mV with a DC offset of 1.2 V.
External resistor components are required for
board−to−board data transfer or clock distribution.
LVECL and LVDS are both differential voltage signals,
but with different output amplitude and offset. The purpose
of this documentation is to show the interfacing between
LVECL and LVDS. In addition, it gives interface
recommendations to and from 5.0 V supplied PECL devices
and negative supplied ECL or NECL
Today’s applications typically use ECL devices in the
PECL mode. PECL (Positive ECL) is nothing more than
supplying any ECL device with a positive power supply
(VCC = +5.0 V, VEE = 0 V). In addition, ECL uses differential
data transmission technology, which results in better noise
immunity. Since the common mode noise is coupled onto the
differential interconnect, it will be seen as a common mode
modulation and will be rejected.
With the trend towards low voltage systems, a new
generation of ECL circuitry has been developed. The Low
Voltage NECL
–3.3 V or –2.5 V power supply, or more popular positive
power supplies, VCC = +3.3 V or +2.5 V and VEE = GND as
LVPECL. LVECL maintains 750 mV output swing with a
0.9 V offset from VCC, which makes them ideal as peripheral
components.
The temperature compensated (100EL, 100LVEL,
100EP, 100LVEP) output DC levels for the different supply
levels are shown in Table 1. ECL outputs are designed as an
open emitter, requiring a DC path to a more negative supply
than VOL. (see AND8020 for ECL Termination
information).
ECL standard DC input levels are also relative to VCC.
Many devices are available with Voltage Input HIGH
Common Mode Range (VIHCMR). These differential inputs
allow processing signals with small VINPPMIN (down to
200 mV, 150 mV or even 50 mV signal levels) within an
appropriate offset range. The VIHCMR
devices are listed in each respective data sheets.
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