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MAX9360EKA+TMAXIMN/a585avaiLVTTL/TTL/CMOS-to-Differential LVECL/ECL Translators


MAX9360EKA+T ,LVTTL/TTL/CMOS-to-Differential LVECL/ECL TranslatorsApplicationsMAX9360EKA-T -40°C to +85°C 8 SOT23 AAJIMAX9360ESA -40°C to +85°C 8 SO —Clock/Data-Leve ..
MAX9360ESA ,LVTTL/TTL/CMOS-to-Differential LVECL/ ECL TranslatorsFeaturesThe MAX9360/MAX9361 are low-skew, single LVTTL/ Output High with Input OpenTTL/CMOS-to-dif ..
MAX9371ESA ,LVTTL/TTL-to-Differential LVPECL/PECL TranslatorsApplicationsMAX9370EUA* -40°C to +85°C 8 µMAXPrecision Clock/Data Level TranslationMAX9370ESA -40°C ..
MAX9371ESA+T ,LVTTL/TTL-to-Differential LVPECL/PECL TranslatorsELECTRICAL CHARACTERISTICS(V = 3.0V to 5.25V for MAX9370/MAX9371, V = 3.0V to 3.6V for MAX9372, out ..
MAX9371ESA+T ,LVTTL/TTL-to-Differential LVPECL/PECL TranslatorsApplicationsMAX9370EUA* -40°C to +85°C 8 µMAXPrecision Clock/Data Level TranslationMAX9370ESA -40°C ..
MAX9372ESA ,LVTTL/TTL-to-Differential LVPECL/PECL TranslatorsELECTRICAL CHARACTERISTICS(V = 3.0V to 5.25V for MAX9370/MAX9371, V = 3.0V to 3.6V for MAX9372, out ..
MB8868A ,MOS Universal Asynchronous Receiver / Transmitter (UART)Features I Full or Hall Duplex Operation I Completely Programmable I Start Bit Generated ..
MB89121 ,8-bit Proprietary MicrocontrollerFUJITSU SEMICONDUCTORDS07-12509-6EDATA SHEET8-bit Proprietary MicrocontrollerCMOS2F MC-8L MB89120/1 ..
MB89123A ,8-bit Proprietary MicrocontrollerFUJITSU SEMICONDUCTORDS07-12509-6EDATA SHEET8-bit Proprietary MicrocontrollerCMOS2F MC-8L MB89120/1 ..
MB89133A ,8-bit Proprietary MicrocontrollerFUJITSU SEMICONDUCTORDS07-12510-9EDATA SHEET8-bit Proprietary MicrocontrollerCMOS2F MC-8L MB89130/1 ..
MB89153 ,8-bit Proprietary MicrocontrollerFUJITSU SEMICONDUCTORDS07-12506-4EDATA SHEET8-bit Proprietary MicrocontrollerCMOS2F MC-8L MB89150/1 ..
MB89163 ,8-bit Proprietary MicrocontrollerFUJITSU SEMICONDUCTORDS07-12405-2EDATA SHEET8-bit Proprietary MicrocontrollerCMOS2F MC-8L MB89160/1 ..


MAX9360EKA+T
LVTTL/TTL/CMOS-to-Differential LVECL/ECL Translators
General Description
The MAX9360/MAX9361 are low-skew, single LVTTL/
TTL/CMOS-to-differential LVECL/ECL translators
designed for high-speed signal and clock driver appli-
cations. For interfacing to LVTTL/TTL/CMOS input sig-
nals, these devices operate over a 3.0V to 5.5V supply
range, allowing high-performance clock or data distrib-
ution. For interfacing to differential LVECL/ECL output
signals, these devices operate from a -2.375V to -5.5V
supply.
The MAX9360 is a 3.3V LVTTL/CMOS-to-LVECL/ECL
translator that operates at a typical speed of 3GHz. The
MAX9361 is a 5V TTL/CMOS-to-LVECL/ECL translator
that operates at a typical speed of 1.3GHz. Both
devices can be used to drive either LVECL devices or
standard ECL devices with a negative supply range of
-2.375V to -5.5V.
The devices default to high if the input is disconnected,
and feature ultra-low propagation delay: 440ps for the
MAX9360, 810ps for the MAX9361.
Applications

Clock/Data-Level Translation
Features
Output High with Input Open-2.375V to -5.5V LVECL/ECL OperationESD Protection > 2kV (Human Body Model)3.0V to 3.6V LVTTL/CMOS Operation (MAX9360)
Improved Second Source of the MC100EPT24
Low 13.8mA (typ) IEESupply Current
440ps (typ) Propagation Delay
> 300mV Output at 1GHz
4.5V to 5.5V TTL Operation (MAX9361)
Improved Second Source of the MC100ELT24
Low 6.6mA (typ) IEESupply Current
600ps (typ) Propagation Delay
> 300mV Output at 250MHz
MAX9360/MAX9361
LVTTL/TTL/CMOS-to-Differential LVECL/
ECL Translators
Ordering Information

TOP VIEW
GNDN.C.
VCCD
N.C.
VEEMAX9360/
MAX9361
GND
N.C.
VCC
VEE
N.C.
SOT23
MAX9360/
MAX9361
Pin Configurations

19-2327; Rev 2; 12/08
PARTTEMP RANGEPIN-
PACKAGE
TOP
MARK
MAX9360EKA-T
-40°C to +85°C8 SOT23AAJI
MAX9360ESA-40°C to +85°C8 SO—
MAX9361EKA-T
-40°C to +85°C8 SOT23AAJJ
MAX9361ESA-40°C to +85°C8 SO—
EVALUATION KIT
AVAILABLE
MAX9360/MAX9361
LVTTL/TTL/CMOS-to-Differential LVECL/
ECL Translators
ABSOLUTE MAXIMUM RATINGS
DC ELECTRICAL CHARACTERISTICS—MAX9360

(VCC= 3.0V to 3.6V, VEE= -2.375V to -5.5V, VGND= 0, outputs terminated with 50Ω±1% to -2.0V. Typical values are at VCC= 3.3V,
VIH= 2.0V, VIL= 0.8V, unless otherwise noted.) (Notes 1, 2, 3)
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
VCCto GND..............................................................-0.3V to +6V
VEEto GND...............................................................-6V to +0.3V
D to GND....................................................-0.3V to (VCC+ 0.3V)
Continuous Output Current ................................................50mA
Surge Output Current........................................................100mA
Junction-to-Ambient Thermal Resistance in Still Air
8-Pin SOT23.............................................................+112°C/W
8-Pin SO...................................................................+170°C/W
Junction-to-Ambient Thermal Resistance
with 500LFPM Airflow
8-Pin SOT23...............................................................+78°C/W
8-Pin SO.....................................................................+99°C/W
Junction-to-Case Thermal Resistance
8-Pin SOT23...............................................................+80°C/W
8-Pin SO..................................................................+40°C/mW
Continuous Power Dissipation (TA= +70°C)
8-Pin SOT23 (derate 8.9mW/°C above +70°C)............714mW
8-Pin SO (derate 5.9mW/°C above +70°C)..................470mW
Operating Temperature Range...........................-40°C to +85°C
Junction Temperature......................................................+150°C
Storage Temperature Range.............................-60°C to +150°C
ESD Protection
Human Body Model (D, Q, Q)........................................> 2kV
Soldering Temperature (10s)...........................................+300°C
0°C (SOT23)
-40°C (SO)+25°C+85°CPARAMETERSYMBOLCONDITIONS
MINTYPMAXMINTYPMAXMINTYPMAX
UNITS
LVTTL INPUT (D)

VIN = 2.7V-20+20-20+20-20+20Input High CurrentIIHVIN = VCC-10+10-10+10-10+10µA
Input Low CurrentIILVIN = 0.5V-200-51-200-60-200-67µA
Input Clamp
VoltageVIKIIN = -18mA-1.2-1.2-1.2V
Input High VoltageVIH2.02.02.0V
Input Low VoltageVIL0.80.80.8V
LVECL/ECL OUTPUTS (Q, Q)

Output High
VoltageVOH-1.145-0.885-1.145-0.885-1.145-0.885V
Output Low VoltageVOL-1.935-1.625-1.935-1.625-1.935-1.625V
Differential Output
Swing (VOH - VOL)
VOH -
VOL550550550mV
Power-Supply
CurrentICC(Note 4)4.37.05.07.05.67.0mA
Internal Chip
CurrentIEE(Note 4)12.32013.82015.220mA
MAX9360/MAX9361
LVTTL/TTL/CMOS-to-Differential LVECL/
ECL Translators
DC ELECTRICAL CHARACTERISTICS—MAX9361

(VCC= 4.5V to 5.5V, VEE= -2.375V to -5.5V, VGND= 0, outputs terminated with 50Ω±1% to -2.0V. Typical values are at VCC= 5V,
VIH= 2.0V, VIL= 0.8V, unless otherwise noted.) (Notes 1, 2, 3)
-40°C (SO)+25°C+85°CPARAMETERSYMBOLCONDITIONS
MINTYPMAXMINTYPMAXMINTYPMAX
UNITS
TTL INPUT (D)

VIN = 2.7V-30+30-30+30-30+30Input High CurrentIIHVIN = VCC-10+10-10+10-10+10µA
Input Low CurrentIILVIN = 0.5V-200-55-200-61-200-71µA
Input Clamp
VoltageVIKIIN = -18mA-1.2-1.2-1.2V
Input High VoltageVIH2.02.02.0V
Input Low VoltageVIL0.80.80.8V
LVECL/ECL OUTPUTS (Q, Q)

Output High
VoltageVOH-1.055-0.880-1.055-0.880-1.025-0.880V
Output Low VoltageVOL-1.875-1.555-1.810-1.605-1.810-1.605V
Differential Output
Swing (VOH - VOL)
VOH -
VOL550699550691550677mV
POWER SUPPLY

Power-Supply
CurrentICC(Note 4)3.07.03.57.04.37.0mA
Internal Chip
CurrentIEE(Note 4)92010201120mA
Note 1:Measurements are made with the device in thermal equilibrium.
Note 2:
Current into a pin is defined as positive. Current out of a pin is defined as negative.
Note 3:
DC parameters are production tested at +25°C. DC limits are guaranteed by design and characterization over the full
operating temperature range.
Note 4:
All pins are open except VCC, VEE, and GND.
Note 5:
Guaranteed by design and characterization. Limits are set to ±6 sigma.
Note 6:
Device jitter added to the input signal.
MAX9360/MAX9361
LVTTL/TTL/CMOS-to-Differential LVECL/
ECL Translators
AC ELECTRICAL CHARACTERISTICS—MAX9360

(VCC= 3.0V to 3.6V, VEE= -2.375V to -5.5V, VGND= 0, outputs terminated with 50Ω±1% to -2.0V, input frequency = 1.0GHz, input
transition time = 125ps (20% to 80%). Typical values are at VCC= 3.3V, VIH= 2.0V, VIL= 0.8V, unless otherwise noted.) (Note 5)
0°C (SOT23)
-40°C (SO)+25°C+85°CPARAMETERSYMBOLCONDITIONS
MINTYPMAXMINTYPMAXMINTYPMAX
UNITS

VOH - VOL ≥ 300mV1.03.01.03.01.03.0Maximum Toggle
FrequencyfMAXVOH - VOL ≥ 500mV0.851.50.851.50.851.5GHz
Input-to-Output
Propagation Delay
tPLHD,
tPHLDFigure 1300800300800300800ps
Output Rise/Fall
TimetR, tFFigure 1709715080105150100122150ps
Added
Deterministic JittertDJ
2Gbps23 - 1 PRBS pattern
(Note 6)7043704370ps(P-P)
Added Random
JittertRJ1.0GHz clock
pattern (Note 6)1.43.01.53.01.53.0ps(RMS)
AC ELECTRICAL CHARACTERISTICS—MAX9361

(VCC= 4.5V to 5.5V, VEE= -2.375V to -5.5V, VGND= 0, outputs terminated with 50Ω±1% to -2.0V, input frequency = 100MHz, input
transition time = 125ps (20% to 80%). Typical values are at VCC= 5.0V, VIH= 2.0V, VIL= 0.8V, unless otherwise noted.) (Note 5)
-40°C+25°C+85°CPARAMETERSYMBOLCONDITIONSMINTYPMAXMINTYPMAXMINTYPMAXUNITS

VOH - VOL ≥ 300mV250130025013002501300Maximum Toggle
FrequencyfMAXVOH - VOL ≥ 500mV150500150500150500MHz
Input-to-Output
Propagation Delay
tPLHD,
tPHLDFigure 1300561900300583900300607900ps
Output Rise/Fall
TimetR, tFFigure 1250340100025034210002503531000ps
Added
Deterministic JittertDJ
200Mbps23 - 1 PRBS pattern
(Note 6)1508315085150ps(P-P)
Added Random
JittertRJ100MHz clock
pattern (Note 6)410410410ps(RMS)
MAX9360/MAX9361
LVTTL/TTL/CMOS-to-Differential LVECL/
ECL Translators

SUPPLY CURRENT vs. TEMPERATURE
MAX9360 toc01
TEMPERATURE (°C)
SUPPLY CURRENT (mA)
IEE
ICC
Typical Operating Characteristics

(MAX9360: VCC= 3.3V and VEE= -5V, VIH= 2.0V, VIL= 0.8V, TA= +25°C, outputs terminated with 50Ωto -2V, input frequency
= 1GHz, input transition time = 125ps (20% to 80%), unless otherwise noted.)
OUTPUT AMPLITUDE vs. FREQUENCY
MAX9360 toc02
FREQUENCY (MHz)
OUTPUT AMPLITUDE (mV)
TRANSITION TIME vs. TEMPERATURE
MAX9360 toc03
TEMPERATURE (°C)
TRANSITION TIME (ps)
PROPAGATION DELAY vs. TEMPERATURE
MAX9360 toc4
TEMPERATURE (°C)
PROPAGATION DELAY (ps)
tPLHD
tPHLD
MAX9360/MAX9361
LVTTL/TTL/CMOS-to-Differential LVECL/
ECL Translators
Pin Description
PINSOT23
NAMEFUNCTION
VEE
Negative Supply Voltage. Bypass VEE to GND with 0.1µF and 0.01µF ceramic capacitors.
Place the capacitors as close as possible to the device with the smaller value capacitor
closest to the device.1DLVTTL/CMOS Input for MAX9360. TTL/CMOS input for MAX9361.
3, 43, 4N.C.No Connect. Connect to GND.8GNDGroundQInverting Differential LVECL/ECL Output. Typically terminate with 50Ω resistor to -2V.6QNoninverting Differential LVECL/ECL Output. Typically terminate with 50Ω resistor to -2V.VCC
Positive Supply Voltage. Bypass VCC to GND with 0.1µF and 0.01µF ceramic capacitors.
Place the capacitors as close as possible to the device with the smaller value capacitor
closest to the device.
50%50%
tPLHtPHL
VOH - VOL
VOH - VOL
VOH - VOLtF
80%
20%20%
80%
0 (DIFFERENTIAL)
DIFFERENTIAL WAVEFORM
SINGLE-ENDED WAVEFORMS
Q - Q
VOH
VOL
VIL
VIH
Figure 1. Input-to-Output Propagation Delay and Transition Timing Diagram
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