IDT5T9310 datasheet(4/13 Pages) IDT

Part #	IDT5T9310

Description	2.5V LVDS 1:10 CLOCK BUFFER TERABUFFER II Selectable inputs

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Manufacturer	IDT [Integrated Device Technology]

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INDUSTRIALTEMPERATURERANGE

4

IDT5T9310

2.5VLVDS1:10CLOCKBUFFERTERABUFFERII

DC ELECTRICAL CHARACTERISTICS OVER OPERATING RANGE FOR LVTTL(1)

Symbol

Parameter

Test Conditions

Min.

Typ.(2)

Max

Unit

InputCharacteristics

IIH

Input HIGH Current

VDD = 2.7V

—

±5

µA

IIL

InputLOWCurrent

VDD = 2.7V

—

±5

VIK

ClampDiodeVoltage

VDD = 2.3V, IIN = -18mA

—

- 0.7

- 1.2

V

VIN

DCInputVoltage

- 0.3

—

+3.6

V

VIH

DC Input HIGH

1.7

—

V

VIL

DC Input LOW

—

0.7

V

VTHI

DCInputThresholdCrossingVoltage

—

VDD /2

—

V

VREF

Single-EndedReferenceVoltage(3)

3.3VLVTTL

—

1.65

—

V

2.5VLVTTL

—

1.25

—

NOTES:

1. See RECOMMENDED OPERATING RANGE table.

2. Typical values are at VDD = 2.5V, +25°C ambient.

3. For A[1:2] single-ended operation, A[1:2] is tied to a DC reference voltage.

DC ELECTRICAL CHARACTERISTICS OVER OPERATING RANGE FOR DIFFER-

ENTIAL INPUTS(1)

Symbol

Parameter

Test Conditions

Min.

Typ.(2)

Max

Unit

InputCharacteristics

IIH

Input HIGH Current

VDD = 2.7V

—

±5

µA

IIL

InputLOWCurrent

VDD = 2.7V

—

±5

VIK

ClampDiodeVoltage

VDD = 2.3V, IIN = -18mA

—

- 0.7

- 1.2

V

VIN

DCInputVoltage

- 0.3

—

+3.6

V

VDIF

DCDifferentialVoltage(3)

0.1

—

V

VCM

DC Common Mode Input Voltage(4)

0.05

—

VDD

V

NOTES:

1. See RECOMMENDED OPERATING RANGE table.

2. Typical values are at VDD = 2.5V, +25°C ambient.

3. VDIF specifies the minimum input differential voltage (VTR - VCP) required for switching where VTR is the "true" input level and VCP is the "complement" input level. The DC differential

voltage must be maintained to guarantee retaining the existing HIGH or LOW input. The AC differential voltage must be achieved to guarantee switching to a new state.

4. VCM specifies the maximum allowable range of (VTR + VCP) /2.

DC ELECTRICAL CHARACTERISTICS OVER RECOMMENDED OPERATING

RANGE FOR LVDS(1)

Symbol

Parameter

Test Conditions

Min.

Typ.(2)

Max

Unit

OutputCharacteristics

VOT(+)

DifferentialOutputVoltagefortheTrueBinaryState

247

—

454

mV

VOT(-)

DifferentialOutputVoltagefortheFalseBinaryState

247

—

454

mV

∆VOT

ChangeinVOTBetweenComplementaryOutputStates

—

50

mV

VOS

OutputCommonModeVoltage(OffsetVoltage)

1.125

1.2

1.375

V

∆VOS

ChangeinVOSBetweenComplementaryOutputStates

—

50

mV

IOS

OutputsShortCircuitCurrent

VOUT + and VOUT - = 0V

—

12

24

mA

IOSD

DifferentialOutputsShortCircuitCurrent

VOUT + = VOUT -—

6

12

mA

NOTES:

1. See RECOMMENDED OPERATING RANGE table.

2. Typical values are at VDD = 2.5V, TA = +25°C ambient.

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