IDT5T2010_2 Datasheet, PDF(15/24 Page) Integrated Device Technology – 2.5V ZERO DELAY PLL CLOCK DRIVER TERACLOCK™

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IDT5T2010_2 Datasheet, PDF (15/24 Pages) Integrated Device Technology – 2.5V ZERO DELAY PLL CLOCK DRIVER TERACLOCK™

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IDT5T2010

2.5V ZERO DELAY PLL CLOCK DRIVER TERACLOCK

INDUSTRIAL TEMPERATURE RANGE

POWER SUPPLY CHARACTERISTICS FOR 1.8V LVTTL OUTPUTS(1)

Symbol

Parameter

Test Conditions(2)

Typ.

Max

IDDQ

Quiescent VDD Power Supply Current(3)

VDDQ = Max., REF = LOW, PD = HIGH, nSOE = LOW,

PLL_EN = HIGH, DS[1:0] = MM, nF[2:1] = LH,

FBF[2:1] = LH, Outputs enabled, All outputs unloaded

IDDQQ

Quiescent VDDQ Power Supply Current(3) VDDQ = Max., REF = LOW, PD = HIGH, nSOE = LOW,

1.5

PLL_EN = HIGH, DS[1:0] = MM, nF[2:1] = LH,

IDDPD

Power Down Current

FBF[2:1] = LH, Outputs enabled, All outputs unloaded

VDD = Max., PD = LOW, nSOE = LOW, PLL_EN = HIGH

0.5

IDDD

Dynamic VDD Power Supply

VDD = Max., VDDQ = Max., CL = 0pF

Current per Output

IDDDQ

Dynamic VDDQ Power Supply

VDD = Max., VDDQ = Max., CL = 0pF

Current per Output

ITOT

Total Power VDD Supply Current(4)

VDDQ = 1.8V., FVCO = 100MHz, CL = 15pF

ITOTQ

Total Power VDDQ Supply Current(4)

VDDQ = 1.8V., FVCO = 250MHz, CL = 15pF

VDDQ = 1.8V., FVCO = 100MHz, CL = 15pF

105

VDDQ = 1.8V., FVCO = 250MHz, CL = 15pF

135

205

NOTES:

1. These power consumption characteristics are for all the valid input interfaces and cover the worst case input and output interface combinations.

2. The termination resistors are excluded from these measurements.

3. If the differential input interface is used, the true input is held LOW and the complementary input is held HIGH.

4. FS = HIGH.

Unit

Î¼A

Î¼A/MHz

DIFFERENTIAL INPUT AC TEST CONDITIONS FOR 1.8V LVTTL

Symbol

Parameter

Value

Units

VDIF

Input Signal Swing(1)

VDDI

Differential Input Signal Crossing Point(2)

VDDI/2

VTHI

Input Timing Measurement Reference Level(3)

Crossing Point

tR, tF

Input Signal Edge Rate(4)

1.8

V/ns

NOTES:

1. VDDI is the nominal 1.8V supply (1.8V Â± 0.15V) of the part or source driving the input. A nominal 1.8V peak-to-peak input pulse level is specified to allow consistent, repeatable

results in an automatic test equipment (ATE) environment. This device meets the VDIF (AC) specification under actual use conditions.

2. A nominal 900mV crossing point level is specified to allow consistent, repeatable results in an automatic test equipment (ATE) environment. This device meets the VX specification

under actual use conditions.

3. In all cases, input waveform timing is marked at the differential cross-point of the input signals.

4. The input signal edge rate of 1.8V/ns or greater is to be maintained in the 20% to 80% range of the input waveform.

SINGLE-ENDED INPUT AC TEST CONDITIONS FOR 1.8V LVTTL

Symbol

Parameter

Value

VIH

Input HIGH Voltage(1)

VDDI

VIL

Input LOW Voltage

VTHI

Input Timing Measurement Reference Level(2)

VDDI/2

tR, tF

Input Signal Edge Rate(3)

NOTES:

1. VDDI is the nominal 1.8V supply (1.8V Â± 0.15V) of the part or source driving the input.

2. A nominal 900mV timing measurement reference level is specified to allow constant, repeatable results in an automatic test equipment (ATE) environment.

3. The input signal edge rate of 2V/ns or greater is to be maintained in the 10% to 90% range of the input waveform.

Units

V/ns

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