ISL5761_15 Datasheet, PDF(6/14 Page) Intersil Corporation – 10-bit, +3.3V, 130/210+MSPS, High Speed D/A Converter

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ISL5761_15 Datasheet, PDF (6/14 Pages) Intersil Corporation – 10-bit, +3.3V, 130/210+MSPS, High Speed D/A Converter

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ISL5761

Electrical Specifications

PARAMETER

AVDD = DVDD = +3.3V, VREF = Internal 1.2V, IOUTFS = 20mA, TA = 25oC for All Typical Values (Continued)

TA = -40oC TO 85oC

TEST CONDITIONS

MIN TYP MAX UNITS

Input Logic Current, IIH, IL

Clock Input Current, IIH, IL

Digital Input Capacitance, CIN

TIMING CHARACTERISTICS

-20

+20

ïA

-10

+10

ïA

Data Setup Time, tSU

Data Hold Time, tHLD

Propagation Delay Time, tPD

See Figure 15

1.5

Clock

Cycles

CLK Pulse Width, tPW1, tPW2

See Figure 15 (Note 3)

POWER SUPPLY CHARACTERISTICS

AVDD Power Supply

DVDD Power Supply

Analog Supply Current (IAVDD)

(Note 8)

3.3V, IOUTFS = 20mA

3.3V, IOUTFS = 2mA

2.7

3.3

3.6

2.7

3.3

3.6

27.5 28.5

Digital Supply Current (IDVDD)

3.3V (Note 5)

3.3V (Note 6)

3.7

6.5

Supply Current (IAVDD) Sleep Mode

Power Dissipation

3.3V, IOUTFS = Donât Care

3.3V, IOUTFS = 20mA (Note 5)

1.5

103

111

3.3V, IOUTFS = 20mA (Note 6)

110

120

3.3V, IOUTFS = 2mA (Note 5)

Power Supply Rejection

Single Supply (Note 7)

-0.125

+0.125 %FSR/V

NOTES:

2. Gain Error measured as the error in the ratio between the full scale output current and the current through RSET (typically 625ïA). Ideally the

ratio should be 32.

3. Parameter guaranteed by design or characterization and not production tested.

4. Spectral measurements made with differential transformer coupled output and no external filtering. For multitone testing, the same pattern was

used at different clock rates, producing different output frequencies but at the same ratio to the clock rate.

5. Measured with the clock at 130MSPS and the output frequency at 5MHz.

6. Measured with the clock at 200MSPS and the output frequency at 20MHz.

7. See âDefinition of Specificationsâ.

8. Recommended operation is from 3.0V to 3.6V. Operation below 3.0V is possible with some degradation in spectral performance. Reduction in

analog output current may be necessary to maintain spectral performance.

9. See Typical Performance Plots.

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