Datasheet

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Time(5 s/div)m

V (100 V/div)m

OUT

Clock

Feedthrough

~0.4nV-s

GlitchImpulse

<0.3nV-s

AV =2.7V

FromCode:2000h

ToCode:2001h

Time(5 s/div)m

V (100 V/div)m

OUT

Clock

Feedthrough

~0.4nV-s

GlitchImpulse

<0.3nV-s

AV =2.7V

FromCode:2001h

ToCode:2000h

Time(5 s/div)m

V (100 V/div)m

OUT

Clock

Feedthrough

~0.4nV-s

GlitchImpulse

<0.3nV-s

AV =2.7V

FromCode:7FFFh

ToCode:8000h

Time(5 s/div)m

V (100 V/div)m

OUT

Clock

Feedthrough

~0.4nV-s

GlitchImpulse

<0.3nV-s

AV =2.7V

FromCode:8000h

ToCode:7FFFh

-40

-60

-80

-100

-120

-140

205 10 150

Gain(dB)

Frequency(kHz)

AV =2.7V,

OUT S

=1kHz,f =225kSPS,

MeasurementBandwidth=20kHz

Time(5 s/div)m

AV =2.7V

ClockFeedthroughImpulse~0.4nV-s

V (500 V/div)m

OUT

DAC8311

DAC8411

www.ti.com

SBAS439B –AUGUST 2008–REVISED MAY 2013

TYPICAL CHARACTERISTICS: AV

= +2.7V (continued)

At T

= 25°C, and AV

= +2.7V, unless otherwise noted.

CLOCK FEEDTHROUGH

POWER SPECTRAL DENSITY 2.7V, 20MHz, MIDSCALE

Figure 60. Figure 61.

GLITCH ENERGY GLITCH ENERGY

2.7V, 16-BIT, 1LSB STEP, RISING EDGE 2.7V, 16-BIT, 1LSB STEP, FALLING EDGE

Figure 62. Figure 63.

GLITCH ENERGY GLITCH ENERGY

2.7V, 14-BIT, 1LSB STEP, RISING EDGE 2.7V, 14-BIT, 1LSB STEP, FALLING EDGE

Figure 64. Figure 65.

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