Datasheet
Time(5 s/div)m
V (100 V/div)m
OUT
Clock
Feedthrough
~0.5nV-s
GlitchImpulse
<0.5nV-s
AV =5V
FromCode:2000h
ToCode:2001h
DD
Time(5 s/div)m
V (100 V/div)m
OUT
Clock
Feedthrough
~0.5nV-s
GlitchImpulse
<0.5nV-s
AV =5V
FromCode:2001h
ToCode:2000h
DD
Time(5 s/div)m
V (100 V/div)m
OUT
Clock
Feedthrough
~0.5nV-s
GlitchImpulse
<0.5nV-s
AV =5V
FromCode:7FFFh
ToCode:8000h
DD
Time(5 s/div)m
V (100 V/div)m
OUT
Clock
Feedthrough
~0.5nV-s
GlitchImpulse
<0.5nV-s
AV =5V
FromCode:8000h
ToCode:7FFFh
DD
0
20
-40
-60
-80
-100
-120
-140
205 10 150
Gain(dB)
Frequency(kHz)
AV =5V,
DD
f
OUT S
=1kHz,f =225kSPS,
MeasurementBandwidth=20kHz
Time(500ns/div)
AV =5V
ClockFeedthroughImpulse~0.5nV-s
DD
V (500 V/div)m
OUT
DAC8311
DAC8411
www.ti.com
SBAS439B –AUGUST 2008–REVISED MAY 2013
TYPICAL CHARACTERISTICS: AV
DD
= +5V (continued)
At T
A
= +25°C, AV
DD
= +5V, and DAC loaded with mid-scale code, unless otherwise noted.
CLOCK FEEDTHROUGH
POWER SPECTRAL DENSITY 5V, 2MHz, MIDSCALE
Figure 19. Figure 20.
GLITCH ENERGY GLITCH ENERGY
5V, 16-BIT, 1LSB STEP, RISING EDGE 5V, 16-BIT, 1LSB STEP, FALLING EDGE
Figure 21. Figure 22.
GLITCH ENERGY GLITCH ENERGY
5V, 14-BIT, 1LSB STEP, RISING EDGE 5V, 14-BIT, 1LSB STEP, FALLING EDGE
Figure 23. Figure 24.
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