DAC8550_16 Datasheet, PDF(13/31 Page) Texas Instruments – 16-bit, Ultra-Low Glitch, Voltage Output Digital-To-Analog Converter

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DAC8550_16 Datasheet, PDF (13/31 Pages) Texas Instruments – 16-bit, Ultra-Low Glitch, Voltage Output Digital-To-Analog Converter

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VDD = 2.7 V (continued)

at TA = 25Â°C, unless otherwise noted

Trigger Pulse 2.7V/div

VDD = 2.7V

VREF = 2.5V

From Code: FFFF

To Code: 0000

Falling

Edge

0.5V/div

Zoomed Falling Edge

1mV/div

2.7 V

Time (2ms/div)

Figure 37. Full-Scale Settling Time: Falling Edge

Trigger Pulse 2.7V/div

VDD = 2.7V

VREF = 2.5V

From Code: CFFF

To Code: 4000

Falling

Edge

0.5V/div

Zoomed Falling Edge

1mV/div

2.7 V

Time (2ms/div)

Figure 39. Half-Scale Settling Time: Falling Edge

DAC8550

SLAS476F â MARCH 2006 â REVISED MARCH 2016

Trigger Pulse 2.7V/div

Rising

Edge

0.5V/div

VDD = 2.7V

VREF = 2.5V

From Code: 4000

To Code: CFFF

Zoomed Rising Edge

1mV/div

2.7 V

Time (2ms/div)

Figure 38. Half-Scale Settling Time: Rising Edge

VDD = 2.7V

VREF = 2.5V

From Code: 7FFF

To Code: 8000

Glitch: 0.08nV-s

2.7 V

Time (400ns/div)

1-LSB Step

Figure 40. Glitch Energy: Rising Edge

VDD = 2.7V

VREF = 2.5V

From Code: 8000

To Code: 7FFF

Glitch: 0.16nV-s

Measured Worst Case

2.7 V

Time (400ns/div)

1-LSB Step

Figure 41. Glitch Energy: Falling Edge

VDD = 2.7V

VREF = 2.5V

From Code: 8000

To Code: 8010

Glitch: 0.04nV-s

2.7 V

Time (400ns/div)

16-LSB Step

Figure 42. Glitch Energy: Rising Edge

Product Folder Links: DAC8550

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