DAC8564 Datasheet, PDF(16/46 Page) Texas Instruments – 16-Bit, Quad Channel, Ultra-Low Glitch, Voltage Output DIGITAL-TO-ANALOG CONVERTER with 2.5V, 2ppm/°C Internal Reference

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DAC8564 Datasheet, PDF (16/46 Pages) Texas Instruments – 16-Bit, Quad Channel, Ultra-Low Glitch, Voltage Output DIGITAL-TO-ANALOG CONVERTER with 2.5V, 2ppm/°C Internal Reference

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DAC8564

SBAS403A â JUNE 2007 â REVISED NOVEMBER 2007

www.ti.com

TYPICAL CHARACTERISTICS: DAC at VDD = 5V (continued)

At TA = +25Â°C, external reference used, DAC output not loaded, and all DAC codes in straight binary data format, unless

otherwise noted.

GLITCH ENERGY:

5V, 1LSB STEP, RISING EDGE

GLITCH ENERGY:

5V, 1LSB STEP, FALLING EDGE

VDD = 5V

Ext VREF = 4.096V

From Code: 7FFFh

To Code: 8000h

Glitch: 0.08nV-s

Time (400ns/div)

Figure 48.

GLITCH ENERGY:

5V, 16LSB STEP, RISING EDGE

VDD = 5V

Ext VREF = 4.096V

From Code: 8000h

To Code: 8010h

Glitch: 0.04nV-s

Time (400ns/div)

Figure 50.

GLITCH ENERGY:

5V, 256LSB STEP, RISING EDGE

VDD = 5V

Ext VREF = 4.096V

From Code: 8000h

To Code: 80FFh

Glitch: Not Detected

Theoretical Worst Case

Time (400ns/div)

Figure 52.

VDD = 5V

Ext VREF = 4.096V

From Code: 8000h

To Code: 7FFFh

Glitch: 0.16nV-s

Measured Worst Case

Time (400ns/div)

Figure 49.

GLITCH ENERGY:

5V, 16LSB STEP, FALLING EDGE

VDD = 5V

Ext VREF = 4.096V

From Code: 8010h

To Code: 8000h

Glitch: 0.08nV-s

Time (400ns/div)

Figure 51.

GLITCH ENERGY:

5V, 256LSB STEP, FALLING EDGE

VDD = 5V

Ext VREF = 4.096V

From Code: 80FFh

To Code: 8000h

Glitch: Not Detected

Theoretical Worst Case

Time (400ns/div)

Figure 53.

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