DAC8806_15 Datasheet, PDF(14/22 Page) Texas Instruments – 14-Bit, Parallel Input Multiplying Digital-to-Analog Converternull

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DAC8806_15 Datasheet, PDF (14/22 Pages) Texas Instruments – 14-Bit, Parallel Input Multiplying Digital-to-Analog Converternull

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DAC8806

SBAS385B â APRIL 2006 â REVISED FEBRUARY 2008

www.ti.com

APPLICATION INFORMATION

Multiplying Mode THD versus Frequency

Figure 35 and Figure 36 show the DAC8806 bipolar 4-quadrant multiplying mode total harmonic distortion (THD)

versus frequency. Figure 35 shows the bipolar mode THD with the DAC8806 set to a full-scale code of 3FFFh.

Figure 36 shows the bipolar multiplying mode THD with the DAC8806 set to a minus full-scale code of 0000h. In

both graphs, two OPA627s are used for both the DAC output op amp and the reference inverting amplifier. A 6

VRMS sine wave is used for the reference input VREF and is swept in frequency from 10 Hz to 30 kHz. The THD

levels versus frequency are illustrated at various DAC output filtering levels using an external ac-coupled

low-pass filter.

Figure 37 illustrates the DAC8806 unipolar 2-quadrant multiplying mode THD versus frequency. The DAC8806 is

set to a full-scale code of 3FFFh. A single OPA627 is used for the DAC output op amp.

Stability Circuit

For a current-to-voltage (I/V) design, as shown in Figure 41, the DAC8806 current output (IOUT) and the

connection with the inverting node of the op amp should be as short as possible and laid out according to correct

printed circuit board (PCB) layout design. For each code change there is a step function. If the gain bandwidth

product (GBP) of the op amp is limited and parasitic capacitance is excessive at the inverting node, then gain

peaking is possible. Therefore, a compensation capacitor C1 (4 pF to 20 pF, typ) can be added to the design for

circuit stability, as shown in Figure 41.

VDD

VDD ROFS RFB

VREF

VREF DAC8806

IOUT

OPA277

VOUT

GND

Figure 41. Gain Peaking Prevention Circuit with Compensation Capacitor

Bipolar Output Circuit

The DAC8806, as a 4-quadrant multiplying DAC, can be used to generate a bipolar output. The polarity of the

full-scale output (IOUT) is the inverse of the input reference voltage at VREF.

Using a dual op amp, such as the OPA2277, full 4-quadrant operation can be achieved with minimal

components. Figure 42 demonstrates a Â±10 VOUT circuit with a fixed +10 V reference.

Ç Ç VOUT +

8192

VREF

(2)

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