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DAC8413_15 Datasheet, PDF (17/20 Pages) Analog Devices – Quad, 12-Bit DAC Voltage Output with Readback
Data Sheet
The 0.2 μF bypass capacitors shown at the reference inputs in
Figure 40 should be used whenever ±10 V references are used.
Applications with single references or references to ±5 V may
not require the 0.2 μF bypassing. The 6.2 Ω resistor in series
with the output of the reference amplifier keeps the amplifier
from oscillating with the capacitive load. This 6.2 Ω resistor has
been found to be large enough to stabilize this circuit. Larger
resistor values are acceptable, provided that the drop across the
resistor does not exceed VBE. Assuming a minimum VBE of 0.6 V
and a maximum current of 2.75 mA, then the resistor should be
under 200 Ω for the loading of a single DAC8412.
Using two separate references is not recommended. Having two
references can cause different drifts with time and temperature;
whereas with a single reference, most drifts track.
Unipolar positive full-scale operation can usually be set with a
reference with the correct output voltage. This is preferable to
using a reference and dividing down to the required value. For a
10 V full-scale output, the circuit can be configured as shown in
Figure 41. In this configuration, the full-scale value is set first by
adjusting the 10 kΩ resistor for a full-scale output of 9.9976 V.
10kΩ
TRIM
VREFH
VDD
GND VOLTAGE OUTPUT
REFERENCE 0.2µF
0.01µF
VREFL
DAC8412
OR
DAC8413
VSS
10µF
ZERO TO –10V OPERATION
0.1µF
//10µF
–15V
Figure 41. Unipolar –10 V Operation
DAC8412/DAC8413
Figure 41 shows the DAC8412 configured for –10 V to 0 V
operation. A –10 V full-scale output voltage reference is
connected directly to VREFL for the reference voltage.
SINGLE +5 V SUPPLY OPERATION
For operation with a 5 V supply, the reference voltage should be
set between 1.0 V and 2.5 V for optimum linearity. Figure 42
shows a REF43 used to supply a 2.5 V reference voltage. The
headroom of the reference and DAC are both sufficient to support
a 5 V supply with ±5% tolerance. VDD and VLOGIC should be
connected to the same supply. Separate bypassing to each pin
should also be used.
5V
10µF
0.01µF
INPUT
OUTPUT
REF43
TRIM
10kΩ
GND
VREFH
0.2µF
VREFL
VDD
DAC8412
OR
DAC8413
VSS
ZERO TO 2.5V OPERATION
SINGLE 5V SUPPLY
Figure 42. +5 V Single-Supply Operation
0.1µF
//10µF
Rev. G | Page 17 of 20