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DAC8413_15 Datasheet, PDF (17/20 Pages) Analog Devices – Quad, 12-Bit DAC Voltage Output with Readback | |||
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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.
10kâ¦
TRIM
VREFH
VDD
GND VOLTAGE OUTPUT
REFERENCE 0.2µF
0.01µF
VREFL
DAC8412
OR
DAC8413
VSS
10µF
ZERO TO â10V OPERATION
0.1µF
//10µF
â15V
Figure 41. Unipolar â10 V Operation
DAC8412/DAC8413
Figure 41 shows the DAC8412 configured for â10 V to 0 V
operation. A â10 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
10kâ¦
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
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