AD5412 Analog Devices, AD5412 Datasheet - Page 26

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AD5412

Manufacturer Part Number
AD5412
Description
Single Channel, 12-Bit, Serial Input, Current Source & Voltage Output DAC
Manufacturer
Analog Devices
Datasheet

Specifications of AD5412

Resolution (bits)
12bit
Dac Update Rate
40kSPS
Dac Settling Time
18µs
Max Pos Supply (v)
+40V
Single-supply
No
Dac Type
I or V Out
Dac Input Format
SPI

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AD5412/AD5422
THEORY OF OPERATION
The AD5412/AD5422 are precision digital-to-current loop and
voltage output converters designed to meet the requirements of
industrial process control applications. They provide a high
precision, fully integrated, low cost single-chip solution for
generating current loop and unipolar/bipolar voltage outputs.
Current ranges are 0 mA to 20 mA, 0 mA to 24 mA, and 4 mA
to 20 mA; the voltage ranges available are 0 V to 5 V, ±5 V, 0 V
to 10 V, and ±10 V; a 10% overrange is available on all voltage
output ranges. The current and voltage outputs are available on
separate pins, and only one is active at any time. The desired
output configuration is user selectable via the control register.
ARCHITECTURE
The DAC core architecture of the AD5412/AD5422 consists
of two matched DAC sections. A simplified circuit diagram is
shown in Figure 63. The four MSBs of the 12-/16-bit data-word
are decoded to drive 15 switches, E1 to E15. Each of these switches
connects one of 15 matched resistors to either ground or the
reference buffer output. The remaining 8/12 bits of the data-
word drive the S0 to S7/S11 switches of an 8-/12-bit voltage
mode R-2R ladder network.
The voltage output from the DAC core is either converted to
a current (see Figure 64) which is then mirrored to the supply
rail so that the application simply sees a current source output
with respect to ground or it is buffered and scaled to output a
software selectable unipolar or bipolar voltage range (see
Figure 65). The current and voltage are output on separate
pins and cannot be output simultaneously.
2R
8-12 BIT R-2R LADDER
12-/16-BIT
Figure 64. Voltage-to-Current Conversion Circuitry
DAC
S0
2R
Figure 63. DAC Ladder Structure
S1
2R
A1
S7/S11
2R
FOUR MSBs DECODED INTO
T1
15 EQUAL SEGMENTS
R2
R
SET
2R
E1
A2
2R
E2
T2
AV
DD
R3
I
OUT
2R
E15
V
OUT
Rev. D | Page 26 of 40
Voltage Output Amplifier
The voltage output amplifier is capable of generating both
unipolar and bipolar output voltages. It is capable of driving
a load of 1 kΩ in parallel with 1 µF (with an external compen-
sation capacitor) to GND. The source and sink capabilities of
the output amplifier can be seen in Figure 35. The slew rate
is 1 V/µs with a full-scale settling time of 25 µs maximum (10 V
step). Figure 65 shows the voltage output driving a load, R
on top of a common-mode voltage (V
output module applications where a cable could possibly
become disconnected from +V
loop being broken and possibly resulting in large destructive
voltages on V
+V
2 kΩ and 5 kΩ to ensure the amplifier loop is kept closed. If
remote sensing of the load is not required, connect +V
directly to V
changing ranges on the voltage output, a glitch may occur. For
this reason, it is recommended that the output be disabled by
setting the OUTEN bit of the control register to logic low before
changing the output voltage range; this prevents a glitch from
occurring.
Driving Large Capacitive Loads
The voltage output amplifier is capable of driving capacitive
loads of up to 1 µF with the addition of a nonpolarized 4 nF
compensation capacitor between the C
Without the compensation capacitor, up to 20 nF capacitive
loads can be driven.
AD5412/AD5422
12-/16-BIT
SENSE
DAC
REFIN
and V
OUT
OUT
OUT
SCALING
RANGE
and connect −V
, include an optional resistor (R1) between
, as shown in Figure 65, of a value between
Figure 65. Voltage Output
+V
–V
SENSE
SENSE
SENSE
SENSE
V
OUT
, resulting in the amplifier
directly to GND. When
CM
COMP
) of −1 V to +3 V. In
R1
and V
–1V TO +3V
OUT
pins.
V
SENSE
CM
R
LOAD
LOAD
,

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