AD5325 Analog Devices, AD5325 Datasheet - Page 20
AD5325
Manufacturer Part Number
AD5325
Description
Manufacturer
Analog Devices
Datasheet
1.AD5305.pdf
(24 pages)
Specifications of AD5325
Resolution (bits)
12bit
Dac Update Rate
125kSPS
Dac Settling Time
8µs
Max Pos Supply (v)
+5.5V
Single-supply
Yes
Dac Type
Voltage Out
Dac Input Format
I2C/Ser 2-wire,Ser
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AD5305/AD5315/AD5325
APPLICATIONS
TYPICAL APPLICATION CIRCUIT
The AD5305/AD5315/AD5325 can be used with a wide range
of reference voltages where the devices offer full, one-quadrant
multiplying capability over a reference range of 0 V to V
More typically, these devices are used with a fixed, precision
reference voltage. Suitable references for 5 V operation are the
AD780
suitable external reference is the AD589, a 1.23 V band gap
reference. Figure 36 shows a typical setup for the AD5305/
AD5315/AD5325 when using an external reference. Note that
A0 can be high or low.
If an output range of 0 V to V
solution is to connect the reference input to V
supply may not be very accurate and may be noisy, the
AD5305/AD5315/AD5325 can be powered from the reference
voltage; for example, using a 5 V reference such as the REF195.
The REF195 outputs a steady supply voltage for the AD5305/
AD5315/AD5325. The typical current required from the
REF195 is 600 μA supply current and approximately 112 μA
into the reference input. This is with no load on the DAC
outputs. When the DAC outputs are loaded, the REF195 also
needs to supply the current to the loads. The total current
required (with a 10 kΩ load on each output) is
The load regulation of the REF195 is typically 2 ppm/mA,
which results in an error of 5.4 ppm (27 μV) for the 2.7 mA
current drawn from it. This corresponds to a 0.0014 LSB error
at eight bits and 0.022 LSB error at 12 bits.
OR AD589 WITH
AD780/REF192
WITH V
712 μA + 4(5 V/10 kΩ) = 2.70 mA
V
EXT
REF
V
Figure 36. AD5305/AD5315/AD5325 Using External Reference
IN
DD
and REF192 (2.5 V references). For 2.5 V operation, a
= 2.5V
DD
V
0.1µF
OUT
= 5V
1µF
10µF
INTERFACE
SERIAL
DD
V
is required, the simplest
DD
REFIN
SCL
SDA
A0
= 2.5V TO 5.5V
AD5305/
AD5315/
AD5325
GND
DD
. As this
V
V
V
V
OUT
OUT
OUT
OUT
A
B
C
D
DD
.
Rev. G | Page 20 of 24
BIPOLAR OPERATION
The AD5305/AD5315/AD5325 have been designed for single
supply operation, but a bipolar output range is also possible using
the circuit in Figure 37. This circuit gives an output voltage
range of 5 V. Rail-to-rail operation at the amplifier output is
achievable using an AD820 or an OP295 as the output amplifier.
The output voltage for any input code can be calculated as
follows:
where:
D is the decimal equivalent of the code loaded to the DAC.
N is the DAC resolution.
REFIN is the reference voltage input.
with
REFIN = 5 V, R1 = R2 = 10 kΩ, V
MULTIPLE DEVICES ON ONE BUS
Figure 38 shows two AD5305 devices on the same serial bus.
Each has a different slave address because the state of the A0 pin
is different. This allows each of eight DACs to be written to or
read from independently.
6V TO 12V
V
V
IN
10µF
OUT
AD1585
GND
CONTROLLER
MICRO-
=
V
V
OUT
Figure 38. Multiple AD5305 Devices on One Bus
⎡
⎢
⎢
⎣
Figure 37. Bipolar Operation with the AD5305
DD
RESISTORS
0.1µF
(
REFIN
PULL-UP
1µF
+5V
×
(
D
V
REFIN
A0
GND SCL SDA
DD
2 /
AD5305
R
R1 = 10kΩ
1
INTERFACE
N
SERIAL
)
2-WIRE
)
V
V
V
V
×
OUT
OUT
OUT
OUT
OUT
(
R
A
B
C
D
1
(10 × D/2
SDA
A0
A0
+
SDA
AD5305
AD5305
R
2
AD820/
OP295
)
+5V
–5V
SCL
−
R2 = 10kΩ
SCL
REFIN
N
) − 5 V
×
(
±5V
R
/ 2
R
1
)
⎤
⎥
⎥
⎦
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