Circuit Note CN-0026

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Circuit Note
CN-0026
Devices Connected/Referenced
Circuit Designs Using Analog Devices Products
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AD5547/
AD5557
Dual, Current Output, Parallel Input,
16-/14-Bit DAC
ADR03
Precision 2.5 V Voltage Reference
AD8628
Rail-to-Rail Input/Output Operational
Amplifier
Precision, Unipolar, Inverting Conversion Using the AD5547/AD5557 DAC
CIRCUIT FUNCTION AND BENEFITS
This circuit provides precision, unipolar, inverting data
conversion using the AD5547/AD5557 current output DAC
with the ADR03 precision reference and AD8628 operational
amplifier (op amp). This circuit provides accurate, low noise,
high speed output voltage capability and is well suited for
process control, automatic test equipment, and digital
calibration applications.
CIRCUIT DESCRIPTION
The AD5547/AD5557 are dual-channel, precision 16-/14-bit,
multiplying, low power, current output, parallel input digital-toanalog converters. They operate from a single 2.7 V to 5.5 V
supply with ±15 V multiplying references for 4-quadrant
outputs. Built-in 4-quadrant resistors facilitate the resistance
+5V
C1
1µF
matching and temperature tracking that minimize the number
of components needed for multiquadrant applications.
This circuit uses the ADR03, which is a highly accuracy, high
stability, 2.5 V precision voltage reference. As voltage reference
temperature coefficient and long-term drift are primary
considerations for applications requiring high precision
conversion, this device is an ideal candidate.
An op amp is used in the current-to-voltage (I-V) stage of this
circuit. An op amp’s bias current and offset voltage are both
important selection criteria for use with precision current
output DACs. Therefore, this circuit employs the AD8628 autozero op amp, which has ultralow offset voltage (1 µV typical)
and bias current (30 pA typical). The compensation capacitor,
C7, is optimized to compensate for the external output
capacitance of the DAC.
2
C2
0.1µF
U3 ADR03
VIN
TRIM
VOUT
5
+2.5V
6
C4
0.1µF
GND
VREFA
4
RCOMA
R1A
VDD
C3
0.1µF
R1
ROFS
R2
2.5V
16-BIT/
14-BIT
AD5547/AD5557
16-BIT/
14-BIT DATA
U1
WR LDAC RS
RFBA
C7
2.2pF
RFB
IOUTA
AGNDA
VOUTA
+V
AD8628
–V
–2.5V TO 0V
C5
0.1µF
MSB A0, A1
C6
1µF
2
–5V
08248-001
WR
LDAC
RS
MSB
A0, A1
ROFSA
Figure 1. Unipolar 2-Quadrant Multiplying Mode, VOUT = 0 V to –VREF (Simplified Schematic)
Rev. A
“Circuits from the Lab” from Analog Devices have been designed and built by Analog Devices
engineers. Standard engineering practices have been employed in the design and construction of
each circuit, and their function and performance have been tested and verified in a lab environment
at room temperature. However, you are solely responsible for testing the circuit and determining its
suitability and applicability for your use and application. Accordingly, in no event shall Analog
Devices be liable for direct, indirect, special, incidental, consequential or punitive damages due to
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Fax: 781.461.3113 ©2008–2009 Analog Devices, Inc. All rights reserved.
CN-0026
Circuit Note
Note that the AD8628 has rail-to-rail input and output stages,
but the output can only come within a few millivolts of either
rail depending on load current. For the circuit shown, the
output can swing from –2.5 V to approximately –1 mV.
The input offset voltage of the op amp is multiplied by the
variable noise gain (due to the code-dependent output
resistance of the DAC) of the circuit. A change in this noise gain
between two adjacent digital codes produces a step change in
the output voltage due to the amplifier’s input offset voltage.
This output voltage change is superimposed on the desired
change in output between the two codes and gives rise to a
differential linearity error, which, if large enough, could cause
the DAC to be nonmonotonic. In general, the input offset
voltage should be a fraction of an LSB to ensure monotonic
behavior when stepping through codes. For the ADR03 and the
AD5547, the LSB size is
2. 5 V
= 38 µV
(1)
216
The input offset voltage of the AD8628 auto-zero op amp is
typically 1 µV, which is negligible compared to the LSB size.
The input bias current of an op amp also generates an offset at
the voltage output as a result of the bias current flowing through
the feedback resistor, RFB. In the case of the AD8628, the input
bias current is only 30 pA typical, which flowing through the
RFB resistor (10 kΩ typical), produces an error of only 0.3 µV.
The AD5547/AD5557 DAC architecture uses a current-steering
R-2R ladder design that requires an external reference and opamp to convert to an output voltage. VOUT can be calculated
for the AD5547 using the equation
VOUT =
−VREF × D
(2)
216
where D is the decimal equivalent of the input code. VOUT can
be calculated for the AD5557 using the equation
VOUT =
−VREF × D
214
(3)
where D is the decimal equivalent of the input code.
voltage and low bias current. The ADR01 and ADR02 are other
low noise references available from the same reference family as
the ADR03. Other low noise references that would be suitable
are the ADR441 and ADR445 products. The size of the
reference input voltage is restricted by the rail-to-rail voltage of
the op amp selected.
These circuits can also be used as a variable gain element by
utilizing the multiplying bandwidth nature of the R-2R
structure of the AD5547/AD5557 DAC. In this configuration,
remove the external precision reference and apply the signal to
be multiplied to the reference input pins of the DAC.
LEARN MORE
ADIsimPower Design Tool.
Kester, Walt. 2005. The Data Conversion Handbook. Analog
Devices. See chapters 3 and 7.
MT-015 Tutorial, Basic DAC Architectures II: Binary DACs.
Analog Devices.
MT-031 Tutorial, Grounding Data Converters and Solving the
Mystery of AGND and DGND. Analog Devices.
MT-033 Tutorial, Voltage Feedback Op Amp Gain and
Bandwidth. Analog Devices.
MT-035 Tutorial, Op Amp Inputs, Outputs, Single-Supply, and
Rail-to-Rail Issues. Analog Devices.
MT-055 Tutorial, Chopper Stabilized (Auto-Zero) Precision Op
Amps. Analog Devices.
MT-101 Tutorial, Decoupling Techniques. Analog Devices.
Data Sheets
AD5547 Data Sheet.
AD5557 Data Sheet.
AD8628 Data Sheet.
ADR03 Data Sheet.
REVISION HISTORY
COMMON VARIATIONS
For multichannel applications, the AD8629 is a dual version of
the AD8628. The AD8605 is another excellent op amp
candidate for the I-V conversion circuit. It also has a low offset
5/09—Rev. 0 to Rev. A
Updated Format .................................................................. Universal
10/08—Revision 0: Initial Version
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CN08248-0-5/09(A)
Rev. A | Page 2 of 2
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