a
FEATURES
Complete Current Output Converter
High Stability Buried Zener Reference
Laser Trimmed to High Accuracy (1/4 LSB Max Error,
AD561K, T)
Trimmed Output Application Resistors for 0 V to +10 V,
5 V Ranges
Fast Settling – 250 ns to 1/2 LSB
Guaranteed Monotonicity Over Full Operating
Temperature Range
TTL/DTL and CMOS Compatible (Positive True Logic)
Single Chip Monolithic Construction
Available in Chip Form
MlL-STD-883-Compliant Versions Available
PRODUCT DESCRIPTION
Low Cost 10-Bit
Monolithic D/A Converter
AD561
FUNCTIONAL BLOCK DIAGRAM
TO-116
The AD561 is an integrated circuit 10-bit digital-to-analog
converter combined with a high stability voltage reference
fabricated on a single monolithic chip. Using ten precision high-
speed current-steering switches, a control amplifier, voltage
reference, and laser-trimmed thin-film SiCr resistor network,
the device produces a fast, accurate analog output current.
Laser trimmed output application resistors are also included to
facilitate accurate, stable current-to-voltage conversion; they are
trimmed to 0.1% accuracy, thus eliminating external trimmers
in many situations.
Several important technologies combine to make the AD561 the
most accurate and most stable 10-bit DAC available. The low
temperature coefficient, high stability thin-film network is
trimmed at the wafer level by a fine resolution laser system to
0.01% typical linearity. This results in an accuracy specification
of
±
1/4 LSB max for the K and T versions, and 1/2 LSB max
for the J and S versions.
The AD561 also incorporates a low noise, high stability
subsurface zener diode to produce a reference voltage with
excellent long term stability and temperature cycle characteris-
tics, which challenge the best discrete Zener references. A
temperature compensation circuit is laser-trimmed to allow
custom correction of the temperature coefficient of each device.
This results in a typical full-scale temperature coefficient of
15 ppm/°C; the TC is tested and guaranteed to 30 ppm/°C max
for the K and T versions, 60 ppm/°C max for the S, and
80 ppm/°C for the J.
The AD561 is available in four performance grades. The
AD561J and K are specified for use over the 0°C to +70°C
temperature range and are available in either a 16-pin
hermetically-sealed ceramic DIP or a 16-pin molded plastic
DIP. The AD561S and T grades are specified for the –55°C to
+125°C range and are available in the ceramic package.
PRODUCT HIGHLIGHTS
1. Advanced monolithic processing and laser trimming at the
wafer level have made the AD561 the most accurate 10-bit
converter available, while keeping costs consistent with large
volume integrated circuit production. The AD561K and T
have 1/4 LSB max relative accuracy and 1/2 LSB max
differential nonlinearity. The low TC R-2R ladder guaran-
tees that all AD561 units will be monotonic over the entire
operating temperature range.
2. Digital system interfacing is simplified by the use of a
positive true straight binary code. The digital input voltage
threshold is a function of the positive supply level; connect-
ing V
CC
to the digital logic supply automatically sets the
threshold to the proper level for the logic family being used.
Logic sink current requirement is only 25
µA.
3. The high speed current steering switches are designed to settle
in less than 250 ns for the worst case digital code transition.
This allows construction of successive-approximation A/D
converters in the 3
µs
to 5
µs
range.
4. The AD561 has an output voltage compliance range from
–2 V to +10 V, allowing direct current-to-voltage conversion
with just an output resistor, omitting the op amp. The 40 MΩ
open collector output impedance results in negligible errors
due to output leakage currents.
5. The AD561 is available in versions compliant with MIL-
STD-883. Refer to the Analog Devices Military Products
Databook or current AD561/883B data sheet for detailed
specifications.
REV. A
Information furnished by Analog Devices is believed to be accurate and
reliable. However, no responsibility is assumed by Analog Devices for its
use, nor for any infringements of patents or other rights of third parties
which may result from its use. No license is granted by implication or
otherwise under any patent or patent rights of Analog Devices.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 617/329-4700
World Wide Web Site: http://www.analog.com
Fax: 617/326-8703
© Analog Devices, Inc., 1997
AD561* PRODUCT PAGE QUICK LINKS
Last Content Update: 02/23/2017
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•
AD561: Low Cost 10-Bit Monolithic D/A Converter Data
Sheet
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AD561–SPECIFICATIONS
(T = +25 C, V
A
CC
= –15 V, unless otherwise noted.)
Max
±
1/2
(0.05)
Min
AD561K
Typ
10 Bits
±
1/8
(0.012)
±
1/4
±
1/4
(0.025)
±
1/2
LSB
% of FS
LSB
Max
Units
Model
RESOLUTION
ACCURACY (Error Relative
to Full Scale)
DIFFERENTIAL NONLINEARITY
DATA INPUTS
TTL, V
CC
= +5 V
Bit ON Logic “1”
Bit OFF Logic “0”
CMOS, 10 V
≤
V
CC
≤
16.5 V
Bit ON Logic “ 1 “
Bit OFF Logic “0”
Logic Current (Each Bit) (T
MIN
to T
MAX
)
Bit ON Logic “1”
Bit OFF Logic “0”
OUTPUT
Current
Unipolar
Bipolar
Resistance (Exclusive of
Application Resistors)
Unipolar Zero (All Bits OFF)
Capacitance
Compliance Voltage
SETTLING TIME TO 1/2 LSB
All Bits ON-to-OFF or OFF-to-ON
POWER REQUIREMENTS
V
CC
, +4.5 V dc to +16.5 V dc
V
EE
, –10.8 V dc to –16.5 V dc
POWER SUPPLY GAIN SENSITIVITY
V
CC
, +4.5 V dc to +16.5 V dc
V
EE
, –10.8 V dc to –16.5 V dc
TEMPERATURE RANGE
Operating
Storage (“D” Package)
(“N” Package)
TEMPERATURE COEFFICIENTS
With Internal Reference
Unipolar Zero
Bipolar Zero
Full Scale
Differential Nonlinearity
MONOTONICITY
PROGRAMMABLE OUTPUT
RANGES
CALIBRATION ACCURACY
Full-Scale Error with Fixed 25
Ω
`
Resistor
Bipolar Zero Error with Fixed 10
Ω
Resistor
CALIBRATION ADJUSTMENT
RANGE
Full Scale (With 50
Ω
Trimmer)
Bipolar Zero (With 50
Ω
Trimmer)
NOTES
*Specifications same as AD561J specifications.
Specifications subject to change without notice.
Min
AD561J
Typ
10 Bits
±
1/4
(0.025)
±
1/2
+2.0
+0.8
70% V
CC
30% V
CC
+5
–5
+100
–25
*
*
*
*
*
*
*
*
V
V
V
V
nA
µA
1.5
±
0.75
2.0
±
1.0
40 M
0.01
25
–3
250
8
12
2
4
2.4
±
1.2
*
*
*
*
*
*
*
*
*
*
*
mA
mA
Ω
% of FS
pF
V
ns
0.05
+10
*
*
*
–2
10
16
10
25
*
*
*
*
*
*
*
*
*
*
*
*
*
*
mA
mA
ppm of FS/%
ppm of FS/%
°C
°C
°C
0 to +70
–65 to +150
–25 to +85
1
2
15
2.5
10
20
80
1
2
15
2.5
5
10
30
ppm of FS/°C
ppm of FS/°C
ppm of FS/°C
ppm of FS/°C
Guaranteed Over Full Operating
Temperature Range
0 to +10
–5 to +5
Guaranteed Over Full Operating
Temperature Range
*
*
V
V
±
0.1
±
0.1
*
*
% of FS
% of FS
±
0.5
±
0.5
*
*
% of FS
% of FS
–2–
REV. A
AD561
Model
RESOLUTION
ACCURACY (Error Relative
to Full Scale)
DIFFERENTIAL NONLINEARITY
DATA INPUTS
TTL, V
CC
= +5 V
Bit ON Logic “1”
Bit OFF Logic “0”
CMOS, 10 V
≤
V
CC
≤
16.5 V
Bit ON Logic “ 1 “
Bit OFF Logic “0”
Logic Current (Each Bit) (T
MIN
to T
MAX
)
Bit ON Logic “1”
Bit OFF Logic “0”
OUTPUT
Current
Unipolar
Bipolar
Resistance (Exclusive of
Application Resistors)
Unipolar Zero (All Bits OFF)
Capacitance
Compliance Voltage
SETTLING TIME TO 1/2 LSB
All Bits ON-to-OFF or OFF-to-ON
POWER REQUIREMENTS
V
CC
, +4.5 V dc to +16.5 V dc
V
EE
, –10.8 V dc to –16.5 V dc
POWER SUPPLY GAIN SENSITIVITY
V
CC
, +4.5 V dc to +16.5 V dc
V
EE
, –10.8 V dc to –16.5 V dc
TEMPERATURE RANGE
Operating
Storage
TEMPERATURE COEFFICIENTS
With Internal Reference
Unipolar Zero
Bipolar Zero
Full Scale
Differential Nonlinearity
MONOTONICITY
PROGRAMMABLE OUTPUT
RANGES
CALIBRATION ACCURACY
Full-Scale Error with Fixed 25
Ω
Resistor
Bipolar Zero Error with Fixed 10
Ω
Resistor
CALIBRATION ADJUSTMENT
RANGE
Full Scale (With 50
Ω
Trimmer)
Bipolar Zero (With 50
Ω
Trimmer)
NOTES
**Specifications same as AD561S specifications.
Specifications subject to change without notice.
Min
AD561S
Typ
10 Bits
±
1/4
(0.025)
±
1/2
Max
±
1/2
(0.05)
Min
AD561T
Typ
10 Bits
±
1/8
(0.012)
±
1/4
Max
±
1/4
(0.025)
±
1/2
Units
LSB
% of FS
LSB
+2.0
+0.8
70% V
CC
30% V
CC
+20
–25
+100
–100
**
**
**
**
**
**
**
**
V
V
V
V
nA
µA
1.5
±
0.75
2.0
±
1.0
40 M
0.01
25
–3
250
6
11
2
4
2.4
±
1.2
**
**
**
**
**
**
**
**
**
**
**
mA
mA
Ω
% of FS
pF
V
ns
0.05
+10
**
**
**
–2
10
16
10
25
**
**
**
**
**
**
**
**
**
**
**
**
mA
mA
ppm of FS/%
ppm of FS/%
°C
°C
–55 to +125
–65 to +150
1
2
15
2.5
10
20
60
1
2
15
2.5
5
10
30
ppm of FS/°C
ppm of FS/°C
ppm of FS/°C
ppm of FS/°C
Guaranteed Over Full Operating
Temperature Range
0 to +10
–5 to +5
Guaranteed Over Full Operating
Temperature Range
**
**
V
V
±
0.1
±
0.1
**
**
% of FS
% of FS
±
0.5
±
0.5
**
**
% of FS
% of FS
REV. A
–3–
AD561
THE AD561 OFFERS TRUE 10-BIT RESOLUTION OVER
FULL TEMPERATURE RANGE
Accuracy:
Analog Devices defines accuracy as the maximum
deviation of the actual, adjusted DAC output (see page 5) from
the ideal analog output (a straight line drawn from 0 to FS – l
LSB) for any bit combination. The AD561 is laser trimmed to
1/4 LSB (0.025% of FS) maximum error at +25°C for the K
and T versions – 1/2 LSB for the J and S.
Monotonicity:
A DAC is said to be monotonic if the output
either increases or remains constant for increasing digital inputs
such that the output will always be a single-valued function of the
input. All versions of the AD561 are monotonic over their full
operating temperature range.
Differential Nonlinearity:
Monotonic behavior requires that
the differential nonlinearity error be less than
1 LSB both at +25°C and over the temperature range of
interest. Differential nonlinearity is the measure of the variation
in analog value, normalized to full scale, associated with a
1 LSB change in digital input code. For example, for a 10 volt
full scale output, a change of 1 LSB in digital input code should
result in a 9.8 mV change in the analog output (1 LSB = 10 V
×
1/1024 = 9.8 mV). If in actual use, however, a 1 LSB change
in the input code results in a change of only 2.45 mV (1/4 LSB)
in analog output, the differential nonlinearity error would be
7.35 mV, or 3/4 LSB The AD561K and T have a max differen-
tial linearity error of 1/2 LSB.
The differential nonlinearity temperature coefficient must also
be considered if the device is to remain monotonic over its full
operating temperature range. A differential nonlinearity tempera-
ture coefficient of 2.5 ppm/°C could, under worst case condi-
tions for a temperature change of +25°C to +125°C, add 0.025%
(100 2.5 ppm/°C of error). The resulting error could then be
as much as 0.025% + 0.025% = 0.05% of FS (1/2 LSB represents
0.05% of FS). To be sure of accurate performance all versions of
the AD561 are therefore 100% tested to be monotonic over the
full operating temperature range.
ORDERING GUIDE
Figure 1. Chip Bonding Diagram
CONNECTING THE AD561 FOR BUFFERED VOLTAGE
OUTPUT
The standard current-to-voltage conversion connections using
an operational amplifier are shown here with the preferred
trimming techniques. If a low offset operational amplifier
(AD510, AD741L, AD301AL) is used, excellent performance
can be obtained in many situations without trimming. (A 5 mV
op amp offset is equivalent to 1/2 LSB on a 10 volt scale.) If a
25
Ω
fixed resistor is substituted for the 50
Ω
trimmer, unipolar
zero will typically be within
±
1/10 LSB (plus op amp offset),
and full scale accuracy will be within
±
1 LSB. Substituting a
25
Ω
resistor for the 50
Ω
bipolar offset trimmer will give a
bipolar zero error typically within
±
1 LSB.
The AD509 is recommended for buffered voltage-output
applications that require a settling time to
±
1/2 LSB of one
microsecond. The feedback capacitor is shown with the
optimum value for each application; this capacitor is required to
compensate for the 25 picofarad DAC output capacitance.
PIN CONFIGURATION
TOP VIEW
MODEL
1
AD561JD
AD561JN
AD561KD
AD561KN
AD561SD
AD561TD
AD561/883B
TEMP RANGE
0°C to +70°C
0°C to +70°C
0°C to +70°C
0°C to +70°C
–55°C to +125°C
–55°C to +125°C
–55°C to +125°C
ACCURACY
@ +25 C
±
1/2 LSB max
±
1/2 LSB max
±
1/4 LSB max
±
1/4 LSB max
±
1/2 LSB max
±
1/4 LSB max
*
GAIN T C
(of FS/ C)
80 ppm max
80 ppm max
30 ppm max
30 ppm max
60 ppm max
30 ppm max
*
PACKAGE
OPTION
2
D-16
N-16
D-16
N-16
D-16
D-16
*
NOTES
1
For details on grade and package offerings screened in accordance with MIL-STD-883, refer to the
Analog Devices Military Products Databook or current AD561/883B data sheet.
2
D = Ceramic DIP; N = Plastic DIP.
*Refer to AD561/883B military data sheet.
–4–
REV. A
