AD561 Analog Devices, AD561 Datasheet - Page 4
AD561
Manufacturer Part Number
AD561
Description
Low Cost 10-Bit Monolithic D/A Converter
Manufacturer
Analog Devices
Datasheet
1.AD561.pdf
(8 pages)
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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
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
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.
MODEL
AD561JD
AD561JN
AD561KD
AD561KN
AD561SD
AD561TD
AD561/883B
NOTES
1
2
*Refer to AD561/883B military data sheet.
For details on grade and package offerings screened in accordance with MIL-STD-883, refer to the
D = Ceramic DIP; N = Plastic DIP.
Analog Devices Military Products Databook or current AD561/883B data sheet.
1/1024 = 9.8 mV). If in actual use, however, a 1 LSB change
2.5 ppm/ C of error). The resulting error could then be
1
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 *
ORDERING GUIDE
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
*
–4–
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
zero will typically be within 1/10 LSB (plus op amp offset),
and full scale accuracy will be within 1 LSB. Substituting a
25
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.
PACKAGE
OPTION
D-16
N-16
D-16
N-16
D-16
D-16
*
fixed resistor is substituted for the 50
resistor for the 50
2
Figure 1. Chip Bonding Diagram
bipolar offset trimmer will give a
PIN CONFIGURATION
TOP VIEW
trimmer, unipolar
REV. A
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