AD573 Analog Devices, AD573 Datasheet - Page 4
AD573
Manufacturer Part Number
AD573
Description
10-Bit A/D Converter
Manufacturer
Analog Devices
Datasheet
1.AD573.pdf
(8 pages)
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AD573
Full-Scale Calibration
The 5 k thin-film input resistor is laser trimmed to produce a
current which matches the full-scale current of the internal
DAC—plus about 0.3%—when an analog input voltage of 9.990
volts (10 volts – 1 LSB) is applied at the input. The input resis-
tor is trimmed in this way so that if a fine trimming potentiom-
eter is inserted in series with the input signal, the input current
at the full-scale input voltage can be trimmed down to match
the DAC full-scale current as precisely as desired. However, for
many applications the nominal 9.99 volt full scale can be
achieved to sufficient accuracy by simply inserting a 15
tor in series with the analog input to Pin 14. Typical full-scale
calibration error will then be within 2 LSB or 0.2%. If more
precise calibration is desired, a 50
instead. Set the analog input at 9.990 volts, and set the trimmer
so that the output code is just at the transition between
11111111 10 and 11111111 11. Each LSB will then have a
weight of 9.766 mV. If a nominal full scale of 10.24 volts is de-
sired (which makes the LSB have a weight of exactly 10.00 mV),
a 100
good resolution) should be used. Of course, larger full-scale
ranges can be arranged by using a larger input resistor, but lin-
earity and full-scale temperature coefficient may be compro-
mised if the external resistor becomes a sizeable percentage of
5 k . Figure 3 illustrates the connections required for full-scale
calibration.
Unipolar Offset Calibration
Since the Unipolar Offset is less than 1 LSB for all versions of
the AD573, most applications will not require trimming. Figure
4 illustrates two trimming methods which can be used if greater
accuracy is necessary.
resistor and a 100
Figure 3. Standard AD573 Connections
Figure 2. AD573 Pin Connections
MSB DB9
LSB DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
DB8
10
1
2
3
4
5
6
7
8
9
(Not to Scale)
TOP VIEW
PIN 1
IDENTIFIER
AD573
trimmer (or a 200
20
19
18
16
15
14
13
12
17
11
trimmer should be used
HBE
LBE
DR
DIG COM
BIP OFF
ANALOG COM
ANALOG IN
V–
CONVERT
V+
trimmer with
resis-
–4–
Figure 4a shows how the converter zero may be offset by up to
offsets. As shown, the circuit gives approximately symmetrical
adjustment in unipolar mode.
Figure 5 shows the nominal transfer curve near zero for an
AD573 in unipolar mode. The code transitions are at the edges
of the nominal bit weights. In some applications it will be pref-
erable to offset the code transitions so that they fall between the
nominal bit weights, as shown in the offset characteristics.
Figure 5. AD573 Transfer Curve—Unipolar Operation
(Approximate Bit Weights Shown for Illustration, Nominal
Bit Weights ~ 9.766 mV)
This offset can easily be accomplished as shown in Figure 4b. At
balance (after a conversion) approximately 2 mA flows into the
Analog Common terminal. A 2.7
terminal will result in approximately the desired 1/2 bit offset of
the transfer characteristics. The nominal 2 mA Analog Common
current is not closely controlled in manufacture. If high accu-
racy is required, a 5
can be used as R1. Additional negative offset range may be ob-
tained by using larger values of R1. Of course, if the zero transi-
tion point is changed, the full-scale transition point will also
move. Thus, if an offset of 1/2 LSB is introduced, full-scale
trimming as described on the previous page should be done with
an analog input of 9.985 volts.
NOTE: During a conversion, transient currents from the Analog
Common terminal will disturb the offset voltage. Capacitive
decoupling should not be used around the offset network. These
transients will settle appropriately during a conversion. Capaci-
tive decoupling will “pump up” and fail to settle resulting in
conversion errors. Power supply decoupling, which returns to
analog signal common, should go to the signal input side of the
resistive offset network.
3 bits to correct the device initial offset and/or input signal
Figure 4a.
Figure 4. Offset Trims
potentiometer (connected as a rheostat)
resistor in series with this
Figure 4b.
REV. A
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