ADC0804LCN National Semiconductor, ADC0804LCN Datasheet - Page 21
ADC0804LCN
Manufacturer Part Number
ADC0804LCN
Description
IC, ADC, 8BIT, 9708SPS, DIP-20
Manufacturer
National Semiconductor
Datasheet
1.ADC0804LCN.pdf
(41 pages)
Specifications of ADC0804LCN
Resolution (bits)
8bit
Sampling Rate
9.708kSPS
Input Channel Type
Differential
Data Interface
CMOS, Parallel, TTL
Supply Current
1.9mA
Digital Ic Case Style
DIP
No. Of Pins
20
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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Functional Description
wire. A 100
capacitor — both the R and C are placed outside the feed-
back loop — from the output of an op amp, if used.
2.3.4 Noise
The leads to the analog inputs (pins 6 and 7) should be kept
as short as possible to minimize input noise coupling. Both
noise and undesired digital clock coupling to these inputs
can cause system errors. The source resistance for these
inputs should, in general, be kept below 5 k . Larger values
of source resistance can cause undesired system noise
pickup. Input bypass capacitors, placed from the analog
inputs to ground, will eliminate system noise pickup but can
create analog scale errors as these capacitors will average
the transient input switching currents of the A/D (see section
2.3.1.). This scale error depends on both a large source
resistance and the use of an input bypass capacitor. This
error can be eliminated by doing a full-scale adjustment of
the A/D (adjust V
section 2.5.2 on Full-Scale Adjustment) with the source re-
sistance and input bypass capacitor in place.
2.4 Reference Voltage
2.4.1 Span Adjust
For maximum applications flexibility, these A/Ds have been
designed to accommodate a 5 V
voltage reference. This has been achieved in the design of
the IC as shown in Figure 6 .
FIGURE 6. The V
series resistor can be used to isolate this
REF
/2 for a proper full-scale reading — see
REFERENCE
DC
, 2.5 V
Design on the IC
(Continued)
DC
DS005671-15
or an adjusted
21
Notice that the reference voltage for the IC is either
voltage applied to the V
voltage that is externally forced at the V
for a ratiometric voltage reference using the V
V
voltage less than 2.5 V
for increased application flexibility. The internal gain to the
V
voltage twice the voltage at pin 9.
An example of the use of an adjusted reference voltage is to
accommodate a reduced span — or dynamic voltage range
of the analog input voltage. If the analog input voltage were
to range from 0.5 V
span would be 3V as shown in Figure 7 . With 0.5 V
applied to the V
voltage can be made equal to
The A/D now will encode the V
with the 0.5V input corresponding to zero and the 3.5 V
input corresponding to full-scale. The full 8 bits of resolution
are therefore applied over this reduced analog input voltage
range.
2.4.2 Reference Accuracy Requirements
The converter can be operated in a ratiometric mode or an
absolute mode. In ratiometric converter applications, the
magnitude of the reference voltage is a factor in both the
output of the source transducer and the output of the A/D
converter and therefore cancels out in the final digital output
code. The ADC0805 is specified particularly for use in ratio-
metric applications with no adjustments required. In absolute
conversion applications, both the initial value and the tem-
perature stability of the reference voltage are important fac-
tors in the accuracy of the A/D converter. For V
ages of 2.4 V
cause conversion errors of
V
and the stability of the V
more important. For example, if the span is reduced to 2.5V,
the analog input LSB voltage value is correspondingly re-
duced from 20 mV (5V span) to 10 mV and 1 LSB at the
V
the allowed initial tolerance of the reference voltage and
requires correspondingly less absolute change with tem-
perature variations. Note that spans smaller than 2.5V place
even tighter requirements on the initial accuracy and stability
of the reference source.
In general, the magnitude of the reference voltage will re-
quire an initial adjustment. Errors due to an improper value
of reference voltage appear as full-scale errors in the A/D
transfer function. IC voltage regulators may be used for
references if the ambient temperature changes are not ex-
cessive. The LM336B 2.5V IC reference diode (from Na-
tional Semiconductor) has a temperature stability of 1.8 mV
typ (6 mV max) over 0˚C T
range parts are also available.
DC
REF
REF
REF
reference voltage can be used for the V
/2 input is 2, making the full-scale differential input
/2 input. In reduced span applications, the initial value
/2 input becomes 5 mV. As can be seen, this reduces
DC
IN
nominal value, initial errors of
(−) pin to absorb the offset, the reference
DC
to 3.5 V
DC
CC
REF
can be applied to the V
±
1 LSB due to the gain of 2 of the
supply pin, or is equal to the
/2 input voltage become even
DC
IN
A
1
⁄
2
(+) signal from 0.5V to 3.5 V
, instead of 0V to 5 V
+70˚C. Other temperature
of the 3V span or 1.5 V
REF
/2 pin. This allows
CC
±
CC
10 mV
www.national.com
supply or a
REF
supply, a 5
REF
1
⁄
/2 input
2
/2 volt-
DC
DC
of the
, the
DC
will
DC
DC
.
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