ADC0804LCN National Semiconductor, ADC0804LCN Datasheet - Page 33

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ADC0804LCN

Manufacturer Part Number
ADC0804LCN
Description
IC, ADC, 8BIT, 9708SPS, DIP-20
Manufacturer
National Semiconductor
Datasheet

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
Note 25: In order for the microprocessor to service subroutines and interrupts, the stack pointer must be dimensioned in the user’s program.
For amplification of DC input signals, a major system error is
the input offset voltage of the amplifiers used for the preamp.
Figure 18 is a gain of 100 differential preamp whose offset
voltage errors will be cancelled by a zeroing subroutine
which is performed by the INS8080A microprocessor sys-
tem. The total allowable input offset voltage error for this
preamp is only 50 µV for
require very precise amplifiers. The expression for the differ-
ential output voltage of the preamp is:
SAMPLE PROGRAM FOR Figure 17 INTERFACING MULTIPLE A/D’s IN AN MC6800 SYSTEM
SAMPLE PROGRAM FOR Figure 17 INTERFACING MULTIPLE A/D’s IN AN MC6800 SYSTEM
1
4
LSB error. This would obviously
(Continued)
33
where I
error terms can be cancelled by making
V
scheme.
The INS8080A uses the 3 I/O ports of an INS8255 Progra-
mable Peripheral Interface (PPI) to control the auto zeroing
and input data from the ADC0801 as shown in Figure 19 .
The PPI is programmed for basic I/O operation (mode 0) with
Port A being an input port and Ports B and C being output
ports. Two bits of Port C are used to alternately open or close
the 2 switches at the input of the preamp. Switch SW1 is
closed to force the preamp’s differential input to be zero
during the zeroing subroutine and then opened and SW2 is
then closed for conversion of the actual differential input
signal. Using 2 switches in this manner eliminates concern
for the ON resistance of the switches as they must conduct
only the input bias current of the input amplifiers.
Output Port B is used as a successive approximation regis-
ter by the 8080 and the binary scaled resistors in series with
each output bit create a D/A converter. During the zeroing
subroutine, the voltage at V
required to make the differential output voltage equal to zero.
This is accomplished by ensuring that the voltage at the
output of A1 is approximately 2.5V so that a logic “1” (5V) on
OS3
− V
X
is the current through resistor R
OS2
. This is the principle of this auto-zeroing
x
increases or decreases as
X
. All of the offset
±
I
DS005671-A3
X
R
DS005671-A4
www.national.com
X
= V
OS1
+

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