ICL8052A INTERSIL [Intersil Corporation], ICL8052A Datasheet - Page 12

ICL8052A

Manufacturer Part Number

ICL8052A

Description

Precision 4 1/2 Digit, A/D Converter

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ICL8052A.pdf (23 pages)

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Applications

Specific Circuits Using the 8068A/71C03

8052A/A71C03

Figure 7 shows the complete circuit for a 4

( 200mV full scale) A/D converter with LED readout using

the internal reference of the 8068A/52A. If an external

reference is used, the reference supply (pin 7) should be

connected to ground and the 300pF reference cap deleted.

The circuit also shows a typical RC input filter. Depending on

the application, the time-constant of this filter can be made

faster, slower, or the filter deleted completely. The

LED is driven from the 7-segment decoder, with a zero

reading blanked by connecting a D

the decoder.

A voltage translation network is connected between the

comparator output of the 8068A/52A and the auto-zero input

of the 71C03. The purpose of this network is to assure that,

during auto-zero, the output of the comparator is at or near the

threshold of the 71C03 logic (+2.5V) while the auto-zero

capacitor is being charged to V

instrument). Otherwise, even with 0V in, some reference

integrate period would be required to drive the comparator

output to the threshold level. This would show up as an

equivalent offset error. Once the divider network has been

selected, the unit-to-unit variation should contribute less than

a tenth of a count error. A second feature is the back-to-back

diodes, used to lower the noise. In the normal operating mode

they offer a high impedance and long integrating time

constant to any noise pulses charging the auto-zero cap. At

startup or recovery from an overload, their impedance is low

to large signals so that the cap can be charged up in one

auto-zero cycle. The buffer gain does not have to be set

precisely at 10 since the gain is used in both the integrate and

deintegrate phase. For scale factors other then 200mV the

gain of the buffer should be changed to give a 2V buffer

output. For 2.0000V full scale this means unity gain and for

20,000mV (1 V resolution) a gain of 100 is necessary. Not all

8068As can operate properly at a gain of 100 since their offset

should be less than 10mV in order to accommodate the auto-

zero circuitry. However, for devices selected with less than

10mV offset, the noise performance is reasonable with

approximately 1.5 V near full scale. On all scales less than

200mV, the voltage translation network should be made

adjustable as an offset trim.

REF

(+100mV for a 200mV

signal to RBI input of

digit

The auto-zero cap should be 1 F for all scales and the

reference capacitor should be 1 F times the gain of the

buffer amplifier. At this value if the input leakages of the

8052A/ 8068A are equal, the droop effects will cancel giving

zero offset. This is especially important at high temperature.

Some typical component values are shown in Table 1. For

V++ = +15V, V+ = 5V, V- = -15V

Clock Freq. = 120kHz (4

NOTE: Comment on offset limitations above. Buffer gain does not

improve ICL8052A noise performance adequately.

Full Scale V

Buffer Gain

Resolution (4

----------------------------------- -

RB1

INT

REF

SPECIFICATION

digit conversion, use 12kHz clock.

RB2

Digit)

Note)

(See

0.22

100

TABLE 1.

1.0

Digit) or 12kHz (3

VALUE

0.22

200

100

1.0

2000

1000

0.22

100

1.0

Digit)

UNITS

V/V

ICL8052A INTERSIL [Intersil Corporation], ICL8052A Datasheet - Page 12

ICL8052A

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