5962-8512702XA Analog Devices Inc, 5962-8512702XA Datasheet - Page 7

5962-8512702XA

Manufacturer Part Number

5962-8512702XA

Description

ADC Single SAR 12-Bit Parallel 28-Pin SBCDIP

Manufacturer

Analog Devices Inc

Datasheet

1.AD574AKNZ.pdf (12 pages)

Specifications of 5962-8512702XA

Package

28SBCDIP

Resolution

12 Bit

Architecture

SAR

Number Of Adcs

Number Of Analog Inputs

Digital Interface Type

Parallel

Input Type

Voltage

Polarity Of Input Voltage

Unipolar|Bipolar

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REV. B

SUPPLY DECOUPLING AND LAYOUT

CONSIDERATIONS

It is critically important that the AD574A power supplies be fil-

tered, well regulated, and free from high frequency noise. Use of

noisy supplies will cause unstable output codes. Switching

power supplies are not recommended for circuits attempting to

achieve 12-bit accuracy unless great care is used in filtering any

switching spikes present in the output. Remember that a few

millivolts of noise represents several counts of error in a 12-bit

ADC.

Decoupling capacitors should be used on all power supply pins;

the +5 V supply decoupling capacitor should be connected

directly from Pin 1 to Pin 15 (digital common) and the +V

and –V

(Pin 9). A suitable decoupling capacitor is a 4.7 F tantalum

type in parallel with a 0.1 F disc ceramic type.

Circuit layout should attempt to locate the AD574A, associated

analog input circuitry, and interconnections as far as possible

from logic circuitry. For this reason, the use of wire-wrap circuit

construction is not recommended. Careful printed circuit con-

struction is preferred.

GROUNDING CONSIDERATIONS

The analog common at Pin 9 is the ground reference point for

the internal reference and is thus the “high quality” ground for

the AD574A; it should be connected directly to the analog refer-

ence point of the system. In order to achieve all of the high

accuracy performance available from the AD574A in an envi-

ronment of high digital noise content, the analog and digital

commons should be connected together at the package. In some

situations, the digital common at Pin 15 can be connected to

the most convenient ground reference point; analog power

return is preferred.

UNIPOLAR RANGE CONNECTIONS FOR THE AD574A

The AD574A contains all the active components required to

perform a complete 12-bit A/D conversion. Thus, for most situ-

ations, all that is necessary is connection of the power supplies

(+5 V, +12 V/+15 V and –12 V/–15 V), the analog input, and

the conversion initiation command, as discussed on the next

ANALOG

INPUT

0V TO +10V

CONVERT

14 13 12 11 10

Figure 3. AD574A with AD585 Sample and Hold

pins should be decoupled directly to analog common

–V

10k 10k

100pF

AGND

AD585

7404 OR EQ.

REF

NOTE

1. C1, C2, C3 ARE 47 F TANTALUM, BYPASSED BY

0.1 F CERAMIC. LOCATE AT ASSOCIATED A2 PINS.

OFFSET

100k

–15V

+15V

TO A1

100

100k

–V

GAIN

AD574A

STATUS

3-STATE

12-BIT

DATA

+15V

+5V

–15V

–7–

page. Analog input connections and calibration are easily ac-

complished; the unipolar operating mode is shown in Figure 4.

All of the thin-film application resistors of the AD574A are

trimmed for absolute calibration. Therefore, in many applica-

tions, no calibration trimming will be required. The absolute

accuracy for each grade is given in the specification tables.

For example, if no trims are used, the AD574AK guarantees

full-scale error. (Typical full-scale error is 2 LSB.) If the offset

trim is not required, Pin 12 can be connected directly to Pin 9;

the two resistors and trimmer for Pin 12 are then not needed. If

the full-scale trim is not needed, a 50

should be connected between Pin 8 and Pin 10.

The analog input is connected between Pin 13 and Pin 9 for a

0 V to +10 V input range, between 14 and Pin 9 for a 0 V to

+20 V input range. The AD574A easily accommodates an input

signal beyond the supplies. For the 10 volt span input, the LSB

has a nominal value of 2.44 mV; for the 20 volt span, 4.88 mV.

If a 10.24 V range is desired (nominal 2.5 mV/bit), the gain

trimmer (R2) should be replaced by a 50

200

for a full-scale range of 20.48 V (5 mV/bit), use a 500

mer into Pin 14. The gain trim described below is now done

with these trimmers. The nominal input impedance into Pin 13

is 5 k , and 10 k into Pin 14.

UNIPOLAR CALIBRATION

The AD574A is intended to have a nominal 1/2 LSB offset so

that the exact analog input for a given code will be in the middle

of that code (halfway between the transitions to the codes above

and below it). Thus, the first transition (from 0000 0000 0000

to 0000 0000 0001) will occur for an input level of +1/2 LSB

(1.22 mV for 10 V range).

If Pin 12 is connected to Pin 9, the unit will behave in this man-

ner, within specifications. If the offset trim (R1) is used, it

should be trimmed as above, although a different offset can be

set for a particular system requirement. This circuit will give ap-

proximately 15 mV of offset trim range.

1 LSB max zero offset error and 0.25% (10 LSB) max

–12V/–15V

trimmer inserted in series with the analog input to Pin 13

ANALOG

INPUTS

100

Figure 4. Unipolar Input Connections

100k

0 TO +10V

0 TO +20V

OFFSET

100k

+12V/+15V

GAIN

100

12/8

R/C

REF IN

REF OUT

BIP OFF

10V

20V

ANA COM

AD574A

1% metal film resistor

resistor, and a

DIG COM

MIDDLE

HIGH

LOW

BITS

+15V

–15V

BITS

AD574A

STS

+5V

BIT

trim-

5962-8512702XA Analog Devices Inc, 5962-8512702XA Datasheet - Page 7

5962-8512702XA

Specifications of 5962-8512702XA

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