AD561 Analog Devices, AD561 Datasheet - Page 5

AD561

Manufacturer Part Number

AD561

Description

Low Cost 10-Bit Monolithic D/A Converter

Manufacturer

Analog Devices

Datasheet

1.AD561.pdf (8 pages)

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UNIPOLAR CONFIGURATION

This configuration, shown in Figure 2, will provide a unipolar

0 V to +10 V output range.

STEP I . . . ZERO ADJUST

Turn all bits OFF and adjust op amp trimmer, R

output reads 0.000 volts (1 LSB = 9.76 mV).

STEP 11. . . GAIN ADJUST

Turn all bits ON and adjust 50

output is 9.990 volts. (Full scale is adjusted to 1 LSB less than

nominal full scale of 10.000 volts.) If a 10.23 V full scale is desired

(exactly 10 mV/bit), insert a 120

BIPOLAR CONFIGURATION

This configuration, shown in Figure 3, will provide a bipolar

output voltage from –5.000 to +4.990 volts, with positive full

scale occurring with all bits ON (all 1s).

STEP 1. . . ZERO ADJUST

Turn ON MSB only, turn OFF all other bits. Adjust 50

trimmer R

a 120

STEP 11. . . GAIN ADJUST

Turn OFF all bits, adjust 50

–5.000 volts.

Please note that it is not necessary to trim the op amp to obtain

full accuracy at room temperature. In most bipolar situations,

the op amp trimmer is unnecessary unless the untrimmed offset

drift of the op amp is excessive.

The AD561 can also be connected for a 10 volt bipolar range

with an additional external resistor as shown in Figure 4. A

larger value trimmer is required to compensate for tolerance in

the thin film resistors, which are trimmed to match the full-scale

current. For best full scale temperature coefficient performance,

the external resistors should have a TC of –50 ppm/ C.

CIRCUIT DESCRIPTION

A simplified schematic with the essential circuit features of the

AD561 is shown in Figure 5. The voltage reference, CR1, is a

buried Zener (or subsurface breakdown diode). This device

exhibits far better all-around performance than the NPN base-

emitter reverse-breakdown diode (surface Zener), which is in

nearly universal use in integrated circuits as a voltage reference.

Greatly improved long-term stability and lower noise are the

major benefits the buried Zener derives from isolating the

breakdown point from surface stress and mobile oxide charge

effects. The nominal 7.5 volt device (including temperature

compensation circuitry) is driven by a current source to the

negative supply so the positive supply can be allowed to drop as

low as 4.5 volts. The temperature coefficient of each diode is

individually determined; this data is then used to laser trim a

compensating circuit to balance the overall TC to zero. The

typical resulting TC is 0 to 15 ppm/ C. The negative reference

level is inverted and scaled by A

which can be driven by the low positive supply. The AD561,

packaged in the 16-pin DIP, has the +2.5 volt reference (REF

OUT) connected directly to the input of the control amplifier

(REF IN). The buffered reference is not directly available

externally except through the 2.5 k bipolar offset resistor.

REV. A

10 VOLT BUFFERED BIPOLAR OUTPUT

resistor may be placed in parallel with R

, to give 0.000 output volts. For maximum resolution

gain trimmer to give a reading of

to give a +2.5 volt reference,

gain trimmer, R

resistor in series with R

, until the

–5–

The 2.5 k scaling resistor and control amplifier A

1 mA reference current to flow through reference transistor Q

which has a relative emitter area of 8A. This is accomplished by

forcing the bottom of the ladder to the proper voltage. Since Q

and Q

(with area 4A) to carry only 0.5 mA; Q

The first four significant bit cells are exactly scaled in emitter

area to match Q

as for beta match. These effects are insignificant for the lower

order bits, which account for a total of only 1/16 of full scale.

However, the 18 mV V

transistors carrying emitter currents in a ratio of 2:1 must be

corrected. This is achieved by forcing 120 A through the

150

resistors, are actively laser-trimmed at the wafer level to bring

total device accuracy to better than 1/4 LSB. Sufficient ratio

accuracy in the last two bits is obtained by simple emitter area

also carries 1 mA. The ladder voltage drop constrains Q

Figure 3.

Figure 2. 0 V to +10 V Unipolar Voltage Output

interbase resistors. These resistors, and the R-2R ladder

have equal emitter areas and equal 5 k emitter resistors,

Figure 4.

for optimum V

5 V Buffered Bipolar Voltage Output

10 V Buffered Voltage Output

difference between two matched

and V

carries 0.25 mA, etc.

drift match, as well

AD561

then force a

AD561 Analog Devices, AD561 Datasheet - Page 5

AD561

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