AD7528KR Analog Devices, AD7528KR Datasheet - Page 6

AD7528KR

Manufacturer Part Number

AD7528KR

Description

CMOS Dual 8-Bit Buffered Multiplying DAC

Manufacturer

Analog Devices

Datasheet

1.AD7528KR.pdf (8 pages)

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AD7528

APPLICATIONS INFORMATION

Application Hints

To ensure system performance consistent with AD7528 specifi-

cations, careful attention must be given to the following points:

1. GENERAL GROUND MANAGEMENT: AC or transient

2. OUTPUT AMPLIFIER OFFSET: CMOS DACs exhibit a

3. HIGH FREQUENCY CONSIDERATIONS: The output

DYNAMIC PERFORMANCE

The dynamic performance of the two DACs in the AD7528 will

depend upon the gain and phase characteristics of the output

amplifiers together with the optimum choice of the PC board

layout and decoupling components. Figure 6 shows the relation

Figure 7. Suggested PC Board Layout for AD7528 with

AD644 Dual Op Amp

C1 LOCATION

voltages between the AD7528 AGND and DGND can cause

noise injection into the analog output. The simplest method

of ensuring that voltages at AGND and DGND are equal is

to tie AGND and DGND together at the AD7528. In more

complex systems where the AGND–DGND intertie is on the

backplane, it is recommended that diodes be connected in

inverse parallel between the AD7528 AGND and DGND

pins (1N914 or equivalent).

code-dependent output resistance which in turn causes a

code-dependent amplifier noise gain. The effect is a code-

dependent differential nonlinearity term at the amplifier

output which depends on V

voltage). This differential nonlinearity term adds to the R/2R

differential nonlinearity. To maintain monotonic operation, it

is recommended that amplifier V

1 LSB over the temperature range of interest.

capacitance of a CMOS DAC works in conjunction with the

amplifier feedback resistance to add a pole to the open loop

response. This can cause ringing or oscillation. Stability can

be restored by adding a phase compensation capacitor in

parallel with the feedback resistor.

–100

–90

–80

–70

–60

–50

Figure 6. Channel-to-Channel Isolation

REF

LSB

AD644

20k

AD7528

AGND

INPUT FREQUENCY – Hz

50k

V+

V–

PIN 8 OF TO-5 CAN (AD644)

DGND

DAC A/DAC B

MSB

100k

REF

AD7528 PIN 1

C2 LOCATION

= +25 C

be no greater than 10% of

is amplifier input offset

= 20V PEAK TO PEAK

200k

= +15V

*NOTE

INPUT SCREENS

FEEDTHROUGH.

LAYOUT SHOWS

COPPER SIDE

(i.e., BOTTOM VIEW).

TO REDUCE

500k

–6–

ship between input frequency and channel to channel isolation.

Figure 7 shows a printed circuit layout for the AD7528 and the

AD644 dual op amp which minimizes feedthrough and crosstalk.

SINGLE SUPPLY APPLICATIONS

The AD7528 DAC R-2R ladder termination resistors are con-

nected to AGND within the device. This arrangement is par-

ticularly convenient for single supply operation because AGND

may be biased at any voltage between DGND and V

8 shows a circuit which provides two +5 V to +8 V analog out-

puts by biasing AGND +5 V up from DGND. The two DAC

reference inputs are tied together and a reference input voltage

is obtained without a buffer amplifier by making use of the

constant and matched impedances of the DAC A and DAC B

reference inputs. Current flows through the two DAC R-2R

ladders into R1 and R1 is adjusted until the V

inputs are at +2 V. The two analog output voltages range from

+5 V to +8 V for DAC codes 00000000 to 11111111.

Figure 9 shows DAC A of the AD7528 connected in a positive

reference, voltage switching mode. This configuration is useful

in that V

operation. However, to retain specified linearity, V

the range 0 V to +2.5 V and the output buffered or loaded with

a high impedance, see Figure 10. Note that the input voltage is

connected to the DAC OUT A and the output voltage is taken

from the DAC V

Figure 10. Typical AD7528 Performance in Single Supply

Voltage Switching Mode (K/B/T, L/C/U Grades)

Figure 9. AD7528 in Single Supply, Voltage Switching Mode

DAC A/DAC B

2 VOLTS

INPUTS

DATA

Figure 8. AD7528 Single Supply Operation

10k

OUT

2.5

(0V TO +2.5V)

is the same polarity as V

= +25 C

REF

= +15V

+15V

3.5

DB0

DB7

A pin.

AD7528

DAC A

DAC B

4.5

AD7528

NONLINEARITY

DAC A

A – Volts

= +15V

REF

AD584J

5.5

SUGGESTED

OP AMP:

AD644

DIFFERENTIAL

NONLINEARITY

allowing single supply

GND

OUT A

REF

6.5

OUT

A and V

B = +5V TO +8V

A = +5V TO +8V

OUT

must be in

. Figure

7.5

REV. B

REF

AD7528KR Analog Devices, AD7528KR Datasheet - Page 6

AD7528KR

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