AD7537KR-REEL Analog Devices Inc, AD7537KR-REEL Datasheet - Page 7

AD7537KR-REEL

Manufacturer Part Number

AD7537KR-REEL

Description

IC DAC 12BIT DUAL MULT 24-SOIC

Manufacturer

Analog Devices Inc

Datasheet

1.AD7537JNZ.pdf (8 pages)

Specifications of AD7537KR-REEL

Rohs Status

RoHS non-compliant

Settling Time

250µs

Number Of Bits

Data Interface

Parallel

Number Of Converters

Voltage Supply Source

Single Supply

Power Dissipation (max)

24mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-SOIC (7.5mm Width)

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APPLICATION HINTS

Output Offset: CMOS D/A converters in circuits such as Fig-

ures 4 and 5 exhibit a code dependent output resistance which

in turn can cause a code dependent error voltage at the output

of the amplifier. The maximum amplitude of this error, which

adds to the D/A converter nonlinearity, depends on V

operation, it is recommended that V

(25

Suitable op amps are the AD711C and its dual version, the

AD712C. These op amps have a wide bandwidth and high slew

rate and are recommended for wide bandwidth ac applications.

AD711/AD712 settling time to 0.01% is typically 3 s.

Temperature Coefficients: The gain temperature coefficient

of the AD7537 has a maximum value of 5 ppm/ C and typical

value of 1 ppm/ C. This corresponds to worst case gain shifts of

2 LSBs and 0.4 LSBs respectively over a 100 C temperature

range. When trim resistors R1 (R3) and R2 (R4) are used to ad-

just full scale range as in Figure 4, the temperature coefficient of

R1 (R3) and R2 (R4) should also be taken into account. For

further information see “Gain Error and Gain Temperature Co-

efficient of CMOS Multiplying DACs”, Application Note, Pub-

lication Number E630c-5-3/86 available from Analog Devices.

High Frequency Considerations: AD7537 output capaci-

tance works in conjunction with the amplifier feedback resis-

tance 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 re-

sistor. This is shown as C1 and C2 in Figures 4 and 5.

Feedthrough: The dynamic performance of the AD7537 de-

pends upon the gain and phase stability of the output amplifier,

together with the optimum choice of PC board layout and de-

coupling components. A suggested printed circuit layout for

Figure 4 is shown in Figure 8 which minimizes feedthrough

from V

MICROPROCESSOR INTERFACING

The byte loading structure of the AD7537 makes it very easy to

interface the device to any 8-bit microprocessor system. Figures

9 and 10 show two interfaces: one for the MC6809 and the

is the amplifier input offset voltage. To maintain specified

REFA

–6

Figure 8. Suggested Layout for AD7537

) (V

, V

REFB

REF

) over the temperature range of operation.

to the output in multiplying applications.

be no greater than

, where

–7–

other for the MC68008. Figure 11 shows how an AD7537 sys-

tem can be easily expanded by tying all the UPD lines together

and using a single decoder output to control these. This ex-

panded system is shown using a Z80 microprocessor but it is

just as easily configured using any other 8-bit microprocessor

system. Note how the system shown in Figure 11 produces 4

analog outputs with a minimum amount of hardware.

Figure 10. AD7537–MC68008 Interface

Figure 11. Expanded AD7537 System

Figure 9. AD7537–MC6809 Interface

AD7537

AD7537KR-REEL Analog Devices Inc, AD7537KR-REEL Datasheet - Page 7

AD7537KR-REEL

Specifications of AD7537KR-REEL

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