EVAL-AD5440EB Analog Devices Inc, EVAL-AD5440EB Datasheet - Page 17

EVAL-AD5440EB

Manufacturer Part Number

EVAL-AD5440EB

Description

BOARD EVALUATION FOR AD5440

Manufacturer

Analog Devices Inc

Datasheet

1.AD5725ARSZ-500RL7.pdf (20 pages)

Specifications of EVAL-AD5440EB

Number Of Dac's

Number Of Bits

Outputs And Type

2, Differential

Sampling Rate (per Second)

21.3M

Data Interface

Parallel

Settling Time

35ns

Dac Type

Current

Voltage Supply Source

Single

Operating Temperature

-40°C ~ 125°C

Utilized Ic / Part

AD5440

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Current page: 17 of 20
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POWER SUPPLIES

Power supplies required are AV

supply can be set between −15 V and 0 V. AV

supply; its operating range is between +5 V and +15 V.

It is normally connected to +5 V. This pin is a logic reference

input only. It does not supply current to the device. If the readback

function is not used, V

not supply current to the AD5725, it does supply current to the

digital outputs when the readback function is used.

REFERENCE CONFIGURATION

Output voltage ranges can be configured as either unipolar or

bipolar, and within these choices, a wide variety of options

exists. The unipolar configuration can be either a positive or a

negative voltage output, and the bipolar configuration can be

either symmetrical or nonsymmetrical.

BALANCE

GAIN

100kΩ

INPUT

is the digital output supply voltage for the readback function.

100kΩ

ADR01

+15V

OUTPUT

TRIM

Figure 28. Symmetrical Bipolar Operation

AD688 FOR ±10V

AD588 FOR ±5V

+15V

Figure 27. Unipolar +10 V Operation

39kΩ

10kΩ

+10V OPERATION

OP1177

can be left open-circuit. While V

±5 OR ±10V OPERATION

1µF

0.2µF

, AV

0.2µF

6.2Ω

REFN

REFP

, and V

AD5725

REFP

REFN

+15V

–15V

+15V

–15V

. The AV

is the positive

0.1µF

10µF

0.1µF

10µF

does

Rev. A | Page 17 of 20

Figure 28 (Symmetrical Bipolar Operation) shows the AD5725

configured for ±10 V operation. See the

full explanation of reference operation. Adjustments may not be

required for many applications since the AD688 is a very high

accuracy reference. However, if additional adjustments are

required, adjust the AD5725 full scale first. Begin by loading the

digital full-scale code (0xFFF). Then, adjust the gain adjust

potentiometer to attain a DAC output voltage of 9.9976 V.

Then, adjust the balance adjust to set the mid-scale output

voltage to 0.000 V.

The 0.2 μF bypass capacitors shown at the reference inputs in

Figure 28 should be used whenever ±10 V references are used.

Applications with single references or references to ±5 V may

not require the 0.2 μF bypassing. The 6.2 Ω resistor in series

with the output of the reference amplifier is to keep the amplifier

from oscillating with the capacitive load. We have found that

this is large enough to stabilize this circuit. Larger resistor

values are acceptable, provided that the drop across the resistor

does not exceed a V

maximum current of 2.75 mA, the resistor should be under

200 Ω for the loading of a single AD5725.

Using two separate references is not recommended. Having two

references can cause different drifts with time and temperature,

whereas with a single reference, most drifts will track.

Unipolar positive full-scale operation can usually be set with a

reference with the correct output voltage. This is preferable to

using a reference and dividing down to the required value. For a

10 V full-scale output, the circuit can be configured as shown in

Figure 29. In this configuration, the full-scale value is set first by

adjusting the 10 kΩ resistor for a full-scale output of 9.9976 V.

. Assuming a minimum V

AD688

data sheet for a

of 0.6 V and a

AD5725

EVAL-AD5440EB Analog Devices Inc, EVAL-AD5440EB Datasheet - Page 17

EVAL-AD5440EB

Specifications of EVAL-AD5440EB

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