AD9764ARZ Analog Devices Inc, AD9764ARZ Datasheet - Page 10

AD9764ARZ

Manufacturer Part Number

AD9764ARZ

Description

IC,D/A CONVERTER,SINGLE,14-BIT,CMOS,SOP,28PIN

Manufacturer

Analog Devices Inc

Series

TxDAC®r

Datasheet

1.AD9764ARZ.pdf (22 pages)

Specifications of AD9764ARZ

Rohs Compliant

YES

Settling Time

35ns

Number Of Bits

Number Of Converters

Voltage Supply Source

Analog and Digital

Power Dissipation (max)

170mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

AD9764-EB - BOARD EVAL FOR AD9764

Data Interface

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD9764

REFERENCE OPERATION

The AD9764 contains an internal 1.20 V bandgap reference

that can be easily disabled and overridden by an external

reference. REFIO serves as either an input or output, depending

on whether the internal or external reference is selected. If

REFLO is tied to ACOM, as shown in Figure 22, the internal

reference is activated, and REFIO provides a 1.20 V output. In

this case, the internal reference must be compensated externally

with a ceramic chip capacitor of 0.1 F or greater from REFIO

to REFLO. Also, REFIO should be buffered with an external

amplifier having an input bias current less than 100 nA if any

additional loading is required.

The internal reference can be disabled by connecting REFLO to

AVDD. In this case, an external reference may then be applied

to REFIO as shown in Figure 23. The external reference may

provide either a fixed reference voltage to enhance accuracy and

drift performance or a varying reference voltage for gain control.

Note that the 0.1 F compensation capacitor is not required

since the internal reference is disabled, and the high input im-

pedance (i.e., 1 M ) of REFIO minimizes any loading of the

external reference.

REFERENCE CONTROL AMPLIFIER

The AD9764 also contains an internal control amplifier that is

used to regulate the DAC’s full-scale output current, I

The control amplifier is configured as a V-I converter, as shown

in Figure 23, such that its current output, I

the ratio of the V

in Equation 4. I

sources with the proper scaling factor to set I

Equation 3.

The control amplifier allows a wide (10:1) adjustment span of

62.5 A and 625 A. The wide adjustment span of I

OUTFS

ADDITIONAL

EXTERNAL

AVDD

REF

LOAD

over a 2 mA to 20 mA range by setting IREF between

Figure 23. External Reference Configuration

Figure 22. Internal Reference Configuration

REF BUFFER

SET

EXTERNAL

OPTIONAL

REF

REFIO

REF

REFIO

is copied over to the segmented current

0.1 F

and an external resistor, R

SET

REFIO

FS ADJ

REFIO

FS ADJ

+1.2V REF

AD9764

REFLO

REF

50pF

OUTFS

50pF

, is determined by

REFERENCE

CONTROL

AMPLIFIER

COMP1

SET

0.1 F

COMP1

0.1 F

as stated in

CURRENT

SOURCE

, as stated

ARRAY

CURRENT

AVDD

SOURCE

ARRAY

OUTFS

+5V

AVDD

–10–

provides several application benefits. The first benefit relates

directly to the power dissipation of the AD9764, which is pro-

portional to I

second benefit relates to the 20 dB adjustment, which is useful

for system gain control purposes.

The small signal bandwidth of the reference control amplifier is

approximately 1.4 MHz and can be reduced by connecting an

external capacitor between COMP1 and AVDD. The output of

the control amplifier, COMP1, is internally compensated via a

50 pF capacitor that limits the control amplifier small-signal

bandwidth and reduces its output impedance. Any additional

external capacitance further limits the bandwidth and acts as a

filter to reduce the noise contribution from the reference ampli-

fier. Figure 24 shows the relationship between the external

capacitor and the small signal –3 dB bandwidth of the refer-

ence amplifier. Since the –3 dB bandwidth corresponds to the

dominant pole, and hence the time constant, the settling time of

the control amplifier to a stepped reference input response can

be approximated.

The optimum distortion performance for any reconstructed

waveform is obtained with a 0.1 F external capacitor installed.

Thus, if I

capacitor is recommended. Also, since the control amplifier is

optimized for low power operation, multiplying applications

requiring large signal swings should consider using an external

control amplifier to enhance the application’s overall large signal

multiplying bandwidth and/or distortion performance.

There are two methods in which I

which the internal reference is disabled, and the common-mode

voltage of REFIO is varied over its compliance range of 1.25 V

to 0.10 V. REFIO can be driven by a single-supply amplifier or

DAC, thus allowing I

input impedance of REFIO is approximately 1 M , a simple,

low cost R-2R ladder DAC configured in the voltage mode

topology may be used to control the gain. This circuit is shown

in Figure 25 using the AD7524 and an external 1.2 V reference,

the AD1580.

Figure 24. External COMP1 Capacitor vs. –3 dB Bandwidth

SET

. The first method is suitable for a single-supply system in

1000

0.1

REF

0.1

OUTFS

is fixed for an application, a 0.1 F ceramic chip

(refer to the Power Dissipation section). The

REF

COMP1 CAPACITOR – nF

to be varied for a fixed R

REF

can be varied for a fixed

100

SET

. Since the

1000

REV. B

AD9764ARZ Analog Devices Inc, AD9764ARZ Datasheet - Page 10

AD9764ARZ

Specifications of AD9764ARZ

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