AD9752ARUZ Analog Devices Inc, AD9752ARUZ Datasheet - Page 13

AD9752ARUZ

Manufacturer Part Number

AD9752ARUZ

Description

12-BIT 125 MSPS+ TxDAC DAC

Manufacturer

Analog Devices Inc

Series

TxDAC®r

Datasheets

1.AD9752ARZ.pdf (23 pages)

2.AD9752ARUZ.pdf (4 pages)

Specifications of AD9752ARUZ

Settling Time

35ns

Number Of Bits

Data Interface

Parallel

Number Of Converters

Voltage Supply Source

Analog and Digital

Power Dissipation (max)

220mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-TSSOP

Number Of Channels

Resolution

12b

Interface Type

Parallel

Single Supply Voltage (typ)

Dual Supply Voltage (typ)

Not RequiredV

Architecture

Segment

Power Supply Requirement

Analog and Digital

Output Type

Current

Single Supply Voltage (min)

4.5V

Single Supply Voltage (max)

5.5V

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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SLEEP MODE OPERATION

The AD9752 has a power-down function which turns off the

output current and reduces the supply current to less than

8.5 mA over the specified supply range of 2.7 V to 5.5 V and

temperature range. This mode can be activated by applying a

logic level “1” to the SLEEP pin. This digital input also con-

tains an active pull-down circuit that ensures the AD9752 re-

mains enabled if this input is left disconnected. The AD9752

takes less than 50 ns to power down and approximately 5 s to

power back up.

POWER DISSIPATION

The power dissipation, P

several factors which include: (1) AVDD and DVDD, the

power supply voltages; (2) I

(3) f

input waveform. The power dissipation is directly proportional

to the analog supply current, I

rent, I

Figure 25 and is insensitive to f

Conversely, I

form, f

show I

DVDD = 3 V, respectively. Note, how I

than a factor of 2 when DVDD is reduced from 5 V to 3 V.

REV. 0

OUT

CLOCK

DVDD

CLOCK

, the update rate; (4) and the reconstructed digital

Figure 26. I

0.01

. I

as a function of full-scale sine wave output ratios

) for various update rates with DVDD = 5 V and

, and digital supply DVDD. Figures 26 and 27

AVDD

DVDD

Figure 25. I

is directly proportional to I

is dependent on both the digital input wave-

DVDD

, of the AD9752 is dependent on

RATIO (f

OUTFS

vs. Ratio @ DVDD = 5 V

OUTFS

AVDD

CLOCK

AVDD

0.1

CLOCK

, the full-scale current output;

– mA

, and the digital supply cur-

vs. I

OUT

DVDD

OUTFS

)

is reduced by more

OUTFS

125MSPS

100MSPS

50MSPS

25MSPS

5MSPS

as shown in

–13–

APPLYING THE AD9752

OUTPUT CONFIGURATIONS

The following sections illustrate some typical output configura-

tions for the AD9752. Unless otherwise noted, it is assumed

that I

ing the optimum dynamic performance, a differential output

configuration is suggested. A differential output configuration

may consist of either an RF transformer or a differential op amp

configuration. The transformer configuration provides the opti-

mum high frequency performance and is recommended for any

application allowing for ac coupling. The differential op amp

configuration is suitable for applications requiring dc coupling, a

bipolar output, signal gain and/or level shifting.

A single-ended output is suitable for applications requiring a

unipolar voltage output. A positive unipolar output voltage will

result if IOUTA and/or IOUTB is connected to an appropri-

ately sized load resistor, R

figuration may be more suitable for a single-supply system

requiring a dc coupled, ground referred output voltage. Alterna-

tively, an amplifier could be configured as an I-V converter thus

converting IOUTA or IOUTB into a negative unipolar voltage.

This configuration provides the best dc linearity since IOUTA

or IOUTB is maintained at a virtual ground. Note, IOUTA

provides slightly better performance than IOUTB.

DIFFERENTIAL COUPLING USING A TRANSFORMER

An RF transformer can be used to perform a differential-to-

single-ended signal conversion as shown in Figure 28. A

differentially coupled transformer output provides the optimum

distortion performance for output signals whose spectral content

lies within the transformer’s passband. An RF transformer such

as the Mini-Circuits T1-1T provides excellent rejection of

common-mode distortion (i.e., even-order harmonics) and noise

over a wide frequency range. It also provides electrical isolation

and the ability to deliver twice the power to the load. Trans-

formers with different impedance ratios may also be used for

impedance matching purposes. Note that the transformer

provides ac coupling only.

OUTFS

Figure 27. I

0.01

is set to a nominal 20 mA. For applications requir-

DVDD

LOAD

RATIO (f

vs. Ratio @ DVDD = 3 V

, referred to ACOM. This con-

0.1

CLOCK

OUT

)

125MSPS

100MSPS

50MSPS

25MSPS

5MSPS

AD9752

AD9752ARUZ Analog Devices Inc, AD9752ARUZ Datasheet - Page 13

AD9752ARUZ

Specifications of AD9752ARUZ

Available stocks

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