AD9747-EBZ View Datasheet(PDF) - Analog Devices

Part Name

Description

Manufacturer

AD9747-EBZ

Dual 8-/10-/12-/14-/16-Bit 250 MSPS Digital-to-Analog Converters

Analog Devices 

0

MIX

RZ

–10

NORMAL

–20

–30

–40

0.5

1.5

2

FS

Figure 36. Transfer Function for Each Analog Operating Mode

AUXILIARY DACS

Two auxiliary DACs are provided on the AD9741/AD9743/

AD9745/AD9746/AD9747. A functional diagram is shown

in Figure 37. The auxiliary DACs are current output devices

with two output pins, AUXP and AUXN. The active pin can

be programmed to either source or sink current. When either

sinking or sourcing, the full-scale current magnitude is 2 mA.

The available compliance range at the auxiliary DAC outputs

depends on whether the output is configured to a sink or source

current. When sourcing current, the compliance voltage is 0 V

to 1.6 V, but when sinking current, the output compliance

voltage reduces to 0.8 V to 1.6 V. Either output can be used, but

only one output of the auxiliary DAC (P or N) is active at any

time. The inactive pin is always in a high impedance state

(>100 kΩ).

0mA

TO

2mA

VBIAS

AUXP

0mA

TO

2mA

SINK

OR

SOURCE

POSITIVE

OR

NEGATIVE

AUXN

Figure 37. Auxiliary DAC Functional Diagram

In a single side band transmitter application, the combination of

the input referred dc offset voltage of the quadrature modulator

and the DAC output offset voltage can result in local oscillator

(LO) feedthrough at the modulator output, which degrades

system performance. The auxiliary DACs can be used to remove

the dc offset and the resulting LO feedthrough. The circuit

configuration for using the auxiliary DACs for performing

dc offset correction depends on the details of the DAC and

modulator interface. An example of a dc-coupled configuration

with low-pass filtering is outlined in the Power Dissipation

section.

AD9741/AD9743/AD9745/AD9746/AD9747

QUADRATURE

MODULATOR V+

AD9747

AUX

DAC1 OR

DAC2

QUAD MOD

I OR Q INPUTS

AD9747

DAC1 OR

DAC2

OPTIONAL

PASSIVE

FILTERING

25Ω TO 50Ω

25Ω TO 50Ω

Figure 38. DAC DC Coupled to Quadrature Modulator with Passive DC Shift

POWER DISSIPATION

Figure 39 shows the power dissipation and current draw of the

AD9741/AD9743/AD9745/AD9746/AD9747. It shows that the

devices have a quiescent power dissipation of about 190 mW.

Most of this comes from the AVDD33 supply. Total power

dissipation increases about 50% as the clock rate is increased

to the maximum clock rate of 250 MHz.

350

310

fOUT = NYQUIST

270

fOUT = DC

230

190

150

0

15

25 50 75 100 125 150 175 200 225 250

fDAC (MHz)

Figure 39. AD9747 Power Dissipation vs. fDAC

12

9

AD9747

6

AD9741

3

0

0 25 50 75 100 125 150 175 200 225 250

fDAC (MHz)

Figure 40. DVDD33 Current vs. fDAC

Rev. 0 | Page 25 of 28

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