AD9773BSVRL Analog Devices Inc, AD9773BSVRL Datasheet - Page 41

IC,D/A CONVERTER,DUAL,12-BIT,CMOS,TQFP,80PIN

AD9773BSVRL

Manufacturer Part Number

AD9773BSVRL

Description

IC,D/A CONVERTER,DUAL,12-BIT,CMOS,TQFP,80PIN

Manufacturer

Analog Devices Inc

Series

TxDAC®r

Datasheet

1.AD9773BSVZRL.pdf (60 pages)

Specifications of AD9773BSVRL

Rohs Status

RoHS non-compliant

Settling Time

11ns

Number Of Bits

Data Interface

Serial, SPI™

Number Of Converters

Voltage Supply Source

Analog and Digital

Power Dissipation (max)

410mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

80-TQFP Exposed Pad, 80-eTQFP, 80-HTQFP, 80-VQFP

For Use With

AD9773-EBZ - BOARD EVALUATION AD9773

Lead Free Status / RoHS Status

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IMAGE REJECTION AND SIDEBAND SUPPRESSION

OF MODULATED CARRIERS

As shown in Figure 79, image rejection can be achieved by

applying baseband data to the AD9773 and following the

AD9773 with a quadrature modulator. To process multiple

carriers while still maintaining image reject capability, each

carrier must be complex modulated. As Figure 81 shows, single

or multiple complex modulators can be used to synthesize

complex carriers. These complex carriers are then summed and

applied to the real and imaginary inputs of the AD9773.

= REAL

OUTPUT = REAL

COMPLEX BASEBAND

BASEBAND

IMAGINARY

CHANNELS

MULTIPLE

REAL

Figure 80. Two-Stage Complex Upconversion

–ω1 – ω2

SIGNAL

1/2

FREQUENCY = ω

BASEBAND CHANNEL N

BASEBAND CHANNEL 1

BASEBAND CHANNEL 2

MODULATORS

–ω

MULTIPLE

COMPLEX

IMAGINARY INPUT

– ω

REAL INPUT

e j(ω1 + ω2)t

– ω

, ω

...ω

ω1 + ω2

OUTPUT = REAL

FREQUENCY

COMPLEX BASEBAND

IMAGINARY

MODULATOR N

MODULATOR 1

MODULATOR 2

1/2

Figure 82. Image Rejection with Multicarrier Signals

COMPLEX

Figure 81. Synthesis of Multicarrier Complex Signal

REAL

SIGNAL

REJECTED IMAGES

Rev. D | Page 41 of 60

R(1)

R(2)

R(N)

FREQUENCY = ω

MODULATOR

AD9773

COMPLEX

j(ω

R(N) = REAL OUTPUT OF N

I(N) = IMAGINARY OUTPUT OF N

+ ω

A system in which multiple baseband signals are complex

modulated and then applied to the AD9773 real and imaginary

inputs followed by a quadrature modulator is shown in

Figure 82, which also describes the transfer function of this

system and the spectral output. Note the similarity of the

transfer functions given in Figure 82 and Figure 80. Figure 82

adds an additional complex modulator stage for the purpose of

summing multiple carriers at the AD9773 inputs. Also, as in

Figure 79, the image rejection is not dependent on the real or

imaginary baseband data on any channel. Image rejection on a

channel occurs if either the real or imaginary data, or both, is

present on the baseband channel.

It is important to remember that the magnitude of a complex

signal can be 1.414× the magnitude of its real or imaginary

components. Due to this 3 dB increase in signal amplitude, the

real and imaginary inputs to the AD9773 must be kept at least

3 dB below full scale when operating with the complex

modulator. Overranging in the complex modulator results in

severe distortion at the DAC output.

+ ω

MULTICARRIER

REAL OUTPUT =

R(1) + R(2) + . . .R(N)

(TO REAL INPUT OF AD9773)

MULTICARRIER

IMAGINARY OUTPUT =

I(1) + I(2) + . . .I(N)

(TO IMAGINARY INPUT OF AD9773)

IMAGINARY

+ ω

REAL

+ ω

FREQUENCY = ω

QUADRATURE

MODULATOR

REAL

AD9773

AD9773BSVRL Analog Devices Inc, AD9773BSVRL Datasheet - Page 41

AD9773BSVRL

Specifications of AD9773BSVRL

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