AD9775BSVRL Analog Devices Inc, AD9775BSVRL Datasheet - Page 19

AD9775BSVRL

Manufacturer Part Number

AD9775BSVRL

Description

IC DAC 14BIT DUAL 160MSPS 80TQFP

Manufacturer

Analog Devices Inc

Series

TxDAC+®r

Datasheet

1.AD9775BSVZRL.pdf (56 pages)

Specifications of AD9775BSVRL

Rohs Status

RoHS non-compliant

Settling Time

11ns

Number Of Bits

Data Interface

Parallel

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

AD9775-EBZ - BOARD EVALUATION FOR AD9775

Current page: 19 of 56
Download datasheet (2Mb)

ADDRESS 0x00

Bit 7: Logic 0 (default) causes the SPI_SDIO pin to act as an

input during the data transfer (Phase 2) of the communications

cycle. When set to 1, SPI_SDIO can act as an input or output,

depending on Bit 7 of the instruction byte.

Bit 6: Logic 0 (default) determines the direction (LSB/MSB

first) of the communications and data transfer communications

cycles. Refer to the MSB/LSB Transfers section for more details.

Bit 5: Writing 1 to this bit resets the registers to their default

values and restarts the chip. The RESET bit always reads back 0.

However, a high level at the RESET pin forces all registers,

including those in Address 0x00, to their default state.

Bit 4: Sleep Mode. A Logic 1 to this bit shuts down the DAC

output currents.

Bit 3: Power Down. Logic 1 shuts down all analog and digital

functions except for the SPI port.

Bit 2: 1R/2R Mode. The default (0) places the AD9775 in two-

resistor mode. In this mode, the I

DAC references are set separately by the R

and FSADJ2 (Pin 60 and Pin 59). In 2R mode, assuming the coarse

gain setting is full scale and the fine gain setting is zero,

With this bit set to 1, the reference currents for both I and Q

DACs are controlled by a single resistor on Pin 60. I

one-resistor mode for both of the I and Q DACs is half of what

it would be in 2R mode, assuming all other conditions (R

each DAC can still be set to 20 mA by choosing a resistor of half

the value of the R

Bit 1: PLL_LOCK Indicator. When the PLL is enabled, reading

this bit gives the status of the PLL. A Logic 1 indicates the PLL

is locked. A Logic 0 indicates an unlocked state.

ADDRESS 0x01

Bit 7 and Bit 6: This is the filter interpolation rate according to

the following table.

Table 11.

Bit 5 and Bit 4: This is the modulation mode according to the

following table.

Table 12.

FULLSCALE1

= 32 × V

SET

REF

/FSADJ1 and I

value used in 2R mode.

REF

1×

2×

4×

8×

None

FULLSCALE2

currents for the I and Q

SET

= 32 × V

resistors on FSADJ1

REF

FULLSCALE

/FSADJ2.

SET

Rev. E | Page 19 of 56

Bit 3: Logic 1 enables zero-stuffing mode for interpolation filters.

Bit 2: Default (1) enables the real mix mode. The I and Q data

channels are individually modulated by f

the interpolation filters. However, no complex modulation is

done. In the complex mix mode (Logic 0), the digital

modulators on the I and Q data channels are coupled to create a

digital complex modulator. When the AD9775 is applied in

conjunction with an external quadrature modulator, rejection

can be achieved of either the higher or lower frequency image

around the second IF frequency (that is, the LO of the analog

quadrature modulator external to the AD9775) according to the

bit value of Register 0x01, Bit 1.

Bit 1: Logic 0 (default) causes the complex modulation to be of

the form e

image when the AD9775 is used with an external quadrature

modulator. A Logic 1 causes the modulation to be of the form

Bit 0: In two-port mode, a Logic 0 (default) causes Pin 8 to act

as a lock indicator for the internal PLL. A Logic 1 in this register

causes Pin 8 to act as a DATACLK. For more information, see

the Two-Port Data Input Mode section.

ADDRESS 0x02

Bit 7: Logic 0 (default) causes data to be accepted on the inputs

as twos complement binary. Logic 1 causes data to be accepted

as straight binary.

Bit 6: Logic 0 (default) places the AD9775 in two-port mode.

I and Q data enters the AD9775 via Ports 1 and 2, respectively.

A Logic 1 places the AD9775 in one-port mode in which

interleaved I and Q data is applied to Port 1. See Table 9 for

detailed information on how to use the DATACLK/PLL_LOCK,

IQSEL, and ONEPORTCLK modes.

Bit 5: DATACLK Driver Strength. With the internal PLL

disabled and this bit set to Logic 0, it is recommended that

DATACLK be buffered. When this bit is set to Logic 1,

DATACLK acts as a stronger driver capable of driving small

capacitive loads.

Bit 4: Logic 0 (default). A value of 1 inverts DATACLK at Pin 8.

Bit 2: Logic 0 (default). A value of 1 inverts ONEPORTCLK at

Pin 32.

Bit 1: Logic 0 (default) causes IQSEL = 0 to direct input data to

the I channel, while IQSEL = 1 directs input data to the Q

channel.

Bit 0: Logic 0 (default) defines IQ pairing as IQ, IQ… while

programming a Logic 1 causes the pair ordering to be QI, QI…

+jωt

, which causes rejection of the lower frequency image.

− jωt

, resulting in the rejection of the higher frequency

/2, f

/4, or f

AD9775

/8 after

AD9775BSVRL Analog Devices Inc, AD9775BSVRL Datasheet - Page 19

AD9775BSVRL

Specifications of AD9775BSVRL

Related parts for AD9775BSVRL