AD9775BSVRL Analog Devices Inc, AD9775BSVRL Datasheet - Page 29

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

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DATACLK INVERSION

(Control Register 0x02, Bit 4)

By programming this bit, the DATACLK signal shown in

Figure 52 can be inverted. With inversion enabled, t

the time between the rising edge of CLKIN and the falling edge

of DATACLK. No other effect on timing occurs.

DATA AT PORTS

DATACLK DRIVER STRENGTH

(Control Register 0x02, Bit 5)

The DATACLK output driver strength is capable of driving

>10 mA into a 330 Ω load while providing a rise time of 3 ns.

Figure 53 shows DATACLK driving a 330 Ω resistive load at a

frequency of 50 MHz. By enabling the drive strength option

(Control Register 0x02, Bit 5), the amplitude of DATACLK

under these conditions increases by approximately 200 mV.

Figure 52. Timing Requirements in Two-Port Input Mode, with PLL Enabled

–0.5

3.0

2.5

2.0

1.5

1.0

0.5

1 AND 2

Figure 53. DATACLK Driver Capability into 330 Ω at 50 MHz

DATACLK

CLKIN

TIME (ns)

DELTA APPROX. 2.8ns

= 0.0ns (MIN)

= 2.5ns (MIN)

= 1.5ns (MIN) TO 2.5ns (MAX)

refers to

Rev. E | Page 29 of 56

PLL ENABLED, ONE-PORT MODE

(Control Register 0x02, Bit 6 to Bit 1 and

Control Register 0x04, Bit 7 to Bit 1)

In one-port mode, the I and Q channels receive their data from an

interleaved stream at digital input Port 1. The function of Pin 32 is

defined as an output (ONEPORTCLK) that generates a clock at the

interleaved data rate, which is 2× the internal input data rate of the I

and Q channels. The frequency of CLKIN is equal to the internal

input data rate of the I and Q channels. The selection of the data for

the I or the Q channel is determined by the state of the logic level at

Pin 31 (IQSEL when the AD9775 is in one-port mode) on the

rising edge of ONEPORTCLK. Under these conditions, IQSEL = 0

latches the data into the I channel on the clock rising edge, while

IQSEL = 1 latches the data into the Q channel. It is possible to

invert the I and Q selection by setting Control Register 0x02, Bit 1

to the invert state (Logic 1). Figure 54 illustrates the timing

requirements for the data inputs as well as the IQSEL input. Note

that the 1× interpolation rate is not available in the one-port mode.

The DAC output sample rate in one-port mode is equal to

CLKIN multiplied by the interpolation rate. If zero stuffing is

used, another factor of 2 must be included to calculate the DAC

sample rate.

ONEPORTCLK INVERSION

(Control Register 0x02, Bit 2)

By programming this bit, the ONEPORTCLK signal shown in

Figure 54 can be inverted. With inversion enabled, t

the delay between the rising edge of the external clock and the

falling edge of ONEPORTCLK. The setup and hold times, t

and t

There is no other effect on timing.

INPUT DATA AT PORT 1

I AND Q INTERLEAVED

, are with respect to the falling edge of ONEPORTCLK.

ONEPORTCLK

CLKIN

IQSEL

Figure 54. Timing Requirements in One-Port

Input Mode with the PLL Enabled

IQS

IQH

IQS

IQH

= 3.0ns (MIN)

= –0.5ns (MIN)

= 4.0ns (MIN)

= 3.5ns (MIN)

= –1.5ns (MIN)

TO 5.5ns (MAX)

AD9775

refers to

AD9775BSVRL Analog Devices Inc, AD9775BSVRL Datasheet - Page 29

AD9775BSVRL

Specifications of AD9775BSVRL

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