AD9776A Analog Devices, AD9776A Datasheet - Page 39

AD9776A

Manufacturer Part Number

AD9776A

Description

Dual 12-Bit, 1 GSPS, Digital-to-Analog Converter

Manufacturer

Analog Devices

Datasheet

1.AD9776A.pdf (56 pages)

Specifications of AD9776A

Resolution (bits)

12bit

Dac Update Rate

1GSPS

Dac Settling Time

n/a

Max Pos Supply (v)

+3.47V

Single-supply

Dac Type

Current Out

Dac Input Format

Par

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Current page: 39 of 56
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SOURCING THE DAC SAMPLE CLOCK

The AD9776A/AD9778A/AD9779A offer two modes of sourcing

the DAC sample clock (DACCLK). The first mode employs an

on-chip clock multiplier that accepts a reference clock operating

at the lower input frequency, most commonly the data input

frequency. The on-chip PLL then multiplies the reference clock

up to a higher frequency, which can then be used to generate all

of the internal clocks required by the DAC. The clock multiplier

provides a high quality clock that meets the performance require-

ments of most applications. Using the on-chip clock multiplier

removes the burden of generating and distributing the high

speed DACCLK at the board level. The second mode bypasses

the clock multiplier circuitry and allows DACCLK to be directly

sourced through the REFCLK pins. This mode enables the user

to source a very high quality input clock directly to the DAC

core. Sourcing the DACCLK directly through the REFCLK pins

may be necessary in demanding applications that require the

lowest possible DAC output noise at higher output frequencies.

In either case (that is, using the on-chip clock multiplier or

sourcing the DACCLK directly though the REFCLK pins), it is

necessary that the REFCLK signal have low jitter to maximize

the DAC noise performance.

DIRECT CLOCKING

When the PLL is disabled (Register 0x09, Bit 7 = 0), the REFCLK

input is used directly as the DAC sample clock (DACCLK). The

frequency of REFCLK needs to be the input data rate multiplied

by the interpolation factor (and by an additional factor of 2 if

zero stuffing is enabled).

CLOCK MULTIPLICATION

When the PLL is enabled (Register 0x09, Bit 7 = 1), the clock

multiplication circuit generates the DAC sample clock from the

lower rate REFCLK input. The functional diagram of the clock

multiplier is shown in Figure 72.

REFCLK

(PIN 5,

PIN 6)

PLL ENABLE

PIN 65 AND

DETECTOR

PLL LOCK

DETECT

0x00[1]

PHASE

0x09[7]

PLL LOOP

0x09[4:3]

Figure 72. Clock Multiplier Circuit

DIVISOR

÷N

FILTER

LOOP

DACCLK

0x09[6:5]

PLL VCO

DIVISOR

÷N

INTERPOLATION

0x01[7:6]

FACTOR

÷IF

VCO

ADC

DATACLK OUT

(PIN 37)

0x0A[7:5]

PLL CONTROL

VOLTAGE

0x08[7:2]

VCO BAND

SELECT

Rev. B | Page 39 of 56

The clock multiplier circuit operates such that the VCO outputs

a frequency, f

multiplied by N1 × N2.

The DAC sample clock frequency, f

When the PLL is enabled, the maximum input clock frequency

keep f

Once the VCO output frequency is known, the correct PLL

band select (Register 0x08, Bits[7:2]) value can be chosen.

PLL Bias Settings

There are three bias settings for the PLL circuitry that should be

programmed to their nominal values. The PLL values shown in

Table 22 are the recommended settings for these parameters.

Table 22. PLL Settings

PLL 3-Wire Interface

Control

PLL Loop Bandwidth

PLL VCO Drive

PLL Bias

The PLL loop bandwidth variable configures the bandwidth of

the PLL loop filter. A setting of 00000 configures the bandwidth

to be approximately 1 MHz. A setting of 11111 configures the

bandwidth to be approximately 10 MHz. The optimal value of

01111 sets the loop bandwidth to be approximately 3 MHz.

Configuring the PLL Band Select Value

The PLL VCO has a valid operating range from approximately

1.0 GHz to 2.0 GHz. This range is covered in 63 overlapping

frequency bands, as shown in Table 23. For any desired VCO

output frequency, there are multiple valid PLL band select values.

It is important to note that the data shown in Table 23 is for a

typical device. Device-to-device variations can shift the actual

VCO output frequency range by 30 MHz to 40 MHz. In addition,

the VCO output frequency varies as a function of temperature.

Therefore, it is required that the optimal PLL band select value

be determined for each individual device at a particular

operating temperature.

The device has an automatic PLL band select feature on chip.

When this feature is enabled, the device determines the optimal

PLL band setting for the device at the given temperature. This

setting holds for a ±60°C temperature swing in ambient tem-

perature. If the device is operated in an environment that

experiences a larger temperature swing, an offset should be

applied to the automatically selected PLL band.

REFCLK

VCO

is 250 MHz. The values of N1 and N2 must be chosen to

DACCLK

in the optimal operating range of 1.0 GHz to 2.0 GHz.

VCO

REFCLK

, equal to the REFCLK input signal frequency

REFCLK

AD9776A/AD9778A/AD9779A

(

0x0A

0x08

0x09

Address

)

DACCLK

Bits

[4:0]

[1:0]

[2:0]

, is equal to

Optimal Setting

01111

011

AD9776A Analog Devices, AD9776A Datasheet - Page 39

AD9776A

Specifications of AD9776A

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