ADN2814 Analog Devices, Inc., ADN2814 Datasheet - Page 19

ADN2814

Manufacturer Part Number

ADN2814

Description

Continuous Rate 10 Mb/s To 675 Mb/s Clock And Data Recovery Ic With Integrated Limiting Amp

Manufacturer

Analog Devices, Inc.

Datasheet

1.ADN2814.pdf (28 pages)

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The two uses of the reference clock are mutually exclusive. The

reference clock can be used either as an acquisition aid for the

ADN2814 to lock onto data, or to measure the frequency of the

incoming data to within 0.01%. (There is the capability to

measure the data rate to approximately ±10% without the use of

a reference clock.) The modes are mutually exclusive because, in

the first use, the user knows exactly what the data rate is and

wants to force the part to lock onto only that data rate; in the

second use, the user does not know what the data rate is and

wants to measure it.

Lock-to-reference mode is enabled by writing a 1 to I

Bit CTRLA[0]. Fine data rate readback mode is enabled by

writing a 1 to I

these bits at the same time causes an indeterminate state and is

not supported.

VCC

OSC

CLK

VCC

Figure 22. Single-Ended REFCLK Configuration

OUT

REFCLKN

REFCLKP

REFCLKN

Figure 21. Differential REFCLK Configuration

REFCLKP

C Register Bit CTRLA[1]. Writing a 1 to both of

REFCLKP

REFCLKN

Figure 23. No REFCLK Configuration

ADN2814

100kΩ

ADN2814

100kΩ

BUFFER

100kΩ

BUFFER

VCC/2

C Register

Rev. 0 | Page 19 of 28

Using the Reference Clock to Lock onto Data

In this mode, the ADN2814 locks onto a frequency derived

from the reference clock according to

The user must know exactly what the data rate is and provide a

reference clock that is a function of this rate. The ADN2814 can

still be used as a continuous rate device in this configuration,

provided that the user has the ability to provide a reference

clock that has a variable frequency (see Application Note

AN-632).

The reference clock can be anywhere between 10 MHz and

160 MHz. By default, the ADN2814 expects a reference clock of

between 10 MHz and 20 MHz. If it is between 20 MHz and

40 MHz, 40 MHz and 80 MHz, or 80 MHz and 160 MHz, the

user needs to configure the ADN2814 to use the correct

reference frequency range by setting two bits of the CTRLA

Table 11. CTRLA Settings

CTRLA[7:6]

The user can specify a fixed integer multiple of the reference

clock to lock onto using CTRLA[5:2], where CTRLA should be

set to the data rate/DIV_F

divided-down reference referred to the 10 MHz to 20 MHz

band. For example, if the reference clock frequency is 38.88 MHz

and the input data rate is 622.08 Mb/s, CTRLA[7:6] is set to

[01] to give a divided-down reference clock of 19.44 MHz.

CTRLA[5:2] would be set to [0101], that is, 5, because

In this mode, if the ADN2814 loses lock for any reason, it relocks

onto the reference clock and continues to output a stable clock.

While the ADN2814 is operating in lock-to-reference mode, if

the user ever changes the reference frequency, the F

(CTRLA[7:6]), or the F

followed by writing a 0 to 1 transition into the CTRLA[0] bit to

initiate a new lock-to-reference command.

Data Rate/2

622.08 Mb/s/19.44 MHz = 2

Range (MHz)

10 to 20

20 to 40

40 to 80

80 to 160

CTRLA[5:2]

REF

= REFCLK/2

REF

ratio (CTRLA[5:2]), this must be

, where DIV_F

CTRLA[5:2]

0000

0001

1000

CTRLA[7:6]

REF

represents the

ADN2814

REF

Ratio

256

range

ADN2814 Analog Devices, Inc., ADN2814 Datasheet - Page 19

ADN2814

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