AD9512/PCB Analog Devices Inc, AD9512/PCB Datasheet - Page 32

AD9512/PCB

Manufacturer Part Number

AD9512/PCB

Description

BOARD EVAL CLOCK 5CHAN 48LFCSP

Manufacturer

Analog Devices Inc

Datasheet

1.AD9512BCPZ-REEL7.pdf (48 pages)

Specifications of AD9512/PCB

Main Purpose

Timing, Clock Distribution

Utilized Ic / Part

AD9512

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / Rohs Status

Not Compliant

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AD9512

SINGLE-CHIP SYNCHRONIZATION

SYNCB—Hardware SYNC

The AD9512 clocks can be synchronized to each other at any

time. The outputs of the clocks are forced into a known state

with respect to each other and then allowed to continue

clocking from that state in synchronicity. Before a

synchronization is done, the FUNCTION Pin must be set as the

input (58h<6:5> = 01b). Synchronization is done by forcing the

FUNCTION pin low, creating a SYNCB signal and then

releasing it.

See the SYNCB: 58h<6:5> = 01b section for a more detailed

description of what happens when the SYNCB: 58h<6:5> = 01b

signal is issued.

Soft SYNC—Register 58h<2>

A soft SYNC can be issued by means of a bit in

SYNCB, except that the polarity is reversed. A 1 written to this

bit forces the clock outputs into a known state with respect to

each other. When a 0 is subsequently written to this bit, the

clock outputs continue clocking from that state in

synchronicity.

MULTICHIP SYNCHRONIZATION

The AD9512 provides a means of synchronizing two or more

AD9512s. This is not an active synchronization; it requires user

monitoring and action. The arrangement of two AD9512s to be

synchronized is shown in Figure 29.

Synchronization of two or more AD9512s requires a fast clock

and a slow clock. The fast clock can be up to 1 GHz and can be

the clock driving the master AD9512 CLK1 input or one of the

outputs of the master. The fast clock acts as the input to the

distribution section of the slave AD9512 and is connected to its

CLK1 input.

The slow clock is the clock that is synchronized across the two

chips. This clock must be no faster than one-fourth of the fast

clock, and no greater than 250 MHz. The slow clock is taken

from one of the outputs of the master AD9512 and acts as a

DSYNC input to the slave AD9512. One of the outputs of the

Rev. A | Page 32 of 48

slave must provide this same frequency back to the DSYNCB

input of the slave.

Multichip synchronization is enabled by writing to

is set, the STATUS pin becomes the output for the SYNC

signal. A low signal indicates an in-sync condition, and

a high indicates an out-of-sync condition.

the maximum separation of the slow clock edges that are

considered synchronized. When 58h<1> = 0b (default), the

slow clock edges must be coincident within 1 to 1.5 high speed

clock cycles. If the coincidence of the slow clock edges is closer

than this amount, the SYNC flag stays low. If the coincidence of

the slow clock edges is greater than this amount, the SYNC flag

is set high. When Register 58h<1> = 1b, the amount of

coincidence required is 0.5 fast clock cycles to 1 fast clock

cycles.

Whenever the SYNC flag is set (high), indicating an out-of-sync

condition, a SYNCB signal applied simultaneously at the

FUNCTION pins of both AD9512s brings the slow clocks into

synchronization.

SYNCB

FUNCTION

(SYNCB)

FUNCTION

CLK1

(SYNCB)

Figure 29. Multichip Synchronization

FAST CLOCK

<1GHz

AD9512

SLAVE

AD9512

MASTER

DSYNC

DETECT

SLOW CLOCK

SYNC

FAST CLOCK

<250MHz

DSYNCB

<1GHz

<250MHz

CLOCK

SLOW

OUTN

OUTM

SYNC

OUTY

SYNCSTATUS

SYNC

AD9512/PCB Analog Devices Inc, AD9512/PCB Datasheet - Page 32

AD9512/PCB

Specifications of AD9512/PCB

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