AD9513/PCBZ Analog Devices Inc, AD9513/PCBZ Datasheet - Page 17

AD9513/PCBZ

Manufacturer Part Number

AD9513/PCBZ

Description

800MHz 3-Chan Clock Distribution EB

Manufacturer

Analog Devices Inc

Datasheet

1.AD9513BCPZ.pdf (28 pages)

Specifications of AD9513/PCBZ

Main Purpose

Timing, Clock Distribution

Utilized Ic / Part

AD9513

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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FUNCTIONAL DESCRIPTION

OVERALL

The AD9513 provides for the distribution of its input clock on

up to three outputs. Each output can be set to either LVDS or

CMOS logic levels. Each output has its own divider that can be

set for a divide ratio selected from a list of integer values from

1 (bypassed) to 32.

OUT2 includes an analog delay block that can be set to add an

additional delay of 1.8 ns, 6.0 ns, or 11.6 ns full scale, each with

16 levels of fine adjustment.

CLK, CLKB—DIFFERENTIAL CLOCK INPUT

The CLK and CLKB pins are differential clock input pins.

This input works up to 1600 MHz. The jitter performance is

degraded by a slew rate below 1 V/ns. The input level should be

between approximately 150 mV p-p to no more than 2 V p-p.

Anything greater can result in turning on the protection diodes

on the input pins.

See Figure 18 for the CLK equivalent input circuit. This input

is fully differential and self-biased. The signal should be ac-

coupled using capacitors. If a single-ended input must be used,

this can be accommodated by ac coupling to one side of the

differential input only. The other side of the input should be

bypassed to a quiet ac ground by a capacitor.

SYNCHRONIZATION

Power-On SYNC

A power-on sync (POS) is issued when the V

turned on to ensure that the outputs start in synchronization.

The power-on sync works only if the V

tions the region from 2.2 V to 3.1 V within 35 ms. The POS can

occur up to 65 ms after V

not divide = 1 are synchronized.

CLKB

CLK

Figure 18. Clock Input Equivalent Circuit

5kΩ

2.5kΩ

crosses 2.2 V. Only outputs which are

2.5kΩ

CLOCK INPUT

power supply transi-

STAGE

power supply is

Rev. 0 | Page 17 of 28

OUT

SYNCB

If the setup configuration of the AD9513 is changed during

operation, the outputs can become unsynchronized. The

outputs can be resynchronized to each other at any time.

Synchronization occurs when the SYNCB pin is pulled low and

released. The clock outputs (except where divide = 1) are forced

into a fixed state (determined by the divide and phase settings)

and held there in a static condition, until the SYNCB pin is

returned to high. Upon release of the SYNCB pin, after four

cycles of the clock signal at CLK, all outputs continue clocking

in synchronicity (except where divide = 1).

When divide = 1 for an output, that output is not affected by

SYNCB.

SYNCB

The outputs of the AD9513 can be synchronized by using the

SYNCB pin. Synchronization aligns the phases of the clock

outputs, respecting any phase offset that has been set on an

output’s divider.

CLK

SYNCB

CLK

OUT

CLK

INTERNAL SYNC NODE

DEPENDS ON PREVIOUS STATE

EXAMPLE: DIVIDE ≥ 8

PHASE = 0

DIVIDE = 2

PHASE = 0

CLOCK FREQUENCY

IS EXAMPLE ONLY

Figure 21. SYNCB Timing with No Clock Present

3 CLK CYCLES

MIN 5ns

Figure 20. SYNCB Timing with Clock Present

Figure 22. SYNCB Equivalent Input Circuit

Figure 19. Power-On Sync Timing

SYNCB

2.2V

DEPENDS ON PREVIOUS STATE AND DIVIDE RATIO

4 CLK CYCLES

35ms

MAX

3.1V

4 CLK CYCLES

< 65ms

EXAMPLE DIVIDE

RATIO PHASE = 0

3.3V

EXAMPLE DIVIDE

RATIO PHASE = 0

AD9513

AD9513/PCBZ Analog Devices Inc, AD9513/PCBZ Datasheet - Page 17

AD9513/PCBZ

Specifications of AD9513/PCBZ

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