AD9516-1BCPZ Analog Devices Inc, AD9516-1BCPZ Datasheet - Page 40

IC,Fourteen Distributed-Output Clock Driver,LLCC,64PIN,PLASTIC

AD9516-1BCPZ

Manufacturer Part Number

AD9516-1BCPZ

Description

IC,Fourteen Distributed-Output Clock Driver,LLCC,64PIN,PLASTIC

Manufacturer

Analog Devices Inc

Type

Clock Generator, Fanout Distributionr

Datasheet

1.AD9516-1BCPZ-REEL7.pdf (80 pages)

Specifications of AD9516-1BCPZ

Pll

Yes

Input

Clock

Output

CMOS, LVDS, LVPECL

Number Of Circuits

Ratio - Input:output

1:14

Differential - Input:output

Yes/Yes

Frequency - Max

2.65GHz

Divider/multiplier

Yes/No

Voltage - Supply

3.135 V ~ 3.465 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

64-LFCSP

Frequency-max

2.65GHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

AD9516-1/PCBZ - BOARD EVALUATION FOR AD9516-1

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9516-1BCPZ

Manufacturer:

ADI

Quantity:

591

Company:

BOSTOCK HK LIMITED

Part Number:

AD9516-1BCPZ

Manufacturer:

XILINX

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD9516-1BCPZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 40 of 80
Download datasheet (3Mb)

AD9516-1

VCO calibration must be manually initiated. This allows for

flexibility in deciding what order to program registers and when

to initiate a calibration, instead of having it happen every time

certain PLL registers have their values change. For example, this

allows for the VCO frequency to be changed by small amounts

without having an automatic calibration occur each time; this

should be done with caution and only when the user knows that

the VCO control voltage is not going to exceed the nominal best

performance limits. For example, a few 100 kHz steps are fine,

but a few MHz might not be). In addition, because the calibration

procedure results in rapid changes in the VCO frequency, the

distribution section is automatically placed in SYNC until the

calibration is finished. Therefore, this temporary loss of outputs

must be expected.

A VCO calibration should be initiated under the following

conditions:

•

CLOCK DISTRIBUTION

A clock channel consists of a pair (or double pair, in the case of

CMOS) of outputs that share a common divider. A clock output

consists of the drivers that connect to the output pins. The clock

outputs have either LVPECL or LVDS/CMOS signal levels at

the pins.

The AD9516 has five clock channels: three channels are

LVPECL (six outputs); two channels are LVDS/CMOS (up

to four LVDS outputs, or up to eight CMOS outputs).

Each channel has its own programmable divider that divides

the clock frequency that is applied to its input. The LVPECL

channel dividers can divide by any integer from 2 to 32, or

the divider can be bypassed to achieve a divide by one. Each

LVDS/CMOS channel divider contains two of these divider

blocks in a cascaded configuration. The total division of the

channel is the product of the divide value of the cascaded

dividers. This allows divide values of (1 to 32) × (1 to 32), or up

to 1024 (note that this is not all values from 1 to 1024 but only

the set of numbers that are the product of the two dividers).

Because the internal VCO frequency is above the maximum

channel divider input frequency (1600 MHz), the VCO divider

must be used after the on-chip VCO. The VCO divider can be

set to divide by 2, 3, 4, 5, or 6. External clock signals connected

to the CLK input also require the VCO divider if the frequency

of the signal is greater than 1600 MHz.

After changing any of the PLL R, P, B, and A divider

settings, or after a change in the PLL reference clock

frequency. This, in effect, means any time a PLL register or

reference clock is changed such that a different VCO

frequency results.

Whenever system calibration is desired. The VCO is

designed to operate properly over extremes of

temperatures even when first calibrated at the opposite

extreme. However, a VCO calibration can be initiated at

any time, if desired.

Rev. A | Page 40 of 80

The channel dividers allow for a selection of various duty cycles,

depending on the currently set division. That is, for any specific

division, D, the output of the divider can be set to high for N + 1

input clock cycles and low for M + 1 input clock cycles (where

D = N + M + 2). For example, a divide-by-5 can be high for one

divider input cycle and low for four cycles, or a divide-by-5 can

be high for three divider input cycles and low for two cycles.

Other combinations are also possible.

The channel dividers include a duty-cycle correction function,

that can be disabled. In contrast to the selectable duty cycle

just described, this function can correct a non-50% duty cycle

caused by an odd division. However, this requires that the

division be set by M = N + 1.

In addition, the channel dividers allow a coarse phase offset or

delay to be set. Depending on the division selected, the output

can be delayed by up to 31 input clock cycles. The divider

outputs can also be set to start high or start low.

Internal VCO or External CLK as Clock Source

The clock distribution of the AD9516 has two clock input sources:

an internal VCO or an external clock connected to the CLK/

CLK pins. Either the internal VCO or CLK must be chosen as

the source of the clock signal to distribute. When the internal

VCO is selected as the source, the VCO divider must be used.

When CLK is selected as the source, it is not necessary to use

the VCO divider if the CLK frequency is less than the

maximum channel divider input frequency (1600 MHz);

otherwise, the VCO divider must be used to reduce the

frequency to one acceptable by the channel dividers.

shows how the VCO, CLK, and VCO divider are selected.

determines whether the VCO divider is used. It is not possible

to select the VCO without using the VCO divider.

Table 30. Selecting VCO or CLK as Source for Channel

Divider, and Whether VCO Divider Is Used

Bit 1

CLK or VCO Direct to LVPECL Outputs

It is possible to connect either the internal VCO or the CLK

(whichever is selected as the input to the VCO divider) directly

to the LVPECL outputs, OUT0 to OUT5. This configuration

can pass frequencies up to the maximum frequency of the VCO

directly to the LVPECL outputs. The LVPECL outputs may not

be able to provide full voltage swing at the highest frequencies.

Bit 0

Channel Divider Source

CLK

VCO

Not allowed

VCO Divider

Used

Not used

Used

Not allowed

Table 30

AD9516-1BCPZ Analog Devices Inc, AD9516-1BCPZ Datasheet - Page 40

AD9516-1BCPZ

Specifications of AD9516-1BCPZ

Available stocks

Related parts for AD9516-1BCPZ