AD9512/PCBZ Analog Devices Inc, AD9512/PCBZ Datasheet - Page 43

AD9512/PCBZ

Manufacturer Part Number

AD9512/PCBZ

Description

800MHz Clock Distribution Eval Bd.

Manufacturer

Analog Devices Inc

Datasheet

1.AD9512BCPZ-REEL7.pdf (48 pages)

Specifications of AD9512/PCBZ

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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POWER SUPPLY

The AD9512 requires a 3.3 V ± 5% power supply for V

The tables in the Specifications section give the performance

expected from the AD9512 with the power supply voltage

within this range. The absolute maximum range of −0.3 V to

+3.6 V, with respect to GND, must never be exceeded on

the VS pin.

Good engineering practice should be followed in the layout of

power supply traces and ground plane of the PCB. The power

supply should be bypassed on the PCB with adequate

capacitance (>10 μF). The AD9512 should be bypassed with

adequate capacitors (0.1 μF) at all power pins, as close as

possible to the part. The layout of the AD9512 evaluation board

(AD9512/PCB) is a good example.

The AD9512 is a complex part that is programmed for its

desired operating configuration by on-chip registers. These

registers are not maintained over a shutdown of external power.

This means that the registers can lose their programmed values

if V

Careful bypassing should protect the part from memory loss

under normal conditions. Nonetheless, it is important that the

losing its programming.

The internal bias currents of the AD9512 are set by the R

resistors. This resistor should be as close as possible to the value

given as conditions in the Specifications section

be readily obtainable. The bias currents set by this resistor

determine the logic levels and operating conditions of the

internal blocks of the AD9512. The performance figures given

in the Specifications section assume that this specific resistor

value is used.

The exposed metal paddle on the AD9512 package is an

electrical connection, as well as a thermal enhancement. For

the device to function properly, the paddle must be properly

attached to ground (GND). The PCB acts as a heat sink for the

AD9512; therefore, this GND connection should provide a

good thermal path to a larger dissipation area, such as a ground

plane on the PCB. See the layout of the AD9512 evaluation

board (AD9512/PCB or AD9512-VCO/PCB) for a good

example.

SET

power supply not become intermittent, or the AD9512 risks

is lost long enough for the internal voltages to collapse.

= 4.12 kΩ). This is a standard 1% resistor value and should

SET

Rev. A | Page 43 of 48

POWER MANAGEMENT

The power usage of the AD9512 can be managed to use only the

power required for the functions that are being used. Unused

features and circuitry can be powered down to save power. The

following circuit blocks can be powered down, or are powered

down when not selected (see the Register Map and Description

section):

•

Powering down a functional block does not cause the

programming information for that block (in the registers) to be

lost. This means that blocks can be powered on and off without

otherwise having to reprogram the AD9512. However,

synchronization is lost. A SYNC must be issued to

resynchronize (see the Single-Chip Synchronization section).

Any of the dividers are powered down when bypassed—

equivalent to divide-by-one.

The adjustable delay block on OUT4 is powered down

when not selected.

Any output can be powered down. However, LVPECL

outputs have both a safe and an off condition. When the

LVPECL output is terminated, only the safe shutdown

should be used to protect the LVPECL output devices. This

still consumes some power.

The entire distribution section can be powered down when

not needed.

AD9512

AD9512/PCBZ Analog Devices Inc, AD9512/PCBZ Datasheet - Page 43

AD9512/PCBZ

Specifications of AD9512/PCBZ

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