adclk954 Analog Devices, Inc., adclk954 Datasheet - Page 10

adclk954

Manufacturer Part Number

adclk954

Description

Two Selectable Inputs, 12 Lvpecl Outputs, Sige Clock Fanout Buffer

Manufacturer

Analog Devices, Inc.

Datasheet

1.ADCLK954.pdf (12 pages)

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ADCLK954

CLOCK INPUT SELECT (IN_SEL) SETTINGS

A Logic 0 on the IN_SEL pin selects the Input CLK0 and

Input CLK0 . A Logic 1 on the IN_SEL pin selects Input CLK1

and Input CLK1 .

PCB LAYOUT CONSIDERATIONS

The ADCLK954 buffer is designed for very high speed applica-

tions. Consequently, high speed design techniques must be used

to achieve the specified performance. It is critically important

to use low impedance supply planes for both the negative supply

board. Providing the lowest inductance return path for switching

currents ensures the best possible performance in the target

application.

The following references to GND plane assume that the V

power plane is grounded for LVPECL operation. Note that for

ECL operation, the V

It is also important to adequately bypass the input and output

supplies. Place a 1 μF electrolytic bypass capacitor within several

inches of each V

addition, place multiple high quality 0.001 μF bypass capacitors

as close as possible to each of the V

the capacitors to the GND plane with redundant vias. Carefully

select high frequency bypass capacitors for minimum induc-

tance and ESR. To improve the effectiveness of the bypass at

high frequencies, minimize parasitic layout inductance. Also,

avoid discontinuities along input and output transmission lines

that can affect jitter performance.

In a 50 Ω environment, input and output matching have a

significant impact on performance. The buffer provides internal

50 Ω termination resistors for both CLKx and CLKx inputs.

Normally, the return side is connected to the reference pin that is

provided. Carefully bypass the termination potential using

ceramic capacitors to prevent undesired aberrations on the

input signal due to parasitic inductance in the termination

) and the positive supply (V

power supply pin to the GND plane. In

power plane becomes the ground plane.

) planes as part of a multilayer

supply pins and connect

Rev. 0 | Page 10 of 12

return path. If the inputs are dc-coupled to a source, take care to

ensure that the pins are within the rated input differential and

common-mode ranges.

If the return is floated, the device exhibits a 100 Ω cross termi-

nation, but the source must then control the common-mode

voltage and supply the input bias currents.

There are ESD/clamp diodes between the input pins to prevent

the application from developing excessive offsets to the input

transistors. ESD diodes are not optimized for best ac perfor-

mance. When a clamp is required, it is recommended that

appropriate external diodes be used.

Exposed Metal Paddle

The exposed metal paddle on the ADCLK954 package is both

an electrical connection and a thermal enhancement. For the

device to function properly, the paddle must be properly

attached to the V

When properly mounted, the ADCLK954 also dissipates heat

through its exposed paddle. The PCB acts as a heat sink for the

ADCLK954. The PCB attachment must provide a good thermal

path to a larger heat dissipation area. This requires a grid of vias

from the top layer down to the V

The ADCLK954 evaluation board (ADCLK954/PCBZ) pro-

vides an example of how to attach the part to the PCB.

Figure 18. PCB Land for Attaching Exposed Paddle

power plane.

VIAS TO V

PLANE

POWER

power plane (see Figure 18).

adclk954 Analog Devices, Inc., adclk954 Datasheet - Page 10

adclk954

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