ISL54233IRTZ INTERSIL [Intersil Corporation], ISL54233IRTZ Datasheet - Page 10

ISL54233IRTZ

Manufacturer Part Number

ISL54233IRTZ

Description

Wideband Differential 3:1 Multiplexer

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL54233IRTZ.pdf (18 pages)

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BOARD LAYOUT GUIDELINES

• The ISL54233 device must be soldered directly onto the

• The signal traces (1D+, 1D-, 2D+, 2D-, 3D+, 3D-, COM- and

• A four layer PCB board: Signal (top) layer), Thin-Dielectric,

PCB board. No IC sockets can be used. Their parasitic

impedance will degrade the frequency performance.

COM+) must have a controlled (characteristic) impedance of

50Ω ±5%. Tight control on trace width and dielectric

thickness must be followed to get 50Ω lines. Impedance

tests results for controlled lines should be requested from

the board fabrication house.

GND (2nd layer), Thick-Dielectric, GND (3rd layer),

Thin-Dielectric, Signal (Bottom layer) is required to achieve

50Ω traces. The top and bottom thin-dielectric are Nelco

4000-13 or Rogers 4350 core type material. The center

thick-dielectric is FR4 pre-preg material.

Figure 10 illustrates the material and sequencing of the

layers. The dimensions called out are those required to

achieve 50Ω microstrip for the signal traces.

52 mil

5 mil

GND

FIGURE 10. FOUR LAYER BOARD STACK-UP

ROGERS 4350 CORE

FR4 PRE-PREG

TRACE

10 mil

GND

TOP (SIGNAL) LAYER

GND LAYER

BOTTOM LAYER

ISL54233

• Route all controlled impedance signal lines on the top

• The signal trace lengths should be as short ( <1 inch from

• Use Edge - Launch SMA connectors for all signal lines. The

• Ground stitching should be done along signal traces and

• Use dry film solder mask. Clear the solder mask from signal

• Power and/or logic lines can be run on the bottom layer.

• A 4.7µF capacitor is placed from V

(signal) layer with no vias or through holes. Vias or through

holes make it difficult to maintain a controlled impedance

and tend to generate reflections.

SMA connector to the switch pin) and straight as possible. If

it becomes necessary to turn 90°, use two 45° turns or an

arc instead of making a single 90° turn. This reduces

reflections on the signal by minimizing impedance

discontinuities.

SMA connector terminal should be tapered to the signal

trace.

around SMA ground connectors. This helps to isolate the

trace in a ground conduit. This reduces capacitive coupling

between traces and provides a good return path for the

signal.

trace.

Logic lines should be routed away from the signal lines. This

will minimize capacitive coupling from the logic lines.

is brought onto the board. It keeps any low frequency noise

from getting on the board. Since a bulk capacitor will look

inductive at higher frequencies, an additional 0.1µF capacitor

is placed across the supply lines. A 0.01µF decoupling

capacitor needs to be connected from the V

of the ISL54233 part to filter out any power supply noise from

entering the part. The capacitor should be a RF type chip

capacitor and should be located as close to the V

possible. Note: RF type capacitors have a smaller foot-print

than regular capacitors.

to GND where the power

December 21, 2011

pin to ground

pin as

FN7918.0

ISL54233IRTZ INTERSIL [Intersil Corporation], ISL54233IRTZ Datasheet - Page 10

ISL54233IRTZ

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