UG-129 Datasheet, PDF(1/8 Page) Analog Devices – Universal Evaluation Board for Dual High Speed Op Amps in MSOP Packages

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UG-129 Datasheet, PDF (1/8 Pages) Analog Devices – Universal Evaluation Board for Dual High Speed Op Amps in MSOP Packages

Evaluation Board User Guide

UG-129

One Technology Way â¢ P.O. Box 9106 â¢ Norwood, MA 02062-9106, U.S.A. â¢ Tel: 781.329.4700 â¢ Fax: 781.461.3113 â¢ www.analog.com

Universal Evaluation Board for Dual High Speed Op Amps

in MSOP Packages

FEATURES

Enables quick breadboarding/prototyping

User-defined circuit configuration

Edge-mounted SMA connector provisions

Easy connection to test equipment and other circuits

RoHS compliant

GENERAL DESCRIPTION

The Analog Devices, Inc., high speed universal evaluation

board (EB-O8RM-2Z) is designed to help customers quickly

prototype new dual op amp circuits and reduce design time.

The evaluation board can be used with almost any Analog

Devices dual op amp in various configurations and applications.

Figure 1 shows the component side of the bare evaluation board,

and Figure 2 shows the circuit side of the bare evaluation board.

The evaluation board is a 2-layer PCB that accepts SMA con-

nectors on the input and output for efficient connection to test

equipment. The ground plane, component placement, and supply

bypassing are laid out to minimize parasitic inductances and

capacitances. The evaluation board components are primarily

SMT 0805 case size, with the exception of the electrolytic

bypass capacitors (C1, C2), which are 3528 case size.

There are two options for supply bypassing. The first option is

connecting additional shunt capacitors (C3, C4) in parallel with

the electrolytic capacitors (C1, C2) from each supply to ground.

This technique of power supply bypassing provides wideband

rejection of unwanted noise on the supply lines. It is implemented

by placing a 0 Î© resistor in the C5 position and shunt capacitors

in the C1, C2, C3, and C4 positions.

The second approach to supply bypassing is to connect one

capacitor between the supply rails. This method uses fewer

components and can improve the power supply rejection ratio

(PSRR) at higher frequencies. It is implemented by inserting a 0 Î©

resistor in the C3 position, inserting the bypass capacitor in the C4

position, and omitting C5. Optimal bypassing is circuit dependent

and therefore must be evaluated by the designer.

Figure 3 shows the evaluation board schematic. Figure 4 and

Figure 6 show the evaluation board assembly drawings. The

PCB layout pattern for the component side is shown in Figure 5,

and the PCB layout pattern for the circuit side is shown in

Figure 7.

EVALUATION BOARD COMPONENT AND CIRCUIT SIDE DIAGRAMS

NOTES

1. THE EVALUATION BOARD SILKSCREEN PART

NUMBER LABELING ON YOUR BOARD MAY BE

DIFFERENT FROM WHAT IS SHOWN HERE.

Figure 1. EB-O8RM-2Z Component Side of Evaluation Board

NOTES

1. THE EVALUATION BOARD SILKSCREEN PART

NUMBER LABELING ON YOUR BOARD MAY BE

DIFFERENT FROM WHAT IS SHOWN HERE.

Figure 2. EB-O8RM-2Z Circuit Side of Evaluation Board

PLEASE SEE THE LAST PAGE FOR AN IMPORTANT

WARNING AND LEGAL TERMS AND CONDITIONS.

Rev. 0 | Page 1 of 8

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