EVAL-AD5933EBZ Datasheet, PDF(3/32 Page) Analog Devices – Evaluation Board for the 1 MSPS 12-Bit Impedance Converter Network Analyzer

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EVAL-AD5933EBZ Datasheet, PDF (3/32 Pages) Analog Devices – Evaluation Board for the 1 MSPS 12-Bit Impedance Converter Network Analyzer

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Preliminary Technical Data

EVAL-AD5933EB

EVALUATION BOARD HARDWARE

TERMINAL BLOCK FUNCTIONS

Table 1. Terminal Block Function Descriptions

Name

Description

USB

USB Hub for the Evaluation Board.

J2-1

DVDD-5V Digital Circuitry Supply Connection to Pin 9. This connector is decoupled to the digital ground plane via

standard 0.1 Î¼F and 10 Î¼F suppression capacitors. This connector also supplies the high performance, 16 MHz,

surface-mount crystal with the required operating supply voltage.

J2-2

DGND

Digital Ground Connection. This connector is decoupled to J2-1 using standard 0.1 Î¼F and 10 Î¼F suppression

capacitors. The digital ground plane is connected to the analog ground plane at a single point underneath the board.

J3 -1

VDD-AMP Single-Supply Amplifier Connection. There is a facility to place a single-supply operational amplifier (user

supplied) on the output voltage pin (VOUT) of the AD5933. This terminal block is a connection to the single-

supply positive rail of the operation amplifier.

J3-2

AGND

Analog Ground Connection. This connector is decoupled to J3-1 using standard 0.1 Î¼F and 10 Î¼F suppression

capacitors. The analog ground plane is connected to the digital ground plane at a single point underneath the board.

J4-1

AVDD-REF Analog Reference Input Supply to Pin 11. This connector is decoupled to J4-2 via standard 0.1 Î¼F and 10 Î¼F

suppression capacitors.

J4-2

AGND

Analog Ground Connection. This connector is decoupled to J4-1 using standard 0.1 Î¼F and 10 Î¼F suppression

capacitors. The analog ground plane is connected to the digital ground plane at a single point underneath the board.

J5-1

AVDD-SIG Analog Circuit Input Supply to Pin 10. This connector is decoupled to J5-2 via standard 0.1 Î¼F and 10 Î¼F

suppression capacitors.

J5-2

AGND

Analog Ground Connection. This connector is decoupled to J5-1 using standard 0.1 Î¼F and 10 Î¼F suppression

capacitors. The analog ground plane is connected to the digital ground plane at a single point underneath the board.

J6-1

VDD-REF Power Supply Connection for On-Board Reference. This provides a connection to the power supply pin of the

on-board reference at U4 (ADR423).

J6-2

AGND

Analog Ground Connection. This connector is decoupled to J6-1 using standard 0.1 Î¼F and 10 Î¼F suppression

capacitors. The analog ground plane is connected to the digital ground plane at a single point underneath the board.

LINK FUNCTIONS

Table 2. Link Function Descriptions

Link No. Function

LK1

Link 1 is used to connect the output of the optional user-supplied external operational amplifier (U1) to the VOUT SMB

connector (see Figure 1). This op amp can be used to amplify/buffer the output excitation voltage from the AD5933.

Link 1 is used in conjunction with Link 6 and Link 2. When Link 1 and Link 2 are inserted, Link 6 should be removed and vice

versa. The output of the AD5933 either can be connected to the external op amp by removing Link 6 (LK6) and inserting Link 1

and Link 2 (LK1 and LK2) and then routing to SMB VOUT or can be directly routed to SMB VOUT by removing Link 1 and Link 2

(LK1 and LK2) and inserting Link 6 (LK6). Therefore, the signal path is determined by suitably inserting/removing Link 1, Link 2,

and Link 6.

â¢ When Link 1 is inserted, the output of the user-supplied amplifier (for example, AD820 or OP196) is applied to the SMB

output, VOUT. When Link 1 and Link 2 are inserted, Link 6 should be removed to connect the noninverting op amp input

in series with the AD5933 output pin.

â¢ When Link 1 is removed, the output of the user-supplied amplifier is no longer applied to the SMB output, VOUT. When Link 1

and Link 2 are removed, Link 6 should be inserted to connect the AD5933 output pin directly to the VOUT SMB connector.

LK2

This link option is used to connect the output excitation signal from Pin 6 (VOUT) of the AD5933 to the noninverting terminal

of the user-supplied operational amplifier. This link is used in conjunction with Link 1 and Link 6. When Link 1 and Link 2 are

inserted, Link 6 should be removed and vice versa.

â¢ When Link 2 (LK2) is inserted, the output of the AD5933 excitation voltage pin (Pin 6) is applied to the noninverting

terminal (Pin 3 of U1) of the user-supplied operational amplifier.

â¢ When Link 2 is removed, the output of the AD5933 excitation voltage pin (Pin 6) is no longer applied to the noninverting

terminal (Pin 3 of U1) of the user-supplied operational amplifier, but is routed directly to the SMB VOUT if Link 6 (LK6) is

inserted.

LK3

The AD5933 can have an external clock signal applied to Pin 8 (MCLK) or can be clocked internally using the internal RC oscillator.

A high performance, 16 MHz, surface-mount crystal is supplied with the evaluation board (Y2). However, the user can provide

an alternative clock signal by applying a system clock signal through the CLK1 SMB connector. To do this, remove Link 12 (LK12)

and insert Link 3 (LK3). As a result, the clock signal applied at CLK1 will be connected to the clock pin (MCLK).

Rev. PrC | Page 3 of 32

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