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Evaluation Board User Guide 

UG-559 

Rev. B | Page 3 of 8 

EVALUATION BOARD QUICK START PROCEDURES 

INITIAL SETUP 

The 

AD8338

 evaluation board needs only a few external 

connections. Setting up this board for the first time requires 
the following: 

A dc supply to power the evaluation board from 6 V to

20 V (6 V is preferred)

Cables to connect the board to the signal source

Cables to connect the board to the oscilloscope

INITIAL CONNECTIONS 

First, connect two SMA to BNC cables from the output SMA 

connectors (OUTP, OUTM) to the oscilloscope. Set the 
oscilloscope to 1 MΩ input impedance. The 

AD8338

 is not 

specified to drive 50 Ω impedances; therefore, it must drive a 
high impedance load.  
When using the 

AD8338

 in standalone mode, which is fully 

differential in and out, set up the signal source as a differential 

output using two channels. Set the phase of the first channel to 
be in phase and set the second channel to be out of phase (180°). 

-

Figure 2. Basic Connections for the 

AD8338

 Evaluation Module,  

Differential Mode 

POWERING UP THE 

AD8338

 

Take the following steps to power up the 

AD8338

 evaluation 

board: 
1. Before applying any signals or supplies, set the jumpers to

their default settings, as indicated on the printed circuit
board (PCB).

2. Set the power supply to 6 V.

3. Enable the output.
4. Set the output amplitude on the signal generator to 0.1 V

 

on each channel (200 mV difference amplitude). Note 

that

 

the 

AD8338-EVALZ

 board includes on-board 50 Ω

 

terminators.

5. Adjust the potentiometer (labeled GAIN ADJ) counter-

clockwise until stopped.

6. Enable the outputs.

Upon correct configuration, the output signal appears on the 
oscilloscope. Manually adjust gain by adjusting the GAIN ADJ 
potentiometer. If these work, then basic operation of the 

AD8338-EVALZ

 is verified. 

CONFIGURING FOR SINGLE-ENDED INPUT, 
DIFFERENTIAL OUTPUT 

The 

AD8338-EVALZ

 is equipped with the 

ADA4940-1

 

differential driver amplifier. Bring this amplifier into the signal 
chain through the setting of the J5, J6, J7, and J8 jumpers as 
highlighted in Figure 3. 
When these jumpers (J5 to J7 and J8) are set, the input 
connectors (J3 and J4) are disconnected from the 

AD8338

, and 

fed into the 

ADA4940-1

. Input Connector J4 becomes inert and 

is no longer necessary and Input Connector J3 becomes the 

single-ended input source. The 

ADA4940-1

 operates in unity-

gain difference.  

Figure 3. 

AD8338-EVALZ

 Board with Jumpers Set for  

Single-Ended Input Mode 

OSCILLOSCOPE

AD8338

EVALUATION BOARD

DIFFERENTIAL
OUTPUT
SIGNAL
SOURCE

1

1510-

002

1

1510-

003

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Summary of Contents for AD8338-EVALZ

Page 1: ...put An oscilloscope with a 100 MHz minimum bandwidth 3 SMA M to BNC M cables ONLINE RESOURCES AD8338 data sheet UG 559 user guide GENERAL DESCRIPTION This user guide describes the AD8338 evaluation bo...

Page 2: ...ols 4 Modes and Input and Output Signals 4 Default Operation and Jumper Selection Settings 4 Evaluation Board Schematic 6 Ordering Information 7 Bill of Materials 7 REVISION HISTORY 3 16 Rev A to Rev...

Page 3: ...s as indicated on the printed circuit board PCB 2 Set the power supply to 6 V 3 Enable the output 4 Set the output amplitude on the signal generator to 0 1 V on each channel 200 mV difference amplitud...

Page 4: ...In this mode the user controls the rms output level through applying an input signal to VAGC For the lowest gain VAGC is tied to VREF where the loop attempts to attenuate the output to 0 V rms As the...

Page 5: ...in equals 0 dB Figure 5 Jumper Configuration for MODE Low Configuration for Using AGC Loop For the application of the AGC loop set MODE on the AD8338 to high Set the DETO jumper P5 as shown in Figure...

Page 6: ...ND GND GND GND GND GND GND GND GND GND GND GND GND GND GND U1 AD8338 J1 WM5534 ND J2 WM5534 ND J3 WM5534 ND J4 WM5534 ND J9 J10 005 01 0003 J11 005 01 0003 J12 J5 005 01 0003 J6 005 01 0003 J7 J8 VSUP...

Page 7: ...C5 C6 C7 C9 C10 C11 C14 C16 C17 2 2 F capacitor 0805 package TDK C2012X7R1C225K125AB 1 R14 24 9 resistor 1 0603 Vishay CRCW060324R9FKEA 1 R15 4 02 k resistor 1 Vishay CRCW06034K02FKEB 2 R5 R6 49 9 re...

Page 8: ...ADDITIONAL RESTRICTIONS Customer may not disassemble decompile or reverse engineer chips on the Evaluation Board Customer shall inform ADI of any occurred damages or any modifications or alterations i...

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