UG-XXX (Rev. PrA) - Digi-Key

UG-XXX (Rev. PrA) - Digi-Key
Evaluation Board User Guide
UG-XXX
One Technology Way • P.O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 •
www.analog.com
Evaluation Board for the AD7124-8—
8-Channel, Low Noise, Low Power, 24-bit S-D ADC with In- Amp and Reference
FEATURES
A 7 V to 9 V external supply is regulated to 3.3 V to supply the
AD7124-8 and support all necessary components. The EVALAD7124-8SDZ board connects to the USB port of the PC by
connection to the EVAL-SDP-CB1Z motherboard.
Full featured evaluation board for the AD7124-8
PC control in conjunction with the system demonstration
platform (EVAL-SDP-CB1Z)
PC software for control and data analysis (time domain)
Standalone capability
The EVAL-AD7124-8SDZ software fully configures the
AD7124-8 device register functionality and provides dc time
domain analysis in the form of waveform graphs, histograms,
and associated noise analysis for ADC performance evaluation.
ONLINE RESOURCES
Evaluation Kit Contents
EVAL-AD7124-8SDZ evaluation board
Evaluation software CD for the AD7124-8
Documents Needed
AD7124-8 data sheet
AD7124-8 user guide
Required Software
EVAL-AD7124-8SDZ evaluation software
The EVAL-AD7124-8SDZ is an evaluation board that is designed
to allow the user to evaluate the features of the ADC. The user
PC software executable controls the AD7124-8 over the USB
through the system demonstration platform board (EVAL-SDPCB1Z).
EQUIPMENT NEEDED
EVAL-AD7124-8SDZ evaluation board
EVAL-SDP-CB1Z system demonstration platform
DC signal source
USB cable
PC running Windows with USB 2.0 port
GENERAL DESCRIPTION
The EVAL-AD7124-8SDZ evaluation kit features the AD7124-8
24-bit, low power, low noise analog-to-digital converter (ADC).
FUNCTIONAL BLOCK DIAGRAM
EXT
VOL T AGE
REGU L AT OR
VOL T AGE
REGU L AT OR
NOISE TEST
CIRCUITRY
AD7124-8
AD7124-4
AN AL OG
I N PU T S
SDP-B
SENSOR
CONNECTORS
VOLTAGE
REFERENCE
REFI N
Figure 1. EVAL-AD7124-8SDZ Block Diagram
PLEASE SEE THE LAST PAGE FOR AN IMPORTANT
WARNING AND LEGAL TERMS AND CONDITIONS.
7V to 9V VIN
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PC
+
L ABVI EW
BASED
SOFT WARE
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Evaluation Board User Guide
TABLE OF CONTENTS
Features .............................................................................................. 1
Serial Interface ...............................................................................6
Online Resources .............................................................................. 1
Analog Inputs.................................................................................6
Equipment Needed ........................................................................... 1
Reference Options .........................................................................7
General Description ......................................................................... 1
Evaluation Board Setup Procedures ...........................................7
Functional Block Diagram .............................................................. 1
Evaluation Board Software ...............................................................8
Revision History ............................................................................... 2
Software Installation Procedures.................................................8
EVAL-AD7124-8SDZ Quick Start Guide ...................................... 3
Setting Up the System for Data Capture ................................. 11
Evaluation Board Hardware ............................................................ 4
Software Operation .................................................................... 12
Device Description ....................................................................... 4
Evaluation Board Schematics and Artwork ................................ 18
Hardware Link Options ............................................................... 4
EVAL-AD7124-8SDZ Bill of Materials........................................ 27
Power Supplies .............................................................................. 6
REVISION HISTORY
1/15—Revision PrA: Initial Version
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EVAL-AD7124-8SDZ QUICK START GUIDE
To begin using the evaluation board, do the following:
1.
2.
With the EVAL-SDP-CB1Z board disconnected from the
USB port of the PC, install the AD7124-8 evaluation board
software from the CD included in the evaluation board kit.
The PC must be restarted after the software installation is
complete. (For complete software installation instructions,
see the Software Installation Procedures section.)
Connect the EVAL-SDP-CB1Z board to the EVAL-AD71248SDZ board.
a.
3.
Apply an external voltage in the range of 7 V to 9 V to the J3
or J5 connecter of the EVAL-AD7124-8SDZ board. This
provides the power supply for the board.
4.
Connect the EVAL-SDP-CB1Z board to the PC using the
supplied USB cable. If you are using Windows® XP, you may
need to search for the EVAL-SDP-CB1Z drivers. Choose to
automatically search for the drivers for the EVAL-SDPCB1Z board if prompted by the operating system.
5.
Launch the EVAL-AD7124-8SDZ software from the Analog
Devices subfolder in the Programs menu.
Screw the two boards together using the plastic screwwasher set included in the evaluation board kit to
ensure that the boards are connected firmly together.
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Evaluation Board User Guide
EVALUATION BOARD HARDWARE
DEVICE DESCRIPTION
The AD7124-8 is a low power, low noise, complete analog front
end for high precision measurement applications. It contains a
low noise, 24-bit Σ-Δ ADC. It can be configured to have four
differential inputs or seven single-ended or pseudo-differential
inputs. The on-chip low noise instrumentation amplifier means
that signals of small amplitude can be interfaced directly to the
ADC. Other on-chip features include a low drift 2.5 V
reference, excitation currents, reference buffers, multiple filter
options and many diagnostic features.
this user guide when using the evaluation board. Full details
about the EVAL-SDP-CB1Z are available on the Analog
Devices, Inc., website.
HARDWARE LINK OPTIONS
The default link options are listed in Table 1. By default, the
board is configured to operate from a wall wart (dc plug) power
supply via Connector J5. The supply required for the AD7124-8
comes from the on-board ADP1720 LDOs, which generate their
input voltage from J5.
Complete specifications for the AD7124-8 are provided in the
product data sheet and should be consulted in conjunction with
Table 1. Default Link and Solder Link Options
Link No.
LK1
Default
Option
A
LK2
B
LK3
LK4
Inserted
2.5 V
LK5
Inserted
LK6
Inserted
SL2
A
SL3, SL7
A, A
SL5
B
AVSS to
AGND
R49, R50, R51,
R52
Description
Connects the AVDD voltage to the power supply sequencer, ADM1185.
When AVDD equals 3.3 V, LK1 must be in Position A.
When AVDD equals 1.8 V, LK1 must be in Position B.
Selects the connector for the external 7 V to 9 V power supply.
In Position A, this link selects the external 7 V to 9 V power supply to come from Connector J3.
In Position B, this link selects the external 7 V to 9 V power supply to come from Connector J5.
Inserting this link connects REFIN(-) to AVSS.
Selects the reference source for the ADC.
In position 2.5V, REFIN1(+) is connected to the external 2.5 V reference (ADR4525).
In position INT REF, REFIN1(+) is connected to the REFOUT pin of the AD7124-8. The AD7124-8’s internal
reference can be enabled and applied to the AD7124-8 external to the ADC.
This link shorts AIN0 to AIN1. This is useful to perform noise tests on the AD7124-8. The internal bias can
be enabled on AIN0 or AIN1 so that AIN0 and AIN1 are at an appropriate voltage for the noise test.
Headers J13 and J14 can be used to connect channels AIN4 and AIN5 to external components such as an
external amplifier. Both links at LK6 should be opened to include the external component on the frontend.
Sets the voltage applied to the AVDD pin.
In Position A, this link sets the voltage applied to the AVDD pin to be a 3.3 V supply from the ADP1720-3.3
(U7) regulator or a 2.5 V supply from the ADP1720 (U4) regulator.
In Position B, this link sets the voltage applied to the AVDD pin to be supplied from an external voltage
source via Connector J9.
With SL3 and SL7 in Position A, AVDD is supplied with 3.3 V from ADP1720-3.3 (U7) regulator.
With SL3 and SL7 in Position B, AVDD is supplied with 1.8 V from the ADP1720 (U4) regulator.
With this link in Position A, the IOVDD supply is provided from an external source via Connector J9.
With this link in Position B, the 3.3 V supply is generated by the ADP1720-3.3 (U10) regulator.
The evaluation system operates with 3.3 V logic.
When these links are inserted, AVSS is tied to AGND. When AVSS is set to −1.8 V, these links must be
removed.
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On-Board Connectors
Table 2 provides information about the external connectors on the EVAL-AD7124-8SDZ.
Table 2. On-Board Connectors
Connector
J1
J2
J3
J5
J6
J9
J11
J12
J13
J14
A0
A1
A2
A5
A6
Function
A 120-pin connector that mates with the EVAL-SDP-CB1Z (black colored controller board).
Straight PCB Mount SMB/SMA Jack for master clock (not inserted). The EVAL-AD7124-8SDZ has the
footprint to include an SMA/SMB connector, if an external clock source is being used to provide the
master clock to the ADC.
Bench top power supply voltage input. Apply 7 V to 9 V and GND (0 V) to this connector to power the
evaluation board.
Wall wart (dc plug) power supply voltage input. Apply 7 V to 9 V and GND (0 V) to this connector to
power the evaluation board.
Analog input connector. Connections to AIN0 to AIN5 are available along with REFIN1(+) connections.
This connector can be used to connect an RTD to the AD7124-8.
Optional external connector, allowing external bench top or alternative supply for AVDD and IOVDD.
When split supplies are used, AVSS is supplied externally via J9.
Analog input connector. Connections to AIN6 to AIN7 are available along with REFIN1(+) and analog
power supply connections. This connector can be used to connect a loadcell to the AD7124-8.
6-pin connector. Provides an I2C interface to allow the SDP to interface to a digital temperature sensor.
This is required if a thermocouple is interfaced to the AD7124-8 using connector A2.
7-pin connector which can be used to connect an external amplifier to channel AIN4/AIN5.
7-pin connector which allows connection to pins AIN4 and AIN5.
Straight PCB Mount SMB/SMA Jack. The footprint for an SMA/SMB connector is included on the
evaluation board to provide the signal to analog input AIN4.
Straight PCB Mount SMB/SMA Jack. The footprint for an SMA/SMB connector is included on the
evaluation board to provide the signal to analog input AIN5.
Thermocouple connector. This connector is required useful if a thermocouple is being interfaced to
the evaluation board.
Straight PCB Mount SMB/SMA Jack. The footprint for an SMA/SMB connector is included on the
evaluation board to provide the signal REFIN1(+).
Straight PCB Mount SMB/SMA Jack. The footprint for an SMA/SMB connector is included on the
evaluation board to provide the signal REFIN1(-).
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POWER SUPPLIES
SERIAL INTERFACE
The evaluation board requires that an external power supply—
either a bench top supply or a wall wart (dc plug) supply—be
applied to J3 or J5 (see Table 3 for more information). Linear
regulators generate the required power supply levels from the
applied VIN rail. The regulators used are the ADP1720-3.3 (U7)
and the ADP1720 (U4), which supply 3.3 V and 1.8 V,
respectively, to AVDD of the ADC. The 3.3 V ADP1720 (U10)
delivers 3.3 V to the IOVDD pin of the AD7124.4.
The AD7124-8 evaluation board connects via the SPI to the
Blackfin® ADSP-BF527 on the EVAL-SDP-CB1Z. There are four
primary signals: CS, SCLK, DIN, and DOUT/RDY (all are
inputs, except for DOUT/RDY, which is an output.)
When a split power supply is used, the AVSS voltage must be
applied from an external source via Connector J9. AVDD and
IOVDD can also be provided via Connector J9. However, the 7
V to 9 V supply is still required because the on-board reference
(ADR4525) is supplied from this power supply.
Each supply is decoupled at the point where it enters the board
and again at the point where it connects to each device (see
the schematics shown in Error! Reference source not found. to
Error! Reference source not found. to identify decoupling
points).
If you wish to operate the EVAL-AD7124-8SDZ in standalone
mode, the AD7124-8 serial interface lines can be disconnected
from the 120-pin header by removing the 0 Ω links, R9 through
R13. The test points can then be used to fly-wire the signals to
an alternative digital capture setup.
ANALOG INPUTS
The EVAL-AD7124-8SDZ primary analog inputs can be applied
in two ways:
•
•
Using J6 and J11, the green screw in terminal connectors
Using the A0 and A1 SMB/SMA footprints on the
evaluation board which connect to analog inputs AIN4and
AIN5.
The EVAL-AD7124-8SDZ software is set up to analyze dc
inputs to the ADC.
Table 3. Required External Power Supply 1
1
Power Supply
(VIN) Applied
To
J3
Voltage Range
7 V to 9 V
J5
7 V to 9 V
Function
Bench top supply to the evaluation board. Supplies LDOs that create 3.3 V and 1.8 V rails. It also
supplies the ADR4525 external reference. Ensure that LK2 is set to Position A when the external
power supply is applied to this connector.
Wall wart (dc plug) supply to the evaluation board. Supplies LDOs that create 3.3 V and 1.8 V rails. It
also supplies the ADR4525 external reference. Ensure that LK2 is set to Position B when the
external power supply is applied to this connector.
Only a single supply is required, either J3 or J5. This can be selected using LK2.
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REFERENCE OPTIONS
The EVAL-AD7124-8SDZ includes an external 2.5 V reference
(the ADR4525) and an internal 2.5 V reference. The default
operation is to use the external reference input, which is set to
accept the 2.5 V ADR4525 on the evaluation board.
The reference used for a conversion is selected by choosing the
reference in the Configx registers associated with Setup 0 to
Setup 15.
Switch between using the internal reference and external reference
by accessing the AD7124-8 register map via the evaluation software. Figure 2 shows how to select the reference source for
Setup 0 to Setup 15. Figure 3 shows the ADC_Control register
setting that enables the internal reference.
Figure 3. Turning On the Internal 2.5 V Reference
EVALUATION BOARD SETUP PROCEDURES
After following the instructions in the Software Installation
Procedures section, set up the evaluation and SDP boards as
detailed in this section.
Warning
The evaluation software and drivers must be installed before connecting the evaluation board and EVAL-SDP-CB1Z board to
the USB port of the PC to ensure that the evaluation system is
correctly recognized when it is connected to the PC.
Configuring the Evaluation and SDP Boards
1.
2.
Figure 2. Selecting the Reference Source
3.
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Connect the EVAL-SDP-CB1Z board to Connector A or
Connector B on the EVAL-AD7176-2SDZ board. Screw
the two boards together using the plastic screw-washer set
included in the evaluation board kit to ensure that the
boards are connected firmly together.
Connect the power supplies to the EVAL-AD7124-8SDZ
board. The EVAL-AD7124-8SDZ board, by default, uses
the wall wart (dc plug) supply that accompanies the
evaluation kit. Connect this supply to J5 on the EVALAD7124-8SDZ board. (For more information about the
required connections and available options, refer to the
Power Supplies section.)
Connect the EVAL-SDP-CB1Z board to the PC using the
supplied USB cable.
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Evaluation Board User Guide
EVALUATION BOARD SOFTWARE
when the window opens, but you can select another location
by clicking Browse.)
SOFTWARE INSTALLATION PROCEDURES
The EVAL-AD7124-8SDZ evaluation kit includes a CD
containing software to be installed on your PC before you begin
using the evaluation board.
There are two parts to the installation:
•
•
AD7124-8 evaluation board software installation
EVAL-SDP-CB1Z system demonstration platform board
drivers installation
Warning
The evaluation software and drivers must be installed before
connecting the evaluation board and EVAL-SDP-CB1Z board to
the USB port of the PC to ensure that the evaluation system is
correctly recognized when it is connected to the PC.
Installing the AD7124-8 Evaluation Board Software
To install the AD7124-8 evaluation board software,
1.
2.
3.
With the EVAL-SDP-CB1Z board disconnected from the
USB port of the PC, insert the installation CD into the CDROM drive.
Double-click the setup.exe file to begin the evaluation board
software installation. The software is installed to the
following default location: C:\Program Files\Analog
Devices\AD7124-8.
A dialog box appears asking for permission to allow the
program to make changes to your computer. Click Yes.
Figure 5. AD7124-8 Evaluation Software Installation:
Selecting the Location for Software Installation
5.
A license agreement appears. Read the agreement, and then
select I accept the License Agreement and click Next.
Figure 6. AD7124-8 Evaluation Software Installation:
Accepting the License Agreement
Figure 4. AD7124-8 Evaluation Software Installation:
Granting Permission for the Program to Make Changes to Your Computer
4.
Select the location to install the software, and then click Next.
(Figure 5 shows the default locations, which are displayed
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6.
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A summary of the installation is displayed. Click Next to
continue.
7.
A dialog box informs you when the installation is
complete. Click Next.
Figure 8. AD7124-8 Evaluation Software Installation:
Indicating When the Installation Is Complete
Figure 7. AD7124-8 Evaluation Software Installation:
Reviewing a Summary of the Installation
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Installing the EVAL-SDP-CB1Z System Demonstration
Platform Board Drivers
3.
Click Install to confirm that you would like to install the
drivers.
After the installation of the evaluation software is complete, a
welcome window is displayed for the installation of the EVALSDP-CB1Z system demonstration platform board drivers.
1.
With the EVAL-SDP-CB1Z board still disconnected from
the USB port of the PC, make sure that all other applications
are closed, and then click Next.
Figure 11. EVAL-SDP-CB1Z Drivers Setup:
Granting Permission to Install Drivers
4.
To complete the drivers installation, click Finish, which
closes the installation wizard.
Figure 9. EVAL-SDP-CB1Z Drivers Setup:
Beginning the Drivers Installation
2.
Select the location to install the drivers, and then click Next.
Figure 12. EVAL-SDP-CB1Z Drivers Setup:
Completing the Drivers Setup Wizard
5.
Before using the evaluation board, you must restart the
computer.
Figure 10. EVAL-SDP-CB1Z Drivers Setup:
Selecting the Location for Drivers Installation
Figure 13. EVAL-SDP-CB1Z Drivers Setup:
Restarting the Computer
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SETTING UP THE SYSTEM FOR DATA CAPTURE
Launching the Software
After completing the steps in the Software Installation
Procedures and Evaluation Board Hardware sections, set up the
system for data capture as follows:
After completing the steps in the Setting Up the System for Data
Capture section, launch the AD7124-8 software as follows:
1.
2.
Allow the Found New Hardware Wizard to run after the
EVAL-SDP-CB1Z board is plugged into your PC. (If you
are using Windows XP, you may need to search for the
EVAL-SDP-CB1Z drivers. Choose to automatically search
for the drivers for the EVAL-SDP-CB1Z board if prompted
by the operating system.)
Check that the board is connecting to the PC correctly
using the Device Manager of the PC.
a. Access the Device Manager as follows:
i. Right-click My Computer and then click Manage.
ii. A dialog box appears asking for permission to
allow the program to make changes to your
computer. Click Yes.
iii. The Computer Management box appears. Click
Device Manager from the list of System Tools
(see Figure 14).
b. The EVAL-SDP-CB1Z board should appear under
ADI Development Tools. This indicates that the
driver software is installed and that the board is
connecting to the PC correctly.
1.
2.
From the Start menu, select Programs > Analog Devices
> AD7124-8 > AD7124-8 Evaluation Board Software.
The main window of the software then displays.
If the AD7124-8 evaluation system is not connected to the
USB port via the EVAL-SDP-CB1Z when the software is
launched, a connectivity error displays (see Figure 15).
Connect the evaluation board to the USB port of the PC,
wait a few seconds, click Rescan, and then follow the onscreen instructions.
Figure 15. Connectivity Error Alert
When the software starts running, it searches for hardware
connected to the PC. A dialog box indicates when the generic
SDP attached to the PC is detected, and then the main window
appears (see Figure 16).
Figure 14. Device Manager:
Checking That the Board Is Connected to the PC Correctly
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SOFTWARE OPERATION
This details the revision of the software.
Overview of the Main Window
Exiting the Software
The main window of the software (see Figure 16) contains three
tabs: Configure, Waveform and Histogram. Above the tabs,
there are buttons that are used in all three tabs.
To exit the software, click the red X at the top right hand corner
of the main window. The software can also be exited using File.
The Configure tab allows the user to setup the ADC, reset the
ADC and read the diagnostics.
ADC Setup Button
The Waveform tab graphs the conversions gathered and
processes the data, calculating the p-p noise, rms noise and
resolution.
Configure
Clicking ADC Setup opens the AD7124-8 Register Interface
window.
ADC Reset Button
The Histogram tab generates a histogram using the gathered
samples and processes the data, calculating the p-p noise, rms
noise and resolution.
Clicking ADC Reset resets the AD7124-8 so the registers are at
their default (power-on reset) values.
Start Sampling Button
Clicking Check Diagnostics displays the current settings of the
error bits in the Error register.
Clicking Start Sampling, located near the top right hand corner
of the main window (see Figure 16), starts ADC sampling; results
are reported in the graphs of the Waveform and Histogram
sections. The software captures a specified number of samples,
the sample size being set via the Samples box. The software can
also continuously convert if the Capture Defined Sample Set is
set to Continuous.
Delete Data/Clear Graphs
Clicking Delete Data/Clear Graphs clears the waveform graph
and histogram and clears any conversion data gathered.
File
This allows you to write the current set of data to a file for later
use, log data as it is gathered, and exit the program.
Help
Check Diagnostics Button
External Reference
This box displays the value of the external reference. It defaults
to 2.5V since the AD4525 is a 2.5V reference. If a reference of a
different value is used, update this box so that the software can
correctly calculate the noise and resolution.
CRC Error Indicator
When the CRC is enabled, the software generates the CRC word
for every write operation and checks the CRC value returned
with any conversions or register values read. If a CRC error is
detected in the communications between the software and the
AD7124-8, the CRC Error LED becomes visible at the bottom
of the window and is lit. The CRC functionality on the
AD7124-8 is disabled by default.
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Figure 16. Main Window
Noise Test—Quick Start Demonstration
To perform a noise test using the AD7124-8 evaluation board,
LK5 should be inserted so that AIN0 and AIN1 are connected
together.
1.
Click ADC Setup to open the AD7124-8 Register Interface
window. The AD7124-8 should be configured as follows:
a. In the ADC_Control register, select the full power
mode.
b. Provide a bias voltage to the analog input by enabling
the VBIAS0 in the IO_Control_2 register.
c. In the Channel 0 register, AIN0 is connected to the
positive input, AIN1 is connected to the negative
input of the ADC for this channel, and Setup 0 is
selected. Therefore, the AIN0 to AIN1 conversion is
mapped using the Setup 0 configuration.
d. Setup 0 is configured with the following register settings:
i. In the Config_0 register, the external reference is
selected as the reference source for the ADC
conversion.
2.
3.
4.
ii. In the Filter_0 register, FS0 is set to 2047 and the
sinc4 filter is selected. This sets the output data
rate to 9.38 sps.
iii. In the Offset_0 register, the default offset register
value is selected.
iv. In the Gain_0 register, the factory trimmed gain
error value is selected.
Figure 17 shows the contents of the AD7124-8 Register
Interface and the state of the AD7124-8 registers. Click OK
to return to the main window. Figure 18 shows an example
of the main window after running a noise test.
Set the number of samples to be collected in each batch in
the Samples box, which is located just to the left of Start
Sampling, near the top right hand corner of the main
window.
Click Start Sampling to acquire samples from the ADC.
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Figure 17. Configuration for Noise Test
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Figure 18. Example of the Main Window After Running a Noise Test
Reading Samples from the ADC
3.
The evaluation board is set up to use the external 2.5 V onboard reference (ADR4525). To read samples from the ADC,
1.
2.
The value in the Vref box is set to 2.5 V by default to use
the external 2.5 V on-board reference (ADR4525). If a
different reference is used, such as the 2.5 V internal
reference, set the value in the Vref box accordingly. (The
analysis results are based on the value set in this box.)
Select the number of samples to analyze in the Samples
box. (Note that when performing a continuous capture,
this number is limited to 65,536 samples.)
4.
5.
6.
When Sampling is set to Capture, a batch of samples is
read when Start Sampling is clicked, with the batch size
being set by the value in the Samples box. When Sampling
is set to Continuous, the software performs a continuous
capture from the ADC when Start Sampling is clicked.
Click Stop to stop streaming data.
Use the navigation tools within each graph to control the
cursor, zooming, and panning.
If desired, save the current captured data for later analysis
(see the WaveformError! Reference source not found.
and the Histogram section).
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Waveform
The waveforms resulting from the gathered samples are shown
in the tab. The waveform graph shows each successive sample of
the ADC output (input referred). The indicators beside this graph
show the channels being converted. Navigation tools are
provided to allow you to control the cursor, zooming, and
panning. The conversions can be displayed as codes or as volts.
Parameters such as peak-to-peak noise and rms noise are
displayed below the graph in the Analysis section for the
current batch of samples. If several analog input channels are
enabled, each enabled channel can be selected and the
conversions on that channel analysed using Analysis Channel.
The conversion data can be saved in a text file using File at the
top of the window. To save the data into an Excel file. right-click
on the waveform graph and select Export Data from the dropdown menu that appears. A Save dialog box is displayed,
prompting you to save the data to an appropriate folder
location.
Figure 19. Waveform Analysis
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Histogram
This tab shows the histogram analysis. The indicators beside
this graph show the channels being converted. Navigation tools
are provided to allow you to control the cursor, zooming, and
panning. The conversions can be displayed as codes or as volts.
Parameters such as peak-to-peak noise and rms noise are
displayed to the right of the graph in the Analysis Results
section for the current batch of samples.
The conversion data can be saved in a text file using File at the
top of the window. To save the data into an Excel file. right-click
on the histogram graph and select Export Data from the dropdown menu that appears. A Save dialog box is displayed,
prompting you to save the data to an appropriate folder
location.
Figure 20. Histogram Analysis
Rev. PrA | Page 17 of 36
UG-XXX
Evaluation Board User Guide
EVALUATION BOARD SCHEMATICS AND ARTWORK
Figure 21. Schematic
Rev. PrA | Page 18 of 36
Evaluation Board User Guide
UG-XXX
Figure 22. Schematic – Power Supply
Rev. PrA | Page 19 of 36
UG-XXX
Evaluation Board User Guide
Figure 23. Schematic – Regulators
Rev. PrA | Page 20 of 36
Evaluation Board User Guide
UG-XXX
Figure 24. Schematic - SDP
Rev. PrA | Page 21 of 36
UG-XXX
Evaluation Board User Guide
Figure 25. Top Printed Circuit Board (PCB) Silkscreen
Rev. PrA | Page 22 of 36
Evaluation Board User Guide
UG-XXX
Figure 26. Layer 1 Component Side
Rev. PrA | Page 23 of 36
UG-XXX
Evaluation Board User Guide
Figure 27. Layer 2 Ground Plane
Rev. PrA | Page 24 of 36
Evaluation Board User Guide
UG-XXX
Figure 28. Layer 3 Power/Ground Plane
Rev. PrA | Page 25 of 36
UG-XXX
Evaluation Board User Guide
Figure 29. Layer 4 Component Side
Rev. PrA | Page 26 of 36
Evaluation Board User Guide
UG-XXX
EVAL-AD7124-8SDZ BILL OF MATERIALS
Table 4.
Name
Value
Tolerance
PCB Decal
A0
SMA
A1
A2
SMA
THERMOCO
UPLE
A5
SMA
A6
SMA
C1
4.7uF
±10%
C0603
C2
0.1uF
±10%
C0603
C3
4.7uF
±10%
C0603
C4
1uF
±10%
C0805
C5
DNI
TBD
C0402
C6
1uF
±10%
C0805
C7
DNI
TBD
C0402
C8
DNI
TBD
C0402
C9
DNI
TBD
C0402
C10
0.01uF
TBD
C0402
C11
0.01uF
TBD
C0402
C12
0.01uF
TBD
C0402
C13
0.1uF
±10%
C0402
C14
0.1uF
±10%
C0402
C15
1uF
±10%
C0603
C16
DNI
TBD
C0402
C17
4.7uF
±10%
C0603
C18
0.1uF
±10%
C0402
C19
0.01uF
TBD
C0402
C20
0.1uF
±10%
C0402
C21
0.1uF
±10%
C0402
PART DESC
Straight PCB Mount SMB Jack,
keep hole clear of solder
Straight PCB Mount SMB Jack,
keep hole clear of solder
Miniature Thermocouple
Connector
Straight PCB Mount SMB Jack,
keep hole clear of solder
Straight PCB Mount SMB Jack,
keep hole clear of solder
Capacitor ceramic, 6.3V, X5R,
0603
Capacitor ceramic, 50V, X7R,
0603
Capacitor ceramic, 10V, X5R,
0603
CAPACITOR, 0805, 1UF, 50V,
X7R
Ceramic Capacitor, not inserted,
0402
CAPACITOR, 0805, 1UF, 50V,
X7R
Ceramic Capacitor, not inserted,
0402
Ceramic Capacitor, not inserted,
0402
Ceramic Capacitor, not inserted,
0402
Ceramic Capacitor, 50V, NPO,
0603
Ceramic Capacitor, 50V, NPO,
0603
Ceramic Capacitor, 50V, NPO,
0603
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 16V, X7R,
0402
Capacitor, 6.3V
Ceramic Capacitor, not inserted,
0402
Capacitor ceramic, 6.3V, X5R,
0603
Capacitor ceramic, 16V, X7R,
0402
Ceramic Capacitor, 25V, NPO,
0603
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 16V, X7R,
0402
Rev. PrA | Page 27 of 36
MFG
Part Number
STOCK CODE
Tyco
1-1337482-0
Do Not Insert
Tyco
1-1337482-0
Do Not Insert
Omega
PCC-SMP-U-50
Do Not Insert
Tyco
1-1337482-0
Do Not Insert
Tyco
1-1337482-0
GRM188R60J4
75K
GRM188R71H
104K
C0603C475K8
PACTU
GRM21BR71H
105KA12L
Do Not Insert
Do Not Insert
MURATA
n/a
GRM21BR71H
105KA12L
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
2238 586
15636
2238 586
15636
2238 586
15636
GRM155R71C
104K
GRM155R71C
104K
GRM188R70J1
05KA01D
Do Not Insert
n/a
GRM188R60J4
75K
GRM155R71C
104K
Do Not Insert
n/a
GRM155R71C
104K
GRM155R71C
104K
Do Not Insert
Murata
Murata
Kemet
MURATA
n/a
Phycomp
Phycomp
Phycomp
Murata
Murata
Murata
n/a
Murata
Murata
n/a
Murata
Murata
FEC 173-5527
FEC 882-0023
FEC 157-2625
FEC 173-5541
FEC 173-5541
FEC 722-236
FEC 722-236
FEC 722-236
FEC 881-9742
FEC 881-9742
FEC 184-5765
FEC 173-5527
FEC 881-9742
FEC 881-9742
FEC 881-9742
UG-XXX
Evaluation Board User Guide
C22
0.1uF
±10%
C0402
C23
0.1uF
TBD
C0402
C24
0.01uF
TBD
C0402
C25
0.1uF
TBD
C0402
C26
0.1uF
TBD
C0402
C27
0.01uF
TBD
C0402
C28
0.01uF
TBD
C0402
C29
4.7uF
±10%
C0603
C30
4.7uF
±10%
C0603
C31
0.1uF
±10%
C0402
C32
10uF
TBD
1210
C33
0.1uF
±10%
C0402
C34
0.1uF
±10%
C0402
C35
10uF
TBD
1210
C36
0.1uF
±10%
C0402
C37
1uF
±10%
C0603
C38
0.1uF
±10%
C0603
C39
10uF
TBD
1210
C43
4.7uF
±10%
C0603
C44
0.1uF
±10%
C0402
C45
4.7uF
±10%
C0603
C46
4.7uF
±10%
C0603
C47
4.7uF
±10%
C0603
C48
10uF
TBD
1210
C49
10uF
TBD
1210
C50
0.1uF
±10%
C0402
C51
0.1uF
±10%
C0402
C52
0.1uF
±10%
C0402
C53
0.1uF
±10%
C0402
Capacitor ceramic, 50V, X7R,
0603
Ceramic Capacitor, 50V, NPO,
0603
Capacitor ceramic, 50V, X7R,
0603
Capacitor ceramic, 50V, X7R,
0603
Capacitor ceramic, 50V, X7R,
0603
Ceramic Capacitor, 50V, NPO,
0603
Ceramic Capacitor, 50V, NPO,
0603
Capacitor ceramic, 6.3V, X5R,
0603
Capacitor ceramic, 6.3V, X5R,
0603
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 50V, X5R,
1210
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 50V, X5R,
1210
Capacitor ceramic, 50V, X7R,
0603
Capacitor, 0603, 6.3V
Capacitor ceramic, 50V, X7R,
0603
Capacitor ceramic, 50V, X5R,
1210
Capacitor ceramic, 6.3V, X5R,
0603
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 10V, X5R,
0603
Capacitor ceramic, 10V, X5R,
0603
Capacitor ceramic, 6.3V, X5R,
0603
Capacitor ceramic, 50V, X5R,
1210
Capacitor ceramic, 50V, X5R,
1210
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 16V, X7R,
0402
Capacitor ceramic, 16V, X7R,
0402
Rev. PrA | Page 28 of 36
Murata
n/a
Phycomp
Murata
Murata
Phycomp
Phycomp
Murata
Murata
Murata
Murata
Murata
Murata
Murata
Murata
Murata
Murata
Murata
Murata
Murata
Kemet
Kemet
Murata
Murata
Murata
Murata
Murata
Murata
Murata
GRM188R71H
104K
n/a
2238 586
15636
GRM188R71H
104K
GRM188R71H
104K
2238 586
15636
2238 586
15636
GRM188R60J4
75K
GRM188R60J4
75K
GRM155R71C
104K
GRM32ER61H
106K
GRM155R71C
104K
GRM155R71C
104K
GRM32ER61H
106K
GRM188R71H
104K
GRM188R70J1
05KA01D
GRM188R71H
104K
GRM32ER61H
106K
GRM188R60J4
75K
GRM155R71C
104K
C0603C475K8
PACTU
C0603C475K8
PACTU
GRM188R60J4
75K
GRM32ER61H
106K
GRM32ER61H
106K
GRM155R71C
104K
GRM155R71C
104K
GRM155R71C
104K
GRM155R71C
104K
FEC 882-0023
Do Not Insert
FEC 722-236
FEC 882-0023
FEC 882-0023
FEC 722-236
FEC 722-236
FEC 173-5527
FEC 173-5527
FEC 881-9742
FEC 184-5764
FEC 881-9742
FEC 881-9742
FEC 184-5764
FEC 882-0023
FEC 184-5765
FEC 882-0023
FEC 184-5764
FEC 173-5527
FEC 881-9742
FEC 157-2625
FEC 157-2625
FEC 173-5527
FEC 184-5764
FEC 184-5764
FEC 881-9742
FEC 881-9742
FEC 881-9742
FEC 881-9742
Evaluation Board User Guide
UG-XXX
Murata
GRM188R71H
104K
GRM188R71H
104K
n/a
n/a
Do Not Insert
Red LED, high intensity
(>90mCd), 0603
Avago Tech.
HSMC-C191
LED-0603
LED, SMD Green
OSRAM
DIODE, ZENER, 0.5W, 5.1V
Vishay
Avago Tech.
HSMC-C191
FEC 855-4528
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
J1
SOD-123
LED0603HSMLC191
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
CON120/FX8120S-SV
LGQ971
BZT52B5V1-VGS08
FEC 855-8528
Digikey 4751409-1-ND
J2
SMB
C54
0.1uF
±10%
C0603
C55
0.1uF
±10%
C0603
C59
0.01uF
TBD
D2
D4
RED
GREE
N
C0402
LED0603HSMLC191
D5
BZT52
D6
RED
GND
GND1
GND2
GND3
GND4
GND5
GND6
J3
J4
J5
J6
J7
1x4pin
J8
J9
1x4pin
CON\POWE
R3(3_81PITC
H)
CON\POWE
R3(3_81PITC
H)
CON\BARRE
L_SMD_2M
M_KLDXSMT2-0202A
CON\POWE
R8(3_81PITC
H)
CON\POWE
R4(3_81PITC
H)
CON\POWE
R8(3_81PITC
H)
CON\POWE
R4(3_81PITC
H)
Capacitor ceramic, 50V, X7R,
0603
Capacitor ceramic, 50V, X7R,
0603
Ceramic Capacitor, 25V, NPO,
0603
Red LED, high intensity
(>90mCd), 0603
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Murata
FEC 882-0023
FEC 882-0023
FEC 161-7767
120-way connector, 0.6mm
pitch
Straight PCB Mount SMB Jack,
keep hole clear of solder
Hirose
FX8-120SSV(21)
FEC 132-4660
Tyco
1-1337482-0
Do Not Insert
Socket terminal block, pitch
3.81mm
Phoenix
Contact
MC 1.5/3-G3.81
FEC 370-4737
Screw terminal block, pitch
3.81mm
Phoenix
Contact
1727023
Do Not Insert
DC Power Connectors 2mm
SMT POWER JACK
KYCON
KLDX-SMT20202-A
MOUSER 806KLDXSMT20202A
8-Pin Terminal header, pitch
3.81mm, vertical
Phoenix
Contact
Connector, pitch 3.81mm, right
angle
Phoenix
Contact
MC 1,5/ 8-G3,81
MC 1,5/ 4-G3,81 & 1803594
8-Pin Terminal header, pitch
3.81mm, vertical
Phoenix
Contact
1727078
Do Not Insert
Screw terminal block, pitch
3.81mm
Phoenix
Contact
1727036
FEC 370-4592
Rev. PrA | Page 29 of 36
FEC 370-4774
Do Not Insert
UG-XXX
Evaluation Board User Guide
CON\POWE
R8(3_81PITC
H)
CON\POWE
R8(3_81PITC
H)
SIP-6PP1.9MM
J10
J11
J12
6-Way
J13
SIP-7P
J14
SIP-7P
HEADER06SKT-RA
J15
L3
1000r
805
8-Pin Terminal header, pitch
3.81mm, vertical
Phoenix
Contact
8-Pin Terminal header, pitch
3.81mm, vertical
PCB Pads, 6-Way Solder Slot for
ADI PCB
7 WAY SSW 2.54mm Vert.
Socket
Phoenix
Contact
7 Way Sip 2.54mm TH Header
Samtec
Aragorn
Samtec
1727078
MC 1,5/ 8-G3,81
ADT7320-CJCPCB
SSW-107-01-TS
TLW-107-05G-S
Do Not Insert
FEC 370-4774
ADT7320-CJCPCB
FEC 180-3478
FEC 166-8499
Do not insert
Ferrite bead, [email protected],
[email protected], 350mA, 0805
3 Pin (3x1) 0.1" Header &
Shorting Block in A
3 Pin (3x1) 0.1" Header &
Shorting Block in A
2 Pin (0.1" Pitch) Header &
Shorting Shunt
Harwin
BMB2A1000L
N2
M20-9990346
& M7566-05
M20-9990346
& M7566-05
Harwin
M20-9990246
Harwin
M20-9983646
& M7566-05
Harwin
M20-9990246
Harwin
M20-9983646
& M7566-05
TYCO
LK1
LINK-3P
Harwin
LK2
LINK-3P
LK3
SIP-2P
LK4
JUMPER_2_I
NVTEXT
LK5
SIP-2P
4 Pin (2X2) 0.1" Header &
Shorting Block
2 Pin (0.1" Pitch) Header &
Shorting Shunt
LK6
MCLK
JUMPER_2
TESTPOINTSMALL
4 Pin (2X2) 0.1" Header &
Shorting Block
Test point, not inserted, keep
hole clear of solder
Q1
SOT23
MOSFET Transistor
Q2
SOT23
TRANSISTOR, NPN, SOT-23
Vishay Siliconix
ON
SEMICONDUCT
OR
R0603
Resistor, not inserted, 0603
n/a
n/a
R1
DNI
R2
100K
0.01
R0603
SMD Resistor
Multicomp
R3
100K
0.01
R0603
SMD Resistor
Multicomp
R4
100K
0.01
R0603
SMD Resistor
Multicomp
R5
10K
0.01
R0402
Resistor, 1%, 0402
Phycomp
R6
10K
0.01
R0402
Resistor, 1%, 0402
Phycomp
R7
100K
0.01
R0603
SMD Resistor
Multicomp
R8
10K
0.01
R0402
Resistor, 1%, 0402
Phycomp
R9
0R
0.01
R0402
Resistor, 0402
Vishay
R10
0R
0.01
R0402
Resistor, 0402
Vishay
R11
0R
0.01
R0402
Resistor, 0402
Vishay
Rev. PrA | Page 30 of 36
n/a
SI2304DDST1-GE3
MMBT3904LT
1G
n/a
MC 0.063W
0603 1% 100K
MC 0.063W
0603 1% 100K
MC 0.063W
0603 1% 100K
CRCW040210
K0FKEAHP
CRCW040210
K0FKEAHP
MC 0.063W
0603 1% 100K
CRCW040210
K0FKEAHP
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
FEC 119-3421
FEC 102-2249 &
150-411
FEC 102-2249 &
150-411
FEC 102-2247 &
150-411
FEC 1022244 &
150-411 (36 Pin
Strip)
FEC 102-2247 &
150-411
FEC 1022244 &
150-411 (36 Pin
Strip)
Do Not Insert
FEC 185-8939
FEC 145-9100
Do Not Insert
FEC 933-0402
FEC 933-0402
FEC 933-0402
FEC 173-8864
FEC 173-8864
FEC 933-0402
FEC 173-8864
FEC 146-9661
FEC 146-9661
FEC 146-9661
Evaluation Board User Guide
UG-XXX
R12
0R
0.01
R0402
Resistor, 0402
Vishay
R13
0R
0.01
R0402
Resistor, 0402
Vishay
R14
30K
0.01
R0402
Resistor, 0402, 1%, 30K
Multicomp
R15
10K2
0.01
R0402
SMD Resistor
Multicomp
R16
69K8
0.01
R0402
Resistor, 0402, 1%, 69K8
Multicomp
R17
10K2
0.01
R0402
SMD Resistor
Multicomp
R18
10K2
0.01
R0402
SMD Resistor
Multicomp
R19
0R
0.01
R0402
Resistor, 0402
Vishay
R20
0R
0.01
R0402
Resistor, 0402
Vishay
R21
0R
0.01
R0402
Resistor, 0402
Vishay
R22
0R
0.01
R0402
Resistor, 0402
Vishay
R23
86K6
0.01
R0402
RESISTOR, 0402, 1%, 86K6
MULTICOMP
R24
10K2
0.01
R0402
SMD Resistor Resistor, 0402
Multicomp
R25
15K
0.01
R0402
RESISTOR, 0402, 1%, 15k
MULTICOMP
R26
1K
1%
R0402
Resistor, 0603
Multicomp
R27
1%
R0402
TO-92MODIFIED
Resistor, 0603
Multicomp
R28
1K
1950r1990r
Thermistor
Infineon
R29
1K
1%
R0402
Resistor, 0603
Multicomp
R30
1K
1%
R0402
Resistor, 0603
Multicomp
R31
DNI
R0402
Resistor, not inserted, 0402
n/a
R32
1K
1%
R0402
Resistor, 0603
Multicomp
R33
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R34
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R35
0R
0.01
R0402
Resistor, 0402
Vishay
R36
0R
0.01
R0402
Resistor, 0402
Vishay
R37
0R
0.01
R0402
Resistor, 0402
Vishay
R38
0R
0.01
R0402
Resistor, 0402
Vishay
R39
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R40
1K
1%
R0603
Resistor, 0603
Multicomp
Rev. PrA | Page 31 of 36
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
MC 0.0625W
0402 1% 30K
MC 0.0625W
0402 1% 10K2
MC 0.0625W
0402 1% 69K8
MC 0.0625W
0402 1% 10K2
MC 0.0625W
0402 1% 10K2
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
MC 0.0625W
0402 1% 86K6
MC 0.0625W
0402 1% 10K2
MC 0.0625W
0402 1% 15k
MC 0.063W
0603 1% 1K
MC 0.063W
0603 1% 1K
Q62705-K110
MC 0.063W
0603 1% 1K
MC 0.063W
0603 1% 1K
n/a
MC 0.063W
0603 1% 1K
CRCW0603000
0Z0EA
CRCW0603000
0Z0EA
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
CRCW0603000
0Z0EA
MC 0.063W
0603 1% 1K
FEC 146-9661
FEC 146-9661
FEC 135-8082
FEC 180-3137
FEC 180-3735
FEC 180-3137
FEC 180-3137
FEC 146-9661
FEC 146-9661
FEC 146-9661
FEC 146-9661
FEC 180-3744
FEC 180-3137
FEC 1358073
FEC 933-0380
FEC 933-0380
Philips (Arrow)
KTY81/110
FEC 933-0380
FEC 933-0380
Do Not Insert
FEC 933-0380
FEC 146-9739
FEC 146-9739
FEC 146-9661
FEC 146-9661
FEC 146-9661
FEC 146-9661
FEC 146-9739
FEC 933-0380
UG-XXX
Evaluation Board User Guide
R42
10K
0.05
R0402
R43
10K
0.05
R0402
R44
10K
0.05
R0402
R45
10K
0.05
R0402
Resistor, Thick Film, 10Kohm,
62.5mW, 5%
Resistor, Thick Film, 10Kohm,
62.5mW, 5%
Resistor, Thick Film, 10Kohm,
62.5mW, 5%
Resistor, Thick Film, 10Kohm,
62.5mW, 5%
R47
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R48
100K
0.01
R0603
SMD Resistor
Multicomp
R49
0R
0.05
1206
Resistor, 1206
Multicomp
R50
0R
0.05
1206
Resistor, 1206
Multicomp
R51
0R
0.05
1206
Resistor, 1206
Multicomp
R52
0R
0.05
1206
Resistor, 1206
Multicomp
R53
27K
0.01
R0402
Multicomp
R54
4K53
0.01
R0402
Resistor, 0402, 27K
Resistor, Thick Film, 4.53Kohm,
63mW, 1%
R55
61R9
0.01
R0402
Resistor, 0402, 1%, 61R9
Multicomp
R56
57K6
0.01
R0402
Resistor, 0402, 57K6
Multicomp
R57
15K
0.01
R0402
Resistor, 0402, 1%, 15K
Multicomp
R58
0R
0.01
R0402
Resistor, 0402
Vishay
R59
0R
0.01
R0402
Vishay
R60
2K4
0.01
R0603
Resistor, 0402
Resistor, Thick Film, 2.4K, 0603,
100mW, 1%
R61
0R
0.01
R0402
Resistor, 0402
Vishay
R62
0R
0.01
R0402
Resistor, 0402
Vishay
R70
0R
0.01
R0402
Resistor, 0402
Vishay
R71
10K
0.01
R0402
Resistor, 1%, 0402
Phycomp
R81
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R82
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R83
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R84
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R87
0R
0.01
R0603
Resistor, 0603
Vishay Draloric
R88
DNI
R0402
Resistor, 0603, not inserted
n/a
R89
0R
R0603
Resistor, 0603
Vishay Draloric
0.01
Rev. PrA | Page 32 of 36
Yageo
Yageo
Yageo
Yageo
Vishay Dale
Yageo
RC0402JR1310KL
RC0402JR1310KL
RC0402JR1310KL
RC0402JR1310KL
CRCW0603000
0Z0EA
MC 0.063W
0603 1% 100K
MC 0.125W
1206 0R
MC 0.125W
1206 0R
MC 0.125W
1206 0R
MC 0.125W
1206 0R
MC 0.0625W
0402 1% 27K
CRCW04024K
53FKED
MC 0.0625W
0402 1% 61R9
MC 0.0625W
0402 1% 57K6
MC 0.0625W
0402 1% 15K
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
RC0603FR072K4L
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
CRCW0402000
0Z0ED
CRCW040210
K0FKEAHP
CRCW0603000
0Z0EA
CRCW0603000
0Z0EA
CRCW0603000
0Z0EA
CRCW0603000
0Z0EA
CRCW0603000
0Z0EA
n/a
CRCW0603000
0Z0EA
FEC 179-9316
FEC 179-9316
FEC 179-9316
FEC 179-9316
FEC 146-9739
FEC 933-0402
FEC 933-6974
FEC 933-6974
FEC 933-6974
FEC 933-6974
FEC 135-8081
FEC 115-1244
FEC 180-2915
FEC 185-1295
FEC 135-8073
FEC 146-9661
FEC 146-9661
FEC 179-9329
FEC 146-9661
FEC 146-9661
FEC 146-9661
FEC 173-8864
FEC 146-9739
FEC 146-9739
FEC 146-9739
FEC 146-9739
FEC 146-9739
Do Not Insert
FEC 146-9739
Evaluation Board User Guide
R90
Resistor, 0402
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
2-way Solder Link (Use 0r 0603
Resistor)
2-way Solder Link (Use 0r 0603
Resistor)
2-way Solder Link (Use 0r 0603
Resistor)
2-way Solder Link (Use 0r 0603
Resistor)
TDIN
R0402
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
0603-2WAYBRIDGE
0603-2WAYBRIDGE
0603-2WAYBRIDGE
0603-2WAYBRIDGE
COMPONEN
TLINK
TESTPOINTSMALL
TDIN1
TESTPOINTSMALL
Test point, not inserted, keep
hole clear of solder
TDOUT
TDOUT
1
TESTPOINTSMALL
TESTPOINTSMALL
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
REF+
REFREFOUT
S1
S1'
S2
S2'
S3
S3'
S4
S4'
S5
S5'
S6
S6'
S7
S7'
S8
S8'
SL2
SL3
SL5
SL7
STAR3
DNI
UG-XXX
Ground Link
Test point, not inserted, keep
hole clear of solder
Rev. PrA | Page 33 of 36
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
Do Not Insert
n/a
n/a
Insert in Link
Position "A"
Insert in Link
Position "A"
Insert in Link
Position "B"
Insert in Link
Position "A"
n/a
n/a
n/a
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
n/a
FEC 933-1662
FEC 933-1662
FEC 933-1662
FEC 933-1662
UG-XXX
Evaluation Board User Guide
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
TESTPOINTSMALL
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
Test point, not inserted, keep
hole clear of solder
U2
MSO8
SO8NB_RD8
-2
U3
MSO10
U4
MSO8
U5
LFCSP-32
32K I2C Serial EEPROM
Linear Regulator 5V, 20V,
500mA, Ultralow Noise, CMOS
Quad Voltage Monitor and
Sequencer
50 mA, High Voltage,
Micropower Linear Regulator ADJ
4 Channel, Low Power, Low
Noise, Sigma Delta ADC
U6
SO8NB
U7
MSO8
U10
MSO8
2.5V low noise Reference
50 mA, High Voltage,
Micropower Linear Regulator –
3.3V
50 mA, High Voltage,
Micropower Linear Regulator 3.3V
V1
R1206
V2
R1206
V3
V4
TSCLK
TSCLK1
TSYNC
TSYNC1
T\CS
T\CS1
U1
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
n/a
n/a
Do Not Insert
Microchip
Analog
Devices
Analog
Devices
24LC32A-I/MS
ADP7104ARD
Z-5.0
ADM1185ARM
Z-1
FEC133-1330
ADP7104ARDZ5.0
ADM1185ARMZ
-1
Analog
Devices
Analog
Devices
Analog
Devices
ADP1720ARM
Z-R7
AD71248BCPZ
ADP1720ARMZR7
ADR4525BRZ
ADR4525BRZ
Analog
Devices
ADP1720ARM
Z-3.3-R7
ADP1720ARMZ3.3-R7
Analog
Devices
ADP1720ARM
Z-3.3-R7
ADP1720ARMZ3.3-R7
1206 Place Holder
n/a
n/a
Do Not Insert
1206 Place Holder
n/a
n/a
Do Not Insert
R1206
1206 Place Holder
n/a
n/a
Do Not Insert
R1206
1206 Place Holder
n/a
n/a
Do Not Insert
Rev. PrA | Page 34 of 36
AD7124-8BCPZ
Evaluation Board User Guide
UG-XXX
ESD Caution
ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection
circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality.
Legal Terms and Conditions
By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions
set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until
you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices,
Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal,
temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. Customer understands and agrees that the Evaluation Board is provided
for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional
limitations: Customer shall not (i) rent, lease, display, sell, transfer, assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term
“Third Party” includes any entity other than ADI, Customer, their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including
ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer
may not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to
promptly return the Evaluation Board to ADI. 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 it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board.
Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written
notice to Customer. Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO
WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT. ADI SPECIFICALLY DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED,
RELATED TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF
INTELLECTUAL PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES RESULTING FROM CUSTOMER’S
POSSESSION OR USE OF THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI’S TOTAL LIABILITY FROM ANY AND ALL CAUSES
SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT. Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will
comply with all applicable United States federal laws and regulations relating to exports. GOVERNING LAW. This Agreement shall be governed by and construed in accordance with the substantive laws of
the Commonwealth of Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts,
and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is
expressly disclaimed.
Rev. PrA | Page 35 of 36
UG-XXX
Evaluation Board User Guide
©2013 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
Rev. PrA | Page 36 of 36
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