8-/10-Lead PulSAR User Guide
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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 8-/10-Lead Family of 14-/16-/18-Bit PulSAR ADCs
The 8-lead PulSAR evaluation board covers the following 8-lead
PulSAR ADCs: AD7683 (16-bit), AD7684 (16-bit), and AD7694
(16-bit).
FEATURES
Full featured evaluation board for 8-/10-lead PulSAR ADCs
Versatile analog signal conditioning circuitry
On-board reference, reference buffers, and ADC drivers
PC software for control and data analysis of time and
frequency domain
System demonstration platform compatible (EVAL-SDP-CB1Z)
These low power ADCs offer very high performance of up to
18 bits with throughputs ranging from 100 kSPS to 1.33 MSPS.
The evaluation board is designed to demonstrate the performance
of the ADCs and to provide an easy to understand interface
for a variety of system applications. A full description of these
products is available in their respective data sheets, which
should be consulted when using this evaluation board.
EQUIPMENT NEEDED
Evaluation board (see Table 5)
Wall adapter power supply
Additional equipment needed
SDP board (EVAL-SDP-CB1Z) (optional)
Precision source
Cable (SMA input to evaluation board)
The evaluation board is ideal for use with Analog Devices, Inc.,
system demonstration platform (SDP). This evaluation board
interfaces to the SDP board via a 120-pin connector. SMA
connectors, J6 and J10, are provided for the low noise analog
signal source.
GENERAL DESCRIPTION
On-board components include a high precision buffered band gap
5.0 V reference (ADR435), a signal conditioning circuit with two
op amps (ADA4841-1), and a power supply to derive the necessary
voltage levels to supply all voltage needs. The 8-lead board also
includes a level shifter (ADG3304) to interface the ADC with
the EVAL-SDP-CB1Z.
The 10-lead PulSAR® evaluation board covers the following
10-lead PulSAR analog-to-digital converters (ADCs): AD7685
(16-bit), AD7686 (16-bit), AD7687 (16-bit), AD7688 (16-bit),
AD7690 (18-bit), AD7691 (18-bit), AD7693 (16-bit), AD7942
(14-bit), AD7946 (14-bit), AD7980 (16-bit), AD7982 (18-bit),
AD7983 (16-bit), AD7984 (18-bit), AD7988-5 (16-bit), AD7989-5
(18-bit), AD7915 (16-bit) and AD7916 (16-bit).
SIMPLIFIED EVALUATION BOARD BLOCK DIAGRAM
VIN = 9V
WALL ADAPTER
(OPTIONAL)
–VS
POWER SUPPLY CIRCUITRY
ADP7102, ADP7104, ADP2301
GND
+VS
+7.5V/-2.5V
2.5V/5V
+7.5V 3.3V +5V
(OPTIONAL)
ADR435
5V
VDD
5V
GND
VCM
VSDP
AD8031
ADSP-BF527
DSP
VIN+
+7.5V
VDD REF OVDD
SDI
IN+
SCK
ADC
–2.5V
ADA4841-1
+7.5V
IN–
GND
VIN–
SDO
CNV
SPORT
GLUE
LOGIC
A B
–2.5V
10-LEAD PulSAR EVALUATION BOARD
Figure 1.
PLEASE SEE THE LAST PAGE FOR AN IMPORTANT
WARNING AND LEGAL TERMS AND CONDITIONS.
Rev. C | Page 1 of 31
SDP BOARD
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ADA4841-1
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8-/10-Lead PulSAR User Guide
TABLE OF CONTENTS
Features .............................................................................................. 1
Running the Software with the Hardware Connected .............7
Equipment Needed ........................................................................... 1
Running the Software Without Hardware .................................8
General Description ......................................................................... 1
Software Operation ...........................................................................9
Simplified Evaluation Board Block Diagram ................................ 1
Description of User Panel ......................................................... 10
Revision History ............................................................................... 2
Waveform Capture ..................................................................... 11
Evaluation Board Kit Contents ....................................................... 3
AC Testing—Histogram ............................................................ 12
Hardware Requirements .................................................................. 3
DC Testing—Histogram ............................................................ 13
Evaluation Board Hardware ............................................................ 4
AC Testing—FFT Capture ........................................................ 13
Setting Up the Evaluation Board ................................................ 4
Summary Tab .............................................................................. 14
Power Supplies .............................................................................. 4
Save File ....................................................................................... 15
Reference ....................................................................................... 4
Load File ...................................................................................... 15
Serial Interface .............................................................................. 4
Evaluation Board Schematics........................................................ 16
Solder Links ................................................................................... 4
Troubleshooting .............................................................................. 29
Analog Inputs ................................................................................ 4
Software ....................................................................................... 29
Evaluation Board Software .............................................................. 5
Hardware ..................................................................................... 29
Installing the Software ................................................................. 5
Products on this Evaluation Board .............................................. 30
Installation Steps........................................................................... 5
Related Links ............................................................................... 30
Board Operation/Connection Sequence ................................... 7
REVISION HISTORY
3/15—Rev. B to Rev. C
Changes to General Description Section ...................................... 1
Changes to Table 3 ............................................................................ 4
Changes to Table 5 .......................................................................... 30
2/14—Rev. A to Rev. B
Changes to Equipment Needed Section and General
Description Section .......................................................................... 1
Changes to Evaluation Kits Contents Section .............................. 3
Change to Table 3 ............................................................................. 4
Changes to Table 5 .......................................................................... 30
10/12—Rev. 0 to Rev. A
Added 8-Lead PulSAR Evaluation Board ....................... Universal
Changes to Description of User Panel Section ........................... 10
Changes to Figure 27 Caption ...................................................... 16
Added Figure 28; Renumbered Sequentially .............................. 17
Changes to Figure 36 Caption and Figure 37 Caption .............. 23
Changes to Figure 38 Caption and Figure 39 Caption .............. 24
Changes to Figure 40 Caption ...................................................... 25
Added Figure 41 and Figure 42 .................................................... 26
Added Figure 43 and Figure 44 .................................................... 27
Added Figure 45 ............................................................................. 28
Changes to Software Section ......................................................... 29
Changes to Table 5 and Related Links Section ........................... 30
5/12—Revision 0: Initial Version
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EVALUATION BOARD KIT CONTENTS
HARDWARE REQUIREMENTS
Evaluation board for ADC of your choice
(U1 device is specific to the evaluation board ordered)
Business card with Analog Devices website address for
software and documentation
9 V wall wart
9 V wall wart (supplied)
Standard USB A to Mini-B USB cable
Signal source, ac source with low distortion, and dc source
with low noise
Band-pass filter suitable for 16- and 18-bit testing (value
based on signal frequency)
SDP board for data transfer to PC
Signal source and cables
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EVALUATION BOARD HARDWARE
SETTING UP THE EVALUATION BOARD
Figure 27 shows the evaluation board schematic. The board
consists of the ADC, U1, with a reference, U6 (ADR435), and
ADC drivers, U12 and U14 (ADA4841-1). The 8-lead board
also has a level shifter, U16 (ADG3304).
Table 2. Table of Jumper Detail with Factory Default Setting
Link
SL2
SL1
SL3
SL7
Setting
A
A
A
A
POWER SUPPLIES
SL4
A
The evaluation board requires power from a wall adapter. The
on-board power supply design is designed to operate from 9 V.
Table 3. Table of Jumpers Specific to Different ADCs
The evaluation board is a flexible design that enables the user to
adjust compensation components in addition to operating from
an adjustable bench top power supply.
Table 1. Power Supplies Provided on the Board
Power Supply (V)
+5
+7.5
−2.5
+2.5/+5
+3.3
Function
SDP power
Positive rail
Negative rail
ADC
VDRIVE (digital power)
Components Used
ADP2301
ADP7102
ADP2301
ADP7104
ADP7104
Each supply is decoupled where it enters the board and again at
each device. A single ground plane is used on this board to
minimize the effect of high frequency noise interference.
In addition to this, there is also the ability to power the board
from a bench top power supply. The screw terminals, J2 and J3, are
provided for this function. When bench power is used, the wall
wart and on-board power supply are no longer required. Solder
links also must be changed: SL1 = B, SL2 = B, SL7 = B, SL4 = B,
and SL3 = B.
REFERENCE
An external 5 V reference (U6, ADR435) is used to supply the
ADCs directly.
SERIAL INTERFACE
The evaluation board uses the SPORT interface from the ADSPBF527 DSP.
A number of AND gates are used to clock and gate the SPORT
transfer to the ADC device. See U9, U10, and U11. The 8-lead
board also has a level shifter, U16 (ADG3304), which interfaces
the ADC logic levels (5 V) to the EVAL-SDP-CB1Z (3.3 V).
SOLDER LINKS
There is one three solder link option on the board. It is configured
depending on which generic of the ADC is on the specific
evaluation board as described in Table 3.
Function
−VS
+VS
V_SDP
VDD for
ADC
VREF
Comment
Change to B if using bench supplies
Change to B if using bench supplies
Change to B if using bench supplies
Change to B if using bench supplies
Change to B if using bench supplies
Link
SL10
Setting
A
Configuration
Differential
input
SL10
B
Single-ended
Generic
AD7684, AD7687, AD7688,
AD7690, AD7691, AD7693,
AD7982, AD7984, AD7989-5,
AD7915, AD7916
AD7683, AD7685, AD7686,
AD7694, AD7942, AD7946,
AD7980, AD7983, AD7988-5
ANALOG INPUTS
The analog inputs to the evaluation board are SMA connectors,
J6 and J10. These inputs are buffered with dedicated amplifier
circuitry (U12 and U14), as shown in Figure 27. The circuit allows
different configurations, input range scaling, filtering, addition of a
dc component, and use of different op amp and supplies. The
analog input amplifiers are set as unity-gain buffers at the factory.
The amplifier positive rail is driven from 7.5 V (from U13,
ADP7102). The negative amplifier rail is driven from –VS
(generated by U3, ADP2301).
The default configuration sets both U12 and U14 at midscale,
generated from a buffered reference voltage divider (VCM).
The evaluation board is factory configured for providing either
a single-ended path or a fully differential path as shown in Table 3.
For dynamic performance, a fast Fourier transform (FFT) test
can be done by applying a very low distortion ac source.
For low frequency testing, the audio precision source can be used
directly because the outputs on these are isolated. Set the outputs
for balanced and floating ground. Different sources can be used;
however, most are single-ended sources that use a fixed output
resistance.
Because the evaluation board uses the amplifiers in unity-gain,
the noninverting input has a common-mode input with a series
590 Ω resistor, and it needs to be taken into account when directly
connecting a source (voltage divider).
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EVALUATION BOARD SOFTWARE
INSTALLING THE SOFTWARE
The evaluation board software can be downloaded from the
relevant product page on the Analog Devices website.
1.
2.
3.
4.
5.
Start the Windows® operating system and download the
software from the relevant product page on the Analog
Devices website.
Unzip the downloaded file. Run the setup.exe file.
After installation is completed, power up the evaluation
board as described in the Power Supplies section.
Plug the evaluation board into the SDP board and the SDP
board into the PC using a USB cable.
When the software detects the evaluation board, proceed
through any dialog boxes that appear to finalize the
installation.
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Install the software prior to connecting the SDP board to the USB
port of the PC. This ensures that the SDP board is recognized
when it connects to the PC.
Figure 3. Choose Folder Location, Default Folder Shown
The default location for the software is the following:
C:\Program Files\Analog Devices\8 & 10 Lead PulSAR ADCs.
This location contains the executable software and example files.
INSTALLATION STEPS
There are two parts to the software installation. First, install the
software related to the evaluation board, as shown in Figure 2 to
Figure 7.
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Proceed through the installation, allowing the software and
drivers to be placed in the appropriate locations. Connect the
SDP board to the PC only after the software and drivers have
been installed.
Figure 2. Evaluation Board Software Installation Launches
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Figure 4. Accept National Instruments Software License Agreement
Figure 5. Click Next >> to Install Software
�8-/10-Lead PulSAR User Guide
Figure 6. Bar Showing Installation Progress
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Figure 7. Installation Complete, Click Next >> to Complete and Finish
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Figure 9. Click Next > to Install the ADI SDP Drivers
Figure 10. Choose Install Location, Default Folder Shown
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The second part of the software installation is the drivers related to
the SDP board. These drivers must be installed for the evaluation
board to function correctly. See Figure 8 to Figure 12.
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Figure 8. Installation for SDP Starting
Figure 11. Installation in Progress
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RUNNING THE SOFTWARE WITH THE HARDWARE
CONNECTED
To run the program, take the following steps:
1.
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2.
Click Start > All Programs > Analog Devices > 8 & 10
Lead PulSAR ADCs. To uninstall the program, click Start
> Control Panel > Add or Remove Programs > Analog
Devices 8 & 10 Lead PulSAR ADCs.
If the SDP board is not connected to the USB port when
the software is launched, a connectivity error displays (see
Figure 14). Connect the evaluation board to the USB port of
the PC, wait a few seconds, click Rescan, and follow the
instructions.
Figure 12. Click Finish to Complete Installation
10322-015
When you first plug in the SDP board via the USB cable provided,
allow the new Found Hardware Wizard to run. You can check
that the drivers and the board are connected correctly by looking at
the Device Manager of the PC. The Analog Devices System
Development Platform (32MB) should appear under ADI
Development Tools.
Figure 14. SDP Board Not Connected to the USB Port Pop-Up Window Error
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3.
When evaluation board is detected, Figure 15 displays.
Click OK to continue.
Figure 13. Device Manager
BOARD OPERATION/CONNECTION SEQUENCE
2.
3.
4.
5.
Connect the SDP controller board to the evaluation board
with the J5 connector (screw into place as required). The
software is configured to find the evaluation board on either
connector of the SDP board.
Power the board with the appropriate supply as described
in the Power Supplies section.
Connect to the PC with the USB cable.
Launch the software. Click Start > All Programs >
Analog Devices > 8 & 10 Lead PulSAR ADCs.
Apply signal source and capture data.
Figure 15. Software Detects Evaluation Board
4.
The software then connects to the board and displays what
is shown in Figure 16.
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1.
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The following is the board operation/connection sequence:
Figure 16. Software Connects to SDP Board
5.
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When the board is correctly detected, the software panel
opens.
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8-/10-Lead PulSAR User Guide
RUNNING THE SOFTWARE WITHOUT HARDWARE
3.
Click Start > All Programs > Analog Devices > 8 & 10
Lead PulSAR ADCs.
2.
The software automatically seeks to find the hardware
connected; therefore, when no hardware is connected, it
displays a connectivity error (see Figure 17). To continue
without hardware in standalone mode, click Cancel.
Figure 18. Software Indicates Operating in Standalone Mode
4.
Within standalone/offline mode, you can load example
files or previously saved files and analyze these files.
5.
If you decide to connect hardware at this point, close the
software and relaunch it to allow the software to search for
the board again.
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1.
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The software can run in standalone mode when no evaluation
board hardware is connected to the USB port.
The software alerts you that no hardware is connected, and
that the software will continue in standalone mode.
Figure 17. No Hardware Connected Pop-Up Window Error
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SOFTWARE OPERATION
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When the software launches, the panel opens and the software
looks for the hardware connected to the PC. The software
detects the generic attached to the PC (see Figure 19). The
product panel then launches.
Figure 19. Software Detects AD7691
2
1
6
10
7
8
9
3
4
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5
Figure 20. Setup Screen
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DESCRIPTION OF USER PANEL
1.
2.
3.
4.
File menu with choice of
a. Load Data: load previously captured data
b. Save Data as .tsv: save captured data in tsv (tab
separated values) format for future analysis
c. Save Picture: use to save the current screen capture
d. Print
e. Exit
When hardware is connected to the USB port, the software
automatically detects which generic is connected and displays
it here. Without hardware, the software can be operated in
standalone mode for data analysis, and the device information
notes the device number pulled from the saved data file.
Sampling Frequency: The default sampling frequency
matches the maximum sample rate of the ADC connected
to the board. The user can adjust the sampling frequency;
however, there are limitations around the sample frequency
related to the SCLK frequency applied. The sample frequency
must be an integer divider of the SCLK frequency. In addition,
where unusable sample frequencies are input, the software
automatically adjusts the sample frequency accordingly.
Units can be entered, such as 10k for 10,000 Hz. Because
the maximum sample frequency possible is device dependent,
with some of the ADCs capable of operating up to 250 kSPS,
while others can go to 1.3 MSPS, the software matches the
particular ADC ability. If the user enters a value larger than
the ability of the existing device, the software indicates this
and reverts to the maximum sample frequency.
sCLK Frequency: The default SCLK frequency is set to
60 MHz, which is the maximum allowable from the SDP.
The SCLK is applied to the ADC SCK pin. The SDP board
limits the SCLK frequency; nominal values for correct
operation are 60 MHz, 30 MHz, and 20 MHz. Where the
user adjusts the SCLK/sample rate to values that are not
supported by the SDP clock or the ADC sample rate, the
software overrides by adjusting values accordingly and
identify this to the user (see Figure 21). The SCLK frequency
is rounded down.
10322-022
The following is the description of the user panel:
Figure 21. Software Overwritten User Settings to a Sample Rate/SCLK Rate
Suitable for SDP Data Transfer
5.
External Reference Voltage. By default, this reference is 5 V
(ADR435 on-board reference). The minimum/maximum
voltage calculations are based on this reference voltage. If
the user changes the reference voltage, this input must be
changed accordingly.
6. Click Read to perform a single capture.
7. Click Start Stream to perform a continuous capture from
the ADC.
8. Click Stop Stream to stop streaming data.
9. Select the number of samples (Num Samples) to analyze.
10. There are four tabs available that display the data in
different formats:
a. Waveform
b. Histogram
c. FFT
d. Summary
To exit the software, go to File > Exit or use the EXIT button in
the bottom left corner.
Within any of the chart panels, the tools shown in Table 4 allow
user control of the different chart displays.
Table 4.
Symbol
Description
This tool is used to control the cursor, if present.
This tool is used to zoom in and out.
This tool is used for panning.
To save the plot, click Save Plot.
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WAVEFORM CAPTURE
Figure 22 illustrates the waveform capture. The input signal is a 1 kHz sine wave. The waveform analysis reports the amplitudes recorded
from the captured signal in addition to the frequency of the signal tone.
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1
Figure 22. Waveform Tab
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AC TESTING—HISTOGRAM
The ac testing histogram tests the ADC for the code distribution
for the ac input, computes the mean and standard deviation, or
transition noise, of the converter, and displays the results. Raw data
is captured and passed to the PC for statistical computations. To
perform a histogram test, select Histogram and click Start Stream.
Note that an ac histogram needs a quality signal source applied
to the input J6/J10 connectors. Figure 23 shows the histogram
for a 1 kHz sine wave applied to the ADC input.
Figure 23 shows the histogram results for the signal applied. It
also illustrates the different measured values for the data captured
(see Number 1 within Figure 23).
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1
Figure 23. Histogram Tab, Histogram Captured for Sine Wave
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and spurious-free dynamic range (SFDR). The data can also
be displayed in the time domain. To perform an ac test, apply
a sinusoidal signal to the evaluation board at the SMA inputs,
J6/J10. Low distortion, better than 100 dB, is required to allow
true evaluation of the device. One possibility is to filter the input
signal from the ac source. A band-pass filter can be used, and
its center frequency must match the test frequency of interest.
Furthermore, if using a low frequency band-pass filter when
the full-scale input range is more than a few V p-p, use the onboard amplifiers to amplify the signal, thus preventing the filter
from distorting the input signal.
DC TESTING—HISTOGRAM
More commonly, the histogram is used for dc testing where the
user tests the ADC for the code distribution for dc input, computes
the mean and standard deviation, or transition noise, of the
converter, and displays the results. Raw data is captured and
passed to the PC for statistical computations. To perform a
histogram test, select Histogram and click Start Stream. Note
that a histogram test can be performed without an external
source because the evaluation board has a buffered VREF/2
source at the ADC input. To test other dc values, apply a source
to the J6/J10 inputs. It may be required to filter the signal to
make the dc source noise compatible with that of the ADC.
Figure 24 displays the histogram of the captured data that includes
the following:
AC TESTING—FFT CAPTURE
This tests the traditional ac characteristics of the converter and
displays an FFT of the result. As in the histogram test, raw data
is captured and passed to the PC where the FFT is performed
displaying signal-to-noise ratio (SNR), signal-to-noise-anddistortion ratio (SINAD), total harmonic distortion (THD),
2
The spectrum information
The fundamental frequency and amplitude in addition to
the second-to-fifth harmonics
The performance data (SNR, dynamic range, THD,
SINAD, and noise performance)
3
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1
Figure 24. FFT Tab
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SUMMARY TAB
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The Summary tab captures all the display information and provides them in one panel with a synopsis of the information including key
performance parameters, such as SNR and THD.
Figure 25. Summary Tab, Shows All Captured Windows
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SAVE FILE
LOAD FILE
The software can save the current captured data for later analysis,
and the file format is .tsv (tab separated values).
The user is prompted with a Load File box. The user may have to
navigate to find these example files. The default location for the
example files is C:\Program Files\Analog Devices\8 & 10 Lead
PulSAR ADCs\Example files.
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The user is prompted with a Choose or Enter Path of File box
(see Figure 26); save to an appropriate folder location.
Figure 26. Save Dialog Box
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EVALUATION BOARD SCHEMATICS
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Figure 27. 10-Lead Evaluation Board, ADC and Driver
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Figure 28. 8-Lead Evaluation Board, ADC and Driver
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Figure 29. Voltage Reference and Common-Mode Buffer
Figure 30. Secondary Power Connector for Bench Supply Purposes
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Figure 31. On-Board Amplifier Power Supply, +7.5/−2.5 V
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Figure 32. SDP Power Supply
Figure 33. ADC/VDRIVE Power Supply
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Figure 34. SDP Connector and Glue Logic
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Figure 35. Header Connectors, Optional Connectors for Possible Add-On Boards
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Figure 36. 10-Lead Evaluation Board Silkscreen, Top Layer
Figure 37. 10-Lead Evaluation Board, Layer 1
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Figure 38. 10-Lead Evaluation Board, Layer 2
Figure 39. 10-Lead Evaluation Board, Layer 3
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Figure 40. 10-Lead Evaluation Board, Layer 4
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Figure 41. 8-Lead Evaluation Board Silkscreen, Top Layer
Figure 42. 8-Lead Evaluation Board, Layer 1
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Figure 43. 8-Lead Evaluation Board, Layer 2
Figure 44. 8-Lead Evaluation Board, Layer 3
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Figure 45. 8-Lead Evaluation Board, Layer 4
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TROUBLESHOOTING
SOFTWARE
HARDWARE
To troubleshoot the software, take the following steps:
To troubleshoot the hardware, take the following steps:
1.
1.
2.
3.
4.
5.
Always install the software prior to connecting the hardware
to the PC.
Always allow the install to fully complete (the software is a
2-part install, the ADC software and the SDP drivers). This
may require a restart.
When the user first plugs in the SDP board via the USB cable
provided, allow the new Found Hardware Wizard to run.
This may take a little time but allow this to happen prior to
starting the software.
Where the board does not appear to be functioning, ensure
that the ADC evaluation board is connected to the SDP board
and that the board is being recognized in the Device
Manager, as shown in Figure 13.
If connected to a slower USB port where the SDP cannot read
as quickly as it needs to, a timeout error may result. In this
case, it is advised not to read continuously, or alternatively,
to lower the number of samples taken.
2.
Rev. C | Page 29 of 31
If the software does not read any data back, do the
following:
a. Check that the power is applied within the power
ranges described in the Power Supplies section.
b. Using a voltmeter, measure the voltage present at the
positive terminal of C3 (it should be 7.5 V) and C14
(it should be −2.5 V) and measure the voltage at the
positive terminal of C11 (it should be 5 V). The SDP
board, LED1, should be lit.
c. Launch the software and read the data. If nothing
happens, exit the software.
d. Power down the board and relaunch the software.
e. If no data is read back, confirm that the ADC evaluation
board is connected to the SDP board and that the board
is being recognized in the Device Manager, as shown
in Figure 13.
When the user is working with the software in standalone/
offline mode (no hardware connected) and later chooses to
connect hardware, they must close and relaunch the software.
�UG-340
8-/10-Lead PulSAR User Guide
PRODUCTS ON THIS EVALUATION BOARD
Table 5.
Product
AD7683BRMZ
AD7684BRMZ
AD7685BRMZ
AD7686BRMZ
AD7687BRMZ
AD7688BRMZ
AD7690BRMZ
AD7691BRMZ
AD7693BRMZ
AD7694BRMZ
AD7942BRMZ
AD7946BRMZ
AD7980BRMZ
AD7982BRMZ
AD7983BRMZ
AD7984BRMZ
AD7988-5BRMZ
AD7915BRMZ
AD7916BRMZ
Ordering Model
EVAL-AD7683SDZ
EVAL-AD7684SDZ
EVAL-AD7685SDZ
EVAL-AD7686SDZ
EVAL-AD7687SDZ
EVAL-AD7688SDZ
EVAL-AD7690SDZ
EVAL-AD7691SDZ
EVAL-AD7693SDZ
EVAL-AD7694SDZ
EVAL-AD7942SDZ
EVAL-AD7946SDZ
EVAL-AD7980SDZ
EVAL-AD7982SDZ
EVAL-AD7983SDZ
EVAL-AD7984SDZ
EVAL-AD7988-5SDZ
EVAL-AD7915SDZ
EVAL-AD7916SDZ
Sample Rate
100 kSPS
100 kSPS
250 kSPS
500 kSPS
250 kSPS
500 kSPS
400 kSPS
250 kSPS
500 kSPS
250 kSPS
250 kSPS
500 kSPS
1 MSPS
1 MSPS
1.33 MSPS
1.33 MSPS
500 kSPS
1 MSPS
500 kSPS
Resolution (Bit)
16
16
16
16
16
16
18
18
16
16
14
14
16
18
16
18
16
16
16
Package Used on Evaluation Board
8-Lead MSOP
8-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
8-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
10-Lead MSOP
RELATED LINKS
Resource
AD8031
ADA4841-1
ADR435
ADP7102
ADP7104
ADP2301
ADG3304
EVAL-SDP-CB1Z
AN-931
Description
Product Page, AD8031, 2.7 V, 800 µA, 80 MHz Rail-to-Rail I/O Single Amplifier
Product Page, ADA4841-1, Low Power, Low Noise and Distortion, Rail-to-Rail Output Amplifier
Product Page, ADR435, Ultralow Noise XFET® Voltage References with Current Sink and Source Capability
Product Page, ADP7102, 20 V, 300 mA, Low Noise, CMOS LDO
Product Page, ADP7104, 20 V, 500 mA, Low Noise, CMOS LDO
Product Page, ADP2301, 1.2 A, 20 V, 1.4 MHz Nonsynchronous Step-Down Switching Regulator
Product Page, ADG3304, Low Voltage 1.15 V to 5.5 V, 4 Channel, Bidirectional, Logic Level Translator
Product Page, System Demonstration Platform (SDP)
AN-931 Application Note, Understanding PulSAR ADC Support Circuitry
Rev. C | Page 30 of 31
�8-/10-Lead PulSAR User Guide
UG-340
NOTES
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.
©2012–2015 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
UG10322-0-3/15(C)
Rev. C | Page 31 of 31
�
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