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Texas Instruments ADS54RF63-ADX4 EVM User guides
User's Guide
SLAU296 – October 2009
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS
Evaluation Module (EVM)
1
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3
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5
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9
10
Contents
Introduction .................................................................................................................. 2
Hardware Design ............................................................................................................ 2
Software Interfaces ......................................................................................................... 2
Installation of Software ..................................................................................................... 2
Using ADCapture Lab ...................................................................................................... 6
Hardware Interfaces ....................................................................................................... 11
Performance ................................................................................................................ 12
Bill of Material .............................................................................................................. 13
Layout ....................................................................................................................... 19
Schematic .................................................................................................................. 19
1
ADCapture Lab Main Window ............................................................................................. 6
2
Buttons Used for Connect and Capture .................................................................................. 7
3
The Appearance and Functionality of the Start/Stop Button Changes During Continuous Capture ............. 8
4
The Analysis and View Settings
5
The result of the Data Analysis is Displayed in the Analysis Window .............................................. 10
6
The Plot Tools Appear When Placing the Mouse Over any of the Plot Windows ................................ 11
List of Figures
..........................................................................................
9
List of Tables
1
Bill of Materials............................................................................................................. 13
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ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
Copyright © 2009, Texas Instruments Incorporated
1
Introduction
1
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Introduction
The ADX412 EVM is a high performance evaluation module which incorporates four time-interleaved AD
Converters sampling a single analog input, fine-adjustable clock phases and a USB interface. The analog
input is sampled with 12-bit resolution at a capture rate of 2.2 giga samples per second (GSPS).
2
Hardware Design
2.1
ADC Interface
The ADCs are clocked from an external 550MHz clock, this clock is phase shifted to 0, 90, 180 and 270
respectively for the four ADCs. The first ADC buffers the zero phase clock and drives an LVDS source
synchronous clock, edge aligned to data, to the FPGA global clock input. From this clock the FPGA
generates all four clock phases needed for data sampling using a PLL.
2.2
USB Interface
The FPGA is connected to a RS-232-over-USB chip. The signaling is done using LVTTL (3.3V), and is
synchronous to a 24MHz clock driven by the USB chip to the FPGA. The data rate is fixed at 3Mbit.
2.3
Control and Status Interface
On the PCB there are also four LEDs and six DIP switches available. The LEDs are active low using
LVTTL (3.3V). The DIP switches are also active low, but use the LVCMOS (2.5V) signaling.
3
Software Interfaces
For evaluation, both a standalone program (ADCaptureLab) and a MATLAB interface is supplied.
3.1
ADCaptureLab
See the section Using ADCapture Lab for instructions.
3.2
MATLAB Interface
Find devices:
Reset device:
Collect data:
instrusb('find')
instrusb('reset')
[a b c d] = instrusb('musb', 'FPGA', 'adx4', 4)
See the help file in .m-file for more information.
4
Installation of Software
4.1
ADCaptureLab Installation
To install the software for the EVM board, run "EVM-setup.exe" found on the CD delivered with the board.
This will cause all software to be installed and a shortcut to be added to the start menu. Currently, the
software package is only available for use with Microsoft Windows.
IMPORTANT: Install the software before you connect the ADX-EVM to the USB Port.
break
1. To install the software, run EVM-setup.exe which is included on the CD delivered with your card. The
window (Figure 1) will be shown.
2
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
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Installation of Software
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2. Press "Next >".
3. Read the license agreement, and then press "I Agree".
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Installation of Software
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4. Choose the components to be installed and press "Next >".
SP Devices recommend installation of all suggested components.
5.
4
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Installation of Software
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If the suggested default installation location is not satisfactory, press "Browse" to choose another
location. Then press "Install".
6. When all components have been installed, the software is ready for use.
Press "Finish" to complete the installation.
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Using ADCapture Lab
5
Using ADCapture Lab
5.1
Overview
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Figure 1 shows the main window of ADCapture Lab. A detailed description of each part shown in the main
window is given in the section shown in the figure.
Time-series Plot of
Data
Time-series Plot of
Data
Analysis and View,
Section 5.4.1
Settings & Setup,
Section 5.2.1
Analysis and View,
Section 5.4.1
Settings & Setup,
Section 5.2.1
Connect & Capture,
Sections 5.2.2 and 5.3
Figure 1. ADCapture Lab Main Window
6
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
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Using ADCapture Lab
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5.2
Capturing Data
5.2.1
Settings and Setup
5.2.2
Setting
Description
Sample frequency
Set the sampling frequency for the system. Frequency axis for FFT plot will be based on this and on
Nyquist zone settings (see section Nyquist Zone Settings).
Input frequency
Set the input frequency. Only used for tagging when exporting data.
Connect and Capture
Clear the log window
Find compatible
devices
Acquire single data
Start / Stop for
continuous capture
Figure 2. Buttons Used for Connect and Capture
5.2.2.1
Connecting to the Board
1. To find the board – press the button "Find USB Devices". The boards connected to the computer will
then show up in the "Devices" box. Status information on the enumeration of devices will show in "Log
window".
2. Select a compatible device board from the "Devices" list. The buttons "Acquire Data" and "Run" will
then be activated.
5.2.2.2
Capture Single Batch
To capture a single batch from the board, press "Acquire Data".
5.2.2.3
Continuous Capture
To capture continuously, press "Run". Button will change name to "Stop", and pressing it will stop the
capturing. If plots are in "Play" mode (see section Plot Tools), plots will be updated continuously as new
data arrives from the board.
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Using ADCapture Lab
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Stop continuous
capture
Figure 3. The Appearance and Functionality of the Start/Stop Button Changes During Continuous
Capture
5.3
Import and Export of Data
5.3.1
Import Data
Press "Import Data" to load previously saved results into ADCapture Lab. In the file dialog window that
opens, select the target file and press "Open". File contents will be loaded into the plot windows (unless
they are in "Pause" mode). To import, the user can also drag and drop the file to the ADCapture Lab main
window directly.
5.3.2
Export data
To save the results of a measurement, press "Save Data". Provide a filename in the file dialog window
that opens, select a file format and press "Save". Data can be exported as a text file format with a header,
binary format, or as a pure ASCII file for use with for example MATLAB.
5.4
Data Analysis
ADCapture Lab supports several data analysis functions that help interpret and evaluate the results of the
measurements. The following sections explain the details about these functions.
8
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
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5.4.1
Analysis and View Settings
The analysis and view settings determine which type of data analysis that is performed and how the result
is displayed.
View Settings
Analysis Type
Settings
Nyquist Zone
Settings
Figure 4. The Analysis and View Settings
5.4.1.1
5.4.1.2
Analysis Type Settings
Analysis Type
Description
Single-tone
Check this to indicate that the current measurement is a single-tone test. Supports analysis of code
range, fundamental, harmonics, SFDR, and SNDR (ENOB).
Two-tone
Check this to indicate that the current measurement is a two-tone test. Supports analysis of code range,
fundamentals, SFDR and SNDR (ENOB).
Other
Check this to indicate that the current measurement is other than above mentioned test types. Supports
analysis of code range only.
Nyquist Zone Settings
Nyquist Zone
Description
Nyquist zone 1
Check this to indicate that the input signal frequencies are in the first Nyquist zone, i.e., DC < fin < fs/2.
Frequency axis of FFT plot will be based on this and on the current sample frequency setting.
Nyquist zone 2
See description above. FFT plot frequency axis will change to fs/2 < fin < fs.
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Using ADCapture Lab
5.4.1.3
5.4.2
www.ti.com
View Settings
Setting
Description
Color scheme
Sets the color scheme of the plot routines. Available modes are
• White background (printer-friendly)
• Black background
• Grey background
Window
Windowing function used for FFT and analysis functions. Available windows are:
• Blackman
• Blackman-Harris
• Hamming
• Hanning
• Rectangular
Autoscale FFT Y Axis
When enabled, the y-axis of the FFT plot is automatically scaled. If disabled, the y-axis is locked
between 0 and -130dBFS.
Mark signal props
When enabled, fundamental tone(s) and SFDR limiter are marked in the FFT plot.
Mark harmonics
When enabled, harmonics (2nd-6th) are marked in the FFT plot. Supported for single-tone tests only.
Mark interleaving
When enabled, interleaving errors are marked in the FFT plot. Supported for single-tone tests and
two-tone tests only.
Analysis Window Output
Figure 5. The result of the Data Analysis is Displayed in the Analysis Window
10
Analysis
Item Applicable to
Analysis Type(s)
Description
Codes
All
Code range and number of samples in the current data batch.
DC Power
All
DC power in dBFS.
Fund. tone(s)
Single-tone
Two-tone
Identified fundamental tones (power and frequency).
Power max
Other
Identified power maximum (power and frequency).
SFDR
Single-tone
Two-tone
Spurious-Free Dynamic Range. Power relation between fundamental tone and largest
distortion. For a two-tone test this is calculated as the relation between the largest
fundamental tone and the largest distortion. Frequency position of limiting component
is calculated.
SFDR
Single-tone
Two-tone
Signal to Noise and Distortion Ratio. Power relation between fundamental tone and
noise and distortion.
ENOB
Single-tone
Two-tone
Effective Number Of Bits. Based directly on the SNDR value.
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
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Hardware Interfaces
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5.5
Plot Tools
Move the mouse cursor over any of the plot windows (time-series plot or FFT plot) to display the plot tools
toolbar. When a plot tool is marked green, as for example the "Zoom to Fit" tool shown in Figure 6, it
means that this specific tool is currently not a valid choice. In the case of the "Zoom to Fit" tool, this
happens when the plot is already zoomed to show the full signal plot.
Play / Pause
Zoom In
Copy
Zoom Out
Print
Save
Zoom to Fit
Edit Cursors and Markers
Zoom Undo
Zoom Redo
Figure 6. The Plot Tools Appear When Placing the Mouse Over any of the Plot Windows
Plot Tool
Description
Play/Pause
To put plot in Play/Pause mode. In play mode, plot will display new data as it arrives either by acquiring
or by import from file. In pause mode, plot will not update.
Copy
Copies plot window to the clipboard. The result can for example be pasted into a document or similar.
Print
Prints plot window to printer.
Save
Exports plot window to bitmap or jpeg image file.
Edit Cursors and
Markers
Edits the cursors and markers of the plot window. When pressed a dialog window will open which will
allow for changing properties such as channel name and visibility, display color for the channel and
marker shapes and colors.
Zoom In
Zooms in
Zooms Out
Zoom out
Zoom to Fit
Zooms to the original setting.
Zoom Undoit
Returns to previous zoom setting.
Zoom Redo
Returns to zoom setting before undo press.
6
Hardware Interfaces
6.1
DIP Switches
1
2
3
4
5
6
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Reserved. Set to "Off".
Reserved. Set to "Off".
Reserved. Set to "Off".
Reserved. Set to "Off".
Store ADX IP data in data logger. "Off" selects ADC data.
ADC powerdown (unused)
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
Copyright © 2009, Texas Instruments Incorporated
11
Performance
6.2
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LEDs
0
1
2
3
7
Toggle when estimation done. Red.
Estimation enabled. Red.
Licence ok, will blink on license failure. Green.
Transmitting data logger data over USB interface. Green.
Performance
The performance of the EVM is limited at all measurements by the harmonic distortion of the ADCs (HD2
or HD3). Below are plots of the typical performance of the ADX4-EVM.
12
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
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Bill of Material
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8
Bill of Material
Table 1. Bill of Materials
QTY
Package
Manufacturer
Manufacturer PN
8
Resistor, 0 ohm, 0402, 1%,
0.063W
Description
0402
VISHAY DALE
CRCW04020000Z0ED
4
Resistor, 1 ohm, 0402, 1%,
0.063W
0402
VISHAY DALE
CRCW04021R00FNED
9
Resistor, 10 ohm, 0402, 1%,
0.063W
0402
VISHAY DALE
2
Resistor, 22 ohm, 0402, 1%,
0.063W
0402
6
Resistor, 33 ohm, 0402, 1%,
0.063W
12
Regulatory
Status
Designators
RoHS
QUL
R13, R16, R45, R46, R81,
R99, R138, R139
RoHS
QUL
R7, R8, R29, R71
CRCW040210R0FKED
RoHS
QUL
R26, R27, R28, R30, R31,
R36, R37, R38, R88
VISHAY DALE
CRCW040222R0FKED
RoHS
QUL
R118, R119
0402
VISHAY DALE
CRCW040233R0FKED
RoHS
QUL
R107, R108, R109, R115,
R116, R117
Resistor, 51 ohm, 0402, 1%,
0.063W
0402
VISHAY DALE
CRCW040251R0FKED
RoHS
QUL
R80, R93, R95, R122, R123,
R124, R125, R126, R127,
R128, R129, R136
4
Resistor, 240 ohm, 0402,
1%, 0.063W
0402
VISHAY DALE
CRCW0402240RFKED
RoHS
QUL
R19, R20, R25, R43
2
Resistor, 330 ohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-07330RL
RoHS
QUL
R87, R89
2
Resistor, 390 ohm, 0402,
1%, 0.063W
0402
VISHAY DALE
CRCW0402390RFKED
RoHS
QUL
R5, R6
1
Resistor, 470 ohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-07470RL
RoHS
QUL
R76
1
Resistor, 680 ohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-07680RL
RoHS
QUL
R75
3
Resistor, 1 kohm, 0402, 1%,
0.063W
0402
Yageo
RC0402FR-071KL
RoHS
QUL
R92, R104, R111
1
Resistor, 1.2 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-071K2L
RoHS
QUL
R94
1
Resistor, 3.3 kohm, 0402,
1%, 0.063W
0402
Yage0
RC0402FR-073K3L
RoHS
QUL
R77
18
Resistor, 4.7 kohm, 0402,
1%, 0.063W
0402
VISHAY DALE
CRCW04024K70FKED
RoHS
QUL
R72, R84, R85, R86, R90,
R97, R100, R101, R102,
R105, R110, R121, R130,
R131, R132, R133, R134,
R135
2
Resistor, 6.8 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-076K8L
RoHS
QUL
R3, R4
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Supplier
Farnell
Supplier PN
1469668
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
Copyright © 2009, Texas Instruments Incorporated
13
Bill of Material
www.ti.com
Table 1. Bill of Materials (continued)
QTY
14
Description
Package
Manufacturer
Manufacturer PN
Supplier
Supplier PN
Regulatory
Status
Designators
19
Resistor, 10 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-0710KL
RoHS
QUL
R1, R2, R55, R56, R57,
R59, R60, R62, R63, R65,
R66, R67, R68, R70, R98,
R112, R113, R114, R120
1
Resistor, 15 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-0715KL
RoHS
QUL
R103
1
Resistor, 18 kohm, 0402,
1%, 0.063W
0402
VISHAY DALE
CRCW040218K0FKED
RoHS
QUL
R141
4
Resistor, 22 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-0722KL
RoHS
QUL
R58, R61, R64, R69
1
Resistor, 33 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-0733KL
RoHS
QUL
R106
1
Resistor, 47 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-0747KL
RoHS
QUL
R74
25
Resistor, 100 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-07100KL
RoHS
QUL
R9, R10, R11, R12, R14,
R15, R17, R18, R21, R22,
R23, R24, R32, R33, R34,
R35, R41, R42, R48, R49,
R50, R51, R52, R53, R142
0
Resistor, 150 kohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-07150KL
RoHS
QUL
1
Resistor, 330 kohm, 0402,
1%, 0.063W
0402
VISHAY DALE
CRCW0402330KFKED
RoHS
QUL
0
Resistor, 1 Mohm, 0402,
1%, 0.063W
0402
Yageo
RC0402FR-071ML
RoHS
QUL
4
Resistor, 82 ohm, 0603, 1%,
0.1W
0603
Yageo
RC0603FR-0782RL
RoHS
QUL
R78, R79, R82, R83
1
Resistor, 100 ohm, 0603,
1%, 0.1W
0603
Yageo
RC0603FR-07100RL
RoHS
QUL
R96
1
NTC thermistor, 100k
0603
Mitsubishi
TN10-3R104JT
RoHS
QUL
R54
16
Capacitor, 4.7 pF +/-0.25pF,
0402, C0G, 50V
0402
TDK
C1005C0G1H4R7B
RoHS
QUL
C9, C10, C20, C21, C22,
C23, C28, C29, C30, C31,
C35, C36, C37, C38, C41,
C42
1
Capacitor, 10 pF, 5%, 0402,
C0G, 50V
0402
Murata
GRM1555C1H100JZ01D
RoHS
QUL
C67
4
Capacitor, 100 pF, 5%,
0402, C0G, 50V
0402
Murata
GRM1555C1H101JZ01D
RoHS
QUL
C95, C96, C97, C98
Panasonic
ERTJ1VS104JA
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
Copyright © 2009, Texas Instruments Incorporated
R73
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Bill of Material
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Table 1. Bill of Materials (continued)
QTY
Description
Package
Manufacturer
Manufacturer PN
Supplier
Supplier PN
Regulatory
Status
Designators
RoHS
QUL
C1, C7, C11, C14, C15,
C16, C17, C18, C19, C25,
C26, C33, C34, C39, C40,
C43, C44, C45, C48, C49,
C50, C52, C53, C54, C56,
C57, C58, C59, C74, C82,
C83, C84, C90, C91, C92,
C99, C100, C101, C104,
C105, C106, C107, C108,
C109, C110, C111, C112,
C113, C114, C115, C116,
C117, C118, C119, C120,
C121, C122, C123, C124,
C125, C126, C127, C128,
C129, C130, C131, C132,
C133, C134, C135, C136,
C137, C138, C139, C140,
C141, C142, C143, C144,
C145, C146, C147, C148,
C149, C150, C151, C152,
C153, C154, C155, C156,
C157, C158, C159, C160,
C161, C162, C163, C164,
C165, C166, C167, C168,
C169, C170, C171, C172,
C173, C174, C175, C176,
C177, C178, C179, C180,
C181, C182, C183, C184,
C185, C186, C187, C188,
C189, C190, C191, C192,
C193, C194, C195, C196,
C197, C198, C199, C200,
C201, C202, C203, C204,
C205, C206, C207, C208,
C209, C210, C211, C212,
C213, C214, C215, C216,
C217, C218, C219, C220,
C221, C222, C223, C224,
C225, C226, C227, C228,
C229
164
Capacitor, 100 nF, 10%,
0402, X7R, 16V
0402
TDK
C1005X7R1C104K
2
Capacitor, 100 nF, 10%,
0603, X5R, 50V
0603
Kemet
C0603C104K5RACTU
Elfa
65-202-09
RoHS
QUL
C102, C103
6
Capacitor, 1 uF, 10%, 0603,
X5R, 25V
0603
Murata
GRM188R61E105KA12
D
Elfa
65-202-17
RoHS
QUL
C12, C13, C32, C87, C89,
C94
6
Capacitor, 2.2 uF, 10%,
0603, X5R, 16V
0603
Murata
GRM188R61C225KE15
D
Elfa
65-202-25
RoHS
QUL
C2, C3, C4, C5, C6, C8
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ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
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15
Bill of Material
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Table 1. Bill of Materials (continued)
QTY
16
Package
Manufacturer
Manufacturer PN
Supplier
Supplier PN
Regulatory
Status
Designators
8
Capacitor, 10 uF, 10%,
0805, X5R, 16V
Description
0805
Johanson
Dielectrics Inc
160R15X106KV4E
Elfa
65-502-89
RoHS
QUL
C24, C46, C51, C55, C60,
C63, C65, C230
12
Capacitor, 47 uF, 20%,
1210, X5R, 10V
1210
Taiyo Yuden
LMK325BJ476MM-T
Farnell
1463411
RoHS
QUL
C61, C64, C66, C69, C70,
C75, C76, C77, C78, C79,
C80, C85
5
Capacitor, 10 uF, 20%,
1210, X5R, 25V
1210
Taiyo Yuden
TMK325 BJ106MM-T
Farnell
1611923
RoHS
QUL
C71, C81, C88, C231, C232
5
Electrolytic capacitor, 100
uF, 0.39 ohm, 20%, 16V,
C6, 105deg, CE-KX
C6
Sanyo
16CE100KX
Elfa
67-226-72
RoHS
QUL
C27, C47, C68, C72, C73
2
Electrolytic capacitor, 330
uF, 0.15 ohm, 20%, 25V,
E10, 105deg, CE-KX
E10
Sanyo
25CE330KX
Elfa
67-227-30
RoHS
QUL
C86, C93
1
Electrolytic capacitor, 10 uF,
1.8 ohm, 20%, 25V, 105deg,
CE-AX
A6
Sanyo
25CE10AX
Panasonic
EEEFP1E100AR
RoHS
QUL
C62
5
Ferrite bead, 0603, 600
ohm, RDC=0.45 ohm, 200
mA
0603
Würth
74279265
Würth
74279265
RoHS
QUL
L1, L2, L6, L7, L15
5
Ferrite bead, 0805, 120
ohm@100MHz, RDC=0.03
ohm, 3 A
0805
Würth
742792023
Würth
742792023
RoHS
QUL
L14, L32, L33, L35, L37
16
Inductor, 2.7nH, 5%,
0.056ohm, 1500mA, 13GHz
SRF
0402
Coilcraft
0402HP-2N7XJL
Coilcraft
0402HP2N7XJL
RoHS
QUL
L3, L5, L8, L9, L12, L13,
L16, L17, L20, L21, L23,
L24, L27, L28, L29, L31
8
Inductor, 5.6nH, 5%,
0.048ohm, 1600mA, 6.5GHz
SRF
0402
Coilcraft
0402HP-5N6XJL
Coilcraft
0402HP5N6XJL
RoHS
QUL
L4, L10, L11, L18, L19, L25,
L26, L30
2
SMT power inductor, 10uH,
10%, 0.434ohm, 1.1A (30%
drop), 39.9MHz
SMD2.5x3
Coilcraft
ME3220-103KL
Coilcraft
ME3220103KL
RoHS
QUL
L36, L39
5
SMT power inductor, 3.3uH,
20%, 0.138ohm, 1.7A (30%
drop), 75.6MHz
SMD2.5x3
Coilcraft
ME3220-332ML
Coilcraft
ME3220332ML
RoHS
QUL
L22, L34, L38, L40, L41
1
ACM7060-701-2PL, 4A
Common mode power filter
SMD6x7
TDKs
ACM7060-701-2PL
Farnell
1503724
RoHS
QUL
TR3
2
MABA-007159, 4.5 - 3000
MHz, 1:1 transmission line
transformer
SM-22
Tyco/Macom
MABA-007159-000000
RoHS
QUL
TR1, TR2
1
50WQ03FN, 5A 30V
schottky diode
DPAK
RoHS
QUL
D23
50WQ03FN
Richardson
Elfa
70-238-07
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
Copyright © 2009, Texas Instruments Incorporated
SLAU296 – October 2009
Submit Documentation Feedback
Bill of Material
www.ti.com
Table 1. Bill of Materials (continued)
QTY
Description
Package
Manufacturer
Manufacturer PN
SC79
NXP
BB184
NXP
BAV99W
Supplier
Supplier PN
Regulatory
Status
Designators
Mouser
771-BB184T/R
RoHS
QUL
D1, D2, D3, D4, D5, D6, D7,
D8, D9, D10, D11, D12,
D13, D14, D15, D16
Elfa
70-300-83
RoHS
QUL
D24, D25
Elfa
71-304-04
RoHS
QUL
Q2
Farnell
1459102
RoHS
QUL
Q1, Q5, Q6
Farnell
9558608
RoHS
QUL
Q3, Q4
16
BB184, UHF low-voltage
varactor, 2-14 pF, max 10V
2
BAV99W, dual diode,
common anode/cathode,
0.15A, 85V
SOT323
1
BC847W, NPN transistor,
0.2A, 0.2W, 45V,
hFE=110-800
SOT323
3
MMBT3904WT, NPN
transistor, 0.2A, 0.15W, 40V,
hFE=40-300
SOT323
2
BC817-25, NPN transistor,
0.5A, 0.25W, 45V,
hFE=160-400
SOT23
4
Green LED, 16mcd, 0603
0603
Everlight
EL19-21SYGC
Elfa
75-312-47
RoHS
QUL
D19, D20, D21, D22
2
Red LED, 19mcd, 0603
0603
Everlight
EL19-21SDRC
Elfa
75-308-01
RoHS
QUL
D17, D18
1
XC5VSX50T-3FFG665C,
Virtex 5 FPGA
BGA
FF665
Xilinx
XC5VSX50T-3FFG665C
RoHS
QUL
U20
1
AT45DB321D, 32 Mbit
FPGA config memory
SO8W
Atmel
AT45DB321D-SU
RoHS
QUL
U29
1
DS2432, 1-kbit protected
1-wire EEPROM with SHA-1
engine
TSOC8
Maxim
DS2432
RoHS
QUL
U33
2
PTH08080W, 2.2A DC/DC
module, 4.5-18V in, 0.9-5.5V
out
SMD
Texas
Instruments
PTH08080WAZ
Digikey
296-20433ND
RoHS
QUL
U28, U34
4
REG104GA-3.3G4, 3.3V
LDO, 1A max, 480mV drop
SOT223-6
Texas
Instruments
REG104GA-3.3G4
Farnell
1207259
RoHS
QUL
U11, U14, U22, U23
1
LP2980-ADJ, adjustable
LDO, 50 mA, max 16V in
SOT23-5
National
Semiconductor
LP2980IM5-ADJ
Elfa
73-269-76
RoHS
QUL
U25
2
PTH08T231WAZ, 6A DC/DC
module, 4.5-14V in, 0.7-5.5V
out, cer cap
SMD
Texas
Instruments
PTH08T231WAZ
Digikey
296-21589ND
RoHS
QUL
U26, U31
2
TPS72301, 200mA negative
LDO, -2.7--10V in, -1.2--9.5V
out
SOT23-5
Texas
Instruments
TPS72301DBVTG4
Farnell
1207336
RoHS
QUL
U1, U2
2
REG104GA-5G4, 5.0V LDO,
1A max, 580mV drop
SOT223-6
Texas
Instruments
REG104GA-5G4
Farnell
1207261
RoHS
QUL
U4, U24
4
TLV2371, opamp, 2.7 - 16V,
RRIO, 3 MHz, 6 mV offset
SOT23-5
Texas
Instruments
TLV2371IDBVT
Farnell
8454990
RoHS
QUL
U13, U16, U18, U19
SLAU296 – October 2009
Submit Documentation Feedback
ON
Semiconductor
MMBT3904WT1G
Farnell
1455042
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
Copyright © 2009, Texas Instruments Incorporated
17
Bill of Material
www.ti.com
Table 1. Bill of Materials (continued)
QTY
18
Description
Package
Manufacturer
Manufacturer PN
HTQFP80
Texas
Instruments
ADS54RF63IPFP
Supplier
Supplier PN
Regulatory
Status
Designators
RoHS
QUL
U3, U5, U8, U10
4
ADS54RF63, 12-bit 550
MSPS ADC
4
DAC7311, 12-bit serial DAC
SC70-6
Texas
Instruments
DAC7311DCK
Farnell
1661399
RoHS
QUL
U12, U15, U17, U21
1
CFPS-32, 50 MHz crystal
oscillator, 2.5V
SMD7x5
C-MAC
CFPS-32IB 50.0MHz
Farnell
1276663
RoHS
QUL
U30
3
ADCLK925 6 GHz 1->2 ECL
clock fanout buffer
LFCSP16
Analog Devices
ADCLK925BCPZ
Digikey
ADCLK925B
CPZ-R7CTND
RoHS
QUL
U6, U7, U9
1
FT232RQ, USB 1.1 serial
port
QFN32
FTDI chip
FT232RQ
Farnell
1146033
RoHS
QUL
U37
2
TPS3809K33, 3.3V reset
circuit, active low, 2.93 V trip
point
SOT23-3
Texas
Instruments
TPS3809K33DBV
Farnell
1287661
RoHS
QUL
U27, U32
1
LM95234, quad remote
diode temp sensor
LLP14
National
LM95234CISD
Farnell
1554779
RoHS
QUL
U36
1
TC655, dual SMBus fan
controller/temp sensor
MSOP10
Microchip
TC655EUN
Mouser
579TC655EUN
RoHS
QUL
U35
0
Retention module for
E5405A pinless 17ch diff
connector for Agilent logic
analyzers
SMD
Agilent
E5403A (kit of 5)
RoHS
QUL
2
SMA side launch connector,
17.45 mm overall length
SMD/hand
Multicomp
19-70-TGG
Farnell
1342651
RoHS
QUL
J1, J2
1
USB type B mini, pth
PTH
Molex
56579-0519
Molex
56579-0519
RoHS
QUL
J7
1
Power connector 2.1 mm pin
, hole mounted
PTH
Cliff Electronic
Components
DC10A
Farnell
224959 (10
pcs)
RoHS
QUL
J6
1
Pin header, 2x7, 2.0 mm
spacing, shrouded
PTH
Molex
87831-1420
Digikey
WM17469ND
RoHS
QUL
P1
0
Pin header, 1x2, 2.0 mm
spacing
PTH
RoHS
QUL
2
Molex 22-27-2021, 2-pin
2.54 mm with friction lock
PTH
Molex
22-27-2021
1
SMD Pushbutton, SPST, 1.6
N
SMD
ALPS
1
DIP-switch, 6PST
SMD-DIP
Taiway
Farnell
9731148
RoHS
QUL
P2, P4
SKHUALE010
Elfa
35-790-00
RoHS
QUL
SW1
DM-06
Elfa
35-404-65
RoHS
QUL
SW2
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
Copyright © 2009, Texas Instruments Incorporated
SLAU296 – October 2009
Submit Documentation Feedback
Layout
www.ti.com
9
Layout
The layout pages are appended to the end of this user's guide.
10
Schematic
The schematic pages are appended to the end of this user's guide.
SLAU296 – October 2009
Submit Documentation Feedback
ADS54RF63-ADX4 Single-channel, 12-bit, 2.2 GSPS Evaluation Module (EVM)
Copyright © 2009, Texas Instruments Incorporated
19
Evaluation Board/Kit Important Notice
Texas Instruments (TI) provides the enclosed product(s) under the following conditions:
This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION PURPOSES
ONLY and is not considered by TI to be a finished end-product fit for general consumer use. Persons handling the product(s) must have
electronics training and observe good engineering practice standards. As such, the goods being provided are not intended to be complete
in terms of required design-, marketing-, and/or manufacturing-related protective considerations, including product safety and environmental
measures typically found in end products that incorporate such semiconductor components or circuit boards. This evaluation board/kit does
not fall within the scope of the European Union directives regarding electromagnetic compatibility, restricted substances (RoHS), recycling
(WEEE), FCC, CE or UL, and therefore may not meet the technical requirements of these directives or other related directives.
Should this evaluation board/kit not meet the specifications indicated in the User’s Guide, the board/kit may be returned within 30 days from
the date of delivery for a full refund. THE FOREGOING WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY SELLER TO BUYER
AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING ANY WARRANTY OF
MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE.
The user assumes all responsibility and liability for proper and safe handling of the goods. Further, the user indemnifies TI from all claims
arising from the handling or use of the goods. Due to the open construction of the product, it is the user’s responsibility to take any and all
appropriate precautions with regard to electrostatic discharge.
EXCEPT TO THE EXTENT OF THE INDEMNITY SET FORTH ABOVE, NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR ANY
INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES.
TI currently deals with a variety of customers for products, and therefore our arrangement with the user is not exclusive.
TI assumes no liability for applications assistance, customer product design, software performance, or infringement of patents or
services described herein.
Please read the User’s Guide and, specifically, the Warnings and Restrictions notice in the User’s Guide prior to handling the product. This
notice contains important safety information about temperatures and voltages. For additional information on TI’s environmental and/or
safety programs, please contact the TI application engineer or visit www.ti.com/esh.
No license is granted under any patent right or other intellectual property right of TI covering or relating to any machine, process, or
combination in which such TI products or services might be or are used.
FCC Warning
This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION PURPOSES
ONLY and is not considered by TI to be a finished end-product fit for general consumer use. It generates, uses, and can radiate radio
frequency energy and has not been tested for compliance with the limits of computing devices pursuant to part 15 of FCC rules, which are
designed to provide reasonable protection against radio frequency interference. Operation of this equipment in other environments may
cause interference with radio communications, in which case the user at his own expense will be required to take whatever measures may
be required to correct this interference.
EVM Warnings and Restrictions
It is important to operate this EVM within the input voltage range of 11V to 14V and the output voltage range of -0.3V to 5.5V .
Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM. If there are questions
concerning the input range, please contact a TI field representative prior to connecting the input power.
Applying loads outside of the specified output range may result in unintended operation and/or possible permanent damage to the EVM.
Please consult the EVM User's Guide prior to connecting any load to the EVM output. If there is uncertainty as to the load specification,
please contact a TI field representative.
During normal operation, some circuit components may have case temperatures greater than 65°C. The EVM is designed to operate
properly with certain components above 65°C as long as the input and output ranges are maintained. These components include but are
not limited to linear regulators, switching transistors, pass transistors, and current sense resistors. These types of devices can be identified
using the EVM schematic located in the EVM User's Guide. When placing measurement probes near these devices during operation,
please be aware that these devices may be very warm to the touch.
Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265
Copyright © 2009, Texas Instruments Incorporated
1
A
2
3
4
5
6
7
8
ADS54RF63 ADX4 EVM
A
Table of Contents
B
C
1. Front Page
2. Front End
3. ADC Clocking
4. Delay Line DACs
5. ADCs
6. FPGA IO
7. Logic Analyzer Connectors
8. FPGA System
9. Power
10. Miscellaneous
B
C
D
D
Project:
Title:
ADS54RF63 ADX4 EVM
Front Page
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:29
1
2
3
4
5
6
Engineer: PM
Revision: C
Sheet 01 of 10
7
8
1
2
3
4
5
6
7
8
A
A
R26
ADC0_IN_P
10
Frontend
R31
ADC0_IN_N
10
B
RF
i
B
R36
C8
ADC1_IN_P
Signal Input
10
5 TR2
GND
1
RF
i
3 TR1
R6
390
2u2
16V
R30
ADC1_IN_N
4
10
ADC_IN_P
C7
J2
GND
4
i
RF
3
MABA-007159
1
i
RF
100n
R5 16V
390
5
MABA-007159
SMA
ADC_IN_N
R28
ADC2_IN_P
10
C2
R27
GND
i
RF
GND
ADC2_IN_N
2u2
16V
10
R38
ADC3_IN_P
10
C
C
R37
ADC3_IN_N
10
D
D
Project:
Title:
ADS54RF63 ADX4 EVM
Frontend
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:30
1
2
3
4
5
6
Engineer: PM
Revision: C
Sheet 02 of 10
7
8
1
2
3
4
5
6
7
8
ADC clock phase adjustment
1-10V on bias gives from 290 ps to 190 ps delay
ADCCLK
i
100k
C107
100n
16V
1
U7A
CLKB_180_N
CLKB_180_P
L8
2n7
ADCLK925BCPZ
1
R21
i
ADCCLK
i
C22
4p7
50V
100k
100k
C121
100n
16V
D7
BB184
1
CLK_IN
ADCCLK
C1 i
CLK_IN_AC
i
ADCCLK
100n
16V
VREF
VT
50
1
2
C15
100n
16V
Q1
Q1
50
D
D
Q2
Q2
C16
100n
16V
12
11
CLKB1_P
CLKB1_N
10
9
CLKB2_P
CLKB2_N
C28
4p7
50V
L16
2n7
L17
2n7
ADCLK925BCPZ
455 ps delay line
1
GND
R47 NM 0
R40 NM 0
1
2
CLKB4_P
CLKB4_N
C33
100n
16V
VREF
VT
50
Q1
Q1
50
D
D
Q2
Q2
100k
12
11
CLKB_270_N
CLKB_270_P
10
9
CLKB_90_P
CLKB_90_N
L24
1
3
100k
C155
100n
16V
R42
NC
NC
NC
NC
2n7
U9B
ADCLK925BCPZ
Project:
i
ADCCLK
i
5n6
R50
100k
100k
C168
100n
16V
5
C38
4p7
50V
D14
BB184
R51
GND
R52
R53
100k
100k
L30
i
ADCCLK
5n6
B
CLK_180_N
CLK_180_P
GND
L20
2n7
2n7
CLK_270_N
CLK_270_P
GND
C
L27
2n7
L28
5n6
R49
100k
D12
BB184
C36
4p7
50V
i
ADCCLK
i
L26
2n7
100k
D15
BB184
2n7
CLK_90_P
CLK_90_N
GND
i
ADCCLK
C42
4p7
50V
L31
2n7
D
ADS54RF63 ADX4 EVM
ADC Clocking
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:30
GND
4
C41
4p7
50V
D11
BB184
R35
100k
2
1
3
4
5
6
C34 2V5 - 3V3
100n
16V
U6B
ADCLK925BCPZ
L29
C31
4p7
50V
GND
R41
2n7
L21
L25
C37
4p7
50V
NC-PAD
8
13
VCC
VCC
C39
100n
16V
GND
2
100k
100k
D16
BB184
74279265
600ohm
Title:
GND
R34
D13
BB184
GND
VEE
VEE
C32
1u
25V
R33
2
100k
L15
7
14
7
14
U7B
ADCLK925BCPZ
NC-PAD
C17 2V5 - 3V3
100n
16V
17
C25
100n
16V
VEE
VEE
C12
1u
25V
L19
2
2n7
2n7
17
1
VCC3V3CLK3
VCC
VCC
3
4
5
6
8
13
74279265
600ohm
NC
NC
NC
NC
NC-PAD
C19 2V5 - 3V3
100n
16V
VEE
VEE
C26
100n
16V
7
14
C13
1u
25V
R29
3
4
5
6
1
VCC3V3CLK2
VCC
VCC
8
13
74279265
600ohm
17
1
VCC3V3CLK1
L6
R7
i
ADCCLK
i
DLY_BIAS_90
VCC3V3CLK
NC
NC
NC
NC
L7
5n6
100k
D8
BB184
C29
4p7
50V
5n6
C30
4p7
50V
C35
4p7
50V
L23
R48
R8
i
ADCCLK
i
D10
BB184
GND
ADCLK925BCPZ
VCC3V3CLK
100k
D9
BB184
GND
VCC3V3CLK
R24
DLY_BIAS_270
455 ps = 90 deg @ 550 MHz
625 ps = 90 deg @ 400 MHz
D6
BB184
R23
L18
U9A
15
16
VTTCLK1
R32
R22
100k
1
CLK2SE_P
R39 NM 0
170 ps delay line
0
R44 NM 0
R46
ADCCLK
i
0
CLK2SE_N
C
ADCCLK
i
R45
GND
170 ps delay line
GND
C23
4p7
50V
GND
2
J1
1
R18
2
100k
15
16
D
R17
L12
L13
5n6
U6A
GND
L11
D5
BB184
GND
C21
4p7
50V
i
ADCCLK
i
DLY_BIAS_180
Clock Input
SMA
5n6
2
0
R13
B
R16
0
GND
100k
L10
1
10
9
2n7
100k
2
Q2
Q2
C20
4p7
50V
L9
2
D
D
CLKB_0_P
CLKB_0_N
CLK_0_N
GND
1
50
12
11
1
50
Q1
Q1
2
1
2
CLKB3_P
CLKB3_N
C18
100n
16V
VREF
VT
R15
2
15
16
R14
100k
D4
BB184
CLK_0_P
1
VTTCLK1
GND
2n7
1
D3
BB184
GND
D2
BB184
R12
1
100k
2
DLY_BIAS_0
1
100k
D1
BB184
C10
4p7
50V
2
R11
2
R9
2
R10
5n6
C9
4p7
50V
A
L5
2
1
2n7
ADCCLK
i
L4
2
L3
1
A
6
Engineer: PM
Revision: C
Sheet 03 of 10
7
8
1
2
3
4
5
6
7
8
Delay line bias DACs
VDD3V3DAC
A
3
SDIN
R65
3
5
6
VOUT
VDD10V
IN+
10k
C50
100n
16V
5
DAC_SDIN
SCLK
U17
DAC7311DCK
V- V+
2
DAC_SCLK
SYNC
4
U18
TLV2371IDBV
OUT
R63
1
DLY_BIAS_180
10k
IN2
1
DAC_SYNC_180
GND VDD
4
A
GND
GND
R66
R64
VDD3V3DAC
10k
22k
GND
SDIN
R62
3
5
6
VOUT
VDD10V
IN+
10k
C48
100n
16V
5
3
SCLK
U15
DAC7311DCK
V- V+
2
SYNC
B
4
U16
TLV2371IDBV
OUT
R59
1
DLY_BIAS_270
10k
INB
2
1
DAC_SYNC_270
GND VDD
4
GND
GND
GND
R60
R61
VDD3V3DAC
10k
22k
GND
SDIN
R70
3
5
6
VOUT
VDD10V
IN+
10k
C52
100n
16V
5
3
SCLK
U21
DAC7311DCK
V- V+
2
SYNC
4
U19
TLV2371IDBV
OUT
R67
1
DLY_BIAS_0
10k
IN2
1
DAC_SYNC_0
GND VDD
4
GND
GND
GND
R68
R69
VDD3V3DAC
10k
22k
GND
SDIN
6
VOUT
R56
3
IN+
10k
C44
100n
16V
5
3
SCLK
VDD10V
5
2
U12
DAC7311DCK
V- V+
C
SYNC
4
U13
TLV2371IDBV
OUT
C
R55
1
DLY_BIAS_90
10k
IN2
1
DAC_SYNC_90
GND VDD
4
GND
GND
GND
R57
R58
10k
22k
GND
GND
AVDD3V3_1
L36
ME3220-103KL
10u
VDD3V3DAC
R71
1
C60
10 uF
16V
GND
D
D
Project:
Title:
ADS54RF63 ADX4 EVM
Delay Line DACs
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:30
1
2
3
4
5
6
Engineer: PM
Revision: C
Sheet 04 of 10
7
8
3
4
ADC1
GND
100n 16V
100n
16V
81
C141
2
7
9
12
15
18
20
22
24
26
28
30
32
34
36
38
40
52
65
R123
51
CLK_0_P
100n
16V
C
NC
NC
NC
NC
NC
NC
PWRPAD
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
R127
51
C151
GND
100n 16V
AVDD5V0_2
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD3V3
AVDD3V3
AVDD3V3
DVDD3V3
DVDD3V3
DVDD3V3
100n
16V
81
C148
2
7
9
12
15
18
20
22
24
26
28
30
32
34
36
38
40
52
65
100n
16V
AVDD3V3_2
35
37
39
VDD3V3
1
51
66
ADS54RF63IPFP
C133
100n
16V
AVDD5V0_2
VDD3V3
C154
100n
16V
C143
100n
16V
C111
100n
16V
GND
NC
NC
NC
NC
NC
NC
PWRPAD
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
4
5
43
44
45
46
R124
51
C150
GND
100n 16V
AVDD5V0_1
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD3V3
AVDD3V3
AVDD3V3
DVDD3V3
DVDD3V3
DVDD3V3
100n
16V
C142
100n
16V
C113
100n
16V
81
C137
2
7
9
12
15
18
20
22
24
26
28
30
32
34
36
38
40
52
65
100n
16V
AVDD3V3_1
35
37
39
VDD3V3
1
51
66
C159
100n
16V
C140
100n
16V
C132
100n
16V
C139
100n
16V
C119
100n
16V
C123
100n
16V
AVDD5V0_2
C179
100n
16V
4
5
43
44
45
46
NC
NC
NC
NC
NC
NC
PWRPAD
AVDD5V0_1
AVDD5V0_1
ADC3_PDWN
C166
R129
51
C158
GND
100n 16V
AVDD5V0_1
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
81
C163
VDD3V3
C124
100n
16V
C122
100n
16V
C170
100n
16V
GND
C177
100n
16V
100n
16V
AVDD3V3_1
VDD3V3
1
51
66
DVDD3V3
DVDD3V3
DVDD3V3
C156
100n
16V
C164
100n
16V
C172
100n
16V
C169
100n
16V
C173
100n
16V
C171
100n
16V
C105
100n
16V
C165
100n
16V
C106
100n
16V
C109
100n
16V
C134
100n
16V
C108
100n
16V
C104
100n
16V
C147
100n
16V
C149
100n
16V
C135
100n
16V
C126
100n
16V
C146
100n
16V
C125
100n
16V
C145
100n
16V
C144
100n
16V
C175
100n
16V
C128
100n
16V
C115
100n
16V
C138
100n
16V
C127
100n
16V
C117
100n
16V
C129
100n
16V
C114
100n
16V
C130
100n
16V
Title:
GND
2
3
4
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD3V3
AVDD3V3
AVDD3V3
DVDD3V3
DVDD3V3
DVDD3V3
3
8
13
14
19
21
23
25
27
31
AVDD3V3_2
35
37
39
VDD3V3
1
51
66
C
VDD3V3
C180
100n
16V
C183
100n
16V
GND
TDIODE_ADC0_P
Q1
MMBT3904WT1G
C182
100n
16V
C184
100n
16V
5
C167
100n
16V
GND
TDIODE_ADC1_P
Q6
MMBT3904WT1G
1
TDIODE_N
D
ADS54RF63 ADX4 EVM
ADCs
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:30
1
AVDD5V0_2
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
C110
100n
16V
Project:
GND
4
5
43
44
45
46
Temperature sensing diodes
1
C118
100n
16V
NC
NC
NC
NC
NC
NC
PWRPAD
C181
100n
16V
TDIODE_N
C161
100n
16V
ADC3_OVR_P
ADC3_OVR_N
AVDD3V3_2
GND
D
C157
100n
16V
80
79
42
41
A
GND
VDD3V3
GND
C174
100n
16V
ADC3_D0_N
ADC3_D0_P
ADC3_D1_N
ADC3_D1_P
ADC3_D2_N
ADC3_D2_P
ADC3_D3_N
ADC3_D3_P
ADC3_D4_N
ADC3_D4_P
ADC3_D5_N
ADC3_D5_P
ADC3_D6_N
ADC3_D6_P
ADC3_D7_N
ADC3_D7_P
ADC3_D8_N
ADC3_D8_P
ADC3_D9_N
ADC3_D9_P
ADC3_D10_N
ADC3_D10_P
ADC3_D11_N
ADC3_D11_P
ADC3_D12_N
ADC3_D12_P
ADC3_D13_N
ADC3_D13_P
ADS54RF63IPFP
AVDD3V3_1
GND
C176
100n
16V
2
7
9
12
15
18
20
22
24
26
28
30
32
34
36
38
40
52
65
35
37
39
AVDD3V3
AVDD3V3
AVDD3V3
DRY_P
DRY_N
OVR_P
OVR_N
CLK_N
47
48
49
50
53
54
55
56
57
58
59
60
61
62
63
64
67
68
69
70
71
72
73
74
75
76
77
78
B
R128
51
3
8
13
14
19
21
23
25
27
31
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
AVDD5
100n
16V
11
D0_N
D0_P
Not used on 5463
D1_N
D1_P
Pins 29 and 33 are
D2_N
unused on 5463
D2_P
RSVD/PDWN D3_N
RSVD/VCM
D3_P
D4_N
D4_P
VREF
D5_N
D5_P
D6_N
D6_P
D7_N
AIN_P
D7_P
D8_N
D8_P
D9_N
D9_P
AIN_N
D10_N
D10_P
D11_N
D11_P
D12_N
CLK_P
D12_P
D13_N
D13_P
2
GND
10
2
GND
17
GND
C120
100n
16V
C112
100n
16V
16
ADS54RF63IPFP
AVDD3V3_1
GND
ADC2_OVR_P
ADC2_OVR_N
6
R43
240
VTTCLK2
R125
51
3
8
13
14
19
21
23
25
27
31
80
79
42
41
DRY_P
DRY_N
OVR_P
OVR_N
CLK_N
33
29
ADC3_IN_N
ADC3_IN_P
ADC2_PDWN
C136
11
3
C160
100n
16V
10
GND
AVDD3V3_2
C152
100n
16V
17
ADS54RF63IPFP
GND
C153
100n
16V
ADC1_OVR_P
ADC1_OVR_N
16
R19
240
VTTCLK1
R126
51
3
8
13
14
19
21
23
25
27
31
80
79
42
41
ADC2_IN_N
ADC2_IN_P
ADC1_PDWN
ADC1_IN_N
ADC1_IN_P
C162
DRY_P
DRY_N
OVR_P
OVR_N
CLK_N
6
ADC2_D0_N
ADC2_D0_P
ADC2_D1_N
ADC2_D1_P
ADC2_D2_N
ADC2_D2_P
ADC2_D3_N
ADC2_D3_P
ADC2_D4_N
ADC2_D4_P
ADC2_D5_N
ADC2_D5_P
ADC2_D6_N
ADC2_D6_P
ADC2_D7_N
ADC2_D7_P
ADC2_D8_N
ADC2_D8_P
ADC2_D9_N
ADC2_D9_P
ADC2_D10_N
ADC2_D10_P
ADC2_D11_N
ADC2_D11_P
ADC2_D12_N
ADC2_D12_P
ADC2_D13_N
ADC2_D13_P
3
C131
VTTCLK2
4
5
43
44
45
46
11
33
29
U10
47
48
49
50
53
54
55
56
57
58
59
60
61
62
63
64
67
68
69
70
71
72
73
74
75
76
77
78
CLK_270_AC_P
51
ADC0_DRY_P
ADC0_DRY_N
ADC0_OVR_P
ADC0_OVR_N
ADC3
D0_N
D0_P
Not used on 5463
D1_N
D1_P
Pins 29 and 33 are
D2_N
unused on 5463
D2_P
RSVD/PDWN D3_N
RSVD/VCM
D3_P
D4_N
D4_P
VREF
D5_N
D5_P
D6_N
D6_P
D7_N
AIN_P
D7_P
D8_N
D8_P
D9_N
D9_P
AIN_N
D10_N
D10_P
D11_N
D11_P
D12_N
CLK_P
D12_P
D13_N
D13_P
CLK_180_AC_P
C116
80
79
42
41
10
CLK_90_P
VTTCLK2R122
DRY_P
DRY_N
OVR_P
OVR_N
CLK_N
CLK_0_AC_P
B
11
17
ADC1_D0_N
ADC1_D0_P
ADC1_D1_N
ADC1_D1_P
ADC1_D2_N
ADC1_D2_P
ADC1_D3_N
ADC1_D3_P
ADC1_D4_N
ADC1_D4_P
ADC1_D5_N
ADC1_D5_P
ADC1_D6_N
ADC1_D6_P
ADC1_D7_N
ADC1_D7_P
ADC1_D8_N
ADC1_D8_P
ADC1_D9_N
ADC1_D9_P
ADC1_D10_N
ADC1_D10_P
ADC1_D11_N
ADC1_D11_P
ADC1_D12_N
ADC1_D12_P
ADC1_D13_N
ADC1_D13_P
CLK_180_AC_N
CLK_0_AC_N
CLK_0_N
10
16
R25
240
47
48
49
50
53
54
55
56
57
58
59
60
61
62
63
64
67
68
69
70
71
72
73
74
75
76
77
78
CLK_180_N
17
6
8
U3
D0_N
D0_P
Not used on 5463
D1_N
D1_P
Pins 29 and 33 are
D2_N
unused on 5463
D2_P
RSVD/PDWN D3_N
RSVD/VCM
D3_P
D4_N
D4_P
VREF
D5_N
D5_P
D6_N
D6_P
D7_N
AIN_P
D7_P
D8_N
D8_P
D9_N
D9_P
AIN_N
D10_N
D10_P
D11_N
D11_P
D12_N
CLK_P
D12_P
D13_N
D13_P
CLK_180_P
16
R20
240
33
29
CLK_90_AC_N
6
ADC0_D0_N
ADC0_D0_P
ADC0_D1_N
ADC0_D1_P
ADC0_D2_N
ADC0_D2_P
ADC0_D3_N
ADC0_D3_P
ADC0_D4_N
ADC0_D4_P
ADC0_D5_N
ADC0_D5_P
ADC0_D6_N
ADC0_D6_P
ADC0_D7_N
ADC0_D7_P
ADC0_D8_N
ADC0_D8_P
ADC0_D9_N
ADC0_D9_P
ADC0_D10_N
ADC0_D10_P
ADC0_D11_N
ADC0_D11_P
ADC0_D12_N
ADC0_D12_P
ADC0_D13_N
ADC0_D13_P
CLK_90_AC_P
ADC0_IN_N
ADC0_IN_P
33
29
47
48
49
50
53
54
55
56
57
58
59
60
61
62
63
64
67
68
69
70
71
72
73
74
75
76
77
78
7
ADC2
U8
D0_N
D0_P
Not used on 5463
D1_N
D1_P
Pins 29 and 33 are
D2_N
unused on 5463
D2_P
RSVD/PDWN D3_N
RSVD/VCM
D3_P
D4_N
D4_P
VREF
D5_N
D5_P
D6_N
D6_P
D7_N
AIN_P
D7_P
D8_N
D8_P
D9_N
D9_P
AIN_N
D10_N
D10_P
D11_N
D11_P
D12_N
CLK_P
D12_P
D13_N
D13_P
CLK_90_N
ADC0_PDWN
U5
A
6
CLK_270_AC_N
ADC0
5
CLK_270_N
2
CLK_270_P
1
6
Engineer: PM
Revision: C
Sheet 05 of 10
7
8
A
ADC0_D2_N
ADC0_D2_P
ADC0_D4_P
ADC0_D4_N
ADC0_D3_P
ADC0_D3_N
ADC0_D1_P
ADC0_D1_N
ADC0_D8_P
ADC0_D8_N
ADC0_D5_P
ADC0_D5_N
ADC0_D7_P
ADC0_D7_N
ADC0_D6_N
ADC0_D6_P
B
VDD2V5
C200
100n
16V
C196
100n
16V
C190
100n
16V
4
U20M
IO_L0P_17
IO_L0N_17
IO_L1P_17
IO_L1N_17
IO_L2P_17
IO_L2N_17
IO_L3P_17
IO_L3N_17
IO_L4P_17
IO_L4N_VREF_17
IO_L5P_17
IO_L5N_17
IO_L6P_17
IO_L6N_17
IO_L7P_17
IO_L7N_17
IO_L8P_CC_17
IO_L8N_CC_17
IO_L9P_CC_17
IO_L9N_CC_17
IO_L10P_CC_17
IO_L10N_CC_17
IO_L11P_CC_17
IO_L11N_CC_17
IO_L12P_VRN_17
IO_L12N_VRP_17
IO_L13P_17
IO_L13N_17
IO_L14P_17
IO_L14N_VREF_17
IO_L15P_17
IO_L15N_17
IO_L16P_17
IO_L16N_17
IO_L17P_17
IO_L17N_17
IO_L18P_17
IO_L18N_17
IO_L19P_17
IO_L19N_17
VCCO_17
VCCO_17
VCCO_17
Bank 11
ADC1_D0_N
ADC1_D0_P
ADC1_D10_N
ADC1_D10_P
ADC1_D6_N
ADC1_D6_P
ADC1_D8_N
ADC1_D8_P
ADC1_D12_P
ADC1_D12_N
ADC1_OVR_P
ADC1_OVR_N
ADC1_D13_P
ADC1_D13_N
ADC1_D9_N
ADC1_D9_P
ADC1_D11_P
ADC1_D11_N
VDD2V5
C192
100n
16V
XC5VSX50T-3FFG665C
GND
E26
E25
F25
G26
H26
G25
F24
G24
E23
E22
F23
F22
G22
H22
H23
J23
J21
K21
K22
K23
L23
L22
M21
N21
H24
J24
J25
J26
K26
L25
L24
K25
N26
M26
M25
M24
N24
N23
N22
M22
J22
M23
H25
ADC1_D3_N
ADC1_D3_P
ADC1_D1_P
ADC1_D1_N
ADC1_D7_P
ADC1_D7_N
ADC1_D2_N
ADC1_D2_P
ADC1_D4_N
ADC1_D4_P
ADC1_D5_N
ADC1_D5_P
C189
100n
16V
C188
100n
16V
U20H
5
6
7
8
FPGA IO
IO_L0P_11
IO_L0N_11
IO_L1P_11
IO_L1N_11
IO_L2P_11
IO_L2N_11
IO_L3P_11
IO_L3N_11
IO_L4P_11
IO_L4N_VREF_11
IO_L5P_11
IO_L5N_11
IO_L6P_11
IO_L6N_11
IO_L7P_11
IO_L7N_11
IO_L8P_CC_11
IO_L8N_CC_11
IO_L9P_CC_11
IO_L9N_CC_11
IO_L10P_CC_11
IO_L10N_CC_11
IO_L11P_CC_11
IO_L11N_CC_11
IO_L12P_VRN_11
IO_L12N_VRP_11
IO_L13P_11
IO_L13N_11
IO_L14P_11
IO_L14N_VREF_11
IO_L15P_11
IO_L15N_11
IO_L16P_11
IO_L16N_11
IO_L17P_11
IO_L17N_11
IO_L18P_11
IO_L18N_11
IO_L19P_11
IO_L19N_11
VCCO_11
VCCO_11
VCCO_11
VDD2V5
Bank 3
D15
E15
D16
E16
D14
D13
E17
D18
E13
E12
E18
F19
F12
E11
E20
E21
E10
F10
F20
G21
D17
G18
UART_CLK
ADC2_PDWN
ADC3_PDWN
ADC0_PDWN
ADC1_PDWN
DAC_SDIN
DAC_SCLK
DAC_SYNC_90
DAC_SYNC_180
DAC_SYNC_270
DAC_SYNC_0
VDD3V3
C201
100n
16V
U20F
FPGA logic clock
4
Bank 17
AC26
AD26
AD25
AD24
AE25
AE26
AF25
AF24
AF23
AE23
AE22
AD23
AC24
AC23
AC22
AB22
AF22
AE21
AF20
AE20
AD19
AD20
AC21
AD21
AF19
AF18
AE18
AD18
AE17
AF17
AE16
AD16
AD15
AE15
AF15
AF14
AF13
AE13
AD13
AD14
AC20
AB23
AE24
ADC0_D13_P
ADC0_D13_N
ADC0_D12_P
ADC0_D12_N
ADC0_D11_N
ADC0_D11_P
ADC0_D10_P
ADC0_D10_N
ADC0_D0_P
ADC0_D0_N
ADC0_OVR_P
ADC0_OVR_N
ADC0_D9_P
ADC0_D9_N
3
IO_L0P_CC_GC_3
IO_L0N_CC_GC_3
IO_L1P_CC_GC_3
IO_L1N_CC_GC_3
IO_L2P_GC_VRN_3
IO_L2N_GC_VRP_3
IO_L3P_GC_3
IO_L3N_GC_3
IO_L4P_GC_3
IO_L4N_GC_VREF_3
IO_L5P_GC_3
IO_L5N_GC_3
IO_L6P_GC_3
IO_L6N_GC_3
IO_L7P_GC_3
IO_L7N_GC_3
IO_L8P_GC_3
IO_L8N_GC_3
IO_L9P_GC_3
IO_L9N_GC_3
VCCO_3
VCCO_3
1
EN
C84
100n
16V
U30
GND
VDD
2
2
1
OUT
3
ADC0_DRY_P
ADC0_DRY_N
R80
Bank 4
LOGIC_CLK
51
CFPS-32IB_50.0MHz
DIP1
DIP2
DIP3
DIP4
GND
DIP5
DIP6
VDD2V5
C215
100n
16V
XC5VSX50T-3FFG665C
Y21
AA20
AB10
AB11
AB21
AB20
AC11
AB12
AB19
AC19
AC12
AC13
AC18
AB17
AB14
AC14
AC17
AB16
AB15
AC16
AB13
AE14
U20G
IO_L0P_GC_D15_4
IO_L0N_GC_D14_4
IO_L1P_GC_D13_4
IO_L1N_GC_D12_4
IO_L2P_GC_D11_4
IO_L2N_GC_D10_4
IO_L3P_GC_D9_4
IO_L3N_GC_D8_4
IO_L4P_GC_4
IO_L4N_GC_VREF_4
IO_L5P_GC_4
IO_L5N_GC_4
IO_L6P_GC_4
IO_L6N_GC_4
IO_L7P_GC_VRN_4
IO_L7N_GC_VRP_4
IO_L8P_CC_GC_4
IO_L8N_CC_GC_4
IO_L9P_CC_GC_4
IO_L9N_CC_GC_4
VCCO_4
VCCO_4
A
XC5VSX50T-3FFG665C
GND
GND
VDD2V5
DIP Switch
R97
4k7
1
2
3
4
5
6
XC5VSX50T-3FFG665C
GND
SW2
1
2
3
4
5
6
12
11
10
9
8
7
R100
4k7
R101
4k7
R102
4k7
R105
4k7
R110
4k7
B
DIP1
DIP2
DIP3
DIP4
DIP5
DIP6
DM-06
GND
Bank 15
C13
C14
B14
A13
A14
A15
B15
C16
B16
C17
B17
A17
A18
A19
B19
C18
A20
B20
C19
D19
D21
D20
B21
C21
D23
C22
B22
A22
A23
A24
B24
C23
D24
C24
B25
A25
B26
C26
D26
D25
F21
B23
E24
ADC2_D4_N
ADC2_D4_P
ADC2_D5_P
ADC2_D5_N
ADC2_D3_P
ADC2_D3_N
ADC2_D2_N
ADC2_D2_P
ADC2_D1_P
ADC2_D1_N
C
ADC2_D6_P
ADC2_D6_N
ADC2_D0_N
ADC2_D0_P
ADC2_D8_P
ADC2_D8_N
ADC2_D7_N
ADC2_D7_P
ADC2_OVR_P
ADC2_OVR_N
ADC2_D10_P
ADC2_D10_N
ADC2_D9_P
ADC2_D9_N
ADC2_D12_P
ADC2_D12_N
ADC2_D11_N
ADC2_D11_P
ADC2_D13_P
ADC2_D13_N
VDD2V5
D
C197
100n
16V
C186
100n
16V
C187
100n
16V
U20K
IO_L0P_15
IO_L0N_15
IO_L1P_15
IO_L1N_15
IO_L2P_15
IO_L2N_15
IO_L3P_15
IO_L3N_15
IO_L4P_15
IO_L4N_VREF_15
IO_L5P_15
IO_L5N_15
IO_L6P_15
IO_L6N_15
IO_L7P_15
IO_L7N_15
IO_L8P_CC_15
IO_L8N_CC_15
IO_L9P_CC_15
IO_L9N_CC_15
IO_L10P_CC_15
IO_L10N_CC_15
IO_L11P_CC_15
IO_L11N_CC_15
IO_L12P_VRN_15
IO_L12N_VRP_15
IO_L13P_15
IO_L13N_15
IO_L14P_15
IO_L14N_VREF_15
IO_L15P_15
IO_L15N_15
IO_L16P_15
IO_L16N_15
IO_L17P_15
IO_L17N_15
IO_L18P_15
IO_L18N_15
IO_L19P_15
IO_L19N_15
VCCO_15
VCCO_15
VCCO_15
Bank 13
ADC3_D2_N
ADC3_D2_P
ADC3_D1_P
ADC3_D1_N
ADC3_D12_P
ADC3_D12_N
ADC3_D3_N
ADC3_D3_P
ADC3_D4_N
ADC3_D4_P
ADC3_D11_N
ADC3_D11_P
ADC3_D6_N
ADC3_D6_P
ADC3_D10_N
ADC3_D10_P
ADC3_D5_N
ADC3_D5_P
ADC3_D9_P
ADC3_D9_N
ADC3_D8_N
ADC3_D8_P
ADC3_D7_N
ADC3_D7_P
VDD2V5
C195
100n
16V
XC5VSX50T-3FFG665C
GND
P26
R26
P25
R25
P24
P23
R23
R22
U26
V26
U25
T25
T24
T23
U24
V24
W26
W25
W24
V23
AA22
Y22
Y23
W23
Y26
Y25
AA25
AB26
AB25
AA24
AB24
AA23
P21
R21
T22
U22
U21
V22
V21
W21
W22
R24
V25
ADC3_D0_N
ADC3_D0_P
ADC3_OVR_N
ADC3_OVR_P
ADC3_D13_P
ADC3_D13_N
C194
100n
16V
C185
100n
16V
U20J
IO_L0P_13
IO_L0N_13
IO_L1P_13
IO_L1N_13
IO_L2P_13
IO_L2N_13
IO_L3P_13
IO_L3N_13
IO_L4P_13
IO_L4N_VREF_13
IO_L5P_13
IO_L5N_13
IO_L6P_13
IO_L6N_13
IO_L7P_13
IO_L7N_13
IO_L8P_CC_13
IO_L8N_CC_13
IO_L9P_CC_13
IO_L9N_CC_13
IO_L10P_CC_13
IO_L10N_CC_13
IO_L11P_CC_13
IO_L11N_CC_13
IO_L12P_VRN_13
IO_L12N_VRP_13
IO_L13P_13
IO_L13N_13
IO_L14P_13
IO_L14N_VREF_13
IO_L15P_13
IO_L15N_13
IO_L16P_13
IO_L16N_13
IO_L17P_13
IO_L17N_13
IO_L18P_13
IO_L18N_13
IO_L19P_13
IO_L19N_13
VCCO_13
VCCO_13
VCCO_13
C
D
XC5VSX50T-3FFG665C
Project:
GND
Title:
ADS54RF63 ADX4 EVM
FPGA IO
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:31
1
2
3
4
5
6
Engineer: PM
Revision: C
Sheet 06 of 10
7
8
1
2
Bank 16
D0A_P
D0A_N
D2A_P
D2A_N
D9A_P
D9A_N
A
B
D11A_P
D11A_N
D3A_P
D3A_N
D12A_N
D12A_P
D4A_P
D4A_N
D15A_N
D15A_P
D8A_N
D8A_P
D10A_P
D10A_N
LA_CLKA_N
LA_CLKA_P
D7A_P
D7A_N
D13A_P
D13A_N
D5A_P
D5A_N
D14A_P
D14A_N
D6A_P
D6A_N
D1A_P
D1A_N
VDD2V5
H7
G7
F7
F8
F9
G9
H8
J8
A9
A8
E8
E7
B9
C8
E6
D6
C9
D8
C7
C6
A7
B7
D9
D10
B6
A5
B10
A10
A4
A3
B11
A12
B4
B5
B12
C12
D5
E5
C11
D11
D7
G8
C10
VDD2V5
U20L
IO_L0P_16
IO_L0N_16
IO_L1P_16
IO_L1N_16
IO_L2P_16
IO_L2N_16
IO_L3P_16
IO_L3N_16
IO_L4P_16
IO_L4N_VREF_16
IO_L5P_16
IO_L5N_16
IO_L6P_16
IO_L6N_16
IO_L7P_16
IO_L7N_16
IO_L8P_CC_16
IO_L8N_CC_16
IO_L9P_CC_16
IO_L9N_CC_16
IO_L10P_CC_16
IO_L10N_CC_16
IO_L11P_CC_16
IO_L11N_CC_16
IO_L12P_VRN_16
IO_L12N_VRP_16
IO_L13P_16
IO_L13N_16
IO_L14P_16
IO_L14N_VREF_16
IO_L15P_16
IO_L15N_16
IO_L16P_16
IO_L16N_16
IO_L17P_16
IO_L17N_16
IO_L18P_16
IO_L18N_16
IO_L19P_16
IO_L19N_16
VCCO_16
VCCO_16
VCCO_16
XC5VSX50T-3FFG665C
C224
100n
16V
C222
100n
16V
Bank 12
LA_CLKB_N
LA_CLKB_P
D2B_P
D2B_N
D0B_N
D0B_P
D1B_N
D1B_P
D3B_P
D3B_N
D15B_P
D15B_N
D6B_P
D6B_N
D4B_N
D4B_P
D14B_P
D14B_N
D5B_N
D5B_P
D12B_N
D12B_P
D7B_P
D7B_N
D13B_P
D13B_N
D9B_P
D9B_N
D8B_P
D8B_N
D10B_P
D10B_N
D11B_P
D11B_N
VDD2V5
C216
100n
16V
4
C225
100n
16V
D15C_N
D15C_P
D14C_P
D14C_N
D13C_P
D13C_N
D12C_P
D12C_N
D7C_N
D7C_P
D8C_P
D8C_N
D0C_P
D0C_N
D1C_P
D1C_N
D9C_P
D9C_N
D4C_N
D4C_P
D5C_P
D5C_N
D3C_P
D3C_N
D2C_N
D2C_P
D6C_P
D6C_N
D10C_N
D10C_P
D11C_N
D11C_P
LA_CLKC_P
LA_CLKC_N
VDD2V5
AF12
AE12
V8
V9
AE11
AD11
W9
W8
AD10
AE10
Y7
Y8
AF9
AF10
AA7
AA8
AF7
AF8
AA5
AB5
AB6
AB7
AE8
AE7
AC6
AD5
AE6
AF5
AE5
AD4
AF4
AF3
AD6
AC7
AC8
AD8
AD9
AC9
AB9
AA9
AA6
AD7
AC10
J3
D0A_P
A1
D0A_N
A2
A3
D2A_P
A4
D2A_N
A5
A6
D4A_P
A7
D4A_N
A8
D6A_P
A10
D6A_N
A11
A9
A12
A13
A14
A15
D8A_P
A16
D8A_N
A17
A18
C226
100n
16V
D10A_P
A19
D10A_N
A20
A21
D12A_P
A22
D12A_N
A23
U20N
IO_L0P_18
IO_L0N_18
IO_L1P_18
IO_L1N_18
IO_L2P_18
IO_L2N_18
IO_L3P_18
IO_L3N_18
IO_L4P_18
IO_L4N_VREF_18
IO_L5P_18
IO_L5N_18
IO_L6P_18
IO_L6N_18
IO_L7P_18
IO_L7N_18
IO_L8P_CC_18
IO_L8N_CC_18
IO_L9P_CC_18
IO_L9N_CC_18
IO_L10P_CC_18
IO_L10N_CC_18
IO_L11P_CC_18
IO_L11N_CC_18
IO_L12P_VRN_18
IO_L12N_VRP_18
IO_L13P_18
IO_L13N_18
IO_L14P_18
IO_L14N_VREF_18
IO_L15P_18
IO_L15N_18
IO_L16P_18
IO_L16N_18
IO_L17P_18
IO_L17N_18
IO_L18P_18
IO_L18N_18
IO_L19P_18
IO_L19N_18
VCCO_18
VCCO_18
VCCO_18
6
7
A24
D14A_P
A25
D14A_N
A26
A27
J5
D0+
GND
D0-
D1-
GND
D1+
D2+
GND
D2-
D3-
GND
D3+
D4+
GND
D4-
D5-
GND
D5+
D6+
GND
D6-
D7-
GND
D7+
NC
GND
NC
CLK-
GND
CLK+
D8+
GND
D8-
D9-
GND
D9+
D10+
GND
D10-
D11-
GND
D11+
D12+
GND
D12-
D13-
GND
D13+
D14+
GND
D14-
D15-
GND
D15+
B1
B2
D1A_N
B3
D1A_P
B5
D3A_N
D3A_P
D5A_N
B9
D5A_P
D7A_N
B12
D7A_P
A2
D2B_P
A4
D2B_N
A5
D4B_P
A7
D4B_N
A8
D6B_P
A10
D6B_N
A11
A9
B10
B11
D0B_N
A6
B7
B8
A1
A3
B4
B6
D0B_P
A12
B13
A13
B14
LA_CLKA_N
A14
B15
LA_CLKA_P
A15
B16
B17
D9A_N
B18
D9A_P
B19
B20
D11A_N
B21
D11A_P
B22
B23
D13A_N
B24
D13A_P
B25
B26
D15A_N
B27
D15A_P
D8B_P
A16
D8B_N
A17
A18
D10B_P
A19
D10B_N
A20
A21
D12B_P
A22
D12B_N
A23
A24
D14B_P
A25
D14B_N
A26
A27
J4
D0+
GND
D0-
D1-
GND
D1+
D2+
GND
D2-
D3-
GND
D3+
D4+
GND
D4-
D5-
GND
D5+
D6+
D7-
GND
D7+
GND
CLK+
D8+
GND
D9+
D10+
GND
D10-
D11-
GND
D11+
D12+
GND
D12-
D13-
GND
D13+
D14+
D15-
GND
D15+
B5
D3B_N
B6
D3B_P
B8
D5B_N
B9
D5B_P
B11
D7B_N
B12
D7B_P
A1
D0C_N
A2
A3
D2C_P
A4
D2C_N
A5
A6
D4C_P
A7
D4C_N
A8
D6C_P
A10
D6C_N
A11
A9
A12
A13
B14
LA_CLKB_N
A14
B15
LA_CLKB_P
A15
B16
B17
D9B_N
B18
D9B_P
B19
B20
D11B_N
B21
D11B_P
B22
B23
D13B_N
B24
D13B_P
B25
GND
D14-
D1B_P
D0C_P
B13
CLK-
GND
B3
B10
NC
D9-
D1B_N
B7
GND
D8-
B2
B4
GND
D6-
NC
B1
B26
D15B_N
B27
D15B_P
D8C_P
A16
D8C_N
A17
A18
D10C_P
A19
D10C_N
A20
A21
D12C_P
A22
D12C_N
A23
A24
D14C_P
A25
D14C_N
A26
A27
D0+
GND
D0-
D1-
GND
D1+
D2+
GND
D2-
D3-
GND
D3+
D4+
GND
D4-
D5-
GND
D5+
D6+
GND
D6-
D7-
GND
D7+
NC
GND
NC
CLK-
GND
CLK+
D8+
GND
D8-
D9-
GND
D9+
D10+
GND
D10-
D11-
GND
D11+
D12+
GND
D12-
D13-
GND
D13+
D14+
GND
D14-
D15-
GND
D15+
A
B1
B2
D1C_N
B3
D1C_P
B4
B5
D3C_N
B6
D3C_P
B7
B8
D5C_N
B9
D5C_P
B10
B11
D7C_N
B12
D7C_P
B13
B14
LA_CLKC_N
B15
LA_CLKC_P
B
B16
B17
D9C_N
B18
D9C_P
B19
B20
D11C_N
B21
D11C_P
B22
B23
D13C_N
B24
D13C_P
B25
B26
D15C_N
B27
D15C_P
C
GND
GND
GND
GND
E5405A
NM
GND
E5405A
NM
GND
E5405A
NM
VDD2V5
D
C227
100n
C221
100n
C228
100n
Project:
XC5VSX50T-3FFG665C
GND
Title:
ADS54RF63 ADX4 EVM
Logic Analyzer Connectors
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:31
1
8
Logic Analyzer Connectors
XC5VSX50T-3FFG665C
C229
100n
16V
5
U20I
IO_L0P_12
IO_L0N_12
IO_L1P_12
IO_L1N_12
IO_L2P_12
IO_L2N_12
IO_L3P_12
IO_L3N_12
IO_L4P_12
IO_L4N_VREF_12
IO_L5P_12
IO_L5N_12
IO_L6P_12
IO_L6N_12
IO_L7P_12
IO_L7N_12
IO_L8P_CC_12
IO_L8N_CC_12
IO_L9P_CC_12
IO_L9N_CC_12
IO_L10P_CC_12
IO_L10N_CC_12
IO_L11P_CC_12
IO_L11N_CC_12
IO_L12P_VRN_12
IO_L12N_VRP_12
IO_L13P_12
IO_L13N_12
IO_L14P_12
IO_L14N_VREF_12
IO_L15P_12
IO_L15N_12
IO_L16P_12
IO_L16N_12
IO_L17P_12
IO_L17N_12
IO_L18P_12
IO_L18N_12
IO_L19P_12
IO_L19N_12
VCCO_12
VCCO_12
VCCO_12
GND
Bank 18
D
Y6
Y5
G6
H6
Y4
W4
G5
F5
W5
W6
G4
H4
V6
V7
J5
J6
U7
T8
K5
L5
K6
K7
U6
U5
K8
L7
T5
R5
M7
L8
R6
T7
P6
N6
M6
N7
N8
P8
R8
R7
H5
L6
P7
VDD2V5
GND
C
3
2
3
4
5
6
Engineer: PM
Revision: C
Sheet 07 of 10
7
8
1
2
3
4
5
6
R89
330
LEDs
R78
82
EL19-21SYGC
LED2 2
1
Green
D19
EL19-21SDRC
1
LED1 2
Red
D18
EL19-21SDRC
LED0 2
1
Red
D17
VDD3V3
R87
330
GND
GND
1
GND
1-Wire NC
NC
NC
NC
VDD3V3
FPGA_TXD
FPGA_CTS
FPGA_RTS
DS2432
VDD3V3
2
2
FPGA_PROG_N
FPGA_CCLK
JTAG connector
GND
VDD3V3
P1
VDD3V3
C74
100n
16V
1
3
5
7
9
11
13
GND
Vref / Vref
GND TMS / PROG
GND TCK / CCLK
GND TDO / DONE
GND
TDI / DIN
GND
NC / NC
GND
NC / INIT
2
4
6
8
10
12
14
TMS_FPGA
TCK_FPGA
TDO_FPGA
TDI_FPGA
PINHEADER_7X2_200
GND
XC5VSX50T-3FFG665C
C82
100n
16V
GND
GND
C206
100n
16V
GND
VDD3V3
GND
R85
4k7
GND
R86
4k7
R84
4k7
C
22
RESET#
18
FPGA_MOSI
CBUS4
CBUS3
CBUS2
CBUS1
CBUS0
RI#
DCD#
DSR#
DTR#
CTS#
RTS#
RXD
TXD
FPGA_FCS_B
U37A
USBDP
USBDM
SI
SO
SCK GND
RESET VCC
CS
WP
1
FAN_FAULT
C83
100n
16V
AT45DB321D-SU
SMBDAT
GND
Continuous array read
15
FS[2:0]=111 => High frequency mode: 0BH
VDD3V3
R135
R133
R134
4k7
FS2
4k7
FS1
4k7
FS0
VDD3V3
J7
USB_MINI_BPTH
SGND
SGND
16
C101
100n
16V
SMBCLK
14
VBUS
DD+
ID
GND
C211
100n
16V
1
2
3
4
5
R121
4k7
GND
C213
100n
16V
W11
Y10
Y20
AA19
AA10
Y11
AA18
Y18
Y12
AA12
AA17
Y17
AA13
AA14
Y16
W16
Y13
W14
Y15
AA15
AA16
AD17
IO_L0P_CC_RS1_2
IO_L0N_CC_RS0_2
IO_L1P_CC_A25_2
IO_L1N_CC_A24_2
IO_L2P_A23_2
IO_L2N_A22_2
IO_L3P_A21_2
IO_L3N_A20_2
IO_L4P_FCS_B_2
IO_L4N_VREF_FOE_B_MOSI_2
IO_L5P_FWE_B_2
IO_L5N_CSO_B_2
IO_L6P_D7_2
IO_L6N_D6_2
IO_L7P_D5_2
IO_L7N_D4_2
IO_L8P_D3_2
IO_L8N_D2_FS2_2
IO_L9P_D1_FS1_2
IO_L9N_D0_FS0_2
VCCO_2
VCCO_2
C
XC5VSX50T-3FFG665C
GND
R120
10k
6
7
VCCIO
3V3OUT
GND
28
27
24
4
17
20
0
26
GND
VCC
19
C100
100n
16V
AGND
GND
GND
GND
GND
TEST
C99
100n
16V
NC
NC
NC
NC
NC
NC
C202
100n
16V
U20E
Bank 2
Configuration memory
R118
U37B
FT232RQ
GND
8
7
6
5
VDD3V3
5
12
13
25
29
23
B
U29
FT232RQ
VDD3V3
C212
100n
16V
FPGA_FCS_B
FPGA_MOSI
OSCO
OSCI
DXP_0
DXN_0
AVDD_0
AVSS_0
VP_0
VN_0
VREFP_0
VREFN_0
VBATT_0
PROGRAM_B_0
HSWAPEN-0
D_IN_0
DONE_0
CCLK_0
INIT_B_0
CS_B_0
RDWR_B_0
RSVD
RSVD
TCK_0
M0_0
M2_0
M1_0
TMS_0
TDI_0
D_OUT_BUSY_0
TDO_0
VCCO_0
VCCO_0
XC5VSX50T-3FFG665C
R93
51
VDD3V3
1
2
3
4
USB interface
9
11
10
21
UART_CLK 22
UART_CLK
3
7
6
31
22 R119
8
FPGA_CTS
FPGA_RTS
32
2
FPGA_RXD
30
FPGA_TXD
FPGA_CCLK
3
B
3
4
5
6
U27
RST
R15
R14
M15
VDD3V3
M14
N15
R72
P14
4k7
P15
N14
GND
J19
FPGA_PROG_N J20
K20
J10
FPGA_DIN
DONE
K11
J11
R136
H12
INIT_B
L20
51
M20
P20
GND
R20
TCK_FPGA V11
T20
R130
4k7
M0
VDD3V3
R131
4k7
M2
U20
W20
R132
4k7
M1
GND
TMS_FPGA W13
V13
TDI_FPGA
U12
TDO_FPGA V12
F11
Master SPI mode (M[2:0]=001)
J12
VDD3V3
TDIODE_FPGA_P
TDIODE_N
FPGA_DIN
License key memory
2
1
3
LED3
FPGA_RST_N
U33
1
GND VCC
SKHUAD010
SW1
3
4
TPS3809K33
1
2
U32
IO_L0P_A19_1
IO_L0N_A18_1
IO_L1P_A17_1
IO_L1N_A16_1
IO_L2P_A15_D31_1
IO_L2N_A14_D30_1
IO_L3P_A13_D29_1
IO_L3N_A12_D28_1
IO_L4P_A11_D27_1
IO_L4N_VREF_A10_D26_1
IO_L5P_A9_D25_1
IO_L5N_A8_D24_1
IO_L6P_A7_D23_1
IO_L6N_A6_D22_1
IO_L7P_A5_D21_1
IO_L7N_A4_D20_1
IO_L8P_CC_A3_D19_1
IO_L8N_CC_A2_D18_1
IO_L9P_CC_A1_D17_1
IO_L9N_CC_A0_D16_1
VCCO_1
VCCO_1
3
G15
G16
H13
G14
G17
F17
F15
F14
F18
G19
F13
G12
H18
H19
G11
H11
G20
H21
G10
H9
B13
E14
FPGA_RXD
EE_1WIRE
LED2
2
U20C
Bank 0
Q2
BC847W
1
U20D
GND VCC
LED0
R75
680
RST
A
4k7
VDD3V3
Bank 1
LED1
R92
1k0
D21
DONE_LED
R90
TPS3809K33
VDD3V3
EL19-21SYGC
R79
82
2
Green
R82
82
EL19-21SYGC
LED3 2
1
Green
D20
VDD3V3
1
VDD3V3
VDD3V3
R83
82
A
Reset button
VDD3V3
8
VDD3V3
FPGA System
VDD3V3
7
GND
GND
D
GND
GND
D
GND
Project:
Title:
ADS54RF63 ADX4 EVM
FPGA System
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:31
1
2
3
4
5
6
Engineer: PM
Revision: C
Sheet 08 of 10
7
8
1
2
3
4
5
R91
12V, 2A
8
NM
TP11
TESTPIN
150k
VDD12V
VDD12V
U31
TR3
C102
100n 2
50V
3
2
C103
100n
50V
D23
50WQ03FN
+
ACM7060-701-2PL
GND
C86
330u
25V
C232
10u
25V
9
8
1
C231
10u
25V
10
2
1
POWERCON_2.0MM_PTH
+
C93
330u
25V
GND
GNDGND
GND
GND
Vout
Track
TurboTrans
SmartSync
Inhibit
R98
10k
R99
0
GND
Vin
+Sense
-Sense
Adjust
VDD5V5
NM
4
5
6
C77
47u
10V
C80
47u
10V
C79
47u
10V
C76
47u
10V
A
C78
47u
10V
TP10
TESTPIN
7
GND
GND
GND
GND
TP12
TESTPIN
R88
10
3
4
3
1
PTH08T231WAZ
DC/DC
GND
J6
A
7
Power supply
Power input connector
3
2
1
6
GND
NM
NM
GND
VDD12V
R137
GND
GND
GND
TP14
TESTPIN
+
1
C62
10u
25V
C178
100n
16V
C191
100n
16V
5
R74
47k
GND
GND
GND
C88
10u
25V
GND
VIN
VOUT
INH
VO_ADJ
GND
C67
10p
50V
4
2
VDD3V8
3
R96
100
4
C85
47u
10V
GND
Vout
Track
TurboTrans
SmartSync
10
Inhibit
GND
R94
1k2
R95
51
GND
C230
10 uF
16V
NM
PTH08T231WAZ
DC/DC
Vin
9
8
1
VDD3V8
D22
GND
R142
100k
R81
0
+Sense
-Sense
Adjust
VDD1V0
NM
4
5
6
GND
C64
47u
10V
7
R141
18k
R140
1M0
NM
GND
C66
47u
10V
GND
C61
47u
10V
GND
C69
47u
10V
GND
C70
47u
10V
GND
R139
B
0
18k -> 1.045 V
17.74k -> 1.05 V
GND
GND
0
TP7
TESTPIN
3
VDD12V
PTH08080WAZ
DC/DC
2
R73
330k
ADJ
VDD10V
U34
2
SD
U26
EL19-21SYGC
2
1
Green
B
3
LP2980IM5-ADJ
5
Vout
GND
C71
10u
25V
TP6
TESTPIN
NM
R138
150k
GND
L39
ME3220-103KL
10u
U25
1
Vin
GND
GND GND
NM
GND
GND
GND
GND
R76
470
C75
47u
10V
GND
VDD5V5
L33
L38
ME3220-332ML
GND
+
GND
C
VDD3V8
U22
5
VIN
GND
GND
1
EN
NR
GND
GND
VDD3V8
C51
10 uF
16V
C58
100n
16V
GND
NR
4
+
C45
100n
16V
C49
100n
16V
U11
1
ME3220-332ML
+
GND
742792023
120ohm
C47
100u
16V
5
VIN
EN
C46
10 uF
16V
VOUT
NR
GND
TP4
TESTPIN
NM
2
742792023
120ohm
C27
100u
16V
NM
5
C63
10 uF
16V
NM
VIN
EN
C40
100n
16V
GND
NR
C43
100n
16V
3
GND
GND
GND
C
GND
EN
VIN
FB
VOUT
R4
6k8
4
C4
2u2
16V
C3
2u2
16V
L1
VTTCLK1
GND
GND
5
74279265
600ohm
REG104GA-3.3G4
C56
100n
16V
GND
GND
C57
100n
16V
GND
Project:
Title:
5
EN
VIN
FB
VOUT
R3
6k8
4
C6
2u2
16V
C5
2u2
16V
L2
D
VTTCLK2
5
74279265
600ohm
U2
TPS72301DBVTG4
ADS54RF63 ADX4 EVM
Power
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:32
4
GND
C14
100n
16V
R1
10k
GND
3
GND
4
2
2
C11
100n
16V
2
GND
1
REG104GA-5G4
U1
TPS72301DBVTG4
VCC3V3CLK
GND
3
GND
4
R2
10k
REG104GA-3.3G4
VOUT
NR
GND
AVDD5V0_2
VCC3V3CLK
D
GND
C24
10 uF
16V
1
+
742792023
120ohm
C72
100u
16V
EN
VOUT
GND
TP3
TESTPIN
NM
2
C54
100n
16V
AVDD3V3_2
U23
GND
GND
ME3220-332ML
C53
100n
16V
GND
VCC3V3CLK
1
VIN
4
4
GND
L37
L41
TP13
TP2
TP1
TESTPIN TESTPIN TESTPIN
GND
3
6
VDD3V8
NM
5
GND
2
GND
NR
2
REG104GA-5G4
GND
1
REG104GA-3.3G4
GND
L32
L34
C59
100n
16V
GND
EN
VOUT
U4
GND
4
GND
5
VOUT
L22
ME3220-332ML
VDD3V3
REG104GA-3.3G4
3
6
C65
10 uF
16V
VOUT
TP5
TESTPIN
2
NM
742792023
120ohm
C68
100u
16V
VIN
2
EN
GND
L14
1
GND
U14
1
3
6
GND
AVDD3V3_1
GND
GND
VDD3V8
R77
3k3
5
C55
10 uF
16V
3
6
4
2
C81
10u
25V
+
VIN
3
6
VO_ADJ
NM
GND
INH
NM
3
742792023
120ohm
C73
100u
16V
GND
VOUT
U24
1
ME3220-332ML
GND
GND
5
VIN
GND
1
AVDD5V0_1
L35
L40
VDD2V5
PTH08080WAZ
DC/DC
VDD12V
GND
3
6
U28
TP8
TESTPIN
GND
GND
VDD5V5
TP9
TESTPIN
6
Engineer: PM
Revision: C
Sheet 09 of 10
7
8
1
2
3
4
5
6
7
8
U20A
VDD3V3 VDD3V3
Temperature monitor/sensor
R113
10k
VDD3V3
A
2
U36
LM95234CISD
13
SMBCLK
12
SMBDAT
2
C98
100p
50V
TDIODE_N
C97
100p
50V
C96
100p
50V
C95
100p
50V
9
A0
NTC thermistor, 100 k
GND
VDD
SMBCLK
SMBDAT
MGTs (unused)
SMB ADDR: 0011000
U20B
C1
C3
D1
F3
E1
D3
F1
D4
F2
G3
G2
Y2
Y3
AA2
AA1
AA3
AB1
AD3
AC1
AB3
AD1
AB4
AD2
AE3
AE2
L3
L4
U3
U4
E3
E4
AC3
AC4
N4
Fan connectors
VDD12V
VDD1V0
C90
100n
16V
3
4
SMBCLK
SMBDAT
10
SCLK
SDA
2
CF
C89
1u
25V
GND
R104
VOUT
SENSE1
SENSE2
FAULT
2
3
Q3
BC817-25
1
GND
1k0
1
2
22-27-2021
1
22-27-2021
3
R111
Q4
BC817-25
1
1k0
9
H2
H3
J2
J1
J3
K1
M3
L1
K3
M1
K4
M2
N3
N2
P5
P4
M5
P2
P3
R2
R1
R3
T1
V3
U1
T3
V1
T4
V2
W3
W2
B2
B3
C2
MGTRXP0_116
MGTTXP0_112
MGTAVTTRX_116 MGTAVTTTX_112
MGTRXN0_116
MGTTXN0_112
MGTAVCCPLL_116
MGTRXP0_112
MGTRXN1_116
MGTAVTTRX_112
MGTREFCLKN_116
MGTRXN0_112
MGTRXP1_116
MGTAVCCPLL_112
MGTREFCLKP_116
MGTRXN1_112
MGTTXN1_116
MGTREFCLKN_112
MGTAVTTTX_116
MGTRXP1_112
MGTTXP1_116
MGTREFCLKP_112
MGTTXP0_118
MGTTXN1_112
MGTAVTTTX_118 MGTAVTTTX_112
MGTTXN0_118
MGTTXP1_112
MGTRXP0_118
MGTAVTTRXC
MGTAVTTRX_118
MGTRREF_112
MGTRXN0_118
NC
MGTAVCCPLL_118
MGTTXP0_114
MGTRXN1_118
MGTAVTTTX_114
MGTREFCLKN_118
MGTTXN0_114
MGTRXP1_118
MGTTRXP0_114
MGTREFCLKP_118 MGTAVTTRX_114
MGTTXN1_118
MGTRXN0_114
MGTAVTTTX_118 MGTAVCCPLL_114
MGTTXP1_118
MGTRXN1_114
MGTAVCC_112
MGTREFCLKN_114
MGTAVCC_112
MGTRXP1_114
MGTAVCC_114
MGTREFCLKP_114
MGTAVCC_114
MGTTXN1_114
MGTAVCC_116
MGTAVTTTX_114
MGTAVCC_116
MGTTXP1_114
MGTAVCC_118
MGTTXP0_116
MGTAVCC_118
MGTAVTTTX_116
FLOAT
MGTTXN0_116
XC5VSX50T-3FFG665C
8
7
6
C92
100n
C91
100n
FSENSE1
GND
GND
16V
FSENSE2
16V
R108
33
FAN_FAULT
R109
33
R107
33
R117
33
R116
33
R115
33
5
R103
15k
VIN
GND
U35
TC655EUN
C94
1u
25V
2
1
GND
R114
10k
VDD3V3
SMB ADDR: 0011011
1
2
3
BAV99W
3
2
R106
33k
VDD
R54
100k
NTC
C87
1u
25V
VDD3V3
P4
D25
FAN1
BAV99W
2
P2
D24
FAN2
1
VDD3V3
PINHEADER1x2_200
NM
SMBCLK
SMBDAT
VDD12V
P3
1
2
GND
Dual fan controller
GND
B
GND
R112
10k
1
NC
0
Q5
MMBT3904WT1G
1
10
11
14
TCRIT1
TCRIT2
TCRIT3
GND
3
TDIODE_PCB_P
D1+
D2+
D3+
D4+
D-
PAD
7
6
4
3
5
8
TDIODE_ADC0_P
TDIODE_ADC1_P
TDIODE_FPGA_P
A2
D2
E2
K2
L2
T2
U2
AB2
AC2
AF2
C4
F4
J4
M4
R4
V4
AA4
AE4
C5
N5
V5
AC5
A6
F6
T6
AF6
J7
W7
B8
M8
AB8
E9
L9
N9
R9
U9
Y9
AE9
H10
K10
M10
P10
T10
V10
A11
L11
N11
R11
U11
AA11
AF11
D12
K12
M12
P12
T12
W12
AD12
G13
J13
L13
N13
R13
U13
H14
K14
T14
V14
Y14
C15
J15
L15
U15
W15
AC15
A16
F16
H16
K16
M16
P16
T16
V16
AF16
J17
L17
N17
R17
U17
W17
VDD1V0
GND
GND
GND
GND
C
C210
100n
16V
GND
GND
GND
GND
GND
GND
GND
TI logo
NM
Fiducials
ME30
ME10
ME29
ME42
ME17
NM
NM
SHIELD SLOT
SHIELD SLOT
GND
GND
ME41
NM
ME6
GND
ME8
NM
GND
ME5
NM
GND
C217
100n
16V
C218
100n
16V
C204
100n
16V
C214
100n
16V
GND
ME19
VDD1V0
NM
C205
100n
16V
GND
SHIELD SLOT
SHIELD SLOT
GND
LOGO2
GND
NM
ME9
SHIELD SLOT
Logo
NM
ME4
SHIELD SLOT
ME12
Mount_28
ME23
Mount_28
ME22
Mount_28
ME11
Mount_28
ME2
Mount_35
ME33
Mount_35
ME32
Mount_35
Mount_35
ME1
Logos
LOGO1
SHIELD SLOT
Mounting holes
SHIELD SLOT
Holes for shields
C220
100n
16V
ME15
C208
100n
16V
C209
100n
16V
NM
C207
100n
16V
GND
GND
VDD2V5
ME34
C219
100n
16V
C199
100n
16V
C198
100n
16V
C203
100n
16V
C193
100n
16V
C223
100n
16V
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
VDD2V5
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCAUX
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
U8
K9
M9
P9
T9
W10
M19
P19
T19
V19
Y19
N20
L10
N10
R10
U10
M11
P11
T11
L12
N12
R12
K13
M13
P13
T13
J14
L14
U14
H15
K15
T15
V15
J16
L16
N16
R16
U16
H17
K17
M17
P17
T17
V17
J18
L18
N18
R18
U18
W18
K19
A
VDD1V0
B
B18
K18
M18
P18
T18
V18
AB18
E19
L19
N19
R19
U19
W19
AE19
C20
H20
V20
A21
L21
T21
AA21
AF21
D22
P22
AD22
G23
U23
K24
Y24
C25
N25
AC25
A26
F26
L26
T26
AA26
AF26
C
XC5VSX50T-3FFG665C
D
D
GND
Fiducal_3
ME28
Fiducal_3
ME14
ME24
Fiducal_3
ME16
Fiducal_3
ME20
ME38
ME31
ME36
ME40
Fiducal_3
ME37
ME13
Fiducal_3
ME26
ME18
ME27
ME25
ME21
ME35
ME39
Project:
Title:
Fiducal_2
Fiducal_2
1
Fiducal_2
Fiducal_2
Fiducal_2
Fiducal_2
2
Fiducal_2
Fiducal_2
Fiducal_2
3
Fiducal_2
Fiducal_2
Fiducal_2
GND
GND
Fiducal_2
4
Fiducal_2
Fiducal_2
Fiducal_2
Fiducal_2
5
Fiducal_2
ADS54RF63 ADX4 EVM
Miscellaneous
Number: 106-000-009
Size: A3
Date: 2009-01-27
Time: 15:34:32
6
Engineer: PM
Revision: C
Sheet 10 of 10
7
8
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Products
Amplifiers
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Logic
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amplifier.ti.com
dataconverter.ti.com
www.dlp.com
dsp.ti.com
www.ti.com/clocks
interface.ti.com
logic.ti.com
power.ti.com
microcontroller.ti.com
www.ti-rfid.com
www.ti.com/lprf
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Audio
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Digital Control
Medical
Military
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Security
Telephony
Video & Imaging
Wireless
www.ti.com/audio
www.ti.com/automotive
www.ti.com/broadband
www.ti.com/digitalcontrol
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www.ti.com/military
www.ti.com/opticalnetwork
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www.ti.com/video
www.ti.com/wireless
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