a ADZS-BF707-BLIP2 Board Evaluation System Manual Revision 1.0, April 2015
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ADZS-BF707-BLIP2 Board
Evaluation System Manual
Revision 1.0, April 2015
Part Number
82-100126-01
Analog Devices, Inc.
One Technology Way
Norwood, Mass. 02062-9106
a
Copyright Information
©2015 Analog Devices, Inc., ALL RIGHTS RESERVED. This document
may not be reproduced in any form without prior, express written consent
from Analog Devices, Inc.
Printed in the USA.
Disclaimer
Analog Devices, Inc. reserves the right to change this product without
prior notice. Information furnished by Analog Devices is believed to be
accurate and reliable. However, no responsibility is assumed by Analog
Devices for its use; nor for any infringement of patents or other rights of
third parties which may result from its use. No license is granted by implication or otherwise under the patent rights of Analog Devices, Inc.
Trademark and Service Mark Notice
The Analog Devices logo, Blackfin, CrossCore, and EngineerZone are registered trademarks of Analog Devices, Inc.
Blackfin+ is a trademark of Analog Devices, Inc.
All other brand and product names are trademarks or service marks of
their respective owners.
Regulatory Compliance
The ADZS-BF707-BLIP2 board is designed to be used solely in a laboratory environment. The board is not intended for use as a consumer end
product or as a portion of a consumer end product. The board is an open
system design which does not include a shielded enclosure and therefore
may cause interference to other electrical devices in close proximity. This
board should not be used in or near any medical equipment or RF devices.
The ADZS-BF707-BLIP2 board is in the process of being certified to
comply with the essential requirements of the European EMC directive
2004/108/EC and therefore carries the “CE” mark.
The BLIP2 board evaluation system contains ESD (electrostatic discharge)
sensitive devices. Electrostatic charges readily accumulate on the human
body and equipment and can discharge without detection. Permanent damage may occur on devices subjected to high-energy discharges. Proper ESD
precautions are recommended to avoid performance degradation or loss of
functionality. Store unused BLIP2 boards in the protective shipping package.
CONTENTS
PREFACE
Product Overview ............................................................................ x
Purpose of This Manual ................................................................. xii
Intended Audience ......................................................................... xii
Manual Contents .......................................................................... xiii
What’s New in This Manual .......................................................... xiii
Technical Support .......................................................................... xiv
Supported Processors ...................................................................... xiv
Supported Tools .............................................................................. xv
Product Information ....................................................................... xv
Analog Devices Web Site ........................................................... xv
EngineerZone ........................................................................... xvi
Notation Conventions .................................................................... xvi
ADZS-BF707-BLIP2 Board Evaluation System Manual
v
Contents
USING ADZS-BF707-BLIP2 BOARD
Package Contents ......................................................................... 1-2
Default Configuration .................................................................. 1-2
BLIP2 Board Installation .............................................................. 1-3
BLIP2 Board Session Startup ........................................................ 1-4
Evaluation License ........................................................................ 1-6
Mobile DDR Memory .................................................................. 1-7
SPI Flash ...................................................................................... 1-8
UART1 Interface .......................................................................... 1-8
USB Interface ............................................................................... 1-8
SD Interface ................................................................................. 1-9
Debug Interface ............................................................................ 1-9
Power-On-Self Test ....................................................................... 1-9
RF Wireless Interface .................................................................... 1-9
Power Architecture ..................................................................... 1-10
Example Programs ...................................................................... 1-10
Reference Design Information ..................................................... 1-11
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ADZS-BF707-BLIP2 Board Evaluation System Manual
Contents
ADZS-BF707-BLIP2 BOARD HARDWARE REFERENCE
System Architecture ...................................................................... 2-2
Push Buttons ................................................................................ 2-4
GPIO Push Buttons (SW1 and SW2) ....................................... 2-5
Reset Push Button (SW3) ........................................................ 2-5
WAKE IO Push Button (SW4) ................................................ 2-5
LEDs ............................................................................................ 2-6
GPIO Status LED (LED1) ...................................................... 2-7
SYS_FAULT LED (LED4) ....................................................... 2-7
Connectors ................................................................................... 2-8
JTAG/SWD/SWO Connector (P3) ........................................ 2-10
USB Connector (P4) ............................................................. 2-10
USB to UART Connector (P8) .............................................. 2-10
Power Connector (P5) ........................................................... 2-11
RF Wireless Connector (J2) ................................................... 2-11
SD Connector (J3) ................................................................ 2-11
ADZS-BF707-BLIP2 BOARD BILL OF MATERIALS
ADZS-BF707-BLIP2 BOARD SCHEMATIC
INDEX
ADZS-BF707-BLIP2 Board Evaluation System Manual
vii
Contents
viii
ADZS-BF707-BLIP2 Board Evaluation System Manual
PREFACE
Thank you for purchasing the ADZS-BF707-BLIP2 board, Analog
Devices, Inc. low-cost evaluation system for the ADSP-BF70x family of
Blackfin® processors.
The ADSP-BF707 processor is a member of the Blackfin family of products. Blackfin processors combine a dual-MAC state-of-the-art signal
processing engine, the advantages of a clean, orthogonal RISC-like microprocessor instruction set, and single-instruction, multiple-data (SIMD)
multimedia capabilities into a single instruction-set architecture. New
enhancements to the Blackfin+™ core add 32-bit MAC and 16-bit complex MAC support, cache enhancements, branch prediction and other
instruction set improvements, all while maintaining instruction set compatibility to previous Blackfin products.
The ADZS-BF707-BLIP2 board is shipped with all of the necessary hardware—you can start the evaluation immediately. The package contains the
standalone evaluation board, CE-approved power supply, and USB cable.
The BLIP2 board ships with an ICE-1000 emulator.
A RF Wireless connector is provided for connecting the BLIP2 board to
an Analog Devices Wireless Sensor Network (WSN) cluster board
(EV-ADRN-WSN-2Z).
The on-board mechanical switches are push buttons.
ADZS-BF707-BLIP2 Board Evaluation System Manual
ix
Product Overview
The evaluation board is designed to be used in conjunction with the
CrossCore® Embedded Studio (CCES) development tools to test capabilities of the ADSP-BF70x processors. The development environment aids
advanced application code development and debug, such as:
• Create, compile, assemble, and link application programs written
in C++, C, and assembly
• Load, run, step, halt, and set breakpoints in application programs
• Read and write data and program memory
• Read and write core and peripheral registers
Product Overview
The board features:
• Analog Devices ADSP-BF707 processor
• 184-ball BGA package
• 24 MHz crystal oscillator for processor
• 24 MHz crystal oscillator for USB
• Mobile DDR memory (DMC0) chip
• 32M bit x 16 x 4 banks (2G bit)
• MT46H128M16LFDD-48WT
• Quad SPI Flash (SPI2)
• 32M bit serial flash memory
• Windbond W25Q32
x
ADZS-BF707-BLIP2 Board Evaluation System Manual
Preface
• CMOS imaging sensors
• ASX340AT by Aptina / ON Semiconductor and M12 lens
holder
• OVM7692 camera module by Omnivision
• RF Wireless
• 4 x 2 connector
• 0.05” socket
• Universal Asynchronous Receiver/Transmitter (UART1)
• FTDI FT232RQ USB to UART converter
• USB Mini B connector
• USB interface
• Micro AB connector
• RESET controller
• Analog Devices ADM6315 microprocessor supervisory
circuits
• Debug (JTAG/SWD/SWO) interface
• JTAG/SWD/SWO 10-pin 0.05” header for use with Analog
Devices emulators
• LEDs
• Two LEDs: one board status (yellow), one SYS_FAULT
(red)
• Push buttons
• Four push buttons: one reset, one wake I/O, and two GPIO
ADZS-BF707-BLIP2 Board Evaluation System Manual
xi
Purpose of This Manual
• External power supply
• CE compliant
• 5V @ 3.6 amps
• Other features
• SD/MMC memory connector
• 0-ohm resistors for processor current measurement
For information about the hardware components of the BLIP2 board,
refer to ADZS-BF707-BLIP2 Board Bill Of Materials.
Purpose of This Manual
The ADZS-BF707-BLIP2 Board Evaluation System Manual provides
instructions for installing the product hardware (board). The text
describes operation and configuration of the board components and provides guidelines for running your own code on the ADZS-BF707-BLIP2
board. Finally, a schematic and a bill of materials are provided for
reference.
Intended Audience
The primary audience for this manual is a programmer who is familiar
with Analog Devices processors. This manual assumes that the audience
has a working knowledge of the appropriate processor architecture,
instruction set, and C/C++ programming languages.
Programmers who are unfamiliar with Analog Devices processors can use
this manual, but should supplement it with other texts (such as the
ADSP-BF70x Blackfin+ Processor Hardware Reference and the
ADSP-BF70x Blackfin+ Processor Programming Reference) that describe
your target architecture.
xii
ADZS-BF707-BLIP2 Board Evaluation System Manual
Preface
Programmers who are unfamiliar with CrossCore Embedded Studio
should refer to the CCES online help.
Manual Contents
The manual consists of:
• Chapter 1, Using ADZS-BF707-BLIP2 Board
Describes BLIP2 board functionality from a programmer’s perspective and provides a simplified memory map of the processor.
• Chapter 2, ADZS-BF707-BLIP2 Board Hardware Reference
Provides information about the BLIP2 board hardware
components.
• Appendix A, ADZS-BF707-BLIP2 Board Bill Of Materials
Provides a list of hardware components used to manufacture the
BLIP2 board.
• Appendix B, ADZS-BF707-BLIP2 Board Schematic
Lists the resources for board-level debugging.
What’s New in This Manual
This is the first edition (Revision 1.0) of the ADZS-BF707-BLIP2 Board
Evaluation System Manual.
ADZS-BF707-BLIP2 Board Evaluation System Manual
xiii
Technical Support
Technical Support
You can reach Analog Devices processors and DSP technical support in
the following ways:
• Post your questions in the processors and DSP support community
at EngineerZone®:
http://ez.analog.com/community/dsp
• Submit your questions to technical support directly at:
http://www.analog.com/support
• E-mail your questions about processors and processor applications
to:
processor.support@analog.com or
processor.china@analog.com (Greater China support)
• Contact your Analog Devices sales office or authorized distributor.
Locate one at:
www.analog.com/adi-sales
• Send questions by mail to:
Processors and DSP Technical Support
Analog Devices, Inc.
Three Technology Way
P.O. Box 9106
Norwood, MA 02062-9106
USA
Supported Processors
This evaluation system supports Analog Devices ADSP-BF707 Blackfin
processors.
xiv
ADZS-BF707-BLIP2 Board Evaluation System Manual
Preface
Supported Tools
Information on supported tools for the ADZS-BF707-BLIP2 board and
the ADSP-BF70x family of processors is:
http://www.analog.com/BLIP
Product Information
Product information can be obtained from the Analog Devices Web site
and the online help system.
Analog Devices Web Site
The Analog Devices Web site, www.analog.com, provides information
about a broad range of products—analog integrated circuits, amplifiers,
converters, and digital signal processors.
To access a complete technical library for each processor family, go to
http://www.analog.com/processors/technical_library. The manuals
selection opens a list of current manuals related to the product as well as a
link to the previous revisions of the manuals. When locating your manual
title, note a possible errata check mark next to the title that leads to the
current correction report against the manual.
Also note, myAnalog.com is a free feature of the Analog Devices Web site
that allows customization of a Web page to display only the latest
information about products you are interested in. You can choose to
receive weekly e-mail notifications containing updates to the Web pages
that meet your interests, including documentation errata against all manuals. myAnalog.com provides access to books, application notes, data sheets,
code examples, and more.
ADZS-BF707-BLIP2 Board Evaluation System Manual
xv
Notation Conventions
Visit myAnalog.com (found on the Analog Devices home page) to sign up.
If you are a registered user, just log on. Your user name is your e-mail
address.
EngineerZone
EngineerZone is a technical support forum from Analog Devices. It allows
you direct access to ADI technical support engineers. You can search
FAQs and technical information to get quick answers to your embedded
processing and DSP design questions.
Use EngineerZone to connect with other DSP developers who face similar
design challenges. You can also use this open forum to share knowledge
and collaborate with the ADI support team and your peers. Visit
http://ez.analog.com to sign up.
Notation Conventions
Text conventions used in this manual are identified and described as
follows.
xvi
Example
Description
File > Close
Titles in reference sections indicate the location of an item within the
CCES environment’s menu system (for example, the Close command
appears on the File menu).
{this | that}
Alternative required items in syntax descriptions appear within curly
brackets and separated by vertical bars; read the example as this or
that. One or the other is required.
[this | that]
Optional items in syntax descriptions appear within brackets and separated by vertical bars; read the example as an optional this or that.
[this,…]
Optional item lists in syntax descriptions appear within brackets delimited by commas and terminated with an ellipse; read the example as an
optional comma-separated list of this.
ADZS-BF707-BLIP2 Board Evaluation System Manual
Preface
Example
Description
.SECTION
Commands, directives, keywords, and feature names are in text with
letter gothic font.
filename
Non-keyword placeholders appear in text with italic style format.
Note: For correct operation, ...
A Note provides supplementary information on a related topic. In the
online version of this book, the word Note appears instead of this
symbol.
Caution: Incorrect device operation may result if ...
Caution: Device damage may result if ...
A Caution identifies conditions or inappropriate usage of the product
that could lead to undesirable results or product damage. In the online
version of this book, the word Caution appears instead of this symbol.
Warning: Injury to device users may result if ...
A Warning identifies conditions or inappropriate usage of the product
that could lead to conditions that are potentially hazardous for the
devices users. In the online version of this book, the word Warning
appears instead of this symbol.
ADZS-BF707-BLIP2 Board Evaluation System Manual
xvii
Notation Conventions
xviii
ADZS-BF707-BLIP2 Board Evaluation System Manual
1 USING ADZS-BF707-BLIP2
BOARD
This chapter provides information to assist you with development of programs for the ADZS-BF707-BLIP2 evaluation system.
The following topics are covered.
• Package Contents
• Default Configuration
• BLIP2 Board Installation
• BLIP2 Board Session Startup
• Evaluation License
• Mobile DDR Memory
• SPI Flash
• UART1 Interface
• USB Interface
• SD Interface
• Debug Interface
• Power-On-Self Test
• RF Wireless Interface
• Power Architecture
ADZS-BF707-BLIP2 Board Evaluation System Manual
1-1
Package Contents
• Example Programs
• Reference Design Information
Package Contents
Your ADZS-BF707-BLIP2 board package contains the following items.
• ADZS-BF707-BLIP2 board
• ICE-1000 emulator
• Tripod
• M12 lens
• Universal 5V DC power
• USB Mini-B to Standard-A cable
• USB Micro-B to Standard-A cable
• Release note
Contact the vendor where you purchased your BLIP2 board or contact
Analog Devices, Inc. if any item is missing.
Default Configuration
The ADZS-BF707-BLIP2 board is designed to run as a standalone unit.
When removing the BLIP2 board from the package, handle the board
carefully to avoid the discharge of static electricity, which can damage
some components.
1-2
ADZS-BF707-BLIP2 Board Evaluation System Manual
Using ADZS-BF707-BLIP2 Board
The BLIP2 evaluation system contains ESD (electrostatic discharge) sensitive
devices. Electrostatic charges readily accumulate on the human body and
equipment and can discharge without detection. Permanent damage may
occur on devices subjected to high-energy discharges. Proper ESD precautions are recommended to avoid performance degradation or loss of functionality. Store unused BLIP2 boards in the protective shipping package.
BLIP2 Board Installation
It is assumed that the CrossCore Embedded Studio software is installed
and running on your PC.
Follow these instructions to ensure correct operation of the product software and hardware.
Step 1: Connect an emulator to the BLIP2 board.
1. Plug one side of the included USB cable into the USB connector of
the emulator. Plug the other side into a USB port of the PC.
2. The status LED (labeled STATUS) lights up yellow if the connection
with the PC is working and the appropriate Windows driver is
installed. Please refer to the appropriate emulator manual if the status LED does not turn on.
3. Attach the emulator header (J2) on the bottom of the ICE-1000 to
the P3 connector on the BLIP2 board.
ADZS-BF707-BLIP2 Board Evaluation System Manual
1-3
BLIP2 Board Session Startup
Step 2: Providing power to the BLIP2 board.
1. Plug one side of the USB Micro-B to Standard-A cable into the
USB connector P4 on the BLIP2 board. Plug the other side into a
USB port of the PC. If there lacks a USB port to supply power to
BLIP2 board, follow the instructions in the next two steps.
2. Plug the jack-end of the assembled power adaptor into the power
connector (REFDES) P5 (labeled 5V) on the BLIP2 board.
3. Plug the other side of the power adaptor into a power outlet.
BLIP2 Board Session Startup
It is assumed that the CrossCore Embedded Studio software is installed
and running on your PC.
If you connect the board or emulator first (before installing
Note:
CCES) to the PC, the Windows driver wizard may not find the
board drivers.
1. Navigate to the CCES environment through the Start menu.
Note that CCES is not connected to the target board.
2. Use the Debug Configurations wizard to connect to the BLIP2
board.
If a debug configuration exists already, select the appropriate
configuration and click Debug. Go to step 8.
1-4
ADZS-BF707-BLIP2 Board Evaluation System Manual
Using ADZS-BF707-BLIP2 Board
To create a debug configuration, do one of the following:
• Click the down arrow next to the bug icon
Debug Configurations.
, select
• Choose Run > Debug Configurations.
The Debug Configuration dialog box appears.
3. Select CrossCore Embedded Studio Application and click
(New launch configuration).
The Select Processor page of the Session Wizard appears.
4. Ensure Blackfin is selected in Processor family. In Processor type,
select ADSP-BF707. Click Next.
The Select Connection Type page of the Session Wizard appears.
5. Select Emulator and click Next.
The Select Platform page of the Session Wizard appears.
6. Choose the type of emulator that is connected to the BLIP2 board.
An ICE-1000 emulator is included in the package.
7. Click
Finish to close the wizard.
The new debug configuration is created and added to the Debug
Configurations list.
8. In the Name edit box, users can select an appropriate name to
describe the configuration, otherwise a default name is provided.
9. Select the Custom Board Support tab and check the Enable customizations box. Click on Browse and select the
ADZS-BF707-BLIP2-proc.xml file found in the
ADZS_BF707_BLIP2_Board-Rel1.0.0\Blackfin\Examples folder.
ADZS-BF707-BLIP2 Board Evaluation System Manual
1-5
Evaluation License
Click OK. In the Run/Debug settings, click Apply to save and
apply the changes.
10.In the Program(s) to load section, choose the program to load (if
the appropriate program is not already populated) when connecting to the board. If not loading any program upon connection to
the target, do not make any changes.
connected to the target, there is no way to choose a program
toWhile
download. To load a program once connected, terminate the
session and then load the new program.
a configuration, go to the Debug Configurations dialog
Toboxdelete
and select the configuration to delete. Click and choose Yes
when asked if you wish to delete the selected launch configuration.
Then Close the dialog box.
disconnect from the target board, click the terminate button
Toor choose
Run > Terminate.
To delete a session, choose Target > Session > Session List. Select
the session name from the list and click Delete. Click OK.
default configurations that show up in the CCES Debug Con The
figurations wizard are for JTAG mode debugging only. To use
SWD mode, create a new platform using the Target Configurator.
Evaluation License
When starting CCES for the first time, you are prompted to install a
license with a serial number or to enable evaluation of the product without
a serial number. In the box that contains the EZ-Board is a business card
with a serial number on it. When prompted, choose “I have a serial number that I would like to activate” and enter the serial number shown on the
card. If the evaluation license is installed but not activated, it allows
1-6
ADZS-BF707-BLIP2 Board Evaluation System Manual
Using ADZS-BF707-BLIP2 Board
10 days of unrestricted use and then becomes disabled. The license can be
re-enabled by activation. Once activated, the evaluation license offers
unrestricted use for a defined period and then becomes disabled until an
additional license is installed.
CCES without using a serial number, you will be lim Ifitedinstalling
to 180 days.
An evaluation license can be upgraded to a full license. Licenses can be
purchased from:
• Analog Devices directly. Call (800) 262-5645 or 781-937-2384 or
go to:
http://www.analog.com/buyonline.
• Analog Devices, Inc. local sales office or authorized distributor. To
locate one, go to:
www.analog.com/adi-sales.
Mobile DDR Memory
The ADSP-BF707 processor connects to a 2Gb Micron MT46H128M16
chip through the Double Data Rate Synchronous Dynamic Random-Access Memory controller. The memory controller on the processor
and the Mobile DDR memory chip are powered by the on-board 1.8V
regulator. The memory controller on the processor can operate at a maximum clock frequency of 200 MHz. Data is transferred between the
processor and the memory chip on both the rising and falling edges of the
clock.
With a CCES session running and connected to the BLIP2 board through
an emulator, the memory controller registers are configured automatically
each time the processor is reset through a soft reset using CCES. The values are used whenever mobile DDR chip is accessed through the debugger
(for example, when viewing memory or loading a program).
ADZS-BF707-BLIP2 Board Evaluation System Manual
1-7
SPI Flash
To disable the automatic setting of the memory controller registers, select
Target Options from the Session menu in CCES and uncheck Use XML
reset values.
SPI Flash
The ADSP-BF707 processor has three SPI interfaces: SPI0, SPI1, and
SPI2. SPI2 is connected to a Winbond W25Q32BC 32 Mb serial flash
memory with quad SPI support. This flash is used for booting and
scratchpad space.
UART1 Interface
The ADSP-BF707 processor has two built-in universal asynchronous
transmitters (UARTs). UART1 is connected to an FTDI, FT232RQ, USB
to UART converter IC (U15).
For more information, refer to the UART1 example, which is included in
the ADZS-BF707-BLIP2 Board Support Package.
USB Interface
The ADSP-BF707 processor has an integrated USB PHY; the BLIP2
board provides a micro AB connector. The board supports USB high
speed mode.
To learn about the device and host modes of the processor, refer to the
USB example, which is included in the ADZS-BF707-BLIP2 Board Support Package. For more information, refer to the ADSP-BF70x Blackfin+
Processor Hardware Reference.
1-8
ADZS-BF707-BLIP2 Board Evaluation System Manual
Using ADZS-BF707-BLIP2 Board
SD Interface
The ADSP-BF707 processor has a secure digital (SD) interface that consists of a clock pin, command pin, card detect pin, and an 8-bit data bus.
Debug Interface
The BLIP2 board provides a JTAG/SWD/SWO connection through a
connector (P3), which is a 0.05” pitch header. A 8-bit trace connection
also is available through a connector (P2), although this is not supported
at this time. See JTAG/SWD/SWO Connector (P3) for more
information.
Power-On-Self Test
The Power-On-Self-Test Program (POST) tests all BLIP2 board peripherals, except for SD card interface, and validates functionality as well as
connectivity to the processor. Once assembled, each BLIP2 board is fully
tested for an extended period of time with POST. All BLIP2 boards are
shipped with Video Occupancy Sensor real-time applications burned into
flash memory. For executing POST code, refer to the Power_On_Self_
Test example in the Board Support Package.
Note that the source code for the POST program is included in the
ADZS-BF707-BLIP2 Board Support Package along with the readme.txt
file that describes how the board is configured to run POST.
RF Wireless Interface
A RF Wireless connector allows the BLIP2 board to be connected to an
Analog Devices Inc. Wireless Sensor Network (WSN) cluster board
EV-ADRN-WSN-2Z. Alternatively, it can be used as a general-purpose
ADZS-BF707-BLIP2 Board Evaluation System Manual
1-9
Power Architecture
connector for the SPI1 port, 3.2V supply, and ground. Note that any SPI1
pin can also be configured as GPIO. For pinout information, go to
ADZS-BF707-BLIP2 Board Schematic.
Power Architecture
The ADZS-BF707-BLIP2 board has three primary voltage domains: 3.2V,
1.1V, and 1.8V. The power input is a 5V wall adaptor.
The Analog Devices ADP2370 voltage regulator provides 3.2V for the
VDD_EXT signal and the 3.2V power requirements of the board. The
ADP2230 voltage regulator provides 1.1V for the VDD_INT signal in addition to providing 1.8V for the VDD_DMCO signal. The ADP195 load switch
is used to create a collapsible power domain to save power during hibernate mode. The ADP220 voltage regulator provides 2.8V to the CMOS
imaging sensors.
Example Programs
Example programs are provided with the ADZS-BF707-BLIP2 Board
Support Package to demonstrate various capabilities of the product. The
programs can be found in the ADZS_BF707_BLIP2_Board-Rel1.0.0\Blackfin\Examples folder. The number after the “Rel” could be higher for
newer versions. Refer to a readme file provided with each example for
more information.
1-10
ADZS-BF707-BLIP2 Board Evaluation System Manual
Using ADZS-BF707-BLIP2 Board
Reference Design Information
A reference design info package is available for download on the Analog
Devices Web site. The package provides information on the design, layout, fabrication, and assembly of the BLIP2 board.
The information can be found at:
http://www.analog.com/BLIP
ADZS-BF707-BLIP2 Board Evaluation System Manual
1-11
Reference Design Information
1-12
ADZS-BF707-BLIP2 Board Evaluation System Manual
2 ADZS-BF707-BLIP2 BOARD
HARDWARE REFERENCE
This chapter describes the hardware design of the ADZS-BF707-BLIP2
board.
The following topics are covered.
• System Architecture
Describes the board’s configuration and explains how the board
components interface with the processor.
• Push Buttons
Shows the locations and describes the push buttons.
• LEDs
Shows the locations and describes the LEDs.
• Connectors
Shows the locations and provides part numbers for the on-board
connectors. In addition, the manufacturer and part number information is provided for the mating parts.
ADZS-BF707-BLIP2 Board Evaluation System Manual
2-1
System Architecture
System Architecture
This section describes the processor’s configuration on the
ADZS-BF707-BLIP2 board (Figure 2-1).
ADM6315
SD
connector
32 Mb
Quad Flash
2GB-LPDDR
RF Wireless
connector
MSI0
SPI2
DMC0
SPI1
RESET
HADC_VREFP
VDD_EXT
VDD_HADC
VDD_USB
VDD_OTP
VDD_RTC
VDD_DMC
USB
VDD_INT
UART1
IMAGE SENSOR
Sub system
USB_CLKIN
VDD
ePPI
CLKIN
24MHz
OSC
ADSP-BF707BBCZ-4
GPIO
24MHz
OSC
I2C
JTAG
JTAG 10
pin 0.05”
3.2V
FT232RQ
USB Micro
connector
ADP2230
USB Mini
connector
3.2V
1.8V
1.1V
ADP220
ADP195
ADP2370
DC
VIN
Figure 2-1. BLIP2 Board Block Diagram
The ADZS-BF707-BLIP2 board is designed to demonstrate the image
analysis capabilities of the ADSP-BF707 processor. The board houses two
imaging sensors. ASX340AT is a CMOS imaging sensor made by
Aptina/ON Semiconductor. It is placed underneath a M12 lens holder.
2-2
ADZS-BF707-BLIP2 Board Evaluation System Manual
ADZS-BF707-BLIP2 Board Hardware Reference
OVM7692 is a camera module made by Omnivision. It packages an
OV7692 imaging sensor with a lens.
The ADZS-BF707-BLIP2 board has a 24 MHz input clock and runs at
384 MHz internally.
USB circuitry and a micro USB AB connector enable the BLIP2 board to
connect to a host. The clock for the USB circuit is generated by a 24 MHz
oscillator.
An FT232RQ device from Future Technology Devices International and a
USB Mini-B connector allow the UART1 port of the ADSP-BF707 processor to connect to a USB port of a host.
The SD connector enables plug-in of an SD card or a WiFi module that
supports SD card interface.
The RF Wireless connector allows the connection of the BLIP2 board to
an Analog Devices Inc. Wireless Sensor Network (WSN) Cluster Board.
Alternatively, it can be used as a general-purpose connector for the SPI1
port, 3.2V supply, and ground. Note that any SPI1 pin can also be configured as GPIO.
See ADZS-BF707-BLIP2 Board Schematic and the Wireless Sensor Network (WSN) cluster board EV-ADRN-WSN-2ZWSN for more
information.
ADZS-BF707-BLIP2 Board Evaluation System Manual
2-3
Push Buttons
Push Buttons
This section describes operation of the push buttons. The push button
locations are shown in Figure 2-2.
Figure 2-2. Push Button Locations
2-4
ADZS-BF707-BLIP2 Board Evaluation System Manual
ADZS-BF707-BLIP2 Board Hardware Reference
GPIO Push Buttons (SW1 and SW2)
The GPIO push buttons (SW1 and SW2) are connected to the processor’s
signals PC_11/SPT1_BFS/MSI0_D5/SPI0_SEL3 and PC_12/SPT1_BD0/
MSI0_D6, respectively. The signals are used for debugging purposes.
Reset Push Button (SW3)
The reset push button (SW3) resets the following ICs: processor (U7)and
the USB to UART converter (U15).
WAKE IO Push Button (SW4)
The WAKE IO push button (SW4) wakes up the processor after it goes into
hibernate mode.
ADZS-BF707-BLIP2 Board Evaluation System Manual
2-5
LEDs
LEDs
This section describes the on-board LEDs. Figure 2-3 shows the LED
locations.
Figure 2-3. LED Locations
2-6
ADZS-BF707-BLIP2 Board Evaluation System Manual
ADZS-BF707-BLIP2 Board Hardware Reference
GPIO Status LED (LED1)
When GPIO Status LED (LED1) (yellow) is ON, it indicates the status of
the board.
SYS_FAULT LED (LED4)
When the SYS_FAULT LED (LED4) (red) is ON, it indicates a system fault.
For more information, refer to the ADSP-BF70x Blackfin+ Processor Hardware Reference.
ADZS-BF707-BLIP2 Board Evaluation System Manual
2-7
Connectors
Connectors
This section describes connector functionality and provides information
about mating connectors. The connector locations are shown in
Figure 2-4 and Figure 2-5.
Figure 2-4. Connector Locations, Top
2-8
ADZS-BF707-BLIP2 Board Evaluation System Manual
ADZS-BF707-BLIP2 Board Hardware Reference
Figure 2-5. Connector Locations, Bottom
ADZS-BF707-BLIP2 Board Evaluation System Manual
2-9
Connectors
JTAG/SWD/SWO Connector (P3)
The JTAG/SWD/SWO header (P3) provides debug connectivity for the
processor. This is a 0.05” shrouded through-hole connector from SAMTEC (SAMTEC_SHF-105-01-L-D-SM-K). This connector mates with
ICE-1000, ICE-2000, and any newer Analog Devices emulators. For more
information, see Debug Interface.
USB Connector (P4)
Part Description
Manufacturer
Part Number
USB Micro-AB
Hirose
ZX62D-AB-5P8
Mating Cable
Any USB Micro-B to Standard-A or Micro-A to Standard-A receptacle cable
USB to UART Connector (P8)
Part Description
Manufacturer
Part Number
USB Mini-B
Hirose
UX60SC-MB-5S8
Mating Cable
Any USB Mini-B to Standard-A cable
2-10
ADZS-BF707-BLIP2 Board Evaluation System Manual
ADZS-BF707-BLIP2 Board Hardware Reference
Power Connector (P5)
Part Description
Manufacturer
Part Number
0.65 mm power jack
CUI
045-0883R
Mating Cable
5.0VDC@3.6A power supply
GLOBETEK
GS-1750(R)
RF Wireless Connector (J2)
Part Description
Manufacturer
Part Number
4 x 2 0.05” pitch socket
SAMTEC
SFMC-104-T1-L-D
Mating Connector
4 x 2 0.05” pitch header
SAMTEC
FTSH-104-04-F-D
Part Description
Manufacturer
Part Number
SD 8-bit, 2 GB
SANDISK
MHC-W21-601
SD Connector (J3)
Mating Connector
2 GB
SANDISK
SDSDB-2048-A11
ADZS-BF707-BLIP2 Board Evaluation System Manual
2-11
Connectors
2-12
ADZS-BF707-BLIP2 Board Evaluation System Manual
A ADZS-BF707-BLIP2 BOARD
BILL OF MATERIALS
The bill of materials corresponds to ADZS-BF707-BLIP2 Board
Schematic.
Ref. Qty.
Description
1
1
2
Reference
Designator
Manufacturer
Part Number
SN74LVC1G08 SOT23-5 U11
TI
SN74LVC1G08DBVE
1
24MHZ OSC013
Y1
DIGI-KEY
535-9138-2-ND
3
1
24MHZ OSC013
Y2
DIGI-KEY
535-9138-2-ND
4
1
W25Q32 SO8W
U8
WINBOND
W25Q32FVSSIG
5
1
FT232RQ
QFN50P500X500-33NA
U15
DIGI-KEY
768-1008-1-ND
6
1
ADP2230
DFN50P300X300-11N
U13
ANALOG
DEVICES
ADP2230
7
1
ADP2370ACPZ-R7
DFN50P300X300-9N
U1
ANALOG
DEVICES
ADP2370ACPZ-R7
8
1
LTC6993CS6-3
SOT95P280-6N
U12
LINEAR TECH
LTC6993CS6-3#TRMPBF
9
1
OVM7692-RACA
U4
BGA25C50X54P5X5_282
X318
OMNIVISION
TECH
OVM7692-RACA
10
1
SN74LVC2G14DCKRQ1 U14
SOT65P210-6N
DIGI-KEY
296-13011-1-ND
11
1
U10
ASX340AT2C00XPED0
BGA63C65P8X8_7500X7
500_SCKT
APTINA
ASX340AT2C00XPED0
ADZS-BF707-BLIP2 Board Evaluation System Manual
A-1
Ref. Qty.
Description
Reference
Designator
Manufacturer
Part Number
12
1
ADP195
DFN65P200X200-7N
U5
ANALOG
DEVICES
ADP195ACPZ-R7
13
1
ADM6315 SOT143
U3
ANALOG
DEVICES
ADM6315-29D2ARTZR7
14
1
ADP220ACBZ-2828R7
VR1
BGA6C50P2X3_100X150
ANALOG
DEVICES
ADP220ACBZ-2828R7
15
1
ADSP-BF707
U7
BGA184C80P14X14_120
0X1200_SCKT
ANALOG
DEVICES
ADSP-BF707BBCZ-4
16
1
PWR .65MM CON045
P5
DIGI-KEY
CP1-023-ND
17
2
MOMENTARY SWT024
SW3,SW4
PANASONIC
EVQ-Q2K03W
18
2
MOMENTARY SWT024
SW1,SW2
PANASONIC
EVQ-Q2K03W
19
1
SD_CONN 8-BIT
CON067
J3
MORETHANALL
MHC-W21-601-LF
20
1
USB 5PIN CON069
P8
DIGI-KEY
H11589CT-ND
21
1
USB-MICRO 5PIN
P4
HIROSE_ZX62D-AB-5P8
DIGI-KEY
H11494CT-ND
22
1
0.05 10PIN SAMP3
TEC_SHF-105-01-L-D-S
M-K
SAMTEC
SHF-105-01-L-D-SM-K-TR
23
1
IDC 4x2 SAMTEC_SFMC-104-T1-L-D
J2
SAMTEC
SFMC-104-T1-L-D
24
1
2A FAST 0603
F1
BOURNS INC
SF-0603F200-2
25
1
0 1/4W 5% 1206
R151
KOA
0.0ECTRk7372BTTED
26
2
0 1/4W 5% 1206
R83,R98
KOA
0.0ECTRk7372BTTED
27
3
1UF 16V 10% 0805 X7R
C90,C109,C110
DIGI-KEY
399-1284-2-ND
28
1
0 1/8W 5% 0805
R22
VISHAY
CRCW08050000Z0EA
29
2
2.2UH 10% 0805
L2,L3
DIGI-KEY
490-1119-2-ND
A-2
ADZS-BF707-BLIP2 Board Evaluation System Manual
ADZS-BF707-BLIP2 Board Bill Of Materials
Ref. Qty.
Description
Reference
Designator
Manufacturer
Part Number
30
2
1000PF 50V 10% 0805
X7R
C1,C3
DIGI-KEY
311-1136-2-ND
31
3
0.1UF 10V 10% 0402
X5R
C68,C101,C114
AVX
0402ZD104KAT2A
32
41
0.1UF 10V 10% 0402
X5R
C4-C8,C20-C25, AVX
C27,C38-C44,C5
4,C84-C89,C91-C
100,C102,C104,C
116,C118,C119
0402ZD104KAT2A
33
34
0.01UF 16V 10% 0402
X7R
C9-C16,C19,C26, AVX
C28-C31,C33-C3
7,C45,C46,C48,C
49,C51,C52,C55C58,C60,C62,C6
7,C112,C115
0402YC103KAT2A
34
35
10K 1/16W 5% 0402
R5,R10,R11,R14, VISHAY
R19,R20,R29,R35
,R36,R38,R39,R4
2,R43,R46,R47,R
61,R71,R80,R81,
R90,R91,R96,R10
3-R105,R107,R11
0-R112,R117-R12
1,R143
CRCW040210K0FKED
35
5
10K 1/16W 5% 0402
R30,R57,R77,R78 VISHAY
,R84
CRCW040210K0FKED
36
3
0 1/10W 5% 0402
R37,R92,R147
PANASONIC
ERJ-2GE0R00X
37
35
0 1/10W 5% 0402
R1-R4,R6-R9,R23 PANASONIC
,R24,R26,R31,R4
4,R50,R60,R63-R
68,R70,R73,R74,
R79,R124,R127,R
129-R131,R136-R
138,R140,R148
ERJ-2GE0R00X
ADZS-BF707-BLIP2 Board Evaluation System Manual
A-3
Ref. Qty.
Description
Reference
Designator
38
6
0 1/10W 5% 0402
R32,R93,R126,R1 PANASONIC
28,R142,R150
ERJ-2GE0R00X
39
4
0 1/10W 5% 0402
R33,R34,R125,R1 PANASONIC
41
ERJ-2GE0R00X
40
15
33 1/16W 5% 0402
R15-R18,R40,R41 VISHAY
,R62,R85-R87,R1
06,R152-R155
CRCW040233R0JNED
41
2
1UF 16V 10% 0603 X5R
C103,C105
DIG01
399-5090-2-ND
42
2
4.7UF 25V 20% 0805
X5R
C61,C117
AVX
0805ZD475KAT2A
43
1
4.7UF 6.3V 20% 0603
X5R
C83
AVX
06036D475MAT2A
44
2
330 1/10W 5% 0603
R25,R72
DIG01
541-330GTR-ND
45
2
1M 1/10W 5% 0603
R21,R146
VISHAY
CRCW06031M00JNEA
46
1
0.0 1/10W 1% 0603
R149
PHYCOMP
232270296001L
47
2
1UF 6.3V 20% 0402 X5R C106,C107
MURATA
GRM155R60J105ME19D
48
3
100 1/16W 5% 0402
R13,R88,R89
DIGI-KEY
311-100JRTR-ND
49
1
VARISTOR V5.5MLA
30A 0603
R12
LITTLEFUSE
V5.5MLA0603
50
1
PTC 0.5A 1206
R55
LITTLEFUSE
1206L050-C
51
1
47.0K 1/16W 1% 0402
R108
ROHM
MCR01MZPF4702
52
1
10.0K 1/16W 1% 0402
R56
DIGI-KEY
541-10.0KLCT-ND
53
2
100K 1/16W 5% 0402
R101,R102
DIGI-KEY
541-100KJTR-ND
54
4
0 1/16W 5% RNS003
RN2-RN4,RN17
PANASONIC
EXB-2HVR000V
55
1
422K 1/10W 1% 0603
R48
PANASONIC
ERJ-3EKF4223V
56
3
1A MBR130LSFT1G
SOD-123FL
D2,D5,D9
ON SEMI
MBR130LSFT1G
57
2
18PF 50V 5% 0402 NP0
C63,C64
MURATA
GRM1555C1H180JA01D
A-4
Manufacturer
Part Number
ADZS-BF707-BLIP2 Board Evaluation System Manual
ADZS-BF707-BLIP2 Board Bill Of Materials
Ref. Qty.
Description
Reference
Designator
Manufacturer
Part Number
58
2
18PF 50V 5% 0402 NP0
C65,C66
MURATA
GRM1555C1H180JA01D
59
10
33 1/32W 5% RNS005
RN6-RN15
PANASONIC
EXB-28V330JX
60
1
30A GSOT05 SOT23-3
D1
VISHAY
GSOT05-E3-08
61
2
2.2K 1/10W 5% 0402
R27,R28
PANASONIC
ERJ-2GEJ222X
62
1
25.5K 1/16W 1% 0402
R54
PANASONIC
ERJ-2RKF2552X
63
2
15KV ESD7004
DFN50P250X100-10N
D4,D8
ON SEMI
ESD7004MUTAG
64
2
15KV ESDA6V1SC
SOT95P280-6N
D3,D7
DIGI-KEY
497-6637-1-ND
65
1
4.12K 1/10W 1% 0402
R49
PANASONIC
ERJ-2RKF4121X
66
4
10UF 6.3V 20% 0603
X5R
C69,C70,C76,C7 DIGI-KEY
9
490-3896-2-ND
67
1
10.2K 1/16W 1% 0402
R51
DIGI-KEY
541-10.2KLTR-ND
68
1
RED LED_0603
LED4
DIGI-KEY
475-2512-2-ND
69
1
YELLOW LED_0603
LED1
DIGI-KEY
475-2558-1-ND
70
9
10UF 6.3V 20% 0402
X5R
C17,C18,C32,C4 DIGI-KEY
7,C50,C53,C59,C
108,C111
445-8920-1-ND
71
1
10UF 6.3V 20% 0402
X5R
C113
DIGI-KEY
445-8920-1-ND
72
2
10UF 35V 20% 0805 X5R C2,C80
ZZZ
DIGI-KEY
445-14420-2-ND
73
1
250ohm NA% IND_DLW5BT
L4
MOUSER
81-DLW5BTN251SQ2L
74
1
0.8A BSR16
SOT95P240-3N
Q1
FAIRCHILD
SEMI
BSR16
75
4
470 1A 0603
FER1,FER2,FER4 DIGI-KEY
,FER5
490-5223-2-ND
76
1
470 1A 0603
FER6
490-5223-2-ND
DIGI-KEY
ADZS-BF707-BLIP2 Board Evaluation System Manual
A-5
Ref. Qty.
Description
Reference
Designator
Manufacturer
Part Number
77
1
187.0K 1/16W 1% 0402
R45
DIGI-KEY
311-187KLRTR-ND
78
2
560.0K 1/10W 1% 0402
R52,R58
PANASONIC
ERJ-2RKF5603X
79
1
453.0K 1/10W 1% 0402
R53
PANASONIC
ERJ-2RKF4533X
80
1
6.8uH 20% SMT
L1
COILCRAFT
XAL4030-682MEC
81
1
2GB LPDDR
U2
MICRON
MT46H128M16LFDD-48
WT
A-6
ADZS-BF707-BLIP2 Board Evaluation System Manual
A
B
C
D
1
1
2
2
BLIP2
SCHEMATIC
3
3
ANALOG
DEVICES
4
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0573-2013
C
Date
Nashua, NH 03063
BLIP2
Title
Size
20 Cotton Road
1.0
Sheet
02/05/15
D
1
of
10
A
B
C
D
3V3_HIB
"Label:STAT_LED1"
U7
LED1
YELLOW
LED_0603
R73
0402
SPI1_CLK
0
C4PA_01/SPI1_MISO/TRACE0_D06/SMC0_ABE1
SPI1_MISO
R74
0402
SPI1_MOSI
R81
10K
0402
R72
330
0603
0
R67
0402
SPI1_SEL_WSN
0
R86
0402
R62
0402
CLK2
CLK1
C6PA_02/SPI1_MOSI/TRACE0_D05/SMC0_AMS1
PC_00/UART1_TX/SPT0_AD1/EPPI0_D15 M1 R68
0402
PC_01/UART1_RX/SPT0_BD1/EPPI0_D14/SMC0_A09/TM0_ACI4 K2
A9PA_03/SPI1_SEL2/SPI1_RDY/SMC0_ARDY
PC_03/UART0_CTS/CAN0_TX/EPPI0_D12/SMC0_A11/TM0_ACI0 L1
C9PA_04/SPI1_SEL1/TM0_TMR7/SPI2_RDY/SMC0_A08/SPI1_SS
K1
PC_04/SPT0_BCLK/SPI0_CLK/MSI0_D1/SMC0_A12/TM0_ACLK0
33
C11PA_06/TM0_TMR1/SPI0_SEL2/SPI0_RDY/SMC0_A06
33
C12
PA_07/TM0_TMR2/SPT1_BTDV/SPT1_ATDV/SMC0_A05/CNT0_DG
MSI0_D3
MSI0_D2
G3
PC_08/SPT0_AD0/SPI0_D2/MSI0_D0
MSI0_D0
F3
PC_09/SPT0_ACLK/SPI0_D3/MSI0_CLK/TM0_ACLK2
H12
PA_10/EPPI0_D09/TM0_TMR5/SPT1_AD0/SMC0_A03
PC_10/SPT1_BCLK/MSI0_D4/SPI1_SEL3/TM0_ACLK1H2
H13
PA_11/EPPI0_D08/TM0_TMR6/SPT1_AD1/SMC0_A04
PC_11/SPT1_BFS/MSI0_D5/SPI0_SEL3N5
EPPI0_FS2
EPPI0_CLK
P13PA_14/EPPI0_CLK/SPI1_SEL4/SMC0_AWE/TM0_ACLK5
MSI0_D1
MSI0_CMD
H1
PC_07/SPT0_BFS/SPI0_MOSI/MSI0_D2/TM0_ACI2
G12
PA_09/EPPI0_D10/TM0_TMR4/SPT1_AFS/SMC0_A02
J12PA_13/EPPI0_FS2/CAN1_TX/SMC0_ARE/CNT0_ZM
UART1_RX
SYS_WAKE
J2
PC_06/SPT0_BD0/SPI0_MISO/MSI0_D3
K12PA_12/EPPI0_FS1/CAN1_RX/SMC0_AOE/TM0_ACI6/SYS_WAKE4
EPPI0_FS1
UART1_TX
J1
PC_05/SPT0_AFS/TM0_TMR3/MSI0_CMD
D12PA_08/EPPI0_D11/MSI0_CD/SPT1_ACLK/SMC0_A01
SD_CD
0
PC_02/UART0_RTS/CAN0_RX/EPPI0_D13/SMC0_A10/TM0_ACI5/SYS_WAKE3 K3
C10PA_05/TM0_TMR0/SPI0_SEL1/SMC0_A07/SPI0_SS
PWDN
1
G2PA_00/SPI1_CLK/TRACE0_D07/SMC0_ABE0
1
MSIO_CLK
PB1
M5
PC_12/SPT1_BD0/MSI0_D6
PB2
P4 R70
PC_13/SPT1_BD1/MSI0_D7
0402
PC_14/SPT1_BTDV/MSI0_INTN4
0
RESET_SENSOR
WSN_INT
N13PA_15/EPPI0_FS3/SPT0_ATDV/SPT0_BTDV/SMC0_AMS0/CNT0_UD
R71
10K
0402
EPPI0_D07
N10
PB_00/EPPI0_D07/SPT1_BCLK/SPI0_CLK/SMC0_D07/TM0_ACLK3
EPPI0_D06
M11
PB_01/EPPI0_D06/SPT1_BFS/SPI0_MISO/SMC0_D06/TM0_ACI1
EPPI0_D05
L12
PB_02/EPPI0_D05/SPT1_BD0/SPI0_MOSI/SMC0_D05
EPPI0_D04
M12
PB_03/EPPI0_D04/SPT1_BD1/SPI0_D2/SMC0_D04
EPPI0_D03
M10PB_04/EPPI0_D03/SPT0_BCLK/SPI0_SEL4/SMC0_D03/TM0_ACLK6
EPPI0_D02
M9PB_05/EPPI0_D02/SPT0_BD0/SPI0_SEL5/SMC0_D02
EPPI0_D01
N9PB_06/EPPI0_D01/SPT0_BFS/SPI0_SEL6/SMC0_D01/TM0_CLK
P8
EPPI0_D00
PB_07/EPPI0_D00/SPT0_BD1/SPI0_D3/SMC0_D00/SYS_WAKE0
N8PB_08/UART0_TX/EPPI0_D16/SPI2_SEL2/SMC0_D08/SYS_WAKE1
M8PB_09/UART0_RX/EPPI0_D17/SPI2_SEL3/SMC0_D09/TM0_ACI3
R23
0402
SPI2_CLK
2
R117
10K
0402
0
R63
0402
R66
0402
R65
0402
R64
0402
SPI2_D2
SPI2_D3
SPI2_SS
PB_10/SPI2_CLK/TRACE0_CLK/SMC0_D10/TM0_ACLK4
2
PB_11/SPI2_MISO/TRACE0_D04/SMC0_D11
SPI2_MISO
SPI2_MOSI
P3
N3
0
M4
PB_12/SPI2_MOSI/TRACE0_D03/SMC0_D12/SYS_WAKE2
0
P2PB_13/SPI2_D2/UART1_RTS/TRACE0_D02/SMC0_D13
0
N2PB_14/SPI2_D3/UART1_CTS/TRACE0_D01/SMC0_D14
0
M3PB_15/SPI2_SEL1/TRACE0_D00/SMC0_D15/SPI2_SS
ADSP-BF707
VDD_EXT
VDD_EXT
"Label:JTAG"
VDD_EXT
"Label:LED_FAULT"
R27
2.2K
0402
R28
2.2K
0402
R29
10K
0402
U7
LED4
RED
LED_0603
3
N14
SYS_XTAL
SYS_XTAL
M14
SYS_CLKIN
SYS_CLKIN
L3
R26
0402
TWI0_SCL
0
SCL
L2
TWI0_SDA
JTG_TRST
RTC0_XTAL
R25
330
0603
C5
SYS_EXTWAKE
SYS_HWRST
USB0_VBUS
USB0_ID
H3
SYS_CLKOUT
M7
USB0_VBC
SYS_NMI
C3
C2
JTG_TMS/SWDIO
E3
JTG_TDI
4
R24
0402
JTG_TDO/SWO
JTG_TRST
0
C1
D3
SYS_RESOUT
R124
0402
0
3
TARGET_RESET
SYS_CLKOUT
C7
TP7
J3
TP9
"Label:SYS_RESOUT"
JTG_TCK/SWCLK
JTG_TMS/SWDIO
ANALOG
DEVICES
JTG_TDI
JTG_TDO/SWO
SYS_BMODE0
JTG_TRST
SYS_BMODE1
E12
SYS_BMODE0
C14
SYS_BMODE1
Size
Board No.
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Rev
A0573-2013
C
Date
20 Cotton Road
BLIP2
DSP MEMORY,JTAG
Title
ADSP-BF707
A
JTG_TDI
USB0_DP
N6
JTG_TCK/SWCLK
10
R103
10K
0402
USB0_DM
N7
USB0_ID
9
JTG_TDO/SWO
JTAG/SWD/SWV
P11
HADC0_VIN3
P7
USB0_DP
8
VDD_EXT
N11
HADC0_VIN2
USB0_XTAL
M6
USB0_DM
7
JTG_TCK/SWCLK
N12
USB0_CLKIN
P5
USB0_VBUS
P12
HADC0_VIN0
HADC0_VIN1
P6
USB0_XTAL
6
SYS_FAULT
C13
USB0_CLKIN
5
JTG_TMS/SWDIO
SYS_EXTWAKE
F12
SYS_HWRST
4
R30
10K
0402
DNP
RTC0_CLKIN
R80
10K
0402
2
3
5X2
SAMTEC_SHF-105-01-L-D-SM-K
SDA
M2
N1
P3
1
1.0
Sheet
02/05/15
D
2
of
10
A
B
C
D
U7
E1
A06_Z
DMC0_A06
DMC0_DQ06
B1
A07_Z
DMC0_A07
DMC0_DQ07
B2
A08_Z
DMC0_A08
DMC0_DQ08
A2
A09_Z
DMC0_A09
DMC0_DQ09
B4
A10_Z
DMC0_A10
DMC0_DQ10
B3
A11_Z
DMC0_A11
DMC0_DQ11
B5
A12_Z
DMC0_A12
DMC0_DQ12
A8
A13_Z
DMC0_A13
DMC0_DQ13
DMC0_DQ14
DMC0_DQ15
B7
CS0_Z
DMC0_CS0
DMC0_LDQS
DMC0_LDQS
DMC0_UDQS
DMC0_UDQS
BA0_Z
A3
DMC0_LDM
A4
DMC0_UDM
DMC0_BA0
BA1_Z
DQ04_Z
D14
VDD_DMC0
DQ05_Z
D13
DQ06_Z
E14
1
DQ07_Z
E13
DQ08_Z
F14
U2
DQ09_Z
F13
DQ10_Z
G13
DQ11_Z
G14
J13
K14
K13
J8
A00
DQ12_Z
A01
DQ13_Z
A02
DQ14_Z
A03
DQ15_Z
A04
J9
A06
J14
A07
A08
M13
A09
DMC0_CK
DMC0_CK
A10
CK
A11
CK
A6
DQ6
A7
DQ7
DQ8
"Label:2GB LPDDR"
A13
NC
DMC0_CAS
DMC0_RAS
DMC0_WE
DMC0_ODT
DMC0_VREF
A7
RAS_Z
B6
WE_Z
A12_Z
A07_Z
A01_Z
2
G1
CKE
3
4
R2A
R2B
R3A
R3B
R4A
R4B
6
5
CKE
UDQS
LDQS
E8
LDQS
H7
CS
G7
G8
G9
R17
33
0402
DQ03_Z
1
R1A
DQ04_Z
2
R2A
A07
DQ05_Z
3
R3A
R3B
A01
DQ02_Z
4
R4A
R4B
A12
UDQS
E10
RN15
7
E2
LDM
CS0
A10
D9
TEST
UDM
F8
LDM
B8
RN14
8
2
F2
UDM
RAS
R1B
DQ15
BA1
CAS
R1A
DQ15
H9
BA1
WE
1
DQ14
A2
CAS_Z
ADSP-BF707
A10_Z
DQ13
B3
DQ14
BA0
CKE_Z
A6
DQ12
B2
33
RNS005
33
RNS005
RN11
RN6
R1B
R2B
8
DQ03
7
DQ02
CAS
CK
RAS
CK
R102
100K
0402
R101
100K
0402
G3
R13
100
0402
UDQS
R16
33
0402
DQ05
5
CK
CK
UDQS_Z
DQ04
6
G2
WE
A1
VSS1
K1
VSS3
F1
VSS2
E1
VSSQ4
C1
VSSQ3
B9
VSSQ2
A3
VSSQ1
DMC0_CKE
2
H8
BA0
B9
MT46H128M16LFDD-48WT
VFBGA
DQ11
C3
DQ12
DQ13
F3
DQ10
C2
DQ11
F7
DQ09
D3
DQ10
A11
A13
DQ08
D2
DQ9
A10/AP
A12
DQ07
E3
A8
H3
DQ06
E7
H2
A12
DQ05
D8
A9
A11
DMC0_BA2
DQ5
H1
A10
DQ04
D7
A5
J7
DQ03
C8
DQ4
K3
UDM_Z
DMC0_BA1
A5
DQ3
A4
J3
DQ02
C7
A3
J2
DQ01
B8
DQ2
K2
LDM_Z
L13
DQ1
K8
UDQS_Z
H14
A1
J1
DQ00
B7
A2
LDQS_Z
A13
A8
DQ0
K7
A05
A12
A0
A7
DMC0_DQ05
VDDQ1
DMC0_DQ04
DMC0_A05
B1
DMC0_A04
E2
A05_Z
VDDQ2
A04_Z
DQ03_Z
B13
C9
D2
DQ02_Z
B14
VDDQ3
DMC0_DQ03
D1
DMC0_A03
VDDQ4
A03_Z
B11
E9
DMC0_DQ02
VDDQ5
DMC0_A02
G1
2GB LPDDR
32 Meg x 16 x 4 Banks
DQ01_Z
F9
A02_Z
1
DMC0_DQ01
F2
DMC0_A01
DQ00_Z
B12
VDD2
A01_Z
B10
K9
F1
DMC0_DQ00
VDD3
DMC0_A00
A9
A00_Z
VDD1
D1
LDQS_Z
LDQS
VDD_DMC0
RN8
A05_Z
3
A11_Z
A13_Z
A08_Z
A06_Z
A02_Z
A00_Z
1
2
3
4
1
2
3
4
A03
A09
A04
1
2
3
4
R1A
R2A
R3A
R4A
R1B
R2B
R3B
R4B
8
7
6
5
A05
A11
A13
A08
DQ07_Z
1
R1A
DQ06_Z
2
R2A
3
R3A
R3B
DQ00_Z
4
R4A
R4B
33
RNS005
RN7
RN10
R2A
R1B
R2B
R3A
R3B
R4A
R4B
8
7
6
A06
A02
A00
5
1
R1A
R1B
DQ14_Z
2
R2A
R2B
DQ12_Z
3
R3A
R3B
DQ11_Z
4
R4A
R4B
33
RNS005
RN13
RN9
R2A
R3A
R4A
R1B
R2B
R3B
R4B
8
7
6
A03_Z
A09_Z
A04_Z
5
DQ10_Z
1
R1A
R1B
DQ13_Z
2
R2A
R2B
DQ15_Z
3
R3A
DQ08_Z
4
R4A
33
RNS005
BA1_Z
BA0_Z
CKE_Z
WE_Z
1
2
3
4
DQ07
7
RAS_Z
1
R1A
R1B
CS0_Z
2
R2A
R2B
CAS_Z
3
R3A
R3B
4
R4A
R4B
DQ06
6
DQ01
5
DQ00
8
7
6
C18
10UF
0402
RAS
C16
0.01UF
0402
C15
0.01UF
0402
R1B
R2A
R2B
R3A
R3B
R4A
R4B
8
7
6
5
BA1
R3B
R4B
8
WE
C13
0.01UF
0402
C14
0.01UF
0402
3
DQ14
6
DQ12
5
DQ11
8
DQ10
7
DQ13
6
DQ15
5
DQ08
ANALOG
DEVICES
LDM
Title
UDM_Z
UDM
Size
33
RNS005
B
C
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
BLIP2
DSP SIGNAL,LPDDR MEMORY
Board No.
Rev
A0573-2013
C
Date
A
C12
0.01UF
0402
CAS
R18
33
0402
CKE
C11
0.01UF
0402
DQ09
7
LDM_Z
BA0
C10
0.01UF
0402
5
R15
33
0402
R1A
C9
0.01UF
0402
CS0
33
RNS005
RN12
4
8
33
RNS005
DQ09_Z
33
RNS005
R1A
R2B
DQ01_Z
33
RNS005
R1A
R1B
1.0
Sheet
02/05/15
D
3
of
10
A
B
C
D
VDD_DMC0
U7
1
VDD_EXT
D6
D7VDD_DMC1
D8VDD_DMC2
D9VDD_DMC3
E6VDD_DMC4
E7VDD_DMC5
E8VDD_DMC6
E9VDD_DMC7
F10VDD_DMC8
F11VDD_DMC9
G11VDD_DMC10
H11VDD_DMC11
VDD_DMC12
A1
GND1A14
GND2F6
GND3F7
GND4F8
GND5F9
GND6G5
GND7G6
GND8G7
GND9G8
GND10G9
GND11G10
GND12H5
GND13H6
GND14H7
GND15H8
GND16H9
GND17H10
GND18J6
GND19J7
GND20J8
GND21J9
GND22L14
GND23P1
GND24P14
GND25C8
GND26
K5
K6VDD_EXT1
K7VDD_EXT2
K8VDD_EXT3
K9VDD_EXT4
L7VDD_EXT5
L8VDD_EXT6
L9VDD_EXT7
VDD_EXT8
VDD_INT
E5
F4VDD_INT1
F5VDD_INT2
G4VDD_INT3
H4VDD_INT4
J4VDD_INT5
VDD_INT6
GND_HADC
D3
1
IN0
3
J11
L6
J5
USB0_VBUS
5
IN2
GND1
C61
4.7UF
0805
6
IN3
R55
THERM
ESDA6V1SC
SOT95P280-6N
1206
J10
P4
HADC_VREFN
K10
GND0
4
VDD_EXT
P10
2
IN1
1
R22
0
0805
1
VBUS
P9
D4
USB0_DM
3
USB0_DP
4
USB0_ID
D-
2
HADC_VREFP
D+
VDD_HADC
1
IN0
2
3
IN1
ID
VDD_OTP
GND
VDD_USB
SHELL
VDD_RTC
5
GND0
4
8
IN2
GND1
6
5
HIROSE_ZX62D-AB-5P8
IN3
R12
VARISTOR
ADSP-BF707
"Label:USB0"
6
9
NC2
7
10
NC3
NC0
0603
NC1
R21
1M
0603
2
C62
0.01UF
0402
FER4
470
0603
ESD7004
DFN50P250X100-10N
2
VDD_DMC0
USB0
C17
10UF
0402
C26
0.01UF
0402
C37
0.01UF
0402
C36
0.01UF
0402
C35
0.01UF
0402
C34
0.01UF
0402
C33
0.01UF
0402
C20
0.1UF
0402
C21
0.1UF
0402
VDD_EXT
C32
10UF
0402
C22
0.1UF
0402
C23
0.1UF
0402
C24
0.1UF
0402
C25
0.1UF
0402
VDD_EXT
C31
0.01UF
0402
C28
0.01UF
0402
C29
0.01UF
0402
C30
0.01UF
0402
C27
0.1UF
0402
C38
0.1UF
0402
C39
0.1UF
0402
C40
0.1UF
0402
C59
10UF
0402
C58
0.01UF
0402
C55
0.01UF
0402
C56
0.01UF
0402
C57
0.01UF
0402
C60
0.01UF
0402
C54
0.1UF
0402
3
3
"Label:32MB SPI FLASH"
3V3_HIB
VDD_INT
C53
10UF
0402
C52
0.01UF
0402
C45
0.01UF
0402
C46
0.01UF
0402
C51
0.01UF
0402
C44
0.1UF
0402
C43
0.1UF
0402
C42
0.1UF
0402
R20
10K
0402
C41
0.1UF
0402
R104
10K
0402
R105
10K
0402
R107
10K
0402
U8
8
VCC
5
SI
SPI2_MOSI
2
SO
R106
0402
33
SPI2_MISO
6
SCK
SPI2_CLK
SPI2_SS
1
CS
SPI2_D2
3
WP
SPI2_D3
7
HOLD
W25Q32
SO8W
R61
10K
0402
3V3_HIB
GND
4
R19
10K
0402
ANALOG
DEVICES
C19
0.01UF
0402
4
Title
32MB SPI FLASH
Size
A
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
BLIP2
DSP-POWER, USB,SPI FLASH
Board No.
Rev
A0573-2013
C
Date
20 Cotton Road
1.0
Sheet
02/05/15
D
4
of
10
A
B
C
DSP_XTAL
USB_XTAL
"Label:DSP_XTAL"
R31
0
0402
VDD_EXT
BOOT MODE,01 - SPI MASTER
"Label:USB_XTAL"
R33
0
0402
DNP
Y1
24MHZ
OSC013
SYS_XTAL
SYS_CLKIN
C64
18PF
0402
1
D
Y2
24MHZ
DNP
OSC013
R34
0
0402
DNP
USB0_XTAL
USB0_CLKIN
C66
18PF
0402
DNP
C63
18PF
0402
C65
18PF
DNP
0402
R32
0
0402
R37
0
0402
DNP
1
R128
0
0402
SYS_BMODE0
SYS_CLKOUT
SYS_BMODE1
R92
0
0402
DNP
R93
0
0402
3V3_HIB
"Label: PB1"
3V3_HIB
R91
10K
0402
U14
R88
100
0402
5
VCC
1
1A
SW1
MOMENTARY
SWT024
2
3
C106
1UF
0402
2A
1Y
6
R85
0402
33
R87
2Y 4
0402
GND
2
SN74LVC2G14DCKRQ1
33
PB1
PB2
2
VDD_EXT
"Label:PB2"
R90
10K
0402
R140
0402
R89
100
0402
PUSH BUTTONS
"Label:WAKE_IO"
R96
10K
0402
R51
10.2K
0402
DNP
0
R50
0
0402
U12
5
V+
SW2
MOMENTARY
SWT024
1
TRIG
SW4
MOMENTARY
SWT024
C107
1UF
0402
OUT
6
SYS_WAKE
4
DIV
2
GND
3
SET
VDD_EXT
LTC6993CS6-3
DNP
R49
4.12K
0402
DNP
R48
422K
0603
DNP
R108
47.0K
0402
DNP
C68
0.1UF
0402
DNP
3
3
WAKE_IO
VDD_EXT
VDD_EXT
C67
0.01UF
0402
"Label:RESET "
R35
10K
0402
R36
10K
0402
R47
10K
0402
R46
10K
0402
RESET
1
U11
4
SW3
MOMENTARY
SWT024
4
2
SN74LVC1G08
SOT23-5
U3
4
VCC
2
RESET
3
MR
GND
SYS_HWRST
1
ANALOG
DEVICES
ADM6315
SOT143
TARGET_RESET
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
BLIP2
RESET,BOOT CNFG,XTAL,PUSH BOTTON AND WAKE IO
Title
RESET
Size
Board No.
C
Date
A
B
C
Rev
A0573-2013
1.0
Sheet
02/05/15
D
5
of
10
A
B
C
D
3V3_HIB
3V3_HIB
3V3_HIB
R111
10K
0402
R112
10K
0402
J3
MSI0_D1
MSI0_D2
MSI0_D3
R155
0402
R153
0402
R154
0402
R152
0402
33
7
33
8
33
9
33
1
10
C48
0.01UF
0402
3V3_HIB
C47
10UF
0402
11
12
13
MSIO_CLK
"Label:WSN"
MSI0_CMD
J2
2
1
4
3
R40
0402
R41
0402
33
5
33
2
22
SPI1_CLK
SPI1_MISO
R9
0402
0
6
8
5
SPI1_SEL_WSN
23
SPI1_MOSI
7
R8
0402
SAMTEC_SFMC-104-T1-L-D
24
0
WSN_INT
16
20
17
15
SD_CD
2
14
TP10
RF Wireless
C49
0.01UF
0402
DAT0
C50
10UF
0402
DAT1
DAT2
DAT3
DAT4
DAT5
DAT6
DAT7
CLK
CMD
MINI_SD_DAT0
MINI_SD_DAT1
MINI_SD_DAT2
MINI_SD_DAT3
MINI_SD_CLK
MINI_SD_CMD
CD
WP
CON067
SD_CONN
GND1
GND2
GND3
GND4
MSI0_D0
3
6
18
21
3V3_HIB
1
"Label:SD CARD"
GND5
GND6
R38
10K
0402
2
27
28
R110
10K
0402
4
19
1
R11
10K
0402
VDD1
VDD2
R39
10K
0402
SD CARD
D8
D7
1
1
IN0
IN0
2
3
3
2
IN1
IN1
GND0
GND0
4
4
8
5
IN2
IN2
GND1
GND1
5
3
6
3
IN3
IN3
6
"USB to UART"
NC0
ESDA6V1SC
7
NC1
9
NC2
10
NC3
ESD7004
R148
0
0402
FER6
470
P8
U15
1
VCCIO
19
VCC
30
TXD
RXD
2
1
UART1_RX
UART1_TX
32
USB_UART_5V
8
CTS
2
USB_UART_DM
15
USBM
DTR
3
USB_UART_DP
14
USBP
DSR
D+
0.0
RTS
VCC
D-
R149
0603
5
GND
31
6
7
DCD
6
SHGND1
SYS_HWRST
7
SHGND2
R147
0402
DNP
0
18
RESET
3
RI
27
28OSCI
OSCO
USB
C119
0.1UF
0402
R146
1M
0603
C115
0.01UF
0402
FER5
470
0603
C117
4.7UF
0805
C116
0.1UF
0402
16
3V3OUT
FT232_3P3V
24
AGND
C118
0.1UF
0402
C112
0.01UF
0402
4
17DGND1
20DGND2
26DGND3
33TEST
EPAD
22
CBUS021
CBUS110
CBUS211
CBUS39
CBUS4
ANALOG
DEVICES
FT232RQ
PKG
4
Title
Size
A
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
BLIP2
USB TO UART,WSN,SD CARD INTERFACE
Board No.
Rev
A0573-2013
C
Date
20 Cotton Road
1.0
Sheet
02/05/15
D
6
of
10
A
B
C
D
1
1
RN17
EPPI0_D00
1
R1A
16
EPPI0_D01
2
R2A
EPPI0_D02
3
R3A
R3B
EPPI0_D03
4
R4A
R4B
EPPI0_D04
5
R5A
R5B
EPPI0_D05
6
R6A
R6B
EPPI0_D06
7
R7A
EPPI0_D07
8
R8A
R1B
15
R2B
14
13
12
11
10
R7B
9
R8B
EPPI0_D00_AP
EPPI0_CLK
R129
0402
0
EPPI0_FS1
R130
0402
0
EPPI0_FS2
R131
0402
0
R136
0402
0
R137
0402
0
R138
0402
0
EPPI0_D01_AP
EPPI0_D02_AP
EPPI0_D03_AP
EPPI0_CLK_AP
EPPI0_FS1_AP
EPPI0_FS2_AP
EPPI0_D04_AP
EPPI0_D05_AP
EPPI0_D06_AP
EPPI0_D07_AP
0
RNS003
EPPI0_CLK_OVM
EPPI0_FS1_OVM
EPPI0_FS2_OVM
RN2
1
R1A
2
16
R1B
2
R2A
R2B
3
R3A
R3B
4
R4A
R4B
5
R5A
R5B
6
R6A
15
14
13
12
11
R6B
7
R7A
10
R7B
8
R8A
R8B
9
EPPI0_D00_OVM
EPPI0_D01_OVM
2
EPPI0_D02_OVM
EPPI0_D03_OVM
EPPI0_D04_OVM
EPPI0_D05_OVM
EPPI0_D06_OVM
EPPI0_D07_OVM
0
RNS003
3
3
ANALOG
DEVICES
4
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0573-2013
C
Date
Nashua, NH 03063
BLIP2
RESISTOR PACKS
Title
Size
20 Cotton Road
1.0
Sheet
02/05/15
D
7
of
10
A
B
C
D
VDD_IO_2.8V
VDD_IO
Q1
VDD
SOT95P240-3N
BSR16
1
3
1
2
1
C102
0.1UF
0402
C92
0.1UF
0402
C93
0.1UF
0402
C94
0.1UF
0402
C95
0.1UF
0402
C96
0.1UF
0402
C91
0.1UF
0402
C104
0.1UF
0402
C97
0.1UF
0402
C103
1UF
0603
VDD_IO
VDD_CAM_2.8V
R119
10K
0402
R120
10K
0402
R118
10K
0402
R121
10K
0402
VDD_CAM
R60
0
0402
C83
4.7UF
0603
C87
0.1UF
0402
C84
0.1UF
0402
C85
0.1UF
0402
C86
0.1UF
0402
C89
0.1UF
0402
C98
0.1UF
0402
C99
0.1UF
0402
C100
0.1UF
0402
C105
1UF
0603
C88
0.1UF
0402
B4
H6
2
VAA1
VAA2
A8
VDD_PLL
H5
VDD_DAC
H7
VAA_PIX
H8
VDD_IO6
G8
VDD_IO5
E8
VDD_IO4
E3
VDD_IO3
C8
VDD_IO2
B8
VDD_IO1
B2
VDD_IO0
G4
VREG_BASE
A5
VDD0
A7
VDD1
D8
VDD2
E7
F5
DAC_POS
VDD3
VDD5
G5
DAC_NEG
VDD4
G3
VDD_IO
2
G1
AGND
C1
GPIO12
A3
GPIO13
A4
DAC_REF
SCL
R14
10K
0402
R57
10K
0402
DNP
SDA
R79
0402
0
C2
F1
SCLK
DOUT_LSB0
F2
SDATA
DOUT_LSB1
B3
1
16
R1B
EPPI0_D00_AP
B7
2
15
R2B
EPPI0_D01_AP
B6
3
14
R3B
EPPI0_D02_AP
C7
4
13
R4B
EPPI0_D03_AP
C6
5
12
R5B
EPPI0_D04_AP
D7
6
11
R6B
EPPI0_D05_AP
D6
7
10
R7B
EPPI0_D06_AP
F8
8
9
R8B
EPPI0_D07_AP
DOUT0
H2
SPI_CS_N
D4
DOUT1
E4
DOUT2
SPI_SCLK
SPI_SDI
DOUT3
H3
SPI_SDO
CLK1
RESET_SENSOR
ics_ASX340AT_DS
A2
DOUT4
D2
DOUT5
EXTCLK
RESET_BAR
"Label:ASX340AT_DS"
D3
DOUT6
G2
TDO
DOUT7
TDI
C101
0.1UF
0402
DNP
R143
10K
0402
F3
TMS
F7
FRAME_VALID
C3
G7
TCK
LINE_VALID
PIXCLK
B1
FRAME_SYNC
C4
E2
SADDR
3
F4
AGND1
E5
AGND0
H1
DGND4
D5
DGND3
D1
DGND2
C5
DGND1
B5
DGND0
TRST_N
H4
RESERVED
XTAL
ATEST1
ATEST2
RN3
A6
E6
R1A
R2A
R3A
R4A
R5A
R6A
R7A
R8A
R3
0402
R4
0402
R44
0402
0
0
RNS003
EPPI0_FS2_AP
0
EPPI0_FS1_AP
0
EPPI0_CLK_AP
E1
G6
F6
3
R10
10K
0402
ASX340AT2C00XPED0
AGND
ASX340AT_DS-CMOS SENSOR
ANALOG
DEVICES
4
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0573-2013
C
Date
Nashua, NH 03063
BLIP2
IMAGE SENSOR
Title
Size
20 Cotton Road
1.0
Sheet
02/05/15
D
8
of
10
A
B
C
D
1
1
VDD_IO_2.8V
VDD_CAM_2.8V
VDD_IO
C7
0.1UF
0402
DVDD
C108
10UF
0402
VDD_CAM
DVDD
C4
0.1UF
0402
VDD_IO
VDD_CAM
C8
0.1UF
0402
C111
10UF
0402
RN4
B2
SIOD
A2
AVDD
0
DOVDD
R1
0402
SDA
DVDD
E4
D4
AGND
C1
SIOC
SCL
E3
D0
C3
D1
E2
D2
2
D2
D3
A4
VH
D5
D4
B3
VN
EPPI0_D00_OVM
2
R2A
15
R2B
EPPI0_D01_OVM
3
R3A
14
R3B
EPPI0_D02_OVM
4
R4A
13
R4B
EPPI0_D03_OVM
5
R5A
12
R5B
EPPI0_D04_OVM
6
R6A
11
R6B
EPPI0_D05_OVM
7
R7A
10
R7B
EPPI0_D06_OVM
8
R8A
9
R8B
EPPI0_D07_OVM
2
0
RNS003
A5
D6
B1
PWDN
PWDN
C5
0.1UF
0402
16
R1B
C5
D5
ics_OVM7692_RACA
B5
D7
"Label:OVM7692"
E1
AGND
D1
VSYNC
PCLK
D3
R6
0402
R2
0402
R7
0402
0
0
0
EPPI0_FS1_OVM
EPPI0_FS2_OVM
EPPI0_CLK_OVM
A3
DOGND
C2
NC1
A1
E5
XVCLK
B4
CLK2
C4
R5
10K
0402
NC2
HREF
EGND
C6
0.1UF
0402
1
R1A
OVM7692-RACA
AGND
AGND
OVM7692-CMOS SENSOR
3
3
ANALOG
DEVICES
4
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0573-2013
C
Date
Nashua, NH 03063
BLIP2
IMAGE SENSOR
Title
Size
20 Cotton Road
1.0
Sheet
02/05/15
D
9
of
10
A
B
C
D
5V
R43
10K
0402
VDD_EXT
"Label:VDD_EXT"
VDD_EXT
VDD_IO
VDD_EXT_3.2V
TP3
U1
1
C80
10UF
0805
1
2
3
4
ADP2370
DFN50P300X300-9N
VIN
PG
FSEL
SW
EN
FB
L1
6.8uH
SMT
6
R98
0
1206
7
5
C79
10UF
0603
R58
560.0K
0402
EP PGND
8
C109
1UF
0805
VR1
1
R150
0
0402
SYNC
9
R84
10K
0402
DNP
B2
VIN
A1
SYS_EXTWAKE
VOUT1
A2
EN1
PGND
C90
1UF
0805
VDD_CAM
VOUT2
C1
C2
EN2
PGND
PGND
PGND
GND
ADP220ACBZ-2828R7 B1
PGND
C110
1UF
0805
"Label:VDD_INT"
R45
187.0K
0402
TP4
PGND
PGND
AGND
VDD_INT
PGND
1.11V
L2
2.2UH
0805
2
R83
0
1206
2
VDD_EXT
VDD_EXT
R125
0
0402
DNP
U13
2
9
C69
10UF
0603
R126
0402
R141
0402
SYS_EXTWAKE
0
4
0
DNP
7
R142
0402
0
VIN2
FB1
TP5
U5
2.2UH
0805
L3
R54
25.5K
0402
10
SW2
EN2
FB2
PGND
8
6
VIN1
1
VOUT1
5
VIN2
2
VOUT2
4
SYS_EXTWAKE
EPAD AGND
11
5
EN
GND1
R52
560.0K
0402
PGND
PGND
GND2
7
ADP195
C76
10UF
0603
C113
10UF
0402
DNP
3
R42
10K
0402
PGND
C114
0.1UF
0402
DNP
R53
453.0K
0402
R77
10K
0402
DNP
PGND
3V3_HIB
VDD_EXT
VDD_DMC0
1.8V
3
EN1
R127
0
0402
R78
10K
0402
DNP
"Label:3V3_HIB"
1
SW1
VIN1
6
SYNC
VDD_EXT
C70
10UF
0603
R56
10.0K
0402
ADP2230ACPZ-R7
DNP
R151
0
1206
PGND
PGND
3
USB_UART_5V
PGND
3
D9
MBR130LSFT1G
1A
SOD-123FL
PGND
5V_STD
5V_STD
F1
2A
0603
TP6
5V
TP1
3
D2
MBR130LSFT1G
1A
SOD-123FL
2
1
P5
1
C1
1000PF
0805
3
"Label:5V"
L4
250ohm
4
"5V"
D5
MBR130LSFT1G
1A
SOD-123FL
USB0_VBUS
C2
10UF
0805
D1
GSOT05
PGND
SOT23-3
2
POWER
CON045
" Remove when in USB_OTG mode"
"5V"
PWR
FER1
470
0603
C3
1000PF
0805
ANALOG
DEVICES
PGND
4
W2
COPPER
FER2
470
0603
W1
COPPER
4A
SHGND_PWR
Size
PGND
PGND
Date
A
B
Board No.
C
4
PH: 1-800-ANALOGD
Rev
A0573-2013
C
AGND
SHGND_PWR
Nashua, NH 03063
BLIP2
POWER
Title
4A
20 Cotton Road
1.0
Sheet
02/05/15
D
10
of
10
I
INDEX
A
E
ADSP-BF707 processor, x
architecture, of this BLIP2 board, 2-2
audio interface, 1-9
EngineerZone, xvi
evaluation license, 1-6
example programs, 1-10
B
G
bill of materials, A-1
BLIP2 board installation, 1-3
BLIP2 board session startup, 1-4
board schematic (ADZS-BF707-BLIP2), B-1
GPIO push buttons (SW1 and SW2), 2-5
GPIO Status LED (LED1), 2-7
C
configuration, of this BLIP2 board, 1-2
connectors, 2-8
diagram of locations, 2-8, 2-9
J2 (RF wireless), 2-11
J3 (SD), 2-11
P3 (JTAG/SWD/SWO), 2-10
P4 (USB)), 2-10
P5 (power), 2-11
P8 (USB to UART)), 2-10
contents, of this BLIP2 board package, 1-2
D
DDR3 memory, 1-7
debug interface, 1-9
default configuration, of this BLIP2 board, 1-2
I
installation, of this BLIP2 board, 1-3
interface
debug, 1-9
SD, 1-9
UART, 1-8
J
JTAG/SWD/SWO connector (P3), 2-10
L
LEDs, 2-6
diagram of locations, 2-6
LED1 (GPIO status), 2-7
LED4 (SYS_FAULT), 2-7
license restrictions, 1-6
N
notation conventions, xvi
ADZS-ADSP-BF707-BLIP2 Board Evaluation System Manual
I-1
Index
P
T
package contents, 1-2
POST (power-on-self-test), 1-9
power
architecture, 1-10
power architecture, 1-10
power connector (P5), 2-11
power-on-self test (POST), 1-9
product overview, x
push buttons, 2-4
GPIO (SW1 and SW2), 2-5
reset (SW3), 2-5
WAKE IO (SW4), 2-5
push buttons, diagram of locations, 2-4
technical support, xiv
U
UART interface, 1-8
USB connector (P4), 2-10
USB interface, 1-8
USB to UART connector (P8), 2-10
W
WAKE IO push button (SW4), 2-5
R
reference design information, 1-11
reset push button (SW3), 2-5
RF wireless connector (J2), 2-11
S
schematic, of ADZS-BF707-BLIP2 board, B-1
SD connector (J3), 2-11
SD interface, 1-9
SPI flash, 1-8
supported tools, xv
SW1 and SW2 GPIO push buttons, 2-5
SW3 reset push button, 2-5
SW4 WAKE IO push button, 2-5
SYS_FAULT LED (LED4), 2-7
system architecture, of this BLIP2 board, 2-2
I-2
ADZS-ADSP-BF707-BLIP2 Board Evaluation System Manual
