a ADSP-BF535 EZ-KIT Lite Evaluation System Manual Revision 2.2, October 2003

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ADSP-BF535 EZ-KIT Lite®
Evaluation System Manual
Revision 2.2, October 2003
Part Number
85-000603-01
Analog Devices, Inc.
One Technology Way
Norwood, Mass. 02062-9106
a
Copyright Information
© 2003 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.
Limited Warranty
The EZ-KIT Lite evaluation system is warranted against defects in materials and workmanship for a period of one year from the date of purchase
from Analog Devices or from an authorized dealer.
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, and EZ-KIT Lite are registered trademarks of Analog Devices, Inc.
VisualDSP++ 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 ADSP-BF535 EZ-KIT Lite evaluation system has been certified to
comply with the essential requirements of the European EMC directive
89/336/EEC (inclusive 93/68/EEC) and, therefore, carries the “CE”
mark.
The ADSP-BF535 EZ-KIT Lite evaluation system had been appended to
the Technical Construction File referenced “DSPTOOLS1” dated
December 21, 1997 and was awarded CE Certification by an appointed
European Competent Body as listed below.
Technical Certificate No: Z600ANA1.007
Issued by:
Technology International (Europe) Limited
41 Shrivenham Hundred Business Park
Shrivenham, Swindon, SN6 8TZ, UK
The EZ-KIT Lite 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
EZ-KIT Lite boards in the protective shipping
package.
CONTENTS
PREFACE
Purpose of This Manual ................................................................. xiv
Intended Audience ......................................................................... xiv
Manual Contents ........................................................................... xiv
What’s New in This Manual ............................................................ xv
Technical or Customer Support ...................................................... xvi
Supported Processors ...................................................................... xvi
Product Information ...................................................................... xvi
MyAnalog.com ........................................................................ xvii
DSP Product Information ........................................................ xvii
Related Documents ................................................................ xviii
Online Documentation ............................................................ xix
Printed Manuals ....................................................................... xix
VisualDSP++ Documentation Set ......................................... xix
Hardware Manuals ................................................................ xx
Data Sheets ........................................................................... xx
Contacting DSP Publications ..................................................... xx
Notation Conventions .................................................................... xxi
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
v
CONTENTS
GETTING STARTED
Contents of EZ-KIT Lite Package ................................................. 1-1
PC Configuration ......................................................................... 1-3
Installation Tasks .......................................................................... 1-3
Installing VisualDSP++ and EZ-KIT Lite Software .................. 1-4
Installing VisualDSP++ License ............................................... 1-5
Setting Up EZ-KIT Lite Hardware .......................................... 1-5
Installing EZ-KIT Lite USB Driver ......................................... 1-7
Windows 98 USB Driver .................................................... 1-8
Windows 2000 USB Driver .............................................. 1-12
Windows XP USB Driver ................................................. 1-13
Verifying Driver Installation .................................................. 1-15
Starting VisualDSP++ ........................................................... 1-16
USING EZ-KIT LITE
EZ-KIT Lite License Restrictions .................................................. 2-2
Memory Map ............................................................................... 2-3
Using SDRAM Interface ............................................................... 2-4
Using Flash Memory ..................................................................... 2-5
Using Programmable Flag Pins ...................................................... 2-6
Power Management ................................................................. 2-7
Example Programs ........................................................................ 2-8
Using Flash Programmer Utility .................................................... 2-9
Using Background Telemetry Channel .......................................... 2-9
vi
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
CONTENTS
Using EZ-KIT Lite VisualDSP++ Interface .................................. 2-10
Trace Window ....................................................................... 2-10
Enabling Trace Buffer ........................................................ 2-11
Reading Trace Buffer Data ................................................ 2-11
Performance Monitor ............................................................ 2-11
Boot Load ............................................................................. 2-13
Context Switching ................................................................. 2-13
Using M3 Register ............................................................ 2-13
Using Stack Pointer ........................................................... 2-14
Hardware Breakpoints ........................................................... 2-14
Global Breakpoint Options ............................................... 2-15
Common Breakpoint Attributes ........................................ 2-15
Data Breakpoints .............................................................. 2-15
Data Breakpoint Specific Attributes ............................... 2-15
Instruction Breakpoints ..................................................... 2-16
Instruction Breakpoint Specific Attributes ...................... 2-16
Hardware Breakpoints Tips and Tricks ............................... 2-18
Latency ......................................................................... 2-18
Restrictions ................................................................... 2-18
Target Options ...................................................................... 2-19
Reset Options ................................................................... 2-19
On Emulator Exit ............................................................. 2-20
Other Options .................................................................. 2-20
Restricted Software Breakpoints ............................................. 2-21
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
vii
CONTENTS
EZ-KIT LITE HARDWARE REFERENCE
System Architecture ...................................................................... 3-2
External Bus Interface ............................................................. 3-3
SPORT0 Audio Interface ........................................................ 3-3
Expansion Interface ................................................................. 3-4
JTAG Emulation Port ............................................................. 3-5
Jumper and DIP Switch Settings ................................................... 3-5
Audio Input Select Jumper (JP1) ............................................. 3-5
Audio Codec Disable Jumper (JP2) ......................................... 3-6
Boot Mode Select Switch (SW1) .............................................. 3-7
DSP PLL Setup Switch (SW2) ................................................. 3-7
LEDs and Push Buttons ................................................................ 3-9
Programmable Flag LEDs (LED1, LED2, LED3, LED4) ......... 3-9
USB Monitor LED (LED5) ................................................... 3-10
Power LED (LED6) .............................................................. 3-10
Reset LEDs (LED7, LED8) ................................................... 3-10
Non-Maskable Interrupt Push Button (SW3) ......................... 3-11
Programmable Flag Push Buttons (SW4, SW5, SW6, SW7) ... 3-11
Reset Push Button (SW8) ...................................................... 3-11
Connectors ................................................................................. 3-12
Expansion Interface (P1, P2, P3) ........................................... 3-12
FlashLINK (P4) .................................................................... 3-13
Audio (P5, P6) ...................................................................... 3-13
USB (P7) .............................................................................. 3-14
viii
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
CONTENTS
JTAG (P8) ............................................................................ 3-14
SPORT0 (P9) ........................................................................ 3-15
Power Connector (P10) ......................................................... 3-15
Specifications .............................................................................. 3-15
Power Supply ........................................................................ 3-16
Board Current Measurements ................................................ 3-16
Mechanical Dimensions ......................................................... 3-17
BILL OF MATERIALS
INDEX
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
ix
CONTENTS
x
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
PREFACE
Thank you for purchasing the ADSP-BF535 EZ-KIT Lite®, Analog
Devices (ADI) evaluation system for Blackfin® embedded media
processors.
The Blackfin processors are embedded processors that support a Media
Instruction Set Computing (MISC) architecture. This architecture is the
natural merging of RISC, media functions, and digital signal processing
(DSP) characteristics towards delivering signal processing performance in
a microprocessor-like environment.
The evaluation board is designed to be used in conjunction with the VisualDSP++™ development environment to test the capabilities of the
ADSP-BF535 (formerly ADSP-21535) Blackfin processors. The VisualDSP++ development environment gives you the ability to perform
advanced application code development and debug, such as:
• Create, compile, assemble, and link application programs written
in C++, C and ADSP-BF535 assembly
• Load, run, step, halt, and set breakpoints in application program
• Read and write data and program memory
• Read and write core and peripheral registers
• Plot memory
Access to the ADSP-BF535 processor from a personal computer (PC) is
achieved through a USB port or an optional JTAG emulator. The USB
interface gives unrestricted access to the ADSP-BF535 processor and the
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
xi
evaluation board peripherals. Analog Devices JTAG emulators offer faster
communication between the host PC and target hardware. Analog Devices
carries a wide range of in-circuit emulation products. To learn more about
Analog Devices emulators and DSP development tools, go to
http://www.analog.com/dsp/tools/.
ADSP-BF535 EZ-KIT Lite provides example programs to demonstrate
the capabilities of the evaluation board.
VisualDSP++ license provided with this EZ-KIT Lite evalua! The
tion system limits the size of a user program to 176 KB of internal
memory.
The board’s features include:
• Analog Devices ADSP-BF535 processor
"
"
"
300 MHz Core Clock Speed (default)
Switch-Configurable Core Clock Speed
Switch-Configurable Boot Mode
• USB Debugging Interface
is not the DSP’s USB interface.
!• This
Analog Devices AD1885 48 kHz AC’97 SoundMAX
"
"
®
Codec
Jumper-Selectable Line-In or Mic-In 3.5 mm Stereo Jack
Line-Out 3.5 mm Stereo Jack
• SDRAM
"
4 M x 32-bit
• Flash Memory
"
xii
272 K x 16
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Preface
• Interface Connectors
"
"
"
"
14-Pin Emulator Connector for JTAG Interface
SPORT0 Connector
FlashLINK™ Connector (for Flash memory programming)
Expansion Interface Connectors (not populated)
• General-Purpose IO
"
"
"
4 Push Buttons connected to DSP Programmable Flags
1 Push Button connected to DSP Non-maskable Interrupt
4 LEDs connected to DSP Programmable Flags
• Real Time Clock
• Analog Devices ADP3331, ADP3338, ADP3339, and ADP3088
Voltage Regulators
The EZ-KIT Lite board has a Flash memory device that can be used to
store user specific boot code. By configuring the boot mode switch (SW1)
and by programming the Flash memory, the board can run as a
stand-alone unit. For information about using the Flash memory, see
“Using Flash Memory” on page 2-5.
is interfaced with an audio codec, allowing you to create audio signal processing applications. SPORT0 is also attached to an off-board
connector to allow communication with other serial devices. For information about SPORT0, see “SPORT0 Audio Interface” on page 3-3.
SPORT0
Additionally, the EZ-KIT Lite board provides access to most of the processor’s peripheral ports. Access is provided in the form of uninstalled
expansion interface connectors. The processor’s USB pins are brought to
the P3 connector but require additional circuitry to function as a USB
port. The PCI bus of the DSP is not available at any connector of the
EZ-Kit Lite. For information about the expansion interface, see “Expansion Interface” on page 3-4.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
xiii
Purpose of This Manual
Purpose of This Manual
The ADSP-BF535 EZ-KIT Lite Evaluation System Manual provides
instructions for using the hardware and installing the software on your
PC. This manual provides guidelines for running your own code on the
ADSP-BF535 EZ-KIT Lite. The manual also describes the operation and
configuration of the evaluation board’s components. Finally, a schematic
and a bill of materials are provided as a reference for future ADSP-BF535
board designs.
Intended Audience
This manual is a user’s guide and reference to the ADSP-BF535 EZ-KIT
Lite evaluation system. Programmers who are familiar with the Analog
Devices Blackfin processor architecture, operation, and programming are
the primary audience for this manual.
Programmers who are unfamiliar with Analog Devices Blackfin processors
can use this manual in conjunction with the ADSP-BF535 DSP Hardware
Reference and the Blackfin Processor Instruction Set Reference, which
describe the processor architecture and instruction set. Programmers who
are unfamiliar with VisualDSP++ should refer to the VisualDSP++ online
Help and the VisualDSP++ user’s or getting started guides. For the locations of these documents, refer to “Related Documents”.
xiv
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Preface
Manual Contents
The manual consists of:
• Chapter 2, “Getting Started” on page 1-1
Provides software and hardware installation procedures, PC system
requirements, and basic board information.
• Chapter 2, “Using EZ-KIT Lite” on page 2-1
Provides information on the EZ-KIT Lite from a programmer’s
perspective and provides an easy-to-access memory map.
• Chapter 3, “EZ-KIT Lite Hardware Reference” on page 3-1
Provides information on the hardware aspects of the evaluation
system.
• Appendix A, “Bill Of Materials” on page A-1
Provides a list of components used to manufacture the EZ-KIT
Lite board.
• Appendix B, “Schematics” on page B-1
Provides the resources to allow EZ-KIT Lite board-level debugging or to use as a reference design.
This appendix is not part of the online Help. The online Help
viewers should go the PDF version of the ADSP-BF535 EZ-KIT
Lite Evaluation System Manual located in the Docs\EZ-KIT Lite
Manuals folder on the installation CD to see the schematics.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
xv
What’s New in This Manual
What’s New in This Manual
This is the third revision of the ADSP-BF535 EZ-KIT Lite Evaluation System Manual. The manual provides an updated listing of related
documents.
Technical or Customer Support
You can reach DSP Tools Support in the following ways.
• Visit the DSP Development Tools website at
www.analog.com/technology/dsp/developmentTools/index.html
• Email questions to
dsptools.support@analog.com
• Phone questions to 1-800-ANALOGD
• Contact your ADI local sales office or authorized distributor
• Send questions by mail to
Analog Devices, Inc.
DSP Division
One Technology Way
P.O. Box 9106
Norwood, MA 02062-9106
USA
Supported Processors
The ADSP-BF535 EZ-KIT Lite evaluation system supports ADSP-BF535
(formerly ADSP-21535) Blackfin Analog Devices embedded processors.
xvi
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Preface
Product Information
You can obtain product information from the Analog Devices website,
from the product CD-ROM, or from the printed publications (manuals).
Analog Devices is online at www.analog.com. Our website provides information about a broad range of products—analog integrated circuits,
amplifiers, converters, and digital signal processors.
MyAnalog.com
MyAnalog.com is a free feature of the Analog Devices website that allows
customization of a webpage to display only the latest information on
products you are interested in. You can also choose to receive weekly email
notification containing updates to the webpages that meet your interests.
MyAnalog.com provides access to books, application notes, data sheets,
code examples, and more.
Registration:
Visit www.myanalog.com to sign up. Click Register to use MyAnalog.com.
Registration takes about five minutes and serves as means for you to select
the information you want to receive.
If you are already a registered user, just log on. Your user name is your
email address.
DSP Product Information
For information on digital signal processors, visit our website at
www.analog.com/dsp, which provides access to technical publications, data
sheets, application notes, product overviews, and product announcements.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
xvii
Product Information
You may also obtain additional information about Analog Devices and its
products in any of the following ways.
• Email questions or requests for information to
dsp.support@analog.com
• Fax questions or requests for information to 1-781-461-3010
(North America) or +49 (0) 89 76903-157 (Europe)
Related Documents
For information on product related development software, see the following publications.
Table 1. Related DSP Publications
Title
Description
ADSP-BF535 Embedded Processor Datasheet
General functional description, pin-out, and
timing.
ADSP-BF535 Blackfin Processor Hardware Reference
Description of internal processor architecture
and all register functions.
Blackfin Processor Instruction Set Reference
Description of all allowed processor assembly
instructions.
Table 2. Related VisualDSP++ Publications
Title
Description
VisualDSP++ 3.5 User’s Guide for 16-Bit Proces- Detailed description of VisualDSP++ 3.5 feasors
tures and usage.
xviii
VisualDSP++ 3.5 Assembler and Preprocessor
Manual for Blackfin Processors
Description of the assembler function and
commands for Blackfin processors.
VisualDSP++ 3.5 C/C++ Complier and Library
Manual for Blackfin Processors
Description of the complier function and commands for Blackfin processors
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Preface
Table 2. Related VisualDSP++ Publications (Cont’d)
Title
Description
VisualDSP++ 3.5 Linker & Utilities Manual for
16-Bit Processors
Description of the linker function and commands for 16-bit processors.
VisualDSP++ 3.5 Loader Manual for 16-Bit
Processors
Description of the loader/splitter function and
commands for 16-bit processors.
The listed documents can be found through online Help or in the Docs
folder of your VisualDSP++ installation. Most documents are available in
printed form.
you plan to use the EZ-KIT Lite board in conjunction with a
! IfJTAG
emulator, refer to the documentation that accompanies the
emulator.
Online Documentation
Your software installation kit includes online Help as part of the Windows® interface. These help files provide information about VisualDSP++
and the ADSP-BF535 EZ-KIT Lite evaluation system.
To view VisualDSP++ Help, click on the Help menu item or go to the
Windows task bar and select Start -->Programs -->VisualDSP -->VisualDSP++ Documentation.
To view ADSP-BF535 EZ-KIT Lite Help, which now is a part of the
VisualDSP++ Help system, go the Contents tab of the Help window and
select Manuals --> ADSP-BF535 EZ-KIT Lite.
For more documentation, please go to
http://www.analog.com/technology/dsp/library.html.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
xix
Product Information
Printed Manuals
For general questions regarding literature ordering, call the Literature
Center at 1-800-ANALOGD (1-800-262-5643) and follow the prompts.
VisualDSP++ Documentation Set
Printed copies of VisualDSP++ manuals may be purchased through Analog Devices Customer Service at 1-781-329-4700; ask for a Customer
Service representative. The manuals can be purchased only as a kit. For
additional information, call 1-603-883-2430.
If you do not have an account with Analog Devices, you will be referred to
Analog Devices distributors. To get information on our distributors, log
onto www.analog.com/salesdir/continent.asp.
Hardware Manuals
Printed copies of hardware reference and instruction set reference manuals
can be ordered through the Literature Center or downloaded from the
Analog Devices website. The phone number is 1-800-ANALOGD
(1-800-262-5643). The manuals can be ordered by a title or by product
number located on the back cover of each manual.
Data Sheets
All data sheets can be downloaded from the Analog Devices website. As a
general rule, printed copies of data sheets with a letter suffix (L, M, N, S)
can be obtained from the Literature Center at 1-800-ANALOGD
(1-800-262-5643) or downloaded from the website. Data sheets without
the suffix can be downloaded from the website only—no hard copies are
available. You can ask for the data sheet by part name or by product
number.
xx
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Preface
If you want to have a data sheet faxed to you, the phone number for that
service is 1-800-446-6212. Follow the prompts and a list of data sheet
code numbers will be faxed to you. Call the Literature Center first to find
out if requested data sheets are available.
Contacting DSP Publications
Please send your comments and recommendations on how to improve our
manuals and online Help. You can contact us at
dsp.techpubs@analog.com.
Notation Conventions
The following table identifies and describes text conventions used in this
manual.
conventions, which apply only to specific chapters, may
! Additional
appear throughout this document.
Example
Description
Close command
(File menu) or OK
Text in bold style indicates the location of an item within the
VisualDSP++ environment’s and boards’ menu system and user interface items.
{this | that}
Alternative required items in syntax descriptions appear within curly
brackets separated by vertical bars; read the example as this or that.
[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 ellipsis; read the example as an
optional comma-separated list of this.
PF9-0
Registers, connectors, pins, commands, directives, keywords, code
examples, and feature names are in text with letter gothic font.
filename
Non-keyword placeholders appear in text with italic style format.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
xxi
Notation Conventions
Example
#
xxii
Description
Note:
A note providing information of special interest or identifying a
related topic. In the online version of this book, the word Note appears
instead of this symbol.
Caution:
A caution providing information about critical design or programming
issues that influence operation of a product. In the online version of
this book, the word Caution appears instead of this symbol.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
1 GETTING STARTED
This chapter provides the information you need to begin using
ADSP-BF535 EZ-KIT Lite evaluation system. For correct operation,
install the software and hardware in the order presented in “Installation
Tasks” on page 1-3.
The chapter includes the following sections.
• “Contents of EZ-KIT Lite Package” on page 1-1
Provides a list of the components shipped with this EZ-KIT Lite
evaluation system.
• “PC Configuration” on page 1-3
Describes the minimum requirements for the PC to work with the
EZ-KIT Lite evaluation system.
• “Installation Tasks” on page 1-3
Describes the step-by-step procedures for setting up the hardware
and software.
Contents of EZ-KIT Lite Package
Your ADSP-BF535 EZ-KIT Lite evaluation system package contains the
following items.
• ADSP-BF535 EZ-KIT Lite board
• EZ-KIT Lite Quick Start Guide
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
1-1
Contents of EZ-KIT Lite Package
• CD containing:
"
VisualDSP++ for Blackfin processors with a limited license
"
ADSP-BF535 EZ-KIT Lite debug software
"
USB driver files
"
Example programs
"
ADSP-BF535 EZ-KIT Lite Evaluation System Manual (this
document)
• Installation Quick Reference Card for VisualDSP++
• Universal 7.5V DC power supply
•
USB 2.0 type cable
• Registration card (please fill out and return)
If any item is missing, contact the vendor where you purchased your
EZ-KIT Lite or contact Analog Devices, Inc.
The EZ-KIT Lite 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
EZ-KIT Lite boards in the protective shipping
package.
1-2
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Getting Started
PC Configuration
For correct operation of the VisualDSP++ software and the EZ-KIT Lite,
your computer must have the minimum configuration:
Windows 98, Windows 2000, Windows XP
Intel (or comparable) 166 MHz processor
VGA Monitor and color video card
2-button mouse
50 MB free on hard drive
32 MB RAM
Full-speed USB port
CD-ROM Drive
# EZ-KIT Lite does not run under Windows 95 or Windows NT.
Installation Tasks
The following task list is provided for the safe and effective use of the
ADSP-BF535 EZ-KIT Lite. Follow the instructions in the presented order
to ensure correct operation of your software and hardware.
1. VisualDSP++ and EZ-KIT Lite software installation
2. VisualDSP++ license installation
3. EZ-KIT Lite hardware setup
4. EZ-KIT Lite USB driver installation
5. USB driver installation verification
6. VisualDSP++ startup
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
1-3
Installation Tasks
Installing VisualDSP++ and EZ-KIT Lite Software
This EZ-KIT Lite comes with the latest version of VisualDSP++ 3.5 for
16-bit processors. VisualDSP++ installation includes EZ-KIT Lite
installations.
To install VisualDSP++ and EZ-KIT Lite software:
1. Insert the VisualDSP++ installation CD into the CD-ROM drive.
2. If Autoplay is enabled on your PC, you see the Install Shield Wizard Welcome screen. Otherwise, choose Run from the Start menu,
and enter D:\ADI_Setup.exe in the Open field, where D is the name
of your local CD-ROM drive.
3. Follow the on-screen instructions to continue installing the
software.
4. At the Custom Setup screen, select your EZ-KIT Lite from the list
of available systems and choose the installation directory.
Click an icon in the Feature Description field to see the selected
system’s description. When you have finished, click Next.
5. At the Ready to Install screen, click Back to change your install
options, click Install to install the software, or click Cancel to exit
the install.
6. When the EZ-KIT Lite installs, the Wizard Completed screen
appears. Click Finish.
1-4
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Getting Started
Installing VisualDSP++ License
To install the VisualDSP++ license:
1. Locate the serial number provided on the sticker affixed to the CD
sleeve and the registration form.
2. From the Start menu, choose Programs, Analog Devices, VisualDSP++ 3.5 for 16-bit Processors, VisualDSP++ Environment.
3. The information screen asks if you would like to install a license.
Click Yes. The About VisualDSP++ screen appears.
4. Select the Licenses tab and click New.
5. In the Install a New License dialog that opens, select Single User.
6. Fill in the tools serial number in the field provided exactly as it
appears on your CD sleeve or registration form and click Next. An
information window notifies of successful license installation.
Setting Up EZ-KIT Lite Hardware
The EZ-KIT Lite 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 EZ-KIT Lite boards
in the protective shipping package.
The ADSP-BF535 EZ-KIT Lite board is designed to run outside your personal computer as a stand-alone unit. You do not have to open your
computer case.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
1-5
Installation Tasks
To connect the EZ-KIT Lite board:
1. Remove the EZ-KIT Lite board from the package. Be careful when
handling the board to avoid the discharge of static electricity,
which may damage some components.
2. Figure 1-1 shows the default jumper settings, DIP switch, connector locations, and LEDs used in installation. Confirm that your
board is set up in the default configuration before continuing.
Figure 1-1. EZ-KIT Lite Hardware Setup
1-6
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Getting Started
3. Plug the provided power supply into P10 on the EZ-KIT Lite
board. Visually verify that the green power LED (LED6) is on. Also
verify that the two red reset LEDs (LED7 and LED8) go on for a
moment and then go off.
4. Connect one end of the USB cable to an available full speed USB
port on your PC and the other end to P7 on the ADSP-BF535
EZ-KIT Lite board.
Installing EZ-KIT Lite USB Driver
The EZ-KIT Lite evaluation system installed on Windows 98, Windows
2000, and Windows XP requires one full-speed USB port.
•
“Windows 98 USB Driver” on page 1-8 describes the installation
on Windows 98.
•
“Windows 2000 USB Driver” on page 1-12 describes the installation on Windows 2000.
•
“Windows XP USB Driver” on page 1-13 describes the installation
on Windows XP.
The USB driver used by the debug agent is not Microsoft certified because
it is intended for a development or laboratory environment, not a commercial environment.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
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Installation Tasks
Windows 98 USB Driver
Before using the ADSP-BF535 EZ-KIT Lite for the first time, the Windows 98 USB driver must first be installed.
To install the USB driver:
1. Insert the CD into the CD-ROM drive.
The connection of the device to the USB port activates the Windows 98 Add New Hardware Wizard, as shown in Figure 1-2.
Figure 1-2. Windows 98 – Add New Hardware Wizard
2. Click Next.
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Getting Started
3. Select Search for the best driver for your device, as shown in
Figure 1-3.
Figure 1-3. Windows 98 – Searching for Driver
4. Click Next.
5. Select CD-ROM drive, as shown in Figure 1-4.
Figure 1-4. Windows 98 – Searching for CD-ROM
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
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Installation Tasks
6. Click Next.
Windows 98 locates the WmUSBEz.inf file on the installation CD, as
shown in Figure 1-5.
Figure 1-5. Windows 98 – Locating Driver
7. Click Next.
The Coping Files dialog box appears (Figure 1-6).
Figure 1-6. Windows 98 – Searching for .SYS File
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Getting Started
8. Click Browse.
The Open dialog box, shown in Figure 1-7, appears on the screen.
Figure 1-7. Windows 98 – Opening .SYS File
9. In Drives, select your CD-ROM drive.
10. Click OK. The Copying Files dialog box (Figure 1-8) appears.
Figure 1-8. Windows 98 – Copying .SYS File
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Installation Tasks
11. Click OK.
The driver installation is now complete, as shown in Figure 1-9.
Figure 1-9. Windows 98 – Completing Software Installation
12. Click Finish to exit the wizard.
13.Verify the installation by following the instructions in “Verifying
Driver Installation” on page 1-15.
Windows 2000 USB Driver
VisualDSP++ 3.5 installation software pre-installs the necessary drivers for
the selected EZ-KIT Lite. The install also upgrades an older driver if such
is detected in the system.
to running the VisualDSP++ 3.5 installer, ensure there are no
# Prior
other Hardware Wizard windows running in the background. If
there are any wizard windows running, close them before starting
the installer.
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Getting Started
To install the USB driver:
1. If VisualDSP++ 3.5 is already installed on your system, go to
step 2.
Otherwise, run VisualDSP++ 3.5 installation. Refer to the Installation Quick Reference Card for VisualDSP++ for a detailed
installation description.
When installing VisualDSP++ 3.5 on Windows 2000, make sure
the appropriate EZ-KIT Lite component is selected for the
installation.
2. Connect the EZ-KIT Lite device to your PC’s USB port.
Windows 2000 automatically detects an EZ-KIT device and automatically installs the appropriate driver for the selected device (see
step 1).
3. Verify the installation by following the instructions in “Verifying
Driver Installation” on page 1-15.
Windows XP USB Driver
VisualDSP++ 3.5 installation software pre-installs the necessary drivers for
the selected EZ-KIT Lite. The install also upgrades an older driver if such
is detected in the system.
to running the VisualDSP++ 3.5 installer, ensure there are no
# Prior
other Hardware Wizard windows running in the background. If
there are any wizard windows running, close them before starting
the installer.
To install the USB driver:
1. If VisualDSP++ 3.5 is already installed on your system, go to
step 2.
Otherwise, run VisualDSP++ 3.5 installation. Refer to the Installation Quick Reference Card for VisualDSP++ for a detailed
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
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Installation Tasks
installation description.
When installing VisualDSP++ 3.5 on Windows XP, make sure the
appropriate EZ-KIT Lite component is selected for the installation.
2. Connect the EZ-KIT Lite device to your PC’s USB port.
By connecting the device to the USB port you activate the Windows XP Found New Hardware Wizard, shown in Figure 1-10.
Figure 1-10. Windows XP – Found New Hardware Wizard
3. Select Install the software automatically (Recommended) and
click Next.
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Getting Started
When Windows XP completes the driver installation for the
selected device (see step 1), a window shown in Figure 1-11
appears on the screen.
Figure 1-11. Windows XP – Completing Driver Installation
4. Verify the installation by following the instructions in “Verifying
Driver Installation”.
Verifying Driver Installation
Before you use the EZ-KIT Lite evaluation system, verify that the USB
driver software is installed properly:
1. Ensure that the USB cable is connected to the evaluation board and
the PC.
2. Verify that the yellow USB monitor LED (LED4) is lit. This signifies that the board is communicating properly with the host PC
and is ready to run VisualDSP++.
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Installation Tasks
3. Verify that the USB driver software is installed properly.
Open Windows Device Manager and verify that ADSP-BF535
EZ-KIT Lite shows under ADI Development Tools with no exclamation point, as in Figure 1-12.
Figure 1-12. Device Manager Window
Lite on Windows 98, disconnect the USB
# Ifcableusingfroman theEZ-KIT
board before booting the PC. When Windows 98 is
booted and you are logged on, re-connect the USB cable to the
board. The operation should continue normally from this point.
Starting VisualDSP++
To set up a session in VisualDSP++.
1. Verify that the yellow USB monitor LED (LED5, located near the
USB connector) is lit. This signifies that the board is communicating properly with the host PC and is ready to run VisualDSP++.
2. Hold down the Control (CTRL) key.
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Getting Started
3. Select the Start button on the Windows taskbar, then choose Programs-->VisualDSP-->VisualDSP++.
If you are running VisualDSP++ for the first time, go to step 4. If
you already have existing sessions, the Session List dialog box
appears on the screen.
4. Click New Session.
5. The New Session dialog box, shown in Figure 1-13, appears on the
screen.
Figure 1-13. New Session Dialog Box
6. In Debug Target, choose EZ-KIT Lite (ADSP-BFxxx).
7. In Processor, choose the appropriate processor, ADSP-BF535.
8. Type a new target name in Session Name or accept the default
name.
9. Click OK to return to the Session List. Highlight the new session
and click Activate.
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Installation Tasks
1-18
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
2 USING EZ-KIT LITE
This chapter provides specific information to assist you with developing
programs for the ADSP-BF535 EZ-KIT Lite evaluation board. This information appears in the following sections.
• “EZ-KIT Lite License Restrictions” on page 2-2
Describes the restrictions of the VisualDSP++ license shipped with
the EZ-KIT Lite.
• “Memory Map” on page 2-3
Defines the ADSP-BF535 EZ-KIT Lite’s memory map.
• “Using SDRAM Interface” on page 2-4·
Defines the register values to configure the on-board SDRAM.
• “Using Flash Memory” on page 2-5
Describes how to program and use the on-board Flash memory.
• “Using Programmable Flag Pins” on page 2-6
Describes the function and use of the programmable flag pins on
the EZ-KIT Lite evaluation system.
• “Example Programs” on page 2-8
Provides information about the example programs included in the
ADSP-BF535 EZ-KIT Lite evaluation system.
• “Using Flash Programmer Utility” on page 2-9
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2-1
EZ-KIT Lite License Restrictions
Provides information on the Flash Programmer utility included
with the EZ-KIT Lite software.
• “Using Background Telemetry Channel” on page 2-9
Highlights the advantages of the Background Telemetry Channel
features of VisualDSP++.
• “Using EZ-KIT Lite VisualDSP++ Interface” on page 2-10
Describes the trace, performance monitoring, boot loading, context switching, hardware breakpoints, and target options of the
EZ-KIT Lite system.
For more detailed information about programming the ADSP-BF535
Blackfin processor, see the documents referred to as “Related
Documents”.
EZ-KIT Lite License Restrictions
The license shipped with the EZ-KIT Lite imposes the following
restrictions.
• The user program is limited to 176 KB of the ADSP-BF535 processor’s internal memory space.
• No connections to Simulator or Emulator sessions are allowed.
• Only one EZ-KIT Lite board can be connected to the host PC and
debugged at a time.
• The EZ-KIT Lite hardware must be connected and powered up in
order to use VisualDSP++ with a kit license.
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Using EZ-KIT Lite
Memory Map
The ADSP-BF535 processor has internal SRAM that can be used for
instruction or data storage. The configuration of internal SRAM is
detailed in the ADSP-BF535 Processor Hardware Reference.
The ADSP-BF535 EZ-KIT Lite board contains 272K x 16 bits of external
Flash memory. This memory is connected to the processor’s ~AMS0 memory select pin. The external memory interface is also connected to 4M x
32-bit SDRAM memory. This memory is connected to the ~SMS0 pin.
Table 2-1. EZ-KIT Lite Evaluation Board Memory Map
Start Address
External
Memory
End Address
Content
0x0000 0000
0x00FF FFFF
SDRAM Bank 0 (SDRAM)
See “Using SDRAM Interface” on page 2-4.
0x2000 0000
0x2009 FFFF
ASYNC Memory Bank 0 (FLASH)
See “Using Flash Memory” on page 2-5.
All other locations
Internal
Memory
Not used
0xF000 0000
0xF003 FFFF
L2 SRAM 256 KB
0xFF80 0000
0xFF80 3FFF
Data Bank A 16 KB
0xFF90 0000
0xFF90 3FFF
Data Bank B 16 KB
0xFFA0 0000
0xFFA0 3FFF
Instruction SRAM 16 KB
0xFFB0 0000
0xFFB0 0FFF
Scratch Pad SRAM 4 KB
0xFFC0 0000
0xFFDF FFFF
System MMRs 2 MB
0xFFE0 0000
0xFFFF FFFF
Core MMRs 2 MB
All other locations
Reserved
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Using SDRAM Interface
Using SDRAM Interface
In order to use the 4M x 32 bits (16 MB) of SDRAM memory, the three
SDRAM control registers must be initialized. Table 2-2 shows the standard configuration for these registers when using the EZ-KIT Lite in the
default configuration. These numbers were derived using the
M48LC4M16ATG-75 with a system clock frequency of 120 MHz.
Table 2-2. SDRAM Default Settings
Register
Value
Function
EBIU_SDRRC
0x0000074A
RDIV = 1866 clock cycles
EBIU_SDBCTL
0x00000001
Bank 0 enabled
Bank 0 size = 16 MB
Bank 0 column address width = 8 bits
EBIU_SDGCTL
0x0091998F
32-bit data path
External buffering timing disabled
tWR = 2 SCLK cycles
tRCD = 3 SCLK cycles
tRP = 3 SCLK cycles
tRAS = 6 SCLK cycles
pre-fetch disabled
CAS latency = 3 SCLK cycles
SCLK1 disabled
If you are in an EZ-KIT Lite session (that is, not using an emulator), the
SDRAM registers are configured automatically through the debugger. The
debugger uses the values in Table 2-2 whenever Bank 0 is accessed
through the debugger (such as viewing memory windows or loading a program). Clearing the appropriate checkbox on the Target Options dialog
box, which is accessible through the Settings pull-down menu, disables
this feature and allows manual configuration.
An example program is included in the EZ-KIT installation directory to
demonstrate how to set up the SDRAM interface.
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Using EZ-KIT Lite
Using Flash Memory
The DSM2150 Flash/PLD chip provides a total of 272K x 16 bits of
external Flash memory, arranged into two independent flash arrays (boot
and main). The chip also has a series of configuration registers to control
IO and PLD. This chip is initially configured with the memory sectors
mapped to the DSP, as shown in Figure 2-1.
0x200A 0000
Main Flash
Array
0x2002 0000
Empty
0x2001 00FF
Config
0x2001 0000
Empty
0x2000 8000
0x2000 0000
Boot Flash
Array
Figure 2-1. Flash Memory Map
Use PSDsoft Express™ to modify the default settings for the Flash memory. The DSM project must be modified and the Flash memory must be
reprogrammed using FlashLINK. The default project files can be found in
\…\VisualDSP\Blackfin\EZ-KITs\ADSP-BF535\PSDConfigFiles. Analog
Devices does not provide any support for setting up the DSM2150 with
PSDsoft Express or programming it using FlashLINK. E-mail STMicroelectronics at apps.psd@st.com for technical assistance.
To program the Flash memory with your boot code, you must first create
a loader file from your DSP code. Set up the loader in VisualDSP++,
depending on how you plan to boot the Flash memory. The two possibili-
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2-5
Using Programmable Flag Pins
ties are to boot the DSP in 16-bit external execution mode or in 8-bit boot
mode. See “Boot Mode Select Switch (SW1)” on page 3-7 for the boot
mode settings.
Next, the loader file must be programmed into the Flash memory. This
can be done through the DSP using the VisualDSP++ Flash Programmer
utility (see “Using Flash Programmer Utility” on page 2-9) or by using the
FlashLink programmer.
The DSM2150 can be re-programmed using the FlashLINK JTAG programming cable available from STMicroelectronics (www.st.com/psd) for
approximately $59. FlashLINK plugs into any PC parallel port. The software development tool, PSDsoft Express, is required to modify the
DSM2150 configuration and to operate the FlashLINK cable. PSDsoft
Express can be downloaded at no charge from at www.st.com/psd.
Using Programmable Flag Pins
The ADSP-BF535 processor has 16 asynchronous Programmable Flag
(PF) IO pins. During reset, PF9-0 function as inputs to the internal PLL
of the DSP. They are not valid until 120 uS after reset. Table 2-3
describes how the PFs can be used after reset.
Table 2-3. Programmable Flag Pin Summary
2-6
Flag
Connected To
Description
PF0
LED4
PF1
LED1
PF3-0 are connected to the LEDs. These can be used to light an
LED when a routine completes.
PF2
LED2
PF3
LED3
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Using EZ-KIT Lite
Table 2-3. Programmable Flag Pin Summary (Cont’d)
Flag
Connected To
Description
PF4
SW4
PF5
SW5
PF7-4 are connected to the push buttons on the EZ-KIT Lite
board and are for user input. Your routine can monitor and execute specific code when a push button is pressed.
PF6
SW6
PF7
SW7
PF8
Not used
PF9
Not used
PF10
Not used
PF11
Not used
PF12
PMGMT0
PF13
PMGMT1
PF14
PMGMT2
PF15
U7.11
These are used to change the internal voltage of the DSP. Refer
to “Power Management” on page 2-7 for more information.
Connected to the reset of the AD1885 codec (U7). This signal
must be output as a high (1) to enable the AD1885 codec.
After a DSP reset, all of the PF pins are initialized as inputs. The direction
of the PF is configured by the FIO_DIR Memory Mapped Register (MMR).
The PFs are set HIGH (1) using the FIO_FLAG_S and cleared (0) using the
FIO_FLAG_C MMRs. For more information on configuring the PF pins, see
the ADSP-BF535 Processor Hardware Reference Manual.
All of the PFs can are brought out to the expansion connector P2. The
location of the PF nets can be found in “Schematics” on page B-1.
Power Management
The PF14–12 pins allow you to program the core voltage of the processor.
The default core voltage is 1.5V. Table 2-4 gives the value of the core voltage corresponding to the state of the PFs.
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Example Programs
Table 2-4. Power Management PF Settings
PF14
PF13
PF12
VDD_INT
0
0
0
0.9V
0
0
1
1.0V
0
1
0
1.1V
0
1
1
1.2V
1
0
0
1.3V
1
0
1
1.4V
11
11
01
1.5V1
1
1
1
1.6V
1
Default settings
When lowering the core voltage of the processor, the frequency of the
DSP should also be taken into consideration. As you lower the core voltage, the frequency the core is running at must be decreased.
Example Programs
Example programs are provided with the ADSP-BF535 EZ-KIT Lite to
demonstrate various capabilities of the evaluation board. These programs
are installed with the EZ-KIT Lite software and can be found in \…\VisualDSP\Blackfin\EZ-KITs\ADSP-BF535\Examples. Please refer to the
readme file provided with each example for more information.
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Using EZ-KIT Lite
Using Flash Programmer Utility
The ADSP-BF535 EZ-KIT Lite evaluation system includes a Flash Programmer utility. The utility allows you to program the Flash memory on
the EZ-KIT Lite. The Flash Programmer is installed with VisualDSP++.
Once the utility is installed, it is accessible from the Tools pull-down
menu.
For more information on the Flash Programmer utility, select Start and
choose Programs-->VisualDSP-->VisualDSP++ Documentation.
Using Background Telemetry Channel
The ADSP-BF535 USB debug agent supports the Background Telemetry
Channel (BTC), which facilitates data exchange between VisualDSP++
and the processor without interrupting DSP execution.
The BTC allows the user to view a variable as it is updated or changed, all
while the processor continues to execute. For increased performance of the
BTC, including faster reading and writing, please check out our latest line
of DSP emulators at
www.analog.com/Analog_Root/productPage/productHome/0,2121,EMULATORS,00.html.
For more information about the Background Telemetry Channel, see the
VisualDSP++ 3.5 User’s Guide for 16-Bit Processors or online Help.
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Using EZ-KIT Lite VisualDSP++ Interface
Using EZ-KIT Lite VisualDSP++ Interface
This section provides information on the following parts of the VisualDSP++ graphical user interface:
• “Trace Window” on page 2-10
• “Performance Monitor” on page 2-11
• “Boot Load” on page 2-13
• “Context Switching” on page 2-13
• “Hardware Breakpoints” on page 2-14
• “Target Options” on page 2-19
• “Restricted Software Breakpoints” on page 2-21
Trace Window
Choosing the Trace command from the View-->Debug Windows menu
opens the Trace window (Figure 2-2).
Figure 2-2. Trace Window
The trace buffer stores a history of the last 16 changes in program flow
taken by the program sequencer. View the history to recreate the program
sequencer’s most recent path.
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Using EZ-KIT Lite
The trace buffer does not track changes in flow caused by zero-overhead
loops or while in the reset service routine.
use the trace buffer, ensure your program leaves the reset service
! Toroutine.
Enabling Trace Buffer
To view trace history in the Trace window, first, enable the trace buffer
(choose Enable Trace from the Tools->Trace menu). On each halt, the
Trace window is updated with the changes that occurred since the last
halt. Reading the trace buffer destroys the trace buffer’s contents and discards the information previously stored before the last run.
Reading Trace Buffer Data
The first column between the square brackets (in blue) indicates the line
number in the Trace window.
The second column between square brackets, which comes in vertical
pairs, shows the trace number. For each discontinuity, the first (top position) is the source trace, and the second (bottom position) is the
destination trace. The third column in between square brackets shows the
addresses of the instructions. Each address is followed by the assembly
instruction.
The trace grows upward. In Figure 2-2 on page 2-10, trace 0 occurred
before trace 1, which occurred before trace 2, and so on.
Performance Monitor
Choosing Performance Monitor from the Settings menu opens the Performance Monitor Control dialog box shown in Figure 2-3 on page 2-12.
A description of the dialog box appears in Table 2-5 on page 2-12.
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Using EZ-KIT Lite VisualDSP++ Interface
Figure 2-3. Performance Monitor Dialog Box
The performance monitor is a 32-bit counter that allows you to track
occurrences of events within the core and use these to analyze system
behavior. When the counter reaches zero, it causes an exception or emulation event, as specified by the Type option.
Table 2-5. Performance Monitor Options
Option
Description
Enable
Enables performance monitoring.
Mode
Determines the mode of operation for tracking events:
Disabled disables the monitor.
User tracks while in user mode.
Supervisor tracks while in supervisor mode.
Both tracks while in both user mode and supervisor mode.
Type
Determines the type of event occurring on a match:
Exception causes an exception to occur. You can install a handler to detect
and handle this exception.
Emulation halts the DSP.
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Using EZ-KIT Lite
Table 2-5. Performance Monitor Options (Cont’d)
Option
Description
Event
Specifies the tracked event. Refer to your processor’s Hardware Reference for
details. Events include stalls, cache hits or misses, loop iterations, branches,
interrupts, loads, stores, DMA accesses, and so on.
Count
Specifies the count. When the 32-bit counter reaches zero, an exception or
emulation event occurs. For example, to halt on the third occurrence of an
event, load the count with 0xFFFFFFFE and set Type to Emulation. The
counter counts up and wraps around, causing the processor to halt as desired.
Boot Load
Choosing Boot Load from the Settings menu runs the processor and performs a hard reset on the board. This command saves you from having to
shut down VisualDSP++, reset the EZ-KIT Lite board, and bring up VisualDSP++ again when you want to perform a hard reset.
Use this feature when loading debug boot code from an external part or
when you want to put the device into a known state.
Context Switching
The ADSP-BF535 EZ-KIT Lite evaluation system uses two methods to
obtain and restore the processor’s context: by using the M3 register or by
using the stack.
Using M3 Register
Set Use M3 register for context switching option in the Target Options
dialog box, as described on page 2-19.
When this option is selected, VisualDSP++ uses the M3 register for context
switches. This renders M3 unavailable for user code since the register will
be corrupted. When cleared, VisualDSP++ uses the address pointed to by
the Stack Pointer register (SP).
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Using EZ-KIT Lite VisualDSP++ Interface
This method is very straightforward. M3 is chosen as the register for temporary storage and is, therefore, corrupted and cannot be employed in user
code. Only use this method when there may be a problem using the stack
method.
Using Stack Pointer
If the processor is in the reset service routine at startup, it is assumed the
Stack Pointer (SP) is not pointing to a valid address. In this case, the SP is
initialized to point to a valid address (0xFFB00FFC), and this location is
used for temporary storage.
If the processor is not in the reset service routine, it is assumed the user
code has already initialized the SP to a valid address, and this location is
used for temporary storage. After the initial startup, the SP is assumed
valid. User code can change the SP at any time after leaving the reset service routine, and the new value of the SP is used for context switches. In
all cases, the stack is pushed and popped and is non-intrusive to the user
code.
This method is less intrusive than the M3 method but is also more prone to
problems. First, this method requires at least one available location on the
stack. It also assumes user code will not point the SP to an invalid memory
location during debugging and that, if not in the reset service routine, the
SP has been programmed correctly. Additionally, it may be possible that a
user program has not yet left the reset service routine, but the SP is already
initialized. In this case, at startup, the processor is detected in the reset service routine still and the user’s SP value would be overwritten.
Hardware Breakpoints
Choosing Hardware Breakpoints from the Settings menu opens the
Hardware Breakpoints dialog box. The Hardware Breakpoints dialog box
contains four tabbed pages: Data 0-1, Instruction 0-1, Instruction 2-3,
and Instruction 4-5.
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Using EZ-KIT Lite
Hardware breakpoints allow you to set breaks on instructions or data
transfers within a user-defined memory range. The two types of breakpoints are described in “Data Breakpoints” on page 2-15 and “Instruction
Breakpoints” on page 2-16.
Global Breakpoint Options
Global breakpoint options apply to all hardware breakpoints regardless of
type. These options are listed in Table 2-6.
Table 2-6. Global Breakpoint Options
Option
Description
Enable watchpoint unit
Enables the watchpoint unit.
Enable data AND instruction
Specifies that the processor AND the data and instruction
breakpoints to form the composite interrupt. Normally each of
the group interrupts are ORed to create a composite interrupt.
Common Breakpoint Attributes
Each tabbed page in the Hardware Breakpoints dialog box has the following common attributes, as described in Table 2-7.
Data Breakpoints
Figure 2-4 on page 2-17 shows the Data 0-1 page of the Hardware Breakpoints dialog box. Two individual data breakpoints can be set. A data
breakpoint is triggered by a memory access to a specified address or range.
Selecting Enable Range enables the two data breakpoints.
Data Breakpoint Specific Attributes
Data breakpoints have the attributes listed in Table 2-8.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
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Using EZ-KIT Lite VisualDSP++ Interface
Table 2-7. Common Breakpoint Attributes
Option
Description
Enable
Enables the individual breakpoint. Ensure that Global watchpoint unit is also
selected.
Enable Range Each tab (Data 0-1, Instruction 0-1, Instruction 2-3, and Instruction 4-5) is
considered a range. Selecting this option on a particular tabbed page specifies a
search range instead of a single address. Select the inclusive or exclusive range
radio button as desired, for example:
WPIA0 < IA <= WPIA1 causes the DSP to break for an address greater than the
instruction breakpoint 0 address AND less than or equal to the instruction breakpoint 1 address.
IA <= WPIA0 || IA > WPIA1 causes the DSP to break for an address less than or
equal to the instruction breakpoint 0 address OR greater than the instruction
breakpoint 1 address.
Address
Each breakpoint has an associated address. For a single address, this is the address
searched when Enable Range is selected. This may be the upper or lower bound
address.
Skip count
Each individual breakpoint has an associated skip count. When this count is
reached, the breakpoint triggers on the next match of this breakpoint. For example, to break on every third match, enter a skip count of 2.
Instruction Breakpoints
Figure 2-5 shows the Instruction 0-1 page of the Hardware Breakpoint
dialog box.
Six individual instruction breakpoints can be set. An instruction breakpoint occurs when an instruction is executed or an instruction in a
specified range is executed. Three ranges, each with its own page, can be
specified. You must select Enable Range to set up an instruction range.
Instruction Breakpoint Specific Attributes
Each instruction breakpoint have a specific attribute, as described in
Table 2-9.
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ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Using EZ-KIT Lite
Figure 2-4. Data Breakpoints Dialog Box
Table 2-8. Data Breakpoint Specific Attributes
Attribute
Description
Access
Specifies the type of access:
Reserved (reserved).
Write triggers the breakpoint on any write to the specified address.
Read triggers the breakpoint on any read from the specified address.
Both triggers the breakpoint on any write to or read from the specified
address.
Source
Specifies the source of access:
Reserved (reserved).
DAG0 triggers the breakpoint on any access using DAG0 with the specified
address.
DAG1 triggers the breakpoint on any access using DAG1 with the specified
address.
Both triggers the breakpoint on any access using DAG0 or DAG1 with the
specified address.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
2-17
Using EZ-KIT Lite VisualDSP++ Interface
Figure 2-5. Instruction Breakpoints Dialog Box
Table 2-9. Instruction Breakpoint Specific Attribute
Attribute
Description
Type
Determines the type of event that occurs on a match:
Exception causes an exception to occur. You can install a handler to detect
and handle this exception.
Emulation halts the processor.
Hardware Breakpoints Tips and Tricks
Be aware of the following tips and tricks when using hardware breakpoints
on Blackfin processors.
Latency
There are no latency cycles for hardware breakpoint matches on the
ADSP-BF535 EZ-KIT Lite evaluation system.
Restrictions
When using hardware breakpoints, do not place breaks at any address
where a JUMP, CALL, or IDLE instruction is not valid.
2-18
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Using EZ-KIT Lite
Do not attempt to place breaks in the last few instructions of a DO LOOP or
in the delay slots of a delayed branch. For more information on these illegal locations, see the processor’s Hardware Reference.
Target Options
Choosing Target Options from the Settings menu opens the Target
Options dialog box (Figure 2-6). Use target options to control certain
aspects of the processor on the ADSP-BF535 EZ-KIT Lite evaluation
system.
Figure 2-6. Target Options Dialog Box
Reset Options
Reset options control how the processor behaves when a reset occurs. The
reset options are described in Table 2-10.
Table 2-10. Reset Options
Option
Description
Core reset
Resets the core when the debugger executes a reset.
System reset
Resets the peripherals when the debugger executes a reset.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
2-19
Using EZ-KIT Lite VisualDSP++ Interface
On Emulator Exit
This target option controls processor behavior when VisualDSP++ relinquishes DSP control (for example, when exiting VisualDSP++). The
option is described in Table 2-11.
Table 2-11. On Emulator Exit Target Options
Option
Description
On Emulator Exit
Determines the state the DSP is left in when the emulator relinquishes
control of the DSP.
Reset DSP and Run causes the DSP to reset and begin execution from
its reset vector location.
Run from current PC causes the DSP to begin running from its current
location.
Stall the DSP resets the DSP and then writes a JUMP 0 to the first location in internal memory so the DSP is stuck in a tight loop after exiting.
Other Options
Table 2-12 describes other available target options.
Table 2-12. Miscellaneous Target Options
Option
Description
Reset before loading executable
Resets registers before loading a DSP executable. Clear this option
when DSP registers must not change to their reset values when a file
load occurs.
Verify all writes to target
memory
Validates all memory writes to the DSP. After each write, a read is
performed and the values are checked for a matching condition.
Enable this option during initial program development to locate
and fix initial build problems (such as attempting to load data into
non-existent memory).
Clear this option to increase performance while loading executable
files, since VisualDSP++ does not perform the extra reads that are
required to verify each write.
2-20
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Using EZ-KIT Lite
Table 2-12. Miscellaneous Target Options (Cont’d)
Option
Description
Reset cycle counters on
run
Resets the cycle count registers to zero before a Run command is
issued. Select this option to count the number of cycles executed
between breakpoints in a program.
Auto configure SDRAM
bank 0
VisualDSP++ will auto-configure the necessary registers to communicate with the SDRAM bank 0 memory included on the EZ-KIT
Lite evaluation board.
Select this option to cause VisualDSP++ to configure bank 0 when
it is accessed through VisualDSP++ (for example, when viewing
memory windows or loading a program).
Clear this option if you want to manually configure memory.
Use M3 register for context switching
Allows VisualDSP++ to use the M3 register for context switches.
This leaves M3 unavailable for user code because it will be corrupted.
Clear this option to specify that the M3 register and VisualDSP++
use the address pointed to by the Stack Pointer register.
Restricted Software Breakpoints
The EZ-KIT Lite development system restricts breakpoint placement when
certain conditions are met. That is, under some conditions, breakpoints cannot be placed effectively. Such conditions depend on bus architecture, pipeline
depth, and ordering of the EZ-KIT Lite and its target processor.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
2-21
Using EZ-KIT Lite VisualDSP++ Interface
2-22
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3 EZ-KIT LITE HARDWARE
REFERENCE
This chapter describes the hardware design of the ADSP-BF535 EZ-KIT
Lite board. The following topics are covered.
• “System Architecture” on page 3-2
Describes the configuration of the ADSP-BF535 (formerly
ADSP-21535) processor and explains how the board components
interface with the processor.
• “Jumper and DIP Switch Settings” on page 3-5
Shows the location and describes the function of the configuration
jumpers and DIP switches.
• “LEDs and Push Buttons” on page 3-9
Shows the location and describes the function of the LEDs and
push buttons.
• “Connectors” on page 3-12
Shows the location and gives the part number for all of the connectors on the board. Also, the manufacturer and part number
information is given for the mating parts.
• “Specifications” on page 3-15
Gives the requirements for powering the board.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-1
System Architecture
System Architecture
This section describes the processor’s configuration on the EZ-KIT Lite
board.
JTAG Header
4M X 32bit
SDRAM
(U5, U6)
544KB Flash
(U4)
External Bus Interface
Unit
JTAG Port
EZ USB FX
USB Connector
SRAM
SPI 1:0
UART1:0
Timer2:0
ADSP-BF535
20MHz
Oscillator
CLK_IN
32.768KHz
Crystal
RTC
Power
Management
processor
(U1)
VDD_EXT
SPORT0
LEDs, PBs
and Clock
Logic
PF15:0
SPORT0
Connector
5V A5V 3.3V
+7.5V
Connector
USB
VDD_INT
3.3V
Power
Regulation
Expansion
Connectors
(P1, P2, P3)
SPORT1
AD1885
Codec
(U7)
Stereo LINEIN/
MIC and
LINEOUT
Connectors
Figure 3-1. System Architecture
The EZ-KIT Lite has been designed to demonstrate the capabilities of the
ADSP-BF535 Blackfin processor. The processor has a default core voltage
of 1.5V. Refer to “Power Management” on page 2-7 for more information
about changing the core voltage without halting the processor. The voltage of the processor’s peripheral interface is 3.3V.
A 20 MHz oscillator supplies the input clock to the processor. The speed
at which the core and peripherals operate is determined by the configuration of the multiplier select switch (SW2) at reset. (See “DSP PLL Setup
3-2
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
EZ-KIT Lite Hardware Reference
Switch (SW2)” on page 3-7.) By default, the processor core runs at 300
MHz and the peripheral interface runs at 120 MHz. A 32.768 kHz crystal
supplies the Real Time Clock (RTC) inputs of the processor.
The EZ-KIT Lite board can be configured to boot in all of the possible
ADSP-BF535 boot modes. For information about configuring the boot
mode, see “Boot Mode Select Switch (SW1)” on page 3-7.
External Bus Interface
The External Bus Interface Unit (EBIU) is connected to 4M x 32 bits of
SDRAM (16 MB). This memory is connected to the synchronous memory
select 0 (~SMS0) pin. Refer to “Using SDRAM Interface” on page 2-4 for
information about configuring the SDRAM.
The EBIU is also connected to 272K x 16 bits of Flash memory. This
memory is connected to the asynchronous memory select (~AMS0) pin. The
processor can use this memory for both booting and storing information
during normal operation. Refer to “Using Flash Memory” on page 2-5 for
information about using the Flash memory.
All of the address, data, and control signals are available externally via the
extender connectors (P3-1). The pin-out of these connectors can be found
in “Schematics” on page B-1.
SPORT0 Audio Interface
is connected to the AD1885 SoundMAX codec (U7). Two 3.5mm
stereo jacks (P5, P6) allow audio to be input and output. You can supply
an audio input to the Codec Microphone Input Channel (MIC1) or to the
stereo LINE_IN input channel. The jumper settings of JP1 determine the
codec channel driven by the input jack (P5). For information about configuring JP1, see “Audio Input Select Jumper (JP1)” on page 3-5.
SPORT0
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-3
System Architecture
is also routed to an off-board connector (P9). When using the
off-board connector, the codec must be held in reset, so that it does not
drive any of the SPORT0 signals. The codec can be held in reset by driving
PF15 low or by setting up JP2 to always hold the codec in reset (see “Audio
Codec Disable Jumper (JP2)” on page 3-6). PF15 must be pulled HI (1) for
the codec to function.
SPORT0
#
TCLK0
and RCLK0 pins are shorted together using R114 and R118.
Expansion Interface
The expansion interface consists of the footprints for three connectors.
Table 3-1 shows the interfaces each connector provides. For the exact
pin-out of these connectors, refer to “Schematics” in Appendix B, Schematics. Analog Devices does not populate these connectors or provide any
additional support for this interface. The mechanical locations of these
connectors can be found in “Mechanical Dimensions” on page 3-17.
Table 3-1. Connector Interfaces
Connector
Interfaces
P1
5V, GND, Address, Data
P2
3.3V, GND, EBUI control signals, PF15-0, SPI1-0, SPORT1, UART1-0,
TMR2-0, NMI
P3
1.5V, GND, Reset, USB, CLKOUT, SLEEP
Limits to the current and to the interface speed must be taken into consideration if you use this interface. The maximum current limit is dependent
on the capabilities of the regulator used. Additional circuitry can also add
extra loading to signals, decreasing their maximum effective speed.
Devices does not support and is not responsible for the
# Analog
effects of additional circuitry.
3-4
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
EZ-KIT Lite Hardware Reference
JTAG Emulation Port
The JTAG emulation port allows an emulator to access the processor’s
internal and external memory through a 6-pin interface. The JTAG emulation port of the DSP is also connected to the USB debugging interface
(Note that this is not the processor’s USB interface). When an emulator is
connected to the board at P8, the USB debugging interface is disabled. See
“JTAG (P8)” on page 3-14 for more information about the JTAG
connector.
To learn more about available emulators, contact Analog Devices (see
“Product Information”).
Jumper and DIP Switch Settings
This section describes the function of all the jumpers and DIP switches.
The following figure (Figure 3-2 on page 3-6) shows the location of all the
jumpers and DIP switches.
Audio Input Select Jumper (JP1)
The audio input jack (P5) can be connected to the MIC1 or the LINEIN
input channels of the AD1885 codec (U7). When the JP1 jumpers connect pins 1 and 3 and pins 2 and 4, P3 connects to the mono MIC1
channel. When the jumpers connect pins 3 and 5 and pins 4 and 6, P5
connects to the stereo LINE_IN channel of the AD1885 codec. These
jumper settings are illustrated in Figure 3-2 on page 3-6. (The words MIC
and LINE are on the board as a reference)
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-5
Jumper and DIP Switch Settings
Figure 3-2. Jumper Locations
Table 3-2. Audio Input Jumper Settings (JP1)
2
1
6
5
JP1
2
1
LINE
MIC
JP1
Mono MIC1
LINE
MIC
Stereo LINE_IN (DEFAULT)
6
5
Audio Codec Disable Jumper (JP2)
Placing a jumper between pins 1 and 2 of JP2 holds the AD1885 in reset,
preventing it from driving signals to the serial port. When a jumper is
between pins 2 and 3 of JP2, the AD1885 is held in reset until PF15 is set
to an output and is asserted. These positions are labeled on the board as
DIS and ENA 1885.
3-6
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
EZ-KIT Lite Hardware Reference
Boot Mode Select Switch (SW1)
The boot mode select switch determines how the processor boots.
Table 3-3 shows the switch settings for the boot modes.
! SPI ROM is not available on the EZ-KIT Lite.
Table 3-3. Boot Mode Select Switch
BMODE0
Pin 1
BMODE1
Pin 2
BMODE2
Pin 3
Description
On
On
On
Execute from 16 bit external memory (no boot).
Off1
On1
On1
Boot from 8-bit EPROM1
On
Off
On
Boot from SPI0 ROM (8-bit addresses)
Off
Off
On
Boot from SPI0 ROM (16-bit addresses)
–
–
Off
All others reserved
1
Default settings
DSP PLL Setup Switch (SW2)
The processor’s Phase Lock Loop (PLL) multiplies the 20 MHz input
clock by a multiplication factor to set the core clock speed of the DSP.
Internal to the processor the Programmable Flag pins, PF9-0, are multiplexed with the PLL setup signals, SSEL6-0, DF, and MSEL1-0.
During reset, the function of the pins is to setup the PLL. At this time, the
signals are attached to the SW2 switch and determine the core and external
clock speeds of the processor. The SW2 switch drives the processor pins
during reset and, for approximately 120mS, after reset. Once this time has
elapsed, the PFs are no longer connected to the SW2 but are connected to
the general-purpose IO (LEDs, push buttons) on the board. This is done
with an external 2-to-1 multiplexer and is provided for flexibility when
using the EZ-KIT Lite.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-7
Jumper and DIP Switch Settings
The following table shows the switch position that corresponds to a processor pin.
Table 3-4. PLL Setup Switch (SW2) Functions
DSP Pin
Switch Position
DSP Pin
Switch Position
MSEL0
1
MSEL6
7
MSEL1
2
DF
8
MSEL2
3
SSEL0
9
MSEL3
4
SSEL1
10
MSEL4
5
None
11
MSEL5
6
Bypass
12
Figure 3-3 shows the default setting for SW2. This will produce a 300 MHz
core clock speed and a 120 MHz peripheral interface speed. For more
information about setting up the multiplication factors, refer to the Managing DSP Clocks section of the ADSP-BF535 Processor Hardware
Reference.
ON
1
2
3
4
5
6
7
8
9
10 11 12
Figure 3-3. Default PLL Setup Switch Settings (SW2)
A switch setting of
! processor
pin.
3-8
ON
supplies a logic low (0) on the corresponding
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
EZ-KIT Lite Hardware Reference
LEDs and Push Buttons
This section describes the functionality of the LEDs and push buttons.
Figure 3-4 shows the locations of the LEDs and push buttons.
Figure 3-4. LED and Push Button Locations
Programmable Flag LEDs (LED1, LED2, LED3, LED4)
Four LEDs are connected to four of the processor’s Programmable Flag
(PF) pins, PF3-0. These LEDs are active HIGH and are lit by an output of
“1” from the processor. Refer to “Using Programmable Flag Pins” on
page 2-6 for more information about using of the PFs when programming
the processor.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-9
LEDs and Push Buttons
Table 3-5. Programmable Flag LEDs
LED Reference Designator
DSP Programmable Flag Pin
LED4
PF0
LED1
PF1
LED2
PF2
LED3
PF3
USB Monitor LED (LED5)
The USB Monitor LED (LED5) indicates that USB communication has
been initialized successfully and you may connect to the processor using a
VisualDSP++ EZ-KIT Lite session. This should take approximately 15
seconds. If the LED does not light, try cycling power on the board and/or
reinstalling the USB driver (see “Installing EZ-KIT Lite USB Driver” on
page 1-7).
Power LED (LED6)
When LED6 is lit (green), it indicates that power is being properly supplied
to the board.
Reset LEDs (LED7, LED8)
When LED8 is lit, it indicates that master reset for all the major ICs is
active. When LED7 is lit, the USB interface chip (U11) is being reset. The
USB chips only reset on power-up, or if USB communication has not
been initialized.
3-10
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
EZ-KIT Lite Hardware Reference
Non-Maskable Interrupt Push Button (SW3)
The SW3 button is connected to the Non-maskable Interrupt (NMI) pin of
the processor. When pressed, the processor vectors to the NMI interrupt
vector.
Programmable Flag Push Buttons (SW4, SW5, SW6,
SW7)
Four push buttons are provided for general-purpose user input. SW7-4
connect to the processor’s Programmable Flag (PF) pins, PF7-4. The push
buttons are active HIGH and, when pressed, send a High (1) to the processor. Refer to “Using Programmable Flag Pins” on page 2-6 for more
information about the use of the PFs when programming the DSP.
Table 3-6 shows the PF signal and the switch it is connected to.
Table 3-6. Programmable Flag Switches
Push Button Reference Designator
DSP Programmable Flag Pin
SW4
PF4
SW5
PF5
SW6
PF6
SW7
PF7
Reset Push Button (SW8)
The RESET push button resets all of the ICs on the board. This reset does
not affect the USB interface chip (U11) unless communication has not
been initialized with a PC. After USB communication has been initialized,
the only way to reset the USB is by powering down the board.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-11
Connectors
Connectors
This section describes the connector functionality and provides information about mating connectors. The locations of the connectors are shown
in Figure 3-5 on page 3-10.
Figure 3-5. Connector Locations
Expansion Interface (P1, P2, P3)
Three board-to-board connector footprints provide signals for most of the
DSP peripheral interfaces. Analog Devices does not populate these connectors or provide any additional support for this interface. For more
information on the expansion interface, see “Expansion Interface” on
page 3-4. Contact Samtec for the availability and pricing of the
connectors.
3-12
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
EZ-KIT Lite Hardware Reference
Part Description
Manufacturer
Part Number
90 Position 0.05" Spacing (P1,
P2, P3)
Samtec
SFM-145-01-S-D
Mating Connector
90 Position 0.05" Spacing
(Through Hole)
Samtec
TFM-145-x1 Series
90 Position 0.05" Spacing (Surface Mount)
Samtec
TFM-145-x2 Series
90 Position 0.05" Spacing (Low
Cost)
Samtec
TFC-145 Series
FlashLINK (P4)
The FlashLINK connector allows you to configure and program the
STMicroelectronics DSM2150 flash/PLD chip. See “Using Flash Memory” on page 2-5 for more information about using the FlashLINK
connector.
Part Description
Manufacturer
Part Number
Right-angle 7X2 Shrouded 0.1
Spacing
TYCO
2-767004-2
Mating Assembly
FlashLINK JTAG Programmer
ST Micro
L-101B
Audio (P5, P6)
There are two 3.5 mm stereo audio jacks: one input and one output.
Part Description
Manufacturer
Part Number
3.5 mm stereo jack (P5, P6)
Shogyo
SJ-0359AM-5
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-13
Connectors
Part Description
Manufacturer
Part Number
Mating Cable
3.5 mm stereo plug to 3.5 mm
stereo cable
Radio Shack
42-2387A
USB (P7)
The USB connector is a standard Type B USB receptacle. This connector
is used to debug the processor and is not connected to the processor’s USB
interface.
Part Description
Manufacturer
Part Number
Type B USB receptacle (P7)
Mill-Max
897-30-004-90-000
Digi-Key
ED90003-ND
Mating Connector
USB cable (provided with kit)
Assmann
AK672-5
Digi-Key
AK672-5ND
JTAG (P8)
The JTAG header is the connecting point for a JTAG in-circuit emulator
pod. When an emulator is connected to the JTAG header, the USB debug
interface is disabled.
3 is missing to provide keying. Pin 3 in the mating connector
! Pin
should have a plug.
using an emulator with the EZ-KIT Lite board, follow the
! When
connection instructions provided with the emulator.
3-14
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
EZ-KIT Lite Hardware Reference
SPORT0 (P9)
is connected to a 20-pin connector. The pin-out for this connector
can be found in “Schematics” on page B-1. Contact AMP for pricing and
availability on these connectors.
SPORT0
Part Description
Manufacturer
Part Number
20 position AMPMODU system
50 receptacle (P9)
AMP
104069-1
Mating Connectors
20 position AMPMODU ribbon
cable connector
AMP
111196-4
Power Connector (P10)
The power connector provides all of the power necessary to operate the
EZ-KIT Lite board.
Part Description
Manufacturer
Part Number
2.5 mm Power Jack (P10)
Switchcraft
RAPC712
Digi-key
SC1152-ND
Mating Power Supply (shipped with EZ-KIT Lite)
7.5V Power Supply
GlobTek
TR9CC2000LCP-Y
Specifications
This section provides the requirements for powering the board and the
mechanical dimensions of the board.
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-15
Specifications
Power Supply
The power connector supplies DC power to the EZ-KIT Lite board.
Table 3-7 shows the power connector pin-out.
Table 3-7. Power Connectors
Terminal
Connection
Center pin
+7.5 VDC@2amps
Outer Ring
GND
Board Current Measurements
The ADSP-BF535 EZ-KIT Lite board provides eight zero-ohm resistors
that may be removed to measure current draw. Table 3-8 shows the resistor number, the voltage plane, and a description of each component on
the plane.
Table 3-8. Current Measurement Resistors
Resistor
Voltage Plane
Description
R2
VDD_RTC
DSP Real Time Clock Supply
R3
VDD_EXT
DSP External Interface Supply
R6
VDD_INT
DSP Internal Interface Supply
R7
VDD_PCIEXT
DSP PCI Interface Supply
R8
VDD_PLL
DSP Phase Lock Loop Supply
R110
5V
5V Supply
R111
3V
3V supply to all non DSP-related components
R113
3V_DSP
3V to DSP-related components
3-16
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
EZ-KIT Lite Hardware Reference
Mechanical Dimensions
Figure 3-6 shows the location of the mounting holes as well as the PIN1 of
each of the expansion connectors.
5.000
4.750
3.875
P1
3.750
2.500
P2
1.400
1.300
1.125
P3
6.750
7.000
6.375
6.200
3.600
3.250
0.625
0.000
0.250
0.250
0.000
Figure 3-6. Mechanical Drawing
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
3-17
Specifications
3-18
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Manufacturer
2
3
74LVC14A SOIC14
U9-10, U19 TI
HEX-INVER-SCHMITT-TRIGGER
74LVC14AD
3
1
IDT74FCT3244APY SSOP20
3.3V-OCTAL-BUFFER
U24
IDT
IDT74FCT3244APY
4
1
24.576MHZ SMT OSC005
CRYSTAL
Y2
EPSON
MA505 24.576M-C2
5
1
CY7C64603-128 PQFP128
USB-TX/RX MICROCONTROLLER
U11
CYPRESS
CY7C64603-128NC
6
1
MMBT4401 SOT-23
NPN TRANSISTOR 200MA
Q1
FAIRCHILD
MMBT4401
7
1
74LVC00AD SOIC14
U13
PHILIPS
74LVC00AD
8
1
24LC00-SN SOIC8
128 BIT SERIAL EEPROM
U25
MICROCHIP 24LC00-SN
9
1
ADP3331ART SOT23-6
ADJ 200MA REGULATOR
VR3
ANALOG
DEVICES
ADP3331ART
10 3
BSS123 SOT23D
NMOS FET
M1-3
FAIRCHILD
BSS123
11 1
CY7C1019BV33-15VC SOJ32
128K X 8 SRAM
U12
CYPRESS
CY7C1019BV33-12VC
12 1
SN74AHC1G02 SOT23-5
SINGLE-2 INPUT-NOR
U16
TI
SN74AHC1G02DBVR
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Part
Number
Quantity
Reference
Design
Reference
Description
A BILL OF MATERIALS
A-1
Reference
Design
Manufacturer
Part
Number
TI
SN74LV164AD
14 1
CY7C4201V-15AC TQFP32
64-BYTE-FIFO
U18
CYPRESS
CY7C4201V-15AC
15 1
12.0MHZ THR OSC006
CRYSTAL
Y3
DIG01
300-6027-ND
16 2
MT48LC4M16 TSOP54
4MX16-SDRAM-133MHZ
U5-6
MICRON
MT48LC4M16A2TG-75
17 1
32.768kHz TH OSC007
CRYSTAL
Y1
ECPLITEK
EC38T
18 1
SN74AHC1G00 SOT23-5
SINGLE-2-INPUT-NAND
U26
TI
SN74AHC1G00DBVR
19 1
21535 BRD DSM2150F5V U4""
BLKFIN160.OBJ SUM 876F5F1
U4
ST MICRO
DSM2150F5V
20 2
1000pF 50V 5% 1206
CERM
C25-26
AVX
12065A102JAT2A
21 2
0.1uF 50V 10% 1206
CERM
C8-9
PHILIPS
12062R104K9BB2
22 1
ADM708SAR SOIC8
VOLTAGE-SUPERVISOR
U23
ANALOG
DEVICES
ADM708SAR
23 1
AD1885JST LQFP48
AC97 STEREO CODEC
U7
ANALOG
DEVICES
AD1885JST
24 2
ADP3338AKC-33 SOT-223
3.3V-1.0AMP REGULATOR
VR1-2
ANALOG
DEVICES
ADP3338AKC-3.3
25 1
ADP3339AKC-5 SOT-223
5V-1.5A REGULATOR
VR4
ANALOG
DEVICES
ADP3339AKC-5-REEL
26 1
ADP3088 MSOP8
500MA-BUCK-REGULATOR
VR5
ANALOG
DEVICES
ADP3088ARM-REEL
27 1
ADSP-21535PKB-300 PBGA260
308KBYTES-BLACKFIN
U1
ANALOG
DEVICES
ADSP-21535PKB-300
A-2
Description
U17
Quantity
SN74LV164A SOIC14
8-BIT-PARALLEL-SERIAL
Reference
13 1
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Reference
Design
Manufacturer
Part
Number
RUBBER FEET BLACK
MH1-5
MOUSER
517-SJ-5018BK
29 1
PWR 2.5MM_JACK CON005
RA
P10
SWITCHCRAFT
SC1152-ND12
30 1
USB 4PIN CON009
USB
P7
MILL-MAX
897-30-004-90-000000
31 1
.05 10X2 CON014
RA
P9
AMP
104069-1
32 6
SPST-MOMENTARY SWT013
6MM
SW3-8
PANASONIC EVQ-PAD04M
33 1
DIP12 SWT014
SW2
DIGI-KEY
CKN3063-ND
34 1
DIP3 SWT015
SW1
DIGI-KEY
CKN3055-ND
35 1
IDC 7X2 IDC7X2SRDRA
RIGHT ANGLE SHROUDED
P4
MOLEX
70247-1401
36 23 0.00 1/8W 5% 1206
R2-3,
R6-12,
R21,
R63-64,
R77,
R97,
R111-118,
R127
YAGEO
0.0ECT-ND
37 2
220uF 10V 20% E
ELEC
CT7-8
SPRAGUE
293D227X9010E2T
38 5
AMBER-SMT LED001
GULL-WING
LED1-5
PANASONIC LN1461C-TR
39 2
22pF 50V 5% 805
CERM
C5-C6
AVX
Quantity
28 5
Reference
Description
Bill Of Materials
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
08055A220JAT
A-3
Manufacturer
Part
Number
08051C103KAT2A
41 1
0.22uF 25V 10% 805
CERM
C114
AVX
08053C224FAT
42 5
0.1uF 50V 10% 805
CERM
C3, C24,
C27-29
AVX
08055C104KAT
43 4
10uF 16V 10% C
TANT
CT15-18
SPRAGUE
293D106X9025C2T
44 44 10K 100MW 5% 805
R1,
R13-19,
R31-32,
R37,
R44-45,
R47-54,
R57,
R59-61,
R66, R68,
R78-81
AVX
CR21-103J-T
45 44 10K 100MW 5% 805
R83-84,
R87-88,
R90-93,
R105,
R120-122,
R125
DALE
CRCW0805-103JRT1
46 4
33 100MW 5% 805
R4-5, R46,
R119
AVX
CR21-330JTR
47 5
4.7K 100MW 5% 805
R55-56,
R58, R62,
R107
AVX
CR21-4701F-T
48 1
1M 100MW 5% 805
R41
AVX
CR21-1004F-T
A-4
Reference
Design
Description
AVX
Quantity
C19,
C30-92,
C94,
C96-97,
C99-109,
C116
Reference
40 79 0.01uF 100V 10% 805
CERM
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Reference
Design
Manufacturer
Part
Number
1.5K 100MW 5% 805
R43
AVX
CR21-1501F-T
50 1
22uF 16V 10% D
TANT
CT1
DIG01
PCT3226CT-ND
51 3
2.21K 1/8W 1% 1206
R30, R35,
R40
AVX
CR32-2211F-T
52 4
10uF 16V 10% B
TANT
CT4,
CT19-21
AVX
TAJB106K016R
53 1
1A HSM160J DO-214AA
SCHOTTKY
D4
MICRO-SEMI HSM160J
54 5
100 100MW 5% 805
R67, R82,
R85-86,
R89
AVX
CR21-101J-T
55 1
1000 100MHZ 1.5A FER002
0.06 CHOKE
FER9
MURATA
PLM250S40T1
56 3
2A S2A_RECT DO-214AA
SILICON RECTIFIER
D1-3
GENERALSEMI
S2A
57 8
600 100MHZ 500MA 1206
0.70 BEAD
FER1-8
DIGIKEY
240-1019-1-ND
58 1
0.047UF 16V 10% 1206
C10
AVX
12065C473JATME
59 2
270PF 50V 10% 805
C11, C13
KEMET
C1206C271J5GAC210
60 6
1UF 16V 10% 805
X7R
C4, C22,
C110-113
MURATA
GRM40X7R105K016AL
61 6
470PF 100V 10% 1206
CERM
C12,
C14-16,
C20-21
AVX
12061A471JAT2A
62 2
30PF 100V 5% 1206
C17-18
AVX
12061A300JAT2A
63 3
10UF 25V +80-20% 1210
Y5V
C93, C95,
C98
MURATA
GRM235Y.5V106Z025
Quantity
49 1
Reference
Description
Bill Of Materials
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
A-5
Reference
Design
Manufacturer
Part
Number
KEMET
T491A474K025AS
65 1
16K 1/8W5% 1206
R65
DALE
CRCW1206-163JRT1
66 1
53.6K 1/10W 1% 805
R95
PHILIPS
9C08052A5362FKRT/R
67 1
165K 1/10W 1% 805
R102
PHILIPS
9C08052A1653FKRT/R
68 1
316K 1/10W 1% 805
R103
PHILIPS
9C08052A3163FKRT/R
69 1
332K 1/10W 1% 805
R101
PHILIPS
9C08052A3323FKRT/R
70 1
665K 1/10W 1% 805
R100
PHILIPS
9C08052A6653FKRT/R
71 1
10UH 47+/-20 IND001
L1
TDK
SLF7045T-100M1R1-2
72 1
243.0K 1/10W 1% 805
R106
PHILIPS
9C08052A2433FKRT/R
73 1
1.00M 1/4W 1% 1210
R108
PANASONIC ERJ-14NF1004U
ECG
74 3
10K 31MW 5% RNET8
RN6-8
CTS
75 2
39PF 50V 5% 805
NPO
C1-C2
PANASONIC ECJ-2VC1H390J
76 5
10K 100MW 2% RNET16
BUSSED
RN1-5
CTS
767-161-103G
77 1
1K 1/8W 5% 1206
R38
AVX
CR32-102J-T
78 6
10K 1/8W 5% 1206
R23-27,
R33
DALE
CRCW1206-1002FRT1
79 1
100K 1/8W 5% 1206
R109
DALE
CR1206-1003FTR1
80 1
20.0K 1/8W 1% 1206
R104
DALE
CRCW1206-2002FRT1
81 3
22 1/8W 5% 1206
R36, R39,
R126
DALE
CR1206-22R0JTR
82 7
270 1/8W 5% 1206
R69-73,
R75-76
AVX
CR32-271J-T
83 4
4.7K 1/8W 5% 1206
R20, R22,
R28-29
AVX
CR32-472J-T
A-6
Description
CT14
Quantity
0.47UF 20V 10% A
TANT
Reference
64 1
746X101103J
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
Reference
Design
Manufacturer
Part
Number
680 1/8W 5% 1206
R74
AVX
CR32-681J-T
85 1
20MHZ 1/2 OSC001
U2
ECLIPTEK
EC1100HS-20.000MHZ
86 2
RED-SMT LED001
GULL-WING
LED7-8
PANASONIC LN1261C
87 1
GREEN-SMT LED001
GULL-WING
LED6
PANASONIC LN1361C
88 5
1uF 25V 20% A
TANT -55+125
CT9-13
PANASONIC ECS-T1EY105R
89 5
QS3257Q QSOP16
QUICKSWITCH-257
U14-15,
U20-22
ANALOG
DEVICES
ADG774ABRQ
90 1
IDC 3X1 IDC3X1
JP2
BERG
54101-T08-03
91 1
IDC 3X2 IDC3X2
JP1
BERG
54102-T08-03
92 1
IDC 7X2 IDC7X2
P8
BERG
54102-T08-07
93 3
IDC 2PIN_JUMPER
0.1
SJ1-3
MOLEX
15-38-1024
94 1
2.5A RESETABLE FUS001
F1
RAYCHEM
CORP.
SMD250-2
95 2
3.5MM STEREO_JACK CON001
P5-6
A/D ELECTONICS
ST-323-5
Quantity
84 1
Reference
Description
Bill Of Materials
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
A-7
A-8
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
A
B
C
D
1
1
2
2
ADSP-BF535 EZ-KIT LITE
3
3
ANALOG
DEVICES
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - TITLE
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-12-2003_15:48
D
1
of
12
A
B
PWR_MGT_OUT
3V_DSP
C
D
VDD_INT
VDD_RTC
R2
0.00
1206
R6
0.00
1206
3.3V
FOR RTC
VDD_EXT
1.5V
XTALI
VDD_PLL
R3
0.00
1206
1
R1
10K
805
R8
0.00
1206
R9
0.00
1206
XTALO
Y1
XXMHZ
32.768KHZ
OSC007
R10
0.00
1206
RN2
RN1
VDD_PCIEXT
R4
33
805
U2
1
OE
R7
0.00
1206
1
R1
2
R2
3
R3
4
R4
5
R5
6
R6
7
R7
8
R8
ARDY
5
OUT
C2
39PF
805
CLKIN
C1
39PF
805
20MHZ
OSC001
PCI_RST
PCI_CBE0
PCI_CBE1
PCI_CBE2
R34
DNP
1206
PCI_CBE3
0 OHM RESISTORS TO MEASURE DSP CURRENT
PCI_GNT
PCI_DEVSEL
PCI_TRDY
16
COM
PCI_SERR
15
R15
14
R14
13
R13
12
R12
11
R11
10
R10
9
R9
PCI_IRDY
PCI_PERR
PCI_PAR
PCI_LOCK
PCI_FRAME
PCI_STOP
PCI_INTD
PCI_AD31
PCI_INTC
PCI_AD28
PCI_INTB
PCI_AD25
1
R1
USB_XVER_DATA
16
COM
2
R11
0.00
1206
15
R2
R15
3
14
R3
R14
4
13
R4
R13
5
12
R5
R12
6
11
R6
R11
7
10
R7
R10
8
9
R8
1
USB_CLK
3V_DSP
3V_DSP
R9
USB_DPLS
R12
0.00
1206
PCI_AD21
PCI_AD17
USB_DMNS
PCI_AD16
R77
0.00
1206
PCI_AD11
PCI_AD2
PCI_INTA
PCI_CLK
10K
RNET16
10K
RNET16
R127
0.00
1206
PCI_IDSEL
U1
U1
D[31:0]
A[25:2]
A2
A2
A3
B06
A4
D06
A5
2
A06
A3
A4
C06
A5
A6
A05
A7
B05
A8
A9
A10
A11
A12
A13
A6
A7
A04
A8
C05
A9
D05
A10
B04
A11
A01
A12
C04
A13
A14
D04
A15
A03
A16
B03
A14
A15
A16
A17
A02
A18
C03
A19
D03
A20
B02
A21
C02
A22
E03
A23
C01
A24
F03
A25
D02
A17
A18
A19
A20
A21
A22
A23
A24
A25
3
N02
D0
XTALO
VDD_RTC
R10
XTALI
T10
XTALO
U10
VDD_RTC
V11
VSS_RTC
VDD_PLL
VDD_PLL
A10
VSS_PLL
BYPASS
CLKIN
BMODE1
BMODE2
P02
SLEEP
RESET
D4
R02
D5
D5
P03
D6
U01
D7
U02
D8
T02
D9
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D25
D26
D27
D28
D30
D31
V02
TX0
B08
RX1
RX1
C08
TX1
D6
TMR0
D7
TMR1
TX1
TMR1
D07
TMR2
R01
ARDY
AOE
R04
D12
ARE
U03
D13
AWE
T03
D14
T04
D15
AMS0
U04
D16
AMS1
V04
D17
AMS2
V05
D18
AMS3
R05
D19
T05
D20
~ABE0/SDQM0
U05
D21
~ABE1/SDQM1
V06
D22
~ABE2/SDQM2
R06
D23
~ABE3/SDQM3
U06
D24
T06
D25
SRAS
V07
D26
SCAS
V08
D27
SWE
U07
D28
R07
D29
SMS0
T07
D30
SMS1
V09
D31
SMS2
ARDY
E01
AOE
F01
ARE
G01
AWE
F02
AMS0
D01
AMS1
H03
AMS2
G02
AMS3
E02
~ABE0/SDQM0
~ABE1/SDQM1
G03
~ABE2/SDQM2
H07
~ABE3/SDQM3
L02
SRAS
L03
SCAS
J03
SWE
M02
SMS0
P01
SMS1
N01
SMS2
K03
SMS3
BYPASS
D09
CLKIN1
TCK
B14
BMODE0
A14
BMODE1
B13
BMODE2
TDO
TMS
TRST
D10
C11
D11
A12
B12
A13
TCK
SA10
TDI
SCKE
TDO
TMS
R119
33
805
TRST
EMU
PCI_AD0
RFS0
PCI_AD1
DR0
PCI_AD2
TCLK0
PCI_AD3
TFS0
PCI_AD4
DT0
PCI_AD5
PCI_AD6
U14
RSCLK1
V16
RFS1
U15
DR1
T15
TSCLK1
R15
TFS1
V17
DT1
RCLK1
PCI_AD7
RFS1
PCI_AD8
DR1
PCI_AD9
TCLK1
PCI_AD10
TFS1
PCI_AD11
DT1
PCI_AD12
PCI_AD13
U16
MOSI0
T16
MISO0
U17
SCK0
MOSI0
PCI_AD14
MISO0
PCI_AD15
SCK0
PCI_AD16
PCI_AD17
T17
MOSI1
U18
MISO1
R16
SCK1
MOSI1
PCI_AD18
MISO1
PCI_AD19
SCK1
PCI_AD20
B01
SMS3
C12
RCLK0
TMR0
C07
D9
D10
R13
RSCLK0
U13
RFS0
V14
DR0
V15
TSCLK0
T14
TFS0
R14
DT0
B07
TMR2
D8
D11
V03
RX0
A08
TX0
D3
N03
D4
EMU
NMI
D2
D3
TDI
BMODE0
T01
D2
D29
G09
D1
D1
D24
XTALI
M03
A07
RX0
D0
U1
M01
SA10
L01
SCKE
K01
SCLK0
H01
CLKOUT/SCLK1
PCI_AD21
U08
MSEL0/PF0
R08
MSEL1/PF1
T08
MSEL2/PF2
V10
MSEL3/PF3
U09
MSEL4/PF4
R09
MSEL5/PF5
T09
MSEL6/PF6
R11
DF/PF7
T11
SSEL0/PF8
U11
SSEL1/PF9
V12
PF10
T12
PF11
R12
PF12
U12
PF13
V13
PF14
T13
PF15
MS_PF0
MS_PF[6:0]
PCI_AD22
MS_PF1
PCI_AD23
MS_PF2
PCI_AD24
MS_PF3
PCI_AD25
MS_PF4
PCI_AD26
MS_PF5
PCI_AD27
MS_PF6
PCI_AD28
DF_PF7
PCI_AD29
SSEL0_PF8
PCI_AD30
SSEL1_PF9
PCI_AD31
E17
PCI_AD0
E18
PCI_AD1
G16
PCI_AD2
F17
PCI_AD3
F18
PCI_AD4
G18
PCI_AD5
G17
PCI_AD6
H18
PCI_AD7
J18
PCI_AD8
H17
PCI_AD9
K18
PCI_AD10
H16
PCI_AD11
L18
PCI_AD12
J17
PCI_AD13
M18
PCI_AD14
K17
PCI_AD15
J16
PCI_AD16
K16
PCI_AD17
N18
PCI_AD18
P18
PCI_AD19
L17
PCI_AD20
L16
PCI_AD21
R18
PCI_AD22
T18
PCI_AD23
M17
PCI_AD24
M16
PCI_AD25
N17
PCI_AD26
P17
PCI_AD27
P15
PCI_AD28
N16
PCI_AD29
R17
PCI_AD30
P16
PCI_AD31
D14
PCI_CLK
PCI_CLK
PCI_RST
D18
3V_DSP
PCI_RST
F16
PCI_CBE0
F15
PCI_CBE1
E16
PCI_CBE2
D17
PCI_CBE3
RN8
PCI_CBE0
5
PCI_CBE1
10
PCI_CBE2
1
COM1
R1
COM2
R2
2
PCI_AD1
3
PCI_CBE3
R3
PCI_AD3
4
R4
D16
PCI_REQ
C18
PCI_GNT
PCI_AD4
6
R5
PCI_AD9
7
PCI_GNT
R6
PCI_AD7
8
R7
C16
PCI_DEVSEL
B18
PCI_IDSEL
C14
PCI_INTA
B15
PCI_INTB
A15
PCI_INTC
D13
PCI_INTD
PCI_AD5
9
PCI_DEVSEL
R8
PCI_IDSEL
10K
RNET8
PCI_INTA
RN7
PCI_INTB
5
PCI_INTC
10
PCI_AD6
1
COM1
R1
COM2
R2
PCI_AD13
2
PCI_INTD
PCI_AD8
3
R3
PCI_AD10
4
PCI_FRAME
R4
C17
PCI_FRAME
PCI_AD15
6
R5
C15
PCI_PAR
E15
PCI_IRDY
B17
PCI_TRDY
B16
PCI_SERR
D15
PCI_PERR
A16
PCI_LOCK
A17
PCI_STOP
PCI_PAR
PCI_AD14
7
R6
PCI_IRDY
PCI_AD24
8
R7
PCI_TRDY
PCI_AD20
9
R8
PCI_AD12
PCI_SERR
10K
RNET8
PCI_PERR
PCI_LOCK
3
RN6
PCI_STOP
5
10
COM1
COM2
1
R1
PCI_AD29
2
R2
PCI_AD18
3
USB_CLK
R3
G07
USB_CLK
PF11
PF12
PF13
PF14
PCI_AD26
4
R4
A09
XVER_DATA
C09
DPLS
D08
DMNS
B10
TXDPLS
G10
TXDMNS
C10
TXEN
A11
SUSPEND
PF10
2
PCI_AD0
USB_XVER_DATA
PCI_AD19
6
R5
USB_DPLS
PCI_AD30
7
R6
USB_DMNS
PCI_AD23
8
R7
USB_TXDLPLS
PCI_AD22
9
R8
PCI_AD27
USB_TXDMNS
10K
RNET8
USB_TXEN
USB_SUSPEND
PF15
ADSP-BF535PKB-300
PBGA260
SCLK0
B11
ADSP-BF535PKB-300
PBGA260
NMI
D12
R5
33
805
SLEEP
B09
RESET
CLKOUT
ANALOG
DEVICES
ADSP-BF535PKB-300
PBGA260
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - DSP
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-25-2003_9:50
D
2
of
12
A
B
3.3V
C
D
3.3V
1
1
RN3
1
PB0
2
PB1
3
PB2
4
PB3
5
PB4
6
PB5
7
PB6
8
PB7
R1
16
COM
R2
R15
R3
R14
14
13
R4
R13
R5
R12
PD0
PA1
PD1
PA2
PD3
12
R11
R8
R9
3
4
PA3
5
6
PA5
10
R10
2
PA4
11
R7
1
PA0
15
R6
512 KB MAIN FLASH
32KB SECONDARY FLASH
RN4
7
PA6
9
8
PA7
16
COM
15
R15
14
R14
13
R13
12
R12
11
R11
10
R10
9
R9
R1
R2
R3
R4
R5
R6
R7
R8
~ABE0/SDQM0
PC7
~ABE3/SDQM3
PE6
A2
A[21:2]
A3
PE7
10K
RNET16
A5
A6
A7
A8
A9
A10
A11
A12
A13
3.3V
A14
2
A15
A16
A17
A18
R13
10K
805
R14
10K
805
R15
10K
805
R16
10K
805
R17
10K
805
R18
10K
805
R19
10K
805
A19
A20
A21
AMS0
PC7
3
AD0
4
AD1
5
AD2
6
AD3
7
AD4
10
AD5
11
AD6
12
AD7
13
AD8
14
AD9
15
AD10
16
AD11
17
AD12
18
AD13
19
AD14
20
AD15
41
PC0
42
PC1
43
PC2
44
PC3
45
PC4
46
PC5
47
PC6
48
PC7
D[15:0]
31
D0
32
D1
33
D2
PF0
PF1
34
D3
35
D4
PF3
PF4
36
D5
37
D6
38
D7
PF5
PF6
PF7
21
PG0
22
PG1
23
PG2
24
PG3
25
PG4
26
PG5
27
PG6
28
PG7
51
PA0
52
PA1
53
PA2
54
PA3
55
PA4
56
PA5
57
PA6
58
59
CNTL0/~WR
60
CNTL1/~RD
40
CNTL2
AOE
~ABE1/SDQM1
61
PB0
62
PB1
63
PB2
71
PE0/TMS
72
PE1/TCK
73
PE2/TDI
74
PE3/TDO
75
PE4/TSTAT
76
PE5/~TERR
77
PE6
78
PE7
3.3V
P4
1
3
2
3
4
PE6
5
6
PE7
7
8
9
10
12
U13
11
11
12
13
14
RESET
3
65
PB4
66
PB5
67
PB6
68
PB7
4
39
RESET
74LVC14A
SOIC14
A2
23
A3
24
A4
25
A5
26
A6
29
A7
30
A8
31
A9
32
A10
33
A11
34
D8
D9
D10
D11
22
D12
A13
35
D13
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
D14
A19
21
A18
20
D15
PA0
16
PA1
17
PA2
18
BA1
BA0
15
PA5
39
D0
A2
23
D1
A3
24
D2
A4
25
D3
A5
26
D4
A6
29
D5
A7
30
D6
A8
31
D7
A9
32
D8
A10
33
D9
A11
34
D10
22
D11
A13
CAS
RAS
35
A19
21
D14
A18
20
17
37
CKE
38
CLK
18
CS
15
DQML
39
DQMH
D19
8
D20
10
D21
11
D22
13
D23
42
D24
44
D25
45
D26
47
D27
48
D28
50
D29
51
D30
53
D31
A3
DQ3
A4
DQ4
A5
DQ5
A6
DQ6
A7
DQ7
A8
DQ8
A9
DQ9
A10
DQ10
A11
DQ11
BA1
DQ13
BA0
DQ14
DQ15
16
7
DQ2
D15
19
D18
A2
DQ12
D13
D17
5
DQ1
4
A1
D16
DQ0
2
A0
D12
WE
PA3
PA4
U6
2
DQ0
4
DQ1
5
DQ2
7
DQ3
8
DQ4
10
DQ5
11
DQ6
13
DQ7
42
DQ8
44
DQ9
45
DQ10
47
DQ11
48
DQ12
50
DQ13
51
DQ14
53
DQ15
2
WE
19
CS
37
CKE
38
CLK
CAS
RAS
DQML
DQMH
PA6
MT48LC4M16
TSOP54
PA7
PB0
SA10
PB1
SWE
PB2
SCAS
PB3
SRAS
PB4
~ABE0/SDQM0
PB5
~ABE1/SDQM1
PB6
~ABE2/SDQM2
PB7
~ABE3/SDQM3
MT48LC4M16
TSOP54
3
SCLK0
79
PD0
80
PD1
PD2
13
74LVC00AD
SOIC14
64
PB3
1
U9
A[19:2]
U5
PF2
PA7
AWE
SDRAM
4M X 16
D[31:0]
U4
A4
10K
RNET16
SDRAM
4M X 16
2
PD3
PD0
SCKE
PD1
SMS0
SLEEP
PD3
DSM2150F5V-12T6
TQFP80
7X2
IDC7X2SRDRA
C3
0.1UF
805
C4
1UF
805
ANALOG
DEVICES
PSD JTAG HEADER
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - DSP MEMORY
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-12-2003_15:48
D
3
of
12
A
B
C
D
SJ2
SHORTING
JUMPER
DEFAULT=4 & 6
1
AUDIO CODEC
AD1885
CT4
10UF
B
1
A5V
3.3V
SJ1
SHORTING
JUMPER
DEFAULT=3 & 5
C8
0.1UF
1206
POPULATE TO COMPLY WITH PC99
R21
0.00
1206
C114
0.22UF
805
U7
Analog Signals
C11
270PF
805
ALT_VAL=1K
C7
0.01UF
1206
DNP
JP1 SETTINGS
*
SJ1
SJ2
INPUT SOURCE
1&3
2&4
MIC IN
3&5
4&6
LINE IN
* Denotes Default Setting
1
VDD1
9
VDD2
4
VSS1
7
VSS2
26
AVSS1
40
AVSS2
44
AVSS3
FER2
600
1206
R29
4.7K
1206
R22
4.7K
1206
C15
470PF
1206
LINE IN/MIC
1
3
C110
1UF
805
C111
1UF
805
TP1
JP1
AGND
3
4
C10
0.047UF
1206
C9
0.1UF
1206
DT0
R114
0.00
1206
C6
22PF
805
TCLK0
RFS0
C5
22PF
805
R118
0.00
1206
RCLK0
32
FILT_L
31
FILT_R
46
ID1
45
ID0
5
2
DR0
6
BIT_CLK
10
SYNC
11
RESET
30
AFILT2
29
AFILT1
P5
2
8
SDATA_IN
5
SDATA_OUT
27
VREF
28
VREFOUT
C112
1UF
805
Y2
XXMHZ
24.576MHZ
OSC005
2
XTAL_IN
3
XTL_OUT
C13
270PF
805
AGND
2
Digital Signals
25
AVDD1
38
AVDD2
43
AVDD3
33
RX3D
34
CX3D
2
48
JS1
47
JS0
6
AGND
4
AGND
22
MIC2
21
MIC1
5
FER3
600
1206
1
R28
4.7K
1206
CON001
C14
470PF
1206
AGND
D5
VC0805
40A
805
C113
1UF
805
24
LINE_IN_R
23
LINE_IN_L
TP2
14
AUX_L
15
AUX_R
TP3
36
LINE_OUT_R
35
LINE_OUT_L
R20
4.7K
1206
D6
VC0805
40A
805
12
PC_BEEP
13
PHONE_IN
R26
10K
1206
R25
10K
1206
R23
10K
1206
R24
10K
1206
16
VIDEO_L
17
VIDEO_R
37
MONO_OUT
41
HP_OUT_R
39
HP_OUT_L
AGND
18
CD_L
20
CD_R
19
CD_GND_REF
JP2: 1885 DISABLE
1&2
DISABLE AD1885
* 2&3
NORMAL OPERATION
* DENOTES DEFAULT SETTING
AGND
AD1885JST
LQFP48
R30
2.21K
1206
SHGND
JP2
1
3
CT7
220UF
E
FER1
600
1206
HEAD PHONE OUT
P6
SJ3
3
PF15
2
3
SHORTING
JUMPER
DEFAULT=1 & 2
2
IDC3X1
3
W1
COPPER
4
C12
470PF
1206
5
R27
10K
1206
R32
10K
805
1
R112
0.00
1206
CON001
R31
10K
805
DNP
AGND
AGND
AGND
CT8
220UF
E
FER4
600
1206
AGND
D7
VC0805
40A
805
C16
470PF
1206
D8
VC0805
40A
805
AGND
R33
10K
1206
ANALOG
DEVICES
AGND
4
Approvals
SHGND
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - AUDIO CODEC
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-21-2003_12:05
D
4
of
12
A
B
C
D
3.3V
RN5
1
1
R1
2
R2
3
R3
4
R4
5
R5
6
R6
7
R7
8
R8
BMODE0
BMODE1
BMODE2
MS0
MS1
MS2
MS3
MS4
U9
16
COM
MUL_SEL
15
R15
MS5
14
R14
MS6
13
R13
DF
12
R12
SSEL1
10
R10
MS_PF0
4
YA
MS_PF1
7
YB
BYPASS
9
R9
MS_PF2
10K
RNET16
MS_PF3
9
YC
12
YD
9
6
74LVC14A
SOIC14
U20
SSEL0
11
R11
MS_PF[0:6]
8
2
I0A
3
I1A
5
I0B
6
I1B
11
I0C
10
I1C
14
I0D
13
I1D
S
74LVC14A
SOIC14
C19
0.01UF
805
PF0
MS1
PF1
MS2
PF2
MS3
PF3
MUL_SEL
SW2
1
MS0
S
E
1
7
18
8
DF
MS5
17
SSEL0
9
16
PF5
SSEL1
MS6
10
15
11
PF6
14
12
13
12
YD
MS6
PF4
11
12
DF_PF7
19
10
YC
MS5
MS4
9
9
20
6
8
YB
5
7
MS_PF6
7
21
6
MS_PF5
2
I0A
3
I1A
5
I0B
6
I1B
11
I0C
10
I1C
14
I0D
13
I1D
4
5
2
YA
22
4
MS4
U21
23
3
3
MS2
BYPASS
DF
24
2
2
MS1
ON
15
MS3
4
DSP_RESET_1
MS0
ADG774A
QSOP16
MS_PF4
1
5
1
E
1
R65
16K
1206
U9
2
SWT014
DIP12
PF7
MUL_SEL
15
QS3257Q
QSOP16
SW2: CLOCK MULTIPLIER SELECT SWITCH
1
2
3
4
5
6
7
8
9 10 11 12
OFF OFF OFF OFF ON ON ON ON OFF ON ON ON
DEFAULT SETTINGS:
Internal Clock - 15:1 - 300MHZ
External Clock - 2.5:1 - 120MHZ
REFER TO DSP HARDWARE REFERENCE FOR
DETAILED SETTING INFOMATION
U22
4
SSEL0_PF8
SW1
ON
3
YA
6
5
7
SSEL1_PF9
YB
4
3
BMODE2
2
2
BMODE1
1
BMODE0
3
1
9
SWT015
DIP3
YC
12
YD
2
I0A
3
I1A
5
I0B
6
I1B
11
I0C
10
I1C
14
I0D
13
I1D
SSEL0
PF8
R66
10K
805
SSEL1
PF9
PF0
R120
10K
805
PF1
R121
10K
805
SW1 SETTINGS: BOOT MODE SELECTION
BMODE2
ON
*
ON
ON
ON
OFF
* = DEFAULT
BMODE1
ON
ON
OFF
OFF
-
BMODE0
ON
OFF
ON
OFF
-
BOOT MODE
EXECUTE 16-BIT EXTERNAL
8-BITS ROM
SPI0 ROM (8-BIT ADDRESS)
SPI0 ROM (16-BIT ADDRESS)
ALL OTHERS RESERVED
S
E
1
3
PF2
MUL_SEL
R122
10K
805
15
PF3
QS3257Q
QSOP16
ANALOG
DEVICES
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - CONFIG
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-12-2003_15:48
D
5
of
12
A
B
C
D
3.3V
R83
10K
805
PF4
R82
100
805
R63
0.00
1206
U10
9
1
SW4
SWT013
SPST-MOMENTARY
8
PF4
3.3V
1
74LVC14A
SOIC14
CT9
1UF
A
3.3V
USB RESET
LED7
RED-SMT
LED001
R90
10K
805
3.3V
RESET
LED8
RED-SMT
LED001
3.3V
9
USB_CONFIGURED
8
USB_RESET
10
R84
10K
805
PF5
R64
0.00
1206
U10
5
SW5
SWT013
SPST-MOMENTARY
U23
MR
PF5
74LVC14A
SOIC14
SW8
SWT013
SPST-MOMENTARY
8
2
7
4
5
PFO
6
RESET
4
PFI
CT10
1UF
A
2
U24
1
6
R75
270
1206
74LVC00AD
SOIC14
R68
10K
805
R85
100
805
R76
270
1206
U13
RESET
18
1Y1
16
1Y2
14
1Y3
12
1Y4
1A1
1A2
1A3
8
RESET
ADM708SAR
SOIC8
1A4
PF[0:3]
PF0
11
PF1
13
PF2
15
PF3
17
SOFT_RESET
DSP_RESET_1
5V
2
9
2Y1
7
2Y2
5
2Y3
3
2Y4
2A1
2A2
2A3
2A4
1
OE1
19
PF3
LED3
AMBER-SMT
LED001
OE2
PF2
LED2
AMBER-SMT
LED001
PF1
LED1
AMBER-SMT
LED001
PF0
LED4
AMBER-SMT
LED001
POWER
LED6
GREEN-SMT
LED001
IDT74FCT3244APY
SSOP20
3.3V
R69
270
1206
R70
270
1206
R71
270
1206
R72
270
1206
R74
680
1206
R88
10K
805
PF6
R89
100
805
11
3
R115
0.00
1206
U10
SW6
SWT013
SPST-MOMENTARY
10
PF6
74LVC14A
SOIC14
1
CT12
1UF
A
U13
3
3
2
3.3V
74LVC00AD
SOIC14
3.3V
U9
1
2
74LVC14A
SOIC14
R78
10K
805
R79
10K
805
R80
10K
805
U9
3.3V
3.3V
13
12
4
U13
U10
6
74LVC14A
SOIC14
NMI
R86
100
805
R116
0.00
1206
U10
13
12
74LVC14A
SOIC14
R67
100
805
3
4
74LVC14A
SOIC14
74LVC14A
SOIC14
R117
0.00
1206
U9
11
PF7
SW3
SWT013
SPST-MOMENTARY
10
NMI
74LVC14A
SOIC14
ANALOG
DEVICES
CT13
1UF
A
CT11
1UF
A
4
2
R91
10K
805
R87
10K
805
SW7
SWT013
SPST-MOMENTARY
U10
1
5
74LVC00AD
SOIC14
PF7
R81
10K
805
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - RESET/PB/LED
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-13-2003_19:50
D
6
of
12
A
B
C
D
D[0:31]
A[2:25]
3.3V
3.3V
5V
1
1.5V
1
DSP JTAG HEADER
P2
2
1
4
3
P3
P1
2
~ABE3/SDQM3
4
3
6
5
SCLK0
~ABE0/SDQM0
A3
8
7
A2
A5
10
9
A4
A7
12
11
A6
A9
14
13
A8
A11
16
15
A10
A13
18
17
A12
A15
20
19
A14
A17
22
21
A16
A19
24
23
A18
A21
26
25
A20
A23
28
27
A22
A25
30
29
A24
32
31
2
34
33
36
35
SCKE
SMS0
SMS1
SMS2
SMS3
ARDY
AMS0
AMS1
AMS2
AMS3
PF5
D1
40
39
D0
D3
42
41
D2
PF7
D5
44
43
D4
D7
46
45
D6
D9
48
47
D8
D11
50
49
D10
D13
52
51
D12
D15
54
53
D14
D17
56
55
D16
57
SRAS
PF3
37
58
SCAS
PF1
38
D19
3
1
D18
D21
60
59
D20
D23
62
61
D22
D25
64
63
D24
D27
66
65
D26
PF9
PF11
PF13
PF15
RCLK1
RFS1
DR1
SCK0
MOSI0
6
5
8
7
10
9
12
11
14
13
16
15
18
17
20
19
22
21
24
23
26
25
28
27
30
29
32
31
34
33
36
35
38
37
40
39
42
41
44
43
46
45
48
47
50
49
52
51
54
53
56
55
58
57
60
MISO0
RX0
TX0
TMR1
NMI
59
62
61
64
63
66
65
68
67
D29
68
67
D28
70
69
D31
70
69
D30
72
71
72
71
74
73
74
73
76
75
78
77
78
77
80
79
80
79
82
81
82
81
84
83
84
83
86
85
86
85
88
87
87
90
89
90
1
4
3
SWE
6
5
SA10
8
7
10
9
12
11
14
13
16
15
18
17
~ABE0/SDQM0
~ABE1/SDQM1
PA0
~ABE2/SDQM2
PA1
~ABE3/SDQM3
PA2
AWE
PA3
ARE
PA4
AOE
PA5
20
19
22
21
24
PA6
~ABE0/SDQM0
26
PA7
~ABE1/SDQM1
28
RESET
~ABE2/SDQM2
30
RESET
23
25
27
29
~ABE3/SDQM3
32
31
PF0
34
33
PF2
36
35
PF4
38
37
PF6
40
39
PF8
42
41
PF10
44
43
PF12
46
45
PF14
48
47
TCLK1
50
49
TFS1
52
51
DT1
54
53
SCK1
56
55
MOSI1
58
57
MISO1
60
59
RX1
62
61
TX1
64
63
TMR0
66
65
TMR2
68
67
70
69
72
74
R57
10K
805
USB_CLK
HEADER_SELECT
USB_XVER_DATA
P8
USB_DPLS
1
2
USB_DMNS
3
4
USB_TXDLPLS
5
6
USB_TXDMNS
7
8
USB_TXEN
9
10
USB_SUSPEND
11
12
SLEEP
13
14
CLKOUT
HEADER_EMU
HEADER_TMS
HEADER_TCK
HEADER_TRST
HEADER_TDI
HEADER_TDO
IDC7X2
2
SPORT0
P9
1
2
3
4
5
6
7
8
9
10
71
11
12
73
13
14
76
75
15
16
78
77
17
18
80
79
19
20
82
81
84
83
86
85
88
87
90
89
DT0
TFS0
TCLK0
RCLK0
3
75
76
88
2
RFS0
DR0
CON014
10X2
89
CON017
45X2
CON017
45X2
CON017
45X2
ANALOG
DEVICES
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - CONNECTORS
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-13-2003_19:50
D
7
of
12
A
B
C
D
1
PF14
PF13
1
1
1
1
0
0
0
0
1
1
0
0
1
1
0
0
1
PF12 VDD_INT
1
0
1
0
1
0
1
0
1.6V
1.5V
1.4V
1.3V
1.2V
1.1V
1.0V
0.9V
*
* = DEFAULT
WAIT 100uS FOR VOLTAGE TO SETTLE
AFTER CHANGING PF11-9
UNREG_IN
PWR_MGT_OUT
L1
10UH
IND001
3V_DSP
VR5
1
2
2
3
4
C22
1UF
805
IN1
SW
IN2
DRV
R95
53.6K
805
8
C21
470PF
1206
2
7
6
GND1
GND2
COMP
FB
R97
0.00
1206
R103
316K
805
5
ADP3088
MSOP8
R100
665K
805
R101
332K
805
R102
165K
805
R99
DNP
1206
R92
10K
805
R96
DNP
1206
C23
DNP
805
R93
10K
805
R94
DNP
805
3
R98
DNP
1206
C20
470PF
1206
3
M3
BSS123
SOT23D
3
1
M2
BSS123
SOT23D
1
M1
BSS123
SOT23D
1
PF14
2
2
2
PF13
D4
1A
DO-214AA
PF12
3
3
R104
20.0K
1206
R123
DNP
805
R124
DNP
805
R125
10K
805
ANALOG
DEVICES
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - POWER 1
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-12-2003_15:48
D
8
of
12
A
B
C
D
1
1
5V
F1
2.5A
FUS001
FER9
CHOKE_COIL
FER002
4
3
1
D2
2A
DO-214AA
UNREG_IN
3
INPUT
2
1
2
2
OUTPUT
GND
1
ADP3339AKC-5
SOT-223
P10
D3
2A
DO-214AA
C26
1000PF
1206
R110
0.00
RC05
VR4
R109
100K
1206
CT16
10UF
C
C27
0.1UF
805
CT17
10UF
C
C28
0.1UF
805
5V
A5V
3
7.5V_POWER
CON005
FER6
600
1206
C25
1000PF
1206
2
2
SHGND
3.3V
5V
3V_DSP
R113
0.00
1206
VR2
3
INPUT
OUTPUT
FER7
600
1206
5V
R111
0.00
1206
VR1
2
3
INPUT
GND
1
ADP3338AKC-33
SOT-223
FER8
600
1206
2
OUTPUT
GND
1
ADP3338AKC-33
SOT-223
CT18
10UF
C
C29
0.1UF
805
CT15
10UF
C
D1
2A
DO-214AA
C24
0.1UF
805
SHGND
VDD_INT
5V
3
3
1.5V
R105
10K
805
MH1
MH2
MH3
MH4
MH5
VR3
2
INPUT
6
SD
ERR
OUTPUT
R126
0.00
1206
3
1
5
FB
GND
4 ADP3331ART
SOT23-6
R128
34.8K
805
R106
243.0K
805
SHGND
CT14
0.47UF
A
CT1
22UF
D
R108
1.00M
1210
ANALOG
DEVICES
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - POWER 2
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-25-2003_9:02
D
9
of
12
A
B
C
D
3.3V
3.3V
1
C48
0.01UF
805
C47
0.01UF
805
C44
0.01UF
805
C45
0.01UF
805
C46
0.01UF
805
C50
0.01UF
805
C49
0.01UF
805
C54
0.01UF
805
C55
0.01UF
805
MT48LC4M16 (U5)
C53
0.01UF
805
3.3V
C52
0.01UF
805
C51
0.01UF
805
C56
0.01UF
805
C57
0.01UF
805
C102
0.01UF
805
C43
0.01UF
805
C42
0.01UF
805
1
MT48LC4M16 (U6)
PSD4135 (U4)
VDD_INT
C93
10UF
1210
C95
10UF
1210
C98
10UF
1210
C82
0.01UF
805
C81
0.01UF
805
C78
0.01UF
805
2
VDD_EXT
C79
0.01UF
805
C80
0.01UF
805
C83
0.01UF
805
C84
0.01UF
805
C85
0.01UF
805
C86
0.01UF
805
C87
0.01UF
805
C77
0.01UF
805
C76
0.01UF
805
C75
0.01UF
805
C71
0.01UF
805
C69
0.01UF
805
VDD_PLL
C70
0.01UF
805
C68
0.01UF
805
C72
0.01UF
805
C73
0.01UF
805
C74
0.01UF
805
VDD_RTC
C63
0.01UF
805
C64
0.01UF
805
2
ADSP-21535 INTERNAL (U1)
ADSP-21535 EXTERNAL (U1)
ADSP-21535 PLL (U1)
ADSP-21535 RTC (U1)
VDD_PCIEXT
3.3V
CT21
10UF
B
C107
0.01UF
805
C106
0.01UF
805
C38
0.01UF
805
C32
0.01UF
805
3.3V
C39
0.01UF
805
C97
0.01UF
805
C103
0.01UF
805
C104
0.01UF
805
C105
0.01UF
805
C61
0.01UF
805
CYC64603-128 (U11)
3
CT19
10UF
B
C40
0.01UF
805
C41
0.01UF
805
CT20
10UF
B
C65
0.01UF
805
C59
0.01UF
805
C60
0.01UF
805
C62
0.01UF
805
C88
0.01UF
805
C89
0.01UF
805
QS3257 (U14, U15, U20, U21, U22)
C91
0.01UF
805
C90
0.01UF
805
C92
0.01UF
805
ADSP-21535 PCI (U1)
3.3V
C36
0.01UF
805
C37
0.01UF
805
C108
0.01UF
805
IDT74FCT3244APY (U24)
C34
0.01UF
805
C35
0.01UF
805
74LVC14A (U9, U10, U19)
3
A5V
3.3V
C58
0.01UF
805
3.3V
3.3V
C66
0.01UF
805
C67
0.01UF
805
C31
0.01UF
805
3.3V
C30
0.01UF
805
3.3V
C96
0.01UF
805
3.3V
C109
0.01UF
805
3.3V
C116
0.01UF
805
3.3V
C94
0.01UF
805
3.3V
C100
0.01UF
805
3.3V
C101
0.01UF
805
3.3V
C99
0.01UF
805
C33
0.01UF
805
AGND
CY7C1019V33-15VC (U12)
AD1885JST DIGITAL (U7)
SN74LV164A (U17)
SN74AHC1G02 (U16)
SN74AHC1G00 (U26)
CY7C4201V-15AC (U18)
ADP3088 (VR5)
ADM708SAR (U23)
24LC00-SN (U25)
74LVC00AD (U13)
AD1885JST ANALOG (U7)
ANALOG
DEVICES
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - BYPASS CAPS
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-12-2003_15:48
D
10
of
12
A
B
C
D
1
1
All USB interface circuitry is considered proprietary
and has been omitted from this schematic
2
2
When designing your JTAG interface please refer to
the Engineer to Engineer Note EE-68 which can be found at
http://www.analog.com
3
3
ANALOG
DEVICES
4
Approvals
Date
Title
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF535 EZ-KIT LITE - USB INTERFACE
Drawn
Checked
Engineering
A
B
C
Size
Board No.
C
Date
Rev
A0162-2000
1.6
Sheet
3-25-2003_11:11
D
11
of
12
I
INDEX
Symbols
~AMS0, memory select pin, 2-3, 3-3
~SMS0, memory select pin, 2-3, 3-3
A
Add New Hardware Wizard, Windows
98, 1-8
ADSP-BF535 processor
core voltage, 3-2
DF pin, 3-8
internal memory restrictions, 2-2
internal SRAM, 2-3
memory map
MSEL0 pin, 3-8
MSEL1 pin, 3-8
MSEL2 pin, 3-8
MSEL3 pin, 3-8
MSEL4 pin, 3-8
MSEL5 pin, 3-8
MSEL6 pin, 3-8
peripheral interface voltage, 3-2
peripheral ports, -xiii
real time clock (RTC), 3-3
SSEL0 pin, 3-8
SSEL1 pin, 3-8
audio
applications, -xiii
codec disable jumper (JP2), 3-6
input select jumper (JP1), 3-5
interface (SPORT0), 3-3
jacks (P5, P6), 3-13
B
background telemetry channel (BTC),
2-9
bill of materials, A-1
boot load, 2-13
boot mode
8-bit, 2-6
external execution mode, 2-6
switch (SW1), -xiii
boot mode switch (SW1)
see also switch settings
breakpoints, restrictions, 2-21
breakpoints, see hardware breakpoints
C
codecs, -xii, 2-7, 3-3, 3-5, 3-6, A-2
connecting, EZ-KIT Lite board, 1-6
connectors, 1-6, 3-12
expansion interface, 3-3, 3-12, 3-17
P1 (expansion), 3-4
P10 (power), 3-15
P2 (expansion), 2-7
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
I-1
INDEX
P3 (expansion), 3-5
P4 (FlashLINK), 3-13
P5 (audio), 3-5, 3-13
P6 (audio), 3-3, 3-13
P7 (USB), 1-7, 3-14
P8 (JTAG), 3-5, 3-14
P9 (SPORT0), 3-4, 3-15
contents, EZ-KIT Lite package, 1-1
context switching, 2-13
using M3 register, 2-13
using SP, 2-14
conventions, manual, -xxi
core voltage, 2-8, 3-2
customer support, -xvi
D
data breakpoints, 2-15
specific attributes, 2-15
Device Manager window, 1-16
DIP switch, 1-6, 3-5
E
electrostatic discharge, 1-2
emulation events, 2-12
example programs, 2-8
exceptions, 2-12
expansion interface (P1, P2, P3), see
connectors
external
bus interface unit (EBIU), 3-3
flash memory, see flash memory
EZ-KIT Lite board
architecture, 3-2
I-2
F
features, product, -xii
flash arrays
boot, main, 2-5
flash memory, -xiii, 2-3, 2-5, 3-3
FlashLINK (P4), 2-5, 3-13
PSDsoft Express, 2-5
flash programmer, 2-9
Found New Hardware Wizard
Windows 2000, 1-14
G
graphical user interface (GUI), 2-10
H
hard reset, 2-13
hardware breakpoints, 2-14
common attributes, 2-15
data type, 2-15
global options, 2-15
instruction type, 2-16
restrictions, 2-18
tips and tricks, 2-18
Help, online, -xix, 2-9
I
installation, summary, 1-3
installing
EZ-KIT Lite USB driver, 1-7
VisualDSP++ and EZ-KIT Lite
software, 1-4
VisualDSP++ license, 1-5
instruction breakpoints
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
INDEX
specific attributes, 2-16
interface, see graphical user interface
(GUI)
internal
memory restrictions, 2-2
memory, ADSP-BF535 processors,
2-3
J
JTAG
connector (P8), 3-14
emulation port, 3-5
jumper settings, 1-6, 3-3, 3-5
codec disable (JP2), 3-4, 3-6
input select (JP1), 3-5
L
latency cycles, 2-18
LEDs, 1-6, 3-9
LED1, 2-6, 3-10
LED2, 2-6, 3-10
LED3, 2-6, 3-10
LED4, 1-15, 2-6, 3-10
LED5, 1-16, 3-10
LED6, 1-7, 3-10
LED7, 1-7, 3-10
LED8, 1-7, 3-10
license restrictions, 2-2
M
M3 register, 2-13
measurements, 3-16
mechanical dimensions, 3-17
memory map, see ADSP-BF535
processor
memory mapped registers (MMR), 2-7
FIO_DIR, 2-7
FIO_FLAG_C, 2-7
N
non-maskable interrupt (NMI)
pin, 3-11
push button (SW3), 3-11
P
package contents, 1-1
PC configuration, 1-3
Performance Monitor Control dialog
box, 2-11
peripheral
interface voltage, 3-2
ports, -xiii
phase lock loop (PLL) setup switch
(SW2), 3-7
PMGMT0, 2-7
PMGMT1, 2-7
PMGMT2, 2-7
power
connector (P10), 3-15
LED (LED6), 3-10
management, 2-7
supply, 3-16
processor memory map, see
ADSP-BF535 processor
programmable flags (PFs), 3-7, 3-9
PF0, 2-6, 3-10
PF1, 2-6, 3-10
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
I-3
INDEX
PF10, 2-7
PF11, 2-7
PF12, 2-7, 2-8
PF13, 2-7, 2-8
PF14, 2-7, 2-8
PF15, 2-7, 3-4, 3-6
PF2, 2-6, 3-10
PF3, 2-6, 3-10
PF4, 2-7
PF5, 2-7
PF6, 2-7
PF7, 2-7
PF8, 2-7
PF9, 2-7
pins, 2-6
see also push buttons
push buttons, 3-7, 3-9
SW3, 3-11
SW4, 2-7, 3-11
SW5, 2-7, 3-11
SW6, 2-7, 3-11
SW7, 2-7, 3-11
SW8, 3-11
S
SDRAM, 2-3, 2-4, 3-3
setting
hardware breakpoints, 2-14
target options, 2-19
setting up EZ-KIT Lite hardware, 1-5
software breakpoints, 2-21
SP
stack pointer, 2-14
stack pointer register, 2-13, 2-14
specifications, 3-15
SPORT0 (P9), -xiii, 3-15
starting VisualDSP++, 1-16
SW2, see phase lock loop
switch settings
boot mode select (SW1), 3-7
also see boot mode switch
phase lock loop setup (SW2), 3-7
system architecture, EZ-KIT Lite board,
3-2
system requirements, PC, 1-3
R
registering, this product, 1-2
regulatory compliance, -iii
reset
board, 2-13, 3-11
options, 2-19
processor, 2-6, 3-10
service routines, 2-11
resistors, 3-16
I-4
T
target options
miscellaneous, 2-20
on emulator exit, 2-20
reset, 2-19
Target Options dialog box, 2-13, 2-19
trace
buffer, 2-10, 2-11
destination, 2-11
instruction addresses, 2-11
number, 2-11
source, 2-11
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
INDEX
Trace window, 2-10, 2-11
U
USB
cable, 1-2
connector (P7), 3-14
driver installation, Windows
2000, 1-12
driver installation, Windows 98,
1-8
driver installation, Windows XP,
1-13
interface, 3-5
interface chip (U11), 3-11
monitor LED (LED4), 1-15
monitor LED (LED5), 3-10
port, -xiii
V
VDD_INT, core voltage, 2-8
verifying USB driver installation,
1-15
VisualDSP++
documentation, -xix
installation, 1-4
license, 1-5
online Help, -xix
requirements, 1-3
starting, 1-16
voltage plane, 3-16
ADSP-BF535 EZ-KIT Lite Evaluation System Manual
I-5
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