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ADSP-BF592 EZ-KIT Lite® Evaluation System Manual

ADSP-BF592 EZ-KIT Lite®
Evaluation System Manual
Revision 1.0, May 2010
Part Number
82-000231-01
Analog Devices, Inc.
One Technology Way
Norwood, Mass. 02062-9106
a
Copyright Information
© 2010 Analog Devices, Inc., ALL RIGHTS RESERVED. This document may not be reproduced in any form without prior, express written
consent from Analog Devices, Inc.
Printed in the USA.
Disclaimer
Analog Devices, Inc. reserves the right to change this product without
prior notice. Information furnished by Analog Devices is believed to be
accurate and reliable. However, no responsibility is assumed by Analog
Devices for its use; nor for any infringement of patents or other rights of
third parties which may result from its use. No license is granted by implication or otherwise under the patent rights of Analog Devices, Inc.
Trademark and Service Mark Notice
The Analog Devices logo, VisualDSP++, Blackfin, EZ-KIT Lite, and
EZ-Extender are registered trademarks of Analog Devices, Inc.
All other brand and product names are trademarks or service marks of
their respective owners.
Regulatory Compliance
The ADSP-BF592 EZ-KIT Lite is designed to be used solely in a laboratory environment. The board is not intended for use as a consumer end
product or as a portion of a consumer end product. The board is an open
system design which does not include a shielded enclosure and therefore
may cause interference to other electrical devices in close proximity. This
board should not be used in or near any medical equipment or RF devices.
The ADSP-BF592 EZ-KIT Lite is currently being processed for certification that it complies with the essential requirements of the European
EMC directive 89/336/EEC amended by 93/68/EEC and therefore carries
the “CE” mark.
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
Product Overview .......................................................................... ix
Purpose of This Manual .................................................................. x
Intended Audience ......................................................................... xi
Manual Contents ........................................................................... xi
What’s New in This Manual .......................................................... xii
Technical or Customer Support ..................................................... xii
Supported Processors .................................................................... xiii
Product Information .................................................................... xiii
Analog Devices Web Site ........................................................ xiii
VisualDSP++ Online Documentation ..................................... xiv
Technical Library CD .............................................................. xv
EngineerZone .......................................................................... xv
Social Networking Web Sites .................................................. xvi
Related Documents ...................................................................... xvi
Notation Conventions ................................................................. xvii
USING ADSP-BF592 EZ-KIT LITE
Package Contents .......................................................................... 1-2
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
iii
Contents
Default Configuration .................................................................. 1-3
EZ-KIT Lite Installation ............................................................... 1-5
EZ-KIT Lite Session Startup ......................................................... 1-6
Evaluation License Restrictions ..................................................... 1-8
Memory Map ............................................................................... 1-8
SPI Flash Memory Interface .......................................................... 1-9
Audio Interface ............................................................................. 1-9
Power-On-Self Test ..................................................................... 1-11
Expansion Interface II ................................................................. 1-11
Power Architecture ..................................................................... 1-12
VDDINT Programmable Regulator ............................................ 1-13
Power Measurements .................................................................. 1-14
Example Programs ...................................................................... 1-14
Background Telemetry Channel .................................................. 1-15
Reference Design Information ..................................................... 1-15
ADSP-BF592 EZ-KIT LITE HARDWARE REFERENCE
System Architecture ...................................................................... 2-2
Programmable Flags ...................................................................... 2-3
Push Buttons and Switches ............................................................ 2-6
SPORT0 Enable Switch (SW1) ............................................... 2-7
UART Setup Switch (SW2) ..................................................... 2-7
Battery Switch (SW3) .............................................................. 2-7
Boot Mode Select Switch (SW4) .............................................. 2-8
Push Button Enable Switch (SW5) .......................................... 2-8
iv
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Contents
Fuel Gauge Enable Switch (SW6) ............................................ 2-8
Reset Push Button (SW7) ........................................................ 2-9
Programmable Flag Push Buttons (SW8–9) ............................ 2-10
MIC Gain Switch (SW10) ..................................................... 2-10
WAKE_EN Switch (SW11) ................................................... 2-10
Jumpers ...................................................................................... 2-12
Reset Jumper (JP1) ................................................................ 2-13
SPI Flash CS Enable Jumper (JP2) ......................................... 2-13
VDDEXT Power Jumper (JP3) .............................................. 2-13
VDDINT Power Jumper (JP4) .............................................. 2-13
MIC Select Jumper (JP5) ....................................................... 2-14
CHG Control Jumper (JP6) .................................................. 2-14
BATT Installed Jumper (JP7) ................................................. 2-14
R89 Jumper (JP8) .................................................................. 2-14
DA Test Mode Jumper (ZP1) ................................................. 2-15
Windows/Linux Jumper (ZJP2) ............................................. 2-15
LEDs .......................................................................................... 2-16
GPIO LEDs (LED1–3) ......................................................... 2-17
Reset LED (LED4) ................................................................ 2-17
Power LED (LED5) ............................................................... 2-17
Battery Charging LED (LED6) .............................................. 2-17
Battery Low LED (LED7) ..................................................... 2-18
BATT GOOD LED (LED8) ................................................. 2-18
DA PWR LED (ZLED1) ....................................................... 2-18
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
v
Contents
DA MON LED (ZLED2) ..................................................... 2-18
DA STAT LED (ZLED3) ...................................................... 2-18
Connectors ................................................................................. 2-19
DCE UART Connector (J1) .................................................. 2-20
Dual Audio Connectors (J2–3) .............................................. 2-20
DMAX Land Grid Array Connector (P1) ............................... 2-20
JTAG Connector (P2) ........................................................... 2-21
Battery Connector (P3) ......................................................... 2-21
Expansion Interface II Connectors (P4–5) ............................. 2-21
Expansion Interface II Connector (P6) .................................. 2-22
Power Connector (P9) ........................................................... 2-22
USB Connector (ZP1) .......................................................... 2-22
ADSP-BF592 EZ-KIT LITE BILL OF MATERIALS
ADSP-BF592 EZ-KIT LITE SCHEMATIC
Title Page ..................................................................................... B-1
Processor and SPI Flash ................................................................ B-2
Audio Codec ................................................................................ B-3
LEDs, PBs, RESET, UART ........................................................... B-4
Expansion and DMAX .................................................................. B-5
Battery Charger and Fuel Gauge ................................................... B-6
Power ........................................................................................... B-7
INDEX
vi
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
PREFACE
Thank you for purchasing the ADSP-BF592 EZ-KIT Lite®, Analog
Devices, Inc. low-cost, low-power consumption evaluation system for the
ADSP-BF592 Blackfin® processors.
Blackfin processors embody a new type of embedded processor designed
specifically to meet the computational demands and power constraints of
today’s embedded audio, video, and communications applications. They
deliver breakthrough signal-processing performance and power efficiency
within a reduced instruction set computing (RISC) programming model.
Blackfin processors support a media instruction set computing (MISC)
architecture. This architecture is the natural merging of RISC, media
functions, and digital signal processing (DSP) characteristics. Blackfin
processors deliver signal-processing performance in a microprocessor-like
environment.
Based on the Micro Signal Architecture (MSA), Blackfin processors combine a 32-bit RISC instruction set, dual 16-bit multiply accumulate
(MAC) DSP functionality, and eight-bit video processing performance
that had previously been the exclusive domain of very-long instruction
word (VLIW) media processors.
The evaluation board is designed to be used in conjunction with the VisualDSP++® development environment to test capabilities of the
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
vii
ADSP-BF592 Blackfin processors. The VisualDSP++ development environment aids advanced application code development and debug, such as:
• Create, compile, assemble, and link application programs written
in C++, C, and ADSP-BF592 assembly
• Load, run, step, halt, and set breakpoints in application programs
• Read and write data and program memory
• Read and write core and peripheral registers
• Plot memory
Access to the processor from a personal computer (PC) is achieved
through a USB port or an external JTAG emulator. The USB interface
provides unrestricted access to the ADSP-BF592 processor and 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 processor development tools, go to
http://www.analog.com/dsp/tools/.
The ADSP-BF592 EZ-KIT Lite provides example programs to demonstrate the evaluation board capabilities.
ADSP-BF592 EZ-KIT Lite installation is part of the VisuL The
alDSP++ 5.0. An EZ-KIT Lite is a licensed product that offers an
unrestricted evaluation license for the first 90 days. For details
about evaluation license restrictions after the 90 days, refer to
“Evaluation License Restrictions” on page 1-8 in this manual and
the VisualDSP++ Installation Quick Reference Card.
viii
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Preface
Product Overview
The board features:
• Analog Devices ADSP-BF592 Blackfin processor
• Core performance up to 400 MHz
• 64-lead LFCSP
• Programmable VDDINT core power
• Analog Devices AD5258 TWI digital potentiometer
• Analog Devices ADP1715 low dropout linear regulator
• SPI external flash memory
• Numonyx M25P16 – 16 Mb
• Audio codec
• Analog Devices SSM2603 stereo, 24-bit analog-to-digital
and digital-to-analog converters
• Highly efficient headphone amplifier
• Stereo line input and monaural microphone input
• Universal asynchronous receiver/transmitter (UART)
• ADM3202 RS-232 line driver/receiver
• DB9 female connector
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ix
Purpose of This Manual
• LEDs
• Eight LEDs: one board reset (red), three general-purpose
(amber), one power (green), one battery good indicator
(green), one battery low indicator (amber) and one battery
charging indicator (amber)
• Push buttons
• Four push buttons: one reset, two programmable flags, and
one wake-up with debounce logic
• Expansion interface II
• Next generation of the expansion interface design, provides
access to most of the processor signals
• Land grid array
• Easy probing of all port pins
• Other features
• JTAG ICE 14-pin header
• Battery charger for a 3.7V single sell Li-Ion battery
For information about the hardware components of the EZ-KIT Lite,
refer to “ADSP-BF592 EZ-KIT Lite Bill Of Materials” on page A-1.
Purpose of This Manual
The ADSP-BF592 EZ-KIT Lite Evaluation System Manual provides
instructions for installing the product hardware (board). The text
describes operation and configuration of the board components and provides guidelines for running your own code on the ADSP-BF592 EZ-KIT
Lite. Finally, a schematic and a bill of materials are provided for reference.
x
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Preface
The product software installation is detailed in the VisualDSP++ Installation Quick Reference Card.
Intended Audience
The primary audience for this manual is a programmer who is familiar
with Analog Devices processors. This manual assumes that the audience
has a working knowledge of the appropriate processor architecture and
instruction set. Programmers who are unfamiliar with Analog Devices
processors can use this manual but should supplement it with other texts
(such as the ADSP-BF50x Blackfin Processor Hardware Reference and
Blackfin Processor Instruction Set Reference) that describe your target
architecture.
Programmers who are unfamiliar with VisualDSP++ should refer to the
VisualDSP++ online Help and user’s or getting started guides. For the
locations of these documents, see “Related Documents”.
Manual Contents
The manual consists of:
• Chapter 1, “Using ADSP-BF592 EZ-KIT Lite” on page 1-1.
Describes EZ-KIT Lite functionality from a programmer’s perspective and provides an easy-to-access memory map.
• Chapter 2, “ADSP-BF592 EZ-KIT Lite Hardware Reference” on
page 2-1.
Provides information about the EZ-KIT Lite hardware
components.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
xi
What’s New in This Manual
• Appendix A, “ADSP-BF592 EZ-KIT Lite Bill Of Materials” on
page A-1.
Provides a list of components used to manufacture the EZ-KIT
Lite board.
• Appendix B, “ADSP-BF592 EZ-KIT Lite Schematic” on page B-1.
Provides the resources for board-level debugging, can be used as a
reference guide.
What’s New in This Manual
This is the first revision of the ADSP-BF592 EZ-KIT Lite Evaluation System Manual.
Technical or Customer Support
You can reach Analog Devices, Inc. Customer Support in the following
ways:
• Visit the Embedded Processing and DSP products Web site at
http://www.analog.com/processors/technical_support
• E-mail tools questions to
processor.tools.support@analog.com
• E-mail processor questions to
processor.support@analog.com (World wide support)
processor.europe@analog.com (Europe support)
processor.china@analog.com (China support)
• Phone questions to 1-800-ANALOGD
xii
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Preface
• Contact your Analog Devices, Inc. local sales office or authorized
distributor
• Send questions by mail to:
Analog Devices, Inc.
One Technology Way
P.O. Box 9106
Norwood, MA 02062-9106
USA
Supported Processors
This evaluation system supports Analog Devices ADSP-BF592 Blackfin
embedded processors.
Product Information
Product information can be obtained from the Analog Devices Web site,
VisualDSP++ online Help system, and a technical library CD.
Analog Devices Web Site
The Analog Devices Web site, www.analog.com, provides information
about a broad range of products—analog integrated circuits, amplifiers,
converters, and digital signal processors.
To access a complete technical library for each processor family, go to
http://www.analog.com/processors/technical_library. The manuals
selection opens a list of current manuals related to the product as well as a
link to the previous revisions of the manuals. When locating your manual
title, note a possible errata check mark next to the title that leads to the
current correction report against the manual.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
xiii
Product Information
Also note, MyAnalog.com is a free feature of the Analog Devices Web site
that allows customization of a Web page to display only the latest information about products you are interested in. You can choose to receive
weekly e-mail notifications containing updates to the Web pages that meet
your interests, including documentation errata against all manuals.
MyAnalog.com provides access to books, application notes, data sheets,
code examples, and more.
Visit MyAnalog.com to sign up. If you are a registered user, just log on.
Your user name is your e-mail address.
VisualDSP++ Online Documentation
Online documentation comprises the VisualDSP++ Help system, software
tools manuals, hardware tools manuals, processor manuals, Dinkum
Abridged C++ library, and FLEXnet License Tools software documentation. You can search easily across the entire VisualDSP++ documentation
set for any topic of interest.
For easy printing, supplementary Portable Documentation Format (.pdf)
files for all manuals are provided on the VisualDSP++ installation CD.
Each documentation file type is described as follows.
xiv
File
Description
.chm
Help system files and manuals in Microsoft help format
.htm or
.html
Dinkum Abridged C++ library and FLEXnet License Tools software documentation. Viewing and printing the .html files requires a browser, such as Internet
Explorer 6.0 (or higher).
.pdf
VisualDSP++ and processor manuals in PDF format. Viewing and printing the
.pdf files requires a PDF reader, such as Adobe Acrobat Reader (4.0 or higher).
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Preface
Technical Library CD
The technical library CD contains seminar materials, product highlights, a
selection guide, and documentation files of processor manuals, VisualDSP++ software manuals, and hardware tools manuals for the following
processor families: Blackfin, SHARC, TigerSHARC, ADSP-218x, and
ADSP-219x.
To order the technical library CD, go to http://www.analog.com/processors/technical_library, navigate to the manuals page for your
processor, click the request CD check mark, and fill out the order form.
Data sheets, which can be downloaded from the Analog Devices Web site,
change rapidly, and therefore are not included on the technical library
CD. Technical manuals change periodically. Check the Web site for the
latest manual revisions and associated documentation errata.
EngineerZone
EngineerZone is a technical support forum from Analog Devices. It allows
you direct access to ADI technical support engineers. You can search
FAQs and technical information to get quick answers to your embedded
processing and DSP design questions.
Use EngineerZone to connect with other DSP developers who face similar
design challenges. You can also use this open forum to share knowledge
and collaborate with the ADI support team and your peers. Visit
http://ez.analog.com to sign up.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
xv
Related Documents
Social Networking Web Sites
You can now follow Analog Devices processor development on Twitter
and LinkedIn. To access:
• Twitter: http://twitter.com/ADIsharc and
http://twitter.com/blackfin
• LinkedIn: Network with the LinkedIn group, Analog Devices
SHARC or Analog Devices Blackfin: http://www.linkedin.com
Related Documents
For information on product related development software, see the following publications.
Table 1. Related Processor Publications
Title
Description
ADSP-BF592 Blackfin Embedded Processor Data
Sheet
General functional description, pinout, and
timing of the processor.
ADSP-BF59x Blackfin Processor Hardware Reference
Description of the internal processor architecture and all register functions.
ADSP-BF59x Blackfin Processor Programming Ref-
Description of all allowed processor assembly
instructions.
erence
Table 2. Related VisualDSP++ Publications
xvi
Title
Description
VisualDSP++ Assembler and Preprocessor Manuals
Description of the assembler function and
commands.
VisualDSP++ C/C++ Complier and Library Manual for Blackfin Processors
Description of the complier function and
commands for Blackfin processors.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Preface
Table 2. Related VisualDSP++ Publications (Cont’d)
Title
Description
VisualDSP++ Linker and Utilities Manual
Description of the linker function and commands.
VisualDSP++ Loader and Utilities Manual
Description of the loader/splitter function
and commands.
VisualDSP++ Device Drivers and System Services
Manual for Blackfin Processors
Description of the device drivers’ and system
services’ functions and commands.
Notation Conventions
Text conventions used in this manual are identified and described as
follows.
Example
Description
Close command
(File menu)
Titles in reference sections indicate the location of an item within the
VisualDSP++ environment’s menu system (for example, the Close command appears on the File menu).
{this | that}
Alternative required items in syntax descriptions appear within curly
brackets and separated by vertical bars; read the example as this or
that. One or the other is required.
[this | that]
Optional items in syntax descriptions appear within brackets and separated by vertical bars; read the example as an optional this or that.
[this,…]
Optional item lists in syntax descriptions appear within brackets delimited by commas and terminated with an ellipse; read the example as an
optional comma-separated list of this.
.SECTION
Commands, directives, keywords, and feature names are in text with
letter gothic font.
filename
Non-keyword placeholders appear in text with italic style format.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
xvii
Notation Conventions
Example
xviii
Description
L
Note: For correct operation, ...
A Note provides supplementary information on a related topic. In the
online version of this book, the word Note appears instead of this
symbol.
a
Caution: Incorrect device operation may result if ...
Caution: Device damage may result if ...
A Caution identifies conditions or inappropriate usage of the product
that could lead to undesirable results or product damage. In the online
version of this book, the word Caution appears instead of this symbol.
[
Warning: Injury to device users may result if ...
A Warning identifies conditions or inappropriate usage of the product
that could lead to conditions that are potentially hazardous for the
devices users. In the online version of this book, the word Warning
appears instead of this symbol.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
1 USING ADSP-BF592 EZ-KIT
LITE
This chapter provides specific information to assist you with development
of programs for the ADSP-BF592 EZ-KIT Lite evaluation system.
The following topics are covered.
• “Package Contents” on page 1-2
• “Default Configuration” on page 1-3
• “EZ-KIT Lite Installation” on page 1-5
• “EZ-KIT Lite Session Startup” on page 1-6
• “Evaluation License Restrictions” on page 1-8
• “Memory Map” on page 1-8
• “SPI Flash Memory Interface” on page 1-9
• “Audio Interface” on page 1-9
• “Power-On-Self Test” on page 1-11
• “Expansion Interface II” on page 1-11
• “Power Architecture” on page 1-12
• “VDDINT Programmable Regulator” on page 1-13
• “Power Measurements” on page 1-14
• “Example Programs” on page 1-14
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
1-1
Package Contents
• “Background Telemetry Channel” on page 1-15
• “Reference Design Information” on page 1-15
For information about the graphical user interface, including the boot
loading, target options, and other facilities of the EZ-KIT Lite system,
refer to the online Help.
For more detailed information about the ADSP-BF592 Blackfin processor, see documents referred to as “Related Documents”.
Package Contents
Your ADSP-BF592 EZ-KIT Lite package contains the following items.
• ADSP-BF592 EZ-KIT Lite board
• VisualDSP++ Installation Quick Reference Card
• CD containing:
• VisualDSP++ software
• ADSP-BF592 EZ-KIT Lite debug software
• USB driver files
• Example programs
• USB cable
Contact the vendor where you purchased your EZ-KIT Lite or contact
Analog Devices, Inc. if any item is missing.
1-2
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Using ADSP-BF592 EZ-KIT Lite
Default Configuration
The ADSP-BF592 EZ-KIT Lite board is designed to run as a stand-alone
unit.
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.
When removing the EZ-KIT Lite board from the package, handle the
board carefully to avoid the discharge of static electricity, which can damage some components. Figure 1-1 shows the default jumper and switch
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
1-3
Default Configuration
settings used in installation. Confirm that your board is in the default
configuration before using the board.
Figure 1-1. EZ-KIT Lite Hardware Setup
1-4
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Using ADSP-BF592 EZ-KIT Lite
EZ-KIT Lite Installation
For correct operation, install the software in the order presented in the
VisualDSP++ Installation Quick Reference Card. Substitute instructions in
step 3 with instructions in this section.
There are two options to connect the EZ-KIT Lite hardware to a personal
computer (PC) running VisualDSP++ 5.0: via an Analog Devices emulator or via the onboard debug agent.
To connect the EZ-KIT Lite to a PC via an emulator:
1. Plug the 5V adaptor into connector P9 (labeled 5V) or plug the
USB cable into connector ZP1 (labeled USB).
2. Attach the emulator to the header connector P2 (labeled JTAG) on
the EZ-KIT Lite.
To connect the EZ-KIT Lite to a PC via the debug agent:
1. Plug one side of the provided USB cable into the USB connector of
the debug agent ZP1 (labeled USB). Plug the other side of the cable
into a USB port of the PC running VisualDSP++.
2. Verify that the yellow USB monitor LED on the debug agent,
ZLED2, is lit. This signifies that the board is communicating properly with the host PC and ready to run VisualDSP++.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
1-5
EZ-KIT Lite Session Startup
EZ-KIT Lite Session Startup
1. If you are running VisualDSP++ for the first time, navigate to the
VisualDSP++ environment via the Start–>Programs menu. The
main window appears. Note that VisualDSP++ is not connected to
any session. Skip the rest of this step to step 2.
If you have run VisualDSP++ previously, the last opened session
appears on the screen. You can override the default behavior and
force VisualDSP++ to start a new session by pressing and holding
down the Ctrl key while starting VisualDSP++. Do not release the
Ctrl key until the Session Wizard appears on the screen. Go to
step 3.
2. To connect to a new EZ-KIT Lite session, start Session Wizard by
selecting one of the following.
• From the Session menu, New Session.
• From the Session menu, Session List. Then click New Session from the Session List dialog box.
• From the Session menu, Connect to Target.
3. The Select Processor page of the wizard appears on the screen.
Ensure Blackfin is selected in Processor family. In Choose a target
processor, select ADSP-BF592-A. Click Next.
4. The Select Connection Type page of the wizard appears on the
screen. For standalone debug agent connections, select EZ-KIT
Lite and click Next. For emulator connections, select Emulator
and click Next.
5. The Select Platform page of the wizard appears on the screen.
For standalone debug agent connections, ensure that the selected
platform is ADSP-BF592 EZ-KIT Lite via Debug Agent. For
emulator connections, choose the type of emulator that is con1-6
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Using ADSP-BF592 EZ-KIT Lite
nected. Specify your own Session name for the session or accept
the default name.
The session name can be a string of any length; although, the box
displays approximately 32 characters. The session name can
include space characters. If you do not specify a session name,
VisualDSP++ creates a session name by combining the name of the
selected platform with the selected processor. The only way to
change a session name later is to delete the session and open a new
session.
Click Next.
6. The Finish page of the wizard appears on the screen. The page displays your selections. Check the selections. If you are not satisfied,
click Back to make changes; otherwise, click Finish. VisualDSP++
creates the new session and connects to the EZ-KIT Lite. Once
connected, the main window’s title is changed to include the session name set in step 5.
disconnect from a session, click the disconnect button
L Toor select
Session–>Disconnect from Target.
To delete a session, select Session –> Session List. Select the session name from the list and click Delete. Click OK.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
1-7
Evaluation License Restrictions
Evaluation License Restrictions
The ADSP-BF592 EZ-KIT Lite installation is part of the
VisualDSP++ 5.0. The EZ-KIT Lite is a licensed product that offers an
unrestricted evaluation license for the first 90 days. Once the initial unrestricted 90-day evaluation license expires:
• VisualDSP++ restricts a connection to the ADSP-BF592 EZ-KIT
Lite via the USB port of the debug agent interface only. Connections to simulators and emulation products are no longer allowed.
• The linker restricts a user program to ¼ of internal memory
(64 Kbytes), which is 16 Kbytes for code space with no restrictions
for data space.
• The EZ-KIT Lite hardware must be connected and powered up to
use VisualDSP++ with a valid evaluation or permanent license.
Refer to the VisualDSP++ Installation Quick Reference Card for details.
Memory Map
The ADSP-BF592 processor has a single unified 4G memory space for
instructions and data storage. See Table 1-1.
The processor’s memory details can be found in the ADSP-BF59x Blackfin
Processor Hardware Reference Manual.
Table 1-1. ADSP-BF592 Processor Memory Map
1-8
Start Address
Content
0xFFFF FFFF
CORE MEMORY MAPPED REGISTERS (2M BYTES)
0xFFE0 0000
SYSTEM MEMORY MAPPED REGISTERS (2M BYTES)
0xFFC0 0000
RESERVED
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Using ADSP-BF592 EZ-KIT Lite
Table 1-1. ADSP-BF592 Processor Memory Map (Cont’d)
Start Address
Content
0xFFB0 1000
INTERNAL SCRATCHPAD RAM (4K BYTES)
0xFFB0 0000
RESERVED
0xFFA2 0000
L1 ROM (64K BYTES)
0xFFA1 0000
RESERVED
0xFFA0 8000
INSTRUCTION BANK SRAM (32K BYTES))
0xFFA0 0000
RESERVED
0xFF80 8000
DATA BANK SRAM (32K BYTES)
0xFF80 0000
RESERVED
0xEF00 1000
BOOT ROM (4K BYTES)
0xEF00 0000
RESERVED
SPI Flash Memory Interface
SPI flash memory of the ADSP-BF592 EZ-KIT Lite is a 16 Mb Numonyx
M25P16 device. The device is selected via the SPI0_SEL1 signal.
SPI flash memory is pre-loaded with boot code for the power-on-self test
(POST) program. For more information, refer to “Power-On-Self Test”
on page 1-11.
Audio Interface
The audio interface of the EZ-KIT Lite consists of a low-power stereo
codec, SSM2603, with an integrated headphone driver and associated passive components. There are two inputs, a stereo line in, and a mono
microphone, as well as two outputs, a headphone, and a stereo line out.
The codec has two integrated stereo analog-to-digital converters (ADCs),
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
1-9
Audio Interface
two digital-to-analog converters (DACs), and requires minimal external
circuitry.
The codec is connected to the processor via the processor’s serial port 0.
SPORT0 is disconnected from the codec by turning OFF switch SW1, which
makes available SPORT0 to the expansion interface II. See “SPORT0
Enable Switch (SW1)” on page 2-7 for more information about SW1.
The codec is controlled via a 2-wire interface (TWI).
Mic gain values of 14 dB, 0 dB, or -6 dB are selectable through switch
SW10. For more information, see “MIC Gain Switch (SW10)” on
page 2-10.
Microphone bias is provided through a low-noise reference voltage. A
jumper on positions 2 and 3 of JP5 connects the MICBIAS signal to the
audio jack. Placing a jumper on positions 1 and 2 of JP5 connects the bias
directly to the mic signal. For more information, see “MIC Select Jumper
(JP5)” on page 2-14.
and J3 are 3.5 mm connectors for the audio portion of the board. J2
connects the mic on the top portion and line-in on the bottom. J3 connects the headphone on the top portion and line-out on the bottom. If
there is no 3.5 mm cable plugged into the bottom of either J2 or J3, the
signals are looped back inside the connector. For more information, see
“Dual Audio Connectors (J2–3)” on page 2-20.
J2
For testing, SW10 position 4 connects the MICIN signal to the right headphone. SW10 positions 5 and 6 loop the output of the codec to the input
when no cables are connected to J4 and J5.
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Using ADSP-BF592 EZ-KIT Lite
Power-On-Self Test
The power-on-self-test program (POST) tests all EZ-KIT Lite peripherals
and validates functionality as well as connectivity to the processor. Once
assembled, each EZ-KIT Lite if fully tested for an extended period of time
with a POST. All EZ-KIT Lite boards are shipped with a POST preloaded
into one of their on-board flash memories. The POST is executed by
resetting the board and pressing the proper push button(s). The POST
also can be used for reference for a custom software design or hardware
troubleshooting. Note that the source code for the POST program is
included in the VisualDSP++ installation directory along with the
readme.txt file, which describes how the board is configured to run a
POST.
Expansion Interface II
The expansion interface II allows an Analog Devices EZ-Extender or a
custom-design daughter board to be tested across various hardware platforms that have the same expansion interface.
The expansion interface II implemented on the ADSP-BF592 EZ-KIT
Lite consists of three connectors, which are 0.1 in. shrouded headers (P4–
6). The connectors contain a majority of the ADSP-BF592 processor’s signals. For pinout information, go to “ADSP-BF592 EZ-KIT Lite
Schematic” on page B-1. The mechanical dimensions of the expansion
connectors can be obtained by contacting “Technical or Customer
Support”.
For more information about daughter boards, visit the Analog Devices
Web site at:
http://www.analog.com/en/embedded-processing-dsp/Blackfin/processors/Blackfin_development_tools/fca.html.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
1-11
Power Architecture
Limits to current and interface speed must be taken into consideration
when using the expansion interface. Current for the expansion interface II
is sourced from the EZ-KIT Lite; therefore, the current should be limited
to 200 mA for 5V and 300 mA for the 3.3V planes. A separate power connector and a regulator must be designed on a daughter card if more
current is required. Additional circuitry can add extra loading to signals,
decreasing their maximum effective speed.
Devices does not support and is not responsible for the
L Analog
effects of additional circuitry.
Power Architecture
The ADSP-BF592 EZ-KIT Lite has three primary voltage sources: a lithium ion battery (not included), a 5V wall adaptor, and VBUS supplied over
a USB cable. There is an OR’ing circuit, which allows the board to draw
power from any supply source that has the highest voltage potential.
The lithium ion battery leads are inserted into connector P3. The SW3
switch connects the battery to the EZ-KIT Lite when the switch is ON. To
change the battery, press in the white tabs and slide out the battery lead.
For more information, see “Battery Switch (SW3)” on page 2-7.
An ADP2291 lithium ion battery charger IC charges the 950 mAh battery. The charge rate is selected by a jumper. See Table 1-2 for details.
The lithium battery is monitored by the BQ27500 fuel gauge (U17). All
battery statistics can be read from the fuel gauge, including time to empty,
current voltage, and current consumption rate. To access the fuel gauge,
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Using ADSP-BF592 EZ-KIT Lite
use the I2C interface: ensure that SW6 has all positions ON. For more information, see “Fuel Gauge Enable Switch (SW6)” on page 2-8.
Table 1-2. Charge Rate Selection
Mode
JP6 Jumper
JP8 Jumper
Charge Rate
Charge
2 and 3
OFF
250 mA
Shutdown
OFF
ON
None
Control Shutdown
1 and 2
ON
None/250 mA
VDDINT Programmable Regulator
By default, the ADSP-BF592 processor’s core runs at 1.4V. The EZ-KIT
Lite board contains a programmable regulator that supplies the processor’s
core with a voltage between 1.1 and 1.4. The voltage is adjusted by writing to the AD5258 digital potentiometer via the TWI.
Table 1-3 shows the appropriate step and corresponding voltage values.
For an example of writing to the AD5258 potentiometer, refer to the
POST example. For more information on the acceptable voltage/frequency values, refer to the ADSP-BF592 Blackfin Embedded Processor data
sheet and ADSP-BF59x Blackfin Processor Hardware Reference Manual. For
more information about the digital potentiometer, refer to the AD5258
data sheet.
Table 1-3. Voltage Values
Step Value
Voltage (V)
57
1.10
46
1.15
36
1.20
27
1.25
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1-13
Power Measurements
Table 1-3. Voltage Values (Cont’d)
Step Value
Voltage (V)
18
1.30
10
1.35
3
1.40
Power Measurements
Two locations are provided for measuring the current draw from various
power planes. Precision 0.1 ohm shunt resistors are available on the
VDDEXT and VDDINT voltage domains. For current draw, the jumper
is removed, voltage across the resistor can be measured using an oscilloscope, and the value of the resistor can be measured using a precision
multi-meter. Once the voltage and resistance are measured, the current
can be calculated by dividing the voltage by the resistance. For the highest
accuracy, a differential probe should be used for measuring the voltage
across the resistor. For more information, refer to “VDDEXT Power
Jumper (JP3)” on page 2-13 and “VDDINT Power Jumper (JP4)” on
page 2-13.
Example Programs
Example programs are provided with the ADSP-BF592 EZ-KIT Lite to
demonstrate various capabilities of the product. The programs are
installed with VisualDSP++ 5.0 update 8 onwards (on top of the
VisualDSP++ 5.0 base kit) and can be found in the
<install_path>\Blackfin\Examples\ADSP-BF592 EZ-KIT Lite directory.
Refer to a readme file provided with each example for more information.
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Using ADSP-BF592 EZ-KIT Lite
Background Telemetry Channel
The USB debug agent supports the background telemetry channel (BTC),
which facilitates data exchange between VisualDSP++ and the processor
without interrupting processor execution.
The BTC allows you 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 our latest line of
processor emulators at:
http://www.analog.com/en/embedded-processing-dsp/blackfin/USB-EMULATOR/products/product.html.
For more information about
the BTC, see the online Help.
Reference Design Information
A reference design info package is available for download on the Analog
Devices Web site. The package provides information on the design, layout, fabrication, and assembly of the EZ-KIT Lite.
The information can be found at:
http://www.analog.com/en/embedded-processing-dsp/content/reference_designs/fca.html.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
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Reference Design Information
1-16
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2 ADSP-BF592 EZ-KIT LITE
HARDWARE REFERENCE
This chapter describes the hardware design of the ADSP-BF592 EZ-KIT
Lite board.
The following topics are covered.
• “System Architecture” on page 2-2
Describes the board’s configuration and explains how the board
components interface with the processor.
• “Programmable Flags” on page 2-3
Shows the locations and describes the programmable flags (PFs).
• “Push Buttons and Switches” on page 2-6
Shows the locations and describes the push buttons and switches.
• “Jumpers” on page 2-12
Shows the locations and describes the configuration jumpers.
• “LEDs” on page 2-16
Shows the locations and describes the LEDs.
• “Connectors” on page 2-19
Shows the locations and provides part numbers for the on-board
connectors. In addition, the manufacturer and part number information is provided for the mating parts.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-1
System Architecture
System Architecture
This section describes the processor’s configuration on the EZ-KIT Lite
board (Figure 2-1).
25 MHz
Oscillator
UARTs
3
PWM
Low Speed Group
1B
SPI
RS-232
16 Mb
TX/RX
SPI Flash
LEDs (3)
GPIO
Power
Regulation
Li Battery
Charge Circuit,
Fuel Gauge
PPI
ADSP-BF592
DSP
400 MHz
64 lead LFCSP
Low Speed
Group 2A
Low Speed
Group 1A
On-board
Debug Agent
JTAG
Port
CLKIN
PBs (3)
SPORT
RS-232
Female
SPORT
TWI
SSM2603
Codec
12 MHz
Oscillator
Mic/
Line
In
Head/
Line
Out
Figure 2-1. EZ-KIT Lite Block Diagram
The EZ-KIT Lite is designed to demonstrate the ADSP-BF592 Blackfin
processor capabilities. The processor has an I/O voltage of 3.3V. The core
voltage of the processor is controlled by an Analog Devices ADP1715 low
dropout regulator (LDO) and an Analog Devices AD5258 digipot, which
is configurable over the 2-wire interface (TWI) signals. Refer to the
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ADSP-BF592 EZ-KIT Lite Hardware Reference
power-on-self test (POST) example in the ADSP-BF592 installation
directory of VisualDSP++ for information on how to set up the TWI
interface.
The core voltage and clock rate can be set up on the fly by the processor.
The input clock is 25 MHz. The core and system clock are programmable
via the PLL_DIV register of the processor. The core clock runs at a maximum of 400 MHz. The default boot mode for the processor is SPI flash
boot. See “Boot Mode Select Switch (SW4)” on page 2-8 for information
on how to change the default boot mode.
Programmable Flags
The processor has 32 general-purpose input/output (GPIO) signals spread
across two ports (PF and PG). The pins are multi-functional and depend on
the ADSP-BF592 processor setup. Table 2-1 and Table 2-2 show how the
programmable flag pins are used on the EZ-KIT Lite.
Table 2-1. Port F Programmable Flag Connections
Processor Pin
Other Processor Function
EZ-KIT Lite Function
PF0
DRSEC1/PPI8/WAKEN1
Default: LED0.
Land grid array, expansion interface II
PF1
DRPRI1/PPI9
Default: LED1.
Land grid array, expansion interface II
PF2
RSCLK1/PPI10
Default: LED2.
Land grid array, expansion interface II
PF3
RFS1/PPI11
Default: PB0.
Land grid array, expansion interface II
PF4
DTSEC1/PPI12
Default: PB1.
Land grid array, expansion interface II
PF5
DTPRI1/PPI13
Default: CHARGE_OFF.
Land grid array, expansion interface II
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Programmable Flags
Table 2-1. Port F Programmable Flag Connections (Cont’d)
Processor Pin
Other Processor Function
EZ-KIT Lite Function
PF6
TSCLK1/PPI14
Default: Not used.
Land grid array, expansion interface II
PF7
TFS1/PPI15
Default: Not used.
Land grid array, expansion interface II
PF8
TMR2/SPI0SSEL2/WAKEN0
Default: SPI0SSEL2.
Land grid array, expansion interface II
PF9
TMR0/PPI_FS1/SPI0SSEL3
Default: UART_CTS.
Land grid array, expansion interface II
PF10
TMR1/PPI_FS2
Default: UART_RTS.
Land grid array, expansion interface II
PF11
UART_TX/SPI0SSEL4
Default: UART_TX.
Land grid array, expansion interface II
PF12
UART_RX/SPI0SSEL7/TACI2_0
Default: UART_RX.
Land grid array, expansion interface II
PF13
SPI0MOSI/SPI1SSEL3
Default: SPI0MOSI.
Land grid array, expansion interface II
PF14
SPI0MISO/SPI1SSEL4
Default: SPI0MISO.
Land grid array, expansion interface II
PF15
SPI0SCK/SPI1SSEL5
Default: SPI0SCK.
Land grid array, expansion interface II
Table 2-2. Port G Programmable Flag Connections
2-4
Processor Pin
Other Processor Function
EZ-Kit Lite Function
PG0
DRSEC0/SPI0SSEL1/SPI0SS
Default: Not used.
Land grid array, expansion interface II
PG1
DRPRI0/SPI1SSEL1/WAKEN3
Default: DRPRI0.
Land grid array, expansion interface II
PG2
RSCLK0/SPI0SSEL5
Default: RSCLK0.
Land grid array, expansion interface II
PG3
RFS0/PPI_FS3
Default: RFS0.
Land grid array, expansion interface II
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ADSP-BF592 EZ-KIT Lite Hardware Reference
Table 2-2. Port G Programmable Flag Connections (Cont’d)
PG4
HWAIT/DTSEC0/SPI0SSEL6
Default: Not used.
Land grid array, expansion interface II
PG5
DTPRI0/SPI1SSEL6
Default: DTPRI0.
Land grid array, expansion interface II
PG6
TSCLK0
Default: TSCLK0.
Land grid array, expansion interface II
PG7
TFS0/SPI1SSEL7
Default: TFS0.
Land grid array, expansion interface II
PG8
SPI1SCK/PPI0
Default: Not used.
Land grid array, expansion interface II
PG9
SPI1MOSI/PPI1
Default: Not used.
Land grid array, expansion interface II
PG10
SPI1MISO/PPI2
Default: Not used.
Land grid array, expansion interface II
PG11
SPI1SSEL5/PPI3
Default: Not used.
Land grid array, expansion interface II
PG12
SPI1SSEL2/PPI4/WAKEN2
Default:WAKEN2.
Land grid array, expansion interface II
PG13
SPI1SSEL1/SPI1SS/PPI5
Default: Not used.
Land grid array, expansion interface II
PG14
SPI1SSEL4/PPI6/TACLK1
Default: Not used.
Land grid array, expansion interface II
PG15
SPI1SSEL6/PPI7/TACLK2
Default: Not used.
Land grid array, expansion interface II
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-5
Push Buttons and Switches
Push Buttons and Switches
This section describes operation of the push buttons and switches. The
push button and switch locations are shown in Figure 2-2.
Figure 2-2. Push Button and Switch Locations
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ADSP-BF592 EZ-KIT Lite Hardware Reference
SPORT0 Enable Switch (SW1)
The SPORT0 enable switch (SW1) disconnects the codec from the
SPORT0 interface of the processor and allows the SPORT0 signals to be
used on the expansion interface. Refer to “Audio Interface” on page 1-9
for more information.
UART Setup Switch (SW2)
The UART setup switch (SW2) configures UART signals between the DCE
connector (J1) and processor. Table 2-3 shows operation of the switches
turned on. See “DCE UART Connector (J1)” on page 2-20 for more
information.
Table 2-3. UART Setup Switch (SW2)
SW2 Position
Function
1 and 3
Enable flow control
2
Disconnects the UART_RX signal from the processor;
the UART_RX signal can be used for another function
4
Connects the RTS and CTS signals together
5
Allows the host to reset the EZ-KIT Lite via the CTS signal
6 and 7
Selects the source for the CTS signal
8
Loopback mode. Connects the RX and TX signals together. This
mode is for testing only.
Battery Switch (SW3)
The battery switch (SW3) connects and disconnects the lithium ion battery
from the EZ-KIT Lite power. When the switch is ON, the board can run
from the battery. Jumper JP7 must be removed when SW3 is OFF. By
default, SW3 is OFF.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-7
Push Buttons and Switches
Boot Mode Select Switch (SW4)
The rotary boot mode select switch (SW4) determines the boot mode of the
processor. Table 2-4 shows the available boot mode settings. By default,
the ADSP-BF592 processor boots from SPI flash memory.
Table 2-4. Boot Mode Select Switch (SW4)
SW4 Position
Processor Boot Mode
0
Idle—no boot
1
Reserved
2
SPI1 master boot from Flash, using SPI1SSEL5
3
SPI1 slave boot from external master
4
SPI0 master boot from flash memory using SPI0SSEL2 (default)
5
Boot from PPI port
6
Boot from UART host device
7
Boot from Internal L1 ROM
Push Button Enable Switch (SW5)
The push button enable switch (SW5) disconnects all of the associated push
button circuits from the general-purpose I/O (GPIO) pins of the processor and makes available the I/O signals to the expansion interface.
Fuel Gauge Enable Switch (SW6)
The fuel gauge enable switch (SW6) disconnects the battery good (BAT_GD)
and battery low (BAT_LOW) signals from their respective LEDs (LED7–8) (see
Table 2-5). The switch also disconnects TWI signals between the processor and fuel gauge. The TWI signals on the fuel gauge operate only when
a clock on the SCL signal is running at up to 100 kHz. If the TWI bus
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ADSP-BF592 EZ-KIT Lite Hardware Reference
interfaces with devices operating at above 100 kHz frequency, turn SW6
OFF to prevent the bus from hanging. By default, SW6 is all OFF.
Table 2-5. Table 10. Fuel Gauge Select Switch (SW6)
SW6 Position
Function
1
BAT_GD
2
BAT_LOW
3
SCL
4
SDA
Reset Push Button (SW7)
The reset push button (SW7) resets the processor’s ICs via a hardware reset.
The reset push button does not reset the on-board debug agent. The reset
push button does not reset the following ICs.
• SPI flash (U4)
• Audio codec (U7)
• UART0 (U12)
• Fuel gauge (U17)
The reset push button does not reset the debug agent once it has been
connected to a PC. The USB chip is not reset when the push button is
pressed after the USB cable has been plugged in and communication with
the PC has been initialized correctly. After USB communication has been
initialized, the only way to reset the USB chip is by powering down the
board.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-9
Push Buttons and Switches
Programmable Flag Push Buttons (SW8–9)
Two momentary push buttons (SW8 and SW9) are provided for general-purpose user input. The push buttons are connected to the PF3 and PF4 GPIO
pins of the processor, respectively. The push buttons are active high and,
when pressed, send a high (1) to the processor. The push button enable
switch (SW5) disconnects all of the push buttons from their corresponding GPIO pins of the processor and allows the I/O signals to be used on
the expansion interface. Refer to “Push Button Enable Switch (SW5)” on
page 2-8 for more information.
MIC Gain Switch (SW10)
The microphone gain switch (SW10) sets the gain of the MIC signal, which
is connected to the top 3.5 mm jack (J2). The gain can be set to 14 dB,
0 dB, or –6 dB by turning ON position 1, 2, or 3 of the switch (see
Table 2-6). When the corresponding position for the desired gain is ON,
the remaining positions should be OFF. Refer to “Audio Interface” on
page 1-9 for more information about the audio codec.
Table 2-6. Table 11. MIC Gain Switch (SW10)
Gain
SW10 Switch Settings
5 (14 dB)
ON, OFF, OFF, OFF
1 (0 dB)
OFF, ON, OFF, OFF
0.5 (–6 dB)
OFF, OFF, ON, OFF (default)
Unused
OFF, OFF, OFF, OFF
WAKE_EN Switch (SW11)
The WAKE_EN momentary push button (SW11) is provided for an optional
power feature input. The push button is connected to the WAKE_EN signal
of the processor. The push button is active high and, when pressed, sends
a high (1) to the processor. The WAKE_EN signal can be configured as a ded-
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ADSP-BF592 EZ-KIT Lite Hardware Reference
icated WAKE input signal from hibernation. Refer to the ADSP-BF59x
Blackfin Processor Programming Reference for more information. The push
button enable switch (SW5) disconnects all of the push buttons from their
corresponding GPIO pins of the processor and makes available the I/O
signals to the expansion interface. Refer to “Push Button Enable Switch
(SW5)” on page 2-8 for more information.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-11
Jumpers
Jumpers
This section describes functionality of the configuration jumpers.
Figure 2-3 shows the jumper locations.
Figure 2-3. Configuration Jumper Locations
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ADSP-BF592 EZ-KIT Lite Hardware Reference
Reset Jumper (JP1)
The reset jumper (JP1) selects between the 3.3V regulator and battery
voltage as a monitored input for the reset signal. When a jumper is on
positions 2 and 3 of JP1, the BAT_P signal is monitored, which is useful
when using the lithium ion battery. When a jumper is on positions 1
and 2 of JP1, the 3.3V regulator is monitored. JP1 installed on positions 1
and 2 must be used when no battery is wired to connector P3 (see “Battery
Connector (P3)” on page 2-21). The SENSE2 input pin of the ADM13305
voltage reset supervisor is set up to drive the ~RESET_3V signal low when a
voltage of less than 3.16V is measured. By default, JP1 is installed on
positions 1 and 2.
SPI Flash CS Enable Jumper (JP2)
The SPI flash CS enable jumper (JP2) connects the SPI0_SEL2 signal to
SPI flash memory. By default, JP1 is installed and SPI flash is connected.
VDDEXT Power Jumper (JP3)
The VDDEXT power jumper (JP3) is used to measure the processor’s I/O
voltage and current. By default, JP3 is ON, and the current flows through
the two-pin IDC header. To measure power, remove the jumper on JP3
and measure the voltage across the precision resistor and resistance value.
For more information, refer to “Power Measurements” on page 1-14.
VDDINT Power Jumper (JP4)
The VDDINT power jumper (JP4) is used to measure the processor’s core
voltage and current. By default, JP4 is ON, and the current flows through
the two-pin IDC header. To measure power, remove the jumper on JP4
and measure the voltage across the precision resistor and resistance value.
For more information, refer to “Power Measurements” on page 1-14.
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-13
Jumpers
MIC Select Jumper (JP5)
The microphone select jumper (JP5) connects the MICBIAS signal to the
MICIN (JP5 on 1 and 2) or the 3.5 mm audio connector J2 pin 3 (JP5 on 2
and 3). See “Dual Audio Connectors (J2–3)” on page 2-20 for more information. By default, JP5 is installed on positions 2 and 3.
CHG Control Jumper (JP6)
The charge control jumper (JP6) selects the control line for the MOSFET
signal attached to the charge rate adjustment pin of the ADP2291 linear
charger.
When no jumper is installed, the on-board pull-up holds the gate of the
MOSFET ON. Placing a jumper on positions 1 and 2 of JP6 enables the processor’s flag pin (PF5) to control the gate of MOSFET. Placing a jumper on
positions 2 and 3 of JP6 pulls the MOSFET gate to ground, disconnecting
the drain and the source. For more information on the ADP2291 single
cell lithium ion battery charger, see “Power Measurements” on page 1-14.
By default, JP6 is installed on positions 2 and 3.
BATT Installed Jumper (JP7)
The battery installed jumper (JP7) serves as an indicator to the BQ27500
fuel gauge that a lithium ion battery is installed. When using the battery,
install a jumper on JP7 before turning ON the battery’s power switch (SW3).
See “Battery Switch (SW3)” on page 2-7 for more information. By
default, JP7 is uninstalled.
R89 Jumper (JP8)
The R89 JMP jumper (JP8) provides a means to short out a R89 set resistor in the charge rate circuit of the single cell lithium ion battery. JP8
bypasses R89 when installed and effectively makes a zero ohm connection.
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ADSP-BF592 EZ-KIT Lite Hardware Reference
For more information about the ADP2291 battery charger, see “Power
Measurements” on page 1-14. By default, JP8 is installed.
DA Test Mode Jumper (ZP1)
The debug agent test mode jumper (ZJP1) is used for testing purposes
only. By default, ZP1 is installed.
Windows/Linux Jumper (ZJP2)
The Windows/Linux jumper (ZJP2) selects between Windows and Linux
operating systems for the driver loaded on the debug agent. When the
jumper is not installed, the debug agent is configured for Windows. When
the jumper is installed, the debug agent is configured for Linux. By
default, ZJP2 is not installed (Windows mode).
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-15
LEDs
LEDs
This section describes the on-board LEDs. Figure 2-3 shows the LED
locations.
Figure 2-4. LED Locations
2-16
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ADSP-BF592 EZ-KIT Lite Hardware Reference
GPIO LEDs (LED1–3)
Three LEDs (LED1, LED2, and LED3) are connected to the three general-purpose I/O pins of the processor (see Table 2-7). The LEDs are
active high and lit by writing a “1” to the correct programmable flag
signal.
Table 2-7. GPIO LEDs
LED Reference Designator
Processor Programmable Flag Pin
LED1
PF0
LED2
PF1
LED3
PF2
Reset LED (LED4)
When LED4 is lit (red), it indicates that the master reset of the processor is
active. The reset signal is controlled by the Analog Devices ADM13305
supervisory reset circuit.
Power LED (LED5)
When LED5 is lit solid (green), it indicates that power is being supplied to
the board properly.
Battery Charging LED (LED6)
When LED6 is lit (yellow), it indicates that the lithium ion battery is
receiving a charge from either the 5V wall adaptor (P9) or the USB connector (ZP1).
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-17
LEDs
Battery Low LED (LED7)
When LED7 is lit (yellow), it indicates that the BQ27500 fuel gauge (U17)
has detected that the remaining capacity of the lithium ion battery is low.
The low threshold can be programmed; for more information, refer to the
BQ27500 data sheet provided by the product manufacturer.
BATT GOOD LED (LED8)
When LED8 is lit (green), it indicates that the BQ27500 fuel gauge (U17)
has initialized the lithium ion battery successfully. LED8 is not a battery
capacity indicator. When the battery switch (SW3) is OFF, but the battery
installed jumper (JP7) is ON, the BATT GOOD LED still illuminates.
Ensure that JP7 is installed only when SW3 is ON.
DA PWR LED (ZLED1)
When ZLED1 is lit (green), it indicates that the debug agent is powered.
DA MON LED (ZLED2)
When ZLED2 is lit (amber), it indicates that the debug agent is configured
via USB.
DA STAT LED (ZLED3)
When ZLED3 is lit (amber), it indicates that the debug agent is ignoring the
EMU signal.
2-18
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ADSP-BF592 EZ-KIT Lite Hardware Reference
Connectors
This section describes connector functionality and provides information
about mating connectors. The connector locations are shown in
Figure 2-5.
Components with a dotted outline are on the back of the board
Figure 2-5. Connector Locations
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-19
Connectors
DCE UART Connector (J1)
The pinout of the J1 connector can be found in “ADSP-BF592 EZ-KIT
Lite Schematic” on page B-1.
Part Description
Manufacturer
Part Number
IDC header
FCI
68737-410HLF
Mating Connector
IDC socket
DIGI-KEY
S4205-ND
Dual Audio Connectors (J2–3)
The pinout of the J2–3 connectors can be found in “ADSP-BF592
EZ-KIT Lite Schematic” on page B-1.
Part Description
Manufacturer
Part Number
3.5 mm dual stereo jack
SWITCHCRAFT
35RAPC7JS
Mating Cable
3.5 mm male/male 6’ cable
RANDOM
10A3-01106
DMAX Land Grid Array Connector (P1)
The DMAX land grid array areas (P1) are intended for the probing of the
processor signals. The pads are exposed and designed to attach a Tektronix
logic analyzer to the connectors listed in the following table. For more
information about the land grid array, consult the Tektronix web site.
Part Description
Manufacturer
Part Number
Primary retention
Tektronix
020290800
Alternate retention
Tektronix
020291000
2-20
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ADSP-BF592 EZ-KIT Lite Hardware Reference
JTAG Connector (P2)
The JTAG header (P2) is the connecting point between the JTAG interface and ADSP-BF592 processor.
Pin 3 is missing to provide keying. Pin 3 in the mating connector should
have a plug.
When an emulator is used with the EZ-KIT Lite, the on-board debug
agent is bypassed.
Battery Connector (P3)
is a connection point of a single 3.3V lithium ion battery. Ensure that
the positive lead of the battery is inserted to the side labeled +, and the
negative terminal is inserted to the side labeled –. To remove the battery
leads, press the white plastic button in and slide out the lead. The battery
is not connected until the SW22 switch is ON.
P3
Part Description
Manufacturer
Part Number
Wire to board, push-in, 16-28
AWG
WEIDMULLER
281-2020-ND
Mating Battery
3.7V lithium ion battery,
950mAh
MOUSER
5169-UBP563450
Expansion Interface II Connectors (P4–5)
and P5 are board-to-board connectors providing signals for the SPI,
TWI, UART, SPORT, and GPIO signals of the processor. The connectors are located on the upper edge of the board (one connector is on the
top and one is on the bottom). For more information, see “Expansion
Interface II” on page 1-11.
P4
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
2-21
Connectors
Part Description
Manufacturer
Part Number
50-position 0.1”, TH header
SAMTEC
TSSH-125-01-L-D
Mating Connector
50-position 0.1”, SMT socket
SAMTEC
SSW-125-22-F-D-VS
Expansion Interface II Connector (P6)
P6 is a board-to-board connector providing signals for the PPI, TWI, and
GPIO signals of the processor. The connector is located on the upper edge
of the board. For more information, see “Expansion Interface II” on
page 1-11.
Part Description
Manufacturer
Part Number
70-position 0.1”, TH header
SAMTEC
TSSH-135-01-L-D
Mating Connector
70-position 0.1”, SMT socket
SAMTEC
SSW-135-22-F-D-VS
Part Description
Manufacturer
Part Number
0.65 mm power jack
CUI
045-0883R
Power Connector (P9)
Mating Connector
5.0VDC@3.6A power supply
GLOBETEK
GS-1750(R)
Part Description
Manufacturer
Part Number
USB mini-b
MOLEX
54819-0519
USB Connector (ZP1)
2-22
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ADSP-BF592 EZ-KIT Lite Hardware Reference
Part Description
Manufacturer
Part Number
Mating Cable
6’ mini USB cable
ASSMANN
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
AK672M/2-3
2-23
Connectors
2-24
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
A ADSP-BF592 EZ-KIT LITE BILL
OF MATERIALS
The bill of materials corresponds to “ADSP-BF592 EZ-KIT Lite Schematic” on page B-1.
Ref.
Qty.
Description
Reference
Designator
Manufacturer
Part Number
1
1
74LVC14A
SOIC14
U1
TI
74LVC14AD
2
1
IDT74FCT3244
APY SSOP20
U5
IDT
IDT74FCT3244A
PYG
3
1
25MHZ OSC003
U10
EPSON
SG-8002CA MP
4
2
SN74LVC1G08
SOT23-5
U15-16
TI
SN74LVC1G08D
BVR
5
1
SI4411DY SO-8
U2
VISHAY
Si4411DY-T1-E3
6
1
MIC2025-1
SOIC8
U14
DIGI-KEY
576-1057-ND
7
1
12MHZ OSC003
U11
EPSON
SG-8002CA-MP
8
1
NJT4030P
SOT-223
VR2
ON SEMI
NJT4030PT1G
9
1
SI1012R SC-75A
Q1
VISHAY
SI1012R-T1-E3
10
2
SI2333DS
SOT23D
Q2-3
VISHAY
SI2333DS-T1-E3
11
1
BF592 M25P16
U4
U4
NUMONYX
M25P16-VMW6G
12
1
ADM3202ARNZ
SOIC16
U12
ANALOG
DEVICES
ADM3202ARNZ
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
A-1
Ref.
Qty.
Description
Reference
Designator
Manufacturer
Part Number
13
1
ADSP-BF592
LFCSP64_E
U18
ANALOG
DEVICES
ADSP-BF592KCPZ-4
14
1
ADP1864AUJZ
SOT23-6
VR1
ANALOG
DEVICES
ADP1864AUJZ-R7
15
1
ADP1715
MSOP8
VR3
ANALOG
ADP1715ARMZ-R7
16
1
ADP2291
MSOP8
U9
ANALOG
DEVICES
ADP2291ARMZ-R7
17
1
ADM13305-4
SOIC8
U13
ANALOG
DEVICES
ADM13305-4ARZ
18
1
AD5258
MSOP10
U3
ANALOG
DEVICES
AD5258BRMZ10
19
1
AD8619ARUZ
TSSOP14
U6
ANALOG
DEVICES
AD8619ARUZ
20
1
SSM2603
ICS009
U7
ANALOG
DEVICES
SSM2603CPZ-R2
21
1
ADP121-AUJZ25
TSOT5
VR4
ANALOG
DEVICES
ADP121-AUJZ25R7
22
2
DIP8 SWT016
SW1-2
C&K
TDA08H0SB1
23
1
DIP6 SWT017
SW10
CTS
218-6LPST
24
2
DIP4 SWT018
SW5-6
ITT
TDA04HOSB1
25
1
DB9 9PIN
CON038
J1
NORCOMP
191-009-213-L-571
26
4
IDC 2X1
IDC2X1
JP3-4,JP7-8
FCI
90726-402HLF
27
2
IDC 3X1
IDC3X1
JP5-6
FCI
90726-403HLF
28
1
IDC 7X2
IDC7X2
P2
SAMTEC
TSW-107-07-T-D
A-2
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ADSP-BF592 EZ-KIT Lite Bill Of Materials
Ref.
Qty.
Description
Reference
Designator
Manufacturer
Part Number
29
7
IDC
2PIN_JUMPER_
SHORT
SJ1-2,SJ4-5,SJ7-9
DIGI-KEY
S9001-ND
30
1
PWR .65MM
CON045
P9
DIG
CP1-023-ND
31
1
5A RESETABLE
FUS005
F2
MOUSER
650-RGEF500
32
4
MOMENTARY
SWT024
SW7-9,SW11
PANASONIC
EVQ-Q2K03W
33
2
IDC 25x2
IDC25x2_SMTA
P4-5
SAMTEC
TSSH-125-01-LDV-A
34
1
IDC 35x2
IDC35x2_SMTA
P6
SAMTEC
TSSH-135-01-LDV-A
35
1
IDC 2X1
IDC2X1_SMT
JP2
SAMTEC
TSM-102-01-T-SV
36
1
POWER 2X1
CON064
P3
WEIDMULLER
1824420000
37
1
SPDT SWT026
SW3
NKK SWITCHES
CS12ANW03
38
1
IDC 3X1
IDC3X1_SMT
JP1
SAMTEC
TSM-103-01-T-SV
39
1
ROTARY
SWT027
SW4
COPAL
S-8110
40
4
YELLOW
LED001
LED1-3,LED7
DIGI-KEY
P512TR-ND
41
3
100 1/10W 5%
0805
R62-63,R118
VISHAY
CRCW0805100RJNE
A
42
8
600 100MHZ
200MA 0603
FER1-7,FER10
DIGI-KEY
490-1014-2-ND
43
2
600 100MHZ
500MA 1206
FER12-13
STEWARD
HZ1206B601R-10
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
A-3
Ref.
Qty.
Description
Reference
Designator
Manufacturer
Part Number
44
2
10UF 16V 20%
CAP002
CT3-4
PANASONIC
EEE1CA100SR
45
1
190 100MHZ 5A
FER002
FER14
MURATA
DLW5BSN191SQ2
46
1
YELLOW
LED009
LED6
PANASONIC
LNJ416Q8YRA
47
3
1UF 10V 10%
0805
C34,C78,C81
AVX
0805ZC105KAT2A
48
6
10UF 6.3V 10%
0805
C5,C13,C20,C23,
C33,C75
AVX
08056D106KAT2A
49
1
4.7UF 6.3V 10%
0805
C62
AVX
08056D475KAT2A
50
16
0.1UF 10V 10%
0402
C9-12,C16,C19,
C22,C29-32,C3840,C55,C76
AVX
0402ZD104KAT2A
51
15
0.01UF 16V 10%
0402
C1,C3,C17-18,
C21,C25-28,C3537,C41,C56,C77
AVX
0402YC103KAT2A
52
29
10K 1/16W 5%
0402
R1,R4-6,R11-14,
R18-19,R35,R42,
R46-47,R49-57,
R64-65,R111-112,
R115,R117
VISHAY
CRCW040210K0FK
ED
53
1
0 1/16W 5%
0402
R99
PANASONIC
ERJ-2GE0R00X
54
9
33 1/16W 5%
0402
R2-3,R7,R9,R15,
R31,R44-45,R119
VISHAY
CRCW040233R0JNE
A
55
1
1A SK12
DO-214AA
D6
DIODES INC
B120B-13-F
56
4
0.1UF 16V 10%
0603
C46-47,C50,C52
AVX
0603YC104KAT2A
A-4
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ADSP-BF592 EZ-KIT Lite Bill Of Materials
Ref.
Qty.
Description
Reference
Designator
Manufacturer
Part Number
57
1
10UF 10V
+80/-20% 0805
C45
PANASONIC
ECJ-2FF1A106Z
58
4
1UF 16V 10%
0603
C8,C44,C70-71
KEMET
C0603C105K4PA
CTU
59
1
68PF 50V 5%
0603
C63
AVX
06035A680JAT2A
60
3
4.7UF 6.3V 20%
0603
C54,C57-58
PANASONIC
ECJ-1VB0J475M
61
4
470PF 50V 5%
0603
C42-43,C49,C64
AVX
06033A471JAT2A
62
3
220UF 6.3V 20%
D2E
CT1-2,CT5
SANYO
10TPE220ML
63
9
100K 1/10W 5%
0603
R66-70,R82,R8687,R97
VISHAY
CRCW0603100KJN
EA
64
5
330 1/10W 5%
0603
R48,R58-61
VISHAY
CRCW0603330RJNE
A
65
3
1M 1/10W 5%
0603
R74-76
VISHAY
CRCW06031M00FN
EA
66
2
0 1/10W 5%
0603
R23,R26
PHYCOMP
232270296001L
67
1
1K 1/10W 5%
0603
R88
DIGI-KEY
311-1.0KGRTR-ND
68
8
100PF 50V 5%
0603
C24,C65-68,C72-74
PANASONIC
ECJ-1VC1H101J
69
2
100 1/16W 5%
0402
R24-25
DIGI-KEY
311-100JRTR-ND
70
1
24.9K 1/10W 1%
0603
R107
DIGI-KEY
311-24.9KHTR-ND
71
4
0.05 1/2W 1%
1206
R98,R105-106,R108
SEI
CSF 1/2 0.05 1%R
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
A-5
Ref.
Qty.
Description
Reference
Designator
Manufacturer
Part Number
72
3
10UF 16V 10%
1210
C51,C53,C59
AVX
1210YD106KAT2A
73
2
GREEN LED001
LED5,LED8
PANASONIC
LN1361CTR
74
1
RED LED001
LED4
PANASONIC
LN1261CTR
75
2
1000PF 50V 5%
1206
C60-61
AVX
12065A102JAT2A
76
1
255.0K 1/10W
1% 0603
R109
VISHAY
CRCW06032553FK
77
1
80.6K 1/10W 1%
0603
R110
DIGI-KEY
311-80.6KHRCTND
78
2
18K 1/16W 5%
0402
R92,R121
DIGI-KEY
311-18KJRCTND
79
2
12.0K 1/16W 1%
0402
R8,R10
DIGI-KEY
311-12.0KLRCT-ND
80
2
430 1/16W 1%
0402
R94-95
DIGI-KEY
311-430LRCT-ND
81
3
5A
MBRS540T3G
SMC
D5,D7-8
ON SEMI
MBRS540T3G
82
1
2.5UH 30%
IND013
L1
COILCRAFT
MSS1038-252NLB
83
1
33.0K 1/16W 1%
0402
R17
ROHM
MCR01MZPF3302
84
5
47.0K 1/16W 1%
0402
R22,R32,R38-40
ROHM
MCR01MZPF4702
85
1
5.6K 1/16W 5%
0402
R36
PANASONIC
ERJ-2GEJ562X
86
1
1.0K 1/16W 1%
0402
R100
PANASONIC
ERJ-2RKF1001X
87
2
1UF 50V 10%
0603
C82-83
DIGI-KEY
587-1257-2-ND
A-6
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
ADSP-BF592 EZ-KIT Lite Bill Of Materials
Ref.
Qty.
Description
Reference
Designator
Manufacturer
Part Number
88
3
220PF 50V 10%
0402
C2,C6,C15
DIGI-KEY
311-1035-2-ND
89
4
5.6K 1/16W
0.5% 0402
R28-30,R37
SUSUMU
RR0510P-562-D
90
2
680 1/16W 1%
0402
R41,R90
BC COMPONENTS
2312 275 16801
91
1
90.9K 1/16W 5%
0402
R34
DIGI-KEY
541-90.9KLCT-ND
92
1
40.2K 1/16W 5%
0402
R33
DIGI-KEY
541-40.2KLCT-ND
93
3
100K 1/16W 5%
0402
R16,R43,R81
DIGI-KEY
541-100KJTR-ND
94
1
2.2UF 25V 10%
0805
C48
DIGI-KEY
490-3331-1-ND
95
6
1.00K 1/10W
0.1% 0603
R71-73,R83,R85,
R93
DIGI-KEY
RG16P1.0KBCT-ND
96
1
0.2 1/4W 1%
0805
R84
SUSUMU
RL1220S-R20-F
97
1
40K 1/16W 0.1%
0402
R89
STACKPOLE
RNC 10 T9 40K
0.1% R
98
1
1.8M 1/16W 1%
0402
R91
DIGI-KEY
541-1.80MLCT-ND
99
1
10K 1/100W 1%
THERMAT-2
R114
SEMITEC
103AT-2
100
1
76.8K 1/16W 1%
0402
R120
DIGI-KEY
541-76.8KLCT-ND
101
1
1.2K 1/16W 1%
0402
R103
VISHAY
CRCW04021K20FK
ED
102
2
4.3 1/4W 5%
1206
R101,R104
PANASONIC
ERJ-8GEYJ4R3V
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
A-7
Ref.
Qty.
Description
Reference
Designator
Manufacturer
Part Number
103
1
2.67K 1/16W 1%
0402
R102
PANASONIC
ERJ-2RKF2671X
104
3
1.0M 1/16W 1%
0402
R20-21,R27
VISHAY
CRCW04021M00FK
ED
105
1
0.02 1/2W 1%
1206
R80
OHMITE
LVK12R020FER
106
1
15K 1/16W 5%
0402
R96
PANASONIC
ERJ-2GEJ153X
107
3
330 100MHZ
1.5A 0805
FER8-9,FER11
MURATA
BLM21PG331SN1D
108
2
30A GSOT05
SOT23-3
D2-3
VISHAY
GSOT05-GS08
109
1
30A GSOT03
SOT23-3
D4
VISHAY
GSOT03-GS08
110
1
7A
VESD01-02V-GS
08 SOD-52
D1
VISHAY
VESD01-02V-GS08
A-8
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
A
B
C
D
1
1
ADSP-BF592 EZ-KIT LITE
SCHEMATIC
2
2
3
3
ANALOG
DEVICES
4
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0231-2009
C
Date
Nashua, NH 03063
ADSP-BF592 EZ-KIT LITE
TITLE
Title
Size
20 Cotton Road
0.1
Sheet
11/2/09
D
1
of
7
A
B
C
D
VDDEXT
U18
U18
3
GND1
VDDEXT2
GND2
14
63
LED0
LED1
PB1
3.3V
R115
10K
0402
R119
0402
PG12/SPI1SSEL2/PPI4/WAKEN2
PF13/SPI0MOSI/SPI1SSEL3
17
SPI0SCK
PG11/SPI1SSEL5/PPI3
PF12/UART_RX/SPI0SSEL7/TACI2_0
16
SPI0MISO
PG10/SPI1MISO/PPI2
PF11/UART_TX/SPI0SSEL4
15
SPI0MOSI
PG9/SPI1MOSI/PPI1
PF10/TMR1/PPI_FS2
13
UART_RX
PG8/SPI1SCK/PPI0
PF9/TMR0/PPI_FS1/SPI0SSEL3
12
UART_TX
PG7/TFS0/SPI1SSEL7
PF8/TMR2/SPI0SSEL2/WAKEN0
11
UART_RTS
PG6/TSCLK0
PF7/TFS1/PPI15
10
UART_CTS
3.3V
PG5/DTPRI0/SPI1SSEL6
PF6/TSCLK1/PPI14
7
SPI0SSEL2
PG4/HWAIT/DTSEC0/SPI0SSEL6
PF5/DTPRI1/PPI13
6
PF7
PG3/RFS0/PPI_FS3
PF4/DTSEC1/PPI12
5
PF6
PG2/RSCLK0/SPI0SSEL5
PF3/RFS1/PPI11
4
CHARGE_OFF
PG1/DRPRI0/SPI1SSEL1/WAKEN3
PF2/RSCLK1/PPI10
2
PB0
PG0/DRSEC0/SPI0SSEL1/SPI0SS
PF1/DRPRI1/PPI9
1
LED2
1
PF0/DRSEC1/PPI8/WAKEN1
64
33 18
PG13/SPI1SSEL1/SPI1SS/PPI5
PF14/SPI0MISO/SPI1SSEL4
PG14/SPI1SSEL4/PPI6/TACLK1
PF15/SPI0SCK/SPI1SSEL5
PG15/SPI1SSEL6/PPI7/TACLK2
31
25
PG0
32
34
46
VDDINT1
9
DTPRI0
38
VDDINT2
26
TSCLK0
39
40
TFS0
42
41
PG8
43
55
PG9
44
PG10
45
54
53
RESET
U10
PPICLK
OE
EXT_WAKE
OUT
3
GND
25MHZ 2
OSC003
61
R15
0402
33
CLKIN
CLKIN
62
XTAL
PG
TP11
DSP_EMU
R3
0402
33
48
PG13
49
PG14
50
PG15
C33
10UF
0805
C3
0.01UF
0402
DSP_TDO
R2
0402
33
SCL
TCK
SDA
C25
0.01UF
0402
C26
0.01UF
0402
C27
0.01UF
0402
C28
0.01UF
0402
51
C12
0.1UF
0402
C11
0.1UF
0402
C10
0.1UF
0402
C9
0.1UF
0402
C18
0.01UF
0402
C17
0.01UF
0402
EXT_WAKE
52
PG
R8
12.0K
0402
TP1
57
R10
12.0K
0402
60
59
R7
0402
R9
0402
33
SCL
33
SDA
23
2
SW4
TDI
BMODE0
TDO
BMODE1
BMODE2
29
1
28
2
27
4
3
2
C
C13
10UF
0805
1
4
0
5
6
7
SWT027
ROTARY
ADSP-BF592
LFCSP64_E
R4
10K
0402
R5
10K
0402
R6
10K
0402
SW4: Boot Mode Select Switch
R1
10K
0402
All USB interface circuitry is considered proprietary and has
C31
0.1UF
0402
PPICLK
TMS
22
DSP_TDI
C32
0.1UF
0402
VDDINT
TRST
21
DSP_TMS
56
EMU
24
DSP_TCK
2
19
20
DSP_TRST
VDDINT6
VDDEXT
XTAL
EXT_CLK
3.3V
VDDINT5
RESET
4
VDD
1
EXT_WAKE
NMI
TP10
VDDINT4
WAKEN2
3.3V
R19
10K
0402
1
VDDINT3
ADSP-BF592
LFCSP64_E
PG11
47
VDDEXT6
8
PG4
37
VDDEXT5
58
RFS0
36
VDDEXT4
VDDINT
RSCLK0
65
VDDEXT3
35
DRPRI0
33
30
VDDEXT1
POSITION
been omitted from this schematic.
When designing your JTAG interface please refer to the
Engineer to Engineer Note EE-68 which can be found at
http://www.analog.com
Default
3.3V
DA_5V
"BOOT MODE"
BOOT MODE
0
Idle/No Boot
1
Reserved
2
SPI1 master boot from Flash, using SPI1SSEL5
3
SPI1 slave boot from external master
4
SPI0 master boot from Flash, using SPI0SSEL2
5
Boot from PPI port
6
Boot from UART host device
7
Boot from Internal L1 ROM
3.3V
16 Mb SPI FLASH
R11
10K
0402
R12
10K
0402
R13
10K
0402
"JTAG"
U4
3
R18
10K
0402
5
SI
6
SCK
1
CS
3
WP
7
HOLD
SPI0MOSI
SPI0SCK
DA_5V
P2
1
2
DSP_TMS
DSP_TMS
DSP_TCK
DSP_TCK
JP2
1
JTAG_CONN_SELECT
3
4
5
6
7
8
9
10
11
12
13
14
XTAL
SPI0SSEL2
JTAG_CONN_EMU
DSP_TRST
DSP_TRST
DSP_TDI
DSP_TDI
DSP_TDO
DSP_TDO
DSP_EMU
DSP_EMU
Y1
25MHz
OSC013
DNP
JTAG_CONN_TCK
JTAG_CONN_TRST
C79
18PF
0402
DNP
DA_SOFT_RESET
C80
18PF
0402
DNP
SPI0MISO
3
3.3V
GND
4
C1
0.01UF
0402
3.3V
DA_USB_PWR
GND
DA_USB_PWR
2
SO
SHORTING
JUMPER
DEFAULT=NOT INSTALLED
JTAG_CONN_TDO
EXT_PS
M25P16
SO8W
R14
10K
0402
SJ1
IDC7X2
EXT_PS
"SPI FLASH CS ENBL"
JTAG_CONN_TDI
DA_SOFT_RESET
2
IDC2X1_SMT
CLKIN
JTAG_CONN_TMS
8
VCC
R16
100K
0402
DEBUG_AGENT
PG
R17
33.0K
0402
C2
220PF
0402
ANALOG
DEVICES
4
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0231-2009
C
Date
Nashua, NH 03063
ADSP-BF592 EZ-KIT LITE
DSP & SPI FLASH
Title
Size
20 Cotton Road
0.1
Sheet
11/2/09
D
2
of
7
A
B
C
D
"MIC GAIN"
"LPBK"
GAIN
5 (14dB)
2
1 (0dB)
3
0.5 (-6dB)
4
3
10
MICIN
4
9
5
8
6
7
4
1
L_OUT_LPBK
5
DEFAULT
11
3
R34
90.9K
0402
R_OUT_LPBK
NC
12
2
2
1
SW10
1
1
R33
40.2K
0402
6
POS.
ON
SW10: MIC GAIN
J2
J3
HP OUT
MIC IN
1
RHPOUT_RDIV
L_IN_LPBK
3.3V
R_IN_LPBK
3.3V
DIP6
SWT017
C8
1UF
0603
FER8
330
0805
LINE OUT
R40
47.0K
0402
C75
10UF
0805
C7
220PF
0402
DNP
C16
0.1UF
0402
C29
0.1UF
0402
U7
5
4
3
FER10
600
0603
R36
5.6K
0402
JP5
R41
680
0402
1
22
2
FER7
600
0603
C23
10UF
0805
21
AVDD
DGND
AGND
18
DBVDD
19
DCVDD
FER11
330
0805
MICIN
MICBIAS
12
HPVDD
3
15
HPGND
C20
10UF
0805
IDC3X1
"MIC"
"LINE IN"
2
J3
LINE IN
C22
0.1UF
0402
C19
0.1UF
0402
"MIC SELECT"
IDC
C4
220PF
0402
DNP
SJ2
SHORTING
JUMPER
DEFAULT=2&3
2
24
23
LLINEIN
MICIN
CT2
220UF
D2E
LHPOUT
3
FER5
600
0603
1
4
R29
5.6K
0402
RHPOUT
C71
1UF
0603
CODEC_DACLRC
CODEC_DACDAT
7
L_IN_LPBK
8
"HEAD PHONE"
"LINE OUT"
RLINEIN
FER6
600
0603
R_IN_LPBK
R30
5.6K
0402
C70
1UF
0603
CODEC_ADCDAT
5
CODEC_ADCLRC
6
BCLK
9
8
10
11
7
13
LHPOUT
14
RHPOUT
R26
0
0603
FER4
600
0603
J2
2
CT1
220UF
D2E
R23
0
0603
DACLRC
FER1
600
0603
3
CT4
10UF
CAP002
DACDAT
ADCDAT
LOUT
ADCLRC
17
ROUT
1
4
16
BCLK
2
R32
47.0K
0402
CT3
10UF
CAP002
R22
47.0K
0402
7
L_OUT_LPBK
8
R_OUT_LPBK
5
C24
100PF
0603
C6
220PF
0402
R37
5.6K
0402
R28
5.6K
0402
C15
220PF
0402
R27
1.0M
0402
R21
1.0M
0402
R20
1.0M
0402
CSB
SDIN
SCLK
26
27
28
CSB
SDIN
SCLK
SSM2603
ICS009
6
CLKOUT
XTO
C72
100PF
0603
MUTE
6
20
VMID
R25
100
0402
FER2
600
0603
R24
100
0402
FER3
600
0603
3.5MM
CON066
2
C73
100PF
0603
25
XTI/MCLK
C74
100PF
0603
MUTE
1
3.5MM
CON066
AGND
3.3V
C5
10UF
0805
"AUDIO CLK"
3
C30
0.1UF
0402
R38
47.0K
0402
R39
47.0K
0402
C68
100PF
0603
C67
100PF
0603
C66
100PF
0603
C65
100PF
0603
3
R42
10K
0402
U11
"SPORT0 ENBL"
RSCLK0
SDA
SCL
ON
1
14
4
13
5
12
6
11
7
10
8
9
4
3
2
3
5
RFS0
TSCLK0
15
6
DRPRI0
16
2
7
DTPRI0
SW1
1
8
TFS0
1
AGND
3
OUT
OE
12MHZ
OSC003
R31
33
0402
4
VDD
GND
2
CODEC_DACLRC
CODEC_DACDAT
CODEC_ADCDAT
CODEC_ADCLRC
3.3V
BCLK
FER9
330
0805
3.3V
SDIN
SCLK
C14
1000PF
0805
DNP
DIP8
SWT016
R35
10K
0402
SW1 disconnects DSP from AUDIO CODEC
R43
100K
0402
C21
0.01UF
0402
4
MUTE
ANALOG
DEVICES
C69
1000PF
0805
DNP
CSB
Size
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0231-2009
C
Date
Nashua, NH 03063
ADSP-BF592 EZ-KIT LITE
AUDIO CODEC
Title
AGND
20 Cotton Road
0.1
Sheet
11/2/09
D
3
of
7
A
B
C
D
3.3V
3.3V
3.3V
1
"PB0"
R50
10K
0402
R63
100
0805
R55
10K
0402
1
R54
10K
0402
U1
U1
R53
10K
0402
R57
10K
0402
3.3V
U5
SW8
MOMENTARY
SWT024
C34
1UF
0805
74LVC14A
SOIC14
74LVC14A
SOIC14
2
LED0
4
LED1
1A2
U1
"PB ENABLE"
3
74LVC14A
SOIC14
C78
1UF
0805
4
ON
7
6
5
1A3
8
1A4
11
13
PB0
2A2
15
PB1
74LVC14A
SOIC14
WAKEN2
2A3
17
C37
0.01UF
0402
DIP4
SWT018
3.3V
9
2Y1
7
2Y2
5
2Y3
3
2Y4
2A1
3.3V
U1
8
2
2
1
1
U1
SW9
MOMENTARY
SWT024
74LVC14A
SOIC14
SW5
3
R62
100
0805
4
"PB1"
R49
10K
0402
6
LED2
C35
0.01UF
0402
18
1Y1
16
1Y2
14
1Y3
12
1Y4
1A1
2A4
LED3
YELLOW
LED001
R59
330
0603
1
OE1
19
LED2
YELLOW
LED001
R60
330
0603
LED1
YELLOW
LED001
R58
330
0603
LED5
GREEN
LED001
"POWER"
R61
330
0603
OE2
IDT74FCT3244APY
SSOP20
R117
10K
0402
"WAKE_EN" R118
100
0805
U1
SW11
MOMENTARY
SWT024
2
74LVC14A
SOIC14
C81
1UF
0805
2
3.3V
3.3V
3.3V
C36
0.01UF
0402
C77
0.01UF
0402
"DCE"
C39
0.1UF
0402
C41
0.01UF
0402
R47
10K
0402
R46
10K
0402
R64
10K
0402
R65
10K
0402
U12
1
C1+
3
C1-
C38
0.1UF
0402
4
C2+
5
C2-
C40
0.1UF
0402
J1
2
V+
6
V-
1
6
2
3.3V
7
11
UART_TX
UART_CTS
15
33
3
14
4
13
5
12
6
11
7
10
8
9
2
2
4
5
CTS
CTS
3
R51
10K
0402
4
2
R52
10K
0402
SN74LVC1G08
SOT23-5
8
1
7
U16
4
SN74LVC1G08
SOT23-5
SW7
MOMENTARY
SWT024
U13
VDD
6
MR
5
RESET
SENSE1
2
3
SENSE2 WDI
ADM13305-4
SOIC8
8
4
9
5
DB9
3
DIP8
SWT016
RESET
1
2
R56
10K
0402
R48
330
0603
7
U15
1
8
DA_SOFT_RESET
3
10
CON038
6
"RESET"
16
33
3
R44
0402
R45
0402
UART_RX
LED4
RED
LED001
ON
1
UART_RTS
14
T1OUT
7
T2IN
T2OUT
12
13
R1OUT
R1IN
9
8
R2OUT
R2IN
ADM3202ARNZ
SOIC16
T1IN
SW2
1
C76
0.1UF
0402
RESET
"RESET"
"UART SETUP"
3.3V
JP1
R120
76.8K
0402
1
R121
18K
0402
2
BAT_P
3
IDC3X1_SMT
SJ?
SHORTING
JUMPER
DEFAULT=1&2
ANALOG
DEVICES
4
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0231-2009
C
Date
Nashua, NH 03063
ADSP-BF592 EZ-KIT LITE
LEDs, PBs, RESET, UART
Title
Size
20 Cotton Road
0.1
Sheet
11/2/09
D
4
of
7
A
B
PS_5V
C
3.3V
PS_5V
D
3.3V
PS_5V
3.3V
P6
1
3
5
7
9
11
1
13
UART_CTS
15
RFS0
17
PG9
19
PG11
21
PG13
23
PG15
25
LED1
27
PB0
29
CHARGE_OFF
31
PF7
33
35
UART_RTS
37
RESET
39
41
43
45
47
49
51
53
2
55
57
59
61
SDA
63
SCL
65
67
69
GND1
PWR_IN1
GND2
PWR_IN2
GND3
VDDIO1
GND4
VDDIO2
GND5
3.3V1
GND6
3.3V2
PPI0FS1
PPI0FS2
PPI0FS3
PPI0CLK
PPI0D1
PPI0D0
PPI0D3
PPI0D2
PPI0D5
PPI0D4
PPI0D7
PPI0D6
PPI0D9
PPI0D8
PPI0D11
PPI0D10
PPI0D13
PPI0D12
PPI0D15
PPI0D14
PPI0D17
PPI0D16
TIMER2/GPIO
RESET
TIMER1/GPIO
TIMER3/GPIO
PPI1FS1
PPI1FS2
PPI1FS3
PPI1CLK
PPI1D1/PPI0D19
PP1D0/PPI0D18
PPI1D3/PPI0D21
PPI1D2/PPI0D20
PPI1D5/PPI0D23
PPI1D4/PPI0D22
PPI1D7
PPI1D6
PPI1D9
PPI1D8
PPI1D11
PPI1D10
PPI1D13
PPI1D12
PPI1D15
PPI1D14
PPI1D17
PPI1D16
SDA
NC
SCL
RSVD1
RSVD2
RSVD3
RSVD4
RSVD5
RSVD6
IDC35x2_SMTA
RSVD7
2
4
6
8
10
12
14
UART_RTS
16
PPICLK
18
PG8
20
PG10
22
DTPRI0
SPORT0
WAKEN2
24
26
28
TFS0
PG14
PG0
LED0
UART_CTS
LED2
30
SPI0
PB1
32
PF6
UART_CTS
38
SPI0MOSI
SPI0MISO
SCL
34
36
PG4
TSCLK0
UART
SPI0SSEL2
UART_TX
UART_RTS
RESET
40
PG11
42
PG14
44
EXT_WAKE
46
48
50
52
54
P4
1
GND1
PWR_IN1
3
GND2
PWR_IN2
5
GND3
VDDIO1
7
GND4
VDDIO2
9
GND5
3.3V1
11
GND6
3.3V2
13
DTPRI
DRPRI
15
DTSEC
DRSEC
17
TSCLK
RSCLK
19
TFS
RFS
21
SPISEL1 SPISEL2
23
SPISEL3
SPICLK
25
SPIMOSI
SPISS
27
SPIMISO
TIMER
29
SCL
SDA
31
UARTTX UARTRX
33
UARTRTSUARTCTS
35
RESET
NC
37
GPIO1
GPIO2
39
GPIO3
GPIO4
41
WAKE
RSVD1
43
RSVD2
RSVD3
45
RSVD4
RSVD5
47
RSVD6
RSVD7
49
RSVD8
RSVD9
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
DRPRI0
CHARGE_OFF
PG0
SPORT1
RSCLK0
RFS0
40
PF6
PF7
SPI0SSEL2
PG13
SPI0SCK
SPI1
PG0
UART_RTS
SPI0MOSI
PG9
PG10
SDA
SCL
UART_RX
UART
UART_CTS
36
38
PB1
UART_TX
UART_RTS
RESET
PG13
PG11
PG15
PG14
42
EXT_WAKE
44
46
48
50
IDC25x2_SMTA
P5
1
GND1
PWR_IN1
3
GND2
PWR_IN2
5
GND3
VDDIO1
7
GND4
VDDIO2
9
GND5
3.3V1
11
GND6
3.3V2
13
DTPRI
DRPRI
15
DTSEC
DRSEC
17
TSCLK
RSCLK
19
TFS
RFS
21
SPISEL1 SPISEL2
23
SPISEL3
SPICLK
25
SPIMOSI
SPISS
27
SPIMISO
TIMER
29
SCL
SDA
31
UARTTX UARTRX
33
UARTRTSUARTCTS
35
RESET
NC
37
GPIO1
GPIO2
39
GPIO3
GPIO4
41
WAKE
RSVD1
43
RSVD2
RSVD3
45
RSVD4
RSVD5
47
RSVD6
RSVD7
49
RSVD8
RSVD9
2
4
6
8
10
1
12
14
16
18
20
22
24
26
28
30
32
34
LED1
LED0
LED2
PB0
WAKEN2
PG8
PG13
UART_RTS
SDA
UART_RX
UART_CTS
36
38
40
PG13
PG15
42
44
46
48
50
IDC25x2_SMTA
2
56
58
60
62
64
66
68
70
P1
LED0
LED1
A1
D0
A2
D1
A3
GND0
PB1
CHARGE_OFF
A4
D4
A5
D5
A6
GND1
3
PPICLK
A7
CLK1+
A8
CLK1-
A9
GND2
UART_RTS
UART_TX
A10
D10
A11
D11
A12
GND3
SPI0MISO
SPI0SCK
A13
D14
A14
D15
A15
GND4
RSCLK0
RFS0
A16
D18
A17
D19
A18
GND5
TSCLK0
TFS0
A19
D22
A20
D23
A21
GND6
PG8
PG9
A22
D24
A23
D25
A24
GND7
WAKEN2
PG13
A25
D28
A26
D29
A27
GND8
DMAX_ALT
DNP
4
GND9
D2
D3
GND10
D6
D7
GND11
D8
D9
GND12
D12
D13
GND13
D16
D17
GND14
D20
D21
GND15
CLK2CLK2+
GND16
D26
D27
GND17
D30
D31
B1
B2
B3
LED2
PB0
B4
B5
B6
PF6
PF7
B7
B8
B9
3
SPI0SSEL2
UART_CTS
B10
B11
B12
UART_RX
SPI0MOSI
B13
B14
B15
PG0
DRPRI0
B16
B17
B18
PG4
DTPRI0
B19
B20
B21
B22
B23
B24
PG10
PG11
B25
B26
B27
ANALOG
DEVICES
PG14
PG15
Board No.
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0231-2009
C
Date
Nashua, NH 03063
ADSP-BF592 EZ-KIT LITE
EXPANSION & DMAX
Title
Size
20 Cotton Road
0.1
Sheet
11/2/09
D
5
of
7
A
B
C
D
TP2
PWR_IN
PS_5V
Q2
SI2333DS
SOT23D
3
F2
5A
FUS005
2
BAT_P
1
R73
1.00K
0603
R85
1.00K
0603
R86
100K
0603
1
3
C42
470PF
0603
1
R72
1.00K
0603
BATTERY CHARGER
R83
1.00K
0603
U6
C50
0.1UF
0603
R84
0.2
0805
R76
1M
0603
VR2
3
AD8619ARUZ
TSSOP14
R77
1.0M
0603
DNP
SMC
2
1
PS_5V
R70
100K
0603
Q3
SI2333DS
SOT23D
D2
GSOT05
SOT23-3
C51
10UF
1210
D5
MBRS540T3G
1
"CHARGING"
R69
100K
0603
R82
100K
0603
2
4
NJT4030P
SOT-223
C43
470PF
0603
R66
100K
0603
U6
USB_WALL
DA_5V
C48
2.2UF
0805
Q4
SI2333DS
SOT23D
DNP
3
R74
1M
0603
LED6
YELLOW
LED009
R90
680
0402
6
8
1
R71
1.00K
0603
7
3.3V
R93
1.00K
0603
2
R87
100K
0603
R78
1.0M
0603
DNP
U9
4
2
C52
0.1UF
0603
R88
1K
0603
1
CS
DRV
AD8619ARUZ
TSSOP14
R97
100K
0603
3
BAT
2
GND
5
ADJ
IN
CHG
TIMER
C44
1UF
0603
ADP2291
MSOP8
C45
10UF
0805
2
C49
470PF
0603
"CHG CNTRL"
R67
100K
0603
U6
R96
15K
0402
U6
JP6
1
CHARGE_OFF
3
2
R75
1M
0603
3
AD8619ARUZ
TSSOP14
R79
1.0M
0603
DNP
1
IDC3X1
R68
100K
0603
Q1
SI1012R
SC-75A
2
AD8619ARUZ
TSSOP14
R81
100K
0402
R89
40K
0402
IDCSJ5
"R89 JMP"
SHORTING
JUMPER
DEFAULT=1&2
JP8
1
2
SJ4
SHORTING
JUMPER
DEFAULT=INSTALLED
IDC2X1
Charge rate selection
"BATT INSTALLED"
PS_5V
MODE
FUEL_GAUGE_VCC
VR4
1
3
3
JP8
Charge
Rate
Charge
2&3
OFF
250 mA
Shutdown
OFF
ON
NONE
Control Shutdown
1&2
ON
0/250 mA
SJ3
INPUT
OUTPUT
SHORTING
JUMPER
DEFAULT=UNINSTALLED
DNP
5
EN
C82
1UF
0603
JP6
GND
2 ADP121-AUJZ25
TSOT5
C83
1UF
0603
JP7
1
BAT_INSTALLED
R91
1.8M
0402
2
IDC2X1
"BATTERY"
R114
10K
THERMAT-2
FUEL GAUGE
"-"
"GAUGE SIGNALS"
U17
12
BAT_GD
SW6
1
1
BAT_LOW
ON
2
BI/TOUT
7
11
3
6
FUEL_GAUGE_VCC
C46
0.1UF
0603
SDA
10
4
5
3
BAT_GD
BAT_LOW
SCL
2
4
BAT_P
"OFF"
SRP
CON064
POWER
SDA
"+"
DIP4
SWT018
SRN
C47
0.1UF
0603
4
3
TS
4
BAT
5
VCC
6
VSS
BAT_INSTALLED
SCL
8
2
2
BAT_P
P3
1
3
1
R92
18K
0402
"BAT GOOD"
"BAT LOW"
3.3V
BAT_LOW
7
SW3
SPDT
SWT026
8
BQ27500
SON12
LED7
YELLOW
LED001
"ON"
R80
0.02
1206
ANALOG
DEVICES
LED8
GREEN
LED001
R94
430
0402
4
Title
R95
430
0402
Size
BAT_GD
FUEL GAUGE ADDRESS 0xAA
B
C
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
ADSP-BF592 EZ-KIT LITE
BATTERY CHARGER & FUEL GAUGE
Board No.
Rev
A0231-2009
C
Date
A
3
0.1
Sheet
11/2/09
D
6
of
7
A
B
C
D
DA_5V
PS_5V
R99
0
0402
U14
7
6
OUT1
8
OUT2
IN1
SJ9
SHORTING
JUMPER
DEFAULT=INSTALLED
EXT_WAKE
1
DA_USB_PWR
Remove JP4 when measuring VDDINT
1.1 - 1.4V @ 500mA
EN
2
FLG
GND
3 MIC2025-1
SOIC8
1
3.3V
R104
4.3
1206
R111
10K
0402
"VDDINT"
JP4
1
R101
4.3
1206
VDDINT
TP8
1
2
IDC2X1
R105
0.05
1206
R103
1.2K
0402
EXT_PS
PWR_IN
FER14
190
FER002
4
3
1
1
W
PS_5V
2
AD0
C53
10UF
1210
D7
MBRS540T3G
5A
SMC
2
VR3
10
A
TP5
1
5
GND1
2
6
GND2
3
7
GND3
4
8
GND4
2
1
3
C54
4.7UF
0603
EN
P9
C61
1000PF
1206
R113
10K
0402
DNP
U3
D3
GSOT05
SOT23-3
SDA
9
B
3
AD1
8
VCC
4
SDA
GND
R100
1.0K
0402
IN
C56
0.01UF
0402
OUT
5
SCL
AD5258
MSOP10
SCL
"5V"
D6
SK12
DO-214AA
7
ADJ
POWER
CON045
D1
VESD01-02V-GS08
SOD-523
6
VLOGIC
C55
0.1UF
0402
C58
4.7UF
0603
R102
2.67K
0402
C57
4.7UF
0603
ADP1715
MSOP8
R112
10K
0402
FER12
600
1206
C60
1000PF
1206
2
2
FER13
600
1206
TP6
SHGND
SHGND
MH1 MH2 MH3 MH4
0.156
0.156
0.156
M2 M3 M4
0.156
M5 M6 M7
MH5 MH6 MH7 MH8
0.125
0.125
0.125
0.125
PS_5V
3
3
Remove JP3 when measuring VDDEXT
C59
10UF
1210
SJ7
SHORTING
JUMPER
DEFAULT=INSTALLLED
3.3V @ 2A
PGND
VDDEXT
TP9
R107
24.9K
0603
R106
0.05
1206
VR1
C63
68PF
0603
3
FB
PGATE
GND
2
R110
80.6K
0603
U2
1
2
IDC2X1
CS
C64
470PF
0603
"VDDEXT"
JP3
5
IN
1
COMP
3.3V
R98
0.05
1206
4
1
5
2
6
3
7
4
8
L1
2.5UH
IND013
6
ADP1864AUJZ
SOT23-6
R108
0.05
1206
TP7
D8
MBRS540T3G
SMC
SI4411DY
SO-8
CT5
220UF
D2E
C62
4.7UF
0805
D4
GSOT03
SOT23-3
SJ8
SHORTING
JUMPER
DEFAULT=INSTALLLED
R109
255.0K
0603
ANALOG
DEVICES
PGND
4
PGND
Size
Board No.
Date
A
B
C
4
PH: 1-800-ANALOGD
Rev
A0231-2009
C
PGND
Nashua, NH 03063
ADSP-BF592 EZ-KIT LITE
POWER
Title
W1
COPPER
2A
20 Cotton Road
0.1
Sheet
11/2/09
D
7
of
7
I
INDEX
A
D
architecture, of this EZ-KIT Lite, 2-2
DCE UART connector (J1), 2-20
debug agent
MON LED (ZLED2), 2-18
power LED (ZLED1), 2-18
STAT LED (ZLED3), 2-18
test mode jumper (ZP1), 2-15
default configuration, of this EZ-KIT Lite, 1-3
design reference info, 1-15
DIP switch (SW5), 2-8
dual audio connectors (J2-3), 2-20
B
background telemetry channel (BTC), 1-15
battery
installed jumper (JP7), 2-14
switch (SW3), 2-7, 2-14, 2-18
bill of materials, A-1
board schematic (ADSP-BF592), B-1
boot
modes, 2-8
mode select switch (SW4), 2-8
C
charge control jumper (JP6), 2-14
configuration, of this EZ-KIT Lite, 1-3
connectors
diagram of locations, 2-19
J1 (DCE UART), 2-20
J2-3 (dual audio), 2-20
P2 (JTAG), 1-5, 2-21
P4 (expansion), 2-21
P5 (expansion), 2-21
P6 (expansion), 2-22
P9 (power), 1-5, 2-22
ZP1 (USB), 2-22
contents, of this EZ-KIT Lite package, 1-2
customer support, xii
E
example programs, 1-14
expansion interface, 1-11, 2-21, 2-22
F
flag pins, See programmable flags by name (PFx,
PGx)
fuel gauge enable switch (SW6), 2-8
G
general-purpose IO pins (GPIO), 2-8, 2-17
I
installation, of this EZ-KIT Lite, 1-4, 1-5
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
I-1
Index
J
JTAG connector (P2), 1-5, 2-21
jumpers
diagram of locations, 2-12
JP3 (VDDEXT power), 2-13
JP4 (VDDINT power), 2-13
JP5 (mic select), 2-14
JP6 (charge control), 2-14
JP7 (battery installed), 2-14
JP8 (R89), 2-14
ZJP2 (Windows/Linux), 2-15
ZP1 (debug agent test mode), 2-15
L
LEDs
diagram of locations, 2-16
LED1-3 (PF0-2), 2-17
LED4 (reset), 2-17
LED5 (power), 2-17
ZLED1 (debug agent power), 2-18
ZLED2 (debug agent via USB), 2-18
ZLED3 (EMU signal), 2-18
license restrictions, viii, 1-8
M
Media Instruction Set Computing (MISC), vii
memory map, of this EZ-KIT Lite, 1-8
Micro Signal Architecture (MSA), vii
mic select jumper (JP5), 2-14
N
notation conventions, xvii
P
package contents, 1-2
PF0-2 (IO) signals, 2-3, 2-17
PF3-15 signals, 2-3
I-2
PG0-15 signals, 2-4
power
architecture, 1-12
connector (P9), 1-5, 2-22
LED (LED5), 2-17
measurements, 1-14
power-on-self test (POST), 1-11
programmable flags (PFs) push buttons
(SW8-9), 2-10
R
R89 jumper (JP8), 2-14
Reduced Instruction Set Computing (RISC),
vii
reset
LEDs (LED4), 2-17
push button (SW7), 2-9
restriction, of the evaluation license, 1-8
S
schematic, of ADSP-BF592 EZ-KIT Lite, B-1
SPI flash memory interface, 1-9
SPORT0 enable switch (SW1), 2-7
SRAM memory, 1-8
See also memory map
startup, of this EZ-KIT Lite, 1-6
SW1 (SPORT0) enable switch, 2-7
SW2 (UART setup) switch, 2-7
SW3 (battery) switch, 2-7, 2-14, 2-18
SW4 (boot mode select) switch, 2-8
SW5 (push button enable) DIP switch, 2-8
SW6 (fuel gauge enable) switch, 2-8
SW7 (reset) push button, 2-9
switches, diagram of locations, 2-6
system architecture, of this EZ-KIT Lite, 2-2
U
UART setup switch (SW2), 2-7
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
Index
USB connector (ZP1), 2-22
V
VDDEXT
pin, 1-14
power jumper (JP3), 2-13
VDDINT
pin, 1-14
power jumper (JP4), 2-13
programmable regulator, 1-13
very-long instruction word (VLIW), vii
W
Windows/Linux jumper (ZJP2), 2-15
ADSP-BF592 EZ-KIT Lite Evaluation System Manual
I-3
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