ADSP-BF518F EZ-Board(R) Evaluation System Manual Revision 1.3, July 2012 Part Number 82-000217-01 Analog Devices, Inc. One Technology Way Norwood, Mass. 02062-9106 a Copyright Information (c) 2012 Analog Devices, Inc., ALL RIGHTS RESERVED. This document may not be reproduced in any form without prior, express written consent from Analog Devices, Inc. Printed in the USA. Disclaimer Analog Devices, Inc. reserves the right to change this product without prior notice. Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use; nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under the patent rights of Analog Devices, Inc. Trademark and Service Mark Notice The Analog Devices logo, Blackfin, CrossCore, EngineerZone, EZ-Board, EZ-Extender, Lockbox, and VisualDSP++ 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-BF518F EZ-Board is designed to be used solely in a laboratory environment. The board is not intended for use as a consumer end product or as a portion of a consumer end product. The board is an open system design which does not include a shielded enclosure and therefore may cause interference to other electrical devices in close proximity. This board should not be used in or near any medical equipment or RF devices. The ADSP-BF518F EZ-Board has been certified to comply with the essential requirements of the European EMC directive 2004/108/EC and therefore carries the "CE" mark. The ADSP-BF518F EZ-Board has been appended to Analog Devices, Inc. EMC Technical File (EMC TF) referenced DSPTOOLS1, issue 2 dated June 4, 2008 and was declared CE compliant by an appointed Notified Body (No.0673) as listed below. Notified Body Statement of Compliance: Z600ANA2.032, dated March, 2009. Issued by: Technology International (Europe) Limited 60 Shrivenham Hundred Business Park Shrivenham, Swindon, SN6 8TY, UK The EZ-Board evaluation system contains ESD (electrostatic discharge) sensitive devices. Electrostatic charges readily accumulate on the human body and equipment and can discharge without detection. Permanent damage may occur on devices subjected to high-energy discharges. Proper ESD precautions are recommended to avoid performance degradation or loss of functionality. Store the unused EZ-Board in the protective shipping package. CONTENTS PREFACE Product Overview ....................................................................... xiii Purpose of This Manual ................................................................ xv Intended Audience ....................................................................... xvi Manual Contents ......................................................................... xvi What's New in This Manual ........................................................ xvii Technical Support ....................................................................... xvii Supported Processors .................................................................. xviii Product Information .................................................................... xix Analog Devices Web Site ........................................................ xix EngineerZone ......................................................................... xix Related Documents ................................................................. xx Notation Conventions .................................................................. xxi USING THE ADSP-BF518F EZ-BOARD Package Contents .......................................................................... 1-3 Default Configuration ................................................................... 1-3 CCES Install and Session Startup .................................................. 1-5 Session Startup ........................................................................ 1-6 ADSP-BF518F EZ-Board Evaluation System Manual v Contents VisualDSP++ Install and Session Startup ....................................... 1-9 Session Startup ...................................................................... 1-10 CCES Evaluation License ........................................................... 1-11 VisualDSP++ Evaluation License ................................................. 1-12 Lockbox Key Security Features .................................................... 1-13 Memory Map ............................................................................. 1-13 SDRAM Interface ....................................................................... 1-15 Parallel Flash Memory Interface .................................................. 1-16 eMMC Interface ......................................................................... 1-16 SD Interface ............................................................................... 1-17 SPI Interface .............................................................................. 1-17 Parallel Peripheral Interface (PPI) ................................................ 1-19 Rotary Encoder Interface ............................................................ 1-19 Ethernet Interface ....................................................................... 1-20 Audio Interface ........................................................................... 1-21 ADC Interface ............................................................................ 1-22 UART Interface .......................................................................... 1-23 RTC Interface ............................................................................ 1-24 LEDs and Push Buttons .............................................................. 1-24 JTAG Interface ........................................................................... 1-25 Land Grid Array ......................................................................... 1-26 Expansion Interface II ................................................................. 1-26 Power Measurements .................................................................. 1-27 Power-On-Self Test ..................................................................... 1-28 vi ADSP-BF518F EZ-Board Evaluation System Manual Contents Example Programs ...................................................................... 1-28 Board Design Database ............................................................... 1-28 ADSP-BF518F EZ-BOARD HARDWARE REFERENCE System Architecture ...................................................................... 2-2 Programmable Flags ...................................................................... 2-3 Push Button and Switch Settings ................................................... 2-7 Boot Mode Select Switch (SW1) .............................................. 2-8 PB Enable Switch (SW2) ......................................................... 2-9 Flash Enable Switch (SW3) ...................................................... 2-9 SPORT1 Enable Switch (SW4) .............................................. 2-10 MIC Gain/Loopback Switch (SW5) ....................................... 2-10 UART Setup Switch (SW10) ................................................. 2-11 Reset Push Button (SW11) .................................................... 2-11 Programmable Flag Push Buttons (SW12-13) ........................ 2-12 Rotary Encoder with Momentary Switch (SW14) ................... 2-12 SPORT0 ENBL Switch (SW15) ............................................. 2-12 Encoder Enable Switch (SW19) ............................................. 2-13 eMMC Enable Switch (SW20-21) ......................................... 2-13 ADC Loopback Switches (SW22-23) ..................................... 2-13 ADSP-BF518F EZ-Board Evaluation System Manual vii Contents Jumpers ...................................................................................... 2-14 Flash WP Jumper (JP3) ......................................................... 2-15 OTP Flag Enable Jumper (JP14) ........................................... 2-15 MIC Select Jumper (JP15) .................................................... 2-16 SPI FLASH CS Enable Jumper (JP16) ................................... 2-16 Ethernet Power Down Jumper (JP17) .................................... 2-16 Ethernet Isolate Jumper (JP18) .............................................. 2-16 VDDINT Power Jumper (P8) ............................................... 2-16 VDDEXT Power Jumper (P9) ............................................... 2-17 VDDMEM Power Jumper (P10) ........................................... 2-17 VDDFLASH Power Jumper (P11) ......................................... 2-17 LEDs ......................................................................................... 2-18 GPIO LEDs (LED1-3) ......................................................... 2-19 Reset LED (LED9) ............................................................... 2-19 Power LED (LED13) ............................................................ 2-19 Speed LED (LED14) ............................................................. 2-19 Connectors ................................................................................. 2-20 Expansion Interface II Connector (J1) ................................... 2-21 RS-232 Connector (J2) ......................................................... 2-21 Power Connector (J3) ........................................................... 2-21 Dual Audio Connectors (J4-5) .............................................. 2-22 Battery Holder (J12) ............................................................. 2-22 SD Connector (J13) .............................................................. 2-22 Ethernet Connector (J14) ...................................................... 2-22 viii ADSP-BF518F EZ-Board Evaluation System Manual Contents MII Connector (J15) ............................................................. 2-23 JTAG Connector (P1) ........................................................... 2-23 Expansion Interface II Connectors (P2 and P4) ...................... 2-24 Expansion Interface II Connector (P3) ................................... 2-24 DMAX Land Grid Array Connectors (P5-7) .......................... 2-25 Standalone Debug Agent Connector (ZP1) ............................ 2-25 ADSP-BF518F EZ-BOARD BILL OF MATERIALS ADSP-BF518F EZ-BOARD SCHEMATIC INDEX ADSP-BF518F EZ-Board Evaluation System Manual ix Contents x ADSP-BF518F EZ-Board Evaluation System Manual PREFACE Thank you for purchasing the ADSP-BF518F EZ-Board(R), Analog Devices, Inc. evaluation system for Blackfin(R) processors. Blackfin processors embody a 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. ADSP-BF518F EZ-Board Evaluation System Manual xi The evaluation board is designed to be used in conjunction with the CrossCore(R) Embedded Studio (CCES) and VisualDSP++(R) development environments to test the capabilities of the ADSP-BF512/BF512F, ADSP-BF514/BF514F, ADSP-BF516/BF516F, and ADSP-BF518/BF518F Blackfin processors. The development environment aids advanced application code development and debug, such as: * Create, compile, assemble, and link application programs written in C++, C, and assembly * Load, run, step, halt, and set breakpoints in application programs * Read and write data and program memory * Read and write core and peripheral registers * 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 of the standalone debug agent gives unrestricted access to the processor and evaluation board's peripherals. Analog Devices JTAG emulators offer faster communication between the host PC and target hardware. To learn more about Analog Devices emulators and processor development tools, go to http://www.analog.com/dsp/tools. The ADSP-BF518F EZ-Board provides example programs to demonstrate the capabilities of the product. xii ADSP-BF518F EZ-Board Evaluation System Manual Preface Product Overview The board features: * Analog Devices ADSP-BF518F Blackfin processor * Core performance up to 400 MHz * External bus performance up to 80 MHz * 176-pin LQFP package * 25 MHz crystal * Programmable VDDINT core power * Analog Devices AD5258 TWI digital potentiometer * Analog Devices ADP1715 low dropout linear regulator * Synchronous dynamic random access memory (SDRAM) * Micron MT48LC32M16A2TG - 64 MB (32M x 16-bits) * Parallel flash memory * Numonyx M29W320EB - 4 MB (2M x 16-bits) * eMMC flash memory * Micron MTFC8GKQDI - 8 GB * SPI flash memory * Numonyx M25P16 - 16 Mb ADSP-BF518F EZ-Board Evaluation System Manual xiii Product Overview * Analog audio interface * Analog Devices SSM2603 low-power audio codec * One stereo LINE OUT jack * One headphone LINE IN * One input MIC jack * One input stereo LINE IN jack * Ethernet interface * National Semiconductor DP83848 PHY device * 10-BaseT and 100-BaseTX * Auto-MDIX * ADC interface * Analog Devices AD7266 2 MSPS, 12-bit, 3-channel SAR analog-to-digital converter * Thumbwheel * Panasonic EVQ-WKA001 rotary encoder * Universal asynchronous receiver/transmitter (UART) * ADM3202 RS-232 line driver/receiver * DB9 female connector xiv ADSP-BF518F EZ-Board Evaluation System Manual Preface * LEDs * Five LEDs: one board reset (red), three general-purpose (amber), one configurable ethernet LEDs (amber) and one power (green) * Push buttons * Three push buttons: one reset, two programmable flags with debounce logic * Expansion interface II * Next generation of the expansion interface design, provides access to most of the ADSP-BF518F processor signals * Land grid array * Easy probing of all port pins and most EBIU signals * Other features * JTAG ICE 14-pin header * Blackfin power measurement jumpers For information about the hardware components of the EZ-Board, refer to Chapter 2, "ADSP-BF518F EZ-Board Hardware Reference". Purpose of This Manual The ADSP-BF518F EZ-Board Evaluation System Manual provides instructions for installing the product hardware (board). The text describes operation and configuration of the board components and provides guidelines for running your own code on the ADSP-BF518F EZ-Board. Finally, a schematic and a bill of materials are provided for reference. ADSP-BF518F EZ-Board Evaluation System Manual xv Intended Audience 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 that describe your target architecture. For the locations of these documents, see "Related Documents". Programmers who are unfamiliar with CCES or VisualDSP++ should refer to the online help and user's manuals. Manual Contents The manual consists of: * Chapter 1, "Using the ADSP-BF518F EZ-Board" on page 1-1 Describes EZ-Board functionality from a programmer's perspective and provides an easy-to-access memory map. * Chapter 2, "ADSP-BF518F EZ-Board Hardware Reference" on page 2-1 Provides information on the EZ-Board hardware components. * Appendix A, "ADSP-BF518F EZ-Board Bill Of Materials" on page A-1 Provides a list of components used to manufacture the EZ-Board. * Appendix B, "ADSP-BF518F EZ-Board Schematic" on page B-1 Provides the resources to allow board-level debugging or to use as a reference guide. Appendix B is part of the online help. xvi ADSP-BF518F EZ-Board Evaluation System Manual Preface What's New in This Manual This is revision 1.3 of the ADSP-BF518F EZ-Board Evaluation System Manual. The manual has been updated to include CCES information. Additional changes include the following. * Updated System Architecture graphic, Figure 2-1. * Updated Configuration Jumper Locations graphic, Figure 2-3. * Updated Connector Locations graphic, Figure 2-5. * Updated Ethernet connectors. * Updated Bill of Materials, Appendix A, "ADSP-BF518F EZ-Board Bill Of Materials". * Modifications and corrections based on errata reports against the previous manual revision have been made. For the latest version of this manual, please refer to the Analog Devices Web site. Technical Support You can reach Analog Devices processors and DSP technical support in the following ways: * Post your questions in the processors and DSP support community at EngineerZone(R): http://ez.analog.com/community/dsp * Submit your questions to technical support directly at: http://www.analog.com/support ADSP-BF518F EZ-Board Evaluation System Manual xvii Supported Processors * E-mail your questions about processors, DSPs, and tools development software from CrossCore Embedded Studio or VisualDSP++: Choose Help > Email Support. This creates an e-mail to processor.tools.support@analog.com and automatically attaches your CrossCore Embedded Studio or VisualDSP++ version information and license.dat file. * E-mail your questions about processors and processor applications to: processor.support@analog.com or processor.china@analog.com (Greater China support) * In the USA only, call 1-800-ANALOGD (1-800-262-5643) * Contact your Analog Devices sales office or authorized distributor. Locate one at: www.analog.com/adi-sales * Send questions by mail to: Processors and DSP Technical Support Analog Devices, Inc. Three Technology Way P.O. Box 9106 Norwood, MA 02062-9106 USA Supported Processors This evaluation system supports Analog Devices ADSP-BF512/BF512F, ADSP-BF514/BF514F, ADSP-BF516/BF516F, and ADSP-BF518/BF518F Blackfin embedded processors. xviii ADSP-BF518F EZ-Board Evaluation System Manual Preface Product Information Product information can be obtained from the Analog Devices Web site and the online help system. Analog Devices Web Site The Analog Devices Web site, www.analog.com, provides information about a broad range of products--analog integrated circuits, amplifiers, converters, and digital signal processors. To access a complete technical library for each processor family, go to http://www.analog.com/processors/technical_library. The manuals selection opens a list of current manuals related to the product as well as a link to the previous revisions of the manuals. When locating your manual title, note a possible errata check mark next to the title that leads to the current correction report against the manual. Also note, myAnalog 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 provides access to books, application notes, data sheets, code examples, and more. Visit myAnalog to sign up. If you are a registered user, just log on. Your user name is your e-mail address. EngineerZone EngineerZone is a technical support forum from Analog Devices. It allows you direct access to ADI technical support engineers. You can search FAQs and technical information to get quick answers to your embedded processing and DSP design questions. ADSP-BF518F EZ-Board Evaluation System Manual xix Product Information 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. Related Documents For additional information about the product, refer to the following publications. Table 1. Related Processor Publications xx Title Description ADSP-BF512/ADSP-BF514/ADSP-BF516/ ADSP-BF518(F) Blackfin Embedded Processor Data Sheet General functional description, pinout, and timing of the processor ADSP-BF51x Blackfin Processor Hardware Reference Description of internal processor architecture and all register functions Blackfin Processor Programming Reference Description of all allowed processor assembly instructions ADSP-BF518F EZ-Board Evaluation System Manual Preface 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 development 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. Note: For correct operation, ... A Note provides supplementary information on a related topic. In the online version of this book, the word Note appears instead of this symbol. Caution: Incorrect device operation may result if ... Caution: Device damage may result if ... A Caution identifies conditions or inappropriate usage of the product that could lead to undesirable results or product damage. In the online version of this book, the word Caution appears instead of this symbol. Warning: Injury to device users may result if ... A Warning identifies conditions or inappropriate usage of the product that could lead to conditions that are potentially hazardous for the devices users. In the online version of this book, the word Warning appears instead of this symbol. ADSP-BF518F EZ-Board Evaluation System Manual xxi Notation Conventions xxii ADSP-BF518F EZ-Board Evaluation System Manual 1 USING THE ADSP-BF518F EZ-BOARD This chapter provides information to assist you with development of programs for the ADSP-BF518F EZ-Board evaluation system. The following topics are covered. * "Package Contents" on page 1-3 * "Default Configuration" on page 1-3 * "CCES Install and Session Startup" on page 1-5 * "VisualDSP++ Install and Session Startup" on page 1-9 * "CCES Evaluation License" on page 1-11 * "VisualDSP++ Evaluation License" on page 1-12 * "Lockbox Key Security Features" on page 1-13 * "Memory Map" on page 1-13 * "SDRAM Interface" on page 1-15 * "Parallel Flash Memory Interface" on page 1-16 * "eMMC Interface" on page 1-16 * "SPI Interface" on page 1-17 * "Parallel Peripheral Interface (PPI)" on page 1-19 * "Rotary Encoder Interface" on page 1-19 ADSP-BF518F EZ-Board Evaluation System Manual 1-1 * "Ethernet Interface" on page 1-20 * "Audio Interface" on page 1-21 * "ADC Interface" on page 1-22 * "UART Interface" on page 1-23 * "RTC Interface" on page 1-24 * "LEDs and Push Buttons" on page 1-24 * "JTAG Interface" on page 1-25 * "Land Grid Array" on page 1-26 * "Expansion Interface II" on page 1-26 * "Power Measurements" on page 1-27 * "Power-On-Self Test" on page 1-28 * "Example Programs" on page 1-28 * "Board Design Database" on page 1-28 For information about the graphical user interface, including the boot loading, target options, and other facilities of the EZ-Board system, refer to the online help. For more information about the ADSP-BF518F Blackfin processor, see documents referred to at "Related Documents". 1-2 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board Package Contents Your ADSP-BF518F EZ-Board evaluation system package contains the following items. * ADSP-BF518F EZ-Board * Universal 5.0V DC power supply * Secure digital (SD) memory card * 7-foot Ethernet patch cable * Two 6-foot 3.5 mm male-to-male audio cables * 3.5 mm stereo earbuds If any item is missing, contact the vendor where you purchased your EZ-Board or contact Analog Devices, Inc. Default Configuration The EZ-Board evaluation system contains ESD (electrostatic discharge) sensitive devices. Electrostatic charges readily accumulate on the human body and equipment and can discharge without detection. Permanent damage may occur on devices subjected to high-energy discharges. Proper ESD precautions are recommended to avoid performance degradation or loss of functionality. Store the unused EZ-Board in the protective shipping package. The ADSP-BF518F EZ-Board board is designed to run outside your personal computer as a standalone unit. You do not have to open your computer case. When removing the EZ-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 settings, ADSP-BF518F EZ-Board Evaluation System Manual 1-3 Default Configuration connector locations, and LEDs used in installation. Confirm that your board is in the default configuration before using the board. Figure 1-1. Default EZ-Board Hardware Setup 1-4 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board CCES Install and Session Startup For information about CCES and to download the software, go to www.analog.com/CCES. A link for the ADSP-BF518F EZ-KIT Lite Board Support Package (BSP) for CCES can be found at http://www.analog.com/Blackfin/EZKits. Follow these instructions to ensure correct operation of the product software and hardware. Step 1: Connect the EZ-KIT Lite board to a personal computer (PC) running CCES using one of two options: an Analog Devices emulator or via the debug agent. Using an Emulator: 1. Plug one side of the USB cable into the USB connector of the emulator. Plug the other side into a USB port of the PC running CCES. 2. Attach the emulator to the header connector P1 (labeled JTAG) on the EZ-Board. Using the standalone Debug Agent: 1. Attach the standalone debug agent to connectors P1 (labeled JTAG) and ZP1 of the EZ-Board. 2. Plug one side of the USB cable into the USB connector of the debug agent P4. Plug the other side of the cable into a USB port of the PC running CCES. ADSP-BF518F EZ-Board Evaluation System Manual 1-5 CCES Install and Session Startup Step 2: Attach the provided cord and appropriate plug to the 5V power adaptor. 1. Plug the jack-end of the power adaptor into the power connector J3 (labeled 5V) on the EZ-Board. 2. Plug the other side of the power adaptor into a power outlet. The power LED (labeled LED13) is lit green when power is applied to the board. 3. Power the emulator (if used). Plug the jack-end of the assembled power adaptor into the emulator and plug the other side of the power adaptor into a power outlet. The enable/power is lit green when power is applied. Step 3 (if connected through the debug agent): Verify that the yellow USB monitor LED (labeled LED2) and the green power LED (labeled LED1) on the debug agent are both on. This signifies that the board is communicating properly with the host PC and ready to run CCES. Session Startup It is assumed that the CrossCore Embedded Studio software is installed and running on your PC. If you connect the board or emulator first (before installing Note: CCES) to the PC, the Windows driver wizard may not find the board drivers. 1. Navigate to the CCES environment via the Start menu. Note that CCES is not connected to the target board. 1-6 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board 2. Use the system configuration utility to connect to the EZ-Board. If a debug configuration exists already, select the appropriate configuration and click Apply and Debug or Debug. Go to step 8. To create a debug configuration, do one of the following: * Click the down arrow next to the little bug icon, select Debug Configurations * Choose Run > Debug Configurations. The Debug Configuration dialog box appears. 3. Select CrossCore Embedded Studio Application and click (New launch configuration). The Select Processor page of the Session Wizard appears. 4. Ensure Blackfin is selected in Processor family. In Processor type, select ADSP-BF518F. Click Next. The Select Connection Type page of the Session Wizard appears. 5. Select one of the following: * For standalone debug agent connections, EZ-Board and click Next. * For emulator connections, Emulator and click Next. The Select Platform page of the Session Wizard appears. ADSP-BF518F EZ-Board Evaluation System Manual 1-7 CCES Install and Session Startup 6. Do one of the following: * For standalone debug agent connections, ensure that the selected platform is ADSP-BF518F EZ-Board via Debug Agent. * For emulator connections, choose the type of emulator that is connected to the board. 7. Click Finish to close the wizard. The new debug configuration is created and added to the program(s) to load list. 8. In the Program(s) to load section, choose the program to load when connecting to the board. If not loading any program upon connection to the target, do not make any changes. Note that while connected to the target, there is no way to choose a program to download. To load a program once connected, terminate the session. a configuration, go to the Debug Configurations dialog Toboxdelete and select the configuration to delete. Click and choose Yes when asked if you wish to delete the selected launch configuration. Then Close the dialog box. from the target board, click the terminate button To(reddisconnect box) or choose Run > Terminate. To delete a session, choose Target > Session > Session List. Select the session name from the list and click Delete. Click OK. 1-8 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board VisualDSP++ Install and Session Startup For information about VisualDSP++ and to download the software, go to www.analog.com/VisualDSP. There are two options to connect the EZ-Board hardware to a personal computer (PC) running VisualDSP++: via an Analog Devices emulator or via a standalone debug agent module. The standalone debug agent allows a debug agent to interface to the ADSP-BF518F EZ-Board. The standalone debug agent is shipped with the kit. To connect the EZ-Board to a PC via an emulator: 1. Plug the 5V adaptor into connector J3 (labeled 5V). 2. Attach the emulator header to connector P1 (labeled JTAG) on the back side of the EZ-Board. To connect the EZ-Board to a PC via a standalone debug agent: The debug agent can be used only when power is supplied from the wall adaptor. 1. Attach the standalone debug agent to connectors P1 (labeled JTAG) and ZP1 on the backside of the EZ-Board, watching for the keying pin of P1 to connect correctly. Plug the 5V adaptor into connector J3 (labeled 5V). 2. Plug one side of the provided USB cable into the USB connector of the standalone debug agent. Plug the other side of the cable into a USB port of the PC running VisualDSP++. 3. Verify that the yellow USB monitor LED on the standalone debug agent (LED2, located on the back side of the board) is lit. This signifies that the board is communicating properly with the host PC and ready to run VisualDSP++. ADSP-BF518F EZ-Board Evaluation System Manual 1-9 VisualDSP++ Install and Session Startup 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-Board 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-BF518F. Click Next. 4. The Select Connection Type page of the wizard appears on the screen. For standalone debug agent connections, select EZ-Board 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-BF518F EZ-Board via Debug Agent. For emulator connections, choose the type of emulator that is connected. 1-10 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board 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-Board. 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 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. CCES Evaluation License The ADSP-BF518F EZ-Board software is part of the Board Support Package (BSP) for the Blackfin ADSP-BF51x family. The EZ-Board is a licensed product that offers an unrestricted evaluation license for 90 days after activation. Once the evaluation period ends, the evaluation license becomes permanently disabled. If the evaluation license is installed but ADSP-BF518F EZ-Board Evaluation System Manual 1-11 VisualDSP++ Evaluation License not activated, it allows 10 days of unrestricted use and then becomes disabled. The license can be re-enabled by activation. An evaluation license can be upgraded to a full license. Licenses can be purchased from: * Analog Devices directly. Call (800) 262-5645 or 781-937-2384 or go to: http://www.analog.com/buyonline. * Analog Devices, Inc. local sales office or authorized distributor. To locate one, go to: http://www.analog.com/salesdir/continent.asp. EZ-Board hardware must be connected and powered up to use The CCES with a valid evaluation or full license. VisualDSP++ Evaluation License The ADSP-BF518F EZ-Board installation is part of the VisualDSP++ installation. The EZ-Board 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-BF518F EZ-Board via the USB port of the standalone debug agent interface only. Connections to simulators and emulation products are no longer allowed. * The linker restricts a user program to 12 KB of memory for code space with no restrictions for data space. errors when opening VisualDSP++, the EZ-Board hard Towareavoid must be connected and powered up. This is true for using VisualDSP++ with a valid evaluation or full license. 1-12 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board Lockbox Key Security Features Blackfin processors feature Lockbox(R) secure technology: hardware-enabled code security and content protection for one-time programmable (OTP) memory. Customers purchasing Blackfin processors can program their own customer public key in OTP. The ADSP-BF518F EZ-Boards are evaluation boards with the Lockbox key pre-programmed and publicly documented--the burden of key generation and OTP programming of public keys is removed from the customer. Customers can still program other areas of OTP memory on the ADSP-BF518F EZ-Board. Analog Devices publicly document the EZ-Board's public and private key pair for customer evaluation and support of the Lockbox feature, all while avoiding any keys information exchange. As a result, there is no confidentiality associated with the Lockbox key on EZ-Boards. To demonstrate Lockbox features using an EZ-Board, you must use the keys that are provided pre-programmed on your EZ-Board. the EZ-Board key pair to generate a demo and then provide Use the keys to the demo users. Note that the EZ-Board cannot be used to secure any confidential information. If you wish to create a demo with confidential keys, you must build your own Blackfin board and personalize it with your own keys. Memory Map The ADSP-BF518F processor has internal static random access memory (SRAM) used for instructions and data storage. See Table 1-1. The internal memory details can be found in the ADSP-BF51x Blackfin Processor Hardware Reference. The ADSP-BF518F EZ-Board includes four types of external memory: synchronous dynamic random access memory (SDRAM), serial peripheral ADSP-BF518F EZ-Board Evaluation System Manual 1-13 Memory Map interconnect (SPI) flash, parallel flash, and eMMC. See Table 1-2. For more information about a specific memory type, go to the respective section in this chapter. Table 1-1. EZ-Board Internal Memory Map Start Address Content 0xEF00 0000 BOOT ROM (32K BYTE) 0xEF00 8000 Reserved 0xFF80 0000 DATA BANKA SRAM (16K BYTE) 0xFF80 4000 DATA BANKA SRAM/CACHE (16K BYTE) 0xFF80 8000 Reserved 0xFF90 0000 DATA BANKB SRAM (16K BYTE) 0xFF90 4000 DATA BANKB SRAM/CACHE (16K BYTE) 0xFF90 8000 Reserved 0xFFA0 0000 INSTRUCTION BANK A SRAM (16K BYTE) 0xFFA0 4000 INSTRUCTION BANK B SRAM (16K BYTES) 0xFFA0 8000 Reserved 0xFFA1 0000 INSTRUCTION BANK C SRAM/CACHE (16K BYTE) 0xFFA1 4000 Reserved 0xFFB0 0000 SCRATCHPAD SRAM (4K BYTE) 0xFFB0 1000 Reserved 0xFFC0 0000 SYSTEM MMR REGISTERS 0xFFE0 0000 CORE MMR REGISTERS Table 1-2. EZ-Board External Memory Map Start Address End Address Content 0x0000 0000 0x03FF FFFF SDRAM (SDRAM) 0x0800 0000 0x1FFF FFFF Reserved 0x2000 0000 0x200F FFFF ASYNC memory bank 0 (flash) 1-14 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board Table 1-2. EZ-Board External Memory Map (Cont'd) Start Address End Address Content 0x2010 0000 0x201F FFFF ASYNC memory bank 1 (flash) 0x2020 0000 0x202F FFFF ASYNC memory bank 2 (flash) 0x2030 0000 0x203F FFFF ASYNC memory bank 3 (flash) 0x2040 0000 0xEEFF FFFF Reserved SDRAM Interface The ADSP-BF518F processor connects to a 64 MB Micron MT48LC32M16A2TG-75 chip through the external bus interface unit (EBIU). The SDRAM chip can operate at a maximum clock frequency of 80 MHz, which is the ADSP-BF518F processor limitation. With a CCES or VisualDSP++ session running and connected to the EZ-Board via the USB standalone debug agent, the SDRAM registers are configured automatically each time the processor is reset. The values are used whenever SDRAM is accessed through the debugger (for example, when viewing memory windows or loading a program). To disable the automatic setting of the SDRAM registers, do one of the following: * CCES users, choose Target > Settings > Target Options and clear the Use XML reset values check box. * VisualDSP++ users, choose Settings > Target Options and clear the Use XML reset values check box. For more information on changing the reset values, refer to the online help. An example program is included in the EZ-Board installation directory to demonstrate how to setup and access the SDRAM interface. For more ADSP-BF518F EZ-Board Evaluation System Manual 1-15 Parallel Flash Memory Interface information on how to initialize the registers after a reset, search the online help for "reset values". Parallel Flash Memory Interface The parallel flash memory interface of the ADSP-BF518F EZ-Board contains a 4 MB (2M x 16 bits) Numonyx M29W320EB chip. Flash memory connects to the 16-bit data bus and address lines 1 through 19. Chip enable is decoded by the AMS0--3 select lines through NAND and AND gates. The address range for flash memory is 0x2000 0000 to 0x203F FFFF. 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 1-28. Flash memory also is preloaded with configuration flash information, which contains board revision, BOM revision, and other data. By default, the EZ-Board boots from the 16-bit parallel flash memory. The processor boots from flash memory if the boot mode select switch (SW1) is set to position 1 (see "Boot Mode Select Switch (SW1)" on page 2-8). Flash memory code can be modified. For instructions, refer to the online help and example program included in the EZ-Board installation directory. For more information about the parallel flash device, refer to the Numonyx Web site: http://www.numonyx.com. eMMC Interface The ADSP-BF518F processor is equipped with a removable storage interface (RSI), which allows the 8 GB Micron eMMC flash memory device to be attached gluelessly to the processor. The eMMC interface is attached 1-16 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board via the processor's specific RSI control and data lines. The eMMC interface shares pins with the secure digital (SD) interface, push buttons, analog-to-digital converter (ADC) and expansion interface II. The RSI signals can be disconnected from the eMMC interface by turning switches SW20 and SW21 all OFF. See "eMMC Enable Switch (SW20-21)" on page 2-13 for more information. For more information about the eMMC device, refer to the Micron Web site: http://www.micron.com. An example program is included in the EZ-Board installation directory to demonstrate how to setup and access the eMMC interface. SD Interface The ADSP-BF518F processor has a secure digital interface. The SD interface consists of a clock pin, a command pin, a card detect pin, and a four-bit data bus. The SD interface of the processor connects gluelessly to the on-board SD connector. The SD interface is attached via the processor's specific RSI control and data lines. The interface shares pins with the eMMC interface, codec, and expansion interface II. The memory can be written to in one-bit and four-bit modes. For more information, refer to "SD Connector (J13)" on page 2-22. An example program is included in the EZ-Board installation directory to demonstrate how to setup and access the SD interface. SPI Interface The ADSP-BF518F processor has two serial peripheral interface (SPI) ports with multiple chip select lines. The SPI0 port connects directly to serial flash memory and expansion interface II. ADSP-BF518F EZ-Board Evaluation System Manual 1-17 SPI Interface External serial flash memory is a 16 Mb ST M25P16 device, selected using the SPISEL2 line of the processor. By default, SPI flash is not connected to the processor; see "SPI FLASH CS Enable Jumper (JP16)" on page 2-16 for more information. Internal serial flash memory is a 4 Mb device, selected using an internal SPISSEL line of the processor. External SPI flash memory is factory programmed with Das U-Boot--the universal boot loader. Das U-Boot (U-Boot for short) is open source firmware for embedded processors, including the ADSP-BF518F Blackfin processors. U-Boot can load files from a variety of peripherals, such as a serial connection, an Ethernet network connection, or flash memories. U-Boot is executed at system reset, which automatically loads up another application (such as the Linux kernel or a stand alone application). U-Boot can parse many types of files on many types of storage devices. U-Boot is controlled via a serial connection. The default setting is 56700 baud, 8 data bits, No parity, 1 stop bit. See "RS-232 Connector (J2)" on page 2-21 for information on the serial connector. For more information about U-Boot, refer to the online documentation at: http://docs.blackfin.uclinux.org/doku.php?id=bootloaders:u-boot. For U-Boot support on the Blackfin processors, refer to the online help forums at: http://blackfin.uclinux.org/gf/project/u-boot/forum/?action=ForumBrowse&forum_id=51. SPI flash can be modified. For instructions, refer to the online help, example program included in the EZ-Board installation directory, and U-Boot documentation. U-Boot includes an SPI flash driver and can be used to download a new file over Ethernet or serial connection, and write the file to SPI flash. 1-18 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board By default, the EZ-Board boots from the 16-bit flash parallel memory. Internal or external SPI flash can be selected as the boot source by setting the boot mode select switch (SW1) to position 3. See "Boot Mode Select Switch (SW1)" on page 2-8. Parallel Peripheral Interface (PPI) The ADSP-BF518F processor provides a parallel peripheral interface (PPI), supporting data widths up to 16 bits. The PPI interface provides three multiplexed frame syncs, a multiplexed clock, and 16 multiplexed data lines. The full PPI port is accessible on the expansion interface II connector (P3). See "Expansion Interface II Connector (P3)" on page 2-24. The PPI signals connect to multi-functional pins. The PPI is shared with the on-board codec, eMMC interface, SD interface, and Ethernet IC. To use the PPI on the expansion interface, disable the codec by turning switch SW15 to all OFF (see "SPORT0 ENBL Switch (SW15)" on page 2-12). The eMMC interface is disabled by turning switches SW20 and SW21 to all OFF, and the SPI flash is disabled by removing the jumper from JP16. See "eMMC Enable Switch (SW20-21)" on page 2-13 and "SPI FLASH CS Enable Jumper (JP16)" on page 2-16 for more information. The PPI is not used on the EZ-Board, the PPI is intended for use on the expansion interface II. Rotary Encoder Interface The ADSP-BF518F processor has a built-in, up-down counter with support for a rotary encoder. The three-wire rotary encoder interface connects to the thumbwheel rotary switch (SW19) and expansion interface II. The rotary encoder can be turned clockwise for the up function, counter ADSP-BF518F EZ-Board Evaluation System Manual 1-19 Ethernet Interface clockwise for the down function, or can be pushed towards the center of the board to clear the counter. The rotary switch is a two-bit quadrature (gray code) counter with a detent, meaning that both the down signal (CDG) and up signal (CUD) toggle when the count register increases on a rotation to the right. Upon rotating to the left, CDG and CUD toggle, and the overall count decreases. If the processor pins are needed for the expansion interface II, disconnect the rotary encoder switch via the three-position rotary enable switch (SW19). For more information, see "Encoder Enable Switch (SW19)" on page 2-13. An example program is included in the EZ-Board installation directory to demonstrate how to set up and access the rotary encoder interface. Ethernet Interface The ADSP-BF518F processor has an integrated Ethernet MAC with a media independent interface (MII), which connects to an external PHY device. The EZ-Board provides a National Semiconductor DP83848C Ethernet PHY with auto-MDIX, fully compliant with IEEE 802.3u standards. The DP83848C chip supports 10BASE-T and 100BASE-TX operations. The part is attached gluelessly to the processor. The Ethernet signals are shared with the PPI signals, connected to the expansion interface II, and two MII connectors that can be used to interface with other PHY evaluation boards. The PHY can be put into a power-down mode by installing JP17. The power-down mode should be used whenever the PHY is not used, and the expansion interface signals are used. See "Ethernet Power Down Jumper (JP17)" on page 2-16 for more information. The PHY can be put into isolate mode by installing JP18. The isolate mode should be used whenever the PHY is not used, and another PHY is connected to one of the MII 1-20 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board connectors. See "Ethernet Isolate Jumper (JP18)" on page 2-16 for more information. The Ethernet chip is pre-loaded with a MAC address. The MAC address for the EZ-Board is stored in the configuration flash section of the parallel flash memory and can be found on a sticker on the bottom side of the board. The PHY device connects to a PulseJack with integrated magnetics and a standard RJ-45 connector (J14). For more information, see "Ethernet Connector (J14)" on page 2-22. Example programs are included in the EZ-Board installation directory to demonstrate how to use the Ethernet interface. Audio Interface The audio interface of the EZ-Board 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 integrated stereo ADCs, digital-to-analog converters (DACs), and requires minimal external circuitry. The codec connects to the ADSP-BF518F processor via the processor's serial port 0. The SPORT0 is disconnected from the codec by turning switch SW15 OFF, which enables SPORT0 for the SD/eMMC interfaces or the expansion interface II. See "SPORT0 ENBL Switch (SW15)" on page 2-12 for more information. The control interface of the codec is via a 2-wire interface (TWI). Mic gain values of 14 dB, 0 dB, or -6 dB are selectable through switch SW5. For more information, see "MIC Gain/Loopback Switch (SW5)" on page 2-10. ADSP-BF518F EZ-Board Evaluation System Manual 1-21 ADC Interface Microphone bias is provided through a low-noise reference voltage. A jumper on positions 2&3 of JP15 connects the MICBIAS signal to the audio jack. Placing a jumper on positions 1&2 of JP15 connects the bias directly to the mic signal. For more information, see "MIC Select Jumper (JP15)" on page 2-16. and J5 are 3.5 mm connectors for the audio portion of the board. J5 connects the mic on the top portion and line-in on the bottom. J4 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 J4 or J5, the signals are looped back inside the connector. For more information, see "Dual Audio Connectors (J4-5)" on page 2-22. J4 For testing, SW15 position 4 connects the MICIN signal to the right headphone. SW5 positions 5 and 6 loop the output of the codec to the input when no cables are connected to J4 and J5. For more information, see "SPORT0 ENBL Switch (SW15)" on page 2-12. The EZ-Board is shipped with two 3.5 mm cables, which allow you to run the example programs provided in the EZ-Board installation directory and learn about the audio interface. ADC Interface The ADC interface of the EZ-Board consists of a dual, 12-bit, high-speed, low-power, successive approximation analog-to-digital converter. The device contains two converters, each preceded by a 3-channel multiplexer, a low-noise, wide-bandwidth track, and holds an amplifier that can handle input frequencies in excess of 30 MHz. The inputs to the ADC are configurable as either six differential or twelve single-ended inputs. The inputs are accessed via a .1" spaced IDC connector. The ADC connects to the ADSP-BF518F processor via the processor's serial port 1. SPORT1 is disconnected from the ADC by turning switch SW4 OFF, which enables SPORT1 for the expansion interface II or for the 1-22 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board multi-function pins. In the latter case, the port's signals can be used for the RSI or as push buttons. See "SPORT1 Enable Switch (SW4)" on page 2-10 for more information. The ADC range is controlled by switch SW4 position 5. The switch selects between the 2.5V and 5V input ranges. The max voltage range for a signal connected to the ADC inputs is 0-5V. Any voltage outside of the range can damage the EZ-Board. For more information, see "SPORT1 Enable Switch (SW4)" on page 2-10. For testing, switches SW22-23 connect an audio output signal of the codec to the input channels of the ADC. Do not connect the ADC input connectors and have switches SW22-23 ON at the same time. For more information, see "ADC Loopback Switches (SW22-23)" on page 2-13. UART Interface The ADSP-BF518F processor has two built-in universal asynchronous receiver transmitters (UARTs). UART0--1 share the processor's pins with other peripherals on the EZ-Board. has full RS-232 functionality via the Analog Devices 3.3V ADM3202 line driver and receiver (U21). When using UART0, do not set switch SW10 position 4 to ON. This setting enables UART loopback and should be installed only when running the POST program. UART0 and UART1 are connected to the expansion interface II connectors. For more information, see "Expansion Interface II Connectors (P2 and P4)" on page 2-24. UART0 Example programs are included in the EZ-Board installation directory to demonstrate UART and RS-232 operations. For more information on the UART interface, refer to the ADSP-BF51x Blackfin Processor Hardware Reference. ADSP-BF518F EZ-Board Evaluation System Manual 1-23 RTC Interface RTC Interface The ADSP-BF518F processor has a real-time clock (RTC) and a watchdog timer. Typically, the RTC interface is used to implement a real-time watchdog or a life counter of the time elapsed since the last system reset. The EZ-Board is equipped with a Panasonic CR1632 lithium coin and 3V battery supplying 125 mAh. The 3V battery and 3.3V supply of the board connect to the RTC power pin of the processor. When the EZ-Board is powered, the RTC circuit uses the board power to supply voltage to the RTC pin. When the EZ-Board is not powered, the RTC circuit uses the lithium battery to maintain power to the RTC pin. After removing the mylar, the battery lasts for about one year with the EZ-Board unpowered. Example programs are included in the EZ-Board installation directory to demonstrate the RTC features. EZ-Board is shipped with a protective Mylar sheet placed The between the coin battery and positive pin of the battery holder. Remove the Mylar sheet before using the RTC in the processor. For more information on the RTC and watchdog timer, refer to the ADSP-BF51x Blackfin Processor Hardware Reference. LEDs and Push Buttons The EZ-Board provides two push buttons and three LEDs for general-purpose I/O, as well as two additional push buttons intended for power down and wake functionality, which also can be used as GPIO flag pins. The three LEDs, labeled LED1 through LED3, are accessed via the PH3, PH5, and PH6 pins of the processor (respectively). For information on how to program the flag pins, refer to the ADSP-BF51x Blackfin Processor Hardware Reference. 1-24 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board is shared with the ADC_A0, MMC_D7, and OTP_EN signals. LED2 is shared with the CDG and ADC_A1 signals. LED3 is shared with the CZM and ADC_A2 signals. LED1 The LED1--3 signals also connect to the expansion interface II connectors. See "Expansion Interface II Connector (J1)" on page 2-21 and "Expansion Interface II Connectors (P2 and P4)" on page 2-24 for more information. The two general-purpose push buttons are labeled PB1 and PB2. The status of each individual button can be read through programmable flag inputs PH0 and PH1. The flag reads `1' when a corresponding switch is being pressed. When the switch is released, the flag reads `0'. A connection between the push buttons and processor inputs is established through positions 1&2 of the DIP switch, SW2. Push buttons 1 and 2 of SW2 are used as GPIO signals on the expansion interface II connectors (J1, P2, P4). To use the PH0 and PH1 port pins as GPIO signals on the expansion interface II, turn SW2 to all OFF. is shared with the DR1PRI and MMC_D4 signals. PB2 is shared with the RFS1 and MMC_D5signals. PB1 An example program is included in the ADSP-BF518F installation directory to demonstrate functionality of the LEDs and push buttons. JTAG Interface The JTAG connector (P1) allows the standalone debug agent to connect a debug session to the ADSP-BF518F processor. The debug agent operates only when the external 5V wall adaptor is used (J3). When operating the EZ-Board from a battery or USB bus power, the debug agent is not powered. The standalone debug agent can be removed, and an external emulator can be attached to the EZ-Board. Be careful not to damage the connectors when removing the debug agent. The emulator connects to P1 on the back ADSP-BF518F EZ-Board Evaluation System Manual 1-25 Land Grid Array side of the board. See "CCES Install and Session Startup" on page 1-5 or "VisualDSP++ Install and Session Startup" on page 1-9 for more information. For more information about emulators, contact Analog Devices or go to: http://www.analog.com/processors/tools/blackfin. Land Grid Array The ADSP-BF518F EZ-Board has provisions for probing every port pin and the EBIU interface of the processor on connectors P5--7. The connector locations are intended for use with a Tektronix DMAX logic analyzer connector, but can be probed with any oscilloscope or logic analyzer. For pinout information, refer to"ADSP-BF518F EZ-Board Schematic" on page B-1. For more information on the Tektronix DMAX logic analyzer interface, go to the Tektronix Web site. Expansion Interface II The expansion interface II allows an Analog Devices EZ-Extender(R) 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-BF518F EZ-Board consists of four connectors, three of which are 0.1 in. shrouded headers (P2--4), and the last of which is a Samtec QMS series header (J1). The connectors contain a majority of the ADSP-BF518F processor's signals. For pinout information, go to "ADSP-BF518F EZ-Board Schematic" on page B-1. The mechanical dimensions of the expansion connectors can be obtained by contacting Technical Support. 1-26 ADSP-BF518F EZ-Board Evaluation System Manual Using the ADSP-BF518F EZ-Board For more information about daughter boards, visit the Analog Devices Web site at: http://www.analog.com/processors/tools/blackfin. Limits to current and interface speed must be taken into consideration when using the expansion interface II. Current for the expansion interface II is sourced from the EZ-Board; therefore, the current should be limited to 1A for 5V and 500 mA for the 3.3V planes. If more current is required, then a separate power connector and a regulator must be designed on a daughter card. Additional circuitry can 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. Power Measurements Several locations are provided for measuring the current draw from various power planes. Precision 0.1 ohm shunt resistors are available on the VDDINT, VDDEXT, VDDMEM, and VDDFLASH voltage domains. For current draw measuments, the associated jumper (P8--11) must be removed. Once the jumper is removed, voltage across the resistor can be measured using an oscilloscope. Once voltage is measured, current can be calculated by dividing the voltage by 0.1. For the highest accuracy, a differential probe should be used for measuring voltage across the resistor. For more information, see "VDDINT Power Jumper (P8)" on page 2-16, "VDDEXT Power Jumper (P9)" on page 2-17, "VDDMEM Power Jumper (P10)" on page 2-17, and "VDDFLASH Power Jumper (P11)" on page 2-17. ADSP-BF518F EZ-Board Evaluation System Manual 1-27 Power-On-Self Test Power-On-Self Test The power-on-self-test program (POST) tests all EZ-Board peripherals and validates functionality as well as connectivity to the processor. Once assembled, each EZ-Board is fully tested for an extended period of time with a POST. All EZ-Boards are shipped with the 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 installation directory along with the readme file, which describes how the board is configured to run a POST. The POST program is only available when using VisualDSP++. Example Programs Example programs are provided with the ADSP-BF518F EZ-KIT Lite to demonstrate various capabilities of the product. The programs are included in the product installation kit and can be found in the Examples folder of the installation. Refer to a readme file provided with each example for more information. CCES users are encouraged to use the example browser to find examples included with the EZ-KIT Lite Board Support Package. Board Design Database A .zip file containing all of the electronic information required for the design, layout, fabrication and assembly of the product is available for download from the Analog Devices board design database at: http://www.analog.com/board-design-database. 1-28 ADSP-BF518F EZ-Board Evaluation System Manual 2 ADSP-BF518F EZ-BOARD HARDWARE REFERENCE This chapter describes the hardware design of the ADSP-BF518F EZ-Board board. The following topics are covered. * "System Architecture" on page 2-2 Describes the ADSP-BF518F EZ-Board configuration and explains how the board components interface with the processor. * "Programmable Flags" on page 2-3 Shows the locations and describes the programming flags (PFs). * "Push Button and Switch Settings" on page 2-7 Shows the locations and describes the push buttons and switches. * "Jumpers" on page 2-14 Shows the locations and describes the configuration jumpers. * "LEDs" on page 2-18 Shows the locations and describes the LEDs. * "Connectors" on page 2-20 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-BF518F EZ-Board Evaluation System Manual 2-1 System Architecture System Architecture This section describes the processor's configuration on the EZ-Board (Figure 2-1). 64 MB SDRAM (32M x 16) 4 MB Flash (2M x 16 ) 3.3 Volts 3.3 Volts 32.768 KHz Oscillator 3.3 volt EBIU RJ45 UARTs CLKIN UP/DN CNTR GPIO Low Speed Group 1B Low Speed Group 1A 3.3 Volts Note: See the NGEI Secification for a complete understanding of I/O provided with this product Low Speed Group 2A MAC High Speed I/O National Semiconductor DP83848 eMMC 8GB RSI JTAG Port RTC IDC Conn 14 Pin 0.1 SD Connector ADSP-BF518F Processor 400 MHz 176-lead LQFP SPI SPORT Rotary 3.3 Volts LEDs (3) 3.3 Volts PBs (2) 3.3 Volts TWI SPORT 16 Mb SPI Flash 3.3 Volts RS-232 TX/RX 3.3 Volts 25 MHz Oscillator 3.3 Volts 12 bit 3 Channel A/D AD7266 SSM2603 Codec 3.3 Volts Inputs 6 Diff or 12 SE RS-232 Female Mic In Aud In Head Out Aud Out 12 MHz Oscillator 3.3 Volts Figure 2-1. System Architecture This EZ-Board is designed to demonstrate the ADSP-BF518F 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 2-2 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference is configurable over the 2-wire interface (TWI) signals. Refer to the power-on-self test (POST) example in the ADSP-BF518F installation directory for information on how to set up the TWI interface. The core voltage and clock rate can be set on the fly by the processor. The input clock is 25 MHz. A 32.768 kHz crystal supplies the real-time clock (RTC) inputs of the processor. The default boot mode for the processor is external parallel flash boot. See "Boot Mode Select Switch (SW1)" on page 2-8 for information on how to change the default boot mode. Programmable Flags The processor has 40 general-purpose input/output (GPIO) signals spread across three ports (PF, PG, and PH). The pins are multi-functional and depend on the ADSP-BF518F processor setup. The following tables show how the programmable flag pins are used on the EZ-Board. * PF programmable flag pins - Table 2-1 * PG programmable flag pins - Table 2-2 * PH programmable flag pins - Table 2-3 Table 2-1. PF Port Programmable Flag Connections Processor Pin Other Processor Function EZ-Board Function PF0 ETxD2/PPID0/SPI1_SSEL2/TACLK6 Default: ETXD2 Land grid array, expansion interface II PF1 ERxD2/PPID1/PWM_AH/TACLK7 Default: ERXD2 Land grid array, expansion interface II PF2 ETxD3/PPID2/PWM_AL Default: ETXD3 Land grid array, expansion interface II PF3 ERxD3/PPID3/PWM_BH/TACLK0 Default: ERXD3 Land grid array, expansion interface II ADSP-BF518F EZ-Board Evaluation System Manual 2-3 Programmable Flags Table 2-1. PF Port Programmable Flag Connections (Cont'd) 2-4 Processor Pin Other Processor Function EZ-Board Function PF4 ERxCLK/PPID4/PWM_BL/TACLK1 Default: ERXCLK Land grid array, expansion interface II PF5 ERxDV/PPID5/PWM_CH/TACI0 Default: ERXDV Land grid array, expansion interface II PF6 COL/PPID6/PWM_CL/TACI1 Default: COL Land grid array, expansion interface II PF7 SPI0_SSEL1/PPID7/PWM_SYNC Default: not used Land grid array, expansion interface II PF8 MDC/PPID8/SPI1_SSEL4 Default: MDC Land grid array, expansion interface II PF9 RMIIMDIO/PPID9/TMR2 Default: MDIO Land grid array, expansion interface II PF10 ETxD0/PPID10/TMR3 Default: ETXD0 Land grid array, expansion interface II PF11 ERxD0/PPID11/PWM_AH/TACI3 Default: ERXD0 Land grid array, expansion interface II PF12 ETxD1/PPID12/PWM_AL Default: ETXD1 Land grid array, expansion interface II PF13 ERxD1/PPID13/PWM_BH Default: ERXD1 Land grid array, expansion interface II PF14 ETxEN/PPID14/PWM_BL Default: ETXEN Land grid array, expansion interface II PF15 RMII_PHYINT/PPID15/PWM_SYNC Default: RMII_PHYINT Land grid array, expansion interface II ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference Table 2-2. PG Port Programmable Flag Connections Processor Pin Other Processor Function EZ-Board Function PG0 MIICRS/RMIICRS/HWAIT/SPI1_SSEL3 Default: MIICRS HWAIT, land grid array, expansion interface II PG1 ERxER/DMAR1/PWM_CH Default: ERXER Land grid array, expansion interface II PG2 MIITxCLK/RMIIREF_CLK/ DMAR0/PWM_CL Default: MIITXCLK Land grid array, expansion interface II PG3 DR0PRI/RSI_DATA0/ SPI0_SSEL5/TACLK3 Default: DR0PRI SD_D0, land grid array, expansion interface II PG4 RSCLK0/RSI_DATA1/TMR5/ TACI5 Default: RSCLK0 SD_D1, land grid array, expansion interface II PG5 RFS0/RSI_DATA2/PPICLK_1/ TMRCLK Default: RFS0 SD_D2, land grid array, expansion interface II PG6 TFS0/RSI_DATA3/TMR0/ PPIFS1_1 Default: TFS0 SD_D3, land grid array, expansion interface II PG7 DT0PRI/RSI_CMD/TMR1/ PPIFS2_1 Default: DT0PRI SD_CMD, land grid array, expansion interface II PG8 TSCLK0/RSI_CLK/TMR6/TACI6 Default: TSCLK0 SD_CLK, land grid array, expansion interface II PG9 DT0SEC/UART0_TX/TMR4 Default: UART0_TX Land grid array, expansion interface II PG10 DR0SEC/UART0_RX/TACI4 Default: UART0_RX Land grid array, expansion interface II PG11 SPI0_SS/AMS[2]/SPI1_SSEL5/ TACLK2 Default: AMS2 Land grid array, expansion interface II PG12 SPI0_SCK/PPICLK_2/TMRCLK Default: SPI0_SCK Land grid array, expansion interface II PG13 SPI0_MISO/TMR0/PPIFS1_2 Default: SPI0_MISO Land grid array, expansion interface II ADSP-BF518F EZ-Board Evaluation System Manual 2-5 Programmable Flags Table 2-2. PG Port Programmable Flag Connections (Cont'd) Processor Pin Other Processor Function EZ-Board Function PG14 SPI0_MOSI/TMR1/PPIFS2_2/ PWM_TRIPB Default: SPI0_MOSI Land grid array, expansion interface II PG15 SPI0_SSEL2/PPIFS3/AMS[3] Default: AMS3 SPI0_SEL2, land grid array, expansion interface II Table 2-3. PH Port Programmable Flag Connections 2-6 Processor Pin Other Processor Function EZ-Board Function PH0 DR1PRI/SPI1_SS/RSI_DATA4 Default: PB1 DR1PRI, MMC_D4, land grid array, expansion interface II PH1 RFS1/SPI1_MISO/RSI_DATA5 Default: PB2 RFS1, MMC_D5, land grid array, expansion interface II PH2 RSCLK1/SPI1_SCK/RSI_DATA6 Default: not used RSCLK1, MMC_D6, land grid array, expansion interface II PH3 DT1PRI/SPI1_MOSI/RSI_DATA7 Default: LED1 ADC_A0, MMC_D7, OTP_EN, land grid array, expansion interface II PH4 TFS1/AOE/SPI0_SSEL3/CUD Default: CUD SD card detect, land grid array, expansion interface II PH5 TSCLK1/ARDY/ECLK/CDG Default: LED2 CDG, ADC_A1, land grid array, expansion interface II PH6 DT1SEC/UART1_TX/ SPI1_SSEL1/CZM Default: LED3 CZM, ADC_A2, land grid array, expansion interface II PH7 DR1SEC/UART1_RX/TMR7/TACI2 Default: not used DR1SEC, land grid array, expansion interface II ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference Push Button and Switch Settings 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 ADSP-BF518F EZ-Board Evaluation System Manual 2-7 Push Button and Switch Settings Boot Mode Select Switch (SW1) The boot mode select switch (SW1) determines the boot mode of the processor. Table 2-4 shows the available boot mode settings. By default, the ADSP-BF518F processor boots from the on-board parallel flash memory. The selected position of is marked by the notch down the entire rotating portion of the switch, not the small arrow. SW1 Table 2-4. Boot Mode Select Switch (SW1) 2-8 SW1 Position Processor Boot Mode 0 Idle - No Boot 1 Boot from 8- or 16-bit external flash memory (default) 2 Boot from internal SPI memory 3 Boot from external SPI memory (EEPROM or flash) 4 Boot from SPI0 host 5 Boot from OTP memory 6 Boot from SDRAM 7 Boot from UART0 host ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference PB Enable Switch (SW2) The PB enable switch (SW2) disconnects the associated push buttons from the GPIO pins of the processor and allows the signals to be used for other purposes (see Table 2-5). Table 2-5. Push Button Enable Switch (SW2) SW2 Position (Default) From To Function 1 (ON) Push button 1 (SW12) Processor (U12, PH0) ON (PB1) OFF (ADC DR1PRI, Processor (U12, PH1) ON (PB2) OFF (ADC RFS1, 2 (ON) Push button 2 (SW13) eMMC, expansion interface II) eMMC, expansion interface II) Flash Enable Switch (SW3) The flash enable switch (SW3) disconnects the AMSx signals from parallel flash memory (U5) and allows other devices to utilize the signals via the expansion interface II. For each switch listed in Table 2-6 that is turned OFF, the size of available flash memory is reduced by 1 MB. AMS3 is shared with SPI0_SEL2 of the external SPI flash. When using the external SPI flash, the available size for parallel flash is 3 MB. Table 2-6. Flash Enable Switch (SW3) SW3 Switch Position (Default) Processor Signal 1 (ON) AMS0 2 (ON) AMS1 3 (ON) AMS2 4 (ON) AMS3 ADSP-BF518F EZ-Board Evaluation System Manual 2-9 Push Button and Switch Settings SPORT1 Enable Switch (SW4) The SPORT1 enable switch (SW4) connects the SPORT1 interface of the processor to the ADC7266 (U2) device. SW4 position 5 is used to set the input range of the ADC to either 2.5V (ON) or 5V (OFF). SW4 position 6 is used to configure the inputs for single-ended mode (OFF) or differential mode (ON). When the SPORT1 interface is used on the expansion interface II, set SW4 to all OFF. SW4 is set to all OFF by default. The SPORT1 interface is shared with other on-board components, such as the eMMC device and push buttons. MIC Gain/Loopback Switch (SW5) The microphone gain switch (SW5) sets the gain of the MIC signal, which is connected to the top 3.5 mm jack (J5). The gain can be set to 14 dB, 0 dB, or -6 dB by turning position 1, 2, or 3 of SW5 ON (see Table 2-7). When the corresponding position for the desired gain is ON, the remaining positions must be OFF. SW5 position 4 is used to connect the MICIN signal to the right headphone output for loopback testing during a POST. SW5 positions 5 and 6 are used to connect line-out to line-in for loopback testing in a POST, when no cables are connected to J4 and J5. Refer to "Audio Interface" on page 1-21 for more information about the audio codec. Table 2-7. MIC Gain Switch (SW5) Gain SW5 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 2-10 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference UART Setup Switch (SW10) The UART setup switch (SW10) configures the UART0 signals from the GPIO pins of the processor. Position 4 is used to place the UART0 port of the processor in a loopback condition. The jumper connects the UART0_TX line of the processor to the UART0_RX signal of the processor. This is required when a POST program is run to test the serial port interface. By default, SW10 is ON, OFF, ON, OFF. Reset Push Button (SW11) The reset push button (SW11) resets the following ICs. * Processor (U12), parallel flash (U5), and Ethernet IC (U4) The reset push button does not reset the following ICs. * SDRAM (U14), eMMC (U16) * Audio codec (U1), UART0 (U21), schmitt trigger hex inverter (U6) * Digipot (U7), power (VR1--5) The reset push button does not reset the standalone debug agent once the debug agent is connected to a personal computer (PC). After communication between the debug agent and PC is initialized, pushing a reset button does not reset the USB chip on the debug agent. The only way to reset the USB chip on the debug agent is to power down the EZ-Board. ADSP-BF518F EZ-Board Evaluation System Manual 2-11 Push Button and Switch Settings Programmable Flag Push Buttons (SW12-13) Two momentary push buttons (SW12 and SW13) are provided for general-purpose user input. The buttons connect to the PH0 and PH1 GPIO pins of the processor. The push buttons are active high and, when pressed, send a high (1) to the processor. The GPIO enable switch (SW2) disconnects the push buttons from the corresponding push button signals. Refer to "PB Enable Switch (SW2)" on page 2-9 for more information. Rotary Encoder with Momentary Switch (SW14) The rotary encoder (SW14) can be turned clockwise for an up count or counter-clockwise for a down count. The encoder also features a momentary switch, activated by pushing the switch towards the processor, which resets the counter to zero. The rotary encoder is a two-bit quadrature (gray code) encoder. Refer to the Rotary Counter section of the ADSP-BF51x Blackfin Processor Hardware Reference for more information. The rotary encoder is disconnected from the processor by setting SW19 positions 1, 2, and 3 to OFF. See "Encoder Enable Switch (SW19)" on page 2-13 for more information. SPORT0 ENBL Switch (SW15) The SPORT0 enable switch (SW15) connects the SPORT0 interface of the processor to the audio codec, SSM2603 ( U1). SW15 positions 7 and 8 are used to disconnect the TWI bus from the codec. When the SPORT0 interface is used on the expansion interface II, set SW15 all OFF. By default, SW15 is set to all ON. 2-12 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference Encoder Enable Switch (SW19) The encoder enable switch (SW19) disconnects the rotary encoder signals from the GPIO pins of the processor. SW19 position 4 is used to enable or disable the SD card detect signals: pin PF14 determines whether a card is inserted into the SD connector. When SW19 is OFF, its associated GPIO signals can be used on the expansion interface II (see Table 2-8). Table 2-8. Encoder Enable Switch (SW19) SW19 Position (Default) From To 1 (OFF) Encoder (SW14) Processor (U1, PH4) 2 (OFF) Encoder (SW14) Processor (U1, PH5) 3 (OFF) Encoder (SW14) Processor (U1, PH6) 4 (OFF) SD connector (J13) Processor (U1, PF13) eMMC Enable Switch (SW20-21) The eMMC enable switches (SW20 and SW21) connect the RSI signals to the on-board eMMC memory device. The eMMC and SD interfaces share the same signals; therefore, no card should be inserted into the SD connector when the eMMC device is used. The default for the switches is all OFF so that the SD connector can be used. ADC Loopback Switches (SW22-23) The ADC loopback switches (SW22 and SW23) are used for testing only. The switches are used to send an analog signal generated from the codec to the ADC circuit for evaluation. ADSP-BF518F EZ-Board Evaluation System Manual 2-13 Jumpers Jumpers This section describes functionality of the configuration jumpers. Figure 2-3 shows the jumper locations. Figure 2-3. Configuration Jumper Locations 2-14 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference Flash WP Jumper (JP3) The flash WP jumper (JP3) is used to write-protect block 70 of the parallel flash chip. Block 70 contains 64 KB of configuration data at address range 0x203 F0000--0x203 FFFFF. When the jumper is installed on JP3, and the parallel flash driver from Analog Devices is used, block 70 is read-only. By default, JP3 is installed. OTP Flag Enable Jumper (JP14) The OTP flag enable jumper (JP14) controls the precise 7V OTP voltage regulator. By default, JP14 is not installed; when installed, the jumper allows OTP writes. must be installed for OTP writes to be successful. The nominal 2.5V for OTP is temporarily raised to 7V when PH3 is set high. Care must be taken when using the OTP_FLAG signal in order to avoid driving 7V for an extended amount of time. JP14 is a limited amount of time 7V can be applied to the proces There sor's OTP interface. Violating the specifications listed in the ADSP-BF512/ADSP-BF514/ADSP-BF516/ADSP-BF518(F) Blackfin Embedded Processor data sheet can damage the processor. Configured properly, JP14 connects the processor's PH3 flag pin to the shut-down pin of the ADP1611 switching converter. Refer to the ADSP-BF51x Blackfin Processor Hardware Reference Manual and the ADSP-BF512/ADSP-BF514/ADSP-BF516/ADSP-BF518(F) Blackfin Embedded Processor data sheet for more information about OTP writes. ADSP-BF518F EZ-Board Evaluation System Manual 2-15 Jumpers MIC Select Jumper (JP15) The microphone select jumper (JP15) connects the MICBIAS signal to the MICIN signal (JP15 on positions 1&2) or connects the MICBIAS signal to the 3.5 mm connector J5 (JP15 on positions 2&3). By default, JP15 is installed on positions 2&3. SPI FLASH CS Enable Jumper (JP16) The SPI flash CS enable jumper (JP16) connects the SPI0_SSEL2 signal to the SPI flash memory. When installing JP16, position 3 of SW3 needs to be turned OFF since the SPI0_SSEL2 signal is shared with the AMS3 signal connected to parallel flash. When using SPI flash, the available memory that is accessible on parallel flash is reduced from 4 MB to 3 MB. By default, JP16 is not installed, and SPI flash is not connected. Ethernet Power Down Jumper (JP17) The Ethernet power down jumper (JP17) is used to put the PHY device in power-down mode, where the entire chip is powered down. Ethernet Isolate Jumper (JP18) The Ethernet isolate jumper (JP18) is used to put the PHY device in isolate mode. When in isolate mode, the PHY port is isolated from the media independent interface (MII) of the ADSP-BF518F processor. VDDINT Power Jumper (P8) The VDDINT power jumper (P8) is used to measure voltage and current supplied to the processor core. By default, P8 is ON, and the power flows through the two-pin IDC header. To measure power, remove the jumper on P8 and measure voltage across the 0.1 ohm resistor. Once voltage is 2-16 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference measured, power can be calculated. For more information, refer to "Power Measurements" on page 1-27. VDDEXT Power Jumper (P9) The VDDEXT power jumper (P9) is used to measure the processor's I/O voltage and current. By default, P9 is ON, and the power flows through the two-pin IDC header. To measure power, remove the jumper on P9 and measure voltage across the 0.1 ohm resistor. Once voltage is measured, power can be calculated. For more information, refer to "Power Measurements" on page 1-27. VDDMEM Power Jumper (P10) The VDDMEM power jumper (P10) is used to measure voltage and current supplied to the memory interface of the processor. By default, P10 is ON, and the power flows through the two-pin IDC header. To measure power, remove the jumper on P10 and measure voltage across the 0.1 ohm resistor. Once voltage is measured, power can be calculated. For more information, refer to "Power Measurements" on page 1-27. VDDFLASH Power Jumper (P11) The VDDFLASH power jumper (P11) is used to measure flash voltage and current supplied to the processor core. By default, P11 is ON, and the power flows through the two-pin IDC header. To measure power, remove the jumper on P11 and measure voltage across the 0.1 ohm resistor. Once voltage is measured, power can be calculated. For more information, refer to "Power Measurements" on page 1-27. ADSP-BF518F EZ-Board Evaluation System Manual 2-17 LEDs LEDs This section describes the on-board LEDs. Figure 2-4 shows the LED locations. Figure 2-4. LED Locations 2-18 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference GPIO LEDs (LED1-3) Three LEDs connect to three general-purpose I/O pins of the processor (see Table 2-9). The LEDs are active high and lit by writing a `1' to the correct programmable flag signal. Table 2-9. GPIO LEDs LED Reference Designator Processor Programmable Flag Pin LED1 PH3 LED2 PH5 LED3 PH6 Reset LED (LED9) When LED9 is lit, it indicates that the master reset of all major ICs is active. The reset LED is controlled by the Analog Devices ADM708 supervisory reset circuit. You can assert the reset push button (SW11) to assert a master reset and activate LED9. For more information, see "Reset Push Button (SW11)" on page 2-11. Power LED (LED13) When LED13 is lit solid, it indicates that the board is powered. Speed LED (LED14) When LED14 is lit, the Ethernet PHY device operates at 100 Mbs. When the LED is OFF, the PHY device operates at 10 Mbs. ADSP-BF518F EZ-Board Evaluation System Manual 2-19 Connectors Connectors This section describes connector functionality and provides information about mating connectors. See connector locations in Figure 2-5. Connectors shown with a dotted line are on the backside of the PCB Figure 2-5. Connector Locations 2-20 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference Expansion Interface II Connector (J1) is a board-to-board connector providing signals from the external bus interface unit (EBIU) of the processor. The connector is located on the left edge of the board. For more information, see "Expansion Interface II" on page 1-26. For availability and pricing of the connector, contact Samtec. J1 Part Description Manufacturer Part Number 104-position 0.025", SMT header SAMTEC QMS-052-11-L-D-A Mating Connector 104-position 0.025", SMT socket SAMTEC QFS-052-01-L-D-A Part Description Manufacturer Part Number DB9, female, vertical mount NORCOMP 191-009-213-L-571 RS-232 Connector (J2) Mating Cable 2m female-to-female cable DIGI-KEY AE1020-ND Power Connector (J3) The power connector (J3) provides all of the power necessary to operate the EZ-Board. Part Description Manufacturer Part Number 0.65 mm power jack CUI 045-0883R Mating Power Supply (shipped with the EZ-Board) 5.0VDC@2.5A power supply CUI STACK ADSP-BF518F EZ-Board Evaluation System Manual DMS050260-P12P-SZ 2-21 Connectors Dual Audio Connectors (J4-5) Part Description Manufacturer Part Number 3.5 mm dual stereo jack SWITCHCRAFT 35RAPC7JS Mating Cable (shipped with the EZ-Board) 3.5 mm male/male 6' cable RANDOM 10A3-01106 Battery Holder (J12) Part Description Manufacturer Part Number 16 mm battery holder MEMORY PROTECTION BH600 Mating Battery (shipped with the EZ-Board) 3V 125MAH 16 mm LI-COIN PANASONIC CR1632 Part Description Manufacturer Part Number SD 9-pin connector ITT CANON CCM05-5777LFT T50 SD Connector (J13) Mating Memory Card (shipped with the EZ-Board) 256 MB SANDISK STACK SDSDB-256-A10 Ethernet Connector (J14) Part Description Manufacturer Part Number RJ-45 Ethernet jack STEWART SS-6488-NF Mating Cable (shipped with the EZ-Board) Cat 5E patch cable 2-22 RANDOM PC10/100T-007 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference MII Connector (J15) This connector is not populated on the board; it needs to be soldered on to be used. This connector allows for mating with Ethernet evaluation boards. Part Description Manufacturer Part Number 40-position 0.50" TH receptacle TE Connectivity 5787170-4F JTAG Connector (P1) The JTAG header is the connecting point for the JTAG interface to the ADSP-BF518F processor. The standalone debug agent requires both connectors P1 and ZP1. Pin 3 is missing to provide keying. Pin 3 in the mating connector should have a plug. When using an emulator with the EZ-Board, the standalone debug agent must be removed. Follow the installation instructions provided in "CCES Install and Session Startup" on page 1-5 or "VisualDSP++ Install and Session Startup" on page 1-9, using P1 as the JTAG connection point. ADSP-BF518F EZ-Board Evaluation System Manual 2-23 Connectors Expansion Interface II Connectors (P2 and P4) and P4 are board-to-board connectors providing signals for the SPI, TWI, UART, SPORT interfaces and GPIO signals of the processor. The connectors are located on the upper and lower edges of the board. For more information, see "Expansion Interface II" on page 1-26. For availability and pricing of the connectors, contact Samtec. P2 Part Description Manufacturer Part Number 50-position 0.1", SMT header SAMTEC TSSH-125-01-L-DV-A Mating Connector 50-position 0.1", SMT socket SAMTEC SSW-125-22-F-D-VS Expansion Interface II Connector (P3) P3 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 1-26. For availability and pricing of the connector, contact Samtec. Part Description Manufacturer Part Number 70-position 0.1", SMT header SAMTEC TSSH-135-01-L-DV-A Mating Connector 70-position 0.1", SMT socket 2-24 SAMTEC SSW-135-22-F-D-VS ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Hardware Reference DMAX Land Grid Array Connectors (P5-7) The land grid array areas (P5--7) 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 Standalone Debug Agent Connector (ZP1) connects the standalone debug agent to the EZ-Board. The standalone debug agent requires both the ZP1 and P1 connectors. For more information, see "CCES Install and Session Startup" on page 1-5 or "VisualDSP++ Install and Session Startup" on page 1-9. ZP1 ADSP-BF518F EZ-Board Evaluation System Manual 2-25 Connectors 2-26 ADSP-BF518F EZ-Board Evaluation System Manual A ADSP-BF518F EZ-BOARD BILL OF MATERIALS The bill of materials corresponds to "ADSP-BF518F EZ-Board Schematic" on page B-1. Ref. Qty Description Reference Designator Manufacturer Part Number 1 1 74LVC14A SOIC14 U6 TI 74LVC14AD 2 1 IDT74FCT3244 APY SSOP20 U10 IDT IDT74FCT3244APYG 3 1 32.768KHZ OSC008 U3 EPSON MC-156 32.7680KA-A0:ROHS 4 1 25MHZ OSC003 U19 EPSON SG-8002CA MP 5 4 SN74LVC1G08 SOT23-5 U23-U26 TI SN74LVC1G08DBVR 6 1 MT48LC32M16 A2TG-75 TSOP54 U14 MICRON MT48LC32M16A2P-75 7 1 SI4411DY SO-8 U8 VISHAY Si4411DY-T1-E3 8 1 12MHZ OSC003 U20 EPSON SG-8002CA-MP 9 1 SN74AUC1G00 SOT23-5 U13 TI SN74AUC1G00DBVR ADSP-BF518F EZ-Board Evaluation System Manual A-1 Ref. Qty Description Reference Designator Manufacturer Part Number 10 1 DP83848 LQFP48 U35 NATIONAL SEMI DP83848CVV/NOPB 11 1 BF518 M25P16 "U9" U9 NUMONYX M25P16-VMW6G 12 1 BF518 M29W320EB "U5" U5 NUMONYX M29W320EB70ZE6E 13 1 MTFC8GKQDI U16 MICRON MTFC2GDKDM-WT 14 1 ADM708SARZ SOIC8 U22 ANALOG DEVICES ADM708SARZ 15 1 ADM3202ARNZ SOIC16 U21 ANALOG DEVICES ADM3202ARNZ 16 1 ADSP-BF518F LQFP176 U12 ANALOG DEVICES ADSP-BF518BSWZ-4F4 17 1 ADP1864AUJZ SOT23-6 VR1 ANALOG DEVICES ADP1864AUJZ-R7 18 1 ADP1611 MSOP8 VR6 ANALOG DEVICES ADP1611ARMZ-R7 19 1 ADP1715 MSOP8 VR5 ANALOG DEVICES ADP1715ARMZ-R7 20 1 ADP1710 TSOT5 VR3 ANALOG DEVICES ADP1710AUJZ-R7 21 1 ADR550B SOT23-3 U11 ANALOG DEVICES ADR550BRTZ-REEL7 22 1 AD5258 MSOP10 U7 ANALOG DEVICES AD5258BRMZ10 A-2 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Bill Of Materials Ref. Qty Description Reference Designator Manufacturer Part Number 23 1 ADP1715 MSOP8 VR4 ANALOG DEVICES ADP1715ARMZ-1.8-R7 24 6 AD8022 MSOP8 U29-U34 ANALOG DEVICES AD8022ARMZ 25 1 AD7266BCPZ LFCSP32 U2 ANALOG DEVICES AD7266BCPZ 26 1 ADP1610 MSOP8 VR2 ANALOG DEVICES ADP1610ARMZ-R7 27 1 SSM2603 ICS009 U1 ANALOG DEVICES SSM2603CPZ-R2 28 2 DIP8 SWT016 SW15,SW20 C&K TDA08H0SB1 29 4 DIP6 SWT017 SW4-SW5, SW22-SW23 CTS 218-6LPST 30 3 DIP4 SWT018 SW3,SW10, SW19 ITT TDA04HOSB1 31 1 DB9 9PIN CON038 J2 NORCOMP 191-009-213-L-571 32 2 DIP2 SWT020 SW2,SW21 C&K CKN9064-ND 33 8 IDC 2X1 IDC2X1 JP3,JP14, JP17-JP18, P8-P11 FCI 90726-402HLF 34 1 IDC 3X1 IDC3X1 JP15 FCI 90726-403HLF 35 1 IDC 12X2 IDC12X2 P12 SAMTEC SSW-112-01-T-D ADSP-BF518F EZ-Board Evaluation System Manual A-3 Ref. Qty Description Reference Designator Manufacturer Part Number 36 1 3A RESETABLE FUS004 F1 TYCO SMD300F-2 37 10 IDC 2PIN_JUMPER_ SHORT SJ1,SJ3-SJ11 DIGI-KEY S9001-ND 38 1 PWR .65MM CON045 J3 DIG CP1-023-ND 39 2 3.5MM DUAL_STEREO CON050 J4-J5 SWITCHCRAFT 35RAPC7JS 40 1 SD_CONN 9PIN CON051 J13 DIGI-KEY 401-1954-ND 41 3 MOMENTARY SWT024 SW11-SW13 PANASONIC EVQ-Q2K03W 42 1 ROTARY_ENC_ EDGE SWT025 SW14 PANASONIC EVQ-WKA001 43 1 QMS 52x2 QMS52x2_SMT J1 SAMTEC QMS-052-06.75-L-D-A 44 2 IDC 25x2 IDC25x2_SMTA P2,P4 SAMTEC TSSH-125-01-L-DV-A 45 1 IDC 35x2 IDC35x2_SMTA P3 SAMTEC TSSH-135-01-L-DV-A 46 1 IDC 7x2 IDC7x2_SMTA P1 SAMTEC TSM-107-01-T-DV-A 47 1 BATT_HOLDER 16MM BATT_COIN16 MM J12 MEMORY PROTECTI BH600 A-4 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Bill Of Materials Ref. Qty Description Reference Designator Manufacturer Part Number 48 1 IDC 2X1 IDC2X1_SMT JP16 SAMTEC TSM-102-01-T-SV 49 1 ROTARY SWT027 SW1 COPAL S-8110 50 1 RJ45 W/LEDS CON065 J14 PULSE ENG. J0011D21BNL 51 1 IDC 18X2 IDC18X2_M_S MT P13 SAMTEC TSM-118-01-T-DV 52 3 YELLOW LED001 LED1-LED3 DIGI-KEY P512TR-ND 53 2 100 1/10W 5% 0805 R165,R167 VISHAY CRCW0805100RJNEA 54 8 600 100MHZ 200MA 0603 FER2-FER9 DIGI-KEY 490-1014-2-ND 55 2 600 100MHZ 500MA 1206 FER15-FER16 STEWARD HZ1206B601R-10 56 2 10UF 16V 20% CAP002 CT1-CT2 PANASONIC EEE1CA100SR 57 1 0 1/8W 5% 0805 R69 VISHAY CRCW08050000Z0EA 58 1 190 100MHZ 5A FER002 FER17 MURATA DLW5BSN191SQ2 59 2 0.47UF 16V 10% 0805 C59-C60 AVX 0805YC474KAT2A 60 2 1UF 10V 10% 0805 C123-C124 AVX 0805ZC105KAT2A ADSP-BF518F EZ-Board Evaluation System Manual A-5 Ref. Qty Description Reference Designator Manufacturer Part Number 61 13 10UF 6.3V 10% 0805 C7,C10, C15-C16,C37, C41,C61,C64, C66,C71,C75, C88,C90 AVX 08056D106KAT2A 62 1 4.7UF 6.3V 10% 0805 C145 AVX 08056D475KAT2A 63 48 0.1UF 10V 10% 0402 C4-C6,C9, C11-C14,C25, C39,C42-C45, C47-C48, C62-C63,C65, C72,C76, C86-C87,C89, C115-C118, C140,C152, C188-C194, C211-C220, C222 AVX 0402ZD104KAT2A 64 52 0.01UF 16V 10% 0402 C1,C8,C17-C24, C26-C36,C38, C46,C49-C58, C73,C119-C122, C139,C154, C179-C187, C223-C225 AVX 0402YC103KAT2A 65 1 10K 1/16W 5% 0402 R246 VISHAY CRCW040210K0FKED A-6 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Bill Of Materials Ref. Qty Description Reference Designator Manufacturer Part Number 66 42 10K 1/16W 5% 0402 R1,R11, R18-R21,R26, R59,R143-R145, R152, R154-R156, R161-R164, R168,R173, R203,R245, R268,R270, R356-R370, R382,R390 VISHAY CRCW040210K0FKED 67 9 4.7K 1/16W 5% 0402 R6-R8,R13-R17, R269 VISHAY CRCW04024K70JNED 68 27 0 1/16W 5% 0402 R9,R202, R205-R206, R209-R212, R214-R215, R217-R218, R221-R222, R224-R225, R227-R228, R230-R233, R235-R236, R238-R239,R267 PANASONIC ERJ-2GE0R00X 69 10 22 1/10W 5% 0402 R146-R151, R241-R244 DIGI-KEY P22JTR-ND 70 9 33 1/16W 5% 0402 R3,R12,R60, R66-R67,R199, R313-R314,R325 VISHAY CRCW040233R0JNEA 71 2 18PF 50V 5% 0805 C2-C3 AVX 08055A180JAT2A 72 2 2.2UF 10V 10% 0805 C150-C151 AVX 0805ZD225KAT2A ADSP-BF518F EZ-Board Evaluation System Manual A-7 Ref. Qty Description Reference Designator Manufacturer Part Number 73 3 1A SK12 DO-214AA D16-D18 DIODES INC B120B-13-F 74 24 10PF 50V 5% 0805 C155-C178 AVX 08055A100JAT2A 75 2 107.0 1/10W 1% 0805 R379-R380 DIGI-KEY 311-107CRTR-ND 76 2 0.1UF 16V 10% 0603 C40,C136 AVX 0603YC104KAT2A 77 5 1UF 16V 10% 0603 C79-C81,C199, C208 DIG01 399-5090-2-ND 78 3 1UF 16V 10% 0603 C133, C209-C210 DIG01 399-5090-2-ND 79 1 68PF 50V 5% 0603 C144 AVX 06035A680JAT2A 80 3 4.7UF 6.3V 20% 0603 C137-C138, C141 AVX 06036D475MAT2A 81 1 470PF 50V 5% 0603 C143 AVX 06033A471JAT2A 82 3 220UF 6.3V 20% D2E CT3-CT4,CT6 SANYO 10TPE220ML 83 1 10M 1/10W 5% 0603 R10 VISHAY CRCW060310M0FNEA 84 5 330 1/10W 5% 0603 R153,R157-R160 DIG01 541-330GTR-ND 85 4 0.0 1/10W 1% 0603 R52-R53,R195, R346 PHYCOMP 232270296001L A-8 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Bill Of Materials Ref. Qty Description Reference Designator Manufacturer Part Number 86 2 0.0 1/10W 1% 0603 R345,R351 PHYCOMP 232270296001L 87 18 49.9 1/16W 1% 0603 R68,R71-R77, R79-R84, R371-R374 VISHAY CRCW060349R9FNEA 88 15 10 1/10W 5% 0603 R166,R169, R207-R208, R213,R216, R219-R220, R223,R226, R229,R234, R237,R240,R349 VISHAY CRCW060310R0JNEA 89 1 10.0K 1/10W 1% 0603 R183 DIGI-KEY 311-10.0KHRTR-ND 90 8 100PF 50V 5% 0603 C67-C70, C82-C85 AVX 06035A101JAT2A 91 1 1000PF 50V 5% 0603 C207 PANASONIC ECJ-1VC1H102J 92 8 2.21K 1/10W 1% 0603 R377-R378, R381,R383-R387 DIGI-KEY 311-2.21KHRTR-ND 93 1 2200PF 50V 5% 0603 C130 KEMET C0603C222J5RACTU 94 2 100 1/16W 5% 0402 R49,R54 DIGI-KEY 311-100JRTR-ND 95 1 4.99K 1/16W 1% 0603 R347 VISHAY CRCW06034K99FKEA 96 1 24.9K 1/10W 1% 0603 R192 DIGI-KEY 311-24.9KHTR-ND ADSP-BF518F EZ-Board Evaluation System Manual A-9 Ref. Qty Description Reference Designator Manufacturer Part Number 97 3 511.0 1/16W 1% 0402 R140-R142 DIGI-KEY 311-511LCT-ND 98 1 10UF 10V 10% 0805 C142 PANASONIC ECJ-2FB1A106K 99 1 10UF 10V 10% 0805 C221 PANASONIC ECJ-2FB1A106K 100 1 2.0K 1/16W 1% 0603 R182 PANASONIC ERJ-3EKF2001V 101 6 0.05 1/2W 1% 1206 R190-R191, R194,R196, R198,R204 SEI CSF 1/2 0.05 1%R 102 11 10UF 16V 10% 1210 C125-C127, C135,C146, C149, C200-C203, C205 AVX 1210YD106KAT2A 103 2 GREEN LED001 LED13-LED14 PANASONIC LN1361CTR 104 1 RED LED001 LED9 PANASONIC LN1261CTR 105 2 1000PF 50V 5% 1206 C147-C148 AVX 12065A102JAT2A 106 1 255.0K 1/10W 1% 0603 R197 VISHAY CRCW06032553FK 107 1 80.6K 1/10W 1% 0603 R193 VISHAY CRCW060380K6FKEA 108 2 22000PF 25V 10% 0402 C131,C197 DIGI-KEY 490-3252-1-ND A-10 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Bill Of Materials Ref. Qty Description Reference Designator Manufacturer Part Number 109 2 5A MBRS540T3G SMC D7-D8 ON SEMI MBRS540T3G 110 1 20MA MA3X717E DIO005 D1 DIODES INC BAS70-05-7-F 111 1 2.5UH 30% IND013 L3 COILCRAFT MSS1038-252NL_ 112 1 33.0K 1/16W 1% 0402 R201 ROHM MCR01MZPF3302 113 5 47.0K 1/16W 1% 0402 R46,R48, R50-R51,R55 ROHM MCR01MZPF4702 114 1 5.6K 1/16W 5% 0402 R247 PANASONIC ERJ-2GEJ562X 115 1 1.0K 1/16W 1% 0402 R189 PANASONIC ERJ-2RKF1001X 116 1 1.50K 1/16W 1% 0402 R355 PANASONIC ERJ-2RKF1501X 117 3 220PF 50V 10% 0402 C153, C195-C196 DIGI-KEY 311-1035-2-ND 118 2 220PF 50V 10% 0402 C74,C91 DIGI-KEY 311-1035-2-ND 119 4 5.6K 1/16W 0.5% 0402 R40,R43-R45 SUSUMU RR0510P-562-D 120 1 680 1/16W 1% 0402 R42 BC COMPONENTS 2312 275 16801 ADSP-BF518F EZ-Board Evaluation System Manual A-11 Ref. Qty Description Reference Designator Manufacturer Part Number 121 1 90.9K 1/16W 5% 0402 R41 DIGI-KEY 541-90.9KLCT-ND 122 1 40.2K 1/16W 5% 0402 R47 DIGI-KEY 541-40.2KLCT-ND 123 3 100K 1/16W 5% 0402 R200,R350,R391 DIGI-KEY 541-100KJTR-ND 124 4 2.2UF 25V 10% 0805 C129,C132, C204,C206 DIGI-KEY 445-6860-2-ND 125 1 21.5K 1/10W 1% 0603 R179 DIGI-KEY 311-21.5KHRCT-ND 126 1 21.5K 1/10W 1% 0603 R352 DIGI-KEY 311-21.5KHRCT-ND 127 6 1A MBR130LSFT1G SOD-123FL D2-D5,D9-D10 ON SEMI MBR130LSFT1G 128 1 22UH 20% IND018 L1 COILCRAFT MSS4020-223MLB 129 3 1UH 20% IND019 L2,L6-L7 COILCRAFT ME3220-102MLB 130 13 33 1/32W 5% RNS005 RN4-RN13, RN17-RN19 PANASONIC EXB-28V330JX 131 3 1.2K 1/16W 1% 0402 R4-R5,R186 VISHAY CRCW04021K20FKED 132 2 4.3 1/4W 5% 1206 R185,R188 PANASONIC ERJ-8GEYJ4R3V A-12 ADSP-BF518F EZ-Board Evaluation System Manual ADSP-BF518F EZ-Board Bill Of Materials Ref. Qty Description Reference Designator Manufacturer Part Number 133 1 2.67K 1/16W 1% 0402 R187 PANASONIC ERJ-2RKF2671X 134 3 1.0M 1/16W 1% 0402 R248-R250 VISHAY CRCW04021M00FKED 135 2 22UH 20% IND024 L8-L9 COILCRAFT MSD7342-223MLC 136 4 330 100MHZ 1.5A 0805 FER1, FER19-FER21 MURATA BLM21PG331SN1D 137 8 22 1/32W 5% RNS005 RN1-RN3, RN14-RN16, RN20-RN21 PANASONIC EXB-28V220JX 138 1 3300PF 50V 5% 0603 C198 PANASONIC ECJ-1VB1H332K 139 1 24.0K 1/10W 1% 0603 R176 PANASONIC ERJ-3EKF2402V 140 1 140.0K 1/10W 1% 0603 R181 PANASONIC ERJ-3EKF1403V 141 1 44.2K 1/10W 1% 0603 R348 PANASONIC ERJ-3EKF4422V 142 1 1.91K 1/10W .1% 0603 R180 SUSUMU RG1608P-1911-B-T5 143 1 3.01K 1/10W .1% 0603 R184 SUSUMU RG1608P-3011-B-T1 144 1 20.0K 1/16W 1% 0402 R344 VISHAY CRCW040220K0FKED ADSP-BF518F EZ-Board Evaluation System Manual A-13 Ref. Qty Description Reference Designator Manufacturer Part Number 145 1 30A GSOT05 SOT23-3 D14 VISHAY GSOT05-GS08 146 1 30A GSOT03 SOT23-3 D15 VISHAY GSOT03-GS08 147 2 40A ESD5Z2.5T1 SOD-523 D11-D12 ON SEMI ESD5Z2.5T1G 148 1 7A VESD01-02V-GS 08 SOD-523 D13 VISHAY VESD01-02V-GS08 149 2 165.0 1/10W 1% 0603 R375-R376 DIGI-KEY P165HTR-ND 150 1 220.0 1/10W 1% 0603 R389 DIGI-KEY P220HTR-ND 151 1 4.87K 1/10W 1% 0402 R388 DIGI-KEY 541-4.87KHCT-ND A-14 ADSP-BF518F EZ-Board Evaluation System Manual A B C D 1 1 2 2 ADSP-BF518F EZ-BOARD SCHEMATIC 3 3 ANALOG DEVICES 4 Board No. C Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD TITLE Title Size 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 1 of 16 A B C D 3.3V A[1:19]_Z U12 1 A1_Z 107 A2_Z 106 A3_Z 105 A4_Z 103 A5_Z 102 A6_Z 101 A7_Z 97 A8_Z 96 D[0:15]_Z A1 86 A14_Z 85 A15_Z 84 A16_Z 81 A17_Z 80 A18_Z 78 A19_Z 77 71 D4_Z 70 D5_Z 69 D6_Z ETXD2 66 D7_Z ERXD2 D5 D6 A8 D7 A9 D8 ETXD3 64 D9_Z ERXD3 62 D10_Z D9 A11 D10 A12 D11 A13 ERXDV 60 D12_Z COL 58 D13_Z SPI0_SSEL1 57 D14_Z MDC 56 D15_Z MDIO D12 A14 D13 A15 D14 A16 D15 19 18 13 12 11 ERXCLK D11_Z 61 10 A18 ABE1#/SDQM1 A19 ABE0#/SDQM0 SCKE 110 120 SA10 AMS1 114 SCAS_Z AMS1_Z PF11/ERXD0/PPID11/PWM_AH/TACI3 PH6/DT1SEC/UART1_TX/SPI1_SSEL1/CZM PF12/ETXD1/PPID12/PWM_AL AMS0 AMS0_Z PH7/DR1SEC/UART1_RX/TMR7/TACI2 SRAS 162 PB1/DR1PRI/MMC_D4_Z 161 PB2/RFS1/MMC_D5_Z 160 RSCLK1/MMC_D6_Z 159 ADC_A0/LED1/MMC_D7/OTP_EN_Z 156 CUD/SD_CD_Z 155 CDG/ADC_A1/LED2_Z 154 CZM/ADC_A2/LED3_Z 153 DR1SEC_Z PF15/RMII_PHYINT/PPID15/PWM_SYNC SMS 121 ARE 143 DSP_CLKIN 122 CLKIN AWE 144 XTAL ARE_Z DR0PRI/SD_D0_Z AWE_Z R3 33 0402 RSCLK0/SD_D1_Z 38 37 36 RFS0/SD_D2_Z 125 CLKOUT 34 TFS0/SD_D3_Z CLKOUT 33 DT0PRI/SD_CMD_Z 141 DSP_RTXI 39 MIITXCLK 118 3.3V RTXI 140 DSP_RTXO RTXO 117 TSCLK0/SD_CLK_Z 135 UART0_TX_Z TEST PG 32 31 PG 28 UART0_RX_Z TP10 147 NMI EXT_WAKE NMI NC 146 RESET RESET CLKBUF 130 127 WAKE R199 33 0402 TP9 27 AMS2_Z 26 SPI0_SCK_Z 150 CLKBUF ADSP-BF518F LQFP176_SOCKET 25 SPI0_MISO_Z AMS3/SPI0_SEL2 21 SPI0_MOSI_Z R325 0402 33 20 PG0/MIICRS/RMIICRS/HWAIT/SPI1_SSEL3 PG1/ERXER/DMAR1/PWM_CH PG2/MIITXCLK/RMIIREF_CLK/DMAR0/PWM_CL 2 PG3/DR0PRI/RSI_DATA0/SPI0_SSEL5/TACLK3 PG4/RSCLK0/RSI_DATA1/TMR5/TACI5 PG5/RFS0/RSI_DATA2/PPICLK/TMRCLK PG6/TFS0/RSI_DATA3/TMR0/PPIFS1 PG7/DT0PRI/RSI_CMD/TMR1/PPIFS2 PG8/TSCLK0/RSI_CLK/TMR6/TACI6 PG9/DT0SEC/UART0_TX/TMR4 PG10/DR0SEC/UART0_RX/TACI4 PG11/SPI0_SS/AMS[2]/SPI1_SSEL5/TACLK2 PG12/SPI0_SCK/PPICLK/TMRCLK PG13/SPI0_MISO/TMR0/PPIFS1 PG14/SPI0_MOSI/TMR1/PPIFS2/PWM_TRIPB PG15/SPI0_SSEL2/PPIFS3/AMS[3] "BOOT MODE" R202 0 0402 3.3V 3.3V BMODE0 54 TRST R11 10K 0402 55 TMS C1 0.01UF 0402 U19 SDA PF14/ETXEN/PPID14/PWM_BL 47 ERXER 115 SMS_Z 3 SCL 33 PF13/ERXD1/PPID13/PWM_BH 48 MIICRS/HWAIT 123 SCAS SRAS_Z R1 10K 0402 33 SWE SA10_Z 2 PH5/TSCLK1/ARDY/ECLK/CDG 165 RMII_PHYINT 113 SWE_Z PH4/TFS1/AOE/SPI0_SSEL3/CUD PF10/ETXD0/PPID10/TMR3 166 ETXEN 119 SCKE_Z PF5/ERXDV/PPID5/PWM_CH/TACI0 PF9/RMIIMDIO/PPID9/TMR2 167 ERXD1 172 R314 0402 R313 0402 PF4/ERXCLK/PPID4/PWM_BL/TACLK1 PH2/RSCLK1/SPI1_SCK/RSI_DATA6 168 ABE0#/SDQM0_Z PJ1/SDA 173 PF3/ERXD3/PPID3/PWM_BH/TACLK0 PH3/DT1PRI/SPI1_MOSI/RSI_DATA7 171 ETXD1 PF2/ETXD3/PPID2/PWM_AL PF8/MDC/PPID8/SPI1_SSEL4 174 ABE1#/SDQM1_Z 109 PJ0/SCL PH1/RFS1/SPI1_MISO/RSI_DATA5 3 ERXD0 PF1/ERXD2/PPID1/PWM_AH/TACLK7 PF7/SPI0_SSEL1/PPID7/PWM_SYNC 4 ETXD0 1 PF6/COL/PPID6/PWM_CL/TACI1 5 R5 1.2K 0402 PF0/ETXD2/PPID0/SPI1_SSEL2/TACLK6 PH0/DR1PRI/SPI1_SS/RSI_DATA4 6 A17 108 R4 1.2K 0402 U12 D8_Z 65 A10 91 A13_Z D3_Z A7 94 A12_Z D2_Z 72 D4 A6 92 73 D3 A5 A11_Z D1_Z D2 A4 93 74 D1 A3 A10_Z D0_Z D0 A2 A9_Z 76 R12 33 0402 4 VDD 1 OE OUT 3 R9 0 0402 DSP_CLKIN 51 EMU 53 TCK 50 TDO GND 25MHZ 2 OSC003 52 TDI BMODE1 TRST BMODE2 42 SW1 1 41 2 40 4 3 EMU 2 C 1 4 0 5 TMS 3.3V 6 7 3 SWT027 ROTARY TCK TDO R7 4.7K 0402 TDI R8 4.7K 0402 R6 4.7K 0402 ADSP-BF518F LQFP176_SOCKET 3.3V DSP_RTXI SW1: Boot Mode Select Switch DSP_RTXO POSITION R200 100K 0402 R10 10M 0603 Default PG U3 4 1 3 2 TERM2 TERM1 NC2 C2 18PF 0805 R201 33.0K 0402 C153 220PF 0402 NC1 32.768KHZ OSC008 C3 18PF 0805 BOOT MODE 0 Idle-No Boot 1 Boot from 8 or 16-bit external flash memory 2 Boot from internal SPI memory 3 Boot from external SPI memory 4 Boot from SPI0 host 5 Boot from OTP memory 6 Boot from SDRAM 7 Boot from UART0 host ANALOG DEVICES 4 Size Board No. C Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD DSP EBIU + CONTROL Title RTC 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 2 of 16 A B C D VDDEXT 1 1 VDDEXT C7 10UF 0805 U12 7 VDDEXT1 24 VDDEXT2 35 VDDEXT3 49 VDDEXT4 128 VDDEXT5 129 VDDEXT6 136 VDDEXT7 145 VDDEXT8 148 VDDEXT9 158 VDDEXT10 170 VDDEXT11 VDDMEM 59 VDDMEM1 68 VDDMEM2 75 VDDMEM3 82 VDDMEM4 95 VDDMEM5 104 VDDMEM6 112 VDDMEM7 124 VDDMEM8 2 VDDINT 14 VDDINT1 23 VDDINT2 30 VDDINT3 63 VDDINT4 79 VDDINT5 98 VDDINT6 100 VDDINT7 116 VDDINT8 138 VDDINT9 152 VDDINT10 164 VDDINT11 VDDFLASH 3.3V D1 MA3X717E 20MA DIO005 16 VDDFLASH1 17 VDDFLASH2 29 VDDFLASH3 126 VDDFLASH4 J12 2 1 3 C34 0.01UF 0402 1 GND1 2 GND2 15 GND3 22 GND4 43 GND5 44 GND6 45 GND7 46 GND8 67 GND9 83 GND10 87 GND11 88 GND12 89 GND13 90 GND14 99 GND15 111 GND16 131 GND17 132 GND18 133 GND19 134 GND20 137 GND21 139 GND22 149 GND23 151 GND24 157 GND25 163 GND26 169 GND27 175 GND28 176 GND29 177 GND30 C37 10UF 0805 C6 0.1UF 0402 C5 0.1UF 0402 C4 0.1UF 0402 C39 0.1UF 0402 C8 0.01UF 0402 C22 0.01UF 0402 C23 0.01UF 0402 C21 0.01UF 0402 C16 10UF 0805 C9 0.1UF 0402 C25 0.1UF 0402 C19 0.01UF 0402 C18 0.01UF 0402 C20 0.01UF 0402 C17 0.01UF 0402 C27 0.01UF 0402 C26 0.01UF 0402 C38 0.01UF 0402 VDDMEM C10 10UF 0805 2 VDDINT C15 10UF 0805 C14 0.1UF 0402 C13 0.1UF 0402 C12 0.1UF 0402 C11 0.1UF 0402 C31 0.01UF 0402 C30 0.01UF 0402 C32 0.01UF 0402 C29 0.01UF 0402 C33 0.01UF 0402 C28 0.01UF 0402 C36 0.01UF 0402 VDDFLASH 3 VPPOTP 142 VDDRTC VDDOTP BATT_COIN16MM BATTHOLDER 9 VDDOTP 8 VPPOTP "RTC BATTERY" C40 0.1UF 0603 C41 10UF 0805 C42 0.1UF 0402 C43 0.1UF 0402 C44 0.1UF 0402 C45 0.1UF 0402 ADSP-BF518F LQFP176_SOCKET C35 0.01UF 0402 ANALOG DEVICES 4 Title Size Date B C 20 Cotton Road Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD DSP POWER, BYPASS CAPS Board No. C A C24 0.01UF 0402 Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 3 of 16 A B C D 64MB SDRAM (32M x 16) 4 MB FLASH (2M x 16) U14 A[1:19] 3.3V D[0:15]_ZZ 1 U5 A[1:19] POS. FROM 1 TO DSP (U12) DEFAULT FLASH (U5) ON A1 G2 A2 F2 A0 ALTERNATE FUNCTION / OFF MODE Expansion Interface 2 DSP (U12) FLASH (U5) ON Expansion Interface 3 DSP (U12) FLASH (U5) ON Expansion Interface 4 DSP (U12) FLASH (U5) ON Expansion Interface, SPI FLASH CS 2 R14 4.7K 0402 R15 4.7K 0402 R16 4.7K 0402 R17 4.7K 0402 R269 4.7K 0402 D[0:15] A3 E2 A4 C2 A5 D2 A6 F3 A7 E3 A8 C3 A9 D6 A10 C6 A11 E6 A12 F6 A13 D7 A14 C7 A15 E7 A16 F7 A17 G7 A18 D3 A19 E4 A6 30 G4 D2 A7 31 K4 D3 A8 32 K5 D4 A9 33 G5 D5 A10 34 K6 D6 G6 D7 H3 D8 J3 D9 H4 D6 22 SA10 A12 35 A13 36 D10 A18 20 J4 D11 A19 21 H5 D12 J6 D13 H6 D14 J7 D15/A-1 D15 A7 D7 A8 D8 A9 D9 A10 D10 A11 D11 A12 D12 A13 D13 A14 A15 26 D1 D5 A6 A4 K3 D4 A5 25 29 D3 A4 24 A3 A5 D2 A3 A2 D0 D1 A2 23 G3 D0 A1 3.3V R13 4.7K 0402 J5 VDD SW3: FLASH ENABLE A1 D14 3.3V C54 0.01UF 0402 16 SWE 17 SCAS 18 SRAS 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 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12_NC BA0 BA1 D0_ZZ D1_ZZ 1 D2_ZZ D3_ZZ D4_ZZ D5_ZZ D6_ZZ D7_ZZ D8_ZZ D9_ZZ D10_ZZ D11_ZZ D12_ZZ D13_ZZ D14_ZZ D15_ZZ 19 CS 37 CKE 38 CLK WE CAS RAS SMS SCKE CLKOUT A16 A17 15 ABE0#/SDQM0 A18 39 ABE1#/SDQM1 DQML R356 10K 0402 DQMH 2 F5 A19 F4 MT48LC32M16A2TG-75 TSOP54 A20 "FLASH ENBL" 3.3V U23 4 D5 RESET 2 SW3 ON 3 BYTE 1 6 1 4 5 C4 U25 RY/BY~ 4 U13 H2 CE J2 OE C5 WE D4 VPP/WP~ 2 4 4 AMS3/SPI0_SEL2 8 7 3 AMS2 2 2 AMS1 1 1 AMS0 H7 SN74LVC1G08 SOT23-5 SN74LVC1G08 SOT23-5 2 SN74AUC1G00 SOT23-5 DIP4 SWT018 U24 1 M29W320EB TFBGA63_80 4 C47 0.1UF 0402 C48 0.1UF 0402 C49 0.01UF 0402 C50 0.01UF 0402 C51 0.01UF 0402 C52 0.01UF 0402 C53 0.01UF 0402 K2 K7GND1 GND2 1 2 SN74LVC1G08 SOT23-5 RESET ARE AWE JP3 3 1 SJ1 2 "FLASH WP" 3 3.3V SHORTING JUMPER DEFAULT=NOT INSTALLED 16 Mb SPI FLASH IDC2X1 MEMORY MAP ADDRESS RANGE SELECT LINE TYPE 0x2030 0000 - 0x203F FFFF ASYNC BANK 3 FLASH 0x2020 0000 - 0x202F FFFF ASYNC BANK 2 FLASH 0x2010 0000 - 0x201F FFFF ASYNC BANK 1 FLASH 0x2000 0000 - 0x200F FFFF ASYNC BANK 0 FLASH 0x0000 0000 - 0x03FF FFFF NONE R18 10K 0402 R20 10K 0402 R21 10K 0402 U9 SPI0_MOSI SPI0_SCK SDRAM JP16 1 AMS3/SPI0_SEL2 3.3V 8 VCC 5 SI 6 SCK 1 CS 3 WP 7 HOLD 2 IDC2X1_SMT M25P16 SO8W "SPI FLASH CS ENBL" 2 SO SPI0_MISO GND 4 3.3V SJ9 SHORTING JUMPER DEFAULT=NOT INSTALLED C58 0.01UF 0402 4 C57 0.01UF 0402 C56 0.01UF 0402 R19 10K 0402 C55 0.01UF 0402 ANALOG DEVICES C46 0.01UF 0402 Board No. C Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD EXTERNAL MEMORY Title Size 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 4 of 16 A B R214 0 0402 3 IN_VA1 R222 0 0402 R216 10 0603 U29 R362 10K 0402 2 AD8022 MSOP8 +12V;8 -12V;4 R215 0 0402 1 AGND R217 0 0402 5 IN_VA2 AGND R225 0 0402 U29 7 R359 10K 0402 AD8022 MSOP8 R218 0 0402 AGND 7 R366 10K 0402 AD8022 MSOP8 C159 10PF 0805 R211 0 0402 C158 10PF 0805 AGND C166 10PF 0805 VA6 6 C167 10PF 0805 R224 0 0402 AGND R213 10 0603 U33 VA4 AD8022 MSOP8 AGND C163 10PF 0805 5 IN_VA6 6 C162 10PF 0805 C156 10PF 0805 R212 0 0402 7 R363 10K 0402 1 AGND R223 10 0603 VA2 6 C157 10PF 0805 R209 0 0402 AGND U31 5 IN_VA4 AD8022 MSOP8 AGND C164 10PF 0805 VA5 2 C165 10PF 0805 R221 0 0402 R219 10 0603 1 R367 10K 0402 AD8022 MSOP8 AGND C161 10PF 0805 R208 10 0603 U33 VA3 2 C160 10PF 0805 3 IN_VA5 1 VA1 D R210 0 0402 R220 10 0603 U31 3 IN_VA3 1 R358 10K 0402 C AGND AGND 2 2 R231 0 0402 5 IN_VB1 R235 0 0402 R229 10 0603 U30 7 R361 10K 0402 R364 10K 0402 AD8022 MSOP8 R230 0 0402 7 R368 10K 0402 AD8022 MSOP8 AD8022 MSOP8 C178 10PF 0805 R206 0 0402 C155 10PF 0805 AGND C175 10PF 0805 AGND VB5 6 C174 10PF 0805 R236 0 0402 AGND C170 10PF 0805 R207 10 0603 U34 VB3 2 C171 10PF 0805 5 IN_VB5 1 VB1 6 AGND R237 10 0603 U32 3 IN_VB3 R205 0 0402 AGND AGND 3 3 R228 0 0402 3 IN_VB2 R232 0 0402 R226 10 0603 U30 1 R360 10K 0402 R365 10K 0402 AD8022 MSOP8 R239 0 0402 AGND AGND AGND C190 0.1UF 0402 C191 0.1UF 0402 C192 0.1UF 0402 C193 0.1UF 0402 C194 0.1UF 0402 C211 0.1UF 0402 C212 0.1UF 0402 C213 0.1UF 0402 C216 0.1UF 0402 C215 0.1UF 0402 ANALOG DEVICES C214 0.1UF 0402 AGND Size AGND B Board No. C Date C 20 Cotton Road Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD ADC INPUTS Title A C176 10PF 0805 -12V C189 0.1UF 0402 4 AD8022 MSOP8 C177 10PF 0805 C173 10PF 0805 AGND VB6 2 C172 10PF 0805 R233 0 0402 +12V 1 R369 10K 0402 AD8022 MSOP8 AGND C168 10PF 0805 R240 10 0603 U34 VB4 6 C169 10PF 0805 3 IN_VB6 7 VB2 2 R227 0 0402 AGND R234 10 0603 U32 5 IN_VB4 R238 0 0402 Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 5 of 16 A B C D 1 1 "ADC INPUTS" PS_5V 3.3V P12 IN_VA5 IN_VB1 IN_VB3 4 5 6 7 8 IN_VA4 9 10 11 12 13 14 15 16 17 18 19 20 21 22 R26 10K 0402 IN_VB2 U2 IN_VB4 30 SW4 1 28 2 11 27 3 10 26 4 9 5 8 6 7 IN_VB6 24 VA1 VA5 DOUTB 9 SCLK VA2 VA3 CS 10 VA4 11 VA5 12 VB1 VB2 VB3 VB4 VB5 VB6 21 VA6 AGND 18 VB1 17 VB2 16 VB3 6 VA6 8 5 2 VA1 4 VA4 7 3 VA3 DOUTA 2 VA2 R370 10K 0402 1 23 FER1 330 0805 IN_VA6 RANGE ON IN_VB5 3 IN_VA2 3 AVDD32 VDD31 VDRIVE IN_VA3 3.3V 2 12 DR1SEC PB2/RFS1/MMC_D5 2 ADC_A0/LED1/MMC_D7/OTP_EN CDG/ADC_A1/LED2 CZM/ADC_A2/LED3 VB4 14 VB5 13 VB6 2 REF_SELECT 4 DCAPA 20 DCAPB DCAPA DCAPB C59 0.47UF 0805 C60 0.47UF 0805 3.3V AGND SW22 ON 4 9 5 8 6 PS_5V AVDD_ADC AGND RHPOUT C61 10UF 0805 C62 0.1UF 0402 C64 10UF 0805 C63 0.1UF 0402 C66 10UF 0805 C65 0.1UF 0402 3 7 6 IN_VB5 10 5 IN_VB3 3 4 IN_VB1 11 3 IN_VA5 12 2 2 IN_VA3 1 3 1 "SPORT1 ENBL" RSCLK1/MMC_D6 15 AD7266 LFCSP32 IN_VA1 SW4 disconnects DSP from ADC PB1/DR1PRI/MMC_D4 DIP6 SWT017 22 SGL/DIFF~ 25 A0 24 A1 23 A2 5 6AGND1 19AGND2 1AGND3 29DGND1 DGND2 IN_VA1 1 DIP6 SWT017 AGND SW23 ON 9 5 8 6 7 6 IN_VA2 10 4 5 IN_VA4 3 4 IN_VA6 11 3 IN_VB2 12 2 2 IN_VB4 1 1 IN_VB6 LHPOUT DIP6 SWT017 SW22 & 23 are only used for POST ANALOG DEVICES 4 Board No. C Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD ADC Title Size 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 6 of 15 A B C D "MIC GAIN" "LPBK" SW4: MIC GAIN POS. 1 (0dB) R41 90.9K 0402 3 10 4 9 0.5 (-6dB) MICIN 5 8 L_OUT_LPBK 6 7 5 R_OUT_LPBK NC 6 4 11 4 3 ON 2 12 2 3 5 (14dB) SW5 1 2 DEFAULT 1 R47 40.2K 0402 1 1 GAIN J4 J5 HP OUT MIC IN 1 RHPOUT_RDIV L_IN_LPBK 3.3V R_IN_LPBK 3.3V DIP6 SWT017 C79 1UF 0603 FER19 330 0805 LINE OUT R46 47.0K 0402 C88 10UF 0805 C74 220PF 0402 DNP C87 0.1UF 0402 C86 0.1UF 0402 U1 5 4 3 FER4 600 0603 R247 5.6K 0402 JP15 R42 680 0402 1 22 2 FER3 600 0603 C71 10UF 0805 21 DBVDD AVDD DGND AGND 18 19 DCVDD FER20 330 0805 MICIN MICBIAS 12 HPVDD 3 HPGND 15 C75 10UF 0805 IDC3X1 "MIC" "LINE IN" LINE IN C72 0.1UF 0402 C76 0.1UF 0402 "MIC SELECT" C91 220PF 0402 DNP SJ3 SHORTING JUMPER DEFAULT=2&3 2 J5 2 24 23 LLINEIN MICIN CT4 220UF D2E LHPOUT 3 FER5 600 0603 1 R45 5.6K 0402 RHPOUT C80 1UF 0603 CODEC_DACLRC 4 CODEC_DACDAT 7 L_IN_LPBK 8 "HEAD PHONE" "LINE OUT" RLINEIN FER2 600 0603 R_IN_LPBK R40 5.6K 0402 C81 1UF 0603 CODEC_ADCDAT 5 CODEC_ADCLRC 6 BCLK 9 8 10 11 7 13 LHPOUT 14 RHPOUT DACLRC R53 0 0603 FER8 600 0603 J4 2 CT3 220UF D2E R52 0 0603 FER7 600 0603 3 CT1 10UF CAP002 DACDAT ADCDAT 1 4 16 LOUT ADCLRC 17 ROUT BCLK 2 R50 47.0K 0402 CT2 10UF CAP002 R51 47.0K 0402 7 L_OUT_LPBK 8 R_OUT_LPBK 5 3.5MM CON050 C68 100PF 0603 C69 100PF 0603 C70 100PF 0603 C195 220PF 0402 R43 5.6K 0402 R44 5.6K 0402 C196 220PF 0402 R248 1.0M 0402 R249 1.0M 0402 MUTE R250 1.0M 0402 CSB SCLK 26 27 28 MUTE CSB SDIN 6 20 VMID R49 100 0402 FER6 600 0603 R54 100 0402 FER9 600 0603 3.5MM CON050 2 1 SCLK SSM2603 ICS009 6 CLKOUT XTO SDIN 25 XTI/MCLK C67 100PF 0603 AGND 3.3V 3 C90 10UF 0805 "AUDIO CLK" C89 0.1UF 0402 R55 47.0K 0402 R48 47.0K 0402 C83 100PF 0603 C82 100PF 0603 C84 100PF 0603 3 C85 100PF 0603 R59 10K 0402 U20 "SPORT0 ENBL" 1 OE 1 15 3 14 4 13 5 12 6 11 7 10 8 9 3 DR0PRI/SD_D0 4 RFS0/SD_D2 5 TSCLK0/SD_CLK 6 RSCLK0/SD_D1 8 SCL 7 SDA 16 2 2 DT0PRI/SD_CMD ON 1 AGND 3 OUT GND 12MHZ 2 OSC003 SW15 TFS0/SD_D3 R60 33 0402 4 VDD CODEC_DACLRC CODEC_DACDAT CODEC_ADCDAT CODEC_ADCLRC 3.3V BCLK FER21 330 0805 3.3V SDIN SCLK C77 1000PF 0805 DNP DIP8 SWT016 R390 10K 0402 SW15 disconnects DSP from AUDIO CODEC 4 R391 100K 0402 ANALOG DEVICES C73 0.01UF 0402 MUTE C78 1000PF 0805 DNP Size A B C Board No. C Date Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD AUDIO CODEC Title CSB AGND 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 7 of 16 A B C D R68 49.9 0603 MDIO MDIO_Z R71 49.9 0603 3.3V MDC 3.3V MDC_Z R72 49.9 0603 MIICRS/HWAIT MIICRS_Z R73 49.9 0603 1 LED14 GREEN LED001 3.3V COL COL_Z "SPEED" 1 R75 49.9 0603 ERXD0 ERXD0_Z R389 220.0 0603 31 MDC_Z 46 ERXD3_Z 45 ERXD2_Z MDIO_Z ERXDV 44 ERXD1_Z ERXDV_Z 43 ERXD0_Z R67 33 0402 RMII_PHYINT 42 COL_Z ERXCLK ERXCLK_Z 39 ERXDV_Z R66 33 0402 38 ERXCLK_Z 41 MIITXCLK MIITXCLK_Z 1 MIITXCLK_Z 2 ETXEN_Z 2 RMII_PHYINT 3 ETXD0_Z R82 49.9 0603 4 ETXD1_Z 5 ETXD2_Z ETXD0 ETXD0_Z 6 ETXD3_Z R81 49.9 0603 40 MIICRS_Z ETXD1 ETXD1_Z 29 RESET R80 49.9 0603 7 ETXD2 ETXD2_Z 34 CLKBUF R83 49.9 0603 33 25 22 AVDD MDIO TXN MDC RXP RXD3/PHYAD4 RXN R372 49.9 0603 R374 49.9 0603 R373 49.9 0603 R375 165.0 0603 R376 165.0 0603 1 2 14 3 13 4 5 RXD2/PHYAD3 C217 0.1UF 0402 RXD1/PHTAD2 RXD0/PHYAD1 LED_LINK/AN0 28 C218 0.1UF 0402 6 7 LED_SPEED/AN1 RX_DV/MII_MODE LED_ACT/AN_EN 27 COL/PHYAD0 8 26 9 10 LED1 8 11 LED2 9 12 RX_CLK RX_ER/MDIX_EN TCK TX_CLK TDO TX_EN TMS TXD0 10 TXD1 R379 107.0 0805 11 TRST 12 TDI TXD2 TXD3/SNI_MODE 2 SHGND RESET 23 PFBOUT PWR_DOWN/INT PFBIN1 X1 PFBIN2 R84 49.9 0603 SHIELD2 24 RBIAS 25MHZ_OUT 14 21 RESERVED2 ETXD3_Z SHIELD1 R380 107.0 0805 CRS/CRS_DV/LED_CFG X2 13 CON065 20 RESERVED1 35 ETXD3 R371 49.9 0603 16 18 37 AGND2 ERXD3_Z R79 49.9 0603 R382 10K 0402 R378 2.21K 0603 17 R388 4.87K 0402 19 ERXD3 R355 1.50K 0402 TXP AGND1 MDIO_Z R74 49.9 0603 R377 2.21K 0603 J14 15 30 DGND ERXD2_Z IOGND1 ERXD2 48 IOVDD2 U35 36 ERXD1_Z R77 49.9 0603 IOGND2 ERXD1 32 IOVDD1 3.3V 47 R76 49.9 0603 C219 0.1UF 0402 C220 0.1UF 0402 C222 0.1UF 0402 C221 10UF 0805 3.3V ETXEN ETXEN_Z JP17 1 2 IDC2X1 R383 2.21K 0603 R381 2.21K 0603 PHY Address is 00001 Install JP17 to put the part in power-down mode ERXD3_Z PS_5V 3 3 ERXD2_Z J15 1 P13 MDIO MDC ERXD3 ERXD2 ERXD1 ERXD0 ERXDV ERXCLK ERXER MIITXCLK ETXEN ETXD0 ETXD1 ETXD2 ETXD3 COL MIICRS/HWAIT 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 MDIO MDC ERXD3 ERXD2 4 ERXD1 ERXD0 ERXDV ERXCLK ERXER 2 3 4 5 6 7 8 9 10 11 MIITXCLK ETXEN ETXD0 ETXD1 ETXD2 ETXD3 COL MIICRS/HWAIT 12 13 14 15 16 17 18 19 20 3.3V VCC1 VCC3 MDIO GND1 MDC GND2 RXD3 GND3 RXD2 GND4 RXD1 GND5 RXD0 GND6 RX_DV GND7 RX_CLK GND8 RX_ER GND9 TX_ER GND10 TX_CLK GND11 TX_EN GND12 TXD0 GND13 TXD1 GND14 TXD2 GND15 TXD3 GND16 COL GND17 CRS VCC2 CON036 DNP ERXD1_Z GND18 VCC4 21 ERXD0_Z 22 COL_Z 23 24 JP18 25 1 26 C223 0.01UF 0402 27 C224 0.01UF 0402 C225 0.01UF 0402 R385 2.21K 0603 R386 2.21K 0603 R387 2.21K 0603 IDC2X1 28 29 30 31 32 Install JP18 to put the part in Isolate mode 33 34 35 36 37 ANALOG DEVICES 38 39 R69 0 0805 40 Size SHGND Board No. C Date B C 20 Cotton Road Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD ETHERNET PHY Title A R384 2.21K 0603 2 Rev A0217-2008 1.0 Sheet 5-13-2009_15:06 D 8 of 15 A B C D 3.3V All USB interface circuitry is considered proprietary and has 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 "ENCODER ENABL" http://www.analog.com R140 511.0 0402 "ENCODER" 1 R141 511.0 0402 R142 511.0 0402 1 3.3V 7 5 3 6 4 5 ON COMMON 2 4 SD_CD 4 SW2 6 3 SW1 SW19 1 2 B 1 1 A 8 CUD/SD_CD "JTAG" CDG/ADC_A1/LED2 CZM/ADC_A2/LED3 R144 10K 0402 DIP4 SWT018 2 R145 10K 0402 ROTARY_ENC_EDGE SWT025 TP1 3.3V 3.3V "UART 0" C116 0.1UF 0402 U21 R270 10K 0402 C117 0.1UF 0402 1 C1+ J2 P1 1 2 3 4 5 6 TMS 7 8 TCK 9 10 TRST PS_5V 3.3V DA_PWR VDD_EXT_DSP EMU 11 12 TDI 13 14 TDO RESET RESET DA_SOFT_RESET DA_SOFT_RESET GND SW14 DA_STANDALONE IDC7X2_SMTA 3 C1- 2 2 4 C2+ 6 6 V- 5 2 C2- 7 SW10 11 2 7 10 3 6 12 4 5 1 UART0_TX 8 2 MIICRS/HWAIT 3 UART0_RX ON 1 R143 10K 0402 1 V+ C115 0.1UF 0402 T1IN T2IN R1OUT TP12 4 9 14 T1OUT 7 8 T2OUT 13 4 R1IN 8 9 R2OUT R2IN ADM3202ARNZ SOIC16 DIP4 SWT018 2 3 3.3V 5 CON038 C118 0.1UF 0402 "UART0 SETUP" (UART 0) R203 10K 0402 R149 22 0402 R357 10K 0402 3.3V MMC_D0 DR0PRI/SD_D0 R146 22 0402 R148 22 0402 MMC_D3 TFS0/SD_D3 3 U16 ON 2 3 W6 1 2 15 3 14 4 13 5 12 6 11 7 10 8 9 2 MMC_D1 3 MMC_D2 4 MMC_D3 6 PB1/DR1PRI/MMC_D4 5 R241 22 0402 7 PB2/RFS1/MMC_D5 8 R242 22 0402 16 2GB eMMC CMD H3 D0 H4 D1 H5 D2 J2 D3 J3 D4 J4 D5 J5 D6 J6 D7 DIP8 SWT016 MTFC2GDKDM FBGA169 C154 0.01UF 0402 CLK CMD CD WP CON051 R151 22 0402 W5 ON 1 MMC_D0 10 DAT3 11 CLK DIP2 SWT020 SW20 2 MMC_CLK TSCLK0/SD_CLK 3 MMC_CMD DT0PRI/SD_CMD SD_CD "SD CARD" M7 P5VSS1 R10VSS2 U8VSS3 K4VSS4 Y2VSSQ1 Y5VSSQ2 AA4VSSQ3 AA6VSSQ4 K2VSSQ5 VDDI 1 2 MMC_CMD 4 M6 VCC1N5 VCC2T10 VCC3U9 VCC4K6 VCCQ1W4 VCCQ2Y4 VCCQ3AA3 VCCQ4AA5 VCCQ5 SW21 1 R150 22 0402 5 DAT2 3 6 "eMMC ENABL" 1 DAT1 GND3 GND4 GND5 GND6 9 DAT0 12 13 14 15 MMC_D2 RFS0/SD_D2 MMC_CLK 8 GND1 GND2 3.3V 7 VDD J13 R147 22 0402 4 MMC_D1 RSCLK0/SD_D1 3.3V R243 22 0402 C188 0.1UF 0402 RSCLK1/MMC_D6 R244 22 0402 4 C179 0.01UF 0402 ADC_A0/LED1/MMC_D7/OTP_EN C180 0.01UF 0402 C181 0.01UF 0402 C182 0.01UF 0402 C183 0.01UF 0402 C184 0.01UF 0402 C186 0.01UF 0402 C185 0.01UF 0402 ANALOG DEVICES C187 0.01UF 0402 20 Cotton Road Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD ROTARY ENCODER, JTAG, RS232, EMMC, SD Title Size Board No. C Date A B C Rev A0217-2008 1.0 Sheet 5-13-2009_16:18 D 9 of 16 A B C D LOGIC ANALYZER COMPRESSION LAND GRID ARRAY 1 A[1:19] 1 P5 A1 A1 A2 A2 D0 A3 D1 A3 A4 A4 A5 GND0 D2 D3 D7 D8 A6 A11 GND2 A10 D10 D11 A12 GND3 A7 A13 A8 A14 D14 D15 A15 GND4 A9 A16 A10 A17 D18 D19 A18 GND5 A11 A19 A12 A20 D22 D23 A21 GND6 A13 A22 A14 A23 D24 D25 A24 GND7 A15 A25 A16 A26 D28 D29 A27 GND8 DMAX_ALT DNP ARE B7 CLK1- CLKBUF B8 AMS2 B9 D9 GND12 D12 D13 GND13 D16 D17 GND14 D20 D21 GND15 CLK2CLK2+ GND16 D26 D27 GND17 D30 D31 D3 AMS3/SPI0_SEL2 B6 GND11 A5 D2 B5 CLK1+ A9 AMS1 B4 D6 A8 D1 AMS0 B3 GND10 GND1 D0 D[0:15] B2 D5 A7 2 B1 GND9 D4 A6 CLKOUT P6 ABE1#/SDQM1 B10 D4 B11 D5 SCAS B12 SCKE B13 D6 B14 D7 ABE0#/SDQM0 B15 SMS B16 D8 B17 D9 SWE B18 SRAS B19 D10 B20 D11 B21 AWE B22 D12 B23 D13 B24 SA10 A17 B25 D14 B26 A19 B27 A18 D15 A1 D0 A2 D1 A3 GND0 A4 D4 A5 D5 A6 GND1 A7 CLK1+ A8 CLK1A9 GND2 A10 D10 A11 D11 A12 GND3 A13 D14 A14 D15 A15 GND4 A16 D18 A17 D19 A18 GND5 A19 D22 A20 D23 A21 GND6 A22 D24 A23 D25 A24 GND7 A25 D28 A26 D29 A27 GND8 DMAX_ALT DNP P7 B1 GND9 B2 D2 B3 D3 B4 GND10 B5 D6 B6 D7 B7 GND11 B8 D8 B9 D9 B10 GND12 B11 D12 B12 D13 B13 GND13 B14 D16 B15 D17 B16 GND14 B17 D20 B18 D21 B19 GND15 B20 CLK2B21 CLK2+ B22 GND16 B23 D26 B24 D27 B25 GND17 B26 D30 B27 D31 MDC ETXD0 MDIO ETXD1 SPI0_SSEL1 ETXD2 CUD/SD_CD ETXD3 SPI0_SCK ERXD0 ERXD1 SPI0_MISO ERXD2 SPI0_MOSI ERXD3 CDG/ADC_A1/LED2 ETXEN CZM/ADC_A2/LED3 ERXDV SCL ERXER SDA PB1/DR1PRI/MMC_D4 PB2/RFS1/MMC_D5 ERXCLK RSCLK1/MMC_D6 MIITXCLK ADC_A0/LED1/MMC_D7/OTP_EN MIICRS/HWAIT DR1SEC RMII_PHYINT RESET COL A1 D0 A2 D1 A3 GND0 A4 D4 A5 D5 A6 GND1 A7 CLK1+ A8 CLK1A9 GND2 A10 D10 A11 D11 A12 GND3 A13 D14 A14 D15 A15 GND4 A16 D18 A17 D19 A18 GND5 A19 D22 A20 D23 A21 GND6 A22 D24 A23 D25 A24 GND7 A25 D28 A26 D29 A27 GND8 DMAX_ALT DNP B1 GND9 B2 D2 DR0PRI/SD_D0 B3 D3 RSCLK0/SD_D1 B4 GND10 B5 D6 RFS0/SD_D2 B6 D7 TFS0/SD_D3 B7 GND11 B8 D8 DT0PRI/SD_CMD B9 D9 TSCLK0/SD_CLK B10 GND12 B11 D12 UART0_TX B12 D13 UART0_RX B13 GND13 B14 D16 B15 D17 B16 GND14 B17 D20 B18 D21 B19 2 GND15 B20 CLK2- B21 CLK2+ B22 GND16 B23 D26 B24 D27 B25 GND17 B26 D30 B27 D31 3 3 ANALOG DEVICES 4 Board No. C Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD LOGIC ANALYZER CONN Title Size 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 10 of 16 A B C D 3.3V 3.3V R164 10K 0402 "PB1" R165 100 0805 R166 10 0603 U6 1 1 SW12 MOMENTARY SWT024 2 R162 10K 0402 74LVC14A SOIC14 C123 1UF 0805 R161 10K 0402 1 R163 10K 0402 U10 2 1A1 4 1A2 6 1A3 8 1A4 18 1Y1 16 1Y2 14 1Y3 12 1Y4 11 2A1 13 2A2 15 2A3 17 2A4 9 2Y1 7 2Y2 5 2Y3 3 2Y4 ADC_A0/LED1/MMC_D7/OTP_EN CDG/ADC_A1/LED2 CZM/ADC_A2/LED3 "PB ENABLE" R168 10K 0402 "PB2" SW13 MOMENTARY SWT024 4 2 2 3 SW2 1 ON R169 10 0603 U6 1 R167 100 0805 4 PB1/DR1PRI/MMC_D4 3 PB2/RFS1/MMC_D5 LED3 YELLOW LED001 R159 330 0603 1 OE1 19 OE2 DIP2 SWT020 74LVC14A SOIC14 3.3V C124 1UF 0805 LED2 YELLOW LED001 R158 330 0603 LED1 YELLOW LED001 R160 330 0603 LED13 GREEN LED001 "POWER" R157 330 0603 IDT74FCT3244APY SSOP20 3.3V 2 2 SW2: GPIO enable POS. FROM TO DEFAULT FUNCTIONS 1 push button 1 DSP (U12, PH0) ON ON (PB1), OFF eMMC, ADC, Expansion Interface) 2 push button 2 DSP (U12, PH1) ON ON ( PB2), OFF eMMC, ADC, Expansion Interface) C122 0.01UF 0402 3.3V "RESET" 3 LED9 RED LED001 3 3.3V R268 10K 0402 R154 10K 0402 R156 10K 0402 R155 10K 0402 R153 330 0603 U22 R152 10K 0402 1 MR 4 PFI U6 5 3.3V DA_SOFT_RESET 6 1 4 74LVC14A SOIC14 SW11 MOMENTARY SWT024 8 74LVC14A SOIC14 C119 0.01UF 0402 U6 11 SN74LVC1G08 SOT23-5 3.3V 10 RESET ADM708SARZ SOIC8 2 U6 9 U26 8 RESET 7 RESET 5 PFO 3.3V "RESET" 74LVC14A SOIC14 U6 13 12 C121 0.01UF 0402 74LVC14A SOIC14 4 ANALOG DEVICES C120 0.01UF 0402 Title Size A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD RESET, LEDS, PUSH BUTTONS Board No. C Date 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-13-2009_16:18 D 11 of 16 A B C PS_5V D[0:15] 1 A[1:19] J1 A1 2 A3 4 A5 A7 A9 A11 A13 A15 A17 A19 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 AWE 36 38 AMS1 2 40 AMS3/SPI0_SEL2 42 ABE1#/SDQM1 44 46 48 50 CLKOUT 52 PB1/DR1PRI/MMC_D4 54 CDG/ADC_A1/LED2 D1 56 D3 58 D5 60 D7 62 D9 64 D11 66 D13 68 D15 70 72 74 76 78 80 3 82 84 3.3V PS_5V 86 88 90 92 94 96 98 100 102 104 ADDR1 ADDR0 ADDR3 ADDR2 ADDR5 ADDR4 ADDR7 ADDR6 ADDR9 ADDR8 ADDR11 ADDR10 ADDR13 ADDR12 ADDR15 ADDR14 ADDR17 ADDR16 ADDR19 ADDR18 ADDR21 ADDR20 ADDR23 ADDR22 ADDR25 ADDR24 ADDR27 ADDR26 ADDR29 ADDR28 ADDR31 ADDR30 AWE AOE ARDY ARE AMS1 AMS0 AMS3 AMS2 ABE1 ABE0 ABE3 ABE2 BR BGH NMI BG CLKOUT RESET GPIO1 GPIO2 GPIO3 GPIO4 DATA1 DATA0 DATA3 DATA2 DATA5 DATA4 DATA7 DATA6 DATA9 DATA8 DATA11 DATA10 DATA13 DATA12 DATA15 DATA14 DATA17 DATA16 DATA19 DATA18 DATA21 DATA20 DATA23 DATA22 DATA25 DATA24 DATA27 DATA26 DATA29 DATA28 DATA31 DATA30 RSVD1 RSVD2 RSVD3 RSVD4 RSVD5 RSVD6 RSVD7 RSVD8 PWR_IN1 GND1 PWR_IN2 GND2 VDDIO1 GND3 VDDIO2 GND4 3.3V1 QMS52X2_SMT 3.3V2 1 3 5 7 9 11 13 15 17 19 TFS0/SD_D3 A2 A4 AMS3/SPI0_SEL2 A6 ERXD2 A8 ERXD3 A10 ERXDV SPI0_SSEL1 A12 A14 MDIO A16 ERXD0 ERXD1 A18 RMII_PHYINT 21 23 25 TSCLK0/SD_CLK 27 RESET 29 31 33 35 ARE 37 AMS0 39 AMS2 41 ABE0#/SDQM0 43 45 NMI 47 49 RESET SDA 51 PB2/RFS1/MMC_D5 SCL 53 55 ADC_A0/LED1/MMC_D7/OTP_EN D0 57 D2 59 D4 61 D6 63 D8 P3 1 GND1 3 GND2 5 GND3 7 GND4 9 GND5 11 GND6 13 PPI0FS1 15 PPI0FS3 17 PPI0D1 19 PPI0D3 21 PPI0D5 23 PPI0D7 25 PPI0D9 27 PPI0D11 29 PPI0D13 31 PPI0D15 33 PPI0D17 35 TIMER2/GPIO 37 RESET 39 PPI1FS1 41 PPI1FS3 43 PPI1D1/PPI0D19 45 PPI1D3/PPI0D21 47 PPI1D5/PPI0D23 49 PPI1D7 51 PPI1D9 53 PPI1D11 55 PPI1D13 57 PPI1D15 59 PPI1D17 61 SDA 63 SCL 65 RSVD2 67 RSVD4 69 RSVD6 IDC35X2_SMTA PWR_IN1 PWR_IN2 VDDIO1 VDDIO2 3.3V1 3.3V2 PPI0FS2 PPI0CLK PPI0D0 PPI0D2 PPI0D4 PPI0D6 PPI0D8 PPI0D10 PPI0D12 PPI0D14 PPI0D16 TIMER1/GPIO TIMER3/GPIO PPI1FS2 PPI1CLK PP1D0/PPI0D18 PPI1D2/PPI0D20 PPI1D4/PPI0D22 PPI1D6 PPI1D8 PPI1D10 PPI1D12 PPI1D14 PPI1D16 NC RSVD1 RSVD3 RSVD5 RSVD7 D 3.3V PS_5V P2 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 IDC25X2_SMTA 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 DT0PRI/SD_CMD DT0PRI/SD_CMD RFS0/SD_D2 UART0_TX ETXD2 TSCLK0/SD_CLK ETXD3 TFS0/SD_D3 ERXCLK CZM/ADC_A2/LED3 COL AMS2 MDC ADC_A0/LED1/MMC_D7/OTP_EN ETXD0 PB2/RFS1/MMC_D5 ETXD1 SCL ETXEN UART0_TX 34 36 38 RSCLK0/SD_D1 RESET UART0_TX PB1/DR1PRI/MMC_D4 40 CDG/ADC_A1/LED2 42 WAKE 44 46 48 50 52 67 D12 69 D14 4 6 8 10 14 UART0_RX 18 RSCLK0/SD_D1 20 RFS0/SD_D2 22 MIICRS/HWAIT 24 RSCLK1/MMC_D6 26 PB1/DR1PRI/MMC_D4 28 DR1SEC 30 SDA 32 UART0_RX 34 36 38 PB2/RFS1/MMC_D5 40 ADC_A0/LED1/MMC_D7/OTP_EN 42 44 46 48 50 2 58 3.3V PS_5V 60 62 64 66 P4 68 1 70 3 5 11 ADC_A0/LED1/MMC_D7/OTP_EN CZM/ADC_A2/LED3 71 CDG/ADC_A1/LED2 73 75 CUD/SD_CD 77 SPI0_SSEL1 79 CUD/SD_CD 81 SPI0_MOSI 83 SPI0_MISO 85 SCL 87 CZM/ADC_A2/LED3 13 15 17 19 21 23 25 27 29 31 33 89 91 RESET 93 PB1/DR1PRI/MMC_D4 95 CDG/ADC_A1/LED2 97 WAKE 35 37 39 41 43 99 45 101 47 103 49 4 GND1 PWR_IN1 GND2 PWR_IN2 GND3 VDDIO1 GND4 VDDIO2 GND5 3.3V1 GND6 3.3V2 DTPRI DRPRI DTSEC DRSEC TSCLK TFS SPISEL1 RSCLK RFS SPISEL2 SPISEL3 SPICLK SPIMOSI SPISS SPIMISO SCL UARTTX TIMER SDA UARTRX UARTRTSUARTCTS RESET NC GPIO1 GPIO2 GPIO3 GPIO4 WAKE RSVD1 RSVD2 RSVD3 RSVD4 RSVD5 RSVD6 RSVD7 RSVD8 RSVD9 IDC25X2_SMTA 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 Size Board No. C Date C PB1/DR1PRI/MMC_D4 DR1SEC RSCLK1/MMC_D6 PB2/RFS1/MMC_D5 AMS3/SPI0_SEL2 SPI0_SCK 3 AMS2 DR1SEC SDA DR1SEC 34 36 38 40 PB2/RFS1/MMC_D5 ADC_A0/LED1/MMC_D7/OTP_EN 42 44 46 48 50 20 Cotton Road Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD EXPANSION INTERFACE Title B DR0PRI/SD_D0 16 ANALOG DEVICES A 1 12 56 9 D10 2 54 7 65 3.3V Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 12 of 16 A B C D VDDOTP TP3 VPPOTP TP2 3.3V R182 2.0K 0603 1 C136 0.1UF 0603 L2 1UH IND019 D2 MBR130LSFT1G 1A SOD-123FL PS_5V SJ4 SHORTING JUMPER DEFAULT=NOT INSTALLED L1 22UH IND018 "OTP FLAG ENBL" V- V+ 1 TRIM 3 ADR550B SOT23-3 R180 1.91K 0603 1 2 1 IDC2X1 6 IN C129 2.2UF 0805 FB 3 R179 21.5K 0603 DNP OUT EN GND 4 ADJ ADP1710 TSOT5 SS 4 C126 10UF 1210 D3 MBR130LSFT1G 1A SOD-123FL 8 SD C133 1UF 0603 DNP R183 10.0K 0603 R178 10K 0603 DNP 1 GND C208 1UF 0603 2 5 IN 2 RT C125 10UF 1210 3 5 SW1 7 R173 10K 0402 D4 MBR130LSFT1G 1A SOD-123FL C127 10UF 1210 VR2 R352 21.5K 0603 VR3 JP14 ADC_A0/LED1/MMC_D7/OTP_EN 1 R181 140.0K 0603 U11 2 D5 MBR130LSFT1G 1A SOD-123FL COMP R176 24.0K 0603 ADP1610 MSOP8 C209 1UF 0603 DNP C131 22000PF 0402 R351 0 0603 DNP D11 ESD5Z2.5T1 SOD-523 R184 3.01K 0603 D16 SK12 DO-214AA R177 10K 0603 DNP C132 2.2UF 0805 C135 10UF 1210 C130 2200PF 0603 2 2 L6 1UH IND019 -12V 1 2 L8 22UH IND024 3 D9 MBR130LSFT1G C201 10UF 1210 C200 10UF 1210 4 SOD-123FL PS_5V C206 2.2UF 0805 1 2 L9 22UH IND024 3 3 C205 10UF 1210 R350 100K 0402 R349 10 0603 4 3 C204 2.2UF 0805 SOD-123FL L7 1UH IND019 +12V C207 1000PF 0603 R345 0 0603 DNP R346 0 0603 D10 MBR130LSFT1G R348 44.2K 0603 VR6 6 IN C199 1UF 0603 C210 1UF 0603 DNP FB 3 SD SS ADP1611 MSOP8 C202 10UF 1210 5 SW1 7 RT 4 GND C203 10UF 1210 2 8 1 COMP R344 20.0K 0402 C197 22000PF 0402 R347 4.99K 0603 C198 3300PF 0603 ANALOG DEVICES 4 Board No. C Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD OTP AND DUAL POWER Title Size 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 13 of 16 A B F1 3A FUS004 FER17 190 FER002 4 3 1 2 C PS_5V J3 1 C148 1000PF 1206 3 C149 10UF 1210 D8 MBRS540T3G 5A SMC 2 D R267 0 0402 D14 GSOT05 SOT23-3 WAKE POWER CON045 1 "5V" 3.3V R185 4.3 1206 FER15 600 1206 C147 1000PF 1206 1 1.1 - 1.4V @ 500mA R188 4.3 1206 R190 0.05 1206 FER16 600 1206 VDDINT R186 1.2K 0402 SHGND R246 10K 0402 DNP U7 1 W SHGND SDA SCL VR5 2 IDC2X1 TP4 1 EN 5 GND1 2 IN GND2 "VDDINT" 9 B 3 AD1 8 VCC 4 SDA 7 5 SCL AD5258 MSOP10 P8 1 10 A 2 AD0 C141 4.7UF 0603 GND R189 1.0K 0402 C139 0.01UF 0402 6 3 OUT GND3 4 ADJ GND4 D13 VESD01-02V-GS08 SOD-523 7 D17 SK12 DO-214AA 8 6 VLOGIC C140 0.1UF 0402 C137 4.7UF 0603 R187 2.67K 0402 C138 4.7UF 0603 ADP1715 MSOP8 R245 10K 0402 2 2 SJ5 SHORTING JUMPER DEFAULT=INSTALLED Remove P8 when measuring VDDINT PS_5V C146 10UF 1210 1.8V @ 500mA Remove P9 when measuring VDDEXT C142 10UF 0805 DNP SJ6 3 "VDDFLASH" SHORTING JUMPER DEFAULT=INSTALLLED 3.3V @ 2A VDDFLASH P11 1 3.3V TP8 IDC2X1 "VDDEXT" PGND VDDEXT TP5 R196 0.05 1206 VR1 TP6 5 P9 1 U8 COMP C143 470PF 0603 C144 68PF 0603 3 FB PGATE GND 2 R193 80.6K 0603 1 EN 2 IN 4 SS 2 IDC2X1 CS 4 6 ADP1864AUJZ SOT23-6 1 R195 0 0603 R204 0.05 1206 VR4 R194 0.05 1206 IN 1 3.3V 5 2 6 3 7 4 8 L3 2.5UH IND013 D7 MBRS540T3G SI4411DY SO-8 SMC R191 0.05 1206 CT6 220UF D2E CT5 2.2UF B DNP C145 4.7UF 0805 D15 GSOT03 C151 2.2UF 0805 3 OUT 5 6GND1 7GND2 8GND3 GND4 R192 24.9K 0603 3 TP11 2 C152 0.1UF 0402 C150 2.2UF 0805 D12 ESD5Z2.5T1 SOD-523 D18 SK12 DO-214AA VDDMEM SOT23-3 R198 0.05 1206 R197 255.0K 0603 TP7 SJ8 SHORTING JUMPER DEFAULT=INSTALLLED PGND P10 1 Remove P11 when measuring VDDFLASH 2 PGND IDC2X1 W2 COPPER 4 4A ANALOG DEVICES "VDDMEM" SJ7 SHORTING JUMPER DEFAULT=INSTALLLED PGND Remove P10 when measuring VDDMEM Board No. C Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD POWER Title Size 20 Cotton Road Rev A0217-2008 1.0 Sheet 5-13-2009_16:19 D 14 of 15 A B RN1 1 D2 1 D3 2 D1 3 D0 4 D0 1 D1 2 D2 3 D3 4 R1A RN5 R1B R2A R2B R3A R3B R4A C R4B 8 D2_Z A5_Z 1 7 D3_Z A6_Z 2 6 D1_Z A8_Z 3 5 D0_Z A7_Z 4 R1A R2A R3A R4A D RN9 R1B R2B R3B R4B 8 A5 7 A6 6 A8 5 A7 PB1/DR1PRI/MMC_D4_Z PB2/RFS1/MMC_D5_Z RSCLK1/MMC_D6_Z ADC_A0/LED1/MMC_D7/OTP_EN_Z 1 R1A 2 R2A 3 R3A 4 R4A RN13 R1B R2B R3B R4B 8 7 6 5 A19_Z PB1/DR1PRI/MMC_D4 A18_Z PB2/RFS1/MMC_D5 A17_Z RSCLK1/MMC_D6 A16_Z ADC_A0/LED1/MMC_D7/OTP_EN 1 R1A 2 R2A 3 R3A 4 R4A RN17 R1B R2B R3B R4B 8 A19 7 A18 6 A17 5 A16 1 R1A 2 R2A 3 R3A 4 R4A SPI0_MOSI_Z SPI0_MISO_Z SPI0_SCK_Z AMS2_Z 22 RNS005 33 RNS005 33 RNS005 33 RNS005 33 RNS005 RN2 RN6 RN10 RN14 RN18 R1A R1B R2A R2B R3A R3B R4A R4B 8 D0_ZZ A1_Z 1 7 D1_ZZ A2_Z 2 6 D2_ZZ A3_Z 3 5 D3_ZZ A4_Z 4 R1A R2A R3A R4A 22 RNS005 R1B R2B R3B R4B 8 A1 7 A2 6 A3 5 A4 AMS0_Z AWE_Z ARE_Z AMS1_Z 33 RNS005 1 R1A 2 R2A 3 R3A 4 R4A R1B R2B R3B R4B 8 7 6 5 D7 AMS0 D6 AWE D5 ARE D4 AMS1 33 RNS005 1 R1A 2 R2A 3 R3A 4 R4A R1B R2B R3B R4B 8 D7_Z 7 D6_Z 6 D5_Z 5 D4_Z 1 R1A 2 R2A 3 R3A 4 R4A UART0_RX_Z UART0_TX_Z TSCLK0/SD_CLK_Z DT0PRI/SD_CMD_Z 22 RNS005 R1B R2B R3B R4B R1B R2B R3B R4B 8 SPI0_MOSI 7 1 SPI0_MISO 6 SPI0_SCK 5 AMS2 8 UART0_RX 7 UART0_TX 6 TSCLK0/SD_CLK 5 DT0PRI/SD_CMD 33 RNS005 2 2 RN3 3 D7_ZZ 1 D6_ZZ 2 D5_ZZ 3 D4_ZZ 4 A9_Z 1 A10_Z 2 A11_Z 3 A12_Z 4 R1A RN7 R1B R2A R2B R3A R3B R4A R4B 8 D7 7 D6 6 D5 5 D4 TFS0/SD_D3_Z RFS0/SD_D2_Z RSCLK0/SD_D1_Z DR0PRI/SD_D0_Z 1 R1A 2 R2A 3 R3A 4 R4A RN11 R1B R2B R3B R4B 8 7 6 5 TFS0/SD_D3 SCKE_Z RFS0/SD_D2 SMS_Z RSCLK0/SD_D1 SCAS_Z DR0PRI/SD_D0 SRAS_Z 1 R1A 2 R2A 3 R3A 4 R4A RN15 R1B R2B R3B R4B 8 7 6 5 D11 SCKE D10 SMS D9 SCAS D8 SRAS 1 R1A 2 R2A 3 R3A 4 R4A RN19 R1B R2B R3B R4B 8 D11_Z A15_Z 7 D10_Z A14_Z 6 D9_Z A13_Z 5 D8_Z 1 R1A 2 R2A 3 R3A 4 R4A 22 RNS005 33 RNS005 33 RNS005 22 RNS005 33 RNS005 RN4 RN8 RN12 RN16 RN20 R1A R1B R2A R2B R3A R3B R4A R4B 8 A9 7 A10 6 A11 5 A12 CUD/SD_CD_Z CDG/ADC_A1/LED2_Z CZM/ADC_A2/LED3_Z DR1SEC_Z 33 RNS005 1 R1A 2 R2A 3 R3A 4 R4A R1B R2B R3B R4B 8 7 6 5 CUD/SD_CD SWE_Z CDG/ADC_A1/LED2 SA10_Z CZM/ADC_A2/LED3 ABE0#/SDQM0_Z DR1SEC ABE1#/SDQM1_Z 33 RNS005 1 R1A 2 R2A 3 R3A 4 R4A R1B R2B R3B R4B 8 7 6 5 D15 SWE D14 SA10 D13 ABE0#/SDQM0 D12 ABE1#/SDQM1 33 RNS005 1 R1A 2 R2A 3 R3A 4 R4A R1B R2B R3B R4B 8 D15_Z D11_ZZ 7 D14_Z D10_ZZ 6 D13_Z D9_ZZ 5 D12_Z D8_ZZ 22 RNS005 1 R1A 2 R2A 3 R3A 4 R4A R1B R2B R3B R4B R1B R2B R3B R4B 8 A15 7 A14 6 A13 5 8 D11 7 D10 6 D9 5 D8 3 22 RNS005 RN21 D15_ZZ D14_ZZ D13_ZZ D12_ZZ MH1 MH2 MH3 MH4 MH5 MH6 MH7 MH8 MH9 4 MH10 MH11 R1B R2B R3B R4B 8 D15 7 D14 6 D13 5 D12 22 RNS005 ANALOG DEVICES MH12 Size Board No. C Date B C 20 Cotton Road Nashua, NH 03063 4 PH: 1-800-ANALOGD ADSP-BF518F EZ-BOARD SERIES TERMINATORS Title A 1 R1A 2 R2A 3 R3A 4 R4A Rev A0217-2008 1.0 Sheet 5-11-2009_10:44 D 15 of 15 I INDEX Numerics 2-wire interface (TWI), 2-3 A AD5258 digipot, 2-2 ADC7266 (U2), 2-10 ADC_A0-2 signals, 1-25 ADM3202 line driver/receiver (U21), 1-23 ADP1715 low dropout regulator (LDO), 2-2 AMS0-3 select lines, 1-16, 2-9, 2-16 analog audio interface, See audio analog-to-digital converter (ADC), 1-17, 1-21, 1-22, 2-13 architecture, of this EZ-Board, 2-2 ASYNC (asynchronous memory control) external memory banks 0-3, 1-14 audio interface, 1-21 codec (U31), 1-19, 1-21, 2-10 dual connectors (J4-5), 1-22, 2-22 SPORT0 enable (SW15), 1-19, 1-21, 1-22, 2-12 test switches (SW22-23), 1-23, 2-13 B battery holder connector (J12), 2-22 supply, 1-24 bill of materials, A-1 board design database, 1-28 board schematic (ADSP-BF518F), B-1 boot modes, 2-8 mode select switch (SW1), 1-16, 1-19 C CDG signal, 1-25 audio codec, See audio code security, 1-13 configuration, of this EZ-Board, 1-3 connectors diagram of locations, 2-20 J12 (battery holder), 2-22 J13 (SD), 2-22 J14 (Ethernet), 1-21, 2-22 J15 (MII), 2-23 J1 (expansion interface II), 1-25, 2-21, 2-22 J2 (RS-232), 2-21 J3 (power), 1-9, 2-21 J4-5 (dual audio), 1-22, 2-22 P1 (JTAG), 1-9, 1-25, 2-23 P2 (expansion interface II), 1-25, 2-24 P3 (expansion interface II), 1-19, 2-24 P4 (expansion interface II), 1-25, 2-24 P5-7 (DMAX land grid array), 1-26, 2-25 ZP1 (debug agent), 2-25 contents, of this EZ-Board package, 1-3 core voltage, 2-2 ADSP-BF518F EZ-Board Evaluation System Manual I-1 Index F CUD (up) signal, 1-20, 2-6 CZM signal, 1-25 D Das U-Boot, universal boot loader, 1-18 debug agent connector (ZP1), 2-25 default configuration, of this EZ-Board, 1-3 down signal (CDG), 1-20 DR1PRI signal, 1-25 E eMMC interface, 1-16 enable switches (SW20-21), 1-17, 1-19, 2-13 Ethernet interface, xiv, 1-20 connector (J14), 1-21, 2-22 isolate mode jumper (JP18), 1-20, 2-16 PHY IC (U29), 1-17 power-down mode jumper (JP17), 1-20, 2-16 reset push button (SW11), 2-11 evaluation license CCES, 1-11 example programs, 1-28 expansion interface II J1 connector, 1-25, 1-26, 2-21, 2-22 P2 connector, 1-23, 1-25, 1-26, 2-24 P3 connector, 1-19, 1-26, 2-24 P4 connector, 1-23, 1-25, 1-26, 2-24 external memory, 1-13, 1-14 I-2 features, of this EZ-Board, xiii flag pins, See programmable flags by name (PFx, PGs, PHx) flash memory enable switch (SW6), 2-9 flash WP jumper (JP3), 2-15 G general-purpose IO pins (GPIO), 1-24, 2-9, 2-11, 2-12, 2-13, 2-19 general-purpose push buttons (PB1-2), 1-25 GPIO enable switch, See SW2 I installation, of this EZ-Board, 1-4, 1-9 CCES, 1-5 IO voltage, 2-2 J JTAG interface, 1-25 connector (P1), 1-9, 1-25, 2-23 jumpers diagram of locations, 2-14 JP14 (OTP flag enable), 2-15 JP15 (mic select), 1-22, 2-16 JP16 (SPI flash CS enable), 1-19, 2-16 JP17 Ethernet power-down mode, 1-20, 2-16 JP18 Ethernet isolate mode, 1-20, 2-16 JP3 (flash WP), 2-15 JP6 (mic select), 1-22 P10 (VDDMEM power), 1-27, 2-17 P11 (VDDFLASH power), 1-27, 2-17 P8 (VDDINT power), 1-27, 2-16 P9 (VDDEXT power), 1-27, 2-17 ADSP-BF518F EZ-Board Evaluation System Manual Index L P land grid array connectors (P5-7), 1-26, 2-25 LEDs diagram of locations, 2-18 LED1-3 (PH3, PH5-6), 1-24, 2-19 LED13 (power), 2-19 LED4 (USB monitor), 1-9 LED9 (reset), 2-19 license restrictions, 1-12 Lockbox secure technology, 1-13 package contents, 1-3 parallel flash memory, xiii, 1-16 See also NAND, flash memory parallel peripheral interface (PPI), See PPI interface PF0-7 programmable flags, 2-3 PF8 programmable flag, 2-3 PF9-15 programmable flags, 2-3 PG0-10 programmable flags, 2-5 PG11 programmable flag, 2-5 PG12 programmable flag, 2-5 PG13-15 programmable flags, 2-5 PH0-1 programmable flags, 1-25, 2-6, 2-12 PH2 programmable flag, 2-6 PH3 programmable flag, 1-24, 2-6, 2-15, 2-19 PH4 programmable flag, 2-6 PH5-6 programmable flags, 1-24, 2-6, 2-19 PH7 programmable flag, 2-6 POST (power-on-self test) program, 1-16, 1-23, 1-28, 2-11 power 5V wall adaptor (P14), 1-3 connector (J3), 1-9, 2-21 LED (LED13), 2-19 measurements, 1-27 PPI interface connections, 1-19 expansion interface II connector (P3), 1-19, 2-24 product overview, xiii programmable flag inputs PH0 -1, 1-25 M MAC address, 1-21 media independent interface (MII), 1-20 Media Instruction Set Computing (MISC), xi memory map, of this EZ-Board, 1-13 MICBIAS signal, 2-16 MICIN signal, 2-16 microphone gain switch (SW5), 2-10 headphone select (SW6), 1-22 select jumper (JP15), 1-22, 2-16 Micro Signal Architecture (MSA), xi MII connector (J15), 2-23 MMC_Dx signals, 1-25 N notation conventions, xxi O oscilloscope, 1-27 OTP_EN signal, 1-25 OTP flag enable jumper (JP14), 2-15 ADSP-BF518F EZ-Board Evaluation System Manual I-3 Index R real-time clock (RTC), 1-24, 2-3 Reduced Instruction Set Computing (RISC), xi removable secure interface (RSI), 1-16 reset LED (LED9), 2-19 push button (SW11), 2-11 RFS1 signal, 1-25 rotary encoder interface, 1-19 enable switch (SW19), 1-19, 2-13 with momentary switch (SW14), 2-12 RS-232 connector (J2), 2-21 RTC pin, 1-24 S schematic, of ADSP-BF518F EZ-Board, B-1 SD connector (J13), 2-22 SDRAM interface, 1-14, 1-15 secure digital (SD) interface, 1-17 serial peripheral interconnect (SPI) ports, See SPI interface SPI0_SSEL2 signal, 2-16 SPI flash CS enable jumper (JP16), 2-16 SPI interface, 1-17 SPISEL2 signal, 1-18 SPISSEL line, 1-18 SPORT0 enable switch (SW15), 1-19, 1-21, 1-22, 2-12 SPORT1 enable switch (SW4), 1-22, 2-10 SRAM memory, 1-13 SSM2602 audio codec (U1), 2-12 standalone debug agent, xii, 1-9, 1-12, 1-15, 1-25 startup, of this EZ-Board CCES, 1-5 SW10 (UART0 setup) switch, 2-11 I-4 SW11 (reset) push button, 2-11 SW12-13 (IO) push buttons, 2-12 SW14 (rotary encoder with momentary) switch, 2-12 SW15 (SPORT0 enable) switch, 1-19, 1-21, 1-22, 2-12 SW19 (encoder enable) switch, 1-20, 2-13 SW1 (boot mode select) switch, 1-16, 1-19, 2-8 SW20-21 (eMMC enable) switches, 1-17, 1-19, 2-13 SW22-23 (test) switches, 1-23, 2-13 SW2 (push button enable) switch, 1-25, 2-9, 2-12 SW3 (flash enable) switch, 2-9 SW4 (SPORT1 enable) switch, 1-22, 2-10 SW5 (mic gain) switch, 1-21, 2-10 SW6 (mic select) switch, 1-22 switches, diagram of locations, 2-7 system architecture, of this EZ-Board, 2-2 T technical support, xvii thumbwheel control, xiv TWI config switch (SW8), 1-21 U UART0 interface expansion interface II connectors (P2), 1-23, 2-24 reset push button (SW11), 2-11 setup switch (SW10), 2-11 UART1 interface enable switch (SW14), 2-11 expansion interface II connectors (P4), 1-23, 2-24 UART1_RX signal, 2-11, 2-16 UART1_TX signal, 2-11, 2-16 U-Boot, universal boot loader, 1-18 ADSP-BF518F EZ-Board Evaluation System Manual Index universal asynchronous receiver transmitter, See UART0, UART1 USB monitor LED (LED4), 1-9 V VDDEXT power jumper (P9), 2-17 voltage domain, 1-27 VDDFLASH power jumper (P11), 2-17 voltage domain, 1-27 VDDINT power jumper (P8), 2-16 voltage domain, 1-27 VDDMEM power jumper (P10), 2-17 voltage domain, 1-27 VisualDSP++ environment, 1-10 voltage planes, 1-27, 2-16, 2-17 W wall adaptor connector (J3), 1-9, 1-25 watchdog timer, 1-24 ADSP-BF518F EZ-Board Evaluation System Manual I-5 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Analog Devices Inc.: ADZS-BF518F-EZBRD ADZS-BF518F-EZLITE