Blackfin® FPGA EZ-Extender® Manual Revision 2.1, July 2012 Part Number 82-000920-01 Analog Devices, Inc. One Technology Way Norwood, Mass. 02062-9106 a Copyright Information © 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-Extender, EZ-KIT Lite, 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 Blackfin FPGA EZ-Extender 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 Blackfin FPGA EZ-Extender has been certified to comply with the essential requirements of the European EMC directive 89/336/EEC (inclusive 93/68/EEC) and, therefore, carries the “CE” mark. The Blackfin FPGA EZ-Extender has been appended to Analog Devices Development Tools Technical Construction File referenced “DSPTOOLS1” dated December 21, 1997 and was awarded CE Certification by an appointed European Competent Body and is on file. The Blackfin FPGA EZ-Extender contains ESD (electrostatic discharge) sensitive devices. Electrostatic charges readily accumulate on the human body and equipment and can discharge without detection. Permanent damage may occur on devices subjected to high-energy discharges. Proper ESD precautions are recommended to avoid performance degradation or loss of functionality. Store unused extender boards in the protective shipping package. CONTENTS PREFACE Product Overview .......................................................................... x Purpose of This Manual ............................................................... xii Intended Audience ....................................................................... xii Manual Contents ......................................................................... xii What’s New in This Manual ........................................................ xiii Technical Support ....................................................................... xiii Supported Products ...................................................................... xiv Product Information ..................................................................... xv Analog Devices Web Site ......................................................... xv EngineerZone .......................................................................... xv Related Documents ...................................................................... xvi FPGA EZ-EXTENDER INTERFACES FPGA EZ-Extender Setup ............................................................. 1-1 FPGA Software and Firmware ....................................................... 1-2 FPGA EZ-Extender Overview ....................................................... 1-3 Blackfin FPGA EZ-Extender Manual v Contents FPGA EZ-EXTENDER HARDWARE REFERENCE System Architecture ...................................................................... 2-2 Programming the FPGA ............................................................... 2-3 FPGA Programming via JTAG ................................................ 2-4 FPGA Programming via Serial ROM ....................................... 2-5 FPGA Programming via Blackfin Application .......................... 2-6 Programming the Serial ROM ....................................................... 2-7 Serial ROM via JTAG Header ................................................. 2-7 Power ........................................................................................... 2-8 Power In Header (P12) ............................................................ 2-9 3.3V Header (P13) .................................................................. 2-9 2.5V Header (P42) ................................................................ 2-10 1.2V Header (P43) ................................................................ 2-10 Jumpers ...................................................................................... 2-11 Serial ROM Boot Jumper (JP1) ............................................. 2-12 Config Done Jumper (JP2) .................................................... 2-12 Config Program Jumper (JP3) ............................................... 2-13 Boot Jumper (JP4) ................................................................ 2-13 FPGA Input Jumpers (JP5) ................................................... 2-14 Push Buttons and LEDs .............................................................. 2-15 Program Push Button (SW1) ................................................. 2-16 PB1 Push Button (SW3) ....................................................... 2-16 PB2 Push Button (SW4) ....................................................... 2-16 Status LEDs (LED1–8) ......................................................... 2-16 vi Blackfin FPGA EZ-Extender Manual Contents Power LED (LED9) ............................................................... 2-17 Done LED (LED10) ............................................................. 2-17 Connectors ................................................................................. 2-17 Expansion Interface (P1–3 and J1–3) ..................................... 2-18 IDC Connectors (P8, P14, P16, and P17) .............................. 2-19 IDC Connectors (P5 and P7) ................................................ 2-20 High-Speed Connector (P4) .................................................. 2-20 FPGA EZ-EXTENDER BILL OF MATERIALS FPGA EZ-EXTENDER SCHEMATIC INDEX Blackfin FPGA EZ-Extender Manual vii Contents viii Blackfin FPGA EZ-Extender Manual PREFACE Thank you for purchasing the Blackfin® Field-Programmable Gate Array (FPGA) EZ-Extender®, Analog Devices, Inc. (ADI) extension board to the EZ-KIT Lite® evaluation system for ADSP-BF533, ADSP-BF537, and ADSP-BF561 Blackfin processors. The Blackfin processors are embedded processors that support a Media Instruction Set Computing (MISC) architecture. This architecture is the natural merging of RISC, media functions, and digital signal processing characteristics towards delivering signal processing performance in a microprocessor-like environment. The EZ-KIT Lite and FPGA EZ-Extender are designed to be used in conjunction with the CrossCore® Embedded Studio (CCES) and VisualDSP++® software development environments. The development environment facilitates advanced application code development and debug, such as: • Create, compile, assemble, and link application programs written in C++, C, and FPGA EZ-Extender 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 To learn more about Analog Devices development software, go to http://www.analog.com/processors/tools. Blackfin FPGA EZ-Extender Manual ix Product Overview Product Overview The Blackfin FPGA EZ-Extender is a separately sold extension board that plugs onto the expansion interface of the ADSP-BF533, ADSP-BF537, or ADSP-BF561 EZ-KIT Lite evaluation system. The extension board aids the design and prototyping phases of ADSP-BF533, ADSP-BF537, or ADSP-BF561 processor targeted applications. Please visit www.analog.com/EX1-FPGA for additional information, including CCES support. The board extends the capabilities of the evaluation system by providing a Xilinx FPGA with external memory, IDC connectors for off-board connections, and a small bread board area. The Blackfin FPGA EZ-Extender features: • Xilinx Spartan III Field-Programmable Gate Array • XC3S1000 • FG456 package • Asynchronous static random access memory (SRAM) • Directly connected to FPGA • 2 MB (512K x 16 bits x 2 chips) • TSOP44 package x Blackfin FPGA EZ-Extender Manual Preface • 25 MHz oscillator • Directly connected to global clock of FPGA • Socket for auxiliary oscillator • Directly connected to global clock of FPGA • IDC thru-hole connectors • Allows quick access to Blackfin and FPGA pins for probing • Allows access to Blackfin and FPGA pins for off-board connections • High-speed connector • Allows access to Blackfin and FPGA pins for high-speed application • Expansion interface connectors • Allows access to ADI’s family of Blackfin EZ-Extenders • Two push buttons • Directly connected to FPGA • One with external debounce circuitry and one without • Eight flag LEDs • Directly connected to FPGA Before using any of the interfaces, follow the setup procedure in “FPGA EZ-Extender Setup” on page 1-1. Example programs are available to demonstrate the capabilities of the Blackfin FPGA EZ-Extender board. Blackfin FPGA EZ-Extender Manual xi Purpose of This Manual Purpose of This Manual The Blackfin FPGA EZ-Extender Manual describes the operation and configuration of the components on the extension board. A schematic and a bill of materials are provided as a reference for future Blackfin processor board designs. Intended Audience This manual is a user’s guide and reference to the Blackfin FPGA EZ-Extender. Programmers who are familiar with the Analog Devices Blackfin processor architecture, operation, and development tools are the primary audience for this manual. The user should also be familiar with basic FPGA development and Xilinx’s Spartan III family of FPGAs. 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, “FPGA EZ-Extender Interfaces” on page 1-1 Provides basic board information. • Chapter 2, “FPGA EZ-Extender Hardware Reference” on page 2-1 Provides information on the hardware aspects of the board. xii Blackfin FPGA EZ-Extender Manual Preface • Appendix A, “FPGA EZ-Extender Bill of Materials” on page A-1 Provides a list of components used to manufacture the EZ-Extender board. • Appendix B, “FPGA EZ-Extender Schematic” on page B-1 Provides the resources to allow EZ-KIT Lite board-level debugging or to use as a reference design. Appendix B is part of the online help. What’s New in This Manual This is revision 2.1 of the Blackfin FPGA EZ-Extender Manual. The manual has been updated to include CCES information. In addition, 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®: http://ez.analog.com/community/dsp • Submit your questions to technical support directly at: http://www.analog.com/support Blackfin FPGA EZ-Extender Manual xiii Supported Products • 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 [email protected] 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: [email protected] or [email protected] (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 Products The Blackfin FPGA EZ-Extender is designed as an extension board to the ADSP-BF533, ADSP-BF537, and ADSP-BF561 EZ-KIT Lite evaluation systems. xiv Blackfin FPGA EZ-Extender Manual Preface Product Information Product information can be obtained from the Analog Devices Web site and the online help. 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. Blackfin FPGA EZ-Extender Manual xv Related Documents 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 Title Description • ADSP-BF531/ADSP-BF532/ADSP-BF533 Blackfin Embedded Processor Data Sheet • ADSP-BF534/ADSP-BF536/ADSP-BF537 Blackfin Embedded Processor Data Sheet • ADSP-BF561 Blackfin Embedded Symmetric Multiprocessor Data Sheet • ADSP-BF533 Blackfin Processor Hardware Reference • ADSP-BF537 Blackfin Processor Hardware Reference • ADSP-BF561 Blackfin Processor Hardware Reference General functional description, pinout, and timing Blackfin Processor Programming Reference Description of all allowed processor assembly instructions Description of the internal processor architecture and all register functions For more information on the Xilinx Spartan III FPGA, refer to the data sheet located at www.xilinx.com. xvi Blackfin FPGA EZ-Extender Manual 1 FPGA EZ-EXTENDER INTERFACES This chapter provides the setup procedures for both the Blackfin Field-Programmable Gate Array (FPGA) EZ-Extender and EZ-KIT Lite (ADSP-BF533, ADSP-BF537 or ADSP-BF561). It also provides an overview of the extender board. The information is presented in the following order. • “FPGA EZ-Extender Setup” on page 1-1 • “FPGA Software and Firmware” on page 1-2 • “FPGA EZ-Extender Overview” on page 1-3 FPGA EZ-Extender Setup It is very important to set up all of the components of the system containing the FPGA EZ-Extender before applying power to that system. The following procedure is recommended. Power your system when these steps are completed: 1. Read the applicable design interface section in this chapter—the text provides an overview of the capabilities of the EZ-Extender. 2. Read “System Architecture” on page 2-2 to understand the physical connections of the extender board. For detailed information, refer to “FPGA EZ-Extender Schematic” on page B-1. Blackfin FPGA EZ-Extender Manual 1-1 FPGA Software and Firmware 3. Remove any rubber feet attached to the EZ-KIT Lite if the feet cover the printed circuit board (PCB) mounting holes. In place of the rubber feet, install the four nylon feet and screws provided with the FPGA EZ-Extender. Install the nylon feet in the mounting holes of the EZ-KIT Lite’s PCB. Flip the EZ-KIT Lite upside down so that the three expansion headers (J1–3) are facing up. 4. Set the switches and jumpers on the FPGA EZ-Extender board. Use the block diagram in Figure 2-1 on page 2-2 in conjunction with “Jumpers” on page 2-11. 5. Set the switches and jumpers on the EZ-KIT Lite board. If not already, familiarize yourself with the documentation and schematics of the EZ-KIT Lite (see “Related Documents”). Compare the expansion interface signals of the FPGA EZ-Extender board with the signals of the EZ-KIT Lite board to ensure there is no contention. For example, it may be necessary to disable other devices connected to the expansion interface of the processor and disable the push buttons on the EZ-KIT Lite. 6. Install the FPGA EZ-Extender on the EZ-KIT Lite via the three-connector expansion interface. Figure 1-1 shows how an FPGA EZ-Extender plugs onto an EZ-KIT Lite. 7. Configure any other interfacing boards, for example, another EZ-Extender. FPGA Software and Firmware For information on the FPGA software, refer to the readme text file located in the Examples folder of the installation directory. 1-2 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Interfaces Figure 1-1. FPGA EZ-Extender Setup FPGA EZ-Extender Overview The Blackfin FPGA EZ-Extender connects a Xilinx® Spartan III Field-Programmable Gate Array (FPGA for short) to the ADSP-BF533, ADSP-BF537, or the ADSP-BF561 EZ-KIT Lite. The FPGA connects to the Blackfin processor via the expansion interface. The extender board, by default, is powered by an external 7V power supply provided with the product. You can also power the FPGA EZ-Extender by the expansion interface of the EZ-KIT Lite or an external power supply. An external supply must be used whenever application code exceeds the recommended core and IO power supported by the FPGA EZ-Extender. For more information on the jumper and connector settings required to power the extender, review “Power” on page 2-8 as well as “FPGA EZ-Extender Schematic” on page B-1. Blackfin FPGA EZ-Extender Manual 1-3 FPGA EZ-Extender Overview The FPGA EZ-Extender contains 2 MB of asynchronous SRAM memory, powered by a 3.3V supply. The SRAM memory connects to banks 6 and 7 of the FPGA and can perform simple data storage instructions in application-specific code. The FPGA EZ-Extender includes a 25 MHz oscillator (U6) connected to the FPGA via the dedicated global clock 1 (GCLK1) pin, facilitating development of applications that require a clock. A second clock socket (U7) is left unpopulated to allow a user to place an oscillator with a specific frequency for the FPGA. The second clock socket connects to the global clock 6 (GCLK6) pin of the FPGA. The extender has eight LEDs (LED1–8) and two push buttons (SW3–4) for applications that require status reporting and user control. The push buttons are active low and when pressed, provide a logic 0 to the respective FPGA nets. For inputs that require a permanent input low, use the jumper inputs on JP4. When a jumper is populated on one of the four nets of JP4, the respective pin is hard wired to a logic 0. For more information about the LEDs, push button switches, and jumper inputs, refer to “FPGA EZ-Extender Hardware Reference” on page 2-1. There are various ways to program the FPGA. By default, the FPGA is programmed in its slave serial mode by the flash programming utility in CCES or VisualDSP++. The program configures the FPGA using the Blackfin processor’s flag pins and/or serial port pins. For more information on how to use the flash programming utility within the development environment, refer to the readme file located in the Examples folder of the installation directory. A second method of programming the FPGA is by using a Xilinx JTAG cable and software. The Xilinx JTAG cable connects to the FPGA JTAG header (P15). For more information about programming the FPGA via a Xilinx JTAG cable, refer to the manufacturer’s website at www.xilinx.com. The third and final way to program the FPGA is via the Xilinx serial ROM on the FPGA EZ-Extender. The serial ROM used for FPGA is 1-4 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Interfaces shipped with the extender and is pre-programmed. If the serial ROM needs to be re-programmed with new code, use an Xilinx JTAG cable and software and connect the Xilinx JTAG cable to the flash JTAG header (P6). More information about programming the serial ROM can be found at www.xilinx.com. More details about the different ways to program the FPGA can be found in “FPGA EZ-Extender Hardware Reference” on page 2-1. Blackfin FPGA EZ-Extender Manual 1-5 FPGA EZ-Extender Overview 1-6 Blackfin FPGA EZ-Extender Manual 2 FPGA EZ-EXTENDER HARDWARE REFERENCE This chapter describes the hardware design of the Field-Programmable Gate Array (FPGA) EZ-Extender. The following topics are covered. • “System Architecture” on page 2-2 Describes the configuration of the extender board and explains how the board components interface with the processor and EZ-KIT Lite. • “Programming the FPGA” on page 2-3 Describes the different methods of programming the FPGA. • “Programming the Serial ROM” on page 2-7 Describes the method of programming the serial ROM. • “Power” on page 2-8 Describes the methods to power the extender board. • “Jumpers” on page 2-11 Describes the function of the configuration jumpers. • “Push Buttons and LEDs” on page 2-15 Describes the function of the push buttons and LEDs. • “Connectors” on page 2-17 Describes the function of the extender connectors. Blackfin FPGA EZ-Extender Manual 2-1 System Architecture System Architecture A block diagram of the Blackfin FPGA EZ-Extender is shown in Figure 2-1. Power Connector Primary Expansion Interface (to BlackFin EZ-KIT) JTAG Connector JTAG Connector 2MB SRAM (512k x 32-bits) High Speed Connector Memory Interface 3.3V 2.5V 1.2V Xilinx Spartan 3 XC3S1000-4FG456C FPGA Serial Flash LED, DIP Switch, Push Buttons Regulators SPI, SPORT(2x), PPI(2x), GPIO, Timers, TWI 25MHz Oscillator Socket SPI, SPORT(2x), PPI(2x), GPIO, Timers, TWI Secondary Expansion Interface (to Test points and other EZExtenders) .1 inch headers Figure 2-1. Block Diagram 2-2 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference Programming the FPGA Before using the Blackfin FPGA EZ-Extender, follow the steps in “FPGA EZ-Extender Setup” on page 1-1. Figure 2-2 is a block diagram of the FPGA programming connections. Figure 2-2. FPGA Programming Block Diagram Blackfin FPGA EZ-Extender Manual 2-3 Programming the FPGA There are three ways to program the FPGA: • Using the FPGA JTAG header, as described in “FPGA Programming via JTAG” on page 2-4 • Using the Xilinx serial ROM, as described in “FPGA Programming via Serial ROM” on page 2-5 • Using the Blackfin processor, as described in “FPGA Programming via Blackfin Application” on page 2-6 The done LED (LED10) lights up once the FPGA is programmed, signifying that the task is complete. To erase the contents of the FPGA at any time, de-press the program switch SW1. FPGA Programming via JTAG To program the FPGA via the JTAG header, create the appropriate program file using the Xilinx ISE software provided at www.xilinx.com. Once the program file is created, use a Xilinx JTAG cable and connect it to P15 of the FPGA EZ-Extender (the P15 connections are shown in Table 2-1). Table 2-1. P15 Connections for PFGA Programming via JTAG 2-4 P15 Pin Number Signal Name 1 3.3V 2 GND 3 TCK 4 TDO 5 TDI 6 TMS Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference In addition to removing JP1 (serial ROM boot jumper) as shown in Table 2-2, set the boot jumper, JP4, to JTAG mode. The JP4 settings for JTAG boot are shown in Table 2-3. See “Boot Jumper (JP4)” on page 2-13 for more information. Table 2-2. JP1 Settings for FPGA Programming via JTAG JP1 Pin Name Pins Connected Flash done JP1.1 and JP1.2 Jumper Setting Unpopulated Table 2-3. JP4 Settings for FPGA Programming via JTAG JP4 Pin Name Pins Connected Jumper Setting M0 JP4.1 and JP4.2 Unpopulated M1 JP4.3 and JP4.4 Populated M2 JP4.5 and JP4.6 Unpopulated FPGA Programming via Serial ROM To program the FPGA with the contents of the serial ROM, populate the JP1 jumper. When populated, JP1 connects the chip enable pin of the serial ROM to the done bit of the FPGA. Once the FPGA is programmed, the done bit automatically goes high, and the enable pin of the serial ROM chip becomes a logic 1. The JP1 settings for serial ROM boot are shown in Table 2-4. See “Programming the Serial ROM” on page 2-7 for more information. The done LED (LED10) remains lit to signify that the FPGA is programmed. See “Done LED (LED10)” on page 2-17 for more information. Table 2-4. JP1 Settings for FPGA Programming via Serial ROM JP1 Pin Name Pins Connected Flash done JP1.1 and JP1.2 Blackfin FPGA EZ-Extender Manual Jumper Setting Populated 2-5 Programming the FPGA In addition to JP1, set the boot mode jumper, JP4, to master serial mode. The JP4 settings for serial ROM boot are shown in Table 2-5. See “Boot Jumper (JP4)” on page 2-13 for more information. Table 2-5. JP4 Settings for FPGA Programming in Master Serial Mode JP4 Pin Name Pins Connected Jumper Setting M0 JP4.1 and JP4.2 Populated M1 JP4.3 and JP4.4 Populated M2 JP4.5 and JP4.6 Populated FPGA Programming via Blackfin Application By default, the FPGA EZ-Extender is configured by the flash programming utility within CCES or VisualDSP++. The software is located in the Examples folder of the installation directory. The FPGA Extender readme text file located in the same folder provides all the necessary instructions required for running the application. generating a program file using the Xilinx software tools, When remember to generate a slave serial program file in the Intel MCS-86 Hexadecimal Object (.mcs) file format. To boot the FPGA from the Blackfin processor, unpopulate jumper JP1 and set jumper JP4 to slave serial mode, as shown in Table 2-6 and Table 2-7. See “Serial ROM Boot Jumper (JP1)” on page 2-12 and “Boot Jumper (JP4)” on page 2-13 for more information. Table 2-6. JP1 Settings for FPGA Programming via Blackfin Processor 2-6 JP1 Pin Name Pins Connected Flash done JP1.1 and JP1.2 Jumper Setting Unpopulated Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference Table 2-7. JP4 Settings for FPGA Programming via Blackfin Processor JP4 Pin Name Pins Connected Jumper Setting M0 JP4.1 and JP4.2 Unpopulated M1 JP4.3 and JP4.4 Unpopulated M2 JP4.5 and JP4.6 Unpopulated Programming the Serial ROM The FPGA EZ-Extender allows the user to program the serial ROM. The serial ROM can be programmed by using a Xilinx JTAG cable, ISE software, and the flash JTAG header on the FPGA EZ-Extender. Serial ROM via JTAG Header To program the serial ROM via the JTAG header, create the appropriate program file using the Xilinx software provided at www.xilinx.com. Once the program file is created, use a Xilinx JTAG cable and connect it to P6. The P6 connections are shown in Table 2-8. Table 2-8. P6 Connections for Serial ROM P6 Pin Number Signal Name P6 Pin Number Signal Name 1 3.3V 4 TDO 2 GND 5 TDI 3 TCK 6 TMS Blackfin FPGA EZ-Extender Manual 2-7 Power Power The FPGA EZ-Extender can be powered from the enclosed power supply, EZ-KIT Lite, or external power supply. The power source for the extender is selected based on the power requirements of the application. An external 7V power supply is shipped with the extender board. The power supply uses three switching regulators: VR1 is used to power the 2.5V power plane, VR2 is used to power the 1.2V power plane, and VR3 is used to power the 3.3V plane. All of the regulators can supply a maximum current of 2 Amps. To understand the power requirements of your application, run the Xilinx power estimator software. The software can be located at www.xilinx.com. Table 2-9 states the current limitations of each method. Each method requires a correctly configured header, described in the following sections. Table 2-9. Power Limitations Power Source 1.2V Supply 2.5V Supply 3.3V Supply ADSP-BF533, ADSP-BF537, or ADSP-BF561 EZ-KIT Lite 500 mA 500 mA 500 mA FPGA EZ-Extender power supply1 2A 2A 2A External power supply 2A 2A 2A 1 2-8 Default setting Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference Power In Header (P12) The P12 header supplies the power to the on board 1.2V and the 2.5V regulators. The P42 and P43 headers supply the power to the external 1.2V and 2.5V planes, as described in “2.5V Header (P42)” and “1.2V Header (P43)” on page 2-10. Power Source P12 Setting FPGA EZ-Extender power supply1 Jumper on P12.1 and P12.2 ADSP-BF533, ADSP-BF537, or ADSP-BF561 EZ-KIT Lite 5V power supply Jumper on P12.2 and P12.3 1 Default setting 3.3V Header (P13) Power Source P13 Setting ADSP-BF533, ADSP-BF537, or ADSP-BF561 EZ-KIT Lite 3.3V power supply Jumper on P13.1 and P13.2 FPGA EZ-Extender power supply1 Jumper on P13.2 and P13.3 External power supply No jumper; connect supply to P13.2 and GND 1 Default setting using an external power supply, do not plug in the power When supply shipped with the FPGA EZ-Extender. This can seriously damage the board. As an extra measure of precaution, remove all jumpers from P12. Blackfin FPGA EZ-Extender Manual 2-9 Power 2.5V Header (P42) Power Source P42 Setting FPGA EZ-Extender Power Supply1 No Jumper External power supply Connect P42.1 to external 2.5V Connect P42.2 to external GND 1 Default setting using an external power supply, do not plug in the power When supply shipped with the FPGA EZ-Extender. This can seriously damage the board. As an extra measure of precaution, remove all jumpers from P12. 1.2V Header (P43) Power Source P43 Setting FPGA EZ-Extender power supply1 No Jumper External power supply Connect P42.1 to external 2.5V Connect P42.2 to external GND 1 Default setting using an external power supply, do not plug in the power When supply shipped with the FPGA EZ-Extender. This can seriously damage the board. As an extra measure of precaution, remove all jumpers from P12. 2-10 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference Jumpers Before using the Blackfin FPGA EZ-Extender, follow the steps in “FPGA EZ-Extender Setup” on page 1-1. Figure 2-3 shows the locations of all jumper headers. A two-pin jumper can be placed on the respective jumper header for different functionality. The following sections describe all possible jumper settings and associated functionality. Figure 2-3. Jumper Locations Blackfin FPGA EZ-Extender Manual 2-11 Jumpers Serial ROM Boot Jumper (JP1) By default, the serial ROM boot jumper, JP1, is unpopulated. When unpopulated, the FPGA EZ-Extender programs via the Blackfin processor or the Xilinx JTAG header. When JP1 is left populated, the jumper connects the serial ROM chip enable pin to the done bit of the FPGA. At power-up, the done bit is driven low by the FPGA, causing the FPGA to enable the serial ROM as a programming source. After the FPGA is programmed, the done bit is driven high by the FPGA, causing the FPGA to drive high the chip enable pin of the serial ROM. Both JP1 and JP4 must be set up for correct FPGA programming. “Boot Jumper (JP4)” on page 2-13 summarizes the JP4 settings. Table 2-10 summarizes the JP1 settings. See Table 2-4 on page 2-5 and Table 2-6 on page 2-6 for more information on JP1. Table 2-10. JP1 Settings Boot Source JP1 Setting ADSP-BF533, ADSP-BF537, or ADSP-BF561 Unpopulated processor via CCES or VisualDSP++1 JTAG header Unpopulated Serial ROM Populated 1 Default setting Config Done Jumper (JP2) The configuration done jumper, JP2, connects the done bit of the FPGA to the Blackfin processor’s PF3 flag pin of the ADSP-BF533 and ADSP-BF561 EZ-KIT Lites or PF14 flag pin of the ADSP-BF537 EZ-KIT Lite. By default, the jumper is populated and acts as a monitor for the done bit by the Blackfin processor (the bit indicates that the FPGA programming is complete). 2-12 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference Table 2-11 summarizes the jumper settings. Table 2-11. JP2 Settings Functionality JP2 Setting Done bit connected to Blackfin processor’s PF3 flag Populated pin1 Done bit disconnected from Blackfin processor’s PF3 Unpopulated flag pin 1 Default setting Config Program Jumper (JP3) The configuration program jumper, JP3, connects the program bit of the FPGA to the Blackfin processor’s flag pin. By default, JP3 is populated. The jumper assures that the program bit is asserted by the Blackfin processor to initiate the FPGA programming through development software. Table 2-12 summarizes the jumper settings. Table 2-12. JP3 Settings Functionality JP3 Setting Program bit connected to the Blackfin processor’s flag pin1 Populated Program bit disconnected from the Blackfin processor’s flag pin Unpopulated 1 Default setting Boot Jumper (JP4) The boot jumper, JP4, configures the FPGA mode pins (M[2:0]). Based on the jumper settings, the FPGA is set to be programmed by the JTAG header, serial ROM, or Blackfin processor. Blackfin FPGA EZ-Extender Manual 2-13 Jumpers Table 2-13 summarizes the jumper settings. See Table 2-3 on page 2-5 for the JTAG header boot settings, Table 2-5 on page 2-6 for the serial ROM boot settings, and Table 2-7 on page 2-7 for the Blackfin processor boot settings. Table 2-13. JP4 Settings Boot Source JP4.1 and JP4.2 M0 JP4.3 and JP4.4 M1 JP4.5 and JP4.6 M2 ADSP-BF533, ADSP-BF537, or ADSP-BF561 processor1 Unpopulated Unpopulated Unpopulated JTAG header Unpopulated Populated Unpopulated Serial ROM Populated Populated Populated 1 Default setting FPGA Input Jumpers (JP5) The FPGA input jumpers, JP5.2–5.8, drive select FPGA nets to a logic 0 and can be used for any user logic that requires a steady state input. You can set internal pull-ups on these nets in the FPGA and, when a low is required, populate the respective jumper. Table 2-14 summarizes the jumper settings. Table 2-14. JP5 Settings Reference Designator FPGA Pin Number JP5.2 Y3 JP5.4 Y2 JP5.6 U10 JP5.8 AB11 2-14 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference Push Buttons and LEDs Before using the Blackfin FPGA EZ-Extender, follow the steps in “FPGA EZ-Extender Setup” on page 1-1. Figure 2-4 shows the locations of all push buttons and LEDs. The following sections describe the associated functionality of all the push buttons and LEDs. Figure 2-4. Push Button and LED Locations Blackfin FPGA EZ-Extender Manual 2-15 Push Buttons and LEDs Program Push Button (SW1) The program push button, SW1, erases the contents of the FPGA. The push button can be used as a hard reset—the FPGA must be completely re-programmed once SW1 is de-pressed. See “Programming the FPGA” on page 2-3 for more information. PB1 Push Button (SW3) The PB1 push button, SW3, is a general-purpose input push button. The switch with a connected debounce circuit eliminates the need to re-create it in the FPGA. The push button connects to pin C11 of the FPGA. PB2 Push Button (SW4) The PB2 push button, SW4, is a general-purpose input push button. The switch does not have a connected debounce circuit; you may need to create it in the FPGA if required by a specific application. The push button connects to pin H5 of the FPGA. Status LEDs (LED1–8) Eight status LEDs, LED1–8, connect to the FPGA and act as status flags in any application that requires it. Table 2-15 shows the LED/FPGA connections. Table 2-15. Status LED (LED1–8) Settings Reference Designator FPGA Pin Number LED1 U11 LED2 W11 LED3 AB10 LED4 Y10 2-16 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference Table 2-15. Status LED (LED1–8) Settings (Cont’d) Reference Designator FPGA Pin Number LED5 AB9 LED6 W9 LED7 AB8 LED8 V10 Power LED (LED9) The power LED, LED9, connects to the 2.5V power supply and, when lit, signifies that the FPGA EZ-Extender is powered properly. Done LED (LED10) The done LED, LED10, connects to the done pin of the FPGA. At power-up, the FPGA is blank and needs to be programmed. When lit, the LED indicates that the FPGA is programmed successfully. Connectors Before using the Blackfin FPGA EZ-Extender, follow the steps in “FPGA EZ-Extender Setup” on page 1-1. This section describes the connector functionality and provides information about the mating connectors. The connector locations are shown in Figure 2-5. Blackfin FPGA EZ-Extender Manual 2-17 Connectors Figure 2-5. Connector Locations Expansion Interface (P1–3 and J1–3) Connectors P1–3 of the expansion interface are used to plug in the EZ-Extender to the ADSP-BF533, ADSP-BF537, or ADSP-BF561 EZ-KIT Lite. 2-18 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Hardware Reference Connectors J1–3 of the expansion interface are used to plug in another extender board, such as the Blackfin USB-LAN EZ-Extender. Your own custom board can be plugged into J1–3 as well. in another EZ-Extender or a customer board to the Plugging expansion interface can de-grade the overall system performance. The extra overall load can cause the user to add wait states or slow down the system bus to get all of the boards to work properly. For the J1–3 and P1–3 connector availability and pricing, contact Samtec. Part Description Manufacturer Part Number 90-position 0.05” spacing, SMT (J1, J2, J3) Samtec SFC-145-T2-F-D-A 90-position 0.05” spacing (P1, P2, P3) Samtec TFC-145-32-F-D IDC Connectors (P8, P14, P16, and P17) The P8, P14, P16, and P17 connectors are standard 0.1” IDC headers. The connectors are in a 13 x 2 configuration and designed for signal probing, bread boarding, and other signal accesses. Part Description Manufacturer Part Number IDC13x2 0.1” header Berg 54102-T08-13 Mating Connector IDC 13x2 0.1” plug Samtec Blackfin FPGA EZ-Extender Manual SSW-113-01-T-D 2-19 Connectors IDC Connectors (P5 and P7) The P5 and P7 connectors are standard 0.1” IDC headers. The connectors are in a 14 x 2 configuration and designed for signal probing, bread boarding, and other signal accesses. Part Description Manufacturer Part Number IDC14x2 0.1” header FCI 68737-428HLF IDC14x2 0.1” header Sullins GEC14DAAN Mating Connector IDC 14x2 0.1” plug Samtec SSW-114-01-T-D High-Speed Connector (P4) The high-speed connector, P4, facilitates development of applications where use of the standard IDC connectors is complicated due to signal integrity issues. For the P4 connector and cable assembly availability and pricing, contact Samtec. Part Description Manufacturer Part Number QTS 25x2 high-speed connector Samtec QTS-025-01-F-D-A Mating Connector QSS 25x2 high-speed connector 2-20 Samtec QSS-025-01-F-D-A Blackfin FPGA EZ-Extender Manual A FPGA EZ-EXTENDER BILL OF MATERIALS The bill of materials corresponds to “FPGA EZ-Extender Schematic” on page B-1. Ref. Qty. Description Reference Designator Manufacturer Part Number 1 1 SN74LVC1G125 SOT23-5 U8 TI 74LVC1G125DBVRE4 2 1 25MHZ OSC003 U6 DIGI-KEY SG-8002CA-PCC-ND (25.00M) 3 1 74LVC157 TSSOP16 U2 DIGI-KEY 296-1225-1-ND 4 1 XC3S1000 FG456 U1 XILINX XC3S1000-4FGG456C 5 3 LM3475MF SOT23-5 VR1-3 NATIONAL SEMI LM3475MF 6 2 IS61LV51216 TSOP44 U3,U5 ISSI IS61LV51216-10TLI 7 3 SI2343DS SOT23D Q1-3 VISHAY SI2343DS-T1-E3 8 1 BFFPGA XCF04S "U4" U4 XILINX XCF04SVOG20C 9 1 PWR 2.5MM_JACK CON005 J4 SWITCHCRAFT RAPC712X 10 1 DIP 8 DIP8SOC U7 MILL-MAX 614-43-308-31-007000 11 3 MOMENTARY SWT013 SW1,SW3-4 PANASONIC EVQ-PAD04M 12 3 0.05 45x2 CON018 P1-3 SAMTEC TFC-145-32-F-D 13 3 .05 45X2 CON019 J1-3 SAMTEC SFC-145-T2-F-D-A Blackfin FPGA EZ-Extender Manual A-1 Ref. Qty. Description Reference Designator Manufacturer Part Number 14 2 IDC 14X2 IDC14X2 P5,P7 FCI 68737-428HLF 15 2 IDC 6X1 IDC6X1 P6,P15 FCI 90726-406HLF 16 1 QTS 25X2 CON041 P4 SAMTEC QTS-025-01-F-D-A 17 2 IDC 2X1 IDC2X1 P42-43 FCI 90726-402HLF 18 3 IDC 2X1 IDC2X1 JP1-3 FCI 90726-402HLF 19 1 2.5A RESETABLE FUS001 F1 RAYCHEM SMD250F-2 20 9 YELLOW LED001 LED1-8, LED10 PANASONIC LN1461C 21 1 10UF 16V 10% C C4 AVX TAJC106K016R 22 3 3A HSM350J DO214AB D1-3 VISHAY GEN-SEMI SS36-E3 23 1 600 100MHZ 200MA 0603 FER2 DIGI-KEY 490-1014-2-ND 24 1 2A S2A DO-214AA D5 VISHAY S2A-E3 25 1 3900PF 50V 5% 0805 C6 PANASONIC ECJ2VB1H392K 26 1 190 100MHZ 5A FER002 FER1 MURATA DLW5BSN191SQ2 27 7 10UF 6.3V 10% 0805 C14-16,C35, C55,C83,C86 AVX 080560106KAT2A 28 4 1000PF 10V 20% 0805 C1-2,C10,C74 DIGI-KEY 311-1136-1-ND 29 3 100UF 10V 10% C CT1-3 KOA TMC1ACTTE107K 30 5 0.1UF 16V 10% 0603 C3,C38,C56, C84-85 AVX 0603YC104KAT2A A-2 Blackfin FPGA EZ-Extender Manual FPGA EZ-Extender Bill of Materials Ref. Qty. Description Reference Designator Manufacturer Part Number 31 56 0.01UF 16V 10% 0603 C11-13, C17-34, C36-37, C39-54, C57-70,C80-82 AVX 0603YC103KAT2A 32 1 1UF 16V 10% 0603 C5 PANASONIC ECJ-1VB1C105K 33 3 10UH 20% IND005 L1-3 COILCRAFT MSS1278-103MLB 34 13 10K 1/10W 5% 0603 R1,R6,R21-22, R25,R28-29, R46-51 VISHAY CRCW060310K0JNEA 35 10 330 1/10W 5% 0603 R10,R24, R34-41 VISHAY CRCW0603330RJNEA 36 11 0 1/10W 5% 0603 R3,R9,R12, R15-16,R27, R52-54,R58-59 PHYCOMP 232270296001L 37 1 10 1/10W 5% 0603 R42 VISHAY CRCW060310R0JNEA 38 1 200.0K 1/16W 1% 0603 R20 VISHAY CRCW0603200KFNEA 39 2 10.0K 1/10W 1% 0603 R14,R19 DIGI-KEY 311-10.0KHRTR-ND 40 3 33.0 1/10W 1% 0603 R2,R4,R26 DIGI-KEY 311-33.0HRTR-ND 41 5 100 1/16W 5% 0402 R5,R7-8,R23, R44 DIGI-KEY 311-100JRTR-ND 42 3 390PF 25V 5% 0603 C7,C72-73 AVX 06033A391FAT2A 43 1 4.99K 1/16W 1% 0603 R13 VISHAY CRCW06034K99FKEA 44 1 31.6K 1/16W 1% 0603 R17 PANASONIC ERJ-3EKF3162V 45 1 1.05K 1/16W 1% 0603 R11 PANASONIC ERJ-3EKF1051V Blackfin FPGA EZ-Extender Manual A-3 Ref. Qty. Description Reference Designator Manufacturer Part Number 46 1 2.15K 1/16W 1% 0603 R18 VISHAY CRCW06032K15FKEA 47 3 10UF 10V 10% 0805 C8-9,C71 PANASONIC ECJ-2FB1A106K A-4 Blackfin FPGA EZ-Extender Manual A B C D 1 1 2 2 BLACKFIN FPGA EZ-EXTENDER Schematic 3 3 ANALOG DEVICES 4 Title Size A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER TITLE Board No. C Date 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 1 of 12 A B C D 3.3V FPGA BOOT FLASH (2Mbit) R1 10K 0603 FLASH JTAG HEADER 3.3V FPGA JTAG HEADER 3.3V 3.3V P15 1 U4 1 1.2V 2.5V 2 1 P6 1 3 2 CONFIG_CLK_TSCLK1 3 FLASH_DOUT 3 CLK 1 D0 8 OE/~RESET 10 CE 7 CF 13 CEO FLASH_TCK CONFIG_INIT_B_TFS1 4 FLASH_TDO 5 JP1 FLASH_TDI 6 1 CONFIG_DONE 2 FLASH_DONE IDC2X1 FLASH_TMS IDC6X1 FPGA_TCK 18 VCCINT 4 FPGA_TDO 19 VCCO 5 VCCJ U1 FPGA_TDI 20 6 A6 FPGA_TMS IDC6X1 2 NC1 9 NC2 12 NC3 14 NC4 5 TMS 6 TCK 4 TDI 17 TDO FLASH_TMS FLASH_TCK FLASH_TDI FLASH_TDO 15 3.3V NC5 16 NC6 GND J10 GND_J10 J11 GND_J11 J12 GND_J12 J13 GND_J13 J14 GND_J14 J20 GND_J20 K9 GND_K9 K10 GND_K10 K11 GND_K11 K12 GND_K12 K13 GND_K13 K14 GND_K14 L9 GND_L9 L10 GND_L10 L11 GND_L11 L12 GND_L12 L13 GND_L13 L14 GND_L14 M9 GND_M9 M10 GND_M10 M11 GND_M11 M12 GND_M12 M13 GND_M13 M14 GND_M14 N9 GND_N9 N10 GND_N10 N11 GND_N11 N12 GND_N12 N13 GND_N13 N14 GND_N14 P3 GND_P3 P9 GND_P9 P10 GND_P10 P11 GND_P11 P12 GND_P12 P13 GND_P13 P14 GND_P14 P20 GND_P20 Y9 GND_Y9 Y14 GND_Y14 AA2 GND_AA2 AA21 GND_AA21 AB1 GND_AB1 AB22 GND_AB22 VCCAUX_A6 A17 VCCAUX_A17 F1 VCCAUX_F1 F22 VCCAUX_F22 U1 VCCAUX_U1 U22 VCCAUX_U22 AB6 VCCAUX_AB6 AB17 VCCAUX_AB17 11 G7 VCCINT_G7 G8 XCF04S TSSOP20 VCCINT_G8 G15 VCCINT_G15 G16 R22 10K 0603 R28 10K 0603 R6 10K 0603 VCCINT_G16 R21 10K 0603 H7 VCCINT_H7 H16 VCCINT_H16 R7 VCCINT_R7 R16 VCCINT_R16 R44 100 0402 2 T7 VCCINT_T7 T8 FPGA_TCK U2 VCCINT_T8 T15 2 FLASH_DOUT R8 100 0402 1A 5 BOOTMODE JUMPER 2A 11 3A 4 14 1Y 4A 9 3Y 6 4Y 1B M0 12 M1 2B M2 10 JP4 1 2 3 4 5 6 13 3B R7 100 0402 FPGA_TMS R4 33.0 0603 IDC3X2 4B M0 CONFIG_CLK_TSCLK1 15 M1 EN M2 ~A/B R5 100 0402 74LVC157 TSSOP16 AA22 CCLK A2 PROG_B AB21 DONE B3 HSWAP_EN SW1 SWT013 MOMENTARY CONFIG_DONE R3 0 0603 3 3.3V LED10 YELLOW LED001 3.3V 3.3V 25MHZ SYSTEM CLOCK EXTRA CLOCK SOCKET R29 10K 0603 U6 R25 10K 0603 DNP R2 33.0 0603 4 VDD 1 3 OE OUT B4_L32N_GCKL1_AA12 U7 1 OE/NC GND 25MHZ 2 OSC003 5 R26 33.0 0603 OUT C19 0.01UF 0603 C20 0.01UF 0603 C21 0.01UF 0603 C11 0.01UF 0603 C12 0.01UF 0603 C13 0.01UF 0603 2.5V C22 0.01UF 0603 C23 0.01UF 0603 C24 0.01UF 0603 C25 0.01UF 0603 C15 10UF 0805 C16 10UF 0805 C26 0.01UF 0603 C27 0.01UF 0603 C31 0.01UF 0603 C30 0.01UF 0603 C29 0.01UF 0603 C28 0.01UF 0603 SKT FLASH MUX ANALOG DEVICES C14 10UF 0805 Title Size FPGA B C 20 Cotton Road Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER FPGA CONFIG Board No. C FPGA Date A 3 DIP DIP8SOC OSC C18 0.01UF 0603 A1 GND_A1 A22 GND_A22 B2 GND_B2 B21 GND_B21 C9 GND_C9 C14 GND_C14 J3 GND_J3 J9 GND_J9 XC3S1000 FG456 IO_L32_0_GCLK6_A11 1.2V C17 0.01UF 0603 R24 330 0603 3.3V C32 0.01UF 0603 4 AB2 M0 AA1 M1 AB3 M2 CONFIG_PROG_B 1 FLASH_DONE VCCINT_T16 A21 TCK B1 TDI B22 TDO A20 TMS FPGA_TDO 7 3 VCCINT_T15 FPGA_TDI CONFIG_DIN_DT1PRI 2Y DT1PRI T16 2 Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 2 of 12 A B C D 3.3V 2MBYTES FPGA SRAM (512k x 16bits x 2chips) 1 1 U1 M7 H3 VCCO_7_H3 H6 VCCO_7_H6 J7 VCCO_7_J7 K7 VCCO_7_K7 L7 VCCO_7_L7 VCCO_6_M7 N7 VCCO_6_N7 P7 VCCO_6_P7 U3 U5 R3 SRAM_A0 2 SRAM_A0 1 SRAM_A1 2 SRAM_A2 3 A0 A1 4 SRAM_A4 5 SRAM_A5 18 SRAM_A6 19 SRAM_A7 20 SRAM_A8 21 SRAM_A9 22 SRAM_A10 23 SRAM_A11 24 SRAM_A12 25 SRAM_A13 26 SRAM_A14 27 SRAM_A15 42 SRAM_A16 43 SRAM_A17 44 SRAM_A18 28 SRAM_D16 8 SRAM_D17 9 SRAM_D18 SRAM_A2 D2 A3 SRAM_A3 10 SRAM_D19 13 SRAM_D20 14 SRAM_D21 15 SRAM_D22 16 SRAM_D23 29 SRAM_D24 30 SRAM_D25 31 SRAM_D26 32 SRAM_D27 35 SRAM_D28 36 SRAM_D29 37 SRAM_D30 38 SRAM_D31 D3 D4 A5 D5 SRAM_A4 A4 SRAM_A5 D6 A7 D7 SRAM_A6 A6 A8 SRAM_A7 SRAM_A8 D8 D9 A10 D10 SRAM_A9 A9 A11 D11 A12 D12 A13 D13 A14 D14 A15 D15 1 A0 2 A1 3 A2 4 A3 5 A4 18 A5 19 A6 20 A7 21 A8 22 A9 23 A10 24 A11 25 A12 26 A13 27 A14 42 A15 43 A16 44 A17 28 A18 SRAM_A1 D1 A2 SRAM_A3 7 D0 SRAM_A10 SRAM_A11 SRAM_A12 SRAM_A13 SRAM_A14 SRAM_A15 SRAM_A16 A16 SRAM_A17 A17 SRAM_A18 SRAM_WE SRAM_OE 40 39 8 SRAM_D1 9 SRAM_D2 10 SRAM_D3 D1 D2 D3 13 D4 14 D5 15 D6 16 D7 29 D8 30 D9 31 D10 32 D11 VCCO_6_R6 SRAM_D5 FLASH_TDI SRAM_D6 FLASH_TMS SRAM_D7 FLASH_TDO SRAM_D8 SRAM_D30 SRAM_D10 SRAM_D28 SRAM_D11 SRAM_D27 SRAM_D25 36 SRAM_D13 SRAM_D24 37 SRAM_D14 SRAM_D16 38 SRAM_D15 SRAM_D17 D13 D14 D15 W4 IO_L16N_6_W4 W3 IO_L16P_6_W3 W2 IO_L17N_6_W2 W1 IO_L17P_6_VREF_6_W1 V5 IO_L19N_6_V5 U5 SRAM_D31 SRAM_D9 SRAM_WE WE SRAM_OE OE BHE IO_L19P_6_U5 V4 IO_L20N_6_V4 V3 IO_L20P_6_V3 V2 IO_L21N_6_V2 V1 IO_L21P_6_V1 T6 IO_L22N_6_T6 T5 IO_L22P_6_T5 U4 IO_L23N_6_U4 T4 IO_L23P_6_T4 U3 IO_L24N_6_VREF_6_U3 U2 IO_L24P_6_U2 T3 IO_L26N_6_T3 R4 IO_L26P_6_R4 T2 IO_L27N_6_T2 T1 IO_L27P_6_T1 R5 IO_L28N_6_R5 P6 IO_L28P_6_P6 R2 IO_L29N_6_R2 R1 IO_L29P_6_R1 P5 IO_L31N_6_P5 P4 IO_L31P_6_P4 P2 IO_L32N_6_P2 P1 IO_L32P_6_P1 N6 IO_L33N_6_N6 N5 IO_L33P_6_N5 N4 IO_L34N_6_VREF_6_N4 N3 IO_L34P_6_N3 N2 IO_L35N_6_N2 N1 IO_L35P_6_N1 M6 IO_L38N_6_M6 M5 IO_L38P_6_M5 M4 IO_L39N_6_M4 M3 IO_L39P_6_M3 M2 IO_L40N_6_M2 M1 IO_L40P_6_VREF_6_M1 SRAM_D19 SRAM_D18 SRAM_D21 SRAM_D20 SRAM_A14 SRAM_D22 SRAM_D23 SRAM_A18 BLE SRAM_A16 IS61LV51216 TSOP44 IS61LV51216 TSOP44 SRAM_A11 SRAM_A10 SRAM_A15 SRAM_A13 SRAM_A12 SRAM_OE SRAM_A17 SRAM_A2 SRAM_A4 SRAM_A6 3 C2 IO_Y1 SRAM_D29 SRAM_D4 SRAM_D12 35 D12 Y1 FLASH_TCK SRAM_D26 CE 41 R6 6 CE 17 WE 41 OE 40 BHE 39 BLE 6 17 VCCO_6_R3 SRAM_D0 A18 SRAM_CE SRAM_CE 7 D0 SRAM_A8 SRAM_WE SRAM_A0 SRAM_A1 SRAM_A3 SRAM_A5 SRAM_A7 SRAM_CE IO_C2 Y3 B6_L01N_Y3 IO_L01N_6_VRP_6_Y3 Y2 B6_L01P_Y2 A11 D1 IO_L16N_7_D1 C1 IO_L16P_7_VREF_7_C1 E4 IO_L17N_7_E4 D4 IO_L17P_7_D4 D3 IO_L19N_7_VREF_7_D3 D2 IO_L19P_7_D2 F4 IO_L20N_7_F4 E3 IO_L20P_7_E3 E1 IO_L21N_7_E1 E2 IO_L21P_7_E2 G6 IO_L22N_7_G6 F5 IO_L22P_7_F5 F2 IO_L23N_7_F2 F3 IO_L23P_7_F3 H5 IO_L24N_7_H5 G5 IO_L24P_7_G5 G3 IO_L26N_7_G3 G4 IO_L26P_7_G4 G1 IO_L27N_7_G1 G2 IO_L27P_7_VREF_7_G2 H1 IO_L28N_7_H1 H2 IO_L28P_7_H2 J4 IO_L29N_7_J4 H4 IO_L29P_7_H4 J5 IO_L31N_7_J5 J6 IO_L31P_7_J6 J1 IO_L32N_7_J1 J2 IO_L32P_7_J2 K5 IO_L33N_7_K5 K6 IO_L33P_7_K6 K3 IO_L34N_7_K3 K4 IO_L34P_7_K4 K1 IO_L35N_7_K1 K2 IO_L35P_7_K2 L5 IO_L38N_7_L5 L6 IO_L38P_7_L6 L3 IO_L39N_7_L3 L4 IO_L39P_7_L4 L1 IO_L40N_7_VREF_7_L1 L2 IO_L40P_7_L2 IO_L01P_6_VRN_6_Y2 A4 A5 D1 D2 A15 A10 D0 A14 A3 A9 D13 2 D7 A8 A13 PB2 D6 A12 A19 A2 A7 A1 A6 SRAM_D3 A18 SRAM_D2 SRAM_D0 SRAM_D7 SRAM_D6 SRAM_D13 SRAM_D1 SRAM_D5 SRAM_D4 3 SRAM_D8 SRAM_D9 SRAM_D14 SRAM_D15 SRAM_D11 SRAM_D12 SRAM_A9 SRAM_D10 C3 IO_L01N_7_VRP_7_C3 C4 IO_L01P_7_VRN_7_C4 A16 D3 XC3S1000 FG456 3.3V 3.3V 3.3V 4 C36 0.01UF 0603 C37 0.01UF 0603 C33 0.01UF 0603 C34 0.01UF 0603 C39 0.01UF 0603 C42 0.01UF 0603 C41 0.01UF 0603 C40 0.01UF 0603 C43 0.01UF 0603 C46 0.01UF 0603 C45 0.01UF 0603 ANALOG DEVICES C44 0.01UF 0603 Title Size SRAM FPGA Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER SRAM, FPGA BANKS 7 + 8 Board No. C SRAM 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 3 of 12 A B C D EXPANSION INTERFACE TYPE B 1 1 5V_EI Expansion Connector 1 Bottom Of Board Top Of Board P1_[5:86] P1 1 2 3 4 5 6 A1 A1 A2 7 8 A3 A4 9 10 A5 A6 11 12 A7 A8 13 14 A10 15 16 A12 17 18 A14 19 20 A16 21 22 P1_5 A18 2 1 4 3 6 5 A3 8 7 A2 A5 10 9 A4 A7 12 11 A6 A9 A9 14 13 A8 A11 A11 16 15 A10 A13 A13 18 17 A12 A15 A15 20 19 A14 A17 A17 22 21 A16 A19 A19 P1_5 23 24 24 23 P1_25 25 26 P1_26 P1_26 26 25 P1_25 P1_27 27 28 P1_28 P1_28 28 27 P1_27 P1_29 29 30 P1_30 P1_30 30 29 P1_29 P1_31 31 32 P1_32 P1_32 32 31 P1_31 P1_33 33 34 P1_34 P1_34 34 33 P1_33 P1_35 35 36 P1_36 P1_36 36 35 P1_35 A18 2 37 38 38 37 D0 39 40 D1 D1 40 39 D0 D2 41 42 D3 D3 42 41 D2 D4 43 44 D5 D5 44 43 D4 D6 45 46 D7 D7 46 45 D6 D8 47 48 D9 D9 48 47 D8 D10 49 50 D11 D11 50 49 D10 D12 51 52 D13 D13 52 51 D12 D15 D15 D14 3 J1 2 53 54 54 53 P1_55 55 56 P1_56 P1_56 56 55 P1_55 P1_57 57 58 P1_58 P1_58 58 57 P1_57 P1_59 59 60 P1_60 P1_60 60 59 P1_59 P1_61 61 62 P1_62 P1_62 62 61 P1_61 P1_63 63 64 P1_64 P1_64 64 63 P1_63 P1_65 65 66 P1_66 P1_66 66 65 P1_65 P1_67 67 68 P1_68 P1_68 68 67 P1_67 P1_69 69 70 P1_70 P1_70 70 69 P1_69 71 72 72 71 73 74 74 73 75 76 76 75 77 78 78 77 79 80 80 79 81 82 82 81 83 84 84 83 85 86 86 85 87 88 88 87 89 90 90 89 EXPANSION_PPI_CLK PP1 PP3 UDEF2 UDEF4 UDEF6 UDEF8 UDEF10 CON018 PP0 B1_L24P_E15_J1_72 PP2 B1_L22P_B16_J1_74 UDEF1 UDEF3 B1_L19P_D16_J1_76 B1_L16P_C17_J1_78 UDEF5 B1_L15P_E17_J1_80 UDEF7 B1_L10P_B18_J1_82 UDEF9 B1_L09P_D18_J1_84 UDEF11 B1_L06P_B19_J1_86 D14 3 B1_L24N_D15_J1_71 B1_L22N_A16_J1_73 B1_L19N_C16_J1_75 B1_L16N_B17_J1_77 B1_L15N_D17_J1_79 B1_L10N_A18_J1_81 B1_L09N_C18_J1_83 B1_L06N_A19_J1_85 CON019 5V_EI C35 10UF 0805 4 ANALOG DEVICES C38 0.1UF 0603 Title Size Expanison Connector P1 A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER EXPANSION INTERFACE CONNECTOR 1 Board No. C Date 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 4 of 12 A B 2.5V 3.3V C D VCCO_1 VCCO_1 P9 1 VCCO_1 R30 49.9 0603 DNP 3.3V 2 3 1 1 IDC3X1 B1_L01N_VRP_C19 VCCO_0_C8 VCCO_0_F8 F15 VCCO_1_F15 VCCO_0_G9 VCCO_0_G10 B1_L22N_A16_J1_73 G13 B1_L19P_D16_J1_76 VCCO_1_G13 G11 VCCO_0_G11 B1_L19N_C16_J1_75 G14 VCCO_1_G14 B1_L31P_E12 AMS0 D14 A17 UDEF4 D8 UDEF1 D9 D10 D11 2 D12 D15 PP0 PP1 PP2 UDEF2 UDEF3 PP3 UDEF5 UDEF7 UDEF8 UDEF9 UDEF6 UDEF11 AMS3 AMS2 UDEF10 AMS1 ABE1 ABE0 ARDY 3 ARE AWE AOE PB1 D4 D5 A10 IO_A12 D9 IO_F6 IO_F13 IO_VREF_0_A3 IO_F16 IO_VREF_0_E5 IO_VREF_1_E13 IO_VREF_0_F7 IO_L06N_0_D5 C5 IO_L09P_1_D18 IO_L10N_0_E6 IO_L10N_1_VREF_1_A18 C18 IO_L09P_0_A5 D18 D6 A18 B18 IO_L10P_0_D6 IO_L10P_1_B18 C6 IO_L15N_1_D17 IO_L15P_0_B6 IO_L15P_1_E17 IO_L16N_0_E7 IO_L16N_1_B17 E17 B17 D7 C17 IO_L16P_0_D7 IO_L16P_1_C17 IO_L19N_0_B7 IO_L19N_1_C16 IO_L19P_0_A7 IO_L19P_1_D16 IO_L22N_0_E8 IO_L22N_1_A16 A7 E8 C16 D16 IO_L22P_1_B16 IO_L24N_0_B8 IO_L24N_1_D15 A8 IO_L24P_1_E15 IO_L25N_1_B15 IO_L25P_0_E9 IO_L25P_1_A15 B9 IO_L27P_1_E14 IO_L28N_0_F10 IO_L28N_1_A14 F10 C10 IO_L29P_1_D13 IO_L30N_0_F11 IO_L30N_1_A13 A13 E11 B13 IO_L30P_0_E11 IO_L30P_1_B13 C11 IO_L31N_0_D11 B4 IO_L31P_0_VREF_0_C11 E12 IO_L31P_1_E12 IO_L01N_1_VRP_1_C19 IO_L01P_0_VRN_0_A4 IO_L01P_1_VRN_1_B20 A4 IO_L01N_0_VRP_0_B4 B1_F13 B1_L15N_D17_J1_79 B1_F16 B1_L15P_E17_J1_80 B1_L31N_D12 B1_L16N_B17_J1_77 B1_L30N_A13 B1_L16P_C17_J1_78 B1_L29N_C13 B1_L19N_C16_J1_75 B1_L28N_A14 IO_L32_0_GCLK6_A11 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 B11 IO_L32N_0_GCLK7_B11 A11 IO_L32P_0_GCLK6_A11 IO_L32N_1_GCLK5_B12 IO_L32P_1_GCLK4_C12 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 B1_L30N_A13 B1_L32P_GCLK4_C12 33 34 B1_L29P_D13 B1_L01P_VRN_B20 B1_L29N_C13 B1_A12 35 36 B1_L28P_B14 B1_E13 37 38 39 B1_L28N_A14 B1_E16 40 B1_L27P_E14 41 42 43 B1_L27N_D14 B1_F17 44 B1_L25P_A15 B1_L31P_E12 45 46 B1_L25N_B15 B1_L30P_B13 47 48 49 50 B1_L29P_D13 B1_L01P_VRN_B20 B1_L01N_VRP_C19 B1_F14 B1_A12 B1_F12 B1_E13 B1_F13 B1_E16 B1_F16 B1_F17 B1_L09P_D18_J1_84 B1_L09N_C18_J1_83 B1_L06P_B19_J1_86 B1_L06N_A19_J1_85 2 CON041 B1_L28P_B14 LAYOUT NOTE: PLACE NEAR FPGA R27 0 0603 3.3V EXPANSION_PPI_CLK IO_L32_0_GCLK7_B11 R52 0 0603 DNP P8 1 B1_L29P_D13 B1_L27N_D14 B1_L30N_A13 B1_L25N_B15 C19 B20 B1_L24N_D15_J1_71 B1_L31N_D12 B1_L22N_A16_J1_73 B1_L31P_E12 B1_L19N_C16_J1_75 B1_L01N_VRP_C19 B1_L16N_B17_J1_77 B1_L01P_VRN_B20 B1_L15N_D17_J1_79 B1_L10N_A18_J1_81 IO_L32_0_GCLK7_B11 9 B1_L32N_GCLK5_B12 IDC13X2 B1_L30P_B13 D12 IO_L31N_1_VREF_1_D12 B1_L10N_A18_J1_81 B1_L29N_C13 D13 IO_L29P_0_B10 B1_F12 B1_L28P_B14 C13 IO_L29N_1_C13 B10 D11 8 B1_L28N_A14 B14 IO_L28P_1_B14 IO_L29N_0_C10 F11 7 B1_L27P_E14 A14 IO_L28P_0_E10 B1_L09P_D18_J1_84 B1_L27N_D14 E14 E10 B1_F14 4 B1_L25P_A15 D14 IO_L27N_1_D14 B1_L09N_C18_J1_83 5 2 B1_L25N_B15 A15 IO_L27P_0_A9 B1_L01N_VRP_C19 B1_L30P_B13 B1_L24P_E15_J1_72 B15 IO_L27N_0_B9 A9 6 B1_L24N_D15_J1_71 E15 IO_L25N_0_F9 E9 5 B1_L32P_GCLK4_C12 B1_L22P_B16_J1_74 D15 IO_L24P_0_A8 F9 B1_L06P_B19_J1_86 3 B1_L22N_A16_J1_73 B16 IO_L22P_0_D8 B8 B1_L32N_GCLK5_B12 B1_L19P_D16_J1_76 A16 D8 B1_L06N_A19_J1_85 B1_L10P_B18_J1_82 D17 IO_L15N_0_C6 P14 1 B1_F14 IO_L06P_1_B19 IO_L09N_1_C18 B7 B1_L10N_A18_J1_81 B1_E13 A19 IO_L09N_0_B5 E7 B1_F17 B19 IO_L06P_0_C5 B6 B1_L10P_B18_J1_82 F14 IO_L06N_1_VREF_1_A19 B1_L15N_D17_J1_79 3.3V B1_F16 E13 IO_VREF_1_F14 D5 E6 B1_L15P_E17_J1_80 B1_F13 F17 IO_F17 A5 B1_F12 F16 IO_VREF_0_C7 B5 B1_L16N_B17_J1_77 F13 C7 F7 B1_E16 F12 IO_F12 E5 B1_L16P_C17_J1_78 IO_E16 IO_D10 A3 B1_A12 E16 IO_D9 F6 B1_L31N_D12 A12 IO_A10 D10 4 B1_L22P_B16_J1_74 G12 VCCO_1_G12 G10 ABE3 2 3 B1_L24N_D15_J1_71 R31 49.9 0603 DNP C15 VCCO_1_C15 G9 ABE2 1 B1_L24P_E15_J1_72 C8 F8 P4 B1_L01P_VRN_B20 U1 B12 B1_L32N_GCLK5_B12 C12 B1_L09N_C18_J1_83 B1_L32P_GCLK4_C12 B1_L06N_A19_J1_85 XC3S1000 FG456 B1_L10N_A18_J1_81 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 B1_L10P_B18_J1_82 R53 0 0603 DNP B1_L27P_E14 B1_L25P_A15 3 B1_L16P_C17_J1_78 B1_L24P_E15_J1_72 B1_L16N_B17_J1_77 B1_L22P_B16_J1_74 B1_L19P_D16_J1_76 R54 0 0603 DNP B1_L15P_E17_J1_80 B1_L16P_C17_J1_78 B1_L15N_D17_J1_79 B1_L15P_E17_J1_80 B1_L24N_D15_J1_71 B1_L10P_B18_J1_82 B1_L22N_A16_J1_73 B1_L09P_D18_J1_84 B1_L19N_C16_J1_75 B1_L06P_B19_J1_86 R49 10K 0603 DNP IDC13X2 R48 10K 0603 DNP R50 10K 0603 DNP R51 10K 0603 DNP 3.3V VCCO_1 4 C54 0.01UF 0603 C47 0.01UF 0603 C48 0.01UF 0603 C49 0.01UF 0603 C50 0.01UF 0603 C51 0.01UF 0603 C52 0.01UF 0603 ANALOG DEVICES C53 0.01UF 0603 Title Size FPGA Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER FPGA BANKS 0 + 1 Board No. C FPGA 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 5 of 12 A B C D 1 1 3.3V_EI Expansion Connector 2 Bottom Of Board Top Of Board P2_[5:86] P2 1 2 2 1 3 4 4 3 P2_5 5 6 P2_6 P2_6 6 5 P2_5 P2_7 7 8 P2_8 P2_8 8 7 P2_7 10 9 12 11 14 13 9 10 11 12 13 14 15 16 16 15 17 18 P2_18 P2_18 18 17 P2_19 19 20 P2_20 P2_20 20 19 P2_19 P2_21 21 22 P2_22 P2_22 22 21 P2_21 23 24 24 23 25 26 26 25 27 28 28 27 29 30 30 29 31 32 32 31 33 34 34 33 35 36 36 35 37 38 38 37 39 40 40 39 41 42 42 41 43 44 PF14 44 43 45 46 PF12 46 45 47 48 PF10 48 47 49 50 PF8 50 49 51 52 PF6 52 51 53 54 PF4 54 53 55 56 PF2 56 55 57 58 PF0 58 57 59 60 60 59 61 62 62 61 63 64 64 63 65 66 66 65 67 68 68 67 69 70 70 69 P2_71 71 72 P2_72 P2_72 72 71 P2_71 P2_73 73 74 P2_74 P2_74 74 73 P2_73 SCK SPIDS0 P2_15 NMI TMR3 TMR1 2 DR1SEC DR1PRI RFS1 RSCLK1 DR0SEC DR0PRI RFS0 RSCLK0 PF15 PF13 PF11 PF9 PF7 PF5 PF3 PF1 AMS3 AMS2 AMS1 AMS0 3 J2 ARDY ARE MOSI MISO UDEF12 TMR2 B2_L40P_L22_J2_10 B2_L39P_L20_J2_12 IO_L01P_2_VRN_2_C21_J2_16 B2_L38P_L18_J2_24 TMR0 B2_L35P_K22_J2_26 DT1SEC B2_L34P_K20_J2_28 DT1PRI B2_L33P_K18_J2_30 CONFIG_INIT_B_TFS1 B2_L32P_J22_J2_32 CONFIG_CLK_TSCLK1 B2_L31P_J19_J2_34 DT0SEC B2_L29P_H22_J2_36 DT0PRI B2_L28P_J17_J2_38 TFS0 TSCLK0 B2_L27P_G22_J2_40 B2_L26P_H19_J2_42 B2_L22P_G18_J2_44 B2_L24P_F21_J2_46 B2_L23P_G19_J2_48 B2_L21P_E22_J2_50 B2_L20P_E20_J2_52 B2_L19P_F18_J2_54 B2_L17P_D22_J2_56 B2_L16P_D19_J2_58 ABE3 ABE3 ABE2 ABE2 ABE1 ABE1 ABE0 ABE0 AOE AOE AWE AWE B2_L40N_L21_J2_9 B2_L39N_L19_J2_11 P2_15 B2_C22_J2_17 B2_L38N_L17_J2_23 B2_L35N_K21_J2_25 B2_L33N_K17_J2_29 B2_L32N_J21_J2_31 B2_L31N_J18_J2_33 B2_L29N_H21_J2_35 B2_L28N_H18_J2_37 B2_L27N_G21_J2_39 B2_L26N_G20_J2_41 B2_L22N_G17_J2_43 B2_L24N_F20_J2_45 B2_L23N_F19_J2_47 B2_L21N_E21_J2_49 B2_L20N_E19_J2_51 B2_L19N_E18_J2_53 B2_L17N_D21_J2_55 B2_L16N_D20_J2_57 AMS3 AMS2 AMS1 AMS0 3 ARDY ARE 75 76 76 75 P2_77 77 78 P2_78 P2_78 78 77 P2_77 P2_79 79 80 P2_80 P2_80 80 79 P2_79 P2_81 81 82 P2_82 P2_82 82 81 P2_81 P2_83 83 84 P2_84 P2_84 84 83 P2_83 P2_85 85 86 P2_86 P2_86 86 85 P2_85 87 88 88 87 89 90 90 89 CON018 2 B2_L34N_K19_J2_27 CON019 3.3V_EI C55 10UF 0805 4 ANALOG DEVICES C56 0.1UF 0603 Title Size Date A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER EXPANSION INTERFACE CONNECTOR 2 Board No. C Expanison Connector P2 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 6 of 12 A B C D VCCO_2 3.3V 2.5V P10 1 2 3 3.3V VCCO_2 IDC3X1 1 1 3.3V U1 H17 VCCO_2_H17 M16 VCCO_3_M16 H20 VCCO_2_H20 N16 VCCO_3_N16 J16 VCCO_2_J16 VCCO_3_P16 K16 VCCO_2_K16 VCCO_2_L16 B2_L27N_G21_J2_39 R17 VCCO_3_R17 L16 P7 R20 VCCO_3_R20 CONFIG_DONE JP2 1 2 B2_L28N_H18_J2_37 PF3 B2_L29N_H21_J2_35 IDC2X1 B2_C22_J2_17 B2_L16N_D20_J2_57 B2_L16P_D19_J2_58 B2_L17N_D21_J2_55 B2_L17P_D22_J2_56 B2_L19N_E18_J2_53 B2_L19P_F18_J2_54 B2_L20N_E19_J2_51 B2_L20P_E20_J2_52 B2_L21N_E21_J2_49 B2_L21P_E22_J2_50 2 B2_L22N_G17_J2_43 B2_L22P_G18_J2_44 B2_L23N_F19_J2_47 B2_L23P_G19_J2_48 B2_L24N_F20_J2_45 B2_L24P_F21_J2_46 B2_L26N_G20_J2_41 B2_L26P_H19_J2_42 B2_L27N_G21_J2_39 B2_L27P_G22_J2_40 B2_L28N_H18_J2_37 B2_L28P_J17_J2_38 B2_L29N_H21_J2_35 B2_L29P_H22_J2_36 B2_L31N_J18_J2_33 B2_L31P_J19_J2_34 B2_L32N_J21_J2_31 B2_L32P_J22_J2_32 B2_L33N_K17_J2_29 B2_L33P_K18_J2_30 3 B2_L34N_K19_J2_27 B2_L34P_K20_J2_28 B2_L35N_K21_J2_25 B2_L35P_K22_J2_26 B2_L38N_L17_J2_23 B2_L38P_L18_J2_24 B2_L39N_L19_J2_11 B2_L39P_L20_J2_12 B2_L40N_L21_J2_9 B2_L40P_L22_J2_10 C22 IO_Y21 D20 IO_L16N_2_D20 IO_L16P_3_Y22 IO_L17N_2_D21 F18 IO_L19P_2_F18 E19 IO_L20N_2_E19 E20 B2_L38N_L17_J2_23 UDEF12 DR1SEC IO_L20P_3_V20 E21 IO_L21N_2_E21 E22 DT1SEC V22 IO_L21N_3_V22 IO_L21P_3_V21 T17 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 IO_L26N_3_T20 DR0SEC IO_L26P_3_T19 T19 IO_L31P_3_P17 IO_L32P_3_P21 N18 N17 N21 M18 IO_L38N_3_M18 B2_L21N_E21_J2_49 B2_L22N_G17_J2_43 VCCO_2 PF11 B2_L23N_F19_J2_47 PF10 B2_L24N_F20_J2_45 B2_L26N_G20_J2_41 PF0 M20 R32 49.9 0603 DNP PF3 M19 IO_L39P_3_M19 PF2 M22 IO_L40N_3_VREF_3_M22 B2_L20N_E19_J2_51 PF1 M17 IO_L38P_3_M17 IO_L39N_3_M20 B2_L19N_E18_J2_53 PF7 PF8 N22 IO_L35P_3_N21 TSCLK0 PF9 N19 IO_L35N_3_N22 B2_L17N_D21_J2_55 PF6 N20 IO_L34P_3_VREF_3_N19 B2_L16N_D20_J2_57 RSCLK0 P21 IO_L33P_3_N17 IO_L01N_2_VRP_2_C20 PF12 P22 IO_L34N_3_N20 3.3V PF13 P17 IO_L33N_3_N18 B2_L40P_L22_J2_10 B2_L26P_H19_J2_42 PF14 P18 IO_L32N_3_P22 B2_L26N_G20_J2_41 PF15 R19 IO_L31N_3_P18 B2_L39P_L20_J2_12 B2_L24P_F21_J2_46 CONFIG_CLK_TSCLK1 P19 IO_L29P_3_R19 B2_L38P_L18_J2_24 RSCLK1 R21 IO_L29N_3_P19 B2_L35P_K22_J2_26 2 CONFIG_INIT_B_TFS1 R22 IO_L28P_3_R21 B2_L34P_K20_J2_28 RFS1 T21 IO_L28N_3_R22 B2_L40N_L21_J2_9 B2_L33P_K18_J2_30 DT0SEC T22 IO_L27N_3_T22 IO_L27P_3_T21 B2_L32P_J22_J2_32 R55 DNP 0603 TFS0 T20 B2_L31P_J19_J2_34 B2_L23P_G19_J2_48 B2_L24N_F20_J2_45 RFS0 T18 IO_L24P_3_T18 B2_L29P_H22_J2_36 R56 DNP 0603 DT1PRI R18 IO_L24N_3_R18 B2_L23N_F19_J2_47 DR1PRI U20 B2_L28P_J17_J2_38 IDC14X2 DT0PRI U21 B2_L27P_G22_J2_40 R57 DNP 0603 DR0PRI U18 IO_L23N_3_U21 LAYOUT NOTE: PLACE NEAR FPGA TMR2 IO_L22N_3_T17 IO_L23P_3_VREF_3_U20 B2_L39N_L19_J2_11 TMR3 V21 IO_L22P_3_U18 B2_L33N_K17_J2_29 B2_L35N_K21_J2_25 V20 IO_L20P_2_E20 2 PF2 NMI U19 IO_L20N_3_U19 2 IDC2X1 TMR1 W20 IO_L19P_3_W20 JP3 1 B2_L34N_K19_J2_27 W21 IO_L19N_3_W21 CONFIG_PROG_B TMR0 W19 IO_L17P_3_VREF_3_W19 IO_L19N_2_E18 SCK V19 IO_L17N_3_V19 E18 IO_L21P_2_E22 G17 IO_L22N_2_G17 G18 IO_L22P_2_G18 F19 IO_L23N_2_VREF_2_F19 G19 IO_L23P_2_G19 F20 IO_L24N_2_F20 F21 IO_L24P_2_F21 G20 IO_L26N_2_G20 H19 IO_L26P_2_H19 G21 IO_L27N_2_G21 G22 IO_L27P_2_G22 H18 IO_L28N_2_H18 J17 IO_L28P_2_J17 H21 IO_L29N_2_H21 H22 IO_L29P_2_H22 J18 IO_L31N_2_J18 J19 IO_L31P_2_J19 J21 IO_L32N_2_J21 J22 IO_L32P_2_J22 K17 IO_L33N_2_K17 K18 IO_L33P_2_K18 K19 IO_L34N_2_VREF_2_K19 K20 IO_L34P_2_K20 K21 IO_L35N_2_K21 K22 IO_L35P_2_K22 L17 IO_L38N_2_L17 L18 IO_L38P_2_L18 L19 IO_L39N_2_L19 L20 IO_L39P_2_L20 L21 IO_L40N_2_L21 L22 IO_L40P_2_VREF_2_L22 MOSI Y22 IO_L16P_2_D19 D21 IO_L17P_2_VREF_2_D22 B2_L32N_J21_J2_31 W22 IO_L16N_3_W22 D19 D22 B2_L31N_J18_J2_33 Y21 IO_C22 1 P16 P5 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 B2_C22_J2_17 IO_L01P_2_VRN_2_C21_J2_16 B2_L16P_D19_J2_58 B2_L17P_D22_J2_56 B2_L19P_F18_J2_54 B2_L20P_E20_J2_52 3 B2_L21P_E22_J2_50 B2_L22P_G18_J2_44 B2_L23P_G19_J2_48 B2_L24P_F21_J2_46 B2_L26P_H19_J2_42 IDC14X2 PF5 IO_L01N_2_VRP_2_C20 M21 IO_L40P_3_M21 PF4 IO_L01P_2_VRN_2_C21_J2_16 IO_L01N_2_VRP_2_C20 IO_L01P_2_VRN_2_C21_J2_16 C20 IO_L01N_2_VRP_2_C20 C21 IO_L01P_2_VRN_2_C21 IO_L01N_3_VRP_3_Y20 IO_L01P_3_VRN_3_Y19 Y20 SPIDS0 Y19 R33 49.9 0603 DNP MISO XC3S1000 FG456 3.3V VCCO_2 ANALOG DEVICES 4 C60 0.01UF 0603 C59 0.01UF 0603 C58 0.01UF 0603 FPGA C57 0.01UF 0603 C61 0.01UF 0603 C82 0.01UF 0603 C81 0.01UF 0603 C62 0.01UF 0603 Title Size FPGA A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER FPGA BANKS 2 + 3 Board No. C Date 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 7 of 12 A B C D EXPANSION INTERFACE (TYPE B) 1 5V_EI 1 3.3V_EI Expansion Connector 3 Bottom Of Board Top Of Board P3_[1:90] J3 2 1 4 3 6 5 8 7 10 9 12 11 14 13 16 15 18 17 20 19 22 21 24 24 23 25 26 26 25 27 28 28 27 29 30 30 29 31 32 32 31 33 34 34 33 35 36 36 35 37 38 38 37 39 40 40 39 41 42 42 41 43 44 44 43 P3_45 45 46 P3_46 P3_46 46 45 P3_45 P3_47 47 48 P3_48 P3_48 48 47 P3_47 P3_49 49 50 P3_50 P3_50 50 49 P3_49 P3_51 51 52 P3_52 P3_52 52 51 P3_51 P3_53 53 54 P3_54 P3_54 54 53 P3_53 P3_55 55 56 P3_56 P3_56 56 55 P3_55 P3_57 57 58 P3_58 P3_58 58 57 P3_57 P3_59 59 60 P3_60 P3_60 60 59 P3_59 P3_61 61 62 P3_62 P3_62 62 61 P3_61 P3_63 63 64 P3_64 P3_64 64 63 P3_63 65 66 66 65 P3_67 67 68 P3_68 P3_68 68 67 P3_67 P3_69 69 70 P3_70 P3_70 70 69 P3_69 P3_71 71 72 P3_72 P3_72 72 71 P3_71 P3_73 73 74 P3_74 P3_74 74 73 P3_73 P3_75 75 76 P3_76 P3_76 76 75 P3_75 P3_77 77 78 P3_78 P3_78 78 77 P3_77 P3_79 79 80 P3_80 P3_80 80 79 P3_79 81 82 P3_82 P3_82 82 81 83 84 P3_84 P3_84 84 83 85 86 P3_86 P3_86 86 85 87 88 88 87 89 90 90 89 UDEF14 RX0 RX1 UDEF16 UDEF18 UDEF20 UDEF22 UDEF24 UDEF26 UDEF28 UDEF30 2 CLK_OUT_EXP1 UDEF31 UDEF33 UDEF35 UDEF37 UDEF39 UDEF41 3 BR BG BGH 3.3V_EI P3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 UDEF15 TX0 B5_L01P_CS_B_AA3_J3_2 B5_L06P_AA4_J3_6 TX1 B5_L09P_W5_J3_8 UDEF17 B5_L10P_VRN_AA5_J3_10 UDEF19 B5_L15P_V6_J3_12 UDEF21 B5_L16P_Y6_J3_14 UDEF23 B5_L19P_W7_J3_16 UDEF25 B5_L22P_AA7_J3_18 UDEF27 B5_L24P_V8_J3_20 UDEF29 B5_L25P_AA8_J3_22 RESET B5_U7_J3_28 B5_L32N_GCLK3_AA11_J3_30 UDEF32 B5_L27P_V9_J3_32 UDEF34 B5_L28P_D7_AA9_J3_34 UDEF36 B5_L29P_W10_J3_36 UDEF38 UDEF40 P3_42 B5_L30P_AA10_J3_38 B5_L31P_D5_V11_J3_40 P3_42 B5_L01N_RDWR_B_Y4_J3_1 B5_L06N_AB4_J3_5 B5_L09N_Y5_J3_7 B5_L10N_VRP_AB5_J3_9 B5_L15N_W6_J3_11 B5_L16N_AA6_J3_13 B5_L19N_Y7_J3_15 B5_L22N_AB7_J3_17 B5_L24N_W8_J3_19 B5_L25N_AB8_J3_21 B5_U6_J3_23 2 B5_V7_J3_29 B5_L27N_W9_J3_31 B5_L28N_D6_AB9_J3_33 B5_L29N_Y10_J3_35 B5_L30N_AB10_J3_37 B5_L31N_D4_W11_J3_39 B5_U9_J3_41 3 B5_U10_J3_81 B5_U11_J3_83 B5_V10_J3_85 5V_EI P3_89 CON018 C86 10UF 0805 C85 0.1UF 0603 C83 10UF 0805 UDEF43 B5_AB11_J3_90 P3_89 CON019 C84 0.1UF 0603 ANALOG DEVICES 4 Title Expanison Connector P3 Expanison Connector P3 Size A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER EXPANSION INTERFACE CONNECTOR 3 Board No. C Date 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 8 of 12 A B 2.5V 3.3V C D VCCO_5 3.3V P11 1 VCCO_5 2 3 1 3.3V 1 IDC3X1 U1 P17 T12 VCCO_5_T9 VCCO_4_T13 VCCO_5_T10 VCCO_4_T14 VCCO_5_T11 T13 VCCO_4_T12 T14 U15 VCCO_4_U15 Y15 VCCO_4_Y15 B5_U6_J3_23 T10 B5_L24P_V8_J3_20 T11 U8 B5_L25P_AA8_J3_22 Y8 B5_L27P_V9_J3_32 VCCO_5_U8 VCCO_5_Y8 B5_L28P_D7_AA9_J3_34 U16 RESET IO_U16 U17 UDEF35 IO_U17 W13 TX0 IO_W13 W14 UDEF19 IO_W14 V18 UDEF41 IO_VREF_4_V18 Y16 UDEF28 IO_VREF_4_Y16 AB13 UDEF15 IO_L06N_4_VREF_4_W18 Y18 UDEF39 IO_L06P_4_Y18 AA18 UDEF37 IO_L09P_4_AB18 V17 UDEF34 IO_L10N_4_V17 W17 UDEF33 IO_L10P_4_W17 Y17 UDEF32 IO_L15N_4_Y17 AA17 UDEF31 IO_L15P_4_AA17 V16 UDEF30 IO_L16N_4_V16 W16 UDEF29 IO_L16P_4_W16 AA16 UDEF27 IO_L19N_4_AA16 AB16 UDEF26 IO_L19P_4_AB16 V15 UDEF25 IO_L22N_4_VREF_4_V15 W15 UDEF24 IO_L22P_4_W15 AA15 UDEF23 IO_L24N_4_AA15 AB15 UDEF22 IO_L24P_4_AB15 U14 UDEF21 IO_L25N_4_U14 V14 UDEF20 IO_L25P_4_V14 AA14 CONFIG_DIN_DT1PRI IO_L27N_4_DIN_D0_AA14 AB14 UDEF17 IO_L27P_4_D1_AB14 U13 TX1 IO_L28N_4_U13 V13 RX1 IO_L28P_4_V13 Y13 RX0 R46 10K 0603 IO_L09N_4_AA18 AB18 UDEF36 3 IO_L05P_4_AB19 W18 UDEF40 3.3V IO_L05N_4_AA19 AB19 UDEF43 2 IO_VREF_4_AB13 AA19 BR IO_L29N_4_Y13 AA13 UDEF14 IO_L29P_4_AA13 U12 UDEF16 IO_L30N_4_D2_U12 V12 UDEF38 IO_L30P_4_D3_V12 W12 CONFIG_INIT_B_TFS1 IO_L31N_4_INIT_B_W12 U7 IO_U7 U9 IO_U9 U10 IO_U10 U11 IO_U11 V7 IO_V7 V10 IO_V10 U6 IO_VREF_5_U6 AB11 IO_VREF_5_AB11 Y4 IO_L01N_5_RDWR_B_Y4 AA3 IO_L01P_5_CS_B_AA3 AB4 IO_L06N_5_AB4 AA4 IO_L06P_5_AA4 Y5 IO_L09N_5_Y5 W5 IO_L09P_5_W5 W6 IO_L15N_5_W6 V6 IO_L15P_5_V6 AA6 IO_L16N_5_AA6 Y6 IO_L16P_5_Y6 Y7 IO_L19N_5_Y7 W7 IO_L19P_5_VREF_5_W7 AB7 IO_L22N_5_AB7 AA7 IO_L22P_5_AA7 W8 IO_L24N_5_W8 V8 IO_L24P_5_V8 AB8 IO_L25N_5_AB8 AA8 IO_L25P_5_AA8 W9 IO_L27N_5_VREF_5_W9 V9 IO_L27P_5_V9 AB9 IO_L28N_5_D6_AB9 AA9 IO_L28P_5_D7_AA9 Y10 IO_L29N_5_Y10 W10 IO_L29P_5_VREF_5_W10 AB10 IO_L30N_5_AB10 AA10 IO_L30P_5_AA10 W11 IO_L31N_5_D4_W11 V11 IO_L31P_5_D5_V11 B5_U7_J3_28 B5_L29P_W10_J3_36 B5_U9_J3_41 B5_L30P_AA10_J3_38 B5_U10_J3_81 B5_L31P_D5_V11_J3_40 B5_U11_J3_83 B5_U10_J3_81 B5_V7_J3_29 B5_AB11_J3_90 B5_V10_J3_85 AA20 AB20 BGH IO_L01N_4_VRP_4_AA20 IO_L01P_4_VRN_4_AB20 IO_L10P_5_VRN_5_AA5 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 AB5 AA5 B5_U9_J3_41 B5_L24N_W8_J3_19 B5_L25N_AB8_J3_21 B5_L27N_W9_J3_31 B5_L28N_D6_AB9_J3_33 B5_L29N_Y10_J3_35 B5_L30N_AB10_J3_37 B5_L31N_D4_W11_J3_39 B5_U11_J3_83 B5_V10_J3_85 IDC13X2 B5_L01N_RDWR_B_Y4_J3_1 B5_L01P_CS_B_AA3_J3_2 B5_L06N_AB4_J3_5 B5_L06P_AA4_J3_6 2 B5_L09N_Y5_J3_7 B5_L09P_W5_J3_8 B5_L15N_W6_J3_11 B5_L15P_V6_J3_12 B5_L16N_AA6_J3_13 B5_L16P_Y6_J3_14 B5_L19N_Y7_J3_15 B5_L19P_W7_J3_16 B5_L22N_AB7_J3_17 B5_L22P_AA7_J3_18 3.3V B5_L24N_W8_J3_19 B5_L24P_V8_J3_20 B5_L25N_AB8_J3_21 B5_L25P_AA8_J3_22 B5_L27N_W9_J3_31 B5_L32N_GCLK3_AA11_J3_30 B5_L27P_V9_J3_32 B5_L01P_CS_B_AA3_J3_2 B5_L28N_D6_AB9_J3_33 B5_L06P_AA4_J3_6 B5_L28P_D7_AA9_J3_34 B5_L09P_W5_J3_8 B5_L29N_Y10_J3_35 B5_U7_J3_28 B5_L29P_W10_J3_36 B5_L30N_AB10_J3_37 B5_L10P_VRN_AA5_J3_10 B5_L30P_AA10_J3_38 B5_L15P_V6_J3_12 B5_L31N_D4_W11_J3_39 B5_L16P_Y6_J3_14 B5_L31P_D5_V11_J3_40 B5_L19P_W7_J3_16 B5_L22P_AA7_J3_18 IO_L10N_5_VRP_5_AB5 4 B5_AB11_J3_90 IO_L31P_4_DOUT_BUSY_Y12 BG 2 3 B5_U6_J3_23 Y12 UDEF18 1 T9 P16 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 B5_L32P_GCLK2_Y1 B5_L01N_RDWR_B_Y4_J3_1 B5_L06N_AB4_J3_5 B5_L09N_Y5_J3_7 B5_V7_J3_29 3 B5_L10N_VRP_AB5_J3_9 B5_L15N_W6_J3_11 B5_L16N_AA6_J3_13 B5_L19N_Y7_J3_15 B5_L22N_AB7_J3_17 IDC13X2 B5_L10N_VRP_AB5_J3_9 B5_L10P_VRN_AA5_J3_10 VCCO_5 R9 0 0603 AA12 AB12 CLK_OUT_EXP1 IO_L32N_4_GCLK1_AA12 IO_L32N_5_GCLK3_AA11 IO_L32P_4_GCLK0_AB12 IO_L32P_5_GCLK2_Y11 AA11 Y11 B5_L32N_GCLK3_AA11_J3_30 B5_L32P_GCLK2_Y1 XC3S1000 FG456 B4_L32N_GCKL1_AA12 R43 49.9 0603 DNP B5_L10N_VRP_AB5_J3_9 B5_L10P_VRN_AA5_J3_10 3.3V VCCO_5 R45 49.9 0603 DNP ANALOG DEVICES 4 C67 0.01UF 0603 C70 0.01UF 0603 C69 0.01UF 0603 C68 0.01UF 0603 C63 0.01UF 0603 C66 0.01UF 0603 C65 0.01UF 0603 FPGA C64 0.01UF 0603 Title Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER FPGA BANKS 4 + 5 FPGA Size Board No. C Date A 20 Cotton Road B C Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 9 of 12 A B C D 1 1 3.3V B5_L25N_AB8_J3_21 B5_L27N_W9_J3_31 B5_L28N_D6_AB9_J3_33 R47 10K 0603 U8 B5_L30N_AB10_J3_37 2 B5_L31N_D4_W11_J3_39 SW3 SWT013 MOMENTARY B5_U11_J3_83 R42 10 0603 1 B5_L29N_Y10_J3_35 4 PB1 SN74LVC1G125 SOT23-5 C5 1UF 0603 B5_V10_J3_85 2 2 2.5V R23 100 0402 LED7 YELLOW LED001 LED6 YELLOW LED001 LED5 YELLOW LED001 LED4 YELLOW LED001 LED3 YELLOW LED001 LED2 YELLOW LED001 LED1 YELLOW LED001 LED8 YELLOW LED001 PB2 LED9 GREEN LED001 SW4 SWT013 MOMENTARY 3.3V R39 330 0603 R37 330 0603 R38 330 0603 R36 330 0603 R35 330 0603 R34 330 0603 R10 330 0603 R41 330 0603 R40 330 0603 C80 0.01UF 0603 SN74LVC1G125 3 3 JP5 1 2 3 4 5 6 7 8 B6_L01N_Y3 B6_L01P_Y2 B5_U10_J3_81 B5_AB11_J3_90 IDC4X2 ANALOG DEVICES 4 Title Size A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER USER IO Board No. C Date 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 10 of 12 A B C D UNREG_IN S2A D5 2A DO-214AA F1 2.5A FUS001 FER1 190 FER002 4 3 1 2 J4 1 C1 1000PF 0805 1 2 C4 10UF C C3 0.1UF 0603 1 3 POWER CON005 C2 1000PF 0805 FER2 600 0603 5V_EI Q1 SI2343DS SOT23D 2.5V UNREG_IN L3 10UH IND005 P42 1 3 2 2 1 2 2 P12 1 VR1 2 4 3 R12 0 0603 IDC3X1 3 VIN SW EN GND 5 1 CT1 100UF C D1 HSM350J DO214AB 3A R59 0 0603 2 IDC2X1 DNP R18 2.15K 0603 2 3.3V_EI 3.3V 1 C10 1000PF 0805 FB C71 10UF 0805 P13 Q3 SI2343DS SOT23D LM3475MF SOT23-5 UNREG_IN 1 L2 10UH IND005 2 3 R11 1.05K 0603 3 2 IDC3X1 1 C73 390PF 0603 DNP 2 VR3 R16 0 0603 4 VIN SW 5 3 EN 2 GND 1 D3 HSM350J DO214AB 3A CT3 100UF C 1 R58 0 0603 R17 31.6K 0603 C74 1000PF 0805 FB LM3475MF SOT23-5 1.2V 3 3 Q2 SI2343DS SOT23D C9 10UF 0805 L1 10UH IND005 P43 1 3 2 C72 390PF 0603 DNP R19 10.0K 0603 1 2 2 VR2 4 R15 0 0603 3 VIN SW EN GND 5 1 D2 HSM350J DO214AB 3A CT2 100UF C R20 200.0K 0603 IDC2X1 DNP R13 4.99K 0603 2 1 C6 3900PF 0805 FB LM3475MF SOT23-5 C8 10UF 0805 C7 390PF 0603 R14 10.0K 0603 ANALOG DEVICES 4 Title Size A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER POWER Board No. C Date 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 11 of 12 A B C D 1 1 TP79 TP106 TP103 P22 1 2 TP77 P26 TP93 1 2 TP104 P30 1 2 805 805 805 P23 1 P27 P31 2 TP107 TP96 1 2 TP95 TP20 1 TP115 P34 1 TP69 2 TP10 P35 1 TP88 805 805 805 P24 1 P28 P32 P36 1 2 TP105 TP98 1 2 P25 1 TP97 TP42 1 805 2 TP102 1 805 2 805 2 TP31 TP90 805 P29 TP99 TP100 TP63 TP78 2 TP87 2 TP52 P37 1 TP91 805 P40 TP111 2 TP89 TP113 TP112 805 P33 1 2 805 805 805 TP101 TP94 2 1 2 3 4 5 6 TP114 TP40 TP116 TP38 TP117 TP39 SOT23-6 TP92 P41 1 2 3 4 5 6 TP37 TP36 TP35 SOT23-6 805 2 2 TP82 TP44 TP83 TP85 TP84 TP74 TP72 TP73 TP70 TP71 TP46 P18 TP68 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 P19 1 TP19 TP67 TP17 TP66 TP18 TP65 TP21 TP64 TP23 TP62 TP22 TP61 TP25 TP60 TP24 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 TP26 TP45 TP27 TP48 TP28 TP47 TP29 TP50 TP30 TP49 TP32 TP41 TP33 TP43 TP34 P20 1 3 2 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 TP54 TP119 TP55 TP14 TP86 TP12 TP56 TP13 TP57 TP9 TP58 TP11 TP59 TP7 TP81 TP8 TP53 TP16 TP51 TP15 SOIC20 P21 1 TP4 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 TP125 TP118 TP124 TP123 TP122 TP121 TP120 TP5 TP6 SOIC20 SOIC16 SOIC16 3 3 TP76 TP80 TP75 P38 1 2 3 SOT23D TP109 TP108 TP110 P39 1 2 3 SOT23D ANALOG DEVICES 4 Title Size A B C Nashua, NH 03063 4 PH: 1-800-ANALOGD BLACKFIN FPGA EZ-EXTENDER PROTO AREA Board No. C Date 20 Cotton Road Rev A0199-2005 1.0B Sheet 5-4-2006_11:44 D 12 of 12 I INDEX Numerics 2.5V header (P42), 2-17 A ADSP-BF533/37/61 EZ-KIT Lite interface, x, 1-3, 2-2 ADSP-BF533/37/61 processors, boot mode settings, 2-14 architecture, of this EZ-Extender, 2-2 asynchronous static random access memory (SRAM), x auxiliary oscillator, xi, 1-4 connectors map of locations, 2-17 J1-3 (expansion), 2-19 P1-3 (expansion), 2-18 P14 (IDC), 2-19 P15 (JTAG header), 2-4 P16-17 (IDC), 2-19 P4 (high-speed), 2-20 P5 (IDC), 2-20 P6 (JTAG), 2-7 P7 (IDC), 2-20 P8 (IDC), 2-19 D B done LED (LED10), 2-17 bill of materials, A-1 block diagram, of this EZ-Extender, 2-2 board schematic, B-1 boot jumper, See JP4 E C configuration jumpers, See JP2, JP3 expansion interface connectors (P1-3, J1-3), 2-18 of ADSP-BF533/37/61 EZ-KIT Lites, x, 1-3, 2-2 external power supply, 1-3, 2-8 F Field-Programmable Gate Array, See FPGA flash programming utility, 2-6 Blackfin FPGA EZ-Extender Manual I-1 Index FPGA documentation, 2-6 input jumpers (JP5), 2-14 software/firmware, 1-2 Xilinx Spartan package, x, 1-3 FPGA pins AB10 (LED3), 2-16 AB11 (JP5.8), 2-14 AB8 (LED7), 2-17 AB9 (LED5), 2-17 C11 (PB1/SW3), 2-16 H5 (PB2/SW3), 2-16 M2-0 (JP4), 2-13 U10 (JP5.6), 2-14 U11 (LED1), 2-16 V10 (LED8), 2-17 W11 (LED2), 2-16 W9 (LED6), 2-17 Y10 (LED4), 2-16 Y3-2 (JP5.2-5.4), 2-14 FPGA programming block diagram, 2-3 via ADSP-BF533/37/6 processors, 2-6 via JTAG header, 2-4 via serial ROM, 2-5 G J JTAG cable, 1-4, 2-7 header (P6), 1-5, 2-4, 2-7, 2-14 jumpers map of locations, 2-11 JP1 (boot jumper), 2-5, 2-12 JP2 (config done), 2-12 JP3 (config program), 2-13 JP4.1-4.6 (boot mode select), 2-5, 2-6, 2-13 JP5.2-5.6 (FPGA input), 2-14 L LEDs map of locations, 2-15 LED10 (FPGA done pin), 2-4, 2-5, 2-17 LED1-8 (status), 2-16 LED9 (power), 2-17 M M2-0 (JP4) pins, 2-5 master serial boot mode, 2-6 MCS-86 Hexadecimal Object (.mcs) file format, 2-6 GCLK1 (global clock 1) pin, 1-4 GCLK6 (global clock 6) pin, 1-4 general-purpose input push buttons, 2-16 O H P high-speed connector (P4), 2-20 P12 (power in) header, 2-9 P13 (3.3V header), 2-9 P42 (2.5V header), 2-10 P43 (1.2V header), 2-10 PB1 push button (SW3), 2-16 PB2 push button (SW4), 2-16 I IDC connectors, xi, 2-19, 2-20 installation, of this EZ-Extender, 1-1 I-2 oscillator, xi, 1-4 Blackfin FPGA EZ-Extender Manual Index PF14 flag pin (ADSP-BF537 EZ-KIT Lite), 2-12 PF3 flag pin (ADSP-BF533/61 EZ-KIT Lite), 2-12 power 1.2V header (P43), 2-10 2.5V header (P42), 2-10 3.3V header (P13), 2-9 in header (P12), 2-9 LED (LED9), 2-17 limitations, 2-8 supplies, 1-3, 2-8 printed circuit board (PCB), 1-2 product overview, x program push button (SW1), 2-4, 2-16 push buttons See also SWx map of locations, 2-15 slave serial mode, 2-6 SRAM memory banks, 1-4 status reporting, 1-4, 2-16 SW1 (program) push button, 2-4, 2-16 SW3 (PB1) push button, 2-16 SW4 (PB2) push button, 2-16 switching regulators, 2-8 S X schematic, B-1 serial ROM, 1-4 boot jumper (JP1), 2-12, 2-14 programming via JTAG Header, 2-7 setup, of this EZ-Extender, 1-1 Xilinx JTAG cable/software, 1-4, 2-4, 2-7 JTAG header, 2-12 serial ROM, 1-4 Blackfin FPGA EZ-Extender Manual T TCK signal, 2-7 TDI signal, 2-7 TDO signal, 2-7 technical support, xiii TMS signal, 2-7 V VR1-3 regulators, 2-8 I-3