ADSP-BF609 EZ-KIT Lite® Evaluation System Manual Revision 1.0, March 2012 Part Number 82-000269-01 Analog Devices, Inc. One Technology Way Norwood, Mass.
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.
Regulatory Compliance The ADSP-BF609 EZ-KIT Lite is designed to be used solely in a laboratory environment. The board is not intended for use as a consumer end product or as a portion of a consumer end product. The board is an open system design which does not include a shielded enclosure and therefore may cause interference to other electrical devices in close proximity. This board should not be used in or near any medical equipment or RF devices.
CONTENTS PREFACE Product Overview .......................................................................... xii Purpose of This Manual .................................................................. xv Intended Audience .......................................................................... xv Manual Contents ........................................................................... xvi What’s New in This Manual ...........................................................
Contents System Requirements .................................................................... 1-5 EZ-KIT Lite Installation ............................................................... 1-6 EZ-KIT Lite Session Startup ......................................................... 1-7 Evaluation License Restrictions ................................................... 1-10 Memory Map ............................................................................. 1-10 DDR2 SDRAM ................................
Contents ADSP-BF609 EZ-KIT LITE HARDWARE REFERENCE System Architecture ...................................................................... 2-2 Software-Controlled Switches (SoftConfig) .................................... 2-3 Overview of SoftConfig ........................................................... 2-3 SoftConfig on the ADSP-BF609 EZ-KIT LITE ...................... 2-7 Programming SoftConfig Switches ........................................... 2-8 Push Buttons and Switches .....................
Contents JTAG Connector (ZP1) ......................................................... 2-26 Expansion Interface III Connectors (P1A–C, P2A, P3A) ........ 2-26 USB Connector (P7) ............................................................. 2-26 Power Connector (P18) ......................................................... 2-26 CAN Connector (J4) ............................................................ 2-27 SD Connector (J5) ................................................................
Contents Expansion Interface, Page 2 ........................................................ B-14 Expansion Interface, Page 3 ........................................................ B-15 Power ........................................................................................
Contents x ADSP-BF609 EZ-KIT Lite Evaluation System Manual
PREFACE Thank you for purchasing the ADSP-BF609 EZ-KIT Lite®, Analog Devices, Inc. low-cost evaluation system for the ADSP-BF60x Blackfin® processors. The ADSP-BF609 processor is a member of the Blackfin family of products, incorporating the Analog Devices/Intel Micro Signal Architecture (MSA).
Product Overview • Read and write core and peripheral registers • Plot memory Access to the processor from a personal computer (PC) is achieved through a USB port (when a debug agent is mounted on the EZ-KIT Lite board) or an external JTAG emulator. The USB interface provides unrestricted access to the ADSP-BF609 processor and evaluation board peripherals. Analog Devices JTAG emulators offer faster communication between the host PC and target hardware.
Preface • Double Data Rate Synchronous Dynamic Random-Access Memory (DDR2 SDRAM) • Micron MT47H64M16HR-3 • 64M x 16 bit (1 Gb) • Burst flash memory • Micron PC28F128P33T85B • 16M x 16-bit (32 MB) flash memory • Quad Serial Peripheral Interface (SPI) • Winbond W25Q32 • 32 Mb serial flash memory • Ethernet PHY • National Semiconductor • DP83848C 10/100 PHY • Two LEDs integrated into the RJ-45 connector: link/activity • Universal Asynchronous Receiver/Transmitter (UART) • ADM3315 RS-232 line driver/receiver •
Product Overview • Controller Area Network (CAN) • NXP TJA1041 • RJ-11 connector • Debug interface • JTAG header for use with ADI emulators • Standalone debug agent • LEDs • Eight LEDs: one power (green), one board reset (red), one temperature limit (amber), Ethernet speed (green), and four general-purpose (amber) • Push buttons • Four push buttons: one reset, one wake, and two IRQ/flag • Expansion Interface 3 (EI3) • Next generation of the expansion interface design, provides access to most of the process
Preface • JTAG ICE 14-pin header • USB cable Traditional mechanical switches for changing the board’s factory setup have been removed in favor of I2C controlled software switches. The only remaining mechanical switches are the JTAG switches, boot mode switch, and push buttons. The JTAG switches are provided for setting up single-processor JTAG communications or multiple-processor configurations.
Manual Contents Programmers who are unfamiliar with CrossCore Embedded Studio should refer to the CCES online help. Manual Contents The manual consists of: • Chapter 1, “Using ADSP-BF609 EZ-KIT Lite” on page 1-1. Describes EZ-KIT Lite functionality from a programmer’s perspective and provides a simplified memory map of the processor. • Chapter 2, “ADSP-BF609 EZ-KIT Lite Hardware Reference” on page 2-1. Provides information about the EZ-KIT Lite hardware components.
Preface Technical or Customer Support You can reach Analog Devices, Inc. Customer Support in the following ways: • Visit the Embedded Processing and DSP products Web site at http://www.analog.com/processors/technical_support • E-mail tools questions to processor.tools.support@analog.com • E-mail processor questions to processor.support@analog.com (World wide support) processor.china@analog.com (China support) • Phone questions to 1-800-ANALOGD • Contact your Analog Devices, Inc.
Product Information Product Information Product information can be obtained from the Analog Devices Web site and the CCES 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.
Preface FAQs and technical information to get quick answers to your embedded processing and DSP design questions. Use EngineerZone to connect with other DSP developers who face similar design challenges. You can also use this open forum to share knowledge and collaborate with the ADI support team and your peers. Visit http://ez.analog.com to sign up. Related Documents For additional information about the product, refer to the following publications. Table 1.
Notation Conventions Notation Conventions Text conventions used in this manual are identified and described as follows. xx Example Description Close command (File menu) Titles in reference sections indicate the location of an item within the CCES environment’s menu system (for example, the Close command appears on the File menu). {this | that} Alternative required items in syntax descriptions appear within curly brackets and separated by vertical bars; read the example as this or that.
1 USING ADSP-BF609 EZ-KIT LITE This chapter provides information to assist you with development of programs for the ADSP-BF609 EZ-KIT Lite evaluation system. The following topics are covered.
Package Contents • “UART Interface” on page 1-15 • “Rotary Encoder Interface” on page 1-16 • “Temperature Sensor Interface” on page 1-17 • “Link Ports Interface” on page 1-17 • “General-Purpose I/O (GPIO)” on page 1-18 • “JTAG Interface” on page 1-18 • “Power-On-Self Test” on page 1-20 • “Expansion Interface III” on page 1-20 • “Power Architecture” on page 1-21 • “Power Measurements” on page 1-21 • “Example Programs” on page 1-22 • “Reference Design Information” on page 1-22 For information about the CCES
Using ADSP-BF609 EZ-KIT Lite • USB cable • 5 in 1 USB cable kit • CE approved power supply • Ethernet cable • 2 GB memory card • 4 nylon standoffs • 4 nylon hex nuts the standalone debug agent removed, the board can connect With to an Analog Devices emulator: USB, HP-USB, or ICE-100B. Contact the vendor where you purchased your EZ-KIT Lite or contact Analog Devices, Inc. if any item is missing.
Default Configuration The EZ-KIT Lite evaluation system contains ESD (electrostatic discharge) sensitive devices. Electrostatic charges readily accumulate on the human body and equipment and can discharge without detection. Permanent damage may occur on devices subjected to high-energy discharges. Proper ESD precautions are recommended to avoid performance degradation or loss of functionality. Store unused EZ-KIT Lite boards in the protective shipping package.
Using ADSP-BF609 EZ-KIT Lite Supported Operating Systems CCES 1.0.0 is supported on the following operating systems: • Windows® XP Professional SP3 (32-bit only) • Windows Vista™ Business, Enterprise, or Ultimate SP2 (32-bit only) • Windows 7 Professional, Enterprise, or Ultimate (32- and 64-bit) Vista and Windows 7 users may experience User Access Windows Control (UAC) related errors if the software is installed into a protected location, such as Program Files or Program Files (x86).
EZ-KIT Lite Installation EZ-KIT Lite Installation Follow these instructions to ensure correct operation of the product software and hardware. Step 1: Attach the provided USB plugs (labeled Mini and Male) to the provided USB cable. Step 2: Connect the EZ-KIT Lite board to a personal computer (PC) running CCES. There are two connection options: using an Analog Devices emulator or using the standalone debug agent. Using an Emulator: 1.
Using ADSP-BF609 EZ-KIT Lite Step 3: Attach the provided cord and appropriate plug to the 5V power adaptor. 1. Plug the jack-end of the assembled power adaptor into the power connector P18 (labeled 5V) on the EZ-KIT Lite board. 2. Plug the other side of the power adaptor into a power outlet. The power LED (labeled LED6) lights green when power is applied to the board. 3. Power the emulator.
EZ-KIT Lite Session Startup 2. Use a debug configuration to connect to the EZ-KIT Lite board. If a debug configuration exists already, select the appropriate configuration and click Apply and Debug or Debug. Go to step 9. To create a debug configuration: • Click the down arrow next to the little bug icon, select Debug Configurations, or • Choose Run > Debug Configurations. 3. (To create a new debug configuration) Select CrossCore Embedded Studio Application and click (New launch configuration).
Using ADSP-BF609 EZ-KIT Lite 6. Do one of the following: • For standalone debug agent connections, ensure that the selected platform is ADSP-BF609 EZ-KIT Lite 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.
Evaluation License Restrictions Evaluation License Restrictions The ADSP-BF609 EZ-KIT Lite software is part of the EZ-Board BSP (Board Support Package) for the Blackfin ADSP-BF60x family. The EZ-KIT Lite 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 not activated, it allows 10 days of unrestricted use and then becomes disabled.
Using ADSP-BF609 EZ-KIT Lite Figure 1-2.
DDR2 SDRAM The board has a 16M x 16-bit burst flash memory connected to the processor’s Static Memory Controller (SMC). The processor also is connected to a 32 Mb quad serial flash memory via the Serial Peripheral Interface (SPI). Both flash memories can be used for non-volatile data storage and processor boot. DDR2 SDRAM The ADSP-BF609 processor connects to a 128 MB Micron MT47H64M16HR-3 chip through the Double Data Rate Synchronous Dynamic Random-Access Memory (DDR2 SDRAM) controller.
Using ADSP-BF609 EZ-KIT Lite SPI Interface The ADSP-BF609 processor has two SPI interfaces,SPI0 and SPI1. SPI0 is connected to a Winbond W25Q32BV 32 Mb serial flash memory with dual and quad SPI support. Quad mode is enabled by default. The processor flag signals, PD00 and and D3), can be disconnected by using SoftConfig. Refer to “Software-Controlled Switches (SoftConfig)” on page 2-3 for more information. By default, the SPI0 chip select 1 is connected to the memory device.
USB OTG HS Interface RJ-45 connector. For more information, see “Ethernet Connector (J1)” on page 2-27. The MAC address is stored in parallel flash (U44) at address 0x0106 0000, and can be found on a sticker on the bottom side of the board. is written over this area of the flash, the MAC address Ifwilla program be lost. Example programs are included in the EZ-KIT Lite installation directory to demonstrate how to use the Ethernet interface.
Using ADSP-BF609 EZ-KIT Lite is attached to the CAN0 port of the ADSP-BF609 processor via an RJ-11 connector. See “CAN Connector (J4)” on page 2-27. The PE02 programmable flag connects to the error and power on indication output of the CAN transceiver, CAN0. The transmit and receive pins of the transceiver are connected to the dedicated CAN0 transmit and receive pins of the processor. To disconnect the CAN IC signals CAN0RX and CAN0_ERR, change the appropriate settings via SoftConfig.
SD Interface An example program demonstrating UART0 in POST is included in the EZ-KIT Lite installation directory. Note that the loopback of TX and RX data is done through an external connector. SD Interface The ADSP-BF609 processor has a secure digital (SD) interface. The SD interface consists of a clock pin, command pin, card detect pin, write protect pin, and an 8-bit data bus.
Using ADSP-BF609 EZ-KIT Lite An example program is included in the EZ-KIT Lite installation directory to demonstrate how to set up and access the rotary encoder. Temperature Sensor Interface Two external pins (SYS_TDA and SYS_TDK) of the processor are connected to an internal thermal diode. The EZ-KIT Lite uses ON Semiconductor ADM1032 digital thermometer and under/over temperature alarm to monitor the processor’s temperature as well as the thermal diodes inside the ADM1032 device.
General-Purpose I/O (GPIO) The ports are used to interface gluelessly to other ADSP-BF609 processors which also have the link ports pins brought out. The EZ-KIT Lite enables access to link ports 0 and 1 (referred to as LP0 and LP1 in schematics) via connectors P8 and J3, respectively. Two ADSP-BF609 EZ-KIT Lites can mate gluelessly via the link port connectors. The processors communicate via the link ports, all while performing independent tasks on each of the EZ-KIT Lite.
Using ADSP-BF609 EZ-KIT Lite multi-processor mode, install an external emulator. Only one external emulator is required for the main EZ-KIT Lite; other EZ-KIT Lites in the JTAG chain do not require an emulator. In this mode, create a CCES platform based on the number of JTAG devices in the JTAG chain using the CCES Target Configurator. Then create a session for the EZ-KIT Lite based on the newly created platform. For a dual ADSP-BF609 EZ-KIT Lite session, connect two EZ-KIT Lites via connectors J3 and P8.
Power-On-Self Test Power-On-Self Test The Power-On-Self-Test Program (POST) tests all EZ-KIT Lite peripherals and validates functionality as well as connectivity to the processor. Once assembled, each EZ-KIT Lite if fully tested for an extended period of time with POST. All EZ-KIT Lite boards are shipped with 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).
Using ADSP-BF609 EZ-KIT Lite Lite; therefore, the current should be limited to 200 mA for 5V and 300 mA for the 3.3V planes. If more current is required, then a separate power connector and a regulator must be designed on the 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.
Example Programs Example Programs Example programs are provided with the ADSP-BF609 EZ-KIT Lite to demonstrate various capabilities of the product. The programs are installed with CCES and can be found in the CrossCore Embedded Studio directory. Refer to a readme file provided with each example for more information. Reference Design Information A reference design info package is available for download on the Analog Devices Web site.
2 ADSP-BF609 EZ-KIT LITE HARDWARE REFERENCE This chapter describes the hardware design of the ADSP-BF609 EZ-KIT Lite board. The following topics are covered. • “System Architecture” on page 2-2 Describes the board’s configuration and explains how the board components interface with the processor. • “Software-Controlled Switches (SoftConfig)” on page 2-3 Lists and describes the processor signals routed through the software-controlled switches.
System Architecture System Architecture This section describes the processor’s configuration on the EZ-KIT Lite board (Figure 2-1). 10/100 MAC USB Mini Conn USB OTG Circuitry Rotary Encoder Conn PWM GPIOs EBIU 48 MHz Oscillator Ext Clock Test Point/ Crystal Link Port 0/ MPJTAG Out Conn CAN 2.
ADSP-BF609 EZ-KIT Lite Hardware Reference Software-Controlled Switches (SoftConfig) On the ADSP-BF609 EZ-KIT Lite, most of the traditional mechanical switches have been replaced by I2C software-controlled switches. The remaining mechanical switches are provided for setting up a single- or multiprocessor JTAG session, changing the boot mode, and push buttons. Reference any SoftConfig*.
Software-Controlled Switches (SoftConfig) Figure 2-2 shows two individual FET switches (Pericom PI3A125CEX) with reference designators UA and UB. Net names ENABLE_A and ENABLE_ B control UA and UB. The default FET switch enable settings in this example are controlled by resistors RA and RB which pull the enable pin 1 of UA and UB to ground (low). In a real example, these enable signals are controlled by the Microchip IO expander.
ADSP-BF609 EZ-KIT Lite Hardware Reference Figure 2-3. Example of Mechanical Switch Equivalent to Figure 2-2 Figure 2-4 shows a bus switch example, reference designator UC (Pericom PI3LVD512ZHE), selecting between lettered functionality and numbered functionality. The signals on the left side are multiplexed signals with naming convention letter_number. The right side of the circuit shows the signals separated into letter and number, with the number on the lower group (eg.
Software-Controlled Switches (SoftConfig) Figure 2-4.
ADSP-BF609 EZ-KIT Lite Hardware Reference Figure 2-5. Example of Mechanical Switch Equivalent to Figure 2-4 SoftConfig on the ADSP-BF609 EZ-KIT LITE The Microchip MCP23017 GPIO expander provides control for individual and 10-bit electronic switches. The TWI0 interface of the processor communicates with the Microchip device. Two 10-bit switches, U40-41 are connected to the link port 1 and 0 interfaces, respectively.
Software-Controlled Switches (SoftConfig) Table 2-1.
ADSP-BF609 EZ-KIT Lite Hardware Reference • By default, the Microchip MCP23017 GPIO signals function as input signals. The signals must be programmed as output signals to override their default values. The following table shows the Microchip register addresses and the values that must be written to them to program the signals as output signals.
Software-Controlled Switches (SoftConfig) Table 2-4. I2C Hardware Address 0x23 GPIO MCP23017 Register Address Default Value GPIOA 0x12 0x00 GPIOB 0x13 0x00 Page 12 of the “ADSP-BF609 EZ-KIT Lite Schematic” on page B-1 shows how the three Microchip GPIO expanders are connected to the board’s ICs. U41, a 10-bit bus switch, connects the link port 0 processor interface to J3 (link port connector) when the select input signal (pin 12) is high.
ADSP-BF609 EZ-KIT Lite Hardware Reference U40, a 10-bit bus switch, controls the link port 1 connection to P8 (link port connector), EI3 (expansion interface), and SMC address signals. The default setting is high, which connects the SMC address bus to the parallel flash memory and connects the link port pins PA8-15 and PB2-3 to the expansion interface. The link port 1 can be selected by setting U46 signal GPA1 low.
Software-Controlled Switches (SoftConfig) Table 2-5.
ADSP-BF609 EZ-KIT Lite Hardware Reference Table 2-6. Output Signals of Microchip GPIO Expander (U45 Port B) (Cont’d) Bit Signal Name Description 5 ~UART0CTS_146_EN Allows pins 1, 4 and 6 of U16 UART connector (J2) to be connected together and used as input to reset IC (U48). This is disabled by default.
Software-Controlled Switches (SoftConfig) Table 2-7.
ADSP-BF609 EZ-KIT Lite Hardware Reference Table 2-8.
Software-Controlled Switches (SoftConfig) Table 2-9.
ADSP-BF609 EZ-KIT Lite Hardware Reference Table 2-10.
Push Buttons and Switches JTAG Interface Switches (SW1, SW3–5) The JTAG switches (SW1, SW3, SW4, and SW5) select between a single-processor (one board) and multi-processor (more than one board) configurations. By default, the four DIP switches are set up for a single EZ-KIT Lite configuration. See Table 2-11. The default configuration applies to either a debug agent or an external emulator, such as the Analog Devices high-performance USB-based emulator (HP-USB) or ICE-100B emulator.
ADSP-BF609 EZ-KIT Lite Hardware Reference Table 2-11. Single-Processor Configuration (Cont’d) Switch Position Single EZ-KIT Lite Use (Default) SW5.1 OFF SW5.2 OFF Table 2-12. Multiple-Processor Configuration Switch Position Main EZ-KIT Lite Attached to Emulator EZ-KIT Lite Not Attached to Emulator SW1.1 ON OFF SW1.2 ON ON SW1.3 ON OFF SW1.4 ON ON SW1.5 ON OFF SW1.6 ON ON SW1.7 ON OFF SW1.8 ON ON SW3.1 ON OFF SW3.2 OFF OFF SW4.1 OFF OFF SW4.2 ON ON SW5.
Push Buttons and Switches Table 2-13.
ADSP-BF609 EZ-KIT Lite Hardware Reference The rotary encoder can be disconnected from the processor by setting SoftConfig, see “Software-Controlled Switches (SoftConfig)” on page 2-3 for more information. Wake Push Switch (SW10) One of the wake input signals (PE12/~ETH1_PHYINT/PWM1_CL/RSI0_D5) is connected to a push button switch (SW10). This feature is disabled by default and can be enabled through SoftConfig. Refer to “Software-Controlled Switches (SoftConfig)” on page 2-3 for more details.
LEDs Remove jumpers listed in Table 2-14 to measure the respective voltage domain. Table 2-14. Power Jumpers (P10-15) Jumper Power Domain P15 VDD_DMC P14 VDD_INT P13 3.3V P12 VDD_EXT P11 VDD_USB P10 USB_VBUS LEDs This section describes the on-board LEDs. Figure 2-7 shows the LED locations. Figure 2-8.
ADSP-BF609 EZ-KIT Lite Hardware Reference GPIO LEDs (LED1–4) Four LEDs (LED1, LED2, LED3, and LED4) are connected to four general-purpose I/O pins of the processor (see Table 2-15). The LEDs are active high and lit (amber) by writing a “1” to the corresponding programmable flag signal. Table 2-15.
Connectors Reset LED (LED7) When LED4 is lit (red), it indicates that the master reset of the processor is active. The reset signal is controlled by the Analog Devices ADM13305 supervisory reset circuit. SPD LED (LED6) SPD LED indicates the speed of the Ethernet port. When LED6 is lit (green), the speed is 100 Mb/s and when not lit, the speed is 10 Mb/s. Connectors This section describes connector functionality and provides information about mating connectors.
ADSP-BF609 EZ-KIT Lite Hardware Reference DCE UART Connector (J2) The pinout of the J2 connector can be found in “ADSP-BF609 EZ-KIT Lite Schematic” on page B-1. Part Description Manufacturer Part Number IDC header FCI 68737-410HLF Mating Connector IDC socket DIGI-KEY S4205-ND Link Port /JTAG Connectors (J3 and P8) The J3 and P8 connectors provide access to the Link Port and JTAG signals of the ADSP-BF609 processor. J3 supports link port 0 and the P8 connector is for link port 1.
Connectors JTAG Connector (ZP1) ZP1 is the connecting point for the SADA2 debug interface and is a 14-pin 0.1” header. Expansion Interface III Connectors (P1A–C, P2A, P3A) Five board-to-board connectors (P1A, P1B, P1C, P2A, and P3A) provide signals from the SPI, TWI, UART, SPORT, and GPIO interfaces of the processor. The connectors are located on the bottom side of the board. For more information, see “Expansion Interface III” on page 1-20. Part Description Manufacturer Part Number 120-pin, 0.
ADSP-BF609 EZ-KIT Lite Hardware Reference CAN Connector (J4) Part Description Manufacturer Part Number RJ-11 4-pin modular jack TYCO 5558872-1 Mating Cable 4-conductor modular jack cable L-COM TSP3044 Part Description Manufacturer Part Number SD 8-bit, 2 GB SANDISK MHC-W21-601 SD Connector (J5) Memory Card 2 GB SANDISK SDSDB-2048-A11 Ethernet Connector (J1) Part Description Manufacturer Part Number RJ-45 Ethernet jack Pulse Engineer PN J0011D21BNL Mating Cable Standard Ethernet cab
Connectors 2-28 ADSP-BF609 EZ-KIT Lite Evaluation System Manual
A ADSP-BF609 EZ-KIT LITE BILL OF MATERIALS The bill of materials corresponds to “ADSP-BF609 EZ-KIT Lite Schematic” on page B-1. Ref. Qty. Description Reference Designator Manufacturer Part Number 1 1 ADM708SARZ SOIC8 U48 ADI ADM708SARZ 2 1 ADM3315 TSSOP24 U39 ADI ADM3315EARUZ 3 1 ADSP-BF609 BGA349C80P22X2 2_1900X1900 U1 ADI ADSP-BF609-ENG 4 1 ADP1864AUJZ SOT23-6 VR1 ADI ADP1864AUJZ-R7 5 1 ADP1715 MSOP8 VR3 ADI ADP1715ARMZ-1.
Ref. Qty.
ADSP-BF609 EZ-KIT Lite Bill Of Materials Ref. Qty. Description Reference Designator Manufacturer Part Number 29 1 RJ11 4PIN CON039 J4 TYCO 5558872-1 30 3 DIP2 SWT020 SW3-SW5 C&K CKN9064-ND 31 6 IDC 2X1 IDC2X1 P10-P15 FCI 90726-402HLF 32 1 3A RESETABLE FUS004 F1 TYCO SMD300F-2 33 6 IDC 2PIN_JUMPER_SH ORT SJ1-SJ6 DIGI-KEY S9001-ND 34 1 PWR .
Ref. Qty. Description Reference Designator Manufacturer Part Number 45 1 TEST LOOP LOOP_2838 GP1 KEYSTONE 5016 46 5 YELLOW LED001 LED1-LED5 DIGI-KEY P512TR-ND 47 3 600 100MHZ 500MA 1206 FER1-FER3 STEWARD HZ1206B601R-10 48 2 1UF 16V 10% 0805 C87-C88 DIGI-KEY 399-1284-2-ND 49 2 0 1/8W 5% 0805 R200,R211 VISHAY CRCW08050000Z0EA 50 1 190 100MHZ 5A FER002 FER4 MURATA DLW5BSN191SQ2 51 7 10UF 6.
ADSP-BF609 EZ-KIT Lite Bill Of Materials Ref. Qty. Description Reference Designator Manufacturer Part Number 55 102 10K 1/16W 5% 0402 R9-R12,R17-R18, R20-R33,R39-R48, R50-R52,R56-R63, R65-R67,R69-R72, R80-R84,R89-R96, R100-R101,R104R105,R107-R111, R113,R118-R119, R133-R135,R142, R146,R148-R149, R158-R160,R167, R169-R170,R174, R188,R205-R206, R210,R218-R221, R230-R235,R239 VISHAY CRCW040210K0FKED 56 1 4.
Ref. Qty. Description Reference Designator Manufacturer Part Number 64 1 4.7UF 25V 20% 0805 C25 AVX 0805ZD475KAT2A 65 1 68PF 50V 5% 0603 C91 AVX 06035A680JAT2A 66 1 470PF 50V 5% 0603 C92 AVX 06033A471JAT2A 67 1 220UF 6.3V 20% D2E CT3 SANYO 10TPE220ML 68 1 1M 1/10W 5% 0603 R19 VISHAY CRCW06031M00FNEA 69 5 0.
ADSP-BF609 EZ-KIT Lite Bill Of Materials Ref. Qty. Description Reference Designator Manufacturer Part Number 81 2 GREEN LED001 LED6,LED8 PANASONIC LN1361CTR 82 1 RED LED001 LED7 PANASONIC LN1261CTR 83 2 1000PF 50V 5% 1206 C85,C89 AVX 12065A102JAT2A 84 1 255.0K 1/10W 1% 0603 R130 VISHAY CRCW06032553FK 85 1 80.6K 1/10W 1% 0603 R131 VISHAY CRCW060380K6FKEA 86 3 5A MBRS540T3G SMC D5-D7 ON SEMI MBRS540T3G 87 1 VARISTOR V5.5MLA 30A 0603 R1 LITTLEFUSE V5.
Ref. Qty. Description Reference Designator Manufacturer Part Number 96 1 100.0 1/16W 1% 0402 R4 DIGI-KEY 541-100LCT-ND 97 2 0.036 1/2W 1% 1206 R127-R128 SUSUMU RL1632S-R036-F 98 1 30A GSOT05 SOT23-3 D2 VISHAY GSOT05-GS08 99 2 30A GSOT03 SOT23-3 D3-D4 VISHAY GSOT03-GS08 100 1 40A ESD5Z2.5T1 SOD-523 D1 ON SEMI ESD5Z2.5T1G 101 2 165.0 1/10W 1% 0603 R197-R198 DIGI-KEY P165HTR-ND 102 1 220.0 1/10W 1% 0603 R185 DIGI-KEY P220HTR-ND 103 1 4.
I INDEX A ADSP-BF609 Blackfin processor, xii ADSP-BF609 processor memory map, 1-11 architecture, of this EZ-KIT Lite, 2-2 B bill of materials, A-1 board schematic (ADSP-BF609), B-1 boot modes, 2-19 mode select switch (SW2), 2-19 bus switch, 2-5 example, 2-6 C CAN connector (J4), 2-27 CAN interface, 1-14 configuration, of this EZ-KIT Lite, 1-3 connectors, 2-24 diagram of locations, 2-24 J1 (ethernet), 2-27 J2 (DCE UART), 2-25 J3 and P8 (Link Port / JTAG), 2-25 J4 (CAN), 2-27 J5 (SD), 2-27 P16-17 (etherne
Index G O general-purpose I/O (GPIO), 1-18 general-purpose I/O pins (GPIO), 2-23 operating systems, supported, 1-5 P I installation, of this EZ-KIT Lite, 1-4, 1-6 IRQ / Flag enable switches (SW6-7), 2-20 J JTAG connector (P1), 2-25 JTAG connector (ZP1), 2-26 JTAG interface, 1-18 JTAG interface switches (SW1, SW3-5), 2-18 jumpers diagram of locations, 2-21 R L LEDs, 2-22 diagram of locations, 2-22 LED1-4 (GPIO), 2-23 LED5 (thermal limit), 2-23 LED6 (power), 2-23 LED6 (SPD), 2-24 LED7 (reset), 2-24 li
SRAM memory, 1-12 See also memory map startup, of this EZ-KIT Lite, 1-7 supported operating systems, 1-5 SW1, SW3-5 (JTAG) interface switches, 2-18 SW10 (wake push) switch, 2-21 SW2 (boot mode select) switch, 2-19 SW6-7 (IRQ / Flag enable) switches, 2-20 SW8 (reset) switch, 2-20 SW9 (rotary encoder) switch, 2-20 switches programming SoftConfig, 2-8 SW1, SW3-5 (JTAG interface), 2-18 SW10 (wake push), 2-21 SW2 (boot mode select), 2-19 SW6-7 (IRQ / Flag enable), 2-20 SW8 (reset), 2-20 SW (rotary encoder), 2-20
Index I-4 ADSP-BF609 EZ-KIT Lite Evaluation System Manual
A B C D 1 1 2 2 ADSP-BF609 EZ-Board SCHEMATIC 3 3 ANALOG DEVICES 4 Board No. A B C 4 PH: 1-800-ANALOGD Rev A0269-2011 C Date Nashua, NH 03063 ADSP-BF609 EZ-Board Title Block Title Size 20 Cotton Road 1.
A B C D VDD_DMC U1 DMC0_A00 U22 DMC0_A01_Z DMC0_A01 DMC0_DQ01 Y22 DMC0_A02_Z DMC0_A02 DMC0_DQ02 DMC0_A03 DMC0_DQ03 T20 DMC0_A03_Z W20 DMC0_A04_Z DMC0_A04 DMC0_DQ04 DMC0_A05 DMC0_DQ05 U21 DMC0_A05_Z 1 DMC0_DQ00 W21 DMC0_A06_Z DMC0_A06 T21 DMC0_A07_Z DMC0_DQ06 DMC0_A07 DMC0_DQ07 W22 DMC0_A08_Z DMC0_A08 U20 DMC0_A09_Z DMC0_A09 R22 DMC0_A10_Z DMC0_DQ08 DMC0_DQ09 DMC0_A10 DMC0_DQ10 V22 DMC0_A11_Z DMC0_DQ11 DMC0_A12 DMC0_DQ12 T22 DMC0_A11 DMC0_A12_Z V21 DMC0_
A B C D U1 PA00/SMC0_A03/PPI2_D00/LP0_D0 PA02/SMC0_A05/PPI2_D02/LP0_D2 PA03/SMC0_A06/PPI2_D03/LP0_D3 A11 B11 PA05/SMC0_A08/PPI2_D05/LP0_D5 A10 PA06/SMC0_A09/PPI2_D06/LP0_D6 PA06/SMC0_A09/PPI2_D06/LP0_D6 PA07/SMC0_A10/PPI2_D07/LP0_D7 PB11/SMC0_A25/SPT0_BD0/TM0_ACLK3 PB12/SMC0_BG/SPT0_BTDV/SPT0_AD1/TM0_ACLK1 PB13/ETH0_TXEN/PPI1_FS1/TM0_ACI6 PB14/ETH0_REFCLK/PPI1_CLK PB15/ETH0_PTPPPS/PPI1_FS3 T2 PC11/PPI1_D11/ETH_PTPAUXIN PC12/SPI0_SEL7/PPI1_D12 PA14/SMC0_A19/PPI2_D14/LP1_D6 PA15/SMC0_A20/PPI2_D1
A B C D VDD_INT VDD_INT VDD_EXT VDD_INT U1 D11 VDD_EXT1 VDD_INT1 VDD_EXT2 VDD_INT2 VDD_EXT3 VDD_INT3 VDD_EXT4 VDD_INT4 VDD_EXT5 VDD_INT5 VDD_EXT6 VDD_INT6 VDD_EXT7 VDD_INT7 VDD_EXT8 VDD_INT8 VDD_EXT9 VDD_INT9 VDD_EXT10 VDD_INT10 F6 F11 F12 G6 G7 1 G10 G11 G12 G13 H6 VDD_EXT11 VDD_INT11 VDD_EXT12 VDD_INT12 H7 J6 VDD_EXT13 VDD_INT13 K6 VDD_EXT14 L4 VDD_INT14 VDD_EXT15 VDD_INT15 VDD_EXT16 VDD_INT16 VDD_EXT17 VDD_INT17 VDD_EXT18 VDD_INT18 L6 M6 N6 P6 VDD_INT19
A B C 3.3V D 3.
A B C D SD CARD 3.3V 3.3V 32 MB BURST FLASH (16M x 16) C2 PA04/SMC0_A07/PPI2_D04 A3 PA05/SMC0_A08/PPI2_D05 B3 PA06/SMC0_A09/PPI2_D06 C3 PA07/SMC0_A10/PPI2_D07 D3 PA08/SMC0_A11/PPI2_D08 3.
A B C D 3.3V UART 0 3.3V 3.3V C45 0.1UF 0402 C41 0.1UF 0402 U39 6 R52 10K 0402 1 R49 10K 0402 DNP R50 10K 0402 C44 0.1UF 0402 V+ 20 C1- V- 2 C42 0.1UF 0402 4 R51 10K 0402 5 "DCE" 1 C1+ 21 C43 0.
A B C D 3.3V 3.
A B C D 3.3V 3.3V LED8 GREEN LED001 3.3V 3.3V 16 B3 A3 PC00/ETH0_RXD0/PPI1_D00 5 15 B4 6 14 B5 7 13 B6 A4 PC01/ETH0_RXD1/PPI1_D01 A5 PC04/ETH0_RXERR/PPI1_D04 A6 49.9 49.9 49.9 49.
A B LINK PORT 0 / JTAG OUT P8 2 MSC1 4 GND1 6 TDO_OUT MSC2 8 GND2 1 10 TMS_LINKPORT 12 EMU_LINKPORT 14 TRST_LINKPORT 16 18 20 MSC3 1 D7 D6 5 D5 7 D4 9 D3 11 MSC4 D2 MSC5 D1 13 15 MSC6 D0 GND3 17 ACK GND4 19 CLK 2 MSC1 D7 LP0_D6 4 GND1 D6 LP0_D5 6 MSC2 D5 LP0_D4 8 GND2 D4 LP0_D3 TMS_LINKPORT 10 MSC3 LP0_D2 EMU_LINKPORT 12 MSC4 D2 LP0_D1 TRST_LINKPORT 14 MSC5 D1 LP0_D7 3 TCK_LINKPORT TDO_IN LP1_D7 3 LP1_D6 5 LP1_D5 7 LP1_D4 9 D3 LP1_
A B C D U27 1 LED1_GPIO1_EN 2 PG14/UART1_RX/SYS_IDLE1/TM0_ACI1 OE A B 4 PI3A125 SC70_5 U8 U26 1 LED2_GPIO2_EN 2 PG15/UART1_TX/SYS_IDLE0/SYS_SLEEP/TM0_ACI4 1 1 LED3_GPIO3_EN 2 PE14/ETH1_RXERR/SPT2_ATDV/TM0_TMR0 OE 4 1A2 16 1Y2 6 1A3 14 1Y3 U25 8 1A4 12 1Y4 11 2A1 9 2Y1 13 2A2 7 2Y2 15 2A3 5 2Y3 17 2A4 3 2Y4 B OE A B 4 PI3A125 SC70_5 U24 1 LED4_GPIO4_EN 2 PB11/SMC0_A25/SPT0_BD0/TM0_ACLK3 R70 10K 0402 R71 10K 0402 3.3V 3.
A B 3.3V C I2C address 0100 001 3.3V D I2C address 0100 010 3.3V I2C address 0100 011 U45 5 17 VDD GPA0 18 GPA1 8 TWI0_SCL SCL GPA2 SDA SYS_HWRST 16 15 GPA5 INTA 23 RMII_CLK_EN GPB0 26 27 GPB2 28 GPB3 12 13 GPB5 GPB6 A2 GPB7 UART0CTS_EN GPB1 R106 10K 0402 DNP R104 10K 0402 R103 10K 0402 DNP R100 10K 0402 GPB3 GPB4 TEMP_IRQ_EN 4 3.
A B C D 1A P1A PE09/PPI0_CLK/LP2_CLK/PWM0_TRIP0 PE07/SPT1_BTDV/PPI0_FS2/LP3_ACK PPI_FS1 95 PPI0_FS2 27 PPI0_FS3 26 PF00/PWM0_AL/PPI0_D00/LP2_D0 101 PPI0_D0 PF02/PWM0_BL/PPI0_D02/LP2_D2 102 PPI0_D2 PF04/PWM0_CL/PPI0_D04/LP2_D4 103 PPI0_D4 PF06/PWM0_DL/PPI0_D06/LP2_D6 105 PPI0_D6 PPI0_D7 106 PPI0_D8 PPI0_D9 PF08/SPI1_SEL5/PPI0_D08/LP3_D0 1 94 PPI0_CLK 20 PPI0_D1 19 PPI0_D3 18 PPI0_D5 16 15 14 PF10/ACM0_A4/PPI0_D10/LP3_D2 107 PPI0_D10 PPI0_D11 PF12/ACM0_A2/PPI0_D12/LP3_D4 108
A B C D 1C 1B P1C P1B SMC0_ARE PB01/SMC0_AMS1/PPI2_FS1 21 ASYNC_RD 22 ASYNC_AMS1 96 ASYNC_A0 SMC0_A2 SMC0_D0 SMC0_D2 SMC0_D4 SMC0_D6 1 SMC0_D8 SMC0_D10 SMC0_D12 SMC0_D15 97 ASYNC_A2 101 ASYNC_D0 102 ASYNC_D2 103 ASYNC_D4 105 ASYNC_D6 106 ASYNC_D8 107 ASYNC_D10 108 ASYNC_D12 110 ASYNC_D15 SMC0_AMS0 ASYNC_WR 100 SMC0_AWE PB05/SMC0_AMS3/SMC0_ABE1/SPT0_ACLK 99 ASYNC_INT ASYNC_A1 25 ASYNC_A3 24 20 ASYNC_D1 ASYNC_D3 19 18 ASYNC_D5 ASYNC_D7 16 ASYNC_D9 15 14 ASYNC_
A B P2A PB14/ETH0_REFCLK/PPI1_CLK PD06/ETH0_PHYINT/PPI1_FS2/TM0_ACI5 PC00/ETH0_RXD0/PPI1_D00 PC02/ETH0_TXD0/PPI1_D02 PC04/ETH0_RXERR/PPI1_D04 PC06/ETH0_MDC/PPI1_D06 PC08/PPI1_D08 PC10/PPI1_D10 1 PC12/SPI0_SEL7/PPI1_D12 PC14/SPI1_SEL7/PPI1_D14 PD0_SPI0D2_EPPI1D16_SPI0SEL3_EI3 2A 94 PPI1_CLK 95 PPI1_FS2 101 PPI1_D0 102 PPI1_D2 103 PPI1_D4 105 PPI1_D6 106 PPI1_D8 107 PPI1_D10 108 PPI1_D12 12 PPI1_D14 111 PPI1_D16 112 PPI1_D18 113 PPI1_D20 114 PPI1_D22 PB11/SMC0_A25/SPT0_BD0/TM0_ACLK
A B C D 5V 3.3V Remove P10 when measuring USB_VBUS F1 3A FUS004 FER4 190 FER002 4 3 1 2 SHORTING JUMPER DEFAULT=INSTALLED USB0_VBC P18 1 C85 1000PF 1206 3 C86 10UF 1210 D5 MBRS540T3G 5V D2 GSOT05 R122 10K 0402 DNP TP5 P10 USB_VBUS_EN 1 USB_VBUS 2 SMC U50 7 IN1 USB_VBUS_EN R121 0.