CM-BF537E

Hardware User Manual CM-BF537E V3.0 Tinyboards from Bluetechnix www.bluetechnix.com Contact Bluetechnix Mechatronische Systeme GmbH Waidhausenstr. 3/19 A-1140 Vienna AUSTRIA/EUROPE office@bluetechnix.at http://www.bluetechnix.com Document No.: 100-1221-3.0 Document Revision 2 Date: 2009-11-05 Blackfin CM‐BF537E Hardware User Manual    Table of Contents 1  Introduction ......................................................................................................................... 1  1.1  Overview ....................................................................................................................... 1  1.2  Key Features ................................................................................................................. 2  1.3  Target Applications ....................................................................................................... 2  2  Specification ........................................................................................................................ 3  2.1  Functional Specification ............................................................................................... 3  2.2  Boot Mode .................................................................................................................... 3  2.3  Memory MAP ............................................................................................................... 4  2.4  Electrical Specification ................................................................................................. 4  2.4.1  Supply Voltage ....................................................................................................... 4  2.4.2  Supply Voltage Ripple ........................................................................................... 4  2.4.3  Input Clock Frequency ........................................................................................... 4  2.4.4  Real Time Clock Crystal ........................................................................................ 4  2.4.5  Supply Current ....................................................................................................... 4  2.5  Environmental Specification ......................................................................................... 5  2.5.1  Temperature ........................................................................................................... 5  2.5.2  Humidity................................................................................................................. 5  3  CM-BF537E (Connector Version) ...................................................................................... 6  3.1  Mechanical Outline ....................................................................................................... 6  3.2  Footprint - Connector Version ...................................................................................... 7  3.3  Mount Options .............................................................................................................. 8  3.4  Schematic Symbol (Signals of X1 and X2) .................................................................. 9  3.5  Connectors Pin Assignment ........................................................................................ 10  3.5.1  Connector X1 – (1-60) ......................................................................................... 10  3.5.2  Connector X2 – (61-120) ..................................................................................... 12  3.5.3  Pin out Description ............................................................................................... 13  3.6  Reset circuit ................................................................................................................ 14  3.7  RJ45 schematic ........................................................................................................... 14  4  Test Points ......................................................................................................................... 15  4.1  Footprint – Test Points ................................................................................................ 15  5  Software Support ............................................................................................................... 16  5.1  BLACKSheep ............................................................................................................. 16  5.2  uClinux ........................................................................................................................ 16  6  Application Examples ....................................................................................................... 17  Blackfin CM‐BF537E Hardware User Manual    6.1  Sample Schematic ....................................................................................................... 17  6.2  Stand-alone Ethernet based MPEG Webcam ............................................................. 18  6.3  Design Services ........................................................................................................... 19  7  Anomalies .......................................................................................................................... 20  8  Production Report .............................................................................................................. 21  8.1  CM-BF537E (100-1221) ............................................................................................. 21  8.2  CM-BF537E-I (100-1229) .......................................................................................... 21  9  Product Changes ................................................................................................................ 22  10  Document Revision History ........................................................................................... 23  A  List of Figures and Tables ................................................................................................. 24  Blackfin CM‐BF537E Hardware User Manual    Edition 2007-02 © Bluetechnix Mechatronische Systeme GmbH 2007 All Rights Reserved. The information herein is given to describe certain components and shall not be considered as a guarantee of characteristics. Terms of delivery and rights of technical change reserved. We hereby disclaim any warranties, including but not limited to warranties of noninfringement, regarding circuits, descriptions and charts stated herein. Bluetechnix makes and you receive no warranties or conditions, express, implied, statutory or in any communication with you. Bluetechnix specifically disclaims any implied warranty of merchantability or fitness for a particular purpose. Bluetechnix takes no liability for any damages and errors causing of the usage of this board. The user of this board is responsible by himself for the functionality of his application. He is allowed to use the board only if he has the qualification. More information is found in the General Terms and Conditions (AGB). Information For further information on technology, delivery terms and conditions and prices please contact Bluetechnix (http://www.bluetechnix.com). Warnings Due to technical requirements components may contain dangerous substances. The Core Modules and development systems contain 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. Unused Core Modules and Development Boards should be stored in the protective shipping package. Blackfin CM‐BF537E Hardware User Manual    BLACKFIN Products Core Modules: CM-BF533: Blackfin Processor Module powered by Analog Devices' single core ADSP-BF533 processor; up to 600MHz, 32MB SDRAM, 2MB flash, 2x60 pin expansion connectors and a size of 36.5x31.5mm. CM-BF537E: Blackfin Processor Module powered by Analog Devices' single core ADSP-BF537 processor; up to 600MHz, 32MB SDRAM, 4MB flash, integrated TP10/100 Ethernet physical transceiver, 2x60 pin expansion connectors and a size of 36.5x31.5mm. CM-BF537U: Blackfin Processor Module powered by Analog Devices' single core ADSP-BF537 processor; up to 600MHz, 32MB SDRAM, 4MB flash, integrated USB 2.0 Device, 2x60 pin expansion connectors and a size of 36.5x31.5mm. TCM-BF537: Blackfin Processor Module powered by Analog Devices' single core ADSP-BF537 processor; up to 500MHz, 32MB SDRAM, 8MB flash, a size of 28x28mm, 2x60 pin expansion connectors, Ball Grid Array or Border Pads for reflow soldering, industrial temperature range 40°C to +85°C. CM-BF561: Blackfin Processor Module powered by Analog Devices' dual core ADSP-BF561 processor; up to 2x 600MHz, 64MB SDRAM, 8MB flash, 2x60 pin expansion connectors and a size of 36.5x31.5mm. CM-BF527: The new Blackfin Processor Module is powered by Analog Devices' single core ADSP-BF527 processor; key features are USB OTG 2.0 and Ethernet. The 2x60 pin expansion connectors are backwards compatible with other Core Modules. CM-BF548: The new Blackfin Processor Module is powered by Analog Devices' single core ADSP-BF548 processor; key features are 64MB DDR SD-RAM 2x100 pin expansion connectors. TCM-BF518: The new Core Module CM-BF518 is powered by Analog Devices' single core ADSP-BF518 processor; up to 400MHz, 32MB SDRAM, up to 8MB flash. The 2x60 pin expansion connectors are backwards compatible with other Core Modules. Development Boards: EVAL-BF5xx: Low cost Blackfin processor Evaluation Board with one socket for any Bluetechnix Blackfin Core Module. Additional interfaces are available, e.g. an SD-Card. Blackfin CM‐BF537E Hardware User Manual    DEV-BF5xxDA-Lite: Get ready to program and debug Bluetechnix Core Modules with this tiny development platform including an USB-Based Debug Agent. The DEV-BF5xxDA-Lite is a low cost starter development system including a VDSP++ Evaluation Software License. DEV-BF548-Lite: Low-cost development board with one socket for Bluetechnix CMBF548 Core Module. Additional interfaces are available, e.g. an SDCard, USB and Ethernet. DEV-BF548DA-Lite: Get ready to program and debug Bluetechnix CM-BF548 Core Module with this tiny development platform including an USB-Based Debug Agent. The DEV-BF548DA-Lite is a low-cost starter development system including a VDSP++ Evaluation Software License. EXT-Boards: The following Extender Boards are available: EXT-BF5xx-AUDIO, EXT-BF5xx-VIDEO, EXT-BF5xx-CAM, EXT-BF5xx-EXP-TR, EXT-BF5xx-USB-ETH2, EXT-BF5xx-AD/DA, EXT-BF548-EXP and EXT-BF518-ETH. Furthermore, we offer the development of customized extender boards for our customers. Software Support: BLACKSheep: The BLACKSheep VDK is a multithreaded framework for the Blackfin processor family from Analog Devices that includes driver support for a variety of hardware extensions. It is based on the realtime VDK kernel included within the VDSP++ development environment. LabVIEW: LabVIEW embedded support for Bluetechnix Core Modules is done by Schmid-Engineering AG: http://www.schmid-engineering.ch uClinux: All the Core Modules are fully supported by uClinux. The required boot loader and uClinux can be downloaded from: http://blackfin.uClinux.org. Upcoming Products and Software Releases: Keep up-to-date with all the changes to the Bluetechnix product line and software updates at: http://www.bluetechnix.com . Software Support: BLACKSheep: The BLACKSheep VDK is a multithreaded framework for the Blackfin processor family from Analog Devices that includes driver support for a variety of hardware extensions. It is based on the realtime VDK kernel included within the VDSP++ development environment. Blackfin CM‐BF537E Hardware User Manual    LabVIEW: LabVIEW embedded support for Bluetechnix Core Modules is done by Schmid-Engineering AG: http://www.schmid-engineering.ch uClinux: All the Core Modules are fully supported by uClinux. The required boot loader and uClinux can be downloaded from: http://blackfin.uClinux.org. Upcoming Products and Software Releases: Keep up-to-date with all the changes to the Bluetechnix product line and software updates at: http://www.bluetechnix.com BLACKFIN Design Service Based on more than five years of experience with Blackfin, Bluetechnix offers development assistance as well as custom design services and software development. Blackfin CM‐BF537E Hardware User Manual         Tinyboards      maximum performance at minimum size 1 Introduction The CM-BF537E is a tiny, high performance and low power DSP/RISC Core Module incorporating Analog Devices Blackfin family of processors. The special feature of this module is the on-board 10/100Mbit Ethernet interface which includes the physical transceiver chip. The module allows easy integration into high demanding very space and power limited applications. 1.1 Overview The Core Module CM-BF537E consists of the following components: 60 Pin Expansion Connector B Dynamic Core Voltage Control BF537 up to 600 MHz Low Voltage Reset 32 MByte SDRAM up to 8 Byte Flash Ethernet Physical 60 Pin Expansion Connector A Figure 1-1: Main components of the CM-BF537E Core Module ƒ Analog Devices Blackfin Processor BF537 o Supported Chips : ƒ ƒ ƒ ADSP-BF537SBBCZ-5A (-40°-85°C) Option upon request ADSP-BF537SKBCZ-6A (0°-70°C) Standard Mount 32 MB SDRAM o SDRAM Clock up to 133MHz o MT48LC16M16A2BG-7 (16Mx16, 256Mbit at 3.3 V) ƒ 4 MB of Addressable Flash o PF48F2000P0ZBQ0 (4Mx16 32Mbit at 3.3 V; default only 4 MByte addressable) o Additional flash memory can be connected through the expansion board as parallel flash using asynchronous chip select lines or as an SPI flash.      Tinyboards      maximum performance at minimum size ƒ Low Voltage Reset Circuit o Resets module if power supply goes below 2.93 V for at least 140 ms ƒ Dynamic Core Voltage Control o Core voltage is adjustable by setting software registers on the Blackfin processor o Core voltage range: 0.8 – 1.32V ƒ Expansion Connector A o o o o o ƒ Data Bus Address Bus Control Signals Power Supply Ethernet Pins Expansion Connector B o o o o o o o o SPORT0 JTAG UART0/UART1 CAN TWI (I2C compatible) SPI PPI (Parallel Port Interface) GPIO’s 1.2 Key Features ƒ ƒ ƒ ƒ The CM-BF537E is very compact and measures only 36.5x31.5mm Allows quick prototyping of product that comes very close to the final design Reduces development costs, faster time to market Very cost effective for small and medium volumes 1.3 Target Applications ƒ ƒ ƒ ƒ Generic high performance signal processor module Internet Connected Embedded System High performance web camera Robotics: Tiny processor module for mobile robots Blackfin CM‐BF537E Hardware User Manual    Page 2       Tinyboards      maximum performance at minimum size 2 Specification 2.1 Functional Specification Mem. Control, Boot Mode, JTAG, Ethernet 16 Bit Data Bus Dynamic Core Voltage Control BF537 up to 600MHz 32 MByte SDRam 4 MByte Flash Low Voltage Reset Clock Clock-out Data & Address Bus 3V3 Power , Reset Ethernet Physical 20 Bit Address Bus PPI, SPORT0, UART1, UART2, SPI, TWI, CAN, GPIO Figure 2-1: Detailed Block Diagram Figure 2-1 shows a detailed block diagram of the CM-BF537E module. Other than the SDRAM control pins the CM-BF537E has all other pins of the Blackfin processor on its two main 60 pin connectors. A special feature of the CM-BF537E Core Module is the on-board physical Ethernet transceiver from Micrel (KSZ8041BL). Dynamic voltage control allows reducing power consumption to a minimum adjusting the core voltage and the clock frequency dynamically in accordance to the required processing power. A low voltage reset circuit guarantees a power on reset and resets the system when the input voltage drops below 2.93V. 2.2 Boot Mode By default the boot mode = 000 (BMODE2 = low, BMODE1 = low, BMODE0 = low). All BMODE pins have internal pull down resistors. Connect BMODE0 to Vcc and leave BMODE1, BMODE2 pins open for boot mode 001 equals to 8 or 16 bit PROM/FLASH boot mode, this is the default boot mode of the Blacksheep software. See Blackfin Datasheets or Eval/DevBoard manuals for more details. Blackfin CM‐BF537E Hardware User Manual    Page 3       Tinyboards      maximum performance at minimum size 2.3 Memory MAP Memory Type  FLASH Bank0  (PF4 Flag low)  FLASH Bank1  (PF4 Flag high)  SD‐RAM  Start Address  0x20000000  End Address  0x201FFFFF  Size  2MB  0x20000000  0x201FFFFF  2MB  0x00000000  0x01FFFFFF  32MB  Comment  4MB Micron Flash,   PF48F2000P0ZBQ0    16Bit Bus, Micron  MT48LC16M16A2FG  Table 2-1: Memory Map The maximum amount of memory addressable by a single asynchronous memory bank, of the Blackfin processor is 2MB. In order to be able to use more than 2MB on a single bank, 2 GPIOs are used to select which 2MB section of flash is visible in the memory window of the Blackfin processor. This frees up the remaining banks for the user. 2.4 Electrical Specification 2.4.1 Supply Voltage ƒ 3.3V DC +/-10% 2.4.2 Supply Voltage Ripple ƒ 100mV peak to peak 0-20 MHz 2.4.3 Input Clock Frequency ƒ 25 MHz The Blackfin Processor Input Clock frequency is 25MHz, this frequency is derived from the on-board crystal/oscillator and drives the Blackfin Processors’s Clock generator. This frequency is also provided on the connector as pin 78 (CLK_out). 2.4.4 Real Time Clock Crystal ƒ 32.768kHz 2.4.5 Supply Current ƒ ƒ Maximum current: 350mA @ 3.3V Typical operating conditions: o Processor running at 600MHz, Core Voltage 1.2V, SDRAM 20% bandwidth utilization at 130MHz; Ethernet idle: 200mA @ 3.3V o Processor running at 300MHz, Core Voltage 0.8V SDRAM 20% bandwidth utilization at 130MHz; Ethernet idle: 140mA @ 3.3V o Processor running at 600MHz, Core Voltage 1.2V, SDRAM 20% bandwidth utilization at 130MHz, Ethernet TX/RX active: 250mA Blackfin CM‐BF537E Hardware User Manual    Page 4       Tinyboards      maximum performance at minimum size Blackfin CM‐BF537E Hardware User Manual    Page 5  2.5 Environmental Specification 2.5.1 Temperature ƒ Operating at full 600MHz: 0 to + 70° C 2.5.2 Humidity Operating: 10% to 90% (non condensing)      Tinyboards      maximum performance at minimum size 3 CM-BF537E (Connector Version) 3.1 Mechanical Outline TOP VIEW All dimensions are given in millimeters! Figure 3-1: Mechanical outline and Bottom Connectors (Top View) The mechanical outline represents a top view of the connectors placed at the bottom of the core board. The module is shipped with two 60pin connectors. Figure 3-2: Side view with Connector mounted The total minimum mounting height including receptacle at the motherboard is 6.1mm. Blackfin CM‐BF537E Hardware User Manual    Page 6       Tinyboards      maximum performance at minimum size 3.2 Footprint - Connector Version If the connector version (2x Hirose 0.6mm pitch) is used, the footprint for the baseboard may look as shown in Figure 3-3. For the baseboard the following connectors have to be used: Part Baseboard  X1,X2  Manufacturer Hirose  Manufacturer Part No.  FX8‐60S‐SV Table 3-1: Baseboard connector types The Connectors on the CM-BF537E are of the following type: Part  X1,X2  Manufacturer  Hirose 3mm height Manufacturer Part No.  FX8‐60P‐SV Table 3-2: Module connector types h1 Hole1 Hole2 Hole1 Hole2 h2 Figure 3-3: Recommended footprint for the Core Module (top view) Blackfin CM‐BF537E Hardware User Manual    Page 7       Tinyboards      maximum performance at minimum size 3.3 Mount Options The mount options of the Core Module are shown in Figure 3-4. Figure 3-4: Core Module (component side) Mount Option  Flash  Comment  MO1  MO2  MO3  2MB  4MB  8MB   PF4 available on pin 7 on connector X1  default  PF5 not available on connector X1  Table 3-3 Mount Options Blackfin CM‐BF537E Hardware User Manual    Page 8       Tinyboards      maximum performance at minimum size 3.4 Schematic Symbol (Signals of X1 and X2) U? 1 60 2 59 3 58 4 57 5 56 6 55 7 54 8 53 9 52 10 51 11 50 12 49 13 48 14 47 15 46 16 45 17 44 18 43 19 42 20 41 21 40 22 39 23 38 24 37 25 36 26 35 27 34 28 33 29 32 30 31 RSCLK0 / TACLK2 A1 RFS0 / TACLK3 A2 DR0PRI / TACLK4 A3 DR0SEC / TACI0 / CAN_Rx A4 TSCLK0 / TACLK1 A5 TFS0 / SPI_CS3 A6 DT0PRI / SPI_CS2 A7 DT0SEC / SPI_CS7 / CAN_Tx A8 CLK_out A9 SCL A10 SDA A11 PF10 / SPI_CS1 A12 PF4 / TMR5 / SPI_CS6 (or OPEN) A13 PF6 / TMR3 / SPI_CS4 A14 PF5 / TMR4 / SPI_CS5 A15 PF5 / TMR4 / SPI_CS5 A16 Vin 3V3 A17 GND A18 Vin 3V3 A19 CM-BF537E GND ABE0 PG0 / PPI1D0 ABE1 PG1 / PPI1D1 LED_SPEED PG2 / PPI1D2 LED_ACT PG3 / PPI1D3 LED_FD PG4 / PPI1D4 GND PG5 / PPI1D5 TX+ PG6 / PPI1D6 RX+ PG7 / PPI1D7 TXPG8 / PPI1D8 / DR1SEC RXPG9 / PPI1D9 / DT1SEC VA25 PG10 / PPI1D10 / RSCLK1 ARDY PG11 / PPI1D11 / RFS1 BR PG12 / PPI1D12 / DR1PRI BG PG13 / PPI1D13 / TSCLK1 BGH PG14 / PPI1D14 / TFS1 CLK_out PG15 / PPI1D15 / DT1PRI VDD-RTC PPI1Sy3 / PF7 / TMR2 GND PPI1Sy2 / PF8 / TMR1 AMS2 PPI1Sy1 / PF9 / TMR0 AMS3 PPI1Clk / PF15 / TMRCLK ARE PPI1Sy1 / PF9 / TMR0 AWE PF2 / Tx1 / TMR7 AOE PF3 / Rx1 / TMR6 / TACI6 NMI PF14 / SPI_SS RESET PF1 / DMAR1 / TACI1 / Rx0 D0 PF0 / DMAR0 / Tx0 D1 PF11 / MOSI D2 PF12 / MISO D3 PF13 / SCK D4 Bmode1 D5 Bmode0 D6 nc D7 GND D8 Bmode2 D9 TCK D10 TDO D11 TDI D12 TMS D13 TRST D14 EMU D15 61 120 62 119 63 118 64 117 65 116 66 115 67 114 68 113 69 112 70 111 71 110 72 109 73 108 74 107 75 106 76 105 77 104 78 103 79 102 80 101 81 100 82 99 83 98 84 97 85 96 86 95 87 94 88 93 89 92 90 91 Figure 3-5: Schematic Symbol of Module Note: For compatibility, 3 pins appear twice at the connector: CLK_out, PF5 and PPISy1 Blackfin CM‐BF537E Hardware User Manual    Page 9       Tinyboards      maximum performance at minimum size 3.5 Connectors Pin Assignment 3.5.1 Connector X1 – (1-60) Pin No.  Signal  IO Type                I/O I I/O O O I/O I/O 1  2  3  4  5  6  7    8    9   10   11   12   13   14   15   16   17   18   19   20   21   22   23   24   25   26   27   28   29   30   31   32   33   34   35   36   37   38   39   40  RSCLK0 / TACLK2 DR0PRI /  TACLK4 TSCLK0 / TACLK1 DT0PRI / SSEL2 CLK_out SDA  PF4 / TMR5 / SSEL6: MO1* nc: MO2, MO3*  PF5 / TMR4 / SSEL5: MO1, MO2* nc: MO3*  Vin 3V3  Vin 3V3  PG0 / PPI1D0 PG2 / PPI1D2 PG4 / PPI1D4 PG6 / PPI1D6 PG8 / PPI1D8 / DR1SEC PG10 / PPI1D10 / RSCLK1 PG12 / PPI1D12 / DR1PRI PG14 / PPI1D14 / TFS1 PPI1SY3 / PF7 / TMR2 PPI1SY1 / PF9 / TMR0 PPI1SY1 / PF9 / TMR0 PF3 / Rx1 / TMR6 / TACI6 PF1 / DMAR1 / TACI1 / Rx0 PF11 / MOSI PF13 / SCK BMODE0  GND  TCK  TDI  ¯¯¯¯  TRST EMU ¯¯¯   TMS  TDO  BMODE2  N.C.  BMODE1 PF12 / MISO  PF0 / DMAR0 / Tx0  PF14 / SPI_SS  PF2 / Tx1 / TMR7  Blackfin CM‐BF537E Hardware User Manual    I/O PWR PWR I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I ‐ 10k pull down  PWR I ‐ 10k pull up I ‐ 10k pull up  I ‐ 4k7 pull down  O I ‐ 10k pull up  O I ‐ 10k pull down  ‐  I ‐ 10k pull down  I/O  I/O  I/O  I/O  Page 10       Tinyboards      maximum performance at minimum size  41   42   43   44   45   46   47   48   49   50   51   52   53   54   55   56   57   58   59   60  PPI1Clk / PF15 / TMRCLK  PPI1Sy2 / PF8 / TMR1  PG15 / PPI1D15 / DT1PRI  PG13 / PPI1D13 / TSCLK1  PG11 / PPI1D11 / RFS1  PG9 / PPI1D9 / DT1SEC  PG7 / PPI1D7  PG5 / PPI1D5  PG3 / PPI1D3  PG1 / PPI1D1  GND  GND  PF5 / TMR4 / SSEL5  PF6 / TMR3 / SSEL4  PF10 / SSEL1  SCL  DT0SEC / SSEL7 / CANTx  TFS0 / SSEL3  DR0SEC / TACI0 /   RFS0 / TACLK3  I/O  I/O  I/O  I/O  I/O  I/O  I/O  I/O  I/O  I/O  PWR  PWR  I/O  I/O  I/O  I/O  O  I/O  I  I/O  Table 3-4: Connector X1 pin assignment * For mount option details see chapter 3.3. Note 1: Pin 8 and 53 as well as pin 20 and 21 are identical. Note 2: Please mind the mounted pull up and pull down resistors on the Core Module. See the third column of Table 3-4. Blackfin CM‐BF537E Hardware User Manual    Page 11       Tinyboards      maximum performance at minimum size 3.5.2 Connector X2 – (61-120) Pin No.  Signal  IO Type   61   62   63   64   65   66   67   68   69   70   71   72   73   74   75   76   77   78   79   80   81   82   83   84   85   86   87   88   89   90   91   92   93   94   95   96   97   98   99  100  101  102  103  104  O O O O O O O O O O O O ‐ I ‐ 49R9 pull up to 2V5  I ‐ 49R9 pull up to 2V5  I ‐ 10k pull up O O PWR O O I ‐ 10k pull up I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I – see chapter 3.6  O O O PWR O A1  A3  A5  A7  A9  A11  A13  A15  A17  A19  ABE1 ¯¯¯¯/SDQM0 LED_ACT  GND  RX+  RX‐  ADRY  BG ¯¯  CLK_out  GND  AMS3 ¯¯¯¯   AWE ¯¯¯   തതതതത NMI  D0  D2  D4  D6  D8  D10  D12  D14  D15  D13  D11  D9  D7  D5  D3  D1  ¯¯¯¯¯  RESET AOE ¯¯¯   ARE ¯¯¯  AMS2 ¯¯¯¯   VDD‐RTC  BGH ¯¯¯   Blackfin CM‐BF537E Hardware User Manual    Page 12       Tinyboards      maximum performance at minimum size 105  106  107  108  109  110  111  112  113  114  115  116  117  118  119  120  BR ¯¯  VA25/VA33 TX‐   TX+   LED_FD  LED_SPEED ABE0 ¯¯¯¯/SDQM0 A18  A16  A14  A12  A10  A8  A6  A4  A2  I ‐ 10k pull up PWR O ‐ 49R9 pull up to 2V5  O ‐ 49R9 pull up to 2V5  O O O O O O O O O O O O Table 3-5: Connector X2 pin assignment Note: Please mind the mounted pull up and pull down resistors on the Core Module. See the third column of Table 3-5. 3.5.3 Pin out Description All pin names except those in Table 3-6 of the connectors are processor pins and correspond closely to the names found in the Blackfin BF537 datasheet from Analog Devices. PIN Nr.  Name  IO Type  Description  5,78  9,10  35  72  73  74  75  106  107  108  109  110  O PWR ‐ O PWR I I PWR O O O O 25MHz buffered clock output  3V3 +‐10% 500mA peak for supply  Not connected Indicates Ethernet activity  AGND (use as GND for Ethernet  Ethernet receive + Ethernet receive ‐ Ethernet transformer voltage reference Ethernet transmit ‐  Ethernet transmit +  Full duplex LED, High = Full duplex active,  10Mbps = Low, 100Mbps = High  CLK_out  Vin 3.3V  nc  LED_ACT  GND  RX+  RX‐  VA25  TX‐  TX+  LED_FD  LED_SPEED  Table 3-6: Pin description of all non Processor Pins on the CM-BF537E Blackfin CM‐BF537E Hardware User Manual    Page 13       Tinyboards      maximum performance at minimum size 3.6 Reset circuit The reset of the flash and the processor are connected to a power monitoring IC. The output can be used as power on reset for external devices, see Figure 3-6. 3.3V RESET of Flash TCM809SENB713 3 VDD RESET 1 2 R12 RESET of ADSP-BF5xx 470R GND U5 Core Module 99 GND External RESET Figure 3-6: Schematic of reset circuit on the Core Module 3.7 RJ45 schematic 3.3V_A_PHY 3.3V_A_PHY 106 R1 0R 3.3V_A_PHY U? TxTx+ LED1/SPEED LED0/WAYEN REXT REFCLK / XI XO CRS/CONFIG1 COL/CONFIG0 6 7 Tx+ Rx+ 76 Tx‐ 107 108 31 30 LED_SPEED LED_ACT 10 R7 49R9 2.5V_VA GND GND 0 GND 1 INT_P 6 5 4 3 2 1 D‐TVS‐USB2.0 V1 1 2 3 V2 4 5 6 xRx‐ GND 3V3 xRx+ xTx‐ 2.5V_VA xTx+ 3V3 D‐TVS‐USB2.0 R6 49R9 12 11 8 7 3 2 1 9 10 C1 10u 9 8 3.3V_A_PHY R8 110 32 RdRd+ TdTd+ X1 RJ45 1:1 LED GND Taimag RJLBC-060TC1 GND 220R R9 72 RESET MDC MDIO 75 4 Rx‐ 5 13 RxD3/PHYAD0 RxD2/PHYAD1 RxD1/PHYAD2 RxD0/DUPLEX Rx_DV/CRSDV/CONFIG2 Rx_CLK Rx_ER/ISO VddA 12 11 VddIO 29 28 RxRx+ VddPLL 13 14 15 16 18 19 20 TxD3 TxD2 TxD1 TxD0 Tx_EN Tx_CLK R3 49R9 KSZ8041NL 3 17 2 27 26 25 24 23 22 GND 14 R2 49R9 220R 21 Core Module External GND Figure 3-7: Schematic for RJ45 Connection Designator  Value  Type  Description  Quantity X1  C1  R8, R9  V1, V2     10uF  220R    RJLBC‐060TC1      USBLC6‐2P6 RJ45 with transformer 1:1  Capacitor Resistor TSV‐Diode 1  1  2  2  Table 3-7: Parts List RJ45 Blackfin CM‐BF537E Hardware User Manual    Page 14       Tinyboards      maximum performance at minimum size 4 Test Points 4.1 Footprint – Test Points 36.5 61 62 90 120 92 119 7.45 60 5.05 10.75 29.75 32 59 1.75 26.45 30 2 9.25 24.05 29 1 3 20.75 31.5 91 31 Ø0.65 1.2 9.85 Figure 4-1: Test Points of the Core Module (top view) Blackfin CM‐BF537E Hardware User Manual    Page 15       Tinyboards      maximum performance at minimum size 5 Software Support 5.1 BLACKSheep The Core Module is delivered with a pre-flashed basic version of the BLACKSheep VDK multithreaded framework. It contains a boot-loader for flashing the Core Module via the serial port. By default the BLACKSheep for the CM-BF537E has a web server. By typing http://192.168.0.10 you can see a standard web page installed on the Core Module. Please consult the software development documents. 5.2 uClinux The Core Module is fully supported by the open source platform at http://blackfin.uclinux.org. Since the Core Modules are pre-flashed with BLACKSheep you have to flash uBoot first. To flash uBoot you can use the BLACKSheep boot-loader. Blackfin CM‐BF537E Hardware User Manual    Page 16       Tinyboards      maximum performance at minimum size 6 Application Examples 6.1 Sample Schematic In this minimum configuration the CM-BF537E is used as a high performance network connected processor module. CM1 U1 ADP3338 5.0V 1 2 3 3.3V 3 IN OUT GND 1 C1 1uF 2 X1 1uF GND 3.3V C3 10uF GND C4 1uF GND 3.3V R3 4k7 TCK TDO TDI TMS TRST EMU X3 13 11 9 7 5 3 1 GND 14 12 10 8 6 4 2 GND CM-BF537E A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 ABE0 ABE1 LED_SPEED LED_ACT LED_FD GND TX+ RX+ TXRXVA25 ARDY BR BG BGH CLK_out VDD-RTC GND AMS2 AMS3 ARE AWE AOE NMI RESET D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 61 120 62 119 63 118 64 117 65 116 66 115 67 114 68 113 69 112 70 111 71 110 72 109 73 108 74 107 75 106 76 105 77 104 78 103 79 102 80 101 81 100 82 99 83 98 84 97 85 96 86 95 87 94 88 93 89 92 90 91 R8 GND 220 R9 3.3V 10 9 1 2 3 7 8 11 12 220 GND Tx+ Rx+ TxRx- VA3.3V 27 R4 VA3.3V R5 27 Td+ TdRd+ Rd- VA3.3V X2 RJ45 1:1 LED 14 3.3V RSCLK0 / TACLK2 RFS0 / TACLK3 DR0PRI / TACLK4 DR0SEC / TACI0 / CAN_Rx TSCLK0 / TACLK1 TFS0 / SPI_CS3 DT0PRI / SPI_CS2 DT0SEC / SPI_CS7 / CAN_Tx CLK_out SCL SDA PF10 / SPI_CS1 PF4 / TMR5 / SPI_CS6 (or OPEN) PF6 / TMR3 / SPI_CS4 PF5 / TMR4 / SPI_CS5 PF5 / TMR4 / SPI_CS5 Vin 3V3 GND Vin 3V3 GND PG0 / PPI1D0 PG1 / PPI1D1 PG2 / PPI1D2 PG3 / PPI1D3 PG4 / PPI1D4 PG5 / PPI1D5 PG6 / PPI1D6 PG7 / PPI1D7 PG8 / PPI1D8 / DR1SEC PG9 / PPI1D9 / DT1SEC PG10 / PPI1D10 / RSCLK1 PG11 / PPI1D11 / RFS1 PG12 / PPI1D12 / DR1PRI PG13 / PPI1D13 / TSCLK1 PG14 / PPI1D14 / TFS1 PG15 / PPI1D15 / DT1PRI PPI1Sy3 / PF7 / TMR2 PPI1Sy2 / PF8 / TMR1 PPI1Sy1 / PF9 / TMR0 PPI1Clk / PF15 / TMRCLK PPI1Sy1 / PF9 / TMR0 PF2 / Tx1 / TMR7 PF3 / Rx1 / TMR6 / TACI6 PF14 / SPI_SS PF1 / DMAR1 / TACI1 / Rx0 PF0 / DMAR0 / Tx0 PF11 / MOSI PF12 / MISO PF13 / SCK Bmode1 Bmode0 nc GND Bmode2 TCK TDO TDI TMS TRST EMU 13 GND C2 1 60 2 59 3 58 4 57 5 56 6 55 7 54 8 53 9 52 10 51 11 50 12 49 13 48 14 47 15 46 16 45 17 44 18 43 19 42 20 41 21 40 22 39 23 38 24 37 25 36 26 35 27 34 28 33 29 32 30 31 3.3V GND C9 10uF GND Taimag RJLBC-060TC1 GND RESET S1 SW_SMD * GND CM‐BF537E Header 7X2 JTAG Header Figure 6-1: Configuration with Ethernet and JTAG Connector Designator  Value  C1, C2, C4  C3, C5  CM1  X1  X2  X3  R3  R8, R9  S1  U1  1uF  10uF          4k7  220R      Type  DC‐8 RJLBC‐060TC1 ADP3338 Description  Quantity Capacitor Capacitor CM‐BF537 Power connector DC‐8  RJ45 with transformer  Header, 7‐Pin, dual row  Resistor Resistor Switch Low dropout regulator  3  1  1  1  1  1  1  2  1  1  Table 6-1: Bill of Material of Sample Circuit Blackfin CM‐BF537E Hardware User Manual    Page 17       Tinyboards      maximum performance at minimum size 6.2 Stand-alone Ethernet based MPEG Webcam The CM-BF537E module can be used as a stand-alone module for a camera system requiring only power supply and the direct attachment of a compatible video camera. An extender board including a camera is available at Bluetechnix (EXT-BF5xx-Camera). U1 3.3V ADP3338 5.0V 1 2 3 U2 3.3V 3 IN C1 1uF U3 1 C3 1uF 3 1.8V VIN C4 1uF CE GND GND 4 2 Torex XC6204 5 VOUT ADJ GND 4 2 Torex XC6204 3.3V 5 C2 1uF CE GND C6 VOUT VSS 1uF 3 2.5V VIN ADJ X1 1 2 VSS GND 1 C5 1uF OUT GND GND GND CM1 3.3V C7 3.3V 1.8V 10uF 2.5V VIN-561 3.3V R1 10k GND R2 220 AGND 2 PCLK VSYNC HREF DGND 15 R3 10k 17 7 9 NC D0 D1 D2 D3 D4 D5 D6 D7 NC GND GND PPI1D0 PPI1D1 PPI1D2 PPI1D3 PPI1D4 PPI1D5 PPI1D6 PPI1D7 PPI1D8 PPI1D9 PPI1D10 19 21 22 20 18 16 14 12 PP13 PP15 PPI1Clk 3.3V PF3 533 PP13 PP15 R6 10k TMR0 533 S2 SW_SMD green DS1 3.3V R7 220 GND GND 61 120 62 119 63 118 64 117 65 116 66 115 67 114 68 113 69 112 70 111 71 110 72 109 73 108 74 107 75 106 76 105 77 104 78 103 79 102 80 101 81 100 82 99 83 98 84 97 85 96 86 95 87 94 88 93 89 92 90 91 R8 GND 220 R9 3.3V 10 9 1 2 3 7 8 11 12 220 GND Tx+ Rx+ TxRx- VA3.3V VA3.3V Td+ TdRd+ Rd- VA3.3V X2 RJ45 1:1 LED 14 GND RSCLK0 / TACLK2 A1 RFS0 / TACLK3 A2 DR0PRI / TACLK4 A3 DR0SEC / TACI0 / CANRx A4 TSCLK0 / TACLK1 A5 TFS0 / SSEL3 A6 DT0PRI / SSEL2 A7 DT0SEC / SSEL7 / CANTx A8 CLK_out A9 SCL A10 CM-BF537E SDA A11 PF10 / SSEL1 A12 PF4 / TMR5 / SSEL6 (or OPEN) A13 PF6 / TMR3 / SSEL4 A14 PF5 / TMR4 / SSEL5 A15 PF5 / TMR4 / SSEL5 A16 Vin 3V3 A17 GND A18 Vin 3V3 A19 GND ABE0 / SDQM0 PG0 / PPI1D0 ABE1 / SDQM1 PG1 / PPI1D1 LED_SPEED PG2 / PPI1D2 LED_ACT PG3 / PPI1D3 LED_FD PG4 / PPI1D4 GND PG5 / PPI1D5 TX+ PG6 / PPI1D6 RX+ PG7 / PPI1D7 TXPG8 / PPI1D8 / DR1SEC RXPG9 / PPI1D9 / TD1SEC VA25 PG10 / PPI1D10 / RSCLK1 ARDY PG11 / PPI1D11 / RFS1 BR PG12 / PPI1D12 / RR1PRI BG PG13 / PPI1D13 / TSCLK1 BGH PG14 / PPI1D14 / TFS1 CLK_out PG15 / PPI1D15 / DT1PRI VDD-RTC PPI1Sy3 / PF7 / TMR2 GND PPI1Sy2 / PF8 / TMR1 AMS2 PPI1Sy1 / PF9 / TMR0 AMS3 PPI1Clk / PF15 / TMRCLK ARE PPI1Sy1 / PF9 / TMR0 AWE PF2 / Tx1 / TMR7 AOE PF3 / Rx1 / TMR6 / TACI6 NMI PF14 / SPI_SS RESET PF1 / DMAR1 / TACI1 / Rx0 D0 PF0 / DMAR0 / Tx0 D1 PF11 / MOSI D2 PF12 / MISO D3 PF13 / SCK D4 Bmode1 D5 Bmode0 D6 N.C. D7 GND D8 Bmode2 D9 TCK D10 TDO D11 TDI D12 TMS D13 TRST D14 EMU D15 13 13 3 5 3.3V PWDN RESET NC XCLK SIO_D SIO_C AVDD DOVDD DVDD CamCLK 8 6 C8 GND 1uF 4 11 10 Cam1 1 60 2 59 3 58 4 57 5 56 6 55 7 54 8 53 9 52 10 51 11 50 12 49 13 48 14 47 15 46 16 45 17 44 18 43 19 42 20 41 21 40 22 39 23 38 24 37 25 36 26 35 27 34 28 33 29 32 30 31 3.3V GND GND C9 10uF Taimag RJLBC-060TC1 GND RESET S1 SW_SMD * GND CM-BF537E Figure 6-2: Stand-alone Ethernet based MPEG Webcam Designator Value C3, C4, C5, C6, C8 C7, C9 Cam1 CM1 DS1 X1 X2 R1,R3 R7, R8, R9 S1, S2 U1 U2 U3 1uF 10uF Type OV7660FSx green DC-8 HFJ11-2250E 10k 220R ADP3338 XC6204B252MR XC6204B182MR Description Quantity Capacitor Capacitor Camera module CM-BF537 SMD LED Power connector DC-8 RJ45 with transformer Resistor Resistor Switch Low dropout regulator XC6204 high speed LDO XC6204 high speed LDO 6 1 1 1 1 1 1 3 2 1 1 1 1 Table 6-2: Bill of Materials of a Stand-alone Ethernet based MPEG Webcam Blackfin CM‐BF537E Hardware User Manual    Page 18       Tinyboards      maximum performance at minimum size 6.3 Design Services Bluetechnix offers custom design services and software development. Blackfin CM‐BF537E Hardware User Manual    Page 19       Tinyboards      maximum performance at minimum size 7 Anomalies For the latest information regarding anomalies for this product, please consult the product home page: http://www.bluetechnix.com/goto/cm-bf537e Blackfin CM‐BF537E Hardware User Manual    Page 20       Tinyboards      maximum performance at minimum size 8 Production Report 8.1 CM-BF537E (100-1221) Version V3.0.1 Component Processor RAM FLASH Mount Option Type ADSP-BF537 KBCZ-6A (Rev 0.3) MT48LC16M16A2BG-75 IT:D PF48F2000P0ZBQ0 MO2 see chapter 3.3 Table 8-1: Production Report CM-BF537E 8.2 CM-BF537E-I (100-1229) Table 8-2: Production Report CM-BF537E-I Blackfin CM‐BF537E Hardware User Manual    Page 21       Tinyboards      maximum performance at minimum size 9 Product Changes For the latest product change information please consult the product web-page at: http://www.bluetechnix.com/goto/cm-bf537e Blackfin CM‐BF537E Hardware User Manual    Page 22       Tinyboards      maximum performance at minimum size 10 Document Revision History Version 2 1 Date 2009-11-05 2009-08-31 Document Revision Picture 3-7, 6-1, 6-2, Table 6-1, 6-2 updated First release V1.0 of the document copied from CM-BF537 V1.2 and updated to Revision 3.0 Table 10-1: Revision History Blackfin CM‐BF537E Hardware User Manual    Page 23       Tinyboards      maximum performance at minimum size A List of Figures and Tables Figures Figure 1-1: Main components of the CM-BF537E Core Module .............................................. 1  Figure 2-1: Detailed Block Diagram .......................................................................................... 3  Figure 3-1: Mechanical outline and Bottom Connectors (Top View) ....................................... 6  Figure 3-2: Side view with Connector mounted ........................................................................ 6  Figure 3-3: Recommended footprint for the Core Module (top view) ....................................... 7  Figure 3-4: Core Module (component side) ............................................................................... 8  Figure 3-5: Schematic Symbol of Module ................................................................................. 9  Figure 3-6: Schematic of reset circuit on the Core Module ..................................................... 14  Figure 3-7: Schematic for RJ45 Connection ............................................................................ 14  Figure 4-1: Test Points of the Core Module (top view) ........................................................... 15  Figure 6-1: Configuration with Ethernet and JTAG Connector ............................................... 17  Figure 6-2: Stand-alone Ethernet based MPEG Webcam ........................................................ 18  Tables Table 2-1: Memory Map ............................................................................................................ 4  Table 3-1: Baseboard connector types ....................................................................................... 7  Table 3-2: Module connector types ............................................................................................ 7  Table 3-3 Mount Options ........................................................................................................... 8  Table 3-4: Connector X1 pin assignment ................................................................................. 11  Table 3-5: Connector X2 pin assignment ................................................................................. 13  Table 3-6: Pin description of all non Processor Pins on the CM-BF537E ............................... 13  Table 3-7: Parts List RJ45 ........................................................................................................ 14  Table 6-1: Bill of Material of Sample Circuit .......................................................................... 17  Table 6-2: Bill of Materials of a Stand-alone Ethernet based MPEG Webcam ....................... 18  Table 8-1: Production Report CM-BF537E ............................................................................. 21  Table 8-2: Production Report CM-BF537E-I .......................................................................... 21  Table 10-1: Revision History ................................................................................................... 23  Blackfin CM‐BF537E Hardware User Manual    Page 24