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SK-91F467-FLEXRAY

SK-91F467-FLEXRAY

  • 厂商:

    CYPRESS(赛普拉斯)

  • 封装:

  • 描述:

    STARTER KIT

  • 数据手册
  • 价格&库存
SK-91F467-FLEXRAY 数据手册
Fujitsu Microelectronics Europe User Guide FMEMCU-UG-910017-17 MB88121 SERIES MB91460 SERIES STARTER KIT SK-91F467-FLEXRAY USER GUIDE SK-91F467-FLEXRAY V1.1 Revision History Revision History Date 22/11/2005 01/06/2006 22/09/2006 02/03/2007 16/04/2007 13/08/2007 05/09/2008 Issue V1.0, MSt, first official version V1.1, MSt SK-91F467D-208PFV information removed, Getting started chapter changed to new Monitor debugger version V1.2 MSt MB88121B support information added Reset circuit: information of new resistor value added V1.3, MSt Chapter 3.6 table entries for RXDx and TXDx corrected Chapter 5 Connection between MB91F467DA and MB88121 added V1.4 Recycling Note added V1.5, MSt Chapter 5 completed V1.6, MSt Information about MB88121B usage added V1.7, MSc, China-RoHS regulation added This document contains 81 pages. FMEMCU-UG-910017-17 -2- © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Warranty and Disclaimer Warranty and Disclaimer To the maximum extent permitted by applicable law, Fujitsu Microelectronics Europe GmbH restricts its warranties and its liability for the SK-91F467-FLEXRAY and all its deliverables (eg. software include or header files, application examples, target boards, evaluation boards, engineering samples of IC’s etc.), its performance and any consequential damages, on the use of the Product in accordance with (i) the terms of the License Agreement and the Sale and Purchase Agreement under which agreements the Product has been delivered, (ii) the technical descriptions and (iii) all accompanying written materials. In addition, to the maximum extent permitted by applicable law, Fujitsu Microelectronics Europe GmbH disclaims all warranties and liabilities for the performance of the Product and any consequential damages in cases of unauthorised decompiling and/or reverse engineering and/or disassembling. Note, the SK-91F467-FLEXRAY board and all its deliverables are intended and must only be used in an evaluation laboratory environment. 1. Fujitsu Microelectronics Europe GmbH warrants that the Product will perform substantially in accordance with the accompanying written materials for a period of 90 days form the date of receipt by the customer. Concerning the hardware components of the Product, Fujitsu Microelectronics Europe GmbH warrants that the Product will be free from defects in material and workmanship under use and service as specified in the accompanying written materials for a duration of 1 year from the date of receipt by the customer. 2. Should a Product turn out to be defect, Fujitsu Microelectronics Europe GmbH’s entire liability and the customer’s exclusive remedy shall be, at Fujitsu Microelectronics Europe GmbH’s sole discretion, either return of the purchase price and the license fee, or replacement of the Product or parts thereof, if the Product is returned to Fujitsu Microelectronics Europe GmbH in original packing and without further defects resulting from the customer’s use or the transport. However, this warranty is excluded if the defect has resulted from an accident not attributable to Fujitsu Microelectronics Europe GmbH, or abuse or misapplication attributable to the customer or any other third party not relating to Fujitsu Microelectronics Europe GmbH. 3. To the maximum extent permitted by applicable law Fujitsu Microelectronics Europe GmbH disclaims all other warranties, whether expressed or implied, in particular, but not limited to, warranties of merchantability and fitness for a particular purpose for which the Product is not designated. 4. To the maximum extent permitted by applicable law, Fujitsu Microelectronics Europe GmbH’s and its suppliers´ liability is restricted to intention and gross negligence. NO LIABILITY FOR CONSEQUENTIAL DAMAGES To the maximum extent permitted by applicable law, in no event shall Fujitsu Microelectronics Europe GmbH and its suppliers be liable for any damages whatsoever (including but without limitation, consequential and/or indirect damages for personal injury, assets of substantial value, loss of profits, interruption of business operation, loss of information, or any other monetary or pecuniary loss) arising from the use of the Product. Should one of the above stipulations be or become invalid and/or unenforceable, the remaining stipulations shall stay in full effect © Fujitsu Microelectronics Europe GmbH -3- FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Contents Contents REVISION HISTORY ............................................................................................................ 2 WARRANTY AND DISCLAIMER ......................................................................................... 3 CONTENTS .......................................................................................................................... 4 1 INTRODUCTION .............................................................................................................. 7 1.1 Abstract................................................................................................................... 7 1.2 Features.................................................................................................................. 8 1.3 General Description................................................................................................. 9 1.3.1 On Board Memory ................................................................................... 10 1.3.2 MCU Clocks............................................................................................. 10 1.3.3 MCU Operating Mode.............................................................................. 10 1.3.4 FlexRay CC Clock ................................................................................... 10 1.3.5 FlexRay CC-MCU Connection ................................................................. 10 1.3.6 External Bus interface Connectors........................................................... 10 1.3.7 FlexRay Physical Layer ........................................................................... 10 1.3.8 CAN Bus.................................................................................................. 10 1.3.9 RS-232 and LIN....................................................................................... 10 1.3.10 MCU Pins11 1.3.11 User Buttons............................................................................................ 11 1.3.12 User LEDs and optional LCD ................................................................... 11 1.3.13 Power Supply .......................................................................................... 11 2 INSTALLATION ............................................................................................................. 12 2.1 Jumper Settings .................................................................................................... 14 2.2 Jumper Location.................................................................................................... 16 2.3 Software Installation .............................................................................................. 17 2.3.1 Installation of Softune Workbench ........................................................... 17 3 JUMPERS AND SWITCHES.......................................................................................... 19 3.1 MCU Operating-Mode (S5).................................................................................... 19 3.2 FlexRay CC Operating-Mode (S2)......................................................................... 20 3.3 FlexRay CC SPI Settings (S1)............................................................................... 21 3.4 Power Supply ........................................................................................................ 22 3.4.1 MCU Power Supply Voltage .................................................................... 24 3.4.2 MCU Analogue Power Supply Voltage..................................................... 24 3.4.3 FlexRay CC Power Supply Voltage at SK-91F467-FLEXRAY.................. 25 3.4.4 Change FlexRay CC Power supply to MB88121B ................................... 26 FMEMCU-UG-910017-17 -4- © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Contents 3.5 MCU-FlexRay CC Connection at SK-91F467-FLEXRAY....................................... 27 3.6 FlexRay Physical Layer ......................................................................................... 28 3.6.1 Channel A................................................................................................ 28 3.6.2 Channel B................................................................................................ 29 3.6.3 FT1080 Control Settings (S6) .................................................................. 31 3.7 CAN0 – CAN2 ....................................................................................................... 32 3.8 LIN / RS-232 UART............................................................................................... 32 3.9 3.8.1 UART 2.................................................................................................... 33 3.8.2 UART 4 (Flash programming) .................................................................. 34 3.8.3 UART 5.................................................................................................... 35 User Push Buttons INT0, INT1, INT2 and ICU0/TIN0 ............................................ 36 3.10 User DIP Switch 8 Bit (S4) .................................................................................... 36 3.11 Reset Generation .................................................................................................. 37 4 CONNECTORS.............................................................................................................. 39 4.1 Power Connector (X5) ........................................................................................... 39 4.2 UART / LIN Connector (X1, X4, X8) ...................................................................... 39 4.3 CAN Connector (X9, X10, X11) ............................................................................. 40 4.4 FlexRay Connector (X2, X6).................................................................................. 40 4.5 FlexRay Physical Layer Module Connector (X3, X7) ............................................. 41 4.6 USER-LEDs and optional LC-Display (D1-D16, J6)............................................... 42 4.7 In-Circuit-Programming Connector (X12) .............................................................. 43 4.8 MCU Pin Connectors (J1-J4)................................................................................. 43 4.9 External Bus Connectors (X13, X14) ..................................................................... 44 4.9.1 VG96ABC DIN 41612 (X13) .................................................................... 44 4.9.2 VG48ABC DIN 41612 (X14) .................................................................... 45 4.9.3 Distance between VG-Connectors........................................................... 45 5 CONNECTION BETWEEN MB91F467DA AND MB88121 ............................................ 46 5.1 Settings for 16-bit none-multiplexed parallel bus interface..................................... 47 5.2 Settings for 16-bit multiplexed parallel bus interface.............................................. 48 5.3 Settings for SPI interface....................................................................................... 49 6 GETTING STARTED...................................................................................................... 50 6.1 Introduction to Softune Workbench ....................................................................... 50 6.2 Project Start-up ..................................................................................................... 52 6.3 6.2.1 Create a New Project:.............................................................................. 52 6.2.2 Use Active Configuration MONDEBUG_INTERNAL ................................ 54 6.2.3 Use Active configuration STANDALONE ................................................. 56 Softune Workbench Monitor Debugger.................................................................. 57 © Fujitsu Microelectronics Europe GmbH -5- FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Contents 6.3.1 General Description ................................................................................. 57 6.3.2 Basic Debugger Features ........................................................................ 60 6.4 Advanced Monitor Debugger Features .................................................................. 61 6.5 Memory Configuration for User Applications.......................................................... 64 7 FLASH PROGRAMMING............................................................................................... 66 7.1 Programming internal Flash of MB91F467DA series ............................................. 66 8 TROUBLE SHOOTING .................................................................................................. 69 9 SILK-PLOT OF THE BOARD ........................................................................................ 70 9.1 Top Side................................................................................................................ 70 9.2 Bottom Side........................................................................................................... 71 10 PCB HISTORY............................................................................................................... 72 10.1 SK-91F467-FLEXRAY V1.0 .................................................................................. 72 10.2 SK-91F467-FLEXRAY V1.1 .................................................................................. 72 11 APPENDIX..................................................................................................................... 73 11.1 Related Products................................................................................................... 73 11.2 Information on the WWW ...................................................................................... 74 11.3 Tables 75 11.4 Figures 77 11.5 Abbreviations ........................................................................................................ 78 12 CHINA-ROHS REGULATION ........................................................................................ 79 13 RECYCLING .................................................................................................................. 81 FMEMCU-UG-910017-17 -6- © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Introduction 1 Introduction 1.1 Abstract The SK-91F467-FLEXRAY is a multifunctional development board for the FUJITSU FlexRay communication controller MB88121 and the 32-bit Flash microcontroller MB91F467DA. It can be used stand alone for software development and testing or together with monitordebugger software. The board allows the designer immediately to start with the software and system development, before his own final target system is available. © Fujitsu Microelectronics Europe GmbH -7- FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Introduction 1.2 Features • Supports 32-bit Flash microcontroller MB91F467D • Supports FlexRay CC MB88121 • 9-12V (2000mA) unregulated external DC power supply • 5V, 3.3V, 2.5V and 1.8V on-board switching regulators with power status-LEDs • Triple supply monitor to watch 5V, 3.3V and selectable 2.5V or 1.8V • On-board Memory: o • 32Mbit (4MByte) SRAM It is possible to connect the FlexRay CC in different ways to the MCU • 16 bit non multiplexed / multiplexed bus • 8 bit non multiplexed / multiplexed bus • SPI communication • All microcontroller resources available for evaluation • All microcontroller pins routed to pin header • In-Circuit serial Flash programming • Three selectable RS-232 or LIN UART-interfaces • Three High-Speed CAN interfaces • Two FlexRay channels (Ch-A, Ch-B) • • FlexRay physical layer RS-485 available • FlexRay physical layer driver module from TZM (FT1080) connectable 16 User LEDs • optional: alphanumeric standard LC-Display connectable • Reset button, Reset-LED • 4 User buttons, one 8 bit MCU port can be connected to DIP switches • External bus interface routed to 96pin and 48pin DIN 41612 (VG) connectors This board must only be used for test applications in an evaluation laboratory environment. FMEMCU-UG-910017-17 -8- © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Introduction 1.3 General Description The SK-91F467-FLEXRAY supports the FUJITSU 32-bit Flash microcontroller MB91F467D and the FUJITSU FlexRay stand alone communication controller MB88121. The Starter Kit can be used as a stand-alone development platform, or if a MCU socket is soldered instead of the Flash MCU MB91F467D, with the emulation system MB91V460 adapter board (MB2198-300) and 208 pin probe cable board (PB-91467D-NLS-208PFV). This User Guide is describing PCB version V1.1. The PCB version is printed at the TOP side of the starter kit close to MB91F467D MCU [U1]. Note: Since PCB production Code 18-47/06 the MB88121B series is used instead of MB88121A series. © Fujitsu Microelectronics Europe GmbH -9- FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Introduction 1.3.1 On Board Memory The starter kit includes 32MBit (4MByte) SRAM memory on board. The SRAM can be used with 5V, or with 3.3V external bus supply voltage. 1.3.2 MCU Clocks The board is supplied with a 4MHz crystal as the main oscillation clock for the MCU. Using the internal PLL of the MCU, internal clock rates up to 100MHz can be achieved. The MCU sub clock is connected to a 32.768 kHz crystal. 1.3.3 MCU Operating Mode The operating mode of the microcontroller can be selected with the Dip-switch S5. 1.3.4 FlexRay CC Clock The FlexRay CC clock is operated by a 10MHz crystal mounted in a socket. By removing the 10MHz crystal it is also possible to use an external clock oscillator. 1.3.5 FlexRay CC-MCU Connection The FlexRay CC (MB88121) is connected to the MCU via external bus. It is possible to use it in 8 bit / 16 bit multiplexed, 8 bit / 16 bit non multiplexed or SPI communication-mode (dependent from revision of MB88121). With jumper or switches the user can change between the different modes. 1.3.6 External Bus interface Connectors Via DIN 41612 VG96ABC and VG48ABC connectors (external bus interface of the MCU), it is possible to connect the FlexRay FPGA Board to the Starter Kit and use the FPGA as FlexRay communication controller. It is also possible to connect other devices e.g. user applications or Fujitsu graphic device sub boards. 1.3.7 FlexRay Physical Layer The connection to the physical layer of the FlexRay bus with 9-pin D-Sub connectors (X2 and X6) is realized with RS485 transceiver, or it is also possible to deselect the RS485 transceiver and use pluggable physical layer driver module from TZM (FT1080) instead. 1.3.8 CAN Bus Three high-speed CAN-transceivers (PCA82C250) are available to connect all available onchip CAN-controllers to 9-pin D-Sub connectors (X9, X10 and X11). The transceivers provides differential transmit and receive capability between CAN-controller and CAN-bus. 1.3.9 RS-232 and LIN RS-232 and LIN signals are shared on the 9-pin D-Sub connectors (X1, X4 and X8). It can be selected, if RS-232 or LIN will be used. Three separate RS-232 transceivers and three separate LIN transceivers are available, to connect the on-chip USARTs to the 9-pin D-Sub connectors. The RS-232 transceivers generate the adequate RS-232 levels for receive (RXD) and transmit (TXD) lines. The RTS signal can be shortcut to CTS using jumpers (some PC software needs this connection, when a 1:1 cable is used). FMEMCU-UG-910017-17 - 10 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Introduction Either the DTR line or the RTS line of X1, X4 or X8 connectors can be selected to generate a system reset. The LIN transceivers (TLE6259) generate the adequate levels to drive the bus line in LINsystems for automotive and industrial applications. 1.3.10 MCU Pins All 208 pins of the microcontroller are connected to the edge connectors J1, J2, J3 and J4 and are directly available to the user. 1.3.11 User Buttons There are four push buttons on board, which can be connected to input-ports of the microcontroller. Some ports may support additional functions like external interrupts (INT0, INT1 and INT2) and trigger for the Reload Timer or Input-Capture (TIN0 / ICU0). One additional button is reserved as System-Reset-button to reset the MCU and the FLEXRAY CC simultaneously, but it is possible to disconnect the RST-ports with JP52 or JP54. It is possible to connect with Dip-switch S3 eight port input switches at S4 to the MCU port P26_D0 – P26_D7. All eight ports can be switched separately to use e.g. only four ports as input. 1.3.12 User LEDs and optional LCD Sixteen user-LEDs are connected via two pull-down resistor networks to port P25_D0 P25_D7 and to port P16_D0 - P16_D7. Parallel to the LEDs on port P25, the connector J6 can be used to connect a standard alphanumeric display. The resistor networks RN2 and RN3 can be removed, to free the ports. 1.3.13 Power Supply The four on-board step-down switching regulators allow the user to connect an unregulated DC input voltage between +9V to +12V (max. 2000mA) to the starter-kit. The switching regulators provide the voltages of 5V (3A), 3.3V (3A), 2.5V (1,5A) and 1.8V (1,5A) on the starter kit. These voltages give also the possibility, to connect an optional graphic-controller starter kit to the board. The switching regulators are short circuit protected and provide a thermal shutdown. If the SK-91F467-FLEXRAY starter-kit is connected to the Fujitsu FlexRay FPGA-board it is possible, that the power supply for the SK-91F467-FLEXRAY will be provided by the FPGAboard and a power supply connection to the SK-91F467-FLEXRAY is not needed. For that case the pins 14B, 15B and 16B of DIN 41612 VG48ABC connector X14 are used as voltage input behind the SK-91F467-FLEXRAY on-board power switch, so that the power switch on the FPGA board switches the whole system. © Fujitsu Microelectronics Europe GmbH - 11 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Installation 2 Installation Remove the board carefully from the shipping carton. First check if there are any damages before power on the starter kit. To supply the starter kit, use the delivered In-Plug AC-DC Adapter (UPA 2000). Select the AC plug adapter suitable for your country power sockets Figure 2-1: AC plug adapter and insert this adapter into the connection terminal on the AC-DC adapter. Figure 2-2: AC plug adapter selection Check the selected output DC voltage of the AC-DC In-Plug adapter at the voltage selection key. It should be 9V! Change the output voltage only in a powered-down condition! Figure 2-3: DC voltage selection Select the low voltage adapter suitable to the power connector X5 at the SK-91F467FLEXRAY and plug it to the connecting socket in the right orientation (+ connected to shield and GND connected to centre pin). Figure 2-4: Low voltage adapter selection Now connect the DC low voltage adapter to the Starter kit and plug in the In-Plug Power Supply to a power socket. The SK-91F467-FLEXRAY can be turned on with the on board power switch S8 (or S9). FMEMCU-UG-910017-17 - 12 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Installation For the power supply of the SK-91F467-FLEXRAY a DC input voltage of 9V – 12V is recommended. The positive voltage (+) must be connected to the shield, and ground (GND) must be connected to the centre of the connector X5! After power-on of the SK-91F467-FLEXRAY, the four red power-on LEDs D24 (5V), D30 (3.3V), D34 (2.5V) and D40 (1.8V) should be light. The reset LED D18 should be off. Additionally the LED D2 and D4 should be on. The starter kit is delivered with programmed Softune Workbench Monitor Debugger in internal Flash of MB91F467D series. The monitor debugger is checking also the external SRAM access at CS1. In case of successful access to external SRAM the LED D2 and D4 are ON. In case of failed access LED D1 and D4 are set to ON. Figure 2-5: Starter kit status after power on © Fujitsu Microelectronics Europe GmbH - 13 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Installation 2.1 Jumper Settings The following table lists all jumpers including its default setting and location on the starter kit. The default jumper setting is described for 16 bit non multiplexed bus communication between MCU and FlexRay CC. Jumper Description / Function Type Default JP1 JP2 JP3 JP4 JP5 JP6 JP7 JP8 JP9 JP10 JP11 JP12 JP13 JP14 JP15 JP16 JP17 JP18 JP19 JP20 JP21 JP22 JP23 JP24 JP25 JP26 JP27 JP28 JP29 JP30 JP31 JP32 JP33 JP34 JP35 JP36 JP37 JP38 JP39 JP40 JP41 JP42 JP43 JP44 JP45 JP46 JP47 JP48 JP49 JP50 JP51 JP52 JP53 ASSP A10 / INT2 ASSP A9 / INT3 ASSP A5 / SCK ASSP A4 / SDI ASSP A3 / SDO ASSP BCLK – MCU MCLKI ASSP – MCU A0 connection ASSPVcc 5V / 3.3V ASSPVcc1 ASSPVcc / 3.3V ASSP D10 / MDS2 ASSP D9 / MDS1 ASSP D8 / MDS0 ASSP C-Pin – 1.8V ASSP D5 / INT2 MCUVcc - AVcc AVcc - AVRH ASSP D4 / INT3 GND - AVss ASSP CS CSX3 / CSX6 ASSP ALE / INT2 VDD35 MCUVcc / 3.3V ASSP BGT – 1.8V MCUVcc – HVDD5 ASSP MT - GND MCUVcc – VDD5R Vcc - MCUVcc MCUVcc – VDD5 GND – HVSS5 DTR select DTR / /DTR UART2 RTS - CTS FlexRay nSTB – P18_6 FlexRay WAKE – P18_5 FlexRay EN – P18_4 FlexRay CHA RS485 Termination FlexRay RxD_A FlexRay CHA RS485 Termination UART2 RxD RS232 / LIN FlexRay CHA RS485 - BM UART2 DTR / RTS FlexRay TxEN_A FlexRay CHA RS485 - BP Watch 1.8V Watch 2.5V UART2 TxD RS232 / LIN FlexRay TxD_A UART2 RS232 / LIN UART2 LIN Enable FlexRay CHA EN FlexRay CHA WAKE FlexRay CHA nSTB UART2 LIN Master Yes / No RESET - ASSP RST VccPL 5V / 3.3V JP54 RESET - MCU RST Jumper 3 pin Jumper 3 pin Jumper 3 pin Jumper 3 pin Jumper 3 pin Solder Jumper 2 pad Jumper 2 pin Solder Jumper 3 pad Solder Jumper 3 pad Jumper 3 pin Jumper 3 pin Jumper 3 pin Solder Jumper 2 pad Jumper 3 pin Jumper 2 pin Jumper 2 pin Jumper 3 pin Jumper 2 pin Jumper 3 pin Jumper 3 pin Solder Jumper 3 pad Solder Jumper 2 pad Jumper 2 pin Solder Jumper 2 pad Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 3 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 3 pin Jumper 2 pin Jumper 3 pin Jumper 2 pin Jumper 2 pin Solder Jumper 2 pad Solder Jumper 2 pad Jumper 3 pin Jumper 2 pin Jumper 3 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Solder Jumper 3 pad Jumper 2 pin 1-2 1-2 1-2 1-2 1-2 Closed Closed 1-2 1-2 1-2 1-2 1-2 Closed 1-2 Closed Closed 1-2 Closed 1-2 1-2 1-2 Closed Closed Closed Closed Closed Closed Closed Open Open Open Open Open Closed Closed Closed 2-3 Closed Open Closed Closed Open Closed 2-3 Closed 2-3 Closed Closed Closed Closed Closed Closed 1-2 Closed FMEMCU-UG-910017-17 - 14 - Layout Coordinates Schematic Page G7 G7 G8 G8 G8 K9 B8 J6 J6 G8 G9 G9 K8 G9 E9 E9 G 10 E8 G 10 G 10 F 15 J9 E 10 K9 E 11 E 11 E 11 E6 B 14 D3 G 16 G 16 G 16 H 18 J 18 H 18 F5 H 18 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 F4 J 18 H 18 B 15 B 15 F5 H 18 F4 G6 G 17 G 17 G 17 G5 B 16 H 16 B 15 © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Installation Jumper Description / Function Type Default JP55 JP56 JP57 JP58 JP59 JP60 JP61 JP62 JP63 JP64 JP65 JP66 FlexRay CHA nERR – P14_4 FlexRay CHA VBat UARTX RST Select Jumper 2 pin Jumper 2 pin Jumper 6 pin Jumper 2 pin Jumper 2 pin Jumper 3 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 3 pin Jumper 3 pin Jumper 2 pin Jumper 2 pin Solder Jumper 3 pad Jumper 3 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 3 pin Jumper 3 pin Jumper 3 pin Jumper 2 pin Jumper 2 pin Jumper 3 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Solder Jumper 2 pad Jumper 2 pin Jumper 2 pin Jumper 2 pin Jumper 2 pin Solder Jumper 3 pad Solder Jumper 2 pad Open Closed Open JP67 JP68 JP69 JP70 JP71 JP72 JP73 JP74 JP75 JP76 JP77 JP78 JP79 JP80 JP81 JP82 JP83 JP84 JP85 JP86 JP87 JP88 JP89 JP90 JP91 JP92 JP93 JP94 JP95 JP96 JP97 UART4 RTS - CTS FlexRay CHB RS485 Termination UART4 RxD RS232 / LIN FlexRay RxD_B FlexRay CHB RS485 Termination FlexRay CHB RS485 - BM UART4 DTR / RTS UART4 TxD RS232 / LIN FlexRay TxEN_B FlexRay CHB RS485 - BP Vcc 5V / 3.3V UART4 RS232 / LIN FlexRay TxD_B UART4 LIN Enable UART4 LIN Master Yes / No FlexRay CHB EN FlexRay CHB WAKE FlexRay CHB nSTB FlexRay CHB nERR – P14_7 FlexRay CHB VBat UART5 RTS - CTS UART5 RxD RS232 / LIN UART5 DTR / RTS UART5 TxD RS232 / LIN CAN0 RxD CAN0 TxD UART5 RS232 / LIN UART5 LIN Enable UART5 LIN Master Yes / No CAN1 RxD CAN1 TxD CAN2 RxD CAN2 TxD Vin – Ext Voltage INT0 INT1 INT2 ICU0/TIN0 Direct RESET VCC1V8 to X14B2 Closed Closed 1-2 Closed Closed Closed Open 1-2 Closed Closed 1-2 1-2 Closed Open Open Closed Closed Closed Open Closed Closed 1-2 Open 1-2 Closed Closed 1-2 Open Open Closed Closed Closed Closed Closed Closed Closed Closed Closed 1-2 Closed Layout Coordinates Schematic Page J 18 J 16 H6 F3 K 18 H5 L 18 K 18 K 18 H4 H5 L 18 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 2/3 3/3 3/3 3/3 3/3 3/3 2/3 3/3 K 18 B 16 H4 L 18 H6 H6 L 16 L 16 L 16 L 18 L 16 H3 J5 J4 K5 D 19 D 19 K4 K6 K6 G 19 F 19 M4 M4 G 18 G 15 G 15 G 15 G 15 A 14 H 16 Table 2-1: Jumper settings © Fujitsu Microelectronics Europe GmbH - 15 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Installation 2.2 Jumper Location The following picture shows the silk plot of the starter kit with marked default jumper settings. A B C D E F G H J K L M N 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 A B C D E F G H J K L M N Figure 2-6: Default Jumper Settings FMEMCU-UG-910017-17 - 16 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Installation 2.3 Software Installation 2.3.1 Installation of Softune Workbench Fujitsu supplies a full working 32bit development environment with the “SK-91F467FLEXRAY” starter kit called Softune Workbench V6. The Softune Workbench also supports a monitor debugger which is pre-programmed into the internal Flash memory of the “SK91F467-FLEXRAY”. To develop own software and to work with the Monitor Debugger of the “SK-91F467-FLEXRAY” the Softune Workbench development environment must be installed first. Follow the instructions for successful installation of the Softune Workbench. 1) Before starting the installation setup ensure that you are logged in with administrator or power user permissions, otherwise the Softune installation will fail! Be aware that Softune does not support multi-user support. Therefore install- and user login must be the same. 2) Browse on the starter kit CD-ROM into the directory Software\SWBInstall and start the setup.exe You can also start the installation using a browser by opening the index.html of the CD-ROM. Use the link “Software\Softune Workbench\” in the left side frame. 3) Follow the installation instructions 4) For the default installation path it is recommended to use c:\Softune32 5) After the installation is finished, Softune Workbench for FR can be started via the Windows “Start” menu Figure 2-7: Softune Workbench start menu location 6) When Softune Workbench is started the following window will be shown © Fujitsu Microelectronics Europe GmbH - 17 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Installation Figure 2-8: Softune Workbench V6 IDE FMEMCU-UG-910017-17 - 18 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3 Jumpers and Switches This chapter describes all jumpers and switches that can be modified on the starter kit. The default setting is shown with a grey shaded area. 3.1 MCU Operating-Mode (S5) The DIP-switch S5 is used to set the operating mode of the MCU. Ensure that the mode pin settings correspond to the operation-mode of the application. For more detailed information please check the Hardware-Manual of the microcontroller. DIP switch S5/1 (MD0) S5/2 (MD1) S5/3 (MD2) S5/4 (Not used) Setting ON (closed) OFF (open) Logical value 1 (high) 0 (low) ON (closed) OFF (open) 1 (high) 0 (low) ON (closed) 1 (high) OFF (open) ON (closed) OFF (open) 0 (low) Not connected Not connected Default: grey Table 3-1: MCU Operating Mode By default, the “Single Chip Run-Mode” of MB91F467DA is selected. MD0 MD1 MD2 nc Dip-Switch S5 ON (default setting) OFF 1 2 3 4 Figure 3-1: MCU Mode Switch © Fujitsu Microelectronics Europe GmbH - 19 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.2 FlexRay CC Operating-Mode (S2) The DIP-switch S2 is used to set the operating mode of the FlexRay communication controller. Ensure that the mode pin settings correspond to the operation-mode of the application. For more detailed information please check the Hardware-Manual of the FlexRay CC. DIP switch S2/1 (MD0) S2/2 (MD1) S2/3 (MD2) S2/4 (MDE0) S2/5 (MDE1) S2/6 (MDE2) Setting ON (closed) OFF (open) Logical value 0 (low) 1 (high) ON (closed) OFF (open) 0 (low) 1 (high) ON (closed) 0 (low) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) 1 (high) 0 (low) 1 (high) 0 (low) 1 (high) 0 (low) 1 (high) Default: grey Table 3-2: FlexRay CC Operating Mode By default, the “16-bit non multiplexed mode” is selected. MD0 MD1 MD2 MDE0 MDE1 MDE2 Dip-Switch S2 ON Note: (default setting) OFF The DIP-switch (S2) on PCB rotated 180° 1 2 3 4 5 6 Figure 3-2: FlexRay CC Mode Switch To set the operating mode to “16-bit multiplexed (FR 460) mode”, DIP S2 and some jumpers should be set as following: For DIP S2: MD2 OFF, all others ON. For JP1, 2 and 20: 2-3 closed; JP3, 4 and 5: open (no connection); JP10, 11, 12, 14, 17 and 19 remain default (1-2 closed). FMEMCU-UG-910017-17 - 20 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.3 FlexRay CC SPI Settings (S1) The DIP-switch S1 is used to set the FlexRay CC SPI settings, if the FlexRay CC is selected to communicate with the MCU over SPI. For more detailed information please check the Hardware-Manual of the FlexRay CC. Note: The DIP-switch (S1) is connected to the FlexRay CC in case the jumpers setting are set to SPI communication mode. Please refer to chapter 3.5 MCU-FlexRay CC Connection. DIP switch S1/1 (MDS0) S1/2 (MDS1) S1/3 (MDS2) S1/4 (Not used) Setting ON (closed) OFF (open) Logical value 0 (low) 1 (high) ON (closed) OFF (open) 0 (low) 1 (high) ON (closed) 0 (low) OFF (open) ON (closed) OFF (open) 1 (high) Not connected Not connected Default: grey Table 3-3: FlexRay CC SPI Settings The SPI function is not supported by MB88121 or MB88121A! MDS0 MDS1 MDS2 nc Dip-Switch S1 ON (default setting) OFF 1 2 3 4 Figure 3-3: FlexRay CC SPI-Mode Switch © Fujitsu Microelectronics Europe GmbH - 21 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.4 Power Supply There are four on-board switching regulators to provide the voltages 5V, 3.3V, 2.5V and 1.8V on the starter-kit. With the power ON/OFF-switch S8 or S9 (S9 is a soldering option to use a different switch), the main input voltage from DC-connector X5 will be connected to the VIN voltage of the board. The VIN voltage supplies the switching regulators and the VBat voltage of the FlexRay physical layer driver modules from TZM (FT1080), if they are connected to X3 and X7. Switch Setting ON (1-2) OFF (2-3) S8 or S9 Description Power ON Power OFF Default: grey Table 3-4: Power Switch With JP91 the pins B14, B15 and B16 of the external bus interface connector X14 can be connected to the VIN voltage, so that it is possible to supply the board from an external connected board e.g. the Fujitsu FlexRay FPGA board. There is a triple supply monitor on-board, which monitors three of the four DC output voltages and generates a system reset, in case with wrong levels of the on board voltages. 5V and 3.3V are always monitored and the third monitored voltage can be selected with the solder jumpers JP42 and JP43. With JP68 it is possible to select the whole board supply voltage Vcc to 5V or 3.3V Jumper JP91 JP42 JP43 JP68 Setting ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) 1-2 2-3 Description Vin connected to X14 pins B14, B15 and B16 Vin not connected to X14 pins B14, B15 and B16 Vcc1V8 connected to supply monitor Vcc1V8 not connected to supply monitor Vcc2V5 connected to supply monitor Vcc2V5 not connected to supply monitor Vcc is connected to 5V Vcc is connected to 3.3V Default: grey Table 3-5: Power supply configurations FMEMCU-UG-910017-17 - 22 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches Figure 3-4: Voltage Test Points Regulator Test point Voltage U9 J21 +5V U11 J22 +3.3V U14 J23 +2.5V U17 J24 +1.8V - J20 GND Table 3-6: Voltage Test Points © Fujitsu Microelectronics Europe GmbH - 23 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.4.1 MCU Power Supply Voltage JP21 With this jumper it is possible to connect the MCU external bus interface supply VDD35 to 3.3V. The MCU MB91460 series supports the function to supply the MCU with 5V so that the normal I/O ports work with 5V and supply the external bus interface with 3.3V. JP23 This jumper is used to connect the HVDD5 supply to MCUVcc. The HVDD5 is the MCU supply voltage for the high current ports. JP25 This jumper is used to connect the VDD5R MCU supply pins to MCUVcc JP26 This jumper is used to connect the Vcc voltage to MCUVcc. JP27 This jumper is used to connect the VDD5 MCU supply pins to MCUVcc JP28 This jumper is used to connect the HVSS5 MCU pins to GND. HVSS5 are the GND pins for the high current ports. Note: JP23, JP25, JP26, JP27 and JP28 can be used for measurements of power consumption of the MCU. Jumper JP21 JP23 JP25 JP26 JP27 JP28 Setting 1-2 2-3 ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) Description VDD35 connected to MCUVcc VDD35 connected to 3.3V HVDD5 connected to MCUVcc HVDD5 not connected to MCUVcc VDD5R connected to MCUVcc VDD5R not connected to MCUVcc MCUVcc connected to Vcc MCUVcc not connected to Vcc VDD5 connected to MCUVcc VDD5 not connected to MCUVcc HVSS5 connected to GND HVSS5 not connected to GND Default: grey Table 3-7: MCU Power Supply SK-91F467-FLEXRAY 3.4.2 MCU Analogue Power Supply Voltage The power supply as well as the reference voltage for the A/D-converter can be provided internally or externally. JP15 Connects power supply AVcc of the A/D converter to MCUVcc JP16 Connects high reference voltage AVRH of the A/D converter to AVcc JP18 Connects AVss of the A/D converter to GND FMEMCU-UG-910017-17 - 24 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches Jumper JP15 JP16 JP18 Setting ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) Description AVcc is connected to MCUVcc AVcc is disconnected AVRH is connected to AVcc AVRH defined by resistor network*1 AVss is connected to GND OFF (open) AVss is disconnected Default: grey *1 By default the resistor network (R10 and R13) is not assembled on the board Table 3-8: MCU ADC Supply Note: If JP15 or JP18 are open, the user has to supply an adequate analogue voltage supply (AVcc and AVss) to the A/D-converter. If JP16 is open, the potential divider comprising resistors R10 and R13 define AVRH. 3.4.3 FlexRay CC Power Supply Voltage at SK-91F467-FLEXRAY JP8 Connects 5V or 3.3V voltage supply to ASSPVcc JP9 Connects 3.3V or ASSPVcc to ASSP voltage supply pin Vcc1 (3.3V by default) JP13 Connects ASSP C-pin to 1.8V voltage supply JP22 Connects ASSP pin 8 to 1.8V voltage supply JP24 Connects ASSP pin 9 to GND Jumper JP8 JP9 JP13 JP22 JP24 Setting 1-2 2-3 1-2 2-3 ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) Description 5V connected to ASSPVcc 3.3V connected to ASSPVcc 3.3V connected to ASSP Vcc1 pin ASSPVcc connected to ASSP Vcc1 pin 1.8V connected to ASSP C-pin 1.8V not connected to ASSP C-pin 1.8V connected to ASSP pin 8 1.8V not connected to ASSP pin 8 GND connected to ASSP pin 9 GND not connected to ASSP pin 9 Default: grey Table 3-9: FlexRay CC Supply © Fujitsu Microelectronics Europe GmbH - 25 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.4.4 Change FlexRay CC Power supply to MB88121B The first production slots of SK-91F467-FLEXRAY starter kit support MB88121A series. This series must be supplied with three voltages (5V, 3.3V and 1.8V). Using the MB88121B series the power supply settings needs to be changed due to single voltage supply. Solder Jumper JP13, JP22, JP24 must be opened. Solder Jumper JP9 must be changed to position 2-3. Jumper JP8 JP9 JP13 JP22 JP24 Setting 1-2 2-3 1-2 2-3 ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) Description 5V connected to ASSPVcc 3.3V connected to ASSPVcc 3.3V connected to ASSP Vcc1 pin ASSPVcc connected to ASSP Vcc1 pin 1.8V connected to ASSP C-pin 1.8V not connected to ASSP C-pin 1.8V connected to ASSP pin 8 1.8V not connected to ASSP pin 8 GND connected to ASSP pin 9 GND not connected to ASSP pin 9 Default: grey MB88121B Jumper settings: orange Table 3-10: Power Supply settings for MB88121B FMEMCU-UG-910017-17 - 26 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.5 MCU-FlexRay CC Connection at SK-91F467-FLEXRAY The FlexRay communication controller MB88121 provides different communication modes to a microcontroller. The MB88121 has different pin functions in its communication modes. Therefore it is possible to connect the CC in different ways to the MCU, to evaluate the different communication modes. JP1 Connects MCU INT6 or MCU A10 to CC pin 35 (INT2 / A10) JP2 Connects MCU INT7 or MCU A9 to CC pin 36 (INT3 / A9) JP3 Connects MCU A5 or MCU SCK6 to CC pin 40 (SCK / A5) JP4 Connects MCU A4 or MCU SOT6 to CC pin 41 (SDI / A4) JP5 Connects MCU A3 or MCU SIN6 to CC pin 42 (SDO / A3) JP7 Connects MCU A0 with CC A0 JP10 Connects MCU D26 or CC SPI-mode switch S1-3 (MDS2) to CC pin 53 (AD10 / D10 / AD2 / D2 / MDS2) JP11 Connects MCU D25 or CC SPI-mode switch S1-2 (MDS1) to CC pin 54 (AD9 / D9 / AD1 / D1 / MDS1) JP12 Connects MCU D24 or CC SPI-mode switch S1-1 (MDS0) to CC pin 55 (AD8 / D8 / AD0 / D0 / MDS0) JP14 Connects MCU D21 or MCU INT6 to CC pin 58 (AD5 / INT2) JP17 Connects MCU D20 or MCU INT7 to CC pin 59 (AD4 / INT3) JP19 Connects MCU CSX3 or MCU CSX6 to CC pin 19 (CS) JP20 Connects MCU INT6 or MCU ASX to CC pin 22 (ALE / INT2) Note: For more information about the FlexRay CC modes and the different pin functions, please refer to MB88121 documentation. Jumper JP1 JP2 JP3 JP4 JP5 JP7 JP10 Setting 1-2 2-3 1-2 2-3 1-2 2-3 1-2 2-3 1-2 2-3 ON (closed) OFF (open) 1-2 © Fujitsu Microelectronics Europe GmbH Description MCU INT6 connected to CC INT2 MCU A10 connected to CC A10 MCU INT7 connected to CC INT3 MCU A9 connected to CC A9 MCU A5 connected to CC A5 MCU SCK6 connected to CC SCK MCU A4 connected to CC A4 MCU SOT6 connected to CC SDI MCU A3 connected to CC A3 MCU SIN6 connected to CC SDO MCU A0 is connected to CC A0 MCU A0 is not connected to CC A0 MCU D26 connected to CC AD2 / AD10 - 27 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches Jumper JP11 JP12 JP14 JP17 JP19 JP20 Setting 2-3 1-2 2-3 1-2 2-3 1-2 2-3 1-2 2-3 1-2 2-3 1-2 2-3 Description CC SPI-mode switch S1-3 connected to CC MDS2 MCU D25 connected to CC AD1 / AD9 CC SPI-mode switch S1-2 connected to CC MDS1 MCU D24 connected to CC AD0 / AD8 CC SPI-mode switch S1-1 connected to CC MDS0 MCU D21 connected to CC AD5 MCU INT6 connected to CC INT2 MCU D20 connected to CC AD4 MCU INT7 connected to CC INT3 MCU CSX3 connected to CC CS MCU CSX6 connected to CC CS MCU INT6 connected to CC INT2 MCU ASX connected to CC ALE Default: grey Table 3-11: MCU-FlexRay CC Connection 3.6 FlexRay Physical Layer The SK-91F467-FLEXRAY provides different FlexRay physical layer communication. The default setting is for RS-485 physical layer communication (on board). To test the original FlexRay physical layer transceiver, it is possible to deselect the RS-485 transceiver and plug in FlexRay physical layer driver module from TZM (FT1080). With the TZM (FT1080) modules the user has the possibility to evaluate transceiver chips from different vendors quite easy. Note: Disconnect the RS-485 physical layer transceiver signals before plugging in the FT1080 modules to X3 and X7. 3.6.1 Channel A JP35 Connects FlexRay channel A RxD to RS-485 transceiver (FT1080 must not be plugged in X3!) JP40 Connects FlexRay channel A TxEN to RS-485 transceiver (FT1080 must not be plugged in X3!) JP45 Connects FlexRay channel A TxD to RS-485 transceiver (FT1080 must not be plugged in X3!) JP38 Connects FlexRay channel A RS-485 transceiver output B to Sub-D-9 connector (X2) JP41 Connects FlexRay channel A RS-485 transceiver output A to Sub-D-9 connector (X2) JP34, JP36 Connects RS-485 termination network to signal lines at FlexRay channel A JP48 Connects FT1080 module CH-A EN to configuration switch S6 FMEMCU-UG-910017-17 - 28 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches JP49 Connects FT1080 module CH-A WAKE to configuration switch S6 JP50 Connects FT1080 module CH-A nSTB to configuration switch S6 JP55 Connects FT1080 module CH-A nERR to MCU port P14_4 JP53 Selects VccPL (supply voltage of CH-A and CH-B FT1080 modules) 3.3V or 5V JP56 Connects FT1080 module CH-A VBat to VBat (input voltage of the starter kit) Jumper JP35 JP40 JP45 JP38 JP41 JP34, JP36 JP48 JP49 JP50 JP55 JP53 JP56 Setting ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) 1-2 2-3 ON (closed) OFF (open) Description RXDA connected to RS-485 transceiver RXDA not connected to RS-485 transceiver TXENA connected to RS-485 transceiver TXENA not connected to RS-485 transceiver TXDA connected to RS-485 transceiver TXDA not connected to RS-485 transceiver CH-A RS-485 output B connected to X2 CH-A RS-485 output B not connected to X2 CH-A RS-485 output A connected to X2 CH-A RS-485 output A not connected to X2 Line termination connected to CH-A RS-485 Line termination not connected to CH-A RS-485 CH-A FT1080 EN connected to S6 CH-A FT1080 EN connected to S6 CH-A FT1080 WAKE connected to S6 CH-A FT1080 WAKE connected to S6 CH-A FT1080 nSTB connected to S6 CH-A FT1080 nSTB connected to S6 CH-A FT1080 nERR connected to MCU P14_4 CH-A FT1080 nERR not connected to MCU P14_4 Vcc 5V is connected to VccPL Vcc 3.3V is connected to VccPL VBat is connected to FT1080 CH-A VBat is not connected to FT1080 CH-A Default: grey Table 3-12: FlexRay CH-A Configuration 3.6.2 Channel B JP61 Connects FlexRay channel B RxD to RS-485 transceiver (FT1080 must not be plugged in X7!) JP66 Connects FlexRay channel B TxEN to RS-485 transceiver (FT1080 must not be plugged in X7!) JP70 Connects FlexRay channel B TxD to RS-485 transceiver (FT1080 must not be plugged in X7!) © Fujitsu Microelectronics Europe GmbH - 29 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches JP63 Connects FlexRay channel B RS-485 transceiver output B to Sub-D-9 connector (X6) JP67 Connects FlexRay channel B RS-485 transceiver output A to Sub-D-9 connector (X6) JP59, JP62 Connects RS-485 termination network to signal lines at FlexRay channel B JP73 Connects FT1080 module CH-B EN to configuration switch S6 JP74 Connects FT1080 module CH-B WAKE to configuration switch S6 JP75 Connects FT1080 module CH-B nSTB to configuration switch S6 JP76 Connects FT1080 module CH-B nERR to MCU port P14_7 JP77 Connects FT1080 module CH-B VBat to VBat (input voltage of the starter kit) Jumper JP61 JP66 JP70 JP63 JP67 JP59, JP62 JP73 JP74 JP75 JP76 JP77 Setting ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) Description RXDB connected to RS-485 transceiver RXDB not connected to RS-485 transceiver TXENB connected to RS-485 transceiver TXENB not connected to RS-485 transceiver TXDB connected to RS-485 transceiver TXDB not connected to RS-485 transceiver CH-B RS-485 output B connected to X6 CH-B RS-485 output B not connected to X6 CH-B RS-485 output A connected to X6 CH-B RS-485 output A not connected to X6 Line termination connected to CH-B RS-485 Line termination not connected to CH-B RS-485 CH-B FT1080 EN connected to S6 CH-B FT1080 EN connected to S6 CH-B FT1080 WAKE connected to S6 CH-B FT1080 WAKE connected to S6 CH-B FT1080 nSTB connected to S6 CH-B FT1080 nSTB connected to S6 CH-B FT1080 nERR connected to MCU P14_7 CH-B FT1080 nERR not connected to MCU P14_7 VBat is connected to FT1080 CH-B VBat is not connected to FT1080 CH-B Default: grey Table 3-13: FlexRay CH-B Configuration FMEMCU-UG-910017-17 - 30 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.6.3 FT1080 Control Settings (S6) The DIP switch S6 is used to set EN, WAKE and nSTB signals of the FlexRay physical layer driver modules from TZM (FT1080). The control signals can also be connected with jumper to the MCU to give the possibility to set them via user software. Both modules (FT1080) will be set simultaneously, if JP48-JP50 and JP73-JP75 are closed. DIP switch S6/1 (EN) S6/2 (WAKE) S6/3 (nSTB) S6/4 (Not used) Setting ON (closed) OFF (open) Logical value 0 (low) 1 (high) ON (closed) OFF (open) 0 (low) 1 (high) ON (closed) 0 (low) OFF (open) ON (closed) OFF (open) 1 (high) Not connected Not connected Default: grey Table 3-14: FT1080 Control Settings EN WAKE nSTB nc Dip-Switch S6 ON (default setting) OFF 1 2 3 4 Figure 3-5: FT1080 Control Switch JP31 Connects nSTB signal of FT1080 modules to MCU port 18_6 JP32 Connects WAKE signal of FT1080 modules to MCU port 18_5 JP33 Connects EN signal of FT1080 modules to MCU port 18_4 Jumper JP31 JP32 JP33 Setting ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) Description nSTB is connected to MCU P18_6 No connection to the microcontroller WAKE is connected to MCU P18_5 No connection to the microcontroller EN is connected to MCU P18_4 No connection to the microcontroller Default: grey Table 3-15: FT1080 Connection to MCU © Fujitsu Microelectronics Europe GmbH - 31 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.7 CAN0 – CAN2 Three high-speed CAN-transceivers (PCA82C250) are on-board to connect all available onchip CAN to 9-pin D-Sub connectors (X9, X10 and X11). JP82 Connects MCU RX0 to CAN transceiver U15 JP83 Connects MCU TX0 to CAN transceiver U15 JP87 Connects MCU RX1 to CAN transceiver U18 JP88 Connects MCU TX1 to CAN transceiver U18 JP89 Connects MCU RX2 to CAN transceiver U19 JP90 Connects MCU TX2 to CAN transceiver U19 Jumper JP82 JP83 JP87 JP88 JP89 JP90 Setting ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) Description CAN0 RxD connected to MCU No connection to the microcontroller CAN0 TxD connected to MCU No connection to the microcontroller CAN1 RxD connected to MCU No connection to the microcontroller CAN1 TxD connected to MCU No connection to the microcontroller CAN2 RxD connected to MCU No connection to the microcontroller CAN2 TxD connected to MCU No connection to the microcontroller Default: grey Table 3-16: CAN-MCU connection 3.8 LIN / RS-232 UART There are three UART connectors X1, X4 and X8 (9-pin D-Sub) on-board, which can be used for RS-232 or LIN communication (to get information in detail about pin usage, please refer to chapter 4.2 UART / LIN Connector (X1, X4, X8)). The LIN transceiver needs to be configured as LIN-master or LIN-slave. FMEMCU-UG-910017-17 - 32 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.8.1 UART 2 UART2 (connector X1) is selected as LIN master at default setting. JP37 Select, if SIN2 is connected to RS-232- or LIN-transceiver JP44 Select, if SOT2 is connected to RS-232- or LIN-transceiver JP46 Select, if RS-232- or LIN-transceiver is connected to X1 pin2 (shared pin) JP30 Some terminal programs needs a connection between CTS and RTS JP39 Selects, if DTR or RTS will be used for system reset generation JP47 Enables the LIN transceiver JP51 Selects, if UART2 will be LIN master or LIN slave Note: UART2 has to be selected with JP57, to generates a system reset Jumper JP37 JP44 JP46 JP30 JP39 JP47 JP51 Setting 1-2 2-3 1-2 2-3 1-2 2-3 ON (closed) OFF (open) 1-2 2-3 ON (closed) OFF (open) ON (closed) OFF (open) Description MCU SIN2 connected to RS-232 transceiver MCU SIN2 connected to LIN transceiver MCU SOT2 connected to RS-232 transceiver MCU SOT2 connected to LIN transceiver X1 pin2 is connected to RS-232 transceiver X1 pin2 is connected to LIN transceiver RTS and CTS is connected at connector X1 RTS and CTS is not connected at connector X1 DTR can be used for system reset RTS can be used for system reset LIN transceiver is enabled LIN transceiver is not enabled LIN master mode LIN slave mode Default: grey Table 3-17: UART2 Settings © Fujitsu Microelectronics Europe GmbH - 33 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.8.2 UART 4 (Flash programming) UART4 (connector X4) is selected as RS-232 at default setting. UART4 is also used to write user software into the Flash of the MCU. JP60 Select, if SIN4 is connected to RS-232- or LIN-transceiver JP65 Select, if SOT4 is connected to RS-232- or LIN-transceiver JP69 Select, if RS-232- or LIN-transceiver is connected to X4 pin2 (shared pin) JP58 Some terminal programs needs a connection between CTS and RTS JP64 Selects, if DTR or RTS will be used for system reset generation JP71 Enables the LIN transceiver JP72 Selects, if UART4 will be LIN master or LIN slave Jumper JP60 JP65 JP69 JP58 JP64 JP71 JP72 Setting 1-2 2-3 1-2 2-3 1-2 2-3 ON (closed) OFF (open) 1-2 2-3 ON (closed) OFF (open) ON (closed) OFF (open) Note: UART4 has to be selected with JP57, to generates a system reset Description MCU SIN4 connected to RS-232 transceiver MCU SIN4 connected to LIN transceiver MCU SOT4 connected to RS-232 transceiver MCU SOT4 connected to LIN transceiver X4 pin2 is connected to RS-232 transceiver X4 pin2 is connected to LIN transceiver RTS and CTS is connected at connector X4 RTS and CTS is not connected at connector X4 DTR can be used for system reset RTS can be used for system reset LIN transceiver is enabled LIN transceiver is not enabled LIN master mode LIN slave mode Default: grey Table 3-18: UART4 Settings Note: UART4 is used as serial interface for Softune Workbench Monitor Debugger. Jumper J58 must be closed. FMEMCU-UG-910017-17 - 34 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.8.3 UART 5 UART5 (connector X8) is selected as RS-232 at default setting. JP79 Select, if SIN5 is connected to RS-232- or LIN-transceiver JP81 Select, if SOT5 is connected to RS-232- or LIN-transceiver JP84 Select, if RS-232- or LIN-transceiver is connected to X8 pin2 (shared pin) JP78 Some terminal programs needs a connection between CTS and RTS JP80 Selects, if DTR or RTS will be used for system reset generation JP85 Enables the LIN transceiver Note: UART5 has to be selected with JP57, to generates a system reset JP86 Selects, if UART5 will be LIN master or LIN slave Jumper JP79 JP81 JP84 JP78 JP80 JP85 JP86 Setting 1-2 2-3 1-2 2-3 1-2 2-3 ON (closed) OFF (open) 1-2 2-3 ON (closed) OFF (open) ON (closed) OFF (open) Description MCU SIN4 connected to RS-232 transceiver MCU SIN4 connected to LIN transceiver MCU SOT4 connected to RS-232 transceiver MCU SOT4 connected to LIN transceiver X4 pin2 is connected to RS-232 transceiver X4 pin2 is connected to LIN transceiver RTS and CTS is connected at connector X4 RTS and CTS is not connected at connector X4 DTR can be used for system reset RTS can be used for system reset LIN transceiver is enabled LIN transceiver is not enabled LIN master mode LIN slave mode Default: grey Table 3-19: UART5 Settings © Fujitsu Microelectronics Europe GmbH - 35 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.9 User Push Buttons INT0, INT1, INT2 and ICU0/TIN0 There are four user push buttons on the starter kit, which can be connected to the microcontroller. JP92 – JP95 Connects the user push buttons (SW2 – SW5) to the microcontroller Jumper JP92 (SW2) JP93 (SW3) JP94 (SW4) JP95 (SW5) Setting ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) ON (closed) OFF (open) Description Button INT0 is connected to the microcontroller No connection to the microcontroller Button INT1 is connected to the microcontroller No connection to the microcontroller Button INT2 is connected to the microcontroller No connection to the microcontroller Button ICU0/TIN0 is connected to the microcontroller No connection to the microcontroller Default: grey Table 3-20: User Push Buttons 3.10 User DIP Switch 8 Bit (S4) There is an 8 bit user-DIP-switch on-board, which can be connected to one MCU port (P26), Connecting High- or Low level to the pins. S3, also an 8 bit DIP-switch, dis-/connect the eight channels of S4 to the MCU pins. In case of other usage of these pins, open S3 switch accordingly. DIP switch S4/1 - 8 Setting ON (closed) OFF (open) Logical value 0 (low) 1 (high) Default: grey Table 3-21: S4 Values Note: DIP-switch S3 is used to connect DIP-switch S4 to the MCU port pins at port P26. DIP switch S3/1 - 8 Setting ON (closed) OFF (open) Description S4/1-8 connected to MCU port P26_0-7 No connection to the microcontroller Default: grey Table 3-22: S3 Settings FMEMCU-UG-910017-17 - 36 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Jumpers and Switches 3.11 Reset Generation A system reset can be generated in different ways. The first possibility is to press the user reset push button (SW1). Secondly the supply monitor will generate a reset if an unusual voltage is detected and third a reset is raised if a UART that does a reset is selected. If a system reset is done, it will be displayed by the red reset LED (D18). The system reset will do a simultaneous reset of the microcontroller and the FlexRay communication controller. The MCU and / or the FlexRay CC can be disconnected from the system reset signal with two jumpers. The Reset push button can be used in two modes: • no delay of Reset • press Reset button 2s The selection is done by solder Jumper JP96. JP52 Connects the FlexRay CC to the system reset signal (SK91F467-FLEXRAY) JP54 Connects the MCU to the system reset signal Jumper JP52 JP54 JP96 Setting ON (closed) OFF (open) ON (closed) OFF (open) 1-2 2-3 Description Reset is connected to FlexRay CC RST No connection to the FlexRay CC Reset is connected to MCU INITX No connection to the MCU Reset is generated when SW1 is pressed Reset is generated after SW1 is pressed 2s Default: grey Table 3-23: Reset Connections The triple supply monitor on-board has the possibility to watch 5V, 3.3V and the third voltage is user configurable 2.5V or 1.8V. If any voltage has a failure, a system reset will be done. JP42 Monitoring of 1.8V supply voltage JP43 Monitoring of 2.5V supply voltage Jumper JP42 JP43 Setting ON (closed) OFF (open) ON (closed) OFF (open) Description Vcc1V8 connected to supply monitor Vcc1V8 not connected to supply monitor Vcc2V5 connected to supply monitor Vcc2V5 not connected to supply monitor Default: grey Table 3-24: Supply Monitor Settings By default 2.5V supply will be monitored. The system reset also can be done via any UART. Therefore the user has the possibility to select one of the three on-board UARTs. © Fujitsu Microelectronics Europe GmbH - 37 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Jumpers and Switches JP57 Select which UART should do the system reset JP29 The polarity of the DTR/RTS signal can be inverted by this jumper. Remove the jumper to disable the UART reset function Jumper JP57 JP29 Setting 1-2 3-4 5-6 1-2 2-3 Description Reset will be done via UART2 Reset will be done via UART4 Reset will be done via UART5 No polarity inversion for the DTR/RTS signal Polarity inversion for the DTR/RTS signal Table 3-25: Reset UART Selection By default the UART reset is disabled. Note: During normal operation, the reset LED should be off! If the reset LED is steadily on, check the power supply voltages and the settings for the reset generation by UART. FMEMCU-UG-910017-17 - 38 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Connectors 4 Connectors 4.1 Power Connector (X5) The following figure shows the power connection jack of the starter kit. This connector is used to connect an external unregulated DC power supply voltage (9V-12V DC recommended 2000mA). Shield is connected to positive voltage supply (+) Centre is connected to ground (GND) Table Figure 4-1: Power Connector 4.2 UART / LIN Connector (X1, X4, X8) Three 9-pin D-Sub female connectors are used for the serial interfaces LIN/UART2, LIN/UART4 and LIN/UART5. Take care, that the RS232 as well as the LIN signals are shared at the connectors and have to be selected by jumpers (see chapter 3.8). Figure 4-2: UART Connector Pin Number 1 2 3 4 5 6 7 8 9 Shield Pin Signal +VBat TXD LIN RXD DTR GND DSR RTS CTS LGND GND Description Power from LIN bus RS-232 transmit output Bi-directional LIN-interface RS-232 receive input Connected to DSR (pin 6) Ground normally used for RS232 connection Connected to DTR (pin 4) Can be connected with CTS by jumper Can be connected with RTS by jumper Ground normally used for LIN connection Ground Table 4-1: UART Connector Signals Note: Please use 1:1 cable for RS232 PC-connection. © Fujitsu Microelectronics Europe GmbH - 39 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Connectors 4.3 CAN Connector (X9, X10, X11) Three 9-pin D-Sub male connectors are used for the CAN interfaces CAN0, CAN1 and CAN2. Figure 4-3: CAN Connector Pin Number 1 2 3 4 5 6 7 8 9 Shield Pin Signal NC CANL GND NC NC NC CANH NC NC GND Description Not used LOW-level CAN voltage input/output Ground Not used Not used Not used HIGH-level CAN voltage input/output Not used Not used Ground Table 4-2: CAN Connector Signals 4.4 FlexRay Connector (X2, X6) Two 9-pin D-Sub male connectors are used for the two FlexRay channels A and B. As default RS-485 is used at SK-91F467-FLEXRAY. Figure 4-4: FlexRay Connector Pin Number 1 2 3 4 5 6 7 8 9 Shield Pin Signal NC BM GND NC User NC BP NC NC Shield Description Not used Bus line Minus Ground Not used Connected to optional pin head (CH-A: J9; CH-B: J14) Not used Bus line Plus Not used Not used Connected to shield of FT1080 modules Table 4-3: FlexRay Connector Signals FMEMCU-UG-910017-17 - 40 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Connectors 4.5 FlexRay Physical Layer Module Connector (X3, X7) To use the FlexRay physical layer driver module from TZM (FT1080) there are two special connectors on board of SK-91F467-FLEXRAY, both for FlexRay channels A and B, to insert the modules. If the modules FT1080 should be used, it is necessary to disable the RS-485 driver modules (see chapter 3.6). Figure 4-5: FlexRay Physical Layer Connector Pin Number Pin Signal 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 SGND Shield NC BM NC BP EN NC WAKE NC nSTB NC BGE NC No Pin No Pin TxD Ubuffer TxEN GND RxD VIO RxEN GND INH2 Vcc INH1 GND nERR VBat NC GND NC nCS NC SDI TRXD0 SDO TRXD1 SCK Description Signal Ground FlexRay bus shield (filtered) Not used Bus line Minus Not used Bus line Plus Mode control input Not used Local wakeup Not used Mode control input Not used Bus guardian enable Not used Coded Coded Transmission data input Transmitter supply voltage buffering Transmission data enable Ground Receive data output I/O supply voltage Receive data enable output (not used) Ground Inhibit switch floating in standby / sleep mode Supply voltage Inhibit switch floating in sleep mode Ground Error indication Battery supply voltage Not used Ground Not used ID-EEPROM SPI-nCS (connected to optional pin header) Not used ID-EEPROM SPI data in (connected to optional pin header) Star (connected to optional pin header) ID-EEPROM SPI data out (connected to optional pin header) Star (connected to optional pin header) ID-EEPROM SPI clock (connected to optional pin header) Table 4-4: FlexRay Physical Layer Modules © Fujitsu Microelectronics Europe GmbH - 41 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Connectors 4.6 USER-LEDs and optional LC-Display (D1-D16, J6) There are sixteen user LEDs on-board, D1-D8 connected to MCU port P25 and D9-D16 connected to MCU port P16. To disconnect the LEDs from the MCU, it is possible to remove RN3 (D1-D8 at port P25) and RN2 (D9-D16 at port P16). It is also possible to connect a standard LCD module with backlight to connector J6. With the potentiometer RP1 the contrast of the LCD can be adjusted. Pin 14 13 12 11 10 9 8 LCD DB7 DB6 DB5 DB4 - - - LED D8 D7 D6 D5 Port P25_7 P25_6 P25_5 P25_4 MCU 187 186 185 184 7 6 5 4 3 2 1 16 15 - E R/W RS VO Vcc GND LED- LED+ D4 D3 D2 D1 P25_3 P25_2 P25_1 P25_0 181 180 179 178 Table 4-5: LED/LCD Signals LCD contrast D16 (Port: P16_7) D9 (Port: P16_0) D8 (Port: P25_7) D1 (Port: P25_0) Figure 4-6: User LEDs / LCD FMEMCU-UG-910017-17 - 42 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Connectors 4.7 In-Circuit-Programming Connector (X12) There is a Flash-programming socket on the starter kit which makes it possible to program the Flash MCU with a special programming adapter. Mode pins and reset signal is also available at this connector. Figure 4-7: In Circuit Programming Connector Pin Number 1 2 3 4 5 6 7 8 9 10 Pin Signal NC NC MD0 MD2 INITX SIN4 SOT4 SCK4 VCC GND Description Not used Not used MCU mode-pin 0 MCU mode-pin 2 MCU reset signal UART4 receive data UART4 transmit data UART4 clock Board supply voltage Ground Table 4-6: In-Circuit Programming Connector 4.8 MCU Pin Connectors (J1-J4) All MCU pins are directly connected to the four pin header around the MCU. The last two pins of the pin header J1, J2, J3 and J4 are unused (see PCB overprint). Connector J1 J2 J3 J4 MCU Pins 1-52 53-104 105-156 157-208 Table 4-7: MCU Pin Connectors On the PCB, the corresponding pin numbers of the MCU are written next to the connector pins. © Fujitsu Microelectronics Europe GmbH - 43 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Connectors 4.9 External Bus Connectors (X13, X14) 4.9.1 VG96ABC DIN 41612 (X13) Pin Name MCU-P. Pin Name MCU-P. Pin Name MCU-P. A1 A2 2.5 V 3.3V - B1 B2 2.5 V 3.3V - C1 C2 2.5 V 3.3V - A3 5.0 V - B3 5.0 V - C3 5.0 V - A4 GND - B4 GND - C4 GND - A5 D0 192 B5 D1 193 C5 D2 194 A6 D3 195 B6 D4 196 C6 D5 197 A7 D6 198 B7 D7 199 C7 D8 200 A8 D9 201 B8 D10 202 C8 D11 203 206 A9 D12 204 B9 D13 205 C9 D14 A10 D15 207 B10 D16 2 C10 D17 3 A11 D18 4 B11 D19 5 C11 D20 6 A12 D21 7 B12 D22 8 C12 D23 9 A13 D24 10 B13 D25 11 C13 D26 12 A14 D27 13 B14 D28 14 C14 D29 15 A15 D30 16 B15 D31 17 C15 GND - A16 GND - B16 GND - C16 GND - A17 A0 18 B17 A1 19 C17 A2 20 A18 A3 21 B18 A4 22 C18 A5 23 A19 A6 24 B19 A7 25 C19 A8 28 A20 A9 29 B20 A10 30 C20 A11 31 A21 A12 32 B21 A13 33 C21 A14 34 A22 A15 35 B22 A16 36 C22 A17 37 A23 A18 38 B23 A19 39 C23 A20 40 A24 A21 41 B24 A22 42 C24 A23 43 A25 A24 44 B25 A25 45 C25 NC - A26 NC - B26 NC - C26 NC - A27 NC - B27 NC - C27 GND - A28 P27_0 158 B28 P27_1 159 C28 P27_2 160 A29 P27_3 161 B29 P27_4 164 C29 P27_5 165 A30 P27_6 166 B30 P27_7 167 C30 GND - A31 2.5V - B31 2.5V - C31 NC A32 GND - B32 GND - C32 GND Table 4-8. VG96 (X13) Signals Note: The pin numbers of the VG connectors refer to the male connectors that plugs into the starter kit. Please see chapter 5 to find the right orientation. FMEMCU-UG-910017-17 - 44 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Connectors 4.9.2 VG48ABC DIN 41612 (X14) Pin Name MCU-P. Pin Name MCU-P. Pin Name MCU-P. A1 A2 CSX0 CSX2 56 58 B1 B2 GND 1.8V - C1 C2 CSX1 CSX3 57 59 A3 NC - B3 GND - C3 NC - A4 CSX6 60 B4 1.8V - C4 RDY 55 A5 BGRNTX 51 B5 GND - C5 BRQ 54 A6 RDX 50 B6 NC - C6 WRX0 46 A7 WRX1 47 B7 NC - C7 WRX2 48 A8 WRX3 49 B8 NC - C8 ASX 62 A9 NC - B9 NC - C9 MCLKO 65 A10 DREQ0 189 B10 NC - C10 DACKX0 190 A11 DEOP0 191 B11 NC - C11 NC - A12 INT12 97 B12 NC - C12 SDA0 99 A13 INT13 98 B13 NC - C13 SCL0 100 A14 SIN5 109 B14 Vin - C14 SOT5 110 A15 GND - B15 Vin - C15 SCK5 111 A16 INITX 73 B16 Vin - C16 GND - Table 4-9: VG48 (X14) Signals Note: The pin numbers of the VG connectors refer to the male connectors that plugs into the starter kit. Please see chapter 5 to find the right orientation. 4.9.3 Distance between VG-Connectors To connect own applications to the starter-kit the following figure shows the distance between the VG DIN 41612 connectors. 8,89mm/ 350mil Figure 4-8: Layout of DIN VG Connectors © Fujitsu Microelectronics Europe GmbH - 45 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Connection between MB91F467DA and MB88121 5 Connection between MB91F467DA and MB88121 The MB88121 series supports different host connectivity’s. The MB88121/A series support 16-bit none-multiplexed parallel Bus-interface. To change to another connection some Jumpers settings needs to be changed. The MB88121B series supports 16-bit none-multiplexed and 16-bit multiplexed parallel Businterface and SPI interface. By default the 16-bit none-multiplexed parallel Bus interface is set at the board. FMEMCU-UG-910017-17 - 46 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Connection between MB91F467DA and MB88121 5.1 Settings for 16-bit none-multiplexed parallel bus interface The 16-bit none-multiplexed parallel bus interface is supported by MB88121, MB88121A and MB88121B series. Jumper Setting JP1 1-2 JP2 1-2 JP3 1-2 JP4 1-2 JP5 1-2 JP7 closed JP10 1-2 JP11 1-2 JP12 1-2 JP14 1-2 JP17 1-2 JP19 1-2 JP20 1-2 Description Address line A10 MB88121 pin 35, MCU pin 30 Address line A9 MB88121 pin 36, MCU pin 29 Address line A5 MB88121 pin 40, MCU pin 23 Address line A4 MB88121 pin 41, MCU pin 22 Address line A3 MB88121 pin 42, MCU pin 21 Address line A0 MB88121 pin 45, MCU pin 18 Data line D10 MB88121 pin 53, MCU pin 12 Data line D9 MB88121 pin 54, MCU pin 11 Data line D8 MB88121 pin 55, MCU pin 10 Data line D5 MB88121 pin 58, MCU pin 7 Data line D4 MB88121 pin 59, MCU pin 6 Chip Select MB88121 pin 19, MCU pin 59 (CS3) Interrupt 2 pin MB88121 pin 22, MCU pin 89 Table 5-1: Jumper Settings for 16-bit none-multiplexed parallel bus interface The DIP Switch settings are the default settings: DIP Switch S1: all OFF ( No function for this mode) DIP Switch S2: S2/3 (MD2) and S2/6 (MDE2): OFF All others ON. See also chapter 3.2 and Chapter 3.3. © Fujitsu Microelectronics Europe GmbH - 47 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Connection between MB91F467DA and MB88121 5.2 Settings for 16-bit multiplexed parallel bus interface The 16-bit multiplexed parallel bus interface is supported by MB88121B series. Jumper Setting Description JP1 2-3 JP2 2-3 JP3 open No function JP4 open No function JP5 open No function JP7 open No function JP10 1-2 JP11 1-2 JP12 1-2 JP14 1-2 JP17 1-2 JP19 1-2 JP20 2-3 INT2 MB88121 pin 35, MCU pin 89 INT3 MB88121 pin 36, MCU pin 90 AD10 MB88121 pin 53, MCU pin 12 AD9 MB88121 pin 54, MCU pin 11 AD8 MB88121 pin 55, MCU pin 10 AD5 MB88121 pin 58, MCU pin 7 AD4 MB88121 pin 59, MCU pin 6 Chip Select MB88121 pin 19, MCU pin 59 (CS3) ASX MB88121 pin 22, MCU pin 62 Table 5-2: Jumper Settings for 16-bit multiplexed parallel bus interface The DIP Switch settings: DIP Switch S1: all OFF ( No function for this mode) DIP Switch S2: S2/3 (MD2): OFF All others ON. See also chapter 3.2 and Chapter 3.3. FMEMCU-UG-910017-17 - 48 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Connection between MB91F467DA and MB88121 5.3 Settings for SPI interface The SPI interface is supported by MB88121B series. Jumper Setting Description JP1 open No function JP2 open No function JP3 2-3 JP4 2-3 JP5 2-3 JP7 open JP10 2-3 JP11 2-3 JP12 2-3 JP14 2-3 JP17 2-3 JP19 1-2 JP20 open SCK MB88121 pin 40, MCU pin 114 SDI MB88121 pin 41, MCU pin 113 SDO MB88121 pin 42, MCU pin 112 No function MDS2 MB88121 pin 53, DIP S1/3 MDS1 MB88121 pin 54, DIP S1/2 MDS0 MB88121 pin 55, DIP S1/1 INT2 MB88121 pin 58, MCU pin 89 INT3 MB88121 pin 59, MCU pin 90 Chip Select MB88121 pin 19, MCU pin 59 (CS3) No function Table 5-3: Jumper Settings for SPI mode The DIP Switch settings: DIP Switch S1: Selects the SPI mode. DIP Switch S2: Serial Mode selection: S2/2 (MD1) and S2/3 (MD2): OFF S2/1 (MD0): ON MDE2,1 bit selects the external Frequency. The starter kit using 10 MHz crystal: S2/5 (MDE1) and S2/6 (MDE2): OFF S2/4 (MDE0): ON See also chapter 3.2 and Chapter 3.3. © Fujitsu Microelectronics Europe GmbH - 49 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Getting Started 6 Getting Started Make sure Softune Workbench for FR is installed on your PC and the “SK-91F467FLEXRAY” or “SK-91F467D-208PFV” is ready to use (power-on (X5), serial connection (UART4) to COM port of the PC). Refer to Chapter 2 Installation for details on the hardware and software installation. 6.1 Introduction to Softune Workbench Start Softune Workbench. Select to load the first example “SK91F467-FLEXRAY_test.wsp”. All examples can be found in the folder \software\examples on the starter kit CD-ROM. It is recommended to copy this folder to the local hard-drive. In the project tree on the left side, you can open the “source”-folder which contains the source-files registered to this project. A double-click on one of the files will invoke the built-in editor, which supports syntax-highlighting, tags and various other functions. Figure 6-1: Softune Workbench main window Note: You may customize the editor by a right-click on the editor window. FMEMCU-UG-910017-17 - 50 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Getting Started Whenever you modify the source-files, you have to re-compile and link the related files to produce a valid load module (ABS-file). This is done using the MAKE-function. MAKE invokes the assembler, C-compiler and linker for FR whenever necessary (only modified files will be re-compiled). If you wish to re-compile the entire project regardless of any changes, you can use the BUILD-function. To check for syntax-errors on a specific source-file, use the COMPILE/ASSEMBLE function. These three functions are available on the button-bar or from the main menu (Project – Compile / Make / Build / Abort). Click on MAKE or BUILD. Messages from the individual language tools will be fed into the output window at the bottom of the main screen. If the tool chain (C-compiler → Assembler → Linker) was completed successfully, the message “No Error” will appear. If you get any errors during compilation, an appropriate message will be generated. Try this with a simple syntax-error (e.g. delete a semicolon “;” from the end of a C-line) and click on MAKE again. You will now see a message like this: Now Making... --------------------Configuration: Starterkit91302_Test.prj - Debug-------------------main.c *** C:\SK-91F467-FLEXRAY\SK-91F467-FLEXRAY_Test\Src\main.c(81) E4065B: expected a ";" *** C:\SK-91F467-FLEXRAY\SK-91F467-FLEXRAY_Test\Src\main.c(104) W1012B: warning: parsing restarts here after previous syntax error 1 error detected in the compilation of "C:\SK-91F467-FLEXRAY\SK-91F467-FLEXRAY_Test\Src\main.c". -----------------------------Error detected. ------------------------------ To locate the position in the source-file, where the error has occurred, double-click on the message. The editor will open the appropriate source-file, indicating the error highlighted in red, depending on the customise settings of the editor. Correct the error and re-compile the project as explained above. If more errors occurred, you can go through the error list step by step using the menu “Edit – Top/Previous/Next/Bottom Error” or using the appropriate buttons which have the same functions: Note: To get on-line help about a specific error, select the error message and press F1. In many cases, you can get some useful hints how to solve the problem. Of course, you can also use the HELP-menu anytime during development or debugging. © Fujitsu Microelectronics Europe GmbH - 51 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Getting Started 6.2 Project Start-up In order to allow a quick and smooth project start-up Fujitsu Microelectronics Europe supplies a template project as a reference. The easiest way to start a new project is to make a copy of the template project and use this copy as a start-up. The template includes the latest start91460.asm file, MCU header file, IRQ table, basic linker and C-Compiler settings. Note: In any case the settings done in the template must be checked and have to be adjusted to the specific needs and settings of the final application. The template is providing an example for building up a new project. THIS SAMPLE CODE IS PROVIDED AS IS AND IS SUBJECT TO ALTERATIONS. FUJITSU MICROELECTRONICS ACCEPTS NO RESPONSIBILITY OR LIABILITY FOR ANY ERRORS OR/ELIGIBILITY FOR ANY PURPOSES. (C) Fujitsu Microelectronics Europe GmbH 6.2.1 Create a New Project: 1. In order to start a new user-project use the “91460_template_91467d” project 2. Copy the folder 91460_template_91467d and rename the folder to e.g. my_application 3. Enter the folder “my_application” Rename “91460_template_91467d.prj” into “my_application.prj” Rename “91460_template_91467d” into “my_application.wsp” 4. Edit “my_application.prj” Rename “91460_template_91467d” -> “my_application” 5. Edit “my_application.wsp” Rename “91460_template_91467d” -> “my_application” FMEMCU-UG-910017-17 - 52 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Getting Started Rename “91460_template_91467d” into “my_application” 6. Start Softune Workbench and open your project Figure 6-2: Open Softune Workbench workspace (*.wsp) © Fujitsu Microelectronics Europe GmbH - 53 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Getting Started 7) Select Active Configuration “MONDEBUG” Figure 6-3: Project configuration selection 6.2.2 Use Active Configuration MONDEBUG_INTERNAL With this selection the project is linked to be used with the Softune Workbench monitor debugger. Corresponding linker settings are done for the memory map in order to avoid overwriting of the sections which are used by the monitor debugger. The code is linked in this configuration for external SRAM, otherwise it is not possible to debug code with the Softune Workbench monitor debugger. The monitor Note: Always check the memory map of the linker settings and ensure that this memory map is suitable for the application and target system in use. Additionally the .mp1 file should be checked to ensure correct settings. 7. Check MCU settings in the module start91460.asm. Be careful regarding any modifications. If the peripheral clock speed is modified it can happen that the communication between Softune Workbench and monitor debugger is lost. In the module start91460.asm some basic MCU settings are done and some initial data copy transfers are performed for specific data sections e.g. INIT. Check module vectors.c if any interrupts are used for proper vector table set-up. 8. Write application code in the module main.c or add any other module to the project. 9. Write and modify source code and settings corresponding to the needs of the application. Finally use “Make”, or “Build” to compile and link the project. The generated output files can be found in the sub-folder MONDEB_INTERNAL of the project folder. The *.mhx file (Motorola S-Record) is located in the ABS sub-folder. FMEMCU-UG-910017-17 - 54 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Getting Started Note: Always check the memory map of the linker settings and ensure that this memory map is suitable for the application and target system in use. Additionally the *.mp1 file should be checked to ensure correct settings.. Figure 6-4: Open Softune Workbench Linker mapping file Check linker mapping list in the*.mp1 file by right-click on “my_application.abs”, Open List File, *.mp1. Figure 6-5: Softune Workbench Linker Mapping © Fujitsu Microelectronics Europe GmbH - 55 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Getting Started Start Softune Monitor Debugger via the “Debug” Command Figure 6-6: Start Softune Workbench Monitor Debugger 10. After the project is built and debugged successfully switch to the active configuration STANDALONE 6.2.3 Use Active configuration STANDALONE 11. With this selection the project is linked to work in internal flash memory. This configuration will not work with the Softune Workbench monitor debugger. In this configuration the code is linked to work in internal Flash memory, only. 12. Use “Make”, or “Build” to compile and link the project for internal Flash memory. The generated output files can be found in the sub-folder STANDALONE of the project folder. The *.mhx file (Motorola S-Record) is located in the ABS sub-folder. Note: Always check the memory map of the linker settings and ensure that this memory map is suitable for the application and target system in use. Additionally the *.mp1 file should be checked to ensure correct settings. 13. Program the generated *.mhx file (Motorola S-Record) with the Flash programming utility into the internal Flash. See Chapter 7.1 “Programming the internal Flash Memory” for more details. FMEMCU-UG-910017-17 - 56 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Getting Started Note: It is not possible to use the Softune Workbench monitor debugger with this configuration because no code can be debugged which is located in internal Flash. Also this configuration does not support special debugger settings, which are disabled for this configuration. 6.3 Softune Workbench Monitor Debugger 6.3.1 General Description Whenever you have created a valid load module successfully, you can switch from the development mode to the debugging mode of Softune Workbench. Basically, there are 3 types of debugging systems supported : 1. The software simulator: This type of debugger is always present and does not require any special hardware extensions. The simulator will cover the FR-core features, but no peripheral functions. Therefore, you can use the simulator to verify program flow, check for dynamic errors, look at the generated assembler code , etc. . 2. The monitor debugger: This debugger type requires an evaluation board like the “SK-91F467-FLEXRAY” connected to one of the COM-ports of your PC. Therefore, make sure the evaluation board connected and powered-up as described before. Explanations in this manual refer to the monitor debugger only. 3. The emulator debugger: The in-circuit-emulator (ICE) is a system, which allows a connection to any target system using a probe-cable. The appropriate system for the MB91F467DA series is the MB2198-01 system. More information about this system can be found on Fujitsu's website. Which debugger is used for the actual project can be configured in the project tree as shown below or in the “Project – Setup Project – Debug” menu. The current selection is blue marked (icon): The default settings for the monitor debugger are: COM-Port 1, 57K6 baud, 8N1. If you wish to change the COM-port, please right-click on the “Mondeb_57K6_com1.sup” entry and select change. Note: If you change the baud rate or use a different crystal frequency, you have to change the UART-settings in the debugging kernel source project, re-compile and flash the new kernel to your “SK91F467-xxx” board first. The project can be found in Software\SWBMonitorDebugger. All settings are done in the module u_io.asm. If these settings are correct, start your debugging session: © Fujitsu Microelectronics Europe GmbH - 57 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Getting Started Make sure you have connected the “SK-91F467-xxx” starter kit and your monitor-kernel is stored in the internal flash memory of the MB91F467DA series at the starter kit. Then power up and reset the starter kit. Check the following configurations: 1) Correct CPU Mode selection (DIP-Switch S5) After Power on the Monitor debugger indicates via the 8 user-LEDs the current status. The following status indications exist. Ensure that the CPU is working in normal RUN Mode (DIP-Switch S5 position all OFF) U1, MCU MB91F467DA DIP switch S5, default all OFF Figure 6-7: MB91F467D and mode pin DIP switch 2) Correct start-up of the monitor debugger 8 User LEDs Figure 6-8: Reset button and user LED Reset In case of any other status indication push the reset button or check chapter 6.6.1 for detailed information. Start the debugger by double clicking the “Mondeb_57K6_com1.sup” entry in the project/debug tree - or by using “Debug – Start Debug” from the menu. You should see a progress bar indicating the download process. If no process is indicated an error message will occur (“e.g. Invalid communication status”). Double-check the settings again as explained above. Also make sure the evaluation-board is powered on, ready to use and the RS232-cable is connected properly. Also see the troubleshooting section in the appendix. FMEMCU-UG-910017-17 - 58 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Getting Started After starting the debugger, the source window will be opened which contains locate-arrows for each (possible) source-line, the original source-code, Figure 6-9: SWB debugging window Breakpoint-indicators and the assembler code (in “mixed view”). The current program position will be indicated by a yellow line. Use right-click in the source window to configure the view (add/remove control characters, View Mixed source code, Breakpoint …) Note: You can choose “mixed view” from the context menu (right-click) to display source and assembly code at the same time. The command “go to current” will take you to the active code line! © Fujitsu Microelectronics Europe GmbH - 59 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Getting Started 6.3.2 Basic Debugger Features GO: Executes the program continuously from the memory location pointed to by the current program counter (PC) until a termination factor occurs. STEP IN: Executes the program stepwise according to the listing in the source window (steps in C- or ASM). Note that interrupts are disabled during step execution ! STEP OVER: Executes the program stepwise except call-instructions (which will be executed until return). Interrupts are not disabled during a continuous CALL...RETURN execution. STEP OUT: Executes the program continuously to the parent function (until RETURN). Interrupts are enabled. Note, that debug information is required for this function. EXECUTE UNTIL CURSOR: Automatically sets a breakpoint at the actual cursor position and executes continuously until this breakpoint, which will be deleted afterwards. Each valid code line in a debugger window automatically has a locator (blue arrow) and a breakpoint-option (circle). Note that some C-lines may not be displayed with locators and breakpoints, because the compiler has created “optimized” assembler-code. Select “mixed view” in order to check the compiler output. Instead of single-steps, you may also use the arrows to directly execute your program until a certain line of your source-code : FMEMCU-UG-910017-17 - 60 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Getting Started ABORT: Forcibly terminates execution. This button is not fully supported by the monitor debugger and may cause malfunction if used to abort “continuous operation” of the MCU. This command button can only be used to abort single code line operations Example: for(k=DELAY_CONSTANT; k>0; k--); Use the button INT0 on the “SK-91F467-xxx” for ABORT function. To ABORT continuous execution on the “SK-91F467-xxx” starter kit, you have to use the INT0 button on the “SK-91F467-xxx” starter kit. 6.4 Advanced Monitor Debugger Features TOGGLE BREAKPOINT: Sets or deletes breakpoint at the current source line: To set or delete a breakpoint, click the circles at the beginning of a source-line. A indicates an active breakpoint. Hit “Run continuously” to execute code until reaching this line. A list of all breakpoints can be found under the “Debug – Breakpoint” menu. 255 Software-Breakpoints (using TRAP replacement) are possible. Note: To set breakpoints at positions which are currently not visible (e.g. because the source window of that module is not open), you can also enter a symbolic label directly in the “Breakpoint” menu. Example: Enter “main” in the address-field and confirm. The new breakpoint will automatically be assigned to the address of the “main()”-function. REGISTER WINDOW: Displays the CPU-register window. Updated registers appear in red. Setup in context menu defines which Registers should be displayed. WATCH WINDOW: Displays the current variables to „watch“. Double-click on any variable in your code then specify watch in context menu to add to watch window. All listed variables in a watch window can be displayed in any number format. Use Edit to directly change the contents. MEMORY WINDOW: Displays memory areas in various formats defined by Setup (context menu). Changing of address/data is possible when debugger is not executing. © Fujitsu Microelectronics Europe GmbH - 61 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Getting Started The memory window can be very helpful to check the registers or the frame memory of the connected graphic controller ! DISASSEMBLER: Disassembles the content of the code memory beginning from actual PC position and displays the result in a separate window. Individual assembler-lines can be changed using the „inline assemble“-function. DEBUG - STACK: Displays the current stack contents in terms of function calls. Parameters, if any, are displayed in brackets. DEBUG - VECTOR: Reads out and displays the actual interrupt-vector table. Use the „jump“ function to display any code areas pointed to by an interrupt vector (e.g. interrupt service routines used in your program). DEBUG - CALL: This function can be used to „call“ any routine defined in your code when the debugger is on hold. DEBUG – LOAD TARGET FILE: Starts a new download of the current load module (ABS file). Usually this function will be executed automatically after starting the debugger (defined in debug settings ; see „Project-Setup-Debug“). However, this function can be useful to reinitialize the debugger for the current debug session. VIEW - SYMBOL: This function displays all (global) symbols of the current project. Information about the type (char, integer etc.) and the location (address in RAM or register) can be shown using „detail“. VIEW - LOCAL: Similar to View-Symbol, but only local variables of the current function are shown. VIEW - COMMAND: From this window, the debugger can be controlled using a command line input. All GUI functions are available as individual commands. Example: Run continuously Step Examine PDRG Set break main Dump/Halfword 0x2000000..0x20000FF Shortcuts to complex commands can be defined (“alias”) and parameter strings can be substituted by variables. Example: mydump = Dump/Halfword 2000000..20000ff FMEMCU-UG-910017-17 - 62 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Getting Started A set of commands can be combined to a “macro”. Aliases and macros can be defined using the command window context menu. Example: restart: set register PC=2000000 set break main Run continuously In order to document or save debugging details such as memory contents, all outputs fed to the command console can be written to a file (“logging”). A whole “program” of commands (incl. flow control) can be written to a PRC-file and executed. Procedure-files are simple text-files with the extension “.PRC” and can be created by the Softune Workbench editor or any other text editor. To execute a procedure-file, use the command window menu or the “file-open” menu during debugging. Note: Procedure-files can be very helpful to configure the debugenvironment automatically, perform automated tests (e.g. when a new C-module has to be tested) or to enhance basic emulator functions such as breakpoints. Using a procedure file, breakpoints can be defined dynamically depending on program conditions. See the “Command Reference Manual” (on-line help) for detailed information about the available command and parameter syntax. Some procedure files exist already included in the example project directory. © Fujitsu Microelectronics Europe GmbH - 63 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Getting Started 6.5 Memory Configuration for User Applications Valid load module files can only be achieved if the language tool configuration is appropriate. The most convenient way to create owns a project is to copy the provided Template-Projects from the example-directory and use it as “blank sheet”. If the Softune Monitor debugger is being used the following memory areas are reserved by the monitor debugger and must not be used by the application. Memory Map of Softune Workbench Monitor debugger 91460_mondeb_uart4-v11 Memory Type Used for Area(s) Internal CPU Data RAM Stack, Data 0x28000 - 0x28FFF Internal Flash Memory of MB91F467DA series Debug Kernel Vector Table Sections 0x000F:00000x000F:FFFF 0x0F:FC000x0F:FFFF STACK, DATA CODE, CONST INTVECT Note: Be aware that the memory map may depend on the debugger version and any modifications of the debugger made by the user. Table 6-1: Memory map of Monitor debugger 91460_mondeb_uart4-v11 Note: The following chip select areas are used by the Softune monitor debugger and must not be used or overlap with other chip select areas: CS1 – SRAM FMEMCU-UG-910017-17 0x0080.0000 - 0x009F.FFFF - 64 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Getting Started Always check the Linker Settings (“Project – Setup Project – Linker – Disposition”) to make sure the following memory map is applied according to the project configuration: Recommended linker settings for “SK-91F467-xxx” starter kits for debugging Memory Type Used for Area(s) Sections Data RAM, Variables, Stack 0x029000 0x02FFFF DATA, INIT, STACK External SRAM 1MB Code, IRQ Table Const, 0x00840000 Vector 0x0094FFFF CODE, CONST Table 6-2: Linker Settings for MB91F467DA Monitor Debugger configuration Note: In any case all settings must be checked and corrected corresponding to specific application requirements. Also check settings in the start91467.asm initialisation file! Use the linker mapping list (e.g. *.mp1 file) to check the final memory allocation. The following chip select areas are used by the Softune monitor debugger and must not be used or overlap with other chip select areas: CS1 – SRAM 0x0080.0000 - 0x009F.FFFF Checklist for project configuration: • Make sure, the correct Target MCU (“Project – Setup Project - MCU” menu) MB91F467D is selected. • Use the correct linker settings as outlined above depending on your target MCU and the target area (embedded flash or external RAM). • Use the provided templates to make sure the sections are located correctly. • Always check the *.mp1 file (use right mouse click on top *.abs file in the project window of Softune Workbench and select “open list file”) to see the used sections and address areas! • The following Chip select areas are used by the Softune monitor debugger and must not be used or overlap with other chip select areas: CS1 – SRAM 0x0080.0000 - 0x009F.FFFF Note: Be aware that the Softune Workbench monitor debugger is only able to debug code which is located in RAM! It is not possible to debug code located in Flash memory! © Fujitsu Microelectronics Europe GmbH - 65 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Flash Programming 7 Flash Programming 7.1 Programming internal Flash of MB91F467DA series To program the Monitor debugger or any other Application into the internal Flash memory of MB91F467DA series following steps must be taken. 1) To install the Flash Programming utility on the PC the following steps must be taken a. Browse to the folder “Software\FlashProgramming” of the starter kit CD-ROM and execute the FME_FR_Flashprogrammer_v3_7.exe file. The default installation folder is: C:\Softune6\Utility\ b. Start Flash Programming tool by double click flash.exe within the installed folder: C:\Softune6\Utility\FME_FlashProgrammer_v3_7\flashprg.exe 2) Open the Flash programming Utility by double click the flashprg.exe file 3) Select CPU type, COM Port, baud rate, Hex File as shown in the following figure a. Device Type: MB91F467D b. Com port: 1 c. Baudrate: 38400 d. Hex File: MonDeb91467D.mhx Use button “Browse” and browse to c:\..\Software\MonitorDebugger\ MonDeb91467D.mhx c a d 6 Figure 7-1: FME FR-Flash Programmer for MB91F467D series FMEMCU-UG-910017-17 - 66 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Flash Programming 4) Connect starter kit and PC with a RS232 cable. MB91F467 is using UART4 interface for serial Flash Programming. 5) Power-off the board or assert and hold RESET 6) Press “Automatic” button to start automatic Flash Programming Using the “Automatic” button the Programming steps are automatically proceed by the Flash Programmer Utility. 7) Power-on the board or release RESET to start Flash Programming After pressing the “Automatic” button release the RESET button or power on the starter kit in order to start boot Rom execution of MB91F467DA series. All steps are proceed automatically, download the Flash Programming routine, ‘blank check’, Flash erase if necessary and Programming the Application. Following is displayed in the message window in case of successful programming: Sending start characters... Connection OK. Filesize=8192 (0x2000) bincommand: write writing 8192 bytes... received checksum = 4426 (0x114A) calculated checksum = 4426 (0x114A) OK - checksums match write finished. Sending Baudrate Information: received checksum = 114 (0x0072) calculated checksum = 114 (0x0072) OK - checksums match write byte finished. Baudrate set (write byte) finished. calling address 0x030000 bincommand: "call" call initiated - waiting for returnvalue... returnvalue = 254 searching for flash-loader... Flash mode activated (">" received) Checking... Blank Check finished Chip erase in process... © Fujitsu Microelectronics Europe GmbH - 67 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Flash Programming CAUTION : DO NOT INTERRUPT OR CUT OFF POWER DURING ERASE !!! Chip-erase successful Sending download command loading and programming... 00148000: Security Address not programmed, use Prog Word! 00148004: Security Address not programmed, use Prog Word! 00148006: Security Address not programmed, use Prog Word! 001448008: Security Address not programmed, use Prog Word! 0014800C: Security Address not programmed, use Prog Word! 0014800E: Security Address not programmed, use Prog Word! Download and programming completed Automode finished. COM port closed automatically disconnect Figure 7-2: FME Flash Programmer output message window As shown in the message window the Security address is not programmed in Automatic programming process. This is done for security reason to avoid the activation of the Security function by accident. 8) After successful programming assert Reset or Power-off / On the board in order to start the programmed application. Note 1: The MB91F467DA series is checking the serial UART4 interface for valid string to enter Flash programming mode. For details about boot sequence refer to Hardware Manual of MB91460 series. Note 2: Be aware of Security Features of MB91F467DA series. Check Documentation of MB91460 series for detailed information! FMEMCU-UG-910017-17 - 68 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Trouble shooting 8 Trouble shooting Problem Solution Starter kit does not power-on correctly. Check voltage supply and jumpers : Some or all of the power LEDs (D24, D30, ☛ The voltage on DC-Power plug should be in the D34, and D40) do not lit up. range of 9-12V. The plug should have + on shield and – on the centre. The power supply should be able to supply at least 500mA. To support both, the “SK-91F467D-208PFV” and a graphic sub-board the supply should be able to supply 1500mA. * The LEDs should light up after switching on the board. Use a multimeter to see whether 5V,3.3V, 2.5V and 1.8V are present on the Vcc/GND test measurement points J21, J22, J23 and J24. ☛ Check jumper positions according to chapter 2.1 ☛ Remove all user extensions of the starter kit Starter kit stays in reset. ☛ LED D18 (Reset) should flash. If D18 lights up LED D18 (Reset indicator) lights up permanently, the voltage is too low - Increase the permanently. voltage supply and check available supply current to solve the problem. ☛ Remove all user extensions on the board to avoid any shortcuts or leakage current! The communication from Softune ☛ Make sure your COM-port number and the baud Workbench to the evaluation board fails rate settings are correct (see debugger (Communication errors) introduction). The default COM-port is 1 and the default baud rate is 57K6Baud. ☛ Make sure no other programs are using the same COM-port on your PC. Close all other applications (e.g. Flash programmer utilities, terminals etc.) * Check if RTS/CTS is closed on the CPU module (check jumper JP58, 60, 65 are closed). * Use only a RS232 extension 1:1 cable The windows of the debugger are empty. * This is due to wrong (maybe old) file path information. Closing all windows in the debugger and re-open should fix the problem. When trying to program the application to * You are probably trying to program a program to the embedded flash, the programmer the flash which is linked for the external RAM area. stops at first address with “loading error” ! Check for details the linker memory map and the linker output mapping file *.mp1 file. Hardware units such as LEDs, user ☛ Make sure you have enabled these units on the buttons, UART are not working. evaluation board using the appropriate jumpers. See the provided examples and the hardware manual for information on how to control the peripherals. LCD at parallel LCD port does not work ☛ Adjust the potentiometer RP1 to adjust contrast of LCD. Remove resistor network RN3 Graphic sub-board does not work Check power supply 9-12V/1500mA. Reduce external bus clock frequency Table 8-1: Trouble shooting © Fujitsu Microelectronics Europe GmbH - 69 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Silk-Plot of the Board 9 Silk-Plot of the Board 9.1 Top Side A B C D E G X4 UART4 X1 UART2 1 F H J K X8 UART5 L M N X11 CAN2 1 2 3 3 4 4 C32 B32 A32 2 5 6 6 VG96 (female) X13 5 7 8 9 7 8 9 10 11 11 C1 B1 A1 10 12 12 13 14 14 15 RST INT1 INT2 ICU0 C16 B16 (female) A16 13 INT0 17 Optional FlexRay phy. Layer Module X3 VG48 X14 16 Optional FlexRay phy. Layer Module X7 C1 B1 A1 18 19 20 21 15 16 17 18 19 20 Power Switch Power A B C CAN0 X9 D E CAN1 X10 F G FlexRay CH-A FlexRay CH-B X2 X6 H J K L 21 M N Figure 9-1: Board Layout (Top Side) FMEMCU-UG-910017-17 - 70 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Silk-Plot of the Board 9.2 Bottom Side A B C D E F G H J K L M N 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 A B C D E F G H J K L M N Figure 9-2: Board Layout (Bottom Side) © Fujitsu Microelectronics Europe GmbH - 71 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 PCB History 10 PCB History 10.1 SK-91F467-FLEXRAY V1.0 Part Problem Fixed U20 Wrong UB/LB connection (WRX2 and WRX3 has to be connected) V1.1 X14 Connect 1.8V supply not directly to X14 (add jumper) V1.1 U6 Additionally pull-up resistors for MCU and ASSP reset line V1.1 U6 Reset button connection (SW1), add further option to activate reset directly when pressing SW1. Actually, SW1 must be pressed 2s to activate reset. (add solder jumper to select one option) V1.1 U9 Add C=220uF/16F between Vcc5V and GND V1.1 U11 Add C=220uF/16F between Vcc3V3 and GND V1.1 U14 Add C=100uF/16F between Vcc2V5 and GND V1.1 U17 Add C=100uF/16F between Vcc1V8 and GND V1.1 Table 10-1: History PCB V1.0 10.2 SK-91F467-FLEXRAY V1.1 Part Problem Fixed R45 Reset circuit: Low voltage detection of 1.8V or 2.5V. The used value of R45 (20K Ohm) defines the voltage level to close to the low voltage detection of the Reset-chip. Using a 30K Ohm resistor defines an higher voltage. Since production date: The Resistor R45 is changed to 30K Ohm since production date: 23-32/06 (see label at bottom side of PCB) 23-32/06 U2 / MB88121 Since PCB production code 18-47/06 the MB88121B version is used instead of MB88121A. The jumper settings for MB88121 power supply are set accordingly. (See chapter 3.4.4) Since production date: 1847/06 U2 / MB88121 Since PCB production code 18-17/07 the MB88121B is directly soldered, no socket is used. Since production date: 1817/07 Table 10-2: History PCB V1.1 FMEMCU-UG-910017-17 - 72 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Appendix 11 Appendix 11.1 Related Products • SK-91460-MAIN • SK-91460-91F467D-208PFV MCU-board incl. MB91F467DA for SK-91460-MAIN • SK-91F467D-208PFV Evaluation board with MB91F467DA • SK-91F467-FLEXRAY Evaluation board with MB91F467DA and MB88121A • ADA-91V460-91F467D Conversion adapter MB91V460 to MB91F467D • MB2198-01 Emulator debugger main unit • MB2198-10 DSU cable • MB2198-300 Adapter board for MB91V460 emulation chip (BGA-660P) • MB91V460 Emulation chip of MB91460 Series • PB-91467D-208PFV Probe cable for MB91F467DA target system Evaluation main board for MB91460 Series (Recommended for SK-91F467D-208PFV) • PB-91467D-NLS-208PFV Probe cable for MB91F467DA target system (Recommended for SK-91F467-FLEXRAY) • NQPACK208SD Socket for package FPT-208P-M01 and FPT-208P-M04 Tokyo Eletech Corp. www.tetc.co.jp/e_tet.htm • HQPACK208SD306H Header for FPT-208P-M01 e.g.: MB91F467D • YQPACK208SD Joint connector extension for NQPACK208SD • YQSOCKET208SDN Joint connector socket for NQPACK208SD • MB91F467DA Flash chip of MB91460 Series • MB88121A FlexRay Communication Controller © Fujitsu Microelectronics Europe GmbH - 73 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Appendix 11.2 Information on the WWW Information about FUJITSU MICROELECTRONICS Products can be found on the following Internet pages: Microcontrollers (8-, 16- and 32bit), Graphics Controllers Datasheets and Hardware Manuals, Support Tools (Hard- and Software) http://www.fujitsu.com/emea/services/microelectronics/ Automotive products: MCU, Graphic display controller, MPEG en/decoder, gyro sensors http://www.fujitsu.com/emea/services/industries/automotive/ Linear Products: Power Management, A/D and D/A Converters http://www.fujitsu.com/emea/services/microelectronics/linears/ Media Products: SAW filters, acoustic resonators and VCOs http://www.fujitsu.com/emea/services/microelectronics/saw/ For more information about FUJITSU MICROELECTRONICS http://emea.fujitsu.com/microelectronics FMEMCU-UG-910017-17 - 74 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Appendix 11.3 Tables Table 2-1: Jumper settings................................................................................................... 15 Table 3-1: MCU Operating Mode ......................................................................................... 19 Table 3-2: FlexRay CC Operating Mode .............................................................................. 20 Table 3-3: FlexRay CC SPI Settings .................................................................................... 21 Table 3-4: Power Switch ...................................................................................................... 22 Table 3-5: Power supply configurations ............................................................................... 22 Table 3-6: Voltage Test Points ............................................................................................. 23 Table 3-7: MCU Power Supply SK-91F467-FLEXRAY......................................................... 24 Table 3-8: MCU ADC Supply ............................................................................................... 25 Table 3-9: FlexRay CC Supply............................................................................................. 25 Table 3-10: Power Supply settings for MB88121B ............................................................... 26 Table 3-11: MCU-FlexRay CC Connection........................................................................... 28 Table 3-12: FlexRay CH-A Configuration ............................................................................. 29 Table 3-13: FlexRay CH-B Configuration ............................................................................. 30 Table 3-14: FT1080 Control Settings ................................................................................... 31 Table 3-15: FT1080 Connection to MCU.............................................................................. 31 Table 3-16: CAN-MCU connection ....................................................................................... 32 Table 3-17: UART2 Settings ................................................................................................ 33 Table 3-18: UART4 Settings ................................................................................................ 34 Table 3-19: UART5 Settings ................................................................................................ 35 Table 3-20: User Push Buttons ............................................................................................ 36 Table 3-21: S4 Values.......................................................................................................... 36 Table 3-22: S3 Settings........................................................................................................ 36 Table 3-23: Reset Connections............................................................................................ 37 Table 3-24: Supply Monitor Settings .................................................................................... 37 Table 3-25: Reset UART Selection ...................................................................................... 38 Table 4-1: UART Connector Signals .................................................................................... 39 Table 4-2: CAN Connector Signals ...................................................................................... 40 Table 4-3: FlexRay Connector Signals ................................................................................. 40 Table 4-4: FlexRay Physical Layer Modules ........................................................................ 41 Table 4-5: LED/LCD Signals ................................................................................................ 42 Table 4-6: In-Circuit Programming Connector ...................................................................... 43 Table 4-7: MCU Pin Connectors .......................................................................................... 43 Table 4-8. VG96 (X13) Signals ............................................................................................ 44 Table 4-9: VG48 (X14) Signals ............................................................................................ 45 Table 5-1: Jumper Settings for 16-bit none-multiplexed parallel bus interface ...................... 47 © Fujitsu Microelectronics Europe GmbH - 75 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Appendix Table 5-2: Jumper Settings for 16-bit multiplexed parallel bus interface............................... 48 Table 5-3: Jumper Settings for SPI mode............................................................................. 49 Table 6-1: Memory map of Monitor debugger 91460_mondeb_uart4-v11 ............................ 64 Table 6-2: Linker Settings for MB91F467DA Monitor Debugger configuration...................... 65 Table 8-1: Trouble shooting ................................................................................................. 69 Table 10-1: History PCB V1.0 .............................................................................................. 72 Table 10-2: History PCB V1.1 .............................................................................................. 72 FMEMCU-UG-910017-17 - 76 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Appendix 11.4 Figures Figure 2-1: AC plug adapter ................................................................................................. 12 Figure 2-2: AC plug adapter selection .................................................................................. 12 Figure 2-3: DC voltage selection .......................................................................................... 12 Figure 2-4: Low voltage adapter selection............................................................................ 12 Figure 2-5: Starter kit status after power on ......................................................................... 13 Figure 2-6: Default Jumper Settings..................................................................................... 16 Figure 2-7: Softune Workbench start menu location............................................................. 17 Figure 2-8: Softune Workbench V6 IDE ............................................................................... 18 Figure 3-1: MCU Mode Switch ............................................................................................. 19 Figure 3-2: FlexRay CC Mode Switch .................................................................................. 20 Figure 3-3: FlexRay CC SPI-Mode Switch ........................................................................... 21 Figure 3-4: Voltage Test Points............................................................................................ 23 Figure 3-5: FT1080 Control Switch....................................................................................... 31 Figure 4-1: Power Connector ............................................................................................... 39 Figure 4-2: UART Connector................................................................................................ 39 Figure 4-3: CAN Connector.................................................................................................. 40 Figure 4-4: FlexRay Connector ............................................................................................ 40 Figure 4-5: FlexRay Physical Layer Connector .................................................................... 41 Figure 4-6: User LEDs / LCD ............................................................................................... 42 Figure 4-7: In Circuit Programming Connector ..................................................................... 43 Figure 4-8: Layout of DIN VG Connectors............................................................................ 45 Figure 6-1: Softune Workbench main window ...................................................................... 50 Figure 6-2: Open Softune Workbench workspace (*.wsp) .................................................... 53 Figure 6-3: Project configuration selection ........................................................................... 54 Figure 6-4: Open Softune Workbench Linker mapping file ................................................... 55 Figure 6-5: Softune Workbench Linker Mapping .................................................................. 55 Figure 6-6: Start Softune Workbench Monitor Debugger...................................................... 56 Figure 6-7: MB91F467D and mode pin DIP switch............................................................... 58 Figure 6-8: Reset button and user LED................................................................................ 58 Figure 6-9: SWB debugging window .................................................................................... 59 Figure 7-1: FME FR-Flash Programmer for MB91F467D series........................................... 66 Figure 7-2: FME Flash Programmer output message window .............................................. 68 Figure 9-1: Board Layout (Top Side) .................................................................................... 70 Figure 9-2: Board Layout (Bottom Side)............................................................................... 71 © Fujitsu Microelectronics Europe GmbH - 77 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 Appendix 11.5 Abbreviations ADC Analogue Digital Converter ASSP Application Specific Standard Product CAN Controller Area Network CC Communication Controller CS Chip Select FME Fujitsu Microelectronics Europe GmbH FPGA Field Programmable Gate Array GDC Graphical Display Controller LB Lower Byte LIN Local Interconnect Network MCU Microcontroller Unit PCB Printed Circuit Board SRAM Static Random Access Memory TZM Transferzentrum Mikroelektronik UART Universal Asynchronous Receiver Transmitter UB Upper Byte UG User Guide USART Universal Synchronous Asynchronous Receiver Transmitter FMEMCU-UG-910017-17 - 78 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 China-RoHS regulation 12 China-RoHS regulation Evaluation Board评估板 Emulation Board 仿真板 根据SJ/T11364-2006 《电子信息产品污染控制标识要求》特提供如下有关污染控制方面的信息。 The following product pollution control information is provided according to SJ/T11364-2006 Marking for Control of Pollution caused by Electronic Information Products. 1.电子信息产品污染控制标志说明 Explanation of Pollution Control Label 该标志表明本产品含有超过中国标准SJ/T11363-2006 《电子信息产品中有毒有害物质的限量要求》中限量的有毒有害物质。标志中的数字为本产品 的环保使用期,表明本产品在正常使用的条件下,有毒有害物质不会发生外泄或突变,用户使 用本产品不会对环境造成严重污染或对其人身、财产造成严重损害的期限,单位为年。 为保证所申明的环保使用期限,应按产品手册中所规定的环境条件和方法进行正常使用,并严 格遵守产品维修手册中规定的定期维修和保养要求。 产品中的消耗件和某些零部件可能有其单独的环保使用期限标志,并且其环保使用期限有可能 比整个产品本身的环保使用期限短。应到期按产品维修程序更换那些消耗件和零部件,以保证 所申明的整个产品的环保使用期限。 本产品在使用寿命结束时不可作为普通生活垃圾处理,应被单独收集妥善处理。 请注意:环保使用期限50年的指定不是与产品的耐久力,使用期限或任何担保要求等同的。 This symbol to be added to all EIO sold to China, indicates the product contains hazardous materials in excess of the limits established by the Chinese standard SJ/T11363-2006 Requirements for Concentration Limits for Certain Hazardous Substances in Electronic Information Products. The number in the symbol is the Environment-friendly Use Period (EFUP), which indicates the period, starting from the manufacturing date, during which the toxic or hazardous substances or elements contained in electronic information products will not leak or mutate under normal operating conditions so that the use of such electronic information products will not result in any severe environmental pollution, any bodily injury or damage to any assets, the unit of the period is “Year”. © Fujitsu Microelectronics Europe GmbH - 79 - FMEMCU-UG-910017-17 SK-91F467-FLEXRAY V1.1 China-RoHS regulation In order to maintain the declared EFUP, the product shall be operated normally according to the instructions and environmental conditions as defined in the product manual, and periodic maintenance schedules specified in Product Maintenance Procedures shall be followed strictly. Consumables or certain parts may have their own label with an EFUP value less than the product. Periodic replacement of those consumables or parts to maintain the declared EFUP shall be done in accordance with the Product Maintenance Procedures. This product must not be disposed of as unsorted municipal waste, and must be collected separately and handled properly after decommissioning. Please note: The designation of 10 years EFUP is not to be equated with the durability, useduration or any warranty-claims of the product. 产品中有毒有害物质或元素的名称及含量 Table of hazardous substances name and concentration 有毒有害物质或元素 部件名称 Hazardous substances name Component Name SK-91F467-FlexRay 铅 汞 镉 六价铬 多溴联苯 多溴二苯醚 (Pb) (Hg) (Cd) (Cr(VI)) (PBB) (PBDE) x o o o o o O: 表示该有毒有害物质在该部件所有均质材料中的含量均在SJ/T11363-2006 标准规定的限量要求以下 表示该有毒有害物质在该部件所有均质材料中的含量均在 X: 表示该有毒有害物质至少在该部件的某一均质材料中的含量超出SJ/T11363-2006 标准规定的限量要求 表示该有毒有害物质至少在该部件的某一均质材料中的含量超出 • • 此表所列数据为发布时所能获得的最佳信息 由于缺少经济上或技术上合理可行的替代物质或方案,此医疗设备运用以上一些有毒有害物质来实现设备的预期 临床功能,或给人员或环境提供更好的保护效果。 O: Indicates that this toxic or hazardous substance contained in all of the homogeneous materials for this part is below the limit requirement in SJ/T11363-2006. X: Indicates that this toxic or hazardous substance contained in at least one of the homogeneous materials used for this part is above the limit requirement in SJ/T11363-2006. • Data listed in the table represents best information available at the time of publication FMEMCU-UG-910017-17 - 80 - © Fujitsu Microelectronics Europe GmbH SK-91F467-FLEXRAY V1.1 Recycling 13 Recycling Gültig für EU-Länder: Gemäß der Europäischen WEEE-Richtlinie und deren Umsetzung in landesspezifische Gesetze nehmen wir dieses Gerät wieder zurück. Zur Entsorgung schicken Sie das Gerät bitte an die folgende Adresse: Fujitsu Microelectronics Europe GmbH Warehouse/Disposal Monzastraße 4a 63225 Langen Valid for European Union Countries: According to the European WEEE-Directive and its implementation into national laws we take this device back. For disposal please send the device to the following address: Fujitsu Microelectronics Europe GmbH Warehouse/Disposal Monzastraße 4a 63225 Langen © Fujitsu Microelectronics Europe GmbH - 81 - FMEMCU-UG-910017-17
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