Fujitsu Microelectronics Europe User Guide FMEMCU-UG F²MC-16LX FAMILY EVALUATION BOARD FLASH-CAN-100P-340 V1.

Transcription

1 Fujitsu Microelectronics Europe User Guide FMEMCU-UG F²MC-16LX FAMILY EVALUATION BOARD FLASH-CAN-100P-340 V1.1 USER GUIDE

2 Revision History Revision History Date Issue V1.0, HW, First Release V1.1, MST, Disclaimer corrected V1.2, MST, Typo in JP14 description corrected V1.3, HW, Board-Rev.1.1 including update MB90800 and MB90945 Series V1.4, HW, typos corrected V1.5, HW, typos corrected V1.6, HW, typos corrected V1.7, HW, typos corrected V1.8, CSC, added Socket Note V1.9, DGo Recycling Note added V2.0, DGo Jumper alignment corrected V2.1, PHu, Update supported MCUs list V2.2, MSc, China-RoHS regulation added This document contains 41 pages. UG Fujitsu Microelectronics Europe GmbH

3 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 FLASH-CAN-100P-340 Board 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 FLASH-CAN-100P-340 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 supplier s liability are 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 UG

4 Contents 0 Contents REVISION HISTORY... 2 WARRANTY AND DISCLAIMER CONTENTS OVERVIEW Abstract Features General Description INSTALLATION Jumper setting for MB90340 Series Jumper setting for MB90800 Series Jumper setting for MB90865 Series Jumper setting for MB90945 Series JUMPERS AND SWITCHES Operating-Mode (S2) Power Supply Voltage (JP: 29, 30, 34) Analogue Power Supply Voltage (JP: 11, 13, 15) Subclock (JP: 36,37) UART A (JP: 1, 2, 31, 44) UART B (JP: 6, 8, 32) LIN A (JP: 17, 18, 21, 22) LIN B (JP: 9, 10, 38, 39) CAN A (JP: 25, 26) CAN B (JP: 27, 28) Reset-Generation (JP: 3, 4, 5, 7, 24, 35) Buttons SW1, SW2, SW3, SW4, SW5, SW6 (JP: 12, 14, 16, 20, 23, 24) PROGRAMMING THE INTERNAL FLASH Asynchronous Mode Synchronous Mode CONNECTORS Power connector (X12) Edge connector (X1, X2) UART A, UART B connector (X3, X5) LIN A, LIN B Interface connector (X6, X8) CAN A, CAN B Interface connector (X10, X11) UG Fujitsu Microelectronics Europe GmbH

5 Contents 5.6 USER-LEDs & LC-Display (optional) VG96 connector (X4) SILK-PLOT OF THE BOARD RELATED PRODUCTS INFORMATION IN THE CHINA-ROHS REGULATION RECYCLING Fujitsu Microelectronics Europe GmbH UG

6 Chapter 1 Overview 1 Overview 1.1 Abstract The FLASH-CAN-100P-340 is a multifunctional evaluation board for the Fujitsu 16-Bit Flash microcontroller MB90340 Series, MB90800 Series, MB90860 Series and MB90945 Series. It can be used stand alone for software development and testing or as a simple target board to work with the emulator system. The board allows the designer immediately to start with the software development before his own final target system is available. 1.2 Features < Supports the following series in FPT-100P-M06 package: < MB90340 Series: MB90V340A, MB90F347/S, MB90F34x < MB90800 Series: MB90V800, MB90F804 (MB90800 Series does not support CAN, 3V device) < MB90860 Series: MB90V340A, MB90F867/S (MB90860 Series does not support CAN) < MB90945 Series: MB90V390H, MB90F94x < 9-12V unregulated external DC power supply usable < 5V internal power supply, Power-LED < In-Circuit serial Flash programming < All resources available for evaluation < All pins routed to connectors < 4 MHz main-crystal, 32kHz subclock-crystal (selectable by jumpers) < Two UART interfaces < Two LIN interfaces < Two High-Speed CAN Transceivers < 8 User LEDs, optional: alphanumeric standard LC-Display connectable instead of LEDs < Reset-Button, Reset-LED < 5 User-buttons < 96pin VG connector The target board will be delivered with the MB90F34x microcontroller. This microcontroller contains a 'burn-in'-boot loader for programming the flash. This board must only be used for test applications in an evaluation laboratory environment. UG Fujitsu Microelectronics Europe GmbH

7 Chapter 1 Overview 1.3 General Description The FLASH-CAN-100P-340 supports 16-Bit Flash microcontrollers of the MB90340 Series as well as the CAN-less MB90860 Series. With hardware version V1.1 also the MB90800 Series (3V, CAN-less, LCD) and MB90945 Series (MB90390 based) are supported. It can be used as a stand-alone evaluation board or as a target board for emulator debugger. The evaluation board supports the following package: FPT-100P-M06 The board is supplied with a socketed 4MHz crystal as the main oscillation clock. Using the internal PLL of the µc, internal clock rates up to 24MHz can be achieved. Additionally a 32kHz crystal is mounted for use as a subclock, if the device type supports this. Two separate RS232 transceivers are available to connect two on-chip UARTs to 9-pin D- Sub connectors (X3, X5). The transceivers generate the adequate RS232 levels for the receive (RXD) and transmit (TXD) lines. Either the DTR line or the RTS line can be selected with jumpers (JP3, JP4, JP5) to generate a system reset. The RTS signal can be shortcut to CTS using the jumpers JP31 and JP32. In-circuit-programming (asynchronous) can be done via UART A (X3) using the burn-in bootloader of the microcontroller. Two single-wire LIN-transceivers (TLE6259) are available to connect two on-chip UARTs to 9-pin D-Sub connectors (X6, X8). The transceivers generate the adequate levels to drive the bus line in LIN-systems for automotive and industrial applications. If a CAN-interface is supported by the used microcontroller series then two high-speed CANtransceivers (PCA82C250) are available to connect the on-chip CAN-controller to 9-pin D- Sub connectors (X10, X11). The transceivers provides differential transmit and receive capability between CAN-controller and CAN-bus. All pins of the microcontroller are connected to the edge connectors X1 and X2 and are directly available to the user. Furthermore, the most important signals are available on the VG96 connector (X4). The on-board voltage regulator allows the user to connect an unregulated DC input voltage between +9V to +12V. In case of any modifications of the board, care should be taken that the total power consumption will not damage the regulator. There are six push button switches on the board, which can be connected to input-ports of the microcontroller. Some ports may support additional function like External Interrupts, Trigger for Reload, Input-Capture or Trigger for the A/D-converter (ADTG). On button is reserved as Reset -button for the microcontroller. Eight user-leds are connected via a 1K pull up resistor network to Port P00-P07. If these LEDs are not required, than the resistor network can be removed to disconnect the LEDs and to free the port. Take care of Port P00 and P01, which need the 1k Resistor while serial in-circuit programming! The operating mode of the microcontroller can be selected by the Dip-switch S2. Fujitsu Microelectronics Europe GmbH UG

8 Chapter 1 Overview Emulator-System If the board is used as an emulator target board, the microcontroller must be removed from the socket and the corresponding probe cable has to be used: Series V-Chip Probe-cable NQ-Pack HQ-Pack MB90340 MB90V340A-101 MB90V340A-102 MB90V340A-103 MB90V340A-104 MB MB90V CR MB90800 MB90V CR NQPack100RB HQPack100RB179 MB90860 MB90V340A-101 MB90V340A-102 MB90945 MB90V390CR 16LX-PROBE-100P-1 Note: MB90340 Series: MB90V340A-101 MB90V340A-102 Single clock Dual clock MB90800 Series: MB90V CR MB90V CR Single clock Dual clock UG Fujitsu Microelectronics Europe GmbH

9 Chapter 2 Installation 2 Installation Remove carefully the board from the shipping carton. Check first if there are any damages before power on the evaluation board. For the power supply 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 X12! After power-on, the green power-on LED (D16) should be on. If the LED does not light switch off the power supply and check the default jumper settings. By default, the evaluation board is equipped with a MB90F34x and the device has been programmed with a test program. So after power-on a running light for the eight user LEDs can be seen. Furthermore, a welcome string is output with 9600 baud on both UART channels (UART A / UART B ). Please use 1:1 cable for the PC-connection. The in-circuit programming allows the user to program it s own application into the Flashmemory. How to program the Flash memory is described in chapter 4. If the board is used as an emulator target board, switch off the power supply and remove the microcontroller from the socket. Now the probe cable can be mounted into the socket. Take care of pin 1 marking onto the socket and fix the probe cable with screws. Do not use other probe cable than MB *only! *(MB90945 Series: 16LX-PROBE-100P-1) Connect the probe cable to the emulation pod. Check all DIP-switch-settings of the evaluation board and the emulation pod. For the power on sequence the emulator system must be switched on first, after that, switch on the evaluation board. Please look at the corresponding user manuals and application notes for the emulator how to set up the emulator system. After the power on the Reset - LED of the emulator must be off and the Vcc -LED must be on. If the Reset LED is still lighting, check the DIP-switch-settings of the emulator system and the power supply of the evaluation board. Note: Some customers experience connectivity problems when connecting the MCU into the socket adapter. Only the small red screwdriver available in your box should be used to connect the cover (HQPACK) onto the socket (NQPACK). If the four screws are not tightening equally, then it may cause a poor contact. Do not screw the cover too tight (max Nm). If you have connectivity problems then please loosen the screws and tighten again the screws equally. Do not clean NQPACK, YQPACK, and YQSOCKET with steam. Cleaning material will contaminate inside of connector. Fujitsu Microelectronics Europe GmbH UG

10 Chapter 2 Installation 2.1 Jumper setting for MB90340 Series The following jumpers should be closed if the FLASH-CAN-100P-340 V1.1 board will be used with a member of the MB90340 Series: Jumper Description / Function Type Default MB90340 Coordinates JP1a UART A (TXD) / UART0(MB90340) Jumper 2 pol Closed D14 JP1b UART A (TXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Open D14 JP1c UART A (TXD) / UART0(MB90945) Jumper 2 pol Open D14 JP2a UART A (RXD) / UART0(MB90340) Jumper 2 pol Closed EF9 JP2b UART A (RXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Open EF9 JP2c UART A (RXD) / UART0(MB90945) Jumper 2 pol Open EF10 JP3 DTR/RTS A Jumper 3 pol Open D4 JP4 RESET UART A/B Jumper 3 pol Open E10 JP5 DTR/RTS B Jumper 3 pol Open D8 JP6a UART B (RXD) / UART2(MB90340) Jumper 2 pol Closed EF12 JP6b UART B (RXD) / UART1(MB90800) Jumper 2 pol Open EF12 JP6c UART B (RXD) / UART3(MB90945) Jumper 2 pol Open EF13 JP8a UART B (TXD) / UART2(MB90340) Jumper 2 pol Closed EF11 JP8b UART B (TXD) / UART1(MB90800) Jumper 2 pol Open EF11 JP8c UART B (TXD) / UART3(MB90945) Jumper 2 pol Open EF12 JP7 Reset 3V3 Jumper 2 pol Open E8 JP9 LIN B enable Jumper 2 pol Open G13 JP10 LIN B Master-Mode Jumper 2 pol Open E3 JP11 AVcc Jumper 2 pol Closed K21 JP12 SW1 Jumper 2 pol Closed G9 JP13 AVcc=AVRH Jumper 2 pol Closed J21 JP14 SW2 Jumper 2 pol Closed G9 JP15 AVss Jumper 2 pol Closed K19 JP16 SW3 Jumper 2 pol Closed G9 JP17 LIN A enable Jumper 2 pol Open H13 JP18 LIN A Master-Mode Jumper 2 pol Open H3 JP19 AVSS=AVRL Jumper 2 pol Closed J20 JP20 SW4 Jumper 2 pol Closed F9 JP21a LIN A (RXD) / LINUART1(90340) Jumper 2 pol Open H13 JP21c LIN A (RXD) / LINUART3(90945) Jumper 2 pol Open H13 JP22a LIN A (TXD) / LINUART1(90340) Jumper 2 pol Open H13 JP22c LIN A (TXD) / LINUART3(90945) Jumper 2 pol Open H13 JP23 SW5 Jumper 2 pol Closed F9 JP24 RESET Jumper 2 pol Closed E8 JP25 CAN A (TXD) / CAN0(MB90340) Jumper 2 pol Closed J13 JP26 CAN A (RXD) / CAN0(MB90340) Jumper 2 pol Closed J13 JP27a CAN B (TXD) / CAN1(MB90340) Jumper 2 pol Open J13 JP27c CAN B (TXD) / CAN1(MB90945) Jumper 2 pol Open J13 JP28a CAN B (RXD) / CAN1(MB90340) Jumper 2 pol Open K13 JP28c CAN B (RXD) / CAN1(MB90945) Jumper 2 pol Open K13 JP29 int/ext VCC Jumper 3 pol 1-2 J17 JP30 5V/3V3 Jumper 2 pol Open L15 JP31 RTS-CTS A Jumper 2 pol Closed D4 JP32 RTS-CTS B Jumper 2 pol Closed D8 JP33 C-Pin to MCU_VCC sold-jumper Open H22 JP34 MCU_VCC Jumper 2pol Closed J17 JP35 DTR / DTRx Jumper 3 pol Open F11 JP36 X0A select Jumper 4 pol 1-4 G22 JP37 X1A select Jumper 3 pol 1-2 G22 JP38 LIN B (RXD) / LINUART3(90340) Jumper 2 pol Open F12 JP39 LIN B (TXD) / LINUART3(90340) Jumper 2 pol Open F12 JP40 C-Pin Jumper 2 pol Closed GH22 JP41 P00/P65 Jumper 3 pol 1-2 E17 JP42 P01/P66 Jumper 3 pol 1-2 E17 JP43a SCK0(MB90340) Jumper 2 pol Closed D16 JP43b SCK0(MB90800) / SCK4(MB90945) Jumper 2 pol Open D16 JP44 SIN_A Jumper 2 pol Closed EF9 UG Fujitsu Microelectronics Europe GmbH

11 Chapter 2 Installation A B C D E F G H J K L M N 1 (LIN- (LIN UART2 UART0 UART3) UART1) A B C D E F G H J K L M N CAN0 (CAN1) If additional UART-, CAN- or LIN-interfaces are supported by the device, then additional jumpers have to be set. Please see chapter 3. Fujitsu Microelectronics Europe GmbH UG

12 Chapter 2 Installation 2.2 Jumper setting for MB90800 Series The following jumpers should be closed if the FLASH-CAN-100P-340 V1.1 board will be used with a member of the MB90800 Series: Jumper Description / Function Type Default MB90800 Coordinates JP1a UART A (TXD) / UART0(MB90340) Jumper 2 pol Open D14 JP1b UART A (TXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Closed D14 JP1c UART A (TXD) / UART0(MB90945) Jumper 2 pol Open D14 JP2a UART A (RXD) / UART0(MB90340) Jumper 2 pol Open EF9 JP2b UART A (RXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Closed EF9 JP2c UART A (RXD) / UART0(MB90945) Jumper 2 pol Open EF10 JP3 DTR/RTS A Jumper 3 pol Open D4 JP4 RESET UART A/B Jumper 3 pol Open E10 JP5 DTR/RTS B Jumper 3 pol Open D8 JP6a UART B (RXD) / UART2(MB90340) Jumper 2 pol Open EF12 JP6b UART B (RXD) / UART1(MB90800) Jumper 2 pol Closed EF12 JP6c UART B (RXD) / UART3(MB90945) Jumper 2 pol Open EF13 JP8a UART B (TXD) / UART2(MB90340) Jumper 2 pol Open EF11 JP8b UART B (TXD) / UART1(MB90800) Jumper 2 pol Closed EF11 JP8c UART B (TXD) / UART3(MB90945) Jumper 2 pol Open EF12 JP7 Reset 3V3 Jumper 2 pol Closed E8 JP9 LIN B enable Jumper 2 pol Open G13 JP10 LIN B Master-Mode Jumper 2 pol Open E3 JP11 AVcc Jumper 2 pol Closed K21 JP12 SW1 Jumper 2 pol Closed G9 JP13 AVcc=AVRH Jumper 2 pol Open J21 JP14 SW INT1 Jumper 2 pol Closed G9 JP15 AVss Jumper 2 pol Closed K19 JP16 SW2 Jumper 2 pol Closed G9 JP17 LIN A enable Jumper 2 pol Open H13 JP18 LIN A Master-Mode Jumper 2 pol Open H3 JP19 AVSS=AVRL Jumper 2 pol Open J20 JP20 SW3 Jumper 2 pol Closed F9 JP21a LIN A (RXD) / LINUART1(90340) Jumper 2 pol Open H13 JP21c LIN A (RXD) / LINUART3(90945) Jumper 2 pol Open H13 JP22a LIN A (TXD) / LINUART1(90340) Jumper 2 pol Open H13 JP22c LIN A (TXD) / LINUART3(90945) Jumper 2 pol Open H13 JP23 SW4 Jumper 2 pol Closed F9 JP24 RESET Jumper 2 pol Closed E8 JP25 CAN A (TXD) / CAN0(MB90340) Jumper 2 pol Open J13 JP26 CAN A (RXD) / CAN0(MB90340) Jumper 2 pol Open J13 JP27a CAN B (TXD) / CAN1(MB90340) Jumper 2 pol Open J13 JP27c CAN B (TXD) / CAN1(MB90945) Jumper 2 pol Open J13 JP28a CAN B (RXD) / CAN1(MB90340) Jumper 2 pol Open K13 JP28c CAN B (RXD) / CAN1(MB90945) Jumper 2 pol Open K13 JP29 int/ext VCC Jumper 3 pol 1-2 J17 JP30 5V/3V3 Jumper 2 pol Closed L15 JP31 RTS-CTS A Jumper 2 pol Closed D4 JP32 RTS-CTS B Jumper 2 pol Closed D8 JP33 C-Pin to MCU_VCC sold-jumper Open H22 JP34 MCU_VCC Jumper 2pol Closed J17 JP35 DTR / DTRx Jumper 3 pol Open F11 JP36 X0A select Jumper 4 pol 1-4 G22 JP37 X1A select Jumper 3 pol 1-2 G22 JP38 LIN B (RXD) / LINUART3(90340) Jumper 2 pol Open F12 JP39 LIN B (TXD) / LINUART3(90340) Jumper 2 pol Open F12 JP40 C-Pin Jumper 2 pol Open GH22 JP41 P00/P65 Jumper 3 pol 2-3 E17 JP42 P01/P66 Jumper 3 pol 2-3 E17 JP43a SCK0(MB90340) Jumper 2 pol Open D16 JP43b SCK0(MB90800) / SCK4(MB90945) Jumper 2 pol Closed D16 JP44 SIN_A Jumper 2 pol Closed EF9 UG Fujitsu Microelectronics Europe GmbH

13 Chapter 2 Installation A B C D E F G H J K L M N 1 n.c. n.c UART2 UART A B C D E F G H J K L M N n.c. n.c. If additional UART-, CAN- or LIN-interfaces are supported by the device, then additional jumpers have to be set. Please see chapter 3. Fujitsu Microelectronics Europe GmbH UG

14 Chapter 2 Installation 2.3 Jumper setting for MB90865 Series The following jumpers should be closed if the FLASH-CAN-100P-340 V1.1 board will be used with a member of the MB90865 Series: Jumper Description / Function Type Default MB90865 Coordinates JP1a UART A (TXD) / UART0(MB90340) Jumper 2 pol Closed D14 JP1b UART A (TXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Open D14 JP1c UART A (TXD) / UART0(MB90945) Jumper 2 pol Open D14 JP2a UART A (RXD) / UART0(MB90340) Jumper 2 pol Closed EF9 JP2b UART A (RXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Open EF9 JP2c UART A (RXD) / UART0(MB90945) Jumper 2 pol Open EF10 JP3 DTR/RTS A Jumper 3 pol Open D4 JP4 RESET UART A/B Jumper 3 pol Open E10 JP5 DTR/RTS B Jumper 3 pol Open D8 JP6a UART B (RXD) / UART2(MB90340) Jumper 2 pol Closed EF12 JP6b UART B (RXD) / UART1(MB90800) Jumper 2 pol Open EF12 JP6c UART B (RXD) / UART3(MB90945) Jumper 2 pol Open EF13 JP8a UART B (TXD) / UART2(MB90340) Jumper 2 pol Closed EF11 JP8b UART B (TXD) / UART1(MB90800) Jumper 2 pol Open EF11 JP8c UART B (TXD) / UART3(MB90945) Jumper 2 pol Open EF12 JP7 Reset 3V3 Jumper 2 pol Open E8 JP9 LIN B enable Jumper 2 pol Open G13 JP10 LIN B Master-Mode Jumper 2 pol Open E3 JP11 AVcc Jumper 2 pol Closed K21 JP12 SW1 Jumper 2 pol Closed G9 JP13 AVcc=AVRH Jumper 2 pol Closed J21 JP14 SW INT1 Jumper 2 pol Closed G9 JP15 AVss Jumper 2 pol Closed K19 JP16 SW2 Jumper 2 pol Closed G9 JP17 LIN A enable Jumper 2 pol Open H13 JP18 LIN A Master-Mode Jumper 2 pol Open H3 JP19 AVSS=AVRL Jumper 2 pol Closed J20 JP20 SW3 Jumper 2 pol Closed F9 JP21a LIN A (RXD) / LINUART1(90340) Jumper 2 pol Open H13 JP21c LIN A (RXD) / LINUART3(90945) Jumper 2 pol Open H13 JP22a LIN A (TXD) / LINUART1(90340) Jumper 2 pol Open H13 JP22c LIN A (TXD) / LINUART3(90945) Jumper 2 pol Open H13 JP23 SW4 Jumper 2 pol Closed F9 JP24 RESET Jumper 2 pol Closed E8 JP25 CAN A (TXD) / CAN0(MB90340) Jumper 2 pol Open J13 JP26 CAN A (RXD) / CAN0(MB90340) Jumper 2 pol Open J13 JP27a CAN B (TXD) / CAN1(MB90340) Jumper 2 pol Open J13 JP27c CAN B (TXD) / CAN1(MB90945) Jumper 2 pol Open J13 JP28a CAN B (RXD) / CAN1(MB90340) Jumper 2 pol Open K13 JP28c CAN B (RXD) / CAN1(MB90945) Jumper 2 pol Open K13 JP29 int/ext VCC Jumper 3 pol 1-2 J17 JP30 5V/3V3 Jumper 2 pol Open L15 JP31 RTS-CTS A Jumper 2 pol Closed D4 JP32 RTS-CTS B Jumper 2 pol Closed D8 JP33 C-Pin to MCU_VCC sold-jumper Open H22 JP34 MCU_VCC Jumper 2pol Closed J17 JP35 DTR / DTRx Jumper 3 pol Open F11 JP36 X0A select Jumper 4 pol 1-4 G22 JP37 X1A select Jumper 3 pol 1-2 G22 JP38 LIN B (RXD) / LINUART3(90340) Jumper 2 pol Open F12 JP39 LIN B (TXD) / LINUART3(90340) Jumper 2 pol Open F12 JP40 C-Pin Jumper 2 pol Closed GH22 JP41 P00/P65 Jumper 3 pol 1-2 E17 JP42 P01/P66 Jumper 3 pol 1-2 E17 JP43a SCK0(MB90340) Jumper 2 pol Closed D16 JP43b SCK0(MB90800) / SCK4(MB90945) Jumper 2 pol Open D16 JP44 SIN_A Jumper 2 pol Closed EF9 UG Fujitsu Microelectronics Europe GmbH

15 Chapter 2 Installation A B C D E F G H J K L M N 1 (LIN- (LIN UART2 UART0 UART3) UART1) A B C D E F G H J K L M N n.c. n.c. If additional UART-, CAN- or LIN-interfaces are supported by the device, then additional jumpers have to be set. Please see chapter 3. Fujitsu Microelectronics Europe GmbH UG

16 Chapter 2 Installation 2.4 Jumper setting for MB90945 Series The following jumpers should be closed if the FLASH-CAN-100P-340 V1.1 board will be used with a member of the MB90945 Series: Jumper Description / Function Type Default MB90945 Coordinates JP1a UART A (TXD) / UART0(MB90340) Jumper 2 pol Open D14 JP1b UART A (TXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Open D14 JP1c UART A (TXD) / UART0(MB90945) Jumper 2 pol Closed D14 JP2a UART A (RXD) / UART0(MB90340) Jumper 2 pol Open EF9 JP2b UART A (RXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Open EF9 JP2c UART A (RXD) / UART0(MB90945) Jumper 2 pol Closed EF10 JP3 DTR/RTS A Jumper 3 pol Open D4 JP4 RESET UART A/B Jumper 3 pol Open E10 JP5 DTR/RTS B Jumper 3 pol Open D8 JP6a UART B (RXD) / UART2(MB90340) Jumper 2 pol Open EF12 JP6b UART B (RXD) / UART1(MB90800) Jumper 2 pol Open EF12 JP6c UART B (RXD) / UART3(MB90945) Jumper 2 pol Closed EF13 JP8a UART B (TXD) / UART2(MB90340) Jumper 2 pol Open EF11 JP8b UART B (TXD) / UART1(MB90800) Jumper 2 pol Open EF11 JP8c UART B (TXD) / UART3(MB90945) Jumper 2 pol Closed EF12 JP7 Reset 3V3 Jumper 2 pol Open E8 JP9 LIN B enable Jumper 2 pol Open G13 JP10 LIN B Master-Mode Jumper 2 pol Open E3 JP11 AVcc Jumper 2 pol Closed K21 JP12 SW1 Jumper 2 pol Closed G9 JP13 AVcc=AVRH Jumper 2 pol Closed J21 JP14 SW INT1 Jumper 2 pol Closed G9 JP15 AVss Jumper 2 pol Closed K19 JP16 SW2 Jumper 2 pol Closed G9 JP17 LIN A enable Jumper 2 pol Open H13 JP18 LIN A Master-Mode Jumper 2 pol Open H3 JP19 AVSS=AVRL Jumper 2 pol Closed J20 JP20 SW3 Jumper 2 pol Closed F9 JP21a LIN A (RXD) / LINUART1(90340) Jumper 2 pol Open H13 JP21c LIN A (RXD) / LINUART3(90945) Jumper 2 pol Open H13 JP22a LIN A (TXD) / LINUART1(90340) Jumper 2 pol Open H13 JP22c LIN A (TXD) / LINUART3(90945) Jumper 2 pol Open H13 JP23 SW4 Jumper 2 pol Closed F9 JP24 RESET Jumper 2 pol Closed E8 JP25 CAN A (TXD) / CAN0(MB90340) Jumper 2 pol Open J13 JP26 CAN A (RXD) / CAN0(MB90340) Jumper 2 pol Open J13 JP27a CAN B (TXD) / CAN1(MB90340) Jumper 2 pol Open J13 JP27c CAN B (TXD) / CAN1(MB90945) Jumper 2 pol Closed J13 JP27a CAN B (TXD) / CAN1(MB90340) Jumper 2 pol Open K13 JP28c CAN B (RXD) / CAN1(MB90945) Jumper 2 pol Closed K13 JP29 int/ext VCC Jumper 3 pol 1-2 J17 JP30 5V/3V3 Jumper 2 pol Open L15 JP31 RTS-CTS A Jumper 2 pol Closed D4 JP32 RTS-CTS B Jumper 2 pol Closed D8 JP33 C-Pin to MCU_VCC sold-jumper Open H22 JP34 MCU_VCC Jumper 2pol Closed J17 JP35 DTR / DTRx Jumper 3 pol Open F11 JP36 X0A select Jumper 4 pol 2-4 G22 JP37 X1A select Jumper 3 pol 2-3 G22 JP38 LIN B (RXD) / LINUART3(90340) Jumper 2 pol Open F12 JP39 LIN B (TXD) / LINUART3(90340) Jumper 2 pol Open F12 JP40 C-Pin Jumper 2 pol Closed GH22 JP41 P00/P65 Jumper 3 pol 1-2 E17 JP42 P01/P66 Jumper 3 pol 1-2 E17 JP43a SCK0(MB90340) Jumper 2 pol Open D16 JP43b SCK0(MB90800) / SCK4(MB90945) Jumper 2 pol Closed D16 JP44 SIN_A Jumper 2 pol Closed EF9 UG Fujitsu Microelectronics Europe GmbH

17 Chapter 2 Installation A B C D E F G H J K L M N UART3 UART0 (UART4) n.c. (LIN- UART3) A B C D E F G H J K L M N n.c. CAN1 If additional UART-, CAN- or LIN-interfaces are supported by the device, then additional jumpers have to be set. Please see chapter 3. Fujitsu Microelectronics Europe GmbH UG

18 Chapter 3 Jumpers and Switches 3 Jumpers and Switches This chapter describes all jumpers and switches that can be modified on the evaluation board. The default setting (MB90340 Series) is shown with a grey shaded area. All jumpers and switches are named directly on the board, so it is very easy to set the jumpers according to the features. 3.1 Operating-Mode (S2) The DIP-switch S2 is used to set the operating mode of the µc. 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 Setting Logical value S2/1 (MD0) ON (closed) 0 (low) OFF (open) 1 (high) S2/2 (MD1) ON (closed) 0 (low) OFF (open) 1 (high) S2/3 (MD2) ON (closed) 0 (low) OFF (open) 1 (high) S2/4 not connected (OFF) S2/5 not connected (OFF) S2/6 not connected (OFF) S2/7 (P01, P65) S2/8 (P00, P65) ON (closed) 1 (high) OFF (open) 0 (low)* 1 ON (closed) 1 (high) OFF (open) 0 (low) * 1 Default: MD0, 1, 2 = P00, P01 = 0* 1 0* 1 By default, the Single Chip Run-Mode is selected. MD0 MD1 MD2 nc nc nc P01 P00 P66 P65 Dip-Switch S2 (default setting) ON OFF * 1 Note: Take care that the low-level for serial programming is reached by the pull-down resistors R28 and R29 that are enabled by the jumpers JP41 and JP42. Please refer to chapter 4 (Programming the internal Flash) for more details about the operation mode. UG Fujitsu Microelectronics Europe GmbH

19 Chapter 3 Jumpers and Switches 3.2 Power Supply Voltage (JP: 29, 30, 34) Vcc and GND (Vss) are both connected to the edge-connector (X4) in order to supply additional circuitry. However, if the current requirements exceed the maximum ratings of the on board voltage regulator LM317T, the board also can be powered externally via the edgeconnector. In that case, take care of the input-voltage. Neither a voltage regulation nor an over-voltage-protection does exist for an external power-supply. JP29 Power Supply selection In case that the board is powered via the VG-connector (X4), a regulated 5V / 3,3V power source has to be used. JP30 Depending on the microcontroller device the supply voltage of the µc can be selected between 3V3 or 5V. JP34 This Jumper is used to connect the Vcc supply voltage to the µc. Connecting an Ampere-meter allows measuring of the power-supply-current of the microcontroller (Icc). Jumper Setting Description JP29 (Vcc) 1-2 On-board voltage regulation 2-3 External power-supply from X4 pin 1 JP30 (3V/5V) ON (closed) The microcontroller is powered with 3,3V OFF (open) The microcontroller is powered with 5V JP34 (MCUVcc) ON (closed) Power supply Vcc connected to µc OFF (open) Disconnected from Power supply Vcc Default: JP29 = 1-2, JP30 = OFF, JP34 = ON, By default, the on-board 5V Voltage regulation is used and the microcontroller is powered. Fujitsu Microelectronics Europe GmbH UG

20 Chapter 3 Jumpers and Switches 3.3 Analogue Power Supply Voltage (JP: 11, 13, 15) The power supply as well as the positive reference voltage for the A/D-converter can be provided internally or externally. JP11, JP15 connect power supply voltages (AVcc and AVss) JP13, JP19 connect reference voltages (AVRH to AVcc, ARRL to AVss) Jumper Setting Description JP11 (AVcc) ON (closed) OFF (open) AVcc is connected to Vcc AVcc is disconnected from Vcc JP13 (AVRH) ON (closed) AVRH is connected to AVcc OFF (open) AVRH defined by resistor network *1 JP15 (AVss) ON (closed) OFF (open) AVss is connected to GND AVss is disconnected from GND ON (closed) AVRL is connected to AVss JP19 (AVRL) OFF (open) AVRL defined by resistor network *1 *1 By default the resistor network (R11, R23 and R26, R27) is not mounted on the board Default: JP11, JP13, JP15 and JP19 are closed By default, the A/D-converter supply and reference voltage is same as the microcontroller supply voltage. Note: If JP11 and J15 are open, the user has to supply an adequate analogue voltage supply (AVcc and AVss) to the A/D-converter. If JP13 is open, the resistors R11 and R23 define AVRH. If JP19 is open, the resistors R26 and R27 define AVRL. By default the resistor network (R11, R23 and R26, R27) is not mounted on the board. UG Fujitsu Microelectronics Europe GmbH

21 Chapter 3 Jumpers and Switches 3.4 Subclock (JP: 36,37) Some devices like e.g. MB90F347 support a 32kHz subclock (X0A, X1A), other devices like e.g. MB90FxxxS do not support a subclock but will offer additional port-pins (e.g. P40, P41) instead. Please check the related datasheet. JP36: defines usage of Pin 13 (X0A/Pxy) JP37: defines usage of Pin 14 (X1A/Pxy) Pin-out JP36: Jumper Setting Description JP36 (X0A/Pxy) JP37 (X1A/Pxz) 1-4 Pin 13 is connected to the 32kHz Subclock (X0A) 2-4 Pin 13 is used as Pxy and is connected to X4-A Pin 13 is connected to GND (in case that subclockdevice is used, but no 32kHz crystal is connected) 1-2 Pin 14 is connected to the 32kHz Subclock (X1A) 2-3 Pin 14 is used as Pxz and is connected to X4-A17 Default: JP36: 1-4, JP37: 1-2 By default, the 32kHz-subclock-crystal is connected to the microcontroller. Fujitsu Microelectronics Europe GmbH UG

22 Chapter 3 Jumpers and Switches 3.5 UART A (JP: 1, 2, 31, 44) One RS232-transceiver (U1, X3) can be connected to the microcontroller s UART interface. JP1, JP2 connects an UART to the RS232-transceiver (U1, X3) JP31 Some Flash-programming-Tools needs a connection between CTS and RTS JP44 Disconnects SIN_A from UART transceiver in case of synchronous programming Jumper Setting Description JP1 (UART A TxD) JP2 (UART A TxD) JP31 (RTS-CTS) JP44 (SIN_A) JP1a closed JP1b closed JP1c closed JP2a closed JP2b closed JP2c closed ON (closed) OFF (open) ON (closed) SOT0 of MB90340/865 is connected to UART A SO0 of MB90800 is connected to UART A SOT4 of MB90945 is connected for synchronous programming (See chapter 4.2) SOT0 of MB90945 is connected to UART A SIN0 of MB90340/865 is connected to UART A SI0 of MB90800 is connected to UART A SIN4 of MB90945 is connected for synchronous programming (See chapter 4.2) SIN0 of MB90945 is connected to UART A RTS and CTS is shortcut on X3 RTS and CTS is not shortcut on X3 SIN_A (see JP2) is connected to the transceiver OFF (open) SIN_A (see JP2) is disconnected (see chapt. 4.2) Default: JP1=ON, JP2=ON, JP31 = ON By default, UART0 is used as UART A. UG Fujitsu Microelectronics Europe GmbH

23 Chapter 3 Jumpers and Switches 3.6 UART B (JP: 6, 8, 32) One RS232-transceiver (U3, X5) can be connected to the microcontroller s UART interface. JP6, JP8 connects an UART to the RS232-transceiver (U3, X5) JP32 Some terminal-programs needs a connection between CTS and RTS Jumper Setting Description JP6 (UART B RxD) JP8 (UART B TxD) JP32 (RTS-CTS) JP6a closed JP6b closed JP6c closed JP8a closed JP8b closed JP8c closed ON (closed) OFF (open) SIN2 of MB90340/865 is connected to UART B SI1 of MB90800 is connected to UART B SIN3 of MB90945 is connected to UART B Note: Open jumper JP21c (LIN A ) SOT2 of MB90340/865 is connected to UART B SO1 of MB90800 is connected to UART B SOT3 of MB90945 is connected to UART B Note: Open jumper JP22c (LIN A ) RTS and CTS is shortcut on X5 RTS and CTS is not shortcut on X5 Default: JP6=ON, JP8=ON, JP32 = ON By default, UART2 of MB90340 is used as UART B. Fujitsu Microelectronics Europe GmbH UG

24 Chapter 3 Jumpers and Switches 3.7 LIN A (JP: 17, 18, 21, 22) One LIN-transceiver (U5, X8) can be connected to the microcontroller s UART interface. JP17 JP18 enable LIN-Transceiver LIN Master-mode JP21, JP22 connects an UART to the LIN-transceiver (U5, X8) If the LIN interface is not used then the jumpers should be left open. Jumper Setting Description JP17 (LIN enable) JP18 (LIN Master) JP21 (LIN A RXD) JP22 (LIN A TXD) open closed open closed JP21a closed JP21c closed JP22a closed JP22c closed LIN-transceiver is disabled LIN-transceiver is enabled LIN Slave-mode LIN Master-mode SIN1 of MB90340/865 is connected to LIN A SIN3 of MB90945 is connected to LIN A Note: Open jumper JP6c (UART B ) SOT1 of MB90340/865 is connected to LIN A SOT3 of MB90945 is connected to LIN A Note: Open jumper JP8c (UART B ) Default: JP17, JP18, JP21, JP22 = open By default, the LIN A -interface is not connected to an UART. 3.8 LIN B (JP: 9, 10, 38, 39) One LIN-transceiver (U4, X6) can be connected to the microcontroller s UART interface. JP9 JP10 enable LIN-Transceiver LIN Master-mode JP38, JP39 connects an UART to the LIN-transceiver (U4, X6) If the LIN interface is not used then the jumpers should be left open. Jumper Setting Description JP9 (LIN enable) open LIN-transceiver is disabled closed LIN-transceiver is enabled JP10 (LIN Master) open LIN Slave-mode closed LIN Master-mode JP38 (LIN B RXD) closed SIN3 of MB90340/865 is connected to LIN B JP39 (LIN B TXD) closed SOT3 of MB90340/865 is connected to LIN B Default: JP9, JP10, JP38, JP39 = open By default, the LIN B -interface is not connected to an UART. UG Fujitsu Microelectronics Europe GmbH

25 3.9 CAN A (JP: 25, 26) FLASH-CAN-100P-340 v1.1 Chapter 3 Jumpers and Switches One high-speed CAN-transceiver can be connected to the microcontroller s CAN interface. JP25, JP26 connects a CAN-port to the CAN-transceiver (U7, X10). If the CAN interface is not used then the jumpers should be left open. Jumper Setting Description JP25 (CAN A TX) closed TX0 of MB90340 is connected to CAN A JP26 (CAN A RX) closed RX0 of MB90340 is connected to CAN A Default: JP25, JP26 = Closed By default, the CAN A -transceiver is connected to CAN0 of the MB CAN B (JP: 27, 28) One high-speed CAN-transceiver can be connected to the microcontroller s CAN interface. JP27, JP28 connects a CAN-port to the CAN-transceiver (U8, X11). If the CAN interface is not used, the jumpers should be left open. Jumper Setting Description JP27 (CAN B TX) JP27a closed TX1 of MB90340 is connected to CAN B JP27c closed TX1 of MB90945 is connected to CAN B JP28 (CAN B RX) JP28a closed RX1 of MB90340 is connected to CAN B JP28c closed RX1 of MB90945 is connected to CAN B Default: JP27, JP28 = Open By default, the CAN B -transceiver is not connected. Fujitsu Microelectronics Europe GmbH UG

26 Chapter 3 Jumpers and Switches 3.11 Reset-Generation (JP: 3, 4, 5, 7, 24, 35) Additional to the internal Power-On-Reset the microcontroller can be reset by an external Reset-circuit (Voltage-Monitor) and by the UARTs, too. JP3, JP5 As well the DTR-line as the RTS-Line of UART A or UART B can be used to generate a system-reset. JP4 JP7 JP24 JP35 This jumper selects whether the DTR/RTS line from UART A or UART B will generate a system-reset. This jumper selects whether a 5V or 3V3 system reset is required. open this jumper if no external Reset shall be generated. In this case only the internal reset is active (e.g.: power-on) The polarity of the DTR/RTS line can be invert by this jumper. Remove the jumper in order to disable the reset logic. Jumper Setting Description JP3 (DTR / RTS A ) JP4 (UART A / B ) JP5 (DTR / RTS B ) JP7 (Reset 3V3) JP24 (Main Reset) JP35 (Polarity) 1-2 DTR of UART A is selected 2-3 RTS of UART A is selected 1-2 UART A is used to generate Reset 2-3 UART B is used to generate Reset 1-2 DTR of UART B is selected 2-3 RTS of UART B is selected Closed System reset for 3,3V microcontrollers (MB90800) Open System reset for 5V microcontrollers closed external Reset generation is active open no external Reset generation 1-2 No polarity inversion for the DTR/RTS signal 2-3 Polarity inversion for the DTR/RTS signal Default: JP24 = closed, JP4, JP5, JP7 and JP35 are not set By default, the external Reset generation for 5V microcontroller is active. The Reset by UART is disabled. Note: While a reset signal is asserted the red Reset-LED D14 is lit. During normal operation, this LED should be off! If JP35 (Polarity) is set, than JP4 and JP5 have to be set, too. If the reset LED is steadily on, check the power supply input voltage and the settings for the reset-generation by UART. UG Fujitsu Microelectronics Europe GmbH

27 Chapter 3 Jumpers and Switches 3.12 Buttons SW1, SW2, SW3, SW4, SW5, SW6 (JP: 12, 14, 16, 20, 23, 24) JP12, JP14, JP16, JP20, JP23 Five user push buttons SW1-SW5 can be connected to the microcontroller. JP24 Manually reset push button SW6 can be connected to the microcontroller. Jumper Setting Description JP12 (SW1) JP14 (SW2) JP16 (SW3) JP20 (SW4) JP23 (SW5) JP24 (Reset) Closed Open Closed Open Closed Open Closed Open Closed Open Closed Open Pin 45 of the microcontroller is connected to SW1 MB90340: P70/AN16/INT0 is connected to SW1 MB90800: P70/AN8/INT3 is connected to SW1 MB90865: P70/AN16/INT0 is connected to SW1 MB90945: P51/PPG11 is connected to SW1 No connection to the microcontroller Pin 46 of the microcontroller is SW2 MB90340: P71/AN17/INT1 is connected to SW2 MB90800: P71/AN9/SC1 is connected to SW2 MB90865: P71/AN17/INT1 is connected to SW2 MB90945: P52/PPG12 is connected to SW2 No connection to the microcontroller Pin 85 of the microcontroller is connected to SW3 MB90340: P10/TIN1 is connected to SW3 MB90800: P10/SEG20 is connected to SW3 MB90865: P10/TIN1 is connected to SW3 MB90945: P10/OUT2 is connected to SW3 No connection to the microcontroller Pin 1 of the microcontroller is connected to SW4 MB90340: P24/IN0 is connected SW4 MB90800: P24/SEG32 is connected to SW4 MB90865: P24/IN0 is connected to SW4 MB90945: P24/INT4 is connected to SW4 No connection to the microcontroller Pin 57 of the microcontroller is connected to SW5 MB90340: P80/TIN0/ADTG/INT12R is connected to SW5 MB90800: V2/P82 is connected to SW5 MB90865: P80/TIN0/ADTG/INT12R is connected to SW5 MB90945: P57/PPG01 is connected to SW5 No connection to the microcontroller RSTX is connected to Push-button Reset No connection to RSTX Default: JP12, JP14, JP16, JP20, JP23, JP24 = Closed By default, all push-buttons are connected to the microcontroller. Fujitsu Microelectronics Europe GmbH UG

28 Chapter 4 Programming the internal Flash 4 Programming the internal Flash All Flash devices have an internal bootloader for asynchronous- as well as synchronous- Flash-programming: < asynchronous-serial Flash-programming via X3 < synchronous-serial Flash-programming via X Asynchronous Mode In order to program the Flash-ROM asynchronously via UART0, the tool Fujitsu Flash MCU Programmer for FMC16LX can be used. This tool is available free on the Fujitsu Micros CD- ROM or Web Site ( select < Software < Utilities) The following procedure must be followed to enable Flash Programming: 1. Power off the board 2. Connect the Evaluation Board UART A to your serial PC communication port. A straight cable connection has to be used. 3. Check the Jumper-settings according to the UART as described in chapter Configure the mode: MD0 MD1 MD2 nc nc nc P01 P00 P66 P65 Boot Mode Async. 4MHz ON OFF Power on the board 6. Check that the Reset LED is off. Otherwise change the DTR polarity (JP35) and check the power supply voltage. 7. Start the tool Fujitsu Flash MCU Programmer for FMC16LX software and follow the instructions: UG Fujitsu Microelectronics Europe GmbH

29 Chapter 4 Programming the internal Flash Set Device Type Select COM Port Select Crystal MB90F347 Open Source (MHX-File) Start programming 8. After programming the Flash-ROM, switch off the power supply and set back the mode according to the usage of the application, e.g.: MD0 MD1 MD2 nc nc nc P01 P00 P66 P65 Single-Chip Run Mode ON OFF Power on the board. The user application is started directly. Boot 4MHz RESET RUN UART A Fujitsu Microelectronics Europe GmbH UG

30 Chapter 4 Programming the internal Flash 4.2 Synchronous Mode In order to program the Flash-ROM synchronously special software has to be used, e.g. GALEP-4 from This tool is not available for free. A dedicated Flash programming socket (X17) is provided on the evaluation-board for direct connection to this programmer. X17: Flash programming socket P00/P65 1 MD0 3 RST 5 SOT 7 VCC 9 2 P01/P66 4 MD2 6 SIN 8 SCK 10 GND These tools will do all mode-settings. This means that all DIP-switch S2 has to be set to the OFF position. MD0 MD1 MD2 nc nc nc P01 P00 P66 P65 ON OFF Further, depending on the used microcontroller the following jumpers have to be set: Jumper Setting Description JP1a closed SOT0 of MB90340 or MB90865 JP1 (UART A TxD) SOT0 of MB90800 JP1b closed SOT4 of MB90945 JP2a closed SIN0 of MB90340 or MB90865 JP2 (UART A TxD) SIN0 of MB90800 JP2b closed SIN4 of MB90945 JP44 (SIN_A) OFF (open) SIN_A (see JP2) is disconnected (see chapt. 4.2) Please refer to the manual of the related tool for more information how to program a Flashdevice by the synchronous-serial mode. UG Fujitsu Microelectronics Europe GmbH

31 Chapter 4 Programming the internal Flash Note: In case that another Programming-Tool is used and the Mode-settings have to be done manually then use the following configuration of DIP-switch S2 in order to select the synchronous-serial Flash-programming mode: MD0 MD1 MD2 nc nc nc P01 P00 P66 P65 synchronous Boot-Mode ON OFF Fujitsu Microelectronics Europe GmbH UG

32 Chapter 5 Connectors 5 Connectors 5.1 Power connector (X12) The following figure shows the power connection jack X12. This connector is used to connect an external unregulated DC power supply voltage (9V-12V DC) to the evaluation board. Connector X12: Shield is connected to positive voltage supply Centre is connected to ground (GND) It is recommended to use 9V to keep the power dissipation to a minimum. Otherwise, an additional heat sink for the linear voltage regulator might be necessary. 5.2 Edge connector (X1, X2) All pins of the microcontroller are directly connected to X1 and X2 as follows: Connector MCU Pins X1 (1 50) 1 50 X2 (51 100) The odd pin numbers are located on the one side and the even pin numbers are located on the other side of the connector. On the PCB, the corresponding pin numbers of the µc are written next to the connector pins. 5.3 UART A, UART B connector (X3, X5) Two 9-pin D-Sub female connectors are used for the serial interface UART A and UART B. TXD is the transmit output, RXD is the receive input. The DTR or RTS signal can be used to generate a reset. Please use 1:1 cable for PC-connection. 5 9 GND DTR RxD TxD 1 6 Connectors X3, X5: CTS RTS DSR UG Fujitsu Microelectronics Europe GmbH

33 Chapter 5 Connectors 5.4 LIN A, LIN B Interface connector (X6, X8) Two 9-pin D-Sub female connectors are used for the LIN-communication. BUS +Ubat Connectors X6, X8: GND 5.5 CAN A, CAN B Interface connector (X10, X11) Two 9-pin D-Sub male connectors are used for the CAN interfaces. CANL Connector X10, X11: USER-LEDs & LC-Display (optional) Eight LEDs are reserved for user-application. In order to disconnect the LEDs from the related microcontroller port, the resistor network N1 can be removed. Take care that, in case of asynchronous programming, the low-level of P00 and P01 is reached by the resistornetwork N1 and the LEDs D1/D2. If N1 is removed in order to free the Port, then P00 and P01 have to be connected manually to GND. See chapter 4 for more details. Instead of the user-leds one alphanumeric LC-Display (optional) can be connected. The following control-signals are reserved: CANH LCD D6 D5 D4 D E R/W RS V0 VCC GND LED D8 D7 D6 D5 D4 D3 D2 D1 MCU Port P07 P06 P05 P04 P03 P02 P01 P00 Fujitsu Microelectronics Europe GmbH UG

34 Chapter 5 Connectors 5.7 VG96 connector (X4) Connector-Pin cross-reference: MCU X4 MB90340 MB90800 MB90945 Evaboard 1 A4 P24/A20/IN0 P24/SEG32 P24/INT4 SW4 2 B4 P25/A21/IN1 P25/SEG33 P25/INT5 3 C4 P26/A22/IN2 P26/SEG34 P26/INT6 4 A5 P27/A23/IN3 P27/SEG35 P27/INT7 5 B5 P30/ALE/IN4 P30/SEG36/SO3 P30 6 C5 P31/RDX/IN5 P31/SEG37/SC3 P31 7 A6 P32/WRX/RX2 P32/SEG38/SI3 P32 8 B6 P33/WRHX/TX2 P33/SEG39/TMCK P33 9 C6 P34/HRQ/OUT4 P34/SEG40/IC0 P34/SOT0 JP1c (UART A) 10 A7 P35/HAKX/OUT5 P35/SEG41/IC1 P35/SCK0 11 B7 P36/RDY/OUT6 P36/SEG42/OCU0 P36/SIN0 JP2c (UART A) 12 C7 P37/CLK/OUT7 P37/SEG43/OCU1 P37 13 (A16) P40/X0A P90/X0A P44 JP36 (X0A) 14 (A17) P41/X1A P91/X1A P45/ADTG JP37 (X1A) 15 ABC2 Vcc Vcc Vcc Vcc 16 ABC3 Vss Vss Vss GND 17 - C P40/LED0 C JP40 ( C ) 18 A8 P42/IN6/RX1 P41/LED1 P40 JP28a (CAN B) 19 B8 P43/IN7/TX1 P42/LED2 P41 JP27a (CAN B) 20 C8 P44/SDA0/FRCK0 P43/LED3 P42/SDA 21 A9 P45/SCL0/FRCK1 P44/LED4 P43/SCL 22 B9 P46/SDA1 P45/LED5/TOT0 P46/INT0 23 C9 P47/SCL1 P46/LED6/TOT1 P47/INT1 24 A10 P50/AN8/SIN2 P47/LED7/TOT2 P50/PPG10 JP6a (UART B) 25 B10 P51/AN9/SOT2 P50/SEG44/TIN0 PB0/PPG02/AN8 JP8a (UART B) 26 C10 P52/AN10/SCK2 P51/SEG45/TIN1 PB1/PPG03/AN9 27 A11 P53/AN11/TIN3 P52/SEG46/TIN2/PPGG0 PB2/PPG04/AN10 28 B11 P54/AN12/TOT3 P53/SEG47/PPG1 PB3/PPG05/AN11 29 C11 P55/AN13 P54/SI0 PB4/SIN4/AN12 JP2b (UART A) 30 A12 P56/AN14/DA00 P55/SC0 PB5/SCK4/AN13 JP43b (X17 SCK) 31 B12 P57/AN15/DA01 P56/SO0 PB6/SOT4/AN14 JP1b (UART A) 32 - AVcc AVcc AVcc JP11 (Vcc) 33 - AVRH P57/SI1 AVRH JP13 (Pin32) JP6b (UART B) 34 - AVRL P76 AVRL JP19 (Pin35) 35 - AVss AVss AVss JP15 (GND) 36 C12 P60/AN0/PPG0(1) P60/AN0 P60/AN0 37 A13 P61/AN1/PPG2(3) P61/AN1 P61/AN1 38 B13 P62/AN2/PPG4(5) P62/AN2 P62/AN2 39 C13 P63/AN3/PPG6(7) P63/AN3 P63/AN3 40 A14 P64/AN4/PPG8(9) P64/AN4 P64/AN4 41 B14 P65/AN5/PPGA(B) P65/AN5/INT0 P65/AN5 JP41 (P00/P65) 42 C14 P66/AN6/PPGC(D) P66/AN6/INT1 P66/AN6 JP42 (P01/P66) 43 A15 P67/AN7/PPGE(F) P67/AN7/INT2 P67/AN7 44 ABC3 Vss Vss Vss GND 45 B15 P70/AN16/INT0 P70/AN8/INT3 P51/PPG11 SW1 46 C15 P71/AN17/INT1 P71/AN9/SC1 P52/PPG12 SW2 47 B16 P72/AN18/INT2 P72/AN10/SO1 P53/PPG13 JP8b (UART B) 48 C16 P73/AN19/INT3 P73/AN11/SI2 P54/PPG14 49 B17 P74/AN20/INT4 P74/AN20/SC2 PB7/FRCK0 50 C17 P75/AN21/INT5 P75/SCL/SO2 P97/FRCK1 UG Fujitsu Microelectronics Europe GmbH

35 Chapter 5 Connectors MCU X4 MB90340 MB90800 MB90945 Evaboard 51 A18 MD2 MD2 MD2 S B18 MD1 MD1 MD1 S C18 MD0 MD0 MD0 S A19 RSTX RSTX RSTX JP24 (Reset) 55 B19 P76/AN22/INT6 P80/V0 P55/PPG15 56 C19 P77/AN23/INT7 P81/V1 P56/PPG00 57 A20 P80/TIN0/ADTG P82/V2 P57/PPG01 SW5 58 B20 P81/TOT0/CKOT V3 P90 59 C20 P82/SIN0/TIN2 COM0 P93/SIN3 JP2a (UART A) JP21c (LIN B) 60 A21 P83/SOT0/TOT2 COM1 P95/SOT3 JP1a (UART A) JP22c (LIN B) 61 B21 P84/SCK0 P83/COM2 P94/SCK3 JP43a (X17 SCK) 62 C21 P85/SIN1 P84/COM3 P91 JP21a (LIN A) 63 A22 P86/SOT1 SEG0 P92 JP22a (LIN B) 64 B22 P87/SCK1 SEG1 P96 65 ABC2 Vcc Vcc Vcc Vcc 66 ABC3 Vss Vss Vss GND 67 C22 P90/PPG1(0) SEG2 PA0 68 A23 P91/PPG3(2) SEG3 PA1 69 B23 P92/PPG5(4) SEG4 PA2 70 C23 P93/PPG7(6) SEG5 PA3 71 A24 P94/OUT0 SEG6 PA4 72 B24 P95/OUT1 SEG7 PA5 73 C24 P96/OUT2 SEG8 PA6 74 A25 P97/OUT3 SEG9 PA7 75 B25 PA0/RX0 SEG10 P80 JP26 (CAN A) 76 C25 PA1/TX0 SEG11 P81 JP25 (CAN A) 77 A26 P00/AD00/INT8 P00/SEG12 P00/IN0 JP41 (P00/P65), LED1 78 B26 P01/AD01/INT9 P01/SEG13 P01/IN1 JP42 (P01/P66), LED2 79 C26 P02/AD02/INT10 P02/SEG14 P02/IN2 LED3 80 A27 P03/AD03/INT11 P03/SEG15 P03/IN3 LED4 81 B27 P04/AD04/INT12 P04/SEG16 P04/IN4 LED5 82 C27 P05/AD05/INT13 P05/SEG17 P05/IN5 LED6 83 A28 P06/AD06/INT14 P06/SEG18 P06/OUT0 LED7 84 B28 P07/AD07/INT15 P07/SEG19 P07/OUT1 LED8 85 C28 P10/AD08/TIN1 P10/SEG20 P10/OUT2 SW3 86 A29 P11/AD09/TOT1 P11/SEG21 P11/OUT3 87 B29 P12/AD10/SIN3 P12/SEG22 P12 JP38 (LIN B) 88 C29 P13/AD11/SOT3 P13/SEG23 P13 JP39 (LIN B) 89 A30 P14/AD12/SCK3 P14/SEG24 P14/TIN0 90 ABC2 Vcc Vcc Vcc Vcc 91 ABC3 Vss Vss Vss GND 92 - X1 X1 X1 4MHz 93 - X0 X0 X0 4MHz 94 B30 P15/AD13/SIN4 P15/SEG25 P15/TOT0 95 C30 P16/AD14/SOT4 P16/SEG26 P16 96 A31 P17/AD15/SCK4 P17/SEG27 P17 97 B31 P20/A16/PPG9(8) P20/SEG28 P20/TX1 JP27c (CAN A) 98 C31 P21/A17/PPGB(A) P21/SEG29 P21/RX1 JP28c (CAN A) 99 A32 P22/A18/PPGD(C) P22SEG30 P22/INT2 100 B32 P23/A19/PPGF(E) P23/SEG31 P23/INT3 - ABC1 extvcc Fujitsu Microelectronics Europe GmbH UG