FR FAMILY SK MAIN V1.2 EVALUATION BOARD USER GUIDE. Fujitsu Microelectronics Europe User Guide FMEMCU-UG

Transcription

1 Fujitsu Microelectronics Europe User Guide FMEMCU-UG FR FAMILY EVALUATION BOARD SK MAIN V1.2 USER GUIDE This manual refers to PCB version V1.2

2 Revision History Revision History Date Issue V1.0, HW, First Release V1.1, HW, Typos corrected V2.0, HW, Updated for PCB V V2.1, HW, Update of chapter 4.4 (USER-LEDs and LC-Display) V2.2, HW, Default jumper setting corrected: ST371 is closed V2.3, HW, Update of related products V2.4, TKa, Features updated This document contains 51 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 SK MAIN 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 SK MAIN 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 MB91460 Series JUMPERS AND SWITCHES Operating-Mode (S332) Power Supply Voltage (SL260, SL262, ST370, ST371) Analogue Power Supply Voltage (SL300, 301, 308, 311, ST320, ST325) UART0 / LIN0 (SL3049, ST3038, ST3039, ST3046, ST3047, ST3051, ST3059) LIN / UART A LIN / UART D (SL1000, SL1010, SL1030, SL1030) CAN A CAN C (SL3005, SL3015, SL3025, ST3030/1, ST3040/1) Reset-Generation (ST474, ST , ST3039, LD481) Push Buttons INT0, INT1, INT2, INT13, NMI (S , S470, ST ) Level Shifter (ST15xx, ST162x, ST163x) Memory (ST513, ST535) External bus interface (ST , ST2000, ST2010) CONNECTORS Power connector UART / LIN connector (SL1000, SL1010, SL1020, SL1030, SL3049) CAN connector (SL3005, SL3015, SL3025) USER-LEDs and optional LC-Display (LD , ST2040) Pin headers (ST , ST ) VG96ABC DIN (ST2000) VG48ABC DIN (ST2010) Microcontroller Interface (CON1, CON2 KEL connector) SILK-PLOT OF THE BOARD PCB HISTORY SK MAIN V UG Fujitsu Microelectronics Europe GmbH

5 Contents 6.2 SK MAIN V RELATED PRODUCTS INFORMATION IN THE 51 Fujitsu Microelectronics Europe GmbH UG

6 Chapter 1 Overview 1 Overview 1.1 Abstract The SK MAIN is a multifunctional evaluation board that has to be used together with the emulator system or a separated microcontroller board for the Fujitsu 32-bit microcontroller of MB91460 Series. The board allows the designer immediately to start with the software development before his own final target system is available. 1.2 Features < Supports Emulation system with MB and MB91V460 < 9-12V (500mA) unregulated external DC power supply < Selectable 3V/5V on-board voltage regulator with power status-leds < On-board Memory: 128 Mbit Flash, 32 Mbit SRAM, 64 Mbit SDRAM < All microcontroller resources available for evaluation < In-Circuit serial Flash programming < Five selectable UART or LIN interfaces < UART0 for serial programming < Selectable 4 out of 15 LIN-UART channels (UART1-15) < Three High-Speed CAN interfaces < Each interface is selectable out of 6 CAN channels < 8 User LEDs < optional: alphanumeric standard LC-Display connectable instead of LEDs < 1 Reset button, Reset-LED < 4 User buttons < 1 NMI button < Graphic-Controller board support: < External bus interface routed to 96pin and 48pin DIN (VG) connector 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 SK MAIN can be used as a target board for the emulation system together with the MB91V460 adapter board (MB ). The following configuration has to be used: Emulation chip: MB91V460 Emulation main unit: MB DSU cable: MB Adapter board: MB Evaluation board: SK MAIN The evaluation board includes 16 Mbyte Flash, 4 Mbyte SRAM, 8 Mbyte SDRAM memories. Level shifters are used to adapt the memories for 3V as well as for 5V microcontrollers. One dedicated RS232 transceiver and one dedicated LIN transceiver is available to connect on-chip UART channel 0 to one dedicated 9-pin D-Sub connector (SL3049). Four separate RS232 transceivers and four separate LIN transceivers are available to connect 4 out of 15 available on-chip UARTs to the 9-pin D-Sub connectors (SL1000, SL1010, SL1020 and SL1030). The RS232 transceivers generate the adequate RS232 levels for receive (RXD) and transmit (TXD) lines. The RTS signal can be shortcut to CTS using jumpers. Either the DTR line or the RTS line of UART 0 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. RS232 and LIN signals are shared on the 9-pin D-Sub connector. Three high-speed CAN-transceivers (PCA82C250) are available to connect 3 out of 6 available on-chip CANs to 9-pin D-Sub connectors (SL3005, SL3015 and SL3025). The transceivers provides differential transmit and receive capability between CAN-controller and CAN-bus. Additional hardware, like e.g. graphic-controller starter kits (daughter boards), can be connected to the external bus interface that is available at the DIN (VG96ABC, VG48ABC) connectors ST2000 and ST2010. All microcontroller pins that are not used by the evaluation board itself are routed to pin headers. There are six push buttons on the board, used for System-Reset, external Interrupts INT0 to INT2, INT13 and a non-maskable interrupt (NMI). Eight user-leds are connected via pull-down resistor network to Port P31.0-P31.7. Parallel to the LEDs the connector X4 can be used to connect a standard alphanumeric display. If neither LEDs nor LCD are required, the resistor network can be removed to free the port. The on-board voltage regulator allows the user to connect an unregulated DC input voltage between +9V to +12V (500mA). Also the power-supply voltages for an optional graphiccontroller starter kit are generated. In this case the input voltage should be +9V (1500mA). In case of any modifications of the board, care should be taken that the total power consumption will not damage the on board regulators. Fujitsu Microelectronics Europe GmbH UG

8 Chapter 2 Installation 2 Installation Remove carefully the board from the shipping carton. Check first if there are any damages before power on the SK MAIN evaluation board. Connect the SK MAIN evaluation board to the MB91V460 adapter board (MB ) and check all jumper settings of both boards. Refer to the user guide mcu-an e to get more information about the MB91V460 adapter board (MB ). Connect the emulation main unit MB to the MB91V460 adapter board (MB ) using the DSU cable MB Take care to use the following power on sequence: 1. Emulation main unit MB Evaluation board SK MAIN 3. Adapter board MB91V460 (MB ) For the power supply of the evaluation board SK MAIN 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 of the evaluation board SK MAIN, the eight green power-on LEDs (LD116, LD156, LD176, LD206, LD226, LD236, LD256, LD358) should be on. UG Fujitsu Microelectronics Europe GmbH

9 Chapter 2 Installation 2.1 Jumper setting for MB91460 Series The following table lists all jumpers including its default setting and location on the evaluation board. Jumper Description / Function Type Default Layout Cordinates Schematic Page SL260 MCU_VCC 3V3 Jumper 2 pin Open F9 5 / 9 SL262 MCU_Vcc Jumper 2 pin Closed E10 5 / 9 SL300 AVCC Jumper 2 pin Closed F15 5 / 9 SL301 AVSS Jumper 2 pin Closed F15 5 / 9 SL308 AVCC = AVRH Jumper 2 pin Closed F14 5 / 9 SL311 AVSS = AVRL Jumper 2 pin Closed F14 5 / 9 ST320 AVCC3 Jumper 2 pin Open F15 5 / 9 ST325 AVRH3 Jumper 2 pin Open F15 5 / 9 ST370 UVCC3 Jumper 2 pin Closed K6 5 / 9 ST371 VCC3C Jumper 2 pin Closed K6 5 / 9 ST430 Keybutton INT0 Jumper 2 pin Closed G13 5 / 9 ST431 Keybutton INT1 Jumper 2 pin Closed G13 5 / 9 ST432 Keybutton INT2 Jumper 2 pin Closed G14 5 / 9 ST433 Keybutton INT13 Jumper 2 pin Closed G15 5 / 9 ST434 Keybutton NMI Jumper 2 pin Closed K13 5 / 9 ST474 Reset 3V3 Jumper 2 pin Open K14 5 / 9 ST482 INITX Jumper 3 pin 2-3 J14 5 / 9 ST483 RSTX Jumper 3 pin 1-2 J15 5 / 9 ST513 SRAM A19 Jumper 3 pin 2-3 D6 4 / 9 ST535 Flash A21 Jumper 3 pin 2-3 G6 4 / 9 ST1007 UART A (SL1000) : RTS-CTS Jumper 2 pin Closed C14 6 / 9 ST1009 UART A (SL1000) : UART/LIN Jumper 3 pin 1-2 C14 6 / 9 ST1017 UART B (SL1010) : RTS-CTS Jumper 2 pin Closed C16 6 / 9 ST1019 UART B (SL1010) : UART/LIN Jumper 3 pin 1-2 C16 6 / 9 ST1028 UART C (SL1020) : RTS-CTS Jumper 2 pin Closed C17 6 / 9 ST1029 UART C (SL1020) : UART/LIN Jumper 3 pin 1-2 C16 6 / 9 ST1037 UART D (SL1030) : RTS-CTS Jumper 2 pin Closed F16 6 / 9 ST1039 UART D (SL1030) : UART/LIN Jumper 3 pin 1-2 E16 6 / 9 ST1112 LIN A : Master Jumper 2 pin Open D14 6 / 9 ST1113 LIN A : Enable Jumper 2 pin Open D14 6 / 9 ST1161 LIN B : Master Jumper 2 pin Open D15 6 / 9 ST1162 LIN B : Enable Jumper 2 pin Open D15 6 / 9 ST1211 LIN C : Master Jumper 2 pin Open D16 6 / 9 ST1212 LIN C : Enable Jumper 2 pin Open D17 6 / 9 ST1261 LIN D : Master Jumper 2 pin Open E15 6 / 9 ST1262 LIN D : Enable Jumper 2 pin Open E16 6 / 9 ST1300 ST1301 ST1302 ST1303 ST1304 ST1305 UART / LIN selection (TXD) UART / LIN selection (RXD) Jumper field Jumper field ST ST ST ST ST ST ST ST ST ST ST ST ST ST ST ST HJ7 6 / 9 HJ8 6 / 9 ST1506 Levelshifter (IC1500) direction Jumper 2 pin Open F3 3/9 ST1507 Levelshifter (IC1500) direction Jumper 2 pin Open G3 3 / 9 ST1509 Levelshifter 5V/3V3 Jumper 3 pin 1-2 D3 3 / 9 ST1516 Levelshifter (IC1510) direction Jumper 2 pin Open E3 3 / 9 ST1517 Levelshifter (IC1510) direction Jumper 2 pin Open F3 3 / 9 ST1526 Levelshifter (IC1520) direction Jumper 3 pin 2-3 D4 3 / 9 ST1527 Levelshifter (IC1520) direction Jumper 3 pin 2-3 D4 3 / 9 ST1536 Levelshifter (IC1530) direction Jumper 3 pin 2-3 D3 3 / 9 ST1537 Levelshifter (IC1530) direction Jumper 3 pin 2-3 D3 3 / 9 ST1546 Levelshifter (IC1540) direction Jumper 2 pin Closed G5 3 / 9 ST1547 Levelshifter (IC1540) direction Jumper 2 pin Closed G5 3 / 9 ST1556 Levelshifter (IC1550) direction Jumper 2 pin Open G3 3 / 9 ST1557 Levelshifter (IC1550) direction Jumper 2 pin Open J3 3 / 9 ST1566 Levelshifter (IC1560) direction Jumper 2 pin Open J3 3 / 9 ST1567 Levelshifter (IC1560) direction Jumper 2 pin Open K3 3 / 9 ST1590 DEOP[0] Jumper 2 pin Closed G5 3 / 9 ST1591 DACKX[0] Jumper 2 pin Closed G5 3 / 9 ST1592 DREQ2/3 Jumper 3 pin 1-2 F4 3 / 9 Fujitsu Microelectronics Europe GmbH UG

10 Chapter 2 Installation Jumper Description / Function Type Default Layout Cordinates Schematic Page ST1593 DEOTX2/3 Jumper 3 pin 1-2 F4 3 / 9 ST1597 DACKX2/3 Jumper 3 pin 1-2 G3 3 / 9 ST1598 DEOP2/3 Jumper 3 pin 1-2 G3 3 / 9 ST1620 CON1-79 (P116) Jumper 2 pin Closed H3 3 / 9 ST1621 CON1-77 (P117) Jumper 2 pin Closed H3 3 / 9 ST1622 CON1-75 (P114) Jumper 2 pin Closed H3 3 / 9 ST1623 CON1-73 (P115) Jumper 2 pin Closed H3 3 / 9 ST1624 CON1-71 (P112) Jumper 2 pin Closed H3 3 / 9 ST1625 CON1-69 (P113) Jumper 2 pin Closed H3 3 / 9 ST1626 CON1-57 (P107) Jumper 2 pin Closed H3 3 / 9 ST1627 CON1-67 (IORDX) Jumper 2 pin Closed J3 3 / 9 ST1628 CON1-65 (IOWRX) Jumper 2 pin Closed H3 3 / 9 ST1630 P[116] Jumper 2 pin Closed H4 3 / 9 ST1631 P[117] Jumper 2 pin Closed H4 3 / 9 ST1632 P[114] Jumper 2 pin Closed H4 3 / 9 ST1633 P[115] Jumper 2 pin Closed H4 3 / 9 ST1634 P[112] Jumper 2 pin Closed H4 3 / 9 ST1635 P[113] Jumper 2 pin Closed H4 3 / 9 ST1636 IORDX Jumper 2 pin Closed H4 3 / 9 ST1637 IOWRX Jumper 2 pin Closed J4 3 / 9 ST1638 P[107] Jumper 2 pin Closed J4 3 / 9 ST2020 INT0 (IRQ A / B ) Jumper 3 pin Open L5 7 / 9 ST2021 INT1 (IRQ A / B ) Jumper 3 pin Open L5 7 / 9 ST2022 INT2 (IRQ A / B ) Jumper 3 pin Open L5 7 / 9 ST2023 INT3 (IRQ A / B ) Jumper 3 pin Open L5 7 / 9 ST2024 INT4 (IRQ A / B ) Jumper 3 pin Open K5 7 / 9 ST2025 INT5 (IRQ A / B ) Jumper 3 pin Open K5 7 / 9 ST2026 INT6 (IRQ A / B ) Jumper 3 pin Open K5 7 / 9 ST2027 INT7 (IRQ A / B ) Jumper 3 pin Open K5 7 / 9 ST3030 ST3031 CAN selection (TX) Jumper field ST ST ST ST ST ST HJ8/9 6 / 9 ST3040 ST3041 CAN selection (RX) Jumper field ST ST ST ST ST ST HJ8/9 6 / 9 ST3038 UART0 (SL3049) : RTS-CTS Jumper 2 pin Closed L16 9 / 9 ST3039 UART0 (SL3049) : DTR/RTS Jumper 3 pin Open L16 9 / 9 ST3046 UART0 (SL3049) : UART/LIN Jumper 3 pin 1-2 J16 9 / 9 ST3047 UART0 (SL3049) : UART/LIN Jumper 3 pin 1-2 J16 9 / 9 ST3048 UART0 (SL3049) : UART/LIN Jumper 3 pin 1-2 L15 9 / 9 ST3051 LIN0: Master Jumper 2 pin Open K16 9 / 9 ST3059 LIN0: Enable Jumper 2 pin Open K15 9 / 9 UG Fujitsu Microelectronics Europe GmbH

11 3 SK MAIN v1.2 Fujitsu Microelectronics Europe GmbH UG

12 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 is shown with a grey shaded area. 3.1 Operating-Mode (S332) The DIP-switch S332 is used to set the operating mode of the PC. 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 S332/1 (MD0) ON (closed) 1 (high) OFF (open) 0 (low) S332/2 (MD1) ON (closed) 1 (high) OFF (open) 0 (low) S332/3 (MD2) ON (closed) 1 (high) OFF (open) 0 (low) Default: MD0, 1, 2 = By default, the External ROM Mode Vector is selected. MD0 MD1 MD2 Dip-Switch S332 ON OFF UG Fujitsu Microelectronics Europe GmbH

13 Chapter 3 Jumpers and Switches 3.2 Power Supply Voltage (SL260, SL262, ST370, ST371) Two voltage regulators (IC153, IC253) supply the evaluation board as well as the I/Os of the MB91460 adapter board. The power supply of the microcontroller interface can be selected between 5V and 3.3V. Six voltage regulators (IC113, IC173, IC203, IC223, IC233, IC353) are connected to the external bus interface ST2000 and ST2010, where e.g. graphic controller daughter boards can be connected. SL260 This jumper selects whether a 3V3 or 5V microcontroller interface is used. SL262 This Jumper is used to connect the MCU_Vcc supply voltage. Connecting an Ampere-meter allows measuring of the power-supply-current of the microcontroller (Icc). ST370 This jumper supplies 3.3V to UVCC3 of the CON1/CON2 connector ST371 This jumper supplies 3.3V to VCC3C of the CON1/CON2 connector Jumper Setting Description SL260 ON (closed) The microcontroller interface is powered with 3,3V (3V/5V) OFF (open) The microcontroller interface is powered with 5V SL262 ON (closed) Power supply MCU_Vcc is connected (MCU_Vcc) OFF (open) Power supply MCU_Vcc is disconnected ST370 ON (closed) 3,3V is supplied to UVCC3 (UVCC3) OFF (open) 3,3V is not supplied to UVCC3 ST371 ON (closed) 3,3V is supplied to VCC3C (VCC3C) OFF (open) 3,3V is not supplied to VCC3C Regulator Testpoint Voltage IC113 ST118 +5V +5V +3V3 +1V8 IC153 ST158 +3V3 IC173 ST169 +3V3 IC203 ST210 +2V5 +2V5 3.3/5V +3V3 IC223 ST218 +2V5 IC233 ST219 +2V5 IC253 ST258 +3V3 / +5V IC353 ST360 +1V8 +2V5 All ST361 ST362 GND GND +2V5 Fujitsu Microelectronics Europe GmbH UG

14 Chapter 3 Jumpers and Switches 3.3 Analogue Power Supply Voltage (SL300, 301, 308, 311, ST320, ST325) The power supply as well as the reference voltage for the A/D-converter can be provided internally or externally. SL300 Connects power supply (AVcc) of the A/D converter (5V version) SL301 Connects GND (AVss) of the A/D converter (both versions) SL308 Connects high reference voltage (AVRH) of the A/D converter (5V version) SL311 Connects low reference voltage (AVRL) of the A/D converter (both versions) ST320 Connects power supply (AVcc3) of the A/D converter (3V version) ST325 Connects high reference voltage (AVRH3) of the A/D converter (3V version) Jumper Setting Description SL300 (AVcc) ON (closed) AVcc is connected to MCU_Vcc OFF (open) AVcc is disconnected SL301 (AVss) ON (closed) AVss is connected to GND OFF (open) AVss is disconnected SL308 (AVRH) ON (closed) AVRH is connected to AVcc OFF (open) AVRH defined by resistor network *1 SL311 (AVRL) ON (closed) AVRL is connected to AVss OFF (open) AVRL defined by resistor network *1 ST320 (AVcc3) ON (closed) AVcc3 is connected to +3.3V OFF (open) AVcc3 is disconnected ST325 (AVRH3) ON (closed) AVRL is connected to AVss OFF (open) AVRL defined by resistor network *1 *1 By default the resistor network (R303, R304, R306, R307, R322, R223) is not mounted on the board Default: SL300, SL301, SL308 and SL311 are closed By default, the 5V A/D-converter is connected. Note: If SL300, SL301, or ST320 are open, the user has to supply an adequate analogue voltage supply (AVcc/AVcc3 and AVss) to the A/D-converter. If SL308 is open, the resistors R306 and R307 define AVRH. If SL311 is open, the resistors R303 and R304 define AVRL. If ST325 is open, the resistors R322 and R323 define AVRH3. By default the resistor network (R303, R304, R306, R307, R322, R223) is not mounted on the board. UG Fujitsu Microelectronics Europe GmbH

15 Chapter 3 Jumpers and Switches 3.4 UART0 / LIN0 (SL3049, ST3038, ST3039, ST3046, ST3047, ST3051, ST3059) The microcontroller UART channel 0 is dedicated to the Sub-D9 connector SL3049 in order to be used for UART or LIN communication ST3038 Some terminal programs needs a connection between CTS and RTS ST3039 A system reset can be generated by DTR or RTS ST3046, ST3047 connects UART0 to the RS232- or LIN transceiver ST3048 Selection between RS232 and LIN output ST3051 LIN0 is used as master ST3059 LIN0 is enabled Jumper Setting Description ST3038 ON (closed) RTS and CTS is shortcut on SL3049 (RTS-CTS) OFF (open) RTS and CTS is not shortcut on SL3049 ST DTR of UART0 will generate a system reset (DTR / RTS) 2-3 RTS of UART0 will generate a system reset ST SIN0 of MB91460 is connected to UART0/RXD (UART0, SIN0) 2-3 SIN0 of MB91460 is connected to LIN0/RXD ST SOT0 of MB91460 is connected to UART0/TXD (UART0, SOT0) 2-3 SOT0 of MB91460 is connected to LIN0/TXD ST The UART transceiver is connected to SL3049 (LIN0, UART0) 2-3 The LIN transceiver is connected to SL3049 ST3051 ON (closed) LIN0 Master-mode (LIN0 Master) OFF (open) LIN0 Slave-mode ST3059 ON (closed) LIN-transceiver is enabled (LIN0 Enable) OFF (open) LIN-transceiver is disabled Default: ST3038 = Closed ST3046 = 1-2 ST3047 = 1-2 ST3048 = 1-2 ST3039 = Open ST3051 = Open ST3059 = Open By default, UART0 is used for RS232 communication 3.5 LIN / UART A LIN / UART D (SL1000, SL1010, SL1030, SL1030) Four separate RS232 transceivers and four separate LIN transceivers are available to connect 4 out of 15 available on-chip UARTs to the 9-pin D-Sub connectors (SL1000, SL1010, SL1020 and SL1030). UART A UART B UART C UART D SOT UART1 UART2 UART3... UART15 LIN A LIN B LIN C LIN D A detailed jumper description for each UART interface can be found in the following. Fujitsu Microelectronics Europe GmbH UG SIN

16 Chapter 3 Jumpers and Switches UART A (SL1000, ST1300, ST1301, ST1303, ST1304, ST1007, ST1009) A RS232 transceiver can be connected to the microcontroller s UART channels UART channel 4 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST1300/ST1301 and ST1303/ST1304. ST1300 Pin 1 connects SOTx to the RS232 transceiver A. ST1301 Pins 1-15 are the outputs (SOTx) of the microcontroller s UART channel ST1303 Pin 1 connects SINx to the RS232 transceiver A. ST1304 Pins 1-15 are the inputs (SINx) of the microcontroller s UART channel ST1007 Some terminal-programs needs a connection between CTS and RTS ST1009 Selection between RS232 and LIN output Jumper Setting Description ST Pin 1 UART A is connected to SOT 1 ST Pin 2 UART A is connected to SOT 2 ST Pin 3 UART A is connected to SOT 3 ST Pin 4 UART A is connected to SOT 4 ST Pin 5 UART A is connected to SOT 5 ST Pin 6 UART A is connected to SOT 6 ST1300 Pin 1 ST Pin 7 UART A is connected to SOT 7 ST Pin 8 UART A is connected to SOT 8 UART A : SOT ST Pin 9 UART A is connected to SOT 9 ST Pin 10 UART A is connected to SOT 10 ST Pin 11 UART A is connected to SOT 11 ST Pin 12 UART A is connected to SOT 12 ST Pin 13 UART A is connected to SOT 13 ST Pin 14 UART A is connected to SOT 14 ST Pin 15 UART A is connected to SOT 15 ST Pin 1 UART A is connected to SIN 1 ST Pin 2 UART A is connected to SIN 2 ST Pin 3 UART A is connected to SIN 3 ST Pin 4 UART A is connected to SIN 4 ST Pin 5 UART A is connected to SIN 5 ST Pin 6 UART A is connected to SIN 6 ST1303 Pin 1 ST Pin 7 UART A is connected to SIN 7 ST Pin 8 UART A is connected to SIN 8 UART A : SIN ST Pin 9 UART A is connected to SIN 9 ST Pin 10 UART A is connected to SIN 10 ST Pin 11 UART A is connected to SIN 11 ST Pin 12 UART A is connected to SIN 12 ST Pin 13 UART A is connected to SIN 13 ST Pin 14 UART A is connected to SIN 14 ST Pin 15 UART A is connected to SIN 15 ST1007 ON (closed) RTS and CTS is shortcut on UART A / SL1000 UART A : RTS-CTS OFF (open) RTS and CTS is not shortcut ST LIN/UART A uses the RS232 output UART/LIN A 2-3 LIN/UART A uses the LIN output Default: ST = ST1301.4, ST = ST1304.4, ST1007 = ON, ST1009 = 1-2 By default, UART channel 4 is used as UART A. UG Fujitsu Microelectronics Europe GmbH

17 Chapter 3 Jumpers and Switches UART B (SL1010, ST1300, ST1301, ST1303, ST1304, ST1017, ST1019) A RS232 transceiver can be connected to the microcontroller s UART channels UART channel 5 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST1300/ST1301 and ST1303/ST1304. ST1300 Pin 2 connects SOTx to the RS232 transceiver B. ST1301 Pins 1-15 are the outputs (SOTx) of the microcontroller s UART channel ST1303 Pin 2 connects SINx to the RS232 transceiver B. ST1304 Pins 1-15 are the inputs (SINx) of the microcontroller s UART channel ST1017 Some terminal-programs needs a connection between CTS and RTS ST1019 Selection between RS232 and LIN output Jumper Setting Description ST Pin 1 UART B is connected to SOT 1 ST Pin 2 UART B is connected to SOT 2 ST Pin 3 UART B is connected to SOT 3 ST Pin 4 UART B is connected to SOT 4 ST Pin 5 UART B is connected to SOT 5 ST Pin 6 UART B is connected to SOT 6 ST1300 Pin 2 ST Pin 7 UART B is connected to SOT 7 ST Pin 8 UART B is connected to SOT 8 UART B : SOT ST Pin 9 UART B is connected to SOT 9 ST Pin 10 UART B is connected to SOT 10 ST Pin 11 UART B is connected to SOT 11 ST Pin 12 UART B is connected to SOT 12 ST Pin 13 UART B is connected to SOT 13 ST Pin 14 UART B is connected to SOT 14 ST Pin 15 UART B is connected to SOT 15 ST Pin 1 UART B is connected to SIN 1 ST Pin 2 UART B is connected to SIN 2 ST Pin 3 UART B is connected to SIN 3 ST Pin 4 UART B is connected to SIN 4 ST Pin 5 UART B is connected to SIN 5 ST Pin 6 UART B is connected to SIN 6 ST1303 Pin 2 ST Pin 7 UART B is connected to SIN 7 ST Pin 8 UART B is connected to SIN 8 UART B : SIN ST Pin 9 UART B is connected to SIN 9 ST Pin 10 UART B is connected to SIN 10 ST Pin 11 UART B is connected to SIN 11 ST Pin 12 UART B is connected to SIN 12 ST Pin 13 UART B is connected to SIN 13 ST Pin 14 UART B is connected to SIN 14 ST Pin 15 UART B is connected to SIN 15 ST1017 ON (closed) RTS and CTS is shortcut on UART B / SL1010 UART B : RTS-CTS OFF (open) RTS and CTS is not shortcut ST LIN/UART B uses the RS232 output UART/LIN B 2-3 LIN/UART B uses the LIN output Default: ST = ST1301.5, ST = ST1304.5, ST1017 = ON, ST1019 = 1-2 By default, UART channel 5 is used as UART B. Fujitsu Microelectronics Europe GmbH UG

18 Chapter 3 Jumpers and Switches UART C (SL1020, ST1300, ST1301, ST1303, ST1304, ST1027, ST1029) A RS232 transceiver can be connected to the microcontroller s UART channels UART channel 6 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST1300/ST1301 and ST1303/ST1304. ST1300 Pin 3 connects SOTx to the RS232 transceiver C. ST1301 Pins 1-15 are the outputs (SOTx) of the microcontroller s UART channel ST1303 Pin 3 connects SINx to the RS232 transceiver C. ST1304 Pins 1-15 are the inputs (SINx) of the microcontroller s UART channel ST1028 Some terminal-programs needs a connection between CTS and RTS ST1029 Selection between RS232 and LIN output Jumper Setting Description ST Pin 1 UART C is connected to SOT 1 ST Pin 2 UART C is connected to SOT 2 ST Pin 3 UART C is connected to SOT 3 ST Pin 4 UART C is connected to SOT 4 ST Pin 5 UART C is connected to SOT 5 ST Pin 6 UART C is connected to SOT 6 ST1300 Pin 3 ST Pin 7 UART C is connected to SOT 7 ST Pin 8 UART C is connected to SOT 8 UART C : SOT ST Pin 9 UART C is connected to SOT 9 ST Pin 10 UART C is connected to SOT 10 ST Pin 11 UART C is connected to SOT 11 ST Pin 12 UART C is connected to SOT 12 ST Pin 13 UART C is connected to SOT 13 ST Pin 14 UART C is connected to SOT 14 ST Pin 15 UART C is connected to SOT 15 ST Pin 1 UART C is connected to SIN 1 ST Pin 2 UART C is connected to SIN 2 ST Pin 3 UART C is connected to SIN 3 ST Pin 4 UART C is connected to SIN 4 ST Pin 5 UART C is connected to SIN 5 ST Pin 6 UART C is connected to SIN 6 ST1303 Pin 3 ST Pin 7 UART C is connected to SIN 7 ST Pin 8 UART C is connected to SIN 8 UART C : SIN ST Pin 9 UART C is connected to SIN 9 ST Pin 10 UART C is connected to SIN 10 ST Pin 11 UART C is connected to SIN 11 ST Pin 12 UART C is connected to SIN 12 ST Pin 13 UART C is connected to SIN 13 ST Pin 14 UART C is connected to SIN 14 ST Pin 15 UART C is connected to SIN 15 ST1028 ON (closed) RTS and CTS is shortcut on UART C / SL1020 UART C : RTS-CTS OFF (open) RTS and CTS is not shortcut ST LIN/UART C uses the RS232 output UART/LIN C 2-3 LIN/UART C uses the LIN output Default: ST = ST1301.6, ST = ST1304.6, ST1028 = ON, ST1029 = 1-2 By default, UART channel 6 is used as UART C. UG Fujitsu Microelectronics Europe GmbH

19 Chapter 3 Jumpers and Switches UART D (SL1030, ST1300, ST1301, ST1303, ST1304, ST1037, ST1039) A RS232 transceiver can be connected to the microcontroller s UART channels UART channel 7 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST1300/ST1301 and ST1303/ST1304. ST1300 Pin 4 connects SOTx to the RS232 transceiver D. ST1301 Pins 1-15 are the outputs (SOTx) of the microcontroller s UART channel ST1303 Pin 4 connects SINx to the RS232 transceiver D. ST1304 Pins 1-15 are the inputs (SINx) of the microcontroller s UART channel ST1037 Some terminal-programs needs a connection between CTS and RTS ST1039 Selection between RS232 and LIN output Jumper Setting Description ST Pin 1 UART D is connected to SOT 1 ST Pin 2 UART D is connected to SOT 2 ST Pin 3 UART D is connected to SOT 3 ST Pin 4 UART D is connected to SOT 4 ST Pin 5 UART D is connected to SOT 5 ST Pin 6 UART D is connected to SOT 6 ST1300 Pin 4 ST Pin 7 UART D is connected to SOT 7 ST Pin 8 UART D is connected to SOT 8 UART D : SOT ST Pin 9 UART D is connected to SOT 9 ST Pin 10 UART D is connected to SOT 10 ST Pin 11 UART D is connected to SOT 11 ST Pin 12 UART D is connected to SOT 12 ST Pin 13 UART D is connected to SOT 13 ST Pin 14 UART D is connected to SOT 14 ST Pin 15 UART D is connected to SOT 15 ST Pin 1 UART D is connected to SIN 1 ST Pin 2 UART D is connected to SIN 2 ST Pin 3 UART D is connected to SIN 3 ST Pin 4 UART D is connected to SIN 4 ST Pin 5 UART D is connected to SIN 5 ST Pin 6 UART D is connected to SIN 6 ST1303 Pin 4 ST Pin 7 UART D is connected to SIN 7 ST Pin 8 UART D is connected to SIN 8 UART D : SIN ST Pin 9 UART D is connected to SIN 9 ST Pin 10 UART D is connected to SIN 10 ST Pin 11 UART D is connected to SIN 11 ST Pin 12 UART D is connected to SIN 12 ST Pin 13 UART D is connected to SIN 13 ST Pin 14 UART D is connected to SIN 14 ST Pin 15 UART D is connected to SIN 15 ST1037 ON (closed) RTS and CTS is shortcut on UART D / SL1000 UART D : RTS-CTS OFF (open) RTS and CTS is not shortcut ST LIN/UART D uses the RS232 output UART/LIN D 2-3 LIN/UART D uses the LIN output Default: ST = ST1301.7, ST = ST1304.7, ST1037 = ON, ST1039 = 1-2 By default, UART channel 7 is used as UART D. Fujitsu Microelectronics Europe GmbH UG

20 Chapter 3 Jumpers and Switches LIN A (SL1000, ST , ST , ST1019, ST ) A LIN transceiver can be connected to the microcontroller s UART channels UART channel 4 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST1301/ST1302 and ST1304/ST1305. ST1301 Pins 1-15 are the outputs (SOTx) of the microcontroller s UART channel ST1302 Pin 1 connects SOTx to the LIN transceiver A. ST1304 Pins 1-15 are the inputs (SINx) of the microcontroller s UART channel ST1305 Pin 1 connects SINx to the LIN transceiver A. ST1112 LIN A is used as master ST1113 LIN A is enabled Jumper Setting Description ST Pin 1 LIN A is connected to SOT 1 ST Pin 2 LIN A is connected to SOT 2 ST Pin 3 LIN A is connected to SOT 3 ST Pin 4 LIN A is connected to SOT 4 ST Pin 5 LIN A is connected to SOT 5 ST Pin 6 LIN A is connected to SOT 6 ST1302 Pin 1 ST Pin 7 LIN A is connected to SOT 7 ST Pin 8 LIN A is connected to SOT 8 LIN A : SOT ST Pin 9 LIN A is connected to SOT 9 ST Pin 10 LIN A is connected to SOT 10 ST Pin 11 LIN A is connected to SOT 11 ST Pin 12 LIN A is connected to SOT 12 ST Pin 13 LIN A is connected to SOT 13 ST Pin 14 LIN A is connected to SOT 14 ST Pin 15 LIN A is connected to SOT 15 ST Pin 1 LIN A is connected to SIN 1 ST Pin 2 LIN A is connected to SIN 2 ST Pin 3 LIN A is connected to SIN 3 ST Pin 4 LIN A is connected to SIN 4 ST Pin 5 LIN A is connected to SIN 5 ST Pin 6 LIN A is connected to SIN 6 ST1305 Pin 1 ST Pin 7 LIN A is connected to SIN 7 ST Pin 8 LIN A is connected to SIN 8 LIN A : SIN ST Pin 9 LIN A is connected to SIN 9 ST Pin 10 LIN A is connected to SIN 10 ST Pin 11 LIN A is connected to SIN 11 ST Pin 12 LIN A is connected to SIN 12 ST Pin 13 LIN A is connected to SIN 13 ST Pin 14 LIN A is connected to SIN 14 ST Pin 15 LIN A is connected to SIN 15 ST LIN/UART A uses the RS232 output UART/LIN A 2-3 LIN/UART A uses the LIN output ST1112 ON (closed) LIN A Master-mode (LIN A Master) OFF (open) LIN A Slave-mode ST1113 ON (closed) LIN A transceiver is enabled (LIN A Enable) OFF (open) LIN A transceiver is disabled By default, the LIN A -interface is not connected to an UART. UG Fujitsu Microelectronics Europe GmbH

21 Chapter 3 Jumpers and Switches LIN B (SL1010, ST , ST , ST1019, ST ) A LIN transceiver can be connected to the microcontroller s UART channels UART channel 5 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST1301/ST1302 and ST1304/ST1305. ST1301 Pins 1-15 are the outputs (SOTx) of the microcontroller s UART channel ST1302 Pin 2 connects SOTx to the LIN transceiver B. ST1304 Pins 1-15 are the inputs (SINx) of the microcontroller s UART channel ST1305 Pin 2 connects SINx to the LIN transceiver B. ST1161 LIN B is used as master ST1162 LIN B is enabled Jumper Setting Description ST Pin 1 LIN B is connected to SOT 1 ST Pin 2 LIN B is connected to SOT 2 ST Pin 3 LIN B is connected to SOT 3 ST Pin 4 LIN B is connected to SOT 4 ST Pin 5 LIN B is connected to SOT 5 ST Pin 6 LIN B is connected to SOT 6 ST1302 Pin 2 ST Pin 7 LIN B is connected to SOT 7 ST Pin 8 LIN B is connected to SOT 8 LIN B : SOT ST Pin 9 LIN B is connected to SOT 9 ST Pin 10 LIN B is connected to SOT 10 ST Pin 11 LIN B is connected to SOT 11 ST Pin 12 LIN B is connected to SOT 12 ST Pin 13 LIN B is connected to SOT 13 ST Pin 14 LIN B is connected to SOT 14 ST Pin 15 LIN B is connected to SOT 15 ST Pin 1 LIN B is connected to SIN 1 ST Pin 2 LIN B is connected to SIN 2 ST Pin 3 LIN B is connected to SIN 3 ST Pin 4 LIN B is connected to SIN 4 ST Pin 5 LIN B is connected to SIN 5 ST Pin 6 LIN B is connected to SIN 6 ST1305 Pin 2 ST Pin 7 LIN B is connected to SIN 7 ST Pin 8 LIN B is connected to SIN 8 LIN B : SIN ST Pin 9 LIN B is connected to SIN 9 ST Pin 10 LIN B is connected to SIN 10 ST Pin 11 LIN B is connected to SIN 11 ST Pin 12 LIN B is connected to SIN 12 ST Pin 13 LIN B is connected to SIN 13 ST Pin 14 LIN B is connected to SIN 14 ST Pin 15 LIN B is connected to SIN 15 ST LIN/UART B uses the RS232 output UART/LIN B 2-3 LIN/UART B uses the LIN output ST1161 ON (closed) LIN B Master-mode (LIN B Master) OFF (open) LIN B Slave-mode ST1162 ON (closed) LIN B transceiver is enabled (LIN B Enable) OFF (open) LIN B transceiver is disabled By default, the LIN B -interface is not connected to an UART. Fujitsu Microelectronics Europe GmbH UG

22 Chapter 3 Jumpers and Switches LIN C (SL1020, ST , ST , ST1029, ST ) A LIN transceiver can be connected to the microcontroller s UART channels UART channel 6 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST1301/ST1302 and ST1304/ST1305. ST1301 Pins 1-15 are the outputs (SOTx) of the microcontroller s UART channel ST1302 Pin 3 connects SOTx to the LIN transceiver C. ST1304 Pins 1-15 are the inputs (SINx) of the microcontroller s UART channel ST1305 Pin 3 connects SINx to the LIN transceiver C. ST1211 LIN C is used as master ST1212 LIN C is enabled Jumper Setting Description ST Pin 1 LIN C is connected to SOT 1 ST Pin 2 LIN C is connected to SOT 2 ST Pin 3 LIN C is connected to SOT 3 ST Pin 4 LIN C is connected to SOT 4 ST Pin 5 LIN C is connected to SOT 5 ST Pin 6 LIN C is connected to SOT 6 ST1302 Pin 3 ST Pin 7 LIN C is connected to SOT 7 ST Pin 8 LIN C is connected to SOT 8 LIN C : SOT ST Pin 9 LIN C is connected to SOT 9 ST Pin 10 LIN C is connected to SOT 10 ST Pin 11 LIN C is connected to SOT 11 ST Pin 12 LIN C is connected to SOT 12 ST Pin 13 LIN C is connected to SOT 13 ST Pin 14 LIN C is connected to SOT 14 ST Pin 15 LIN C is connected to SOT 15 ST Pin 1 LIN C is connected to SIN 1 ST Pin 2 LIN C is connected to SIN 2 ST Pin 3 LIN C is connected to SIN 3 ST Pin 4 LIN C is connected to SIN 4 ST Pin 5 LIN C is connected to SIN 5 ST Pin 6 LIN C is connected to SIN 6 ST1305 Pin 3 ST Pin 7 LIN C is connected to SIN 7 ST Pin 8 LIN C is connected to SIN 8 LIN C : SIN ST Pin 9 LIN C is connected to SIN 9 ST Pin 10 LIN C is connected to SIN 10 ST Pin 11 LIN C is connected to SIN 11 ST Pin 12 LIN C is connected to SIN 12 ST Pin 13 LIN C is connected to SIN 13 ST Pin 14 LIN C is connected to SIN 14 ST Pin 15 LIN C is connected to SIN 15 ST LIN/UART C uses the RS232 output UART/LIN C 2-3 LIN/UART C uses the LIN output ST1211 ON (closed) LIN C Master-mode (LIN C Master) OFF (open) LIN C Slave-mode ST1212 ON (closed) LIN C transceiver is enabled (LIN C Enable) OFF (open) LIN C transceiver is disabled By default, the LIN C -interface is not connected to an UART. UG Fujitsu Microelectronics Europe GmbH

23 Chapter 3 Jumpers and Switches LIN D (SL1030, ST , ST , ST1039, ST ) A LIN transceiver can be connected to the microcontroller s UART channels UART channel 7 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST1301/ST1302 and ST1304/ST1305. ST1301 Pins 1-15 are the outputs (SOTx) of the microcontroller s UART channel ST1302 Pin 4 connects SOTx to the LIN transceiver D. ST1304 Pins 1-15 are the inputs (SINx) of the microcontroller s UART channel ST1305 Pin 4 connects SINx to the LIN transceiver D. ST1261 LIN A is used as master ST1262 LIN A is enabled Jumper Setting Description ST Pin 1 LIN D is connected to SOT 1 ST Pin 2 LIN D is connected to SOT 2 ST Pin 3 LIN D is connected to SOT 3 ST Pin 4 LIN D is connected to SOT 4 ST Pin 5 LIN D is connected to SOT 5 ST Pin 6 LIN D is connected to SOT 6 ST1302 Pin 4 ST Pin 7 LIN D is connected to SOT 7 ST Pin 8 LIN D is connected to SOT 8 LIN D : SOT ST Pin 9 LIN D is connected to SOT 9 ST Pin 10 LIN D is connected to SOT 10 ST Pin 11 LIN D is connected to SOT 11 ST Pin 12 LIN D is connected to SOT 12 ST Pin 13 LIN D is connected to SOT 13 ST Pin 14 LIN D is connected to SOT 14 ST Pin 15 LIN D is connected to SOT 15 ST Pin 1 LIN D is connected to SIN 1 ST Pin 2 LIN D is connected to SIN 2 ST Pin 3 LIN D is connected to SIN 3 ST Pin 4 LIN D is connected to SIN 4 ST Pin 5 LIN D is connected to SIN 5 ST Pin 6 LIN D is connected to SIN 6 ST1305 Pin 4 ST Pin 7 LIN D is connected to SIN 7 ST Pin 8 LIN D is connected to SIN 8 LIN D : SIN ST Pin 9 LIN D is connected to SIN 9 ST Pin 10 LIN D is connected to SIN 10 ST Pin 11 LIN D is connected to SIN 11 ST Pin 12 LIN D is connected to SIN 12 ST Pin 13 LIN D is connected to SIN 13 ST Pin 14 LIN D is connected to SIN 14 ST Pin 15 LIN D is connected to SIN 15 ST LIN/UART D uses the RS232 output UART/LIN D 2-3 LIN/UART D uses the LIN output ST1261 ON (closed) LIN D Master-mode (LIN D Master) OFF (open) LIN D Slave-mode ST1262 ON (closed) LIN D transceiver is enabled LIN D Enable) OFF (open) LIN D transceiver is disabled By default, the LIN D -interface is not connected to an UART. Fujitsu Microelectronics Europe GmbH UG

24 Chapter 3 Jumpers and Switches 3.6 CAN A CAN C (SL3005, SL3015, SL3025, ST3030/1, ST3040/1) Three high-speed CAN-transceivers (PCA82C250) are available to connect 3 out of 6 available on-chip CANs to 9-pin D-Sub connectors (SL3005, SL3015 and SL3025). A detailed jumper description for each CAN interface can be found in the following CAN A (SL3005, ST , ST ) A high-speed CAN-transceiver can be connected to the microcontroller s CAN channels 0 to 5. CAN channel 3 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST3030/ST3031 and ST3040/ST3041. ST3030 Pin 1 connects TXx to the CAN transceiver A. ST3031 Pins 1-6 are the outputs (TXx) of the microcontroller s CAN channel 0-5. ST3040 Pin 1 connects RXx to the CAN transceiver A. ST3041 Pins 1-6 are the inputs (RXx) of the microcontroller s CAN channel 0-5. Jumper Setting Description ST Pin 1 CAN A is connected to TX 0 ST3030 Pin 1 ST Pin 2 CAN A is connected to TX 1 ST Pin 3 CAN A is connected to TX 2 CAN A : TX ST Pin 4 CAN A is connected to TX 3 ST Pin 5 CAN A is connected to TX 4 ST Pin 6 CAN A is connected to TX 5 ST Pin 1 CAN A is connected to RX 0 ST3040 Pin 1 ST Pin 2 CAN A is connected to RX 1 ST Pin 3 CAN A is connected to RX 2 CAN A : RX ST Pin 4 CAN A is connected to RX 3 ST Pin 5 CAN A is connected to RX 4 ST Pin 6 CAN A is connected to RX 5 Default: ST = ST3031.1, ST = ST By default, CAN channel 0 is used as CAN A. UG Fujitsu Microelectronics Europe GmbH

25 Chapter 3 Jumpers and Switches CAN B (SL3015, ST , ST ) A high-speed CAN-transceiver can be connected to the microcontroller s CAN channels 0 to 5. CAN channel 4 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST3030/ST3031 and ST3040/ST3041. ST3030 Pin 2 connects TXx to the CAN transceiver B. ST3031 Pins 1-6 are the outputs (TXx) of the microcontroller s CAN channel 0-5. ST3040 Pin 2 connects RXx to the CAN transceiver B. ST3041 Pins 1-6 are the inputs (RXx) of the microcontroller s CAN channel 0-5. Jumper Setting Description ST Pin 1 CAN B is connected to TX 0 ST3030 Pin 2 ST Pin 2 CAN B is connected to TX 1 ST Pin 3 CAN B is connected to TX 2 CAN B : TX ST Pin 4 CAN B is connected to TX 3 ST Pin 5 CAN B is connected to TX 4 ST Pin 6 CAN B is connected to TX 5 ST Pin 1 CAN B is connected to RX 0 ST3040 Pin 2 ST Pin 2 CAN B is connected to RX 1 ST Pin 3 CAN B is connected to RX 2 CAN B : RX ST Pin 4 CAN B is connected to RX 3 ST Pin 5 CAN B is connected to RX 4 ST Pin 6 CAN B is connected to RX 5 Default: ST = ST3031.2, ST = ST By default, CAN channel 1 is used as CAN B. Fujitsu Microelectronics Europe GmbH UG

26 Chapter 3 Jumpers and Switches CAN C (SL3025, ST , ST ) A high-speed CAN-transceiver can be connected to the microcontroller s CAN channels 0 to 5. CAN channel 6 can be assigned directly by jumpers. All other channels have to be hand wired between the headers ST3030/ST3031 and ST3040/ST3041. ST3030 Pin 3 connects TXx to the CAN transceiver C. ST3031 Pins 1-6 are the outputs (TXx) of the microcontroller s CAN channel 0-5. ST3040 Pin 3 connects RXx to the CAN transceiver C. ST3041 Pins 1-6 are the inputs (RXx) of the microcontroller s CAN channel 0-5. Jumper Setting Description ST Pin 1 CAN C is connected to TX 0 ST3030 Pin 3 ST Pin 2 CAN C is connected to TX 1 ST Pin 3 CAN C is connected to TX 2 CAN C : TX ST Pin 4 CAN C is connected to TX 3 ST Pin 5 CAN C is connected to TX 4 ST Pin 6 CAN C is connected to TX 5 ST Pin 1 CAN C is connected to RX 0 ST3040 Pin 3 ST Pin 2 CAN C is connected to RX 1 ST Pin 3 CAN C is connected to RX 2 CAN C : RX ST Pin 4 CAN C is connected to RX 3 ST Pin 5 CAN C is connected to RX 4 ST Pin 6 CAN C is connected to RX 5 Default: ST = ST3031.3, ST = ST By default, CAN channel 2 is used as CAN C. UG Fujitsu Microelectronics Europe GmbH

27 Chapter 3 Jumpers and Switches 3.7 Reset-Generation (ST474, ST , ST3039, LD481) A system reset can be generated by an external Reset-circuit (Voltage-Monitor) and by UART0, too. ST474 This jumper selects whether a 5V or 3V3 system reset is required. ST482 Connect system-reset to INITX ST483 Connect system-reset to RSTX ST3039 Selects the DTR- or RTS-Line of UART0 to generate a system-reset. Jumper Setting Description ST474 Closed Reset for 3,3V system (Reset 3V3) Open Reset for 5V system ST Reset is connected to INITX (INITX) 2-3 Pull up resistor is connected to INITX ST Reset is connected to RSTX (RSTX) 2-3 Pull up resistor is connected to RSTX ST DTR of UART0 will generate a system reset (DTR / RTS) 2-3 RTS of UART0 will generate a system reset Default: ST474 = open, ST482 = 2-3, ST483 = 1-2, ST3039 = open By default, the external Reset generation for 5V systems is activated for RSTX. The Reset by UART is disabled. Note: While a reset signal is asserted the red Reset-LED LD481 is lit. During normal operation, this LED should be off! If the reset LED is steadily on, check the power supply input voltage and the settings for the reset-generation by UART. Fujitsu Microelectronics Europe GmbH UG

28 Chapter 3 Jumpers and Switches 3.8 Push Buttons INT0, INT1, INT2, INT13, NMI (S , S470, ST ) Five user push buttons can be connected to the microcontroller. ST Connect the user push buttons S142-S146 to the microcontroller. ST482 Connect system-reset to INITX ST483 Connect system-reset to RSTX Jumper Setting Description ST430 Closed Button INT0 (S142) is connected to the microcontroller (S142, INT0) Open No connection to the microcontroller ST431 Closed Button INT1 (S143) is connected to the microcontroller (S143, INT1) Open No connection to the microcontroller ST432 Closed Button INT2 (S144) is connected to the microcontroller (S144, INT2) Open No connection to the microcontroller ST433 Closed Button INT13 (S145) is connected to the microcontroller (S145, INT13) Open No connection to the microcontroller ST434 Closed Button NMI (S146) is connected to the microcontroller (S146, NMI) Open No connection to the microcontroller ST Reset is connected to INITX (INITX) 2-3 Pull up resistor is connected to INITX ST Reset is connected to RSTX (RSTX) 2-3 Pull up resistor is connected to RSTX Default: ST430-ST434 = Closed, ST482 = 2-3, ST483 = 1-2 By default, all push buttons are connected to the microcontroller. UG Fujitsu Microelectronics Europe GmbH

29 Chapter 3 Jumpers and Switches 3.9 Level Shifter (ST15xx, ST162x, ST163x) The evaluation board can be adapted to 3V or 5V systems by the on board Level-Shifters. The target side, meaning the on-board memory and external bus interface, is fixed to 3.3V. ST1506 Direction of signals A8-A15. ST1507 Direction of signals A0-A7. ST1509 Defines the microcontroller bus interface to the microcontroller (3.3V or 5V). ST1516 Direction of signals A24-A31. ST1517 Direction of signals A16-A23. ST1526 Direction of signals D8-D15. ST1527 Direction of signals D0-D7. ST1536 Direction of signals D24-D31. ST1537 Direction of signals D16-D23. ST1546 Direction of signal group: DEOTX0-3, DREQ0-3, RDY and BRQ. ST1547 Direction of signal group: DEOP0-3, DACKX0-3. ST1556 Direction of signal group: P117-P117, IORDX and IOWRX. ST1557 Direction of signal group: P107, MCLKE, BAAX and ASX. ST1566 Direction of signal group: CSX0-7. ST1567 Direction of signal group: WRX0-3 and BGRNTX. ST1590 Connect DEOP0. ST1591 Connect DACKX0. ST1592 Select DREQ2 or DREQ3. ST1593 Select DEOTX2 or DEOTX3. ST1597 Select DACKX2 or DACKX3. ST1598 Select DEOP2 or DEOP3. ST1620/8 Connect signals P107, P , IORDX and IOWRX to the microcontr. system. ST1630/8 Connect signals P107, P , IORDX and IOWRX to the target system. Jumper Setting Description ST1506 Closed Set direction A8-A15 from target to microcontroller (A8-A15) Open Set direction A8-A15 from microcontroller to target ST1507 Closed Set direction A0-A7 from target to microcontroller (A0-A7) Open Set direction A0-A7 from microcontroller to target ST V microcontroller bus interface is used (3.3V/5V) V microcontroller bus interface is used ST1516 Closed Set direction A24-A31 from target to microcontroller (A24-A31) Open Set direction A24-A31 from microcontroller to target ST1517 Closed Set direction A16-A23 from target to microcontroller (A16-A23) Open Set direction A16-A23 from microcontroller to target 1-2 Set direction D8-D15 from target to microcontroller ST1526 (D8-D15) 2-3 Direction D8-D15 depends on microcontroller R/W access Open Set direction D8-D15 from microcontroller to target ST1527 (D0-D7) 1-2 Set direction D0-D7 from target to microcontroller 2-3 Direction D0-D7 depends on microcontroller R/W access Open Set direction D0-D7 from microcontroller to target Fujitsu Microelectronics Europe GmbH UG