Fujitsu MB88121 SERIES, MB91460 SERIES manual CAN0 CAN2, LIN / RS-232 Uart, CAN-MCU connection

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SK-91F467-FLEXRAY V1.1

Jumpers and Switches

3.7CAN0 – CAN2

Three high-speed CAN-transceivers (PCA82C250) are on-board to connect all available on- chip CAN to 9-pin D-Sub connectors (X9, X10 and X11).

JP82 Connects MCU RX0 to CAN transceiver U15 JP83 Connects MCU TX0 to CAN transceiver U15 JP87 Connects MCU RX1 to CAN transceiver U18 JP88 Connects MCU TX1 to CAN transceiver U18 JP89 Connects MCU RX2 to CAN transceiver U19 JP90 Connects MCU TX2 to CAN transceiver U19

	Jumper		Setting		Description
	JP82		ON (closed)		CAN0 RxD connected to MCU
	JP82		OFF (open)		No connection to the microcontroller
			OFF (open)		No connection to the microcontroller
	JP83		ON (closed)		CAN0 TxD connected to MCU
	JP83		OFF (open)		No connection to the microcontroller
			OFF (open)		No connection to the microcontroller
	JP87		ON (closed)		CAN1 RxD connected to MCU
	JP87		OFF (open)		No connection to the microcontroller
			OFF (open)		No connection to the microcontroller
	JP88		ON (closed)		CAN1 TxD connected to MCU
	JP88		OFF (open)		No connection to the microcontroller
			OFF (open)		No connection to the microcontroller
	JP89		ON (closed)		CAN2 RxD connected to MCU
	JP89		OFF (open)		No connection to the microcontroller
			OFF (open)		No connection to the microcontroller
	JP90		ON (closed)		CAN2 TxD connected to MCU
	JP90		OFF (open)		No connection to the microcontroller
			OFF (open)		No connection to the microcontroller

Default: grey

Table 3-15: CAN-MCU connection

3.8LIN / RS-232 UART

There are three UART connectors X1, X4 and X8 (9-pin D-Sub) on-board, which can be used for RS-232 or LIN communication (to get information in detail about pin usage, please refer to chapter 4.2 UART / LIN Connector (X1, X4, X8)). The LIN transceiver needs to be configured as LIN-master or LIN-slave.

© Fujitsu Microelectronics Europe GmbH

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FMEMCU-UG-910017-11

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Contents MB88121 Series MB91460 Series Revision History Date IssueNo Liability for Consequential Damages Warranty and DisclaimerContents Connectors Trouble Shooting SILK-PLOT of the Board Abstract IntroductionFeatures General Description MCU Clocks MCU Operating ModeExternal Bus interface Connectors On Board MemoryUser LEDs and optional LCD MCU PinsPower Supply User ButtonsAC plug adapter InstallationStarter kit status after power on Jumper Description / Function Type Default Jumper SettingsUART4 RTS CTS Jumper settingsJumper Location Default Jumper SettingsSoftune Workbench start menu location Software Installation Installation of Softune WorkbenchSoftune Workbench V6 IDE MCU Operating-Mode S5 Jumpers and SwitchesDIP switch Setting Logical value MCU Operating ModeFlexRay CC Operating-Mode S2 FlexRay CC Operating ModeFlexRay CC SPI Settings FlexRay CC SPI Settings S1Power supply configurations Switch Setting DescriptionPower Switch Jumper Setting DescriptionRegulator Test point Voltage Voltage Test PointsMCU Analogue Power Supply Voltage MCU Power Supply VoltageMCU Power Supply SK-91F467-FLEXRAY MCU ADC Supply FlexRay CC Power Supply Voltage at SK-91F467-FLEXRAYFlexRay CC Supply JP7 MCU-FlexRay CC Connection at SK-91F467-FLEXRAY10 MCU-FlexRay CC Connection Channel aChannel B 11 FlexRay CH-A Configuration12 FlexRay CH-B Configuration 13 FT1080 Control Settings 3 FT1080 Control Settings S614 FT1080 Connection to MCU LIN / RS-232 Uart CAN0 CAN215 CAN-MCU connection Uart 16 UART2 SettingsUart 4 Flash programming 17 UART4 Settings18 UART5 Settings DIP switch Setting Description User DIP Switch 8 Bit S4User Push Buttons INT0, INT1, INT2 and ICU0/TIN0 22 Reset Connections Reset Generation23 Supply Monitor Settings By default the Uart reset is disabled 24 Reset Uart SelectionPin Number Pin Signal Description ConnectorsPower Connector Uart / LIN Connector X1, X4FlexRay Connector Signals Can Connector X9, X10FlexRay Connector X2 Can Connector SignalsFlexRay Physical Layer Modules FlexRay Physical Layer Module Connector X3USER-LEDs and optional LC-Display D1-D16, J6 LED/LCD SignalsConnector MCU Pins In-Circuit-Programming ConnectorMCU Pin Connectors J1-J4 In-Circuit Programming ConnectorVG96 X13 Signals External Bus Connectors X13, X14 4.9.1 VG96ABC DIN 41612VG48 X14 Signals Distance between VG-Connectors2 VG48ABC DIN 41612 Softune Workbench main window Introduction to Softune WorkbenchSK-91F467-FLEXRAY Getting Started Edit myapplication.prj Project Start-upCreate a New Project Enter the folder myapplicationOpen Softune Workbench workspace *.wsp Select Active Configuration Mondebug Use Active Configuration MondebuginternalSoftune Workbench Linker Mapping Start Softune Monitor Debugger via the Debug Command Use Active configuration StandaloneGeneral Description Softune Workbench Monitor DebuggerUser LEDs U1, MCU MB91F467DA DIP switch S5, default all OFFSWB debugging window Basic Debugger Features Use the button INT0 on the SK-91F467-xxx for Abort function Advanced Monitor Debugger FeaturesExample SK-91F467-FLEXRAY Getting Started Memory Map of Softune Workbench Monitor debugger Memory Configuration for User ApplicationsMemory Type Used for Areas Sections 0x0080.0000 0x009F.FFFF Checklist for project configurationProgramming internal Flash of MB91F467DA series Flash ProgrammingFMEMCU-UG-910017-11 Fujitsu Microelectronics Europe GmbH FME Flash Programmer output message window Trouble shooting Trouble shootingTop Side Silk-Plot of the BoardBoard Layout Bottom Side Bottom SideSK-91F467-FLEXRAY PCB HistoryHistory PCB Related Products AppendixInformation on the WWW Tables Trouble shooting History PCB Figures Usart Abbreviations