UM0488 User manual. STM3210E-EVAL evaluation board. Introduction. Features. Demonstration software. Order code

Transcription

1 UM088 User manual STM0E-EVAL evaluation board Introduction Figure. STM0E-EVAL evaluation board The STMF0Z evaluation board STM0E- EVAL is designed as a complete development platform for STMicroelectronic's ARM Cortex-M core-based STMF0Z microcontroller with full speed USB.0, CAN.0A/B compliant interface, two I S channels, two I C channels, five USART channels with smartcard support, three SPI channels, two DAC channels, FSMC interface, SDIO, internal KB SRAM and KB Flash, JTAG and SWD debugging support. The full range of hardware features on the board is intended to help you evaluate all peripherals (USB, motor control, CAN, MicroSD card, smartcard, USART, NOR Flash, NAND flash, SRAM) and develop your own applications. Extension headers make it possible to easily connect a daughter board or wrapping board for your specific application. Features Three V power supply options: power jack, USB connector or daughter board Boot from user Flash, system memory or SRAM I S Audio DAC, stereo audio jack 8 Mbyte MicroSD card Both A and B type smartcard support or 8 Mbit serial Flash, Kx SRAM, Mbit or Gbit NAND Flash and 8 Mbit NOR Flash I C/SMBus compatible serial interface temperature sensor Two RS channels with RTS/CTS handshake support on one channel IrDA transceiver USB.0 full speed connection CAN.0A/B compliant connection Inductor motor control connector JTAG and trace debug support 0x0 TFT color LCD Joystick with -direction control and selector Reset, wakeup, tamper and user buttons color LEDs RTC with backup battery Demonstration software To use the STM0E-EVAL evaluation board, you must have the demonstration software version. or later. If the version installed on your evaluation board is earlier than version., you must download the latest version from Order code To order the STMF0Z evaluation board, use the order code STM0E-EVAL. June 008 Rev /8 8

2 Contents UM088 Contents Hardware layout and configuration Power supply Boot option Clock source Reset source Audio Serial Flash CAN RS connectors Motor control Smartcard MicroSD card Temperature sensor Analog input IrDA USB Development and debug support Display and input devices SRAM NAND Flash NOR Flash Connectors Motor control connector CN Analog input connectors CN, CN and CN CAN D-type 9-pin male connector CN QST connector CN Trace debugging connector CN RS connector CN8 with RTS/CTS handshake support JTAG debugging connector CN Daughter board extension connectors CN0 and CN /8

3 UM088 Contents.9 RS connector CN MicroSD connector CN USB type B connector CN Audio jack CN TFT LCD connector CN Power connector CN Smartcard connector CN Schematic diagrams Appendix A STM0E-EVAL IO assignment Revision history /8

4 Hardware layout and configuration UM088 Hardware layout and configuration The STM0E-EVAL evaluation board is designed around the STMF0Z microcontroller in a -pin TQFP package. The hardware block diagram Figure illustrates the connection between the STMF0Z and peripherals (LCD, SPI Flash, USART, IrDA, USB, audio, CAN bus, smartcard, MicroSD card, NOR Flash, NAND Flash, SRAM, temperature sensor, audio DAC and motor control) and Figure will help you locate these features on the actual evaluation board. Figure. Hardware block diagram /8

5 UM088 Hardware layout and configuration Figure. STM0E-EVAL evaluation board layout CN0 Extension connector U STMF0Z CN Motor control CN Extension connector CN,, BNC CN CAN connector CN QST CN USB CN8 USART CN7 Trace CN9 JTAG U7 Color LCD CN USART CN MicroSD card CN Audio jack CN7 V power U IrDA RV Potentiometer B RESET B WAKEUP CN8 Smartcard B Tamper U9 Joystick B User key /8

6 Hardware layout and configuration UM088. Power supply The STM0E-EVAL evaluation board is designed to be powered by V DC power supply and to be protected by PolyZen U in the event of wrong power plug-in. It is possible to configure the evaluation board to use any of following three sources for the power supply: V DC power adapter connected to CN7, the power jack on the board (PSU on silk screen for power supply unit). V DC power with 00 ma limitation from CN, the type-b USB connector (USB on silkscreen). V DC power from both CN0 and CN, the extension connector for daughter board (DTB for daughter board on silkscreen). The power supply is configured by setting the related jumpers JP, JP and JP as described in Table. Table. Power related jumpers Jumper Description JP is used to select one of the three possible power supply resources. For power supply jack(cn7) to the STM0E-EVAL only, JP is set as shown (default setting). PSU DTB USB For power supply from the daughter board connectors(cn0 and CN) to STM0E-EVAL only, JP is set as shown. PSU DTB USB JP For power supply from USB (CN) to STM0E-EVAL only, JP is set as shown. PSU DTB USB For power supply from power supply jack(cn7) to both STM0E-EVAL and daughter board connected on CN0 and CN, JP is set as shown (daughter board must not have its own power supply connected). PSU DTB USB JP Enables consumption measurements of both VDD and VDDA. Default setting: Fitted V bat is connected to.v power when JP is set as shown (default setting). JP V bat is connected to battery when JP is set as shown. The LED LD is lit when the STM0E-EVAL evaluation board is powered correctly. /8

7 UM088 Hardware layout and configuration. Boot option The STM0E-EVAL evaluation board can boot from: Embedded User Flash System memory with boot loader for ISP Embedded SRAM for debugging The boot option is configured by setting the switches BOOT0 and BOOT. Table. Boot related switches Switch Boot from Switch configuration STM0E-EVAL boots from User Flash when BOOT0 is set as shown to the right. BOOT is not required in this configuration. (Default setting) Boot 0 0 < > BOOT0 BOOT STM0E-EVAL boot from Embedded SRAM when BOOT0 and BOOT are set as shown to the right. Boot 0 Boot 0 < > STM0E-EVAL boot from System Memory when BOOT0 and BOOT are set as shown to the right. Boot 0 Boot 0 < >. Clock source Two clock sources are available on STM0E-EVAL evaluation board for STMF0 and RTC. X, KHz crystal for embedded RTC X, 8MHz crystal with socket for STMF0Z microcontroller, it can be removed from socket when internal RC clock is used.. Reset source The reset signal of STM0E-EVAL evaluation board is low active and the reset sources include: Reset button B Debugging Tools from JTAG connector CN7 and Trace connector CN9 Daughter board from CN 7/8

8 Hardware layout and configuration UM088 Table. Jumper Reset related jumper Description JP9 Enables reset of the STMF0Z embedded JTAG TAP controller each time a system reset occurs. JP9 connects the TRST signal from the JTAG connection with the system reset signal RESET#. Default setting: not fitted. Audio The STM0E-EVAL evaluation board supports stereo audio play because it provides an audio DAC AK connected to both I S port and two channels of DAC of microcontroller STMF0Z. Either external slave mode or PLL slave mode (reference clock BICK or LRCK) of audio DAC can be used by setting the jumper JP8. The IS_MCK is multiplexed with smartcard and motor control, and can be enabled by setting the jumper JP. Refer to Section.9: Motor control for details. Audio DAC AK is in power-down mode when PDN pin is pulled-down by PG. Table. Jumper Audio related jumpers Description External slave mode (MCK from STMF0Z) is selected when JP8 is set as shown (default setting). JP8 PLL slave mode (reference clock BICK or LRCK) is selected when JP8 is set as shown.. Serial Flash A or 8 Mbit serial Flash connected to SPIof STMF0Z, serial Flash chip select is managed by IO pin PB. The SPI_MISO is multiplexed with motor control, it can be enabled by setting the jumper JP. Refer to Section.9: Motor control for details..7 CAN STM0E-EVAL evaluation board supports CAN.0A/B compliant CAN bus communication based on.v CAN transceiver. The high-speed mode, standby mode and slope control mode are available and can be selected by setting JP8. 8/8

9 UM088 Hardware layout and configuration Table. Jumper CAN related jumpers Description CAN transceiver works in standby mode when JP8 is set as shown. JP8 CAN transceiver works in high-speed mode when JP8 is set as shown (default setting). CAN transceiver works in slope control mode when JP8 is open. JP CAN terminal resistor is enabled when JP is fitted. Default setting: not fitted.8 RS connectors Two D-type 9-pin connectors CN (USART) and CN8 (USART) are available on the STM0E-EVAL evaluation board. The USART connector is connected to RS transceiver U7 while the USART connector with RTS/CTS handshake signal support is connected to RS transceiver U. The USART_CTS is multiplexed with motor control, it can be enabled by setting the jumper JP. Refer to Section.9: Motor control for details..9 Motor control The STM0E-EVAL evaluation board supports three-phase brushless motor control via a -pin connector CN, which provides all required control and feedback signals to and from the motor power driving board. Available signals on this connector include emergency stop, motor speed, three-phase motor current, bus voltage, heatsink temperature coming from the motor driving board and channels of PWM control signals going to the motor driving circuit. JP 0 allows to choose between two synchronization methods for power factor correction (PFC). The I/O pins used on the motor control connector CN are multiplexed with some peripherals on the board; either the motor control connector or multiplexed peripherals can be enabled by setting the jumpers JP, JP, JP, JP and JP as described in Table. 9/8

10 Hardware layout and configuration UM088 Table. Motor control related jumpers Jumper Description Multiplexed peripherals JP0 JP JP0 allows to have a PFC synchronization signal redirected to the timer input capture pin, and additionally to the timer external trigger input. JTAG debugging is disabled when JP0 is fitted. Default setting: not fitted JP should be kept on open when encoder signal is input from pin of CN while it should be kept on close when analog signal is from pin of CN for special motor. Default setting: not fitted MC_EnA is enabled when JP is set as shown to the right (default setting): JP USART_CTS is enabled when JP is set as show to the right: USART JP JP JP JP MC_EmergencySTOP is enabled when JP is closed. The pin PA is used as SPI_MISO when JP is open. Default setting: not fitted MC_PFCpwm is enabled when JP is open. The pin PB will be used as interrupt input from temperature sensor when JP is closed. MC_UH or IS_MCK are enabled when JP is open. The pin PC is used as Smartcard_CMDVCC when JP is closed. MC_VH is enabled when JP is open. The pin PC7 is used as Smartcard_OFF when JP is closed SPI Temperature sensor I S and smartcard Smartcard.0 Smartcard STMicroelectronics smartcard interface chip ST80 is used on STM0E-EVAL board for asynchronous V and V smartcards. It performs all supply protection and control functions based on the connections with STMF0Z listed in Table 7. Table 7. Connection between ST80 and STMF0Z Signals of ST80 Description Connect to STMF0X V/V Smartcard power supply selection pin PB0 I/OUC MCU data I/O line PB0 XTAL Crystal or external clock input PB OFF Detect presence of a card, interrupt to MCU, share same pin with motor controller PC7 0/8

11 UM088 Hardware layout and configuration Table 7. Signals of ST80 Connection between ST80 and STMF0Z (continued) Description Connect to STMF0X RSTIN Card reset input from MCU PB CMDVCC Start activation sequence input (active low), share same pin with I S DAC and motor control PC Table 8. Jumper Smartcard related jumpers Description JP JP The CMDVCC is connected to PC when JP is closed. It should be kept on open, or the SD card needs to be removed from the MicroSD card connector when PC is used by I S or motor control connector. Default setting: not fitted The OFF is connected to PC7 when JP is closed. It has to be kept on open when PC7 is used by the motor control connector. Default setting: not fitted The Smartcard_CMDVCC and Smartcard_OFF are multiplexed with motor control. They can be enabled by setting the jumpers JP and JP. Refer to Section.9: Motor control on page 9 for details.. MicroSD card The 8 Mbyte MicroSD card connected to SDIO of STMF0Z is available on the board. MicroSD card detection is managed by standard IO port PF. The MicroSDcard_D is multiplexed with IrDA. It can be enabled by setting the jumper JP, as explained in Section.: IrDA on page. The MicroSD card_d0 and MicroSD card CMD are multiplexed with the motor control connector. They can be enabled by setting the jumpers JP7 and JP0. The jumper settings are described in Table 9. Table 9. Jumper MicroSD card related jumpers Description JP7 JP0 JP7 is used to enable MicroSD card data line D0. MicroSD card D0 is enabled when JP7 is fitted. The JP7 should be kept on open when motor control connector CN is used. Default setting: fitted JP0 is used by the motor control connector, refer to Table for details. JP0 should be kept on open for MicroSD card operation. JTAG debugging is disabled when JP0 is fitted.. Temperature sensor One I C interface temperature sensor STLM7 ( C to + C) connected to I C of STMF0Z is available on the board. /8

12 Hardware layout and configuration UM088. Analog input Three BNC connectors CN,CN and CN are connected to PC, PC and PC of STMF0Z as external analog input. The 0 ohm terminal resistor can be enabled by closing the solder bridge JP, JP and JP for each BNC connector. A low pass filter can be implemented for each BNC connector CN, CN and CN by replacing R and C, R and C, R and C9 with the right resistor and capacitor values, depending on the requirements of your application.. IrDA IrDA communication is supported by the IrDA transceiver U connected to USART of STMF0Z. The IrDA transceiver can be enabled or disabled by setting JP. Table 0. Jumper IrDA related jumpers Description JP JP JP is used to shutdown the IrDA transceiver. IrDA is enabled when JP is fitted while IrDA is disabled when JP is not fitted. Default setting: fitted IrDA_RX is enabled when JP is closed. The IO pin PC is used as the data line of the MicroSD card when JP is open. Default setting: not fitted. USB STM0E-EVAL evaluation board support USB.0 compliant full speed communication via a USB type B connector (CN). The evaluation board can be powered by this USB connection at V DC with 00mA current limitation. USB disconnection simulation can be implemented by disconnecting.k pull-up register from USB+ line. The USB disconnection simulation feature is enabled by setting JP. Table. Jumper USB related jumpers Description JP The USB.K pull-up register is always connected to USB+ line when JP is set as shown. The USB.K pull-up register can be disconnected by software from USB+ line when JP is set as shown. In this case, the USB connect/disconnect feature is managed by standard IO port PB (default setting). /8

13 UM088 Hardware layout and configuration. Development and debug support The two debug connectors available on STM0E-EVAL evaluation board are: CN9, standard 0-pin JTAG interface connector that is compliant with ARM7 and ARM9 debug tools. CN7, SAMTEC 0-pin connector FTSH-0-0-L-DV for both SWD and Trace that is compliant with ARM CoreSight debug tools..7 Display and input devices The 0x0 TFT color LCD connected to bank of FSMC interface of STMF0Z and four general purpose color LEDs (LD,,,) are available as display devices. A -direction joystick with selection key, general purpose button (B), wakeup button (B) and tamper detection button (B) are available as input devices. The jumper JP should be kept on open to enable the wakeup button B which shares the same IO with USART and motor control connector. The STM0E-EVAL evaluation board also supports a second optional x graphic LCD that can be mounted on the U8 connector. By default, the graphic LCD is not present. Table. LCD modules TFT LCD CN (default) Graphic LCD U8 (optional) Pin on CN Description Pin connection Pin on U8 Description Pin connection CS CS of Bank of FSMC Vss RS FSMC_A0 Vcc.V WR/SCL FSMC_NWE VO - RD FSMC_NOE CLK PA RESET RESET# SID PA7 PD FSMC_D0 CS PF0 7 PD FSMC_D 7 A +V 8 PD FSMC_D 8 K 9 PD FSMC_D 0 PD FSMC_D PD FSMC_D PD7 FSMC_D PD8 FSMC_D7 PD0 FSMC_D8 PD FSMC_D9 PD FSMC_D0 7 PD FSMC_D /8

14 Hardware layout and configuration UM088 Table. LCD modules (continued) TFT LCD CN (default) Graphic LCD U8 (optional) Pin on CN Description Pin connection Pin on U8 Description Pin connection 8 PD FSMC_D 9 PD FSMC_D 0 PD FSMC_D PD7 FSMC_D BL_ BL_control.V VDD.V VCI.V 7 8 BL_VDD.V 9 SDO PA via JP 0 SDI PA7 via JP7.8 SRAM Kx SRAM is connected to bank of the FSMC interface and both 8 bit and bit access are allowed by BLN0 and BLN connected to BLE and BHE of SRAM respectively..9 NAND Flash The Mbit x8 or Gbit x8 NAND Flash is connected to bank0 of the FSMC interface. The ready/busy signal can be connected to either WAIT signal or FSMC_INT signal of STMF0Z depending on the setting of JP7. Table. Jumper NAND Flash related jumpers Description The ready/busy signal is connected to WAIT signal when JP7 is set as shown (default setting) JP7 The ready/busy signal is connected to FSMC_INT signal when JP7 is set as shown. /8

15 UM088 Hardware layout and configuration.0 NOR Flash 8 Mbit Nor Flash is connected to bank of the FSMC interface. The bit operation mode is selected by a pull-up resistor connected to the BYTE pin of the NOR Flash. Write protection can be enabled or disabled depending on the setting of jumper JP. Table. Jumper NOR Flash related jumpers Description JP Write protection is enabled when JP is fitted while write protection is disabled when JP is not fitted. Default setting: not fitted Three different NOR 8 Mbit references can be present on the evaluation board depending on component availability. Table. NOR Flash reference Reference M9W8GL70ZAE M9W8GH70ZAE S9GL8P90FFIR0 Manufacturer NUMONYX NUMONYX SPANSION These three references are not identical in terms of ID code, speed, timing, block protection. The demonstration firmware and the software library delivered with the board support these three NOR Flash references. However, during the development of your application software, you must verify which NOR reference is implemented on your board (component referenced as U on silkscreen and schematic), and take its specificities into account. /8

16 Connectors UM088 Connectors. Motor control connector CN Figure. Motor control connector CN (top view) Table. Motor control connector CN Description STMF0Z pin CN pin # CN pin # STMF0Z pin Description EMERGENCY STOP PA PWM-UH PC PWM-UL PA7 PWM-VH PC7 7 8 PWM-VL PB0 9 0 PWM-WH PC8 PWM-WL PB PC0 BUS VOLTAGE PHASE A CURRENT PC PHASE B CURRENT PC 7 8 PHASE C CURRENT PC 9 0 NTC BYPASS RELAY PB DISSIPATIVE BRAKE PWM PA through 0ohm resister un fitted +V power +V PC Heatsink temperature PFC SYNC PB and PD 7 8.V power PFC PWM PB 9 0 Encoder A PA0 Encoder B PA PA Encoder Index /8

17 UM088 Connectors. Analog input connectors CN, CN and CN Figure. Analog input connector CN, CN and CN bottom view Table 7. Analog input connector CN, CN and CN Pin number Description Pin number Description Analog input PC, PC and PC for CN,CN and CN respectively. CAN D-type 9-pin male connector CN Figure. CAN D-type 9-pin male connector CN (front view) Table 8. CAN D-type 9-pins male connector CN Pin number Description Pin number Description,,8,9 NC 7 CANH CANL,,. QST connector CN The QST connector is designed to connect the STM0E-EVAL to the QST evaluation board to demonstrate the QST function. Figure 7. QST connector CN (front view) /8

18 Connectors UM088 Table 9. QST connector CN Pin number Description Pin number Description +V +V PB PA PB7 PA7 7 PB 8 PA 9 PF 0 PB PA8 -. Trace debugging connector CN7 Figure 8. Trace debugging connector CN7 (top view) Table 0. Trace debugging connector CN7 Pin number Description Pin number Description.V power TMS/PA TCK/PA TDO/PB 7 KEY 8 TDI/PA 9 0 RESET# TraceCLK/PE TraceD0/PE or SWO/PB TraceD/PE or ntrst/pb 7 8 TraceD/PE 9 0 TraceD/PE 8/8

19 UM088 Connectors. RS connector CN8 with RTS/CTS handshake support Figure 9. RS connector CN8 with RTS/CTS handshake support (front view) Table. RS connector CN8 with RTS/CTS handshake support Pin number Description Pin number Description NC Connect to Pin USART_PA 7 USART_PA USART_PA 8 USART_PA0 Connect to Pin 9 NC.7 JTAG debugging connector CN9 Figure 0. JTAG debugging connector CN9 (top view) Table. JTAG debugging connector CN9 Pin number Description Pin number Description.V power.v power PB PA 7 PA 8 9 PA 0 RTCK PB RESET# 7 DBGRQ 8 9 DBGACK 0 9/8

20 Connectors UM088.8 Daughter board extension connectors CN0 and CN Table. Two 70-pin male headers CN0 and CN can be used to connect a daughter board or standard wrapping board to the STM0E-EVAL evaluation board. All total GPI/Os are available on it. The space between these two connectors and the position of power, and RESET pins (marked in gray in Table and Table ) are defined as a standard which allows to develop common daughter boards for several evaluations boards. The standard width between CN0 pin and CN pin is 700 mils (8.8 mm). This standard is implemented on the majority of evaluation boards. Each pin on CN0 and CN can be used by a daughter board after disconnecting it from the corresponding function block on the STM0E-EVAL evaluation board, as described in Table and Table. Daughter board extension connector CN0 Pin # Description Alternative function - - How to disconnect from function block on STM0E-EVAL board PC7 MC/Smartcard Disconnect STM0E-EVAL evaluation board from motor power drive board. Keep JP on open. PC9 MicroSD card Remove SD card from MicroSD card connector. 7 PA9 UASRT_TX - 9 PA0 MC/Wakeup/USART_CTS Keep JP on open PA USB_DP Remove R8. PA Debug_TCK - 7 PC0 IrDA_TX/MicroSDcard_D Remove SD card from MicroSD card connector PD0 FSMC_D - PE Trace_CLK/FSMC_A - PD MicroSDcard_CMD/MC Disconnect STM0E-EVAL evaluation board from motor power drive board. Remove SD card from MicroSD card connector. 7 PD FSMC_OEN - 9 PD FSMC_WAITN - PD7 FSMC_EBAR0 Remove R. PG0 FSMC_EBAR Remove R. PG FSMC_EBAR Remove R77. 7 PG Joystick_Left Remove R /8

21 UM088 Connectors Table. Daughter board extension connector CN0 (continued) Pin # Description Alternative function How to disconnect from function block on STM0E-EVAL board PB Debug_TRST/MC Disconnect STM0E-EVAL evaluation board from motor power drive board. Keep JP9 on open. PB IC_SCL/QST PB8 CAN_RX Remove R. 7 PE0 FSMC_BLN0-9 DV - - PE Trace_D/FSMC_A0 - PE Trace_D/FSMC_A - Disconnect STM0E-EVAL evaluation board from QST board. PC OSC_IN Remove R, Keep JP9 (solder bridge) on close. 7 PF0 FSMC_A PF FSMC_A - PF FSMC_A - PF LD Remove R9. 7 PF8 LD Remove R PC Smartcard/MC/IS_MCK PC8 MicroSDcard_D0/MC PA8 MCO/LCD_backlight/QST 8 PA0 USART_RX Remove R PA USB_DM Remove R8. PA Debug TMS - PA Debug TDI - 8 PC IrDA_RX/MicroSDcard_D Disconnect STM0E-EVAL evaluation board from motor power drive board. Keep JP on open. Disconnect STM0E-EVAL evaluation board from motor power drive board. Remove SD card from MicroSD card connector. Disconnect STM0E-EVAL evaluation board from QST board. Remove SD card from MicroSD card connector. Remove R89. 0 PC MciroSDcard_CLK Remove SD card from MciroSD card connector. PD FSMC_D - PE FSMC_BLN - PD Joystick_Down Remove R00. /8

22 Connectors UM088 Table. Daughter board extension connector CN0 (continued) Pin # Description Alternative function 8 PD FSMC_WEN PG9 FSMC_EBAR Remove R. PG - - PG Joystick_Right Remove R0. 8 PG Joystick_Up Remove R0. 0 PB Debug_TDO - How to disconnect from function block on STM0E-EVAL board PB MC/QST/Temperature sensor Disconnect STM0E-EVAL evaluation board from motor power drive board and QST board. Remove R. PB7 IC_SDA/QST PB9 CAN_TX - 8 V PE Trace_D0/FSMC_A9 - PE Trace_D/FSMC_A - PC Anti-tamper button Remove R. Disconnect STM0E-EVAL evaluation board from QST board. 8 PC OSC_OUT Remove R9, Keep JP0 (solder bridge) on close. 0 PF FSMC_A - PF FSMC_A - PF FSMC_A - PF7 LD Remove R97. 8 PF9 LD Remove R /8

23 UM088 Connectors Table. Daughter board extension connector CN Pin # Description Alternative function - - PG7 Joystick_Select Remove R0. PG FSMC_A - 7 PG FSMC_A - 9 PC Button B - - RESET# - - PD FSMC_A7 - PD0 FSMC_D - 7 PD8 FSMC_D - 9 DV - - PB IS_CLK - PB Smartcard_Reset - PE FSMC_D - 7 PE FSMC_D0-9 PE FSMC_D8 - PD FSMC_D - PE9 FSMC_D - PE7 FSMC_D - 7 PG FSMC_A PF FSMC_A8 - PF FSMC_A - PB BOOT/SPI_NSS - 7 PB MC/QST PB0 Smartcard_/V/MC PC Potentiometer Remove R. PA MC/SPI_MISO/QST 7 PA Audio_RIN Remove R How to disconnect from function block on STM0E-EVAL board Disconnect STM0E-EVAL evaluation board from motor power drive board and QST board. Disconnect STM0E-EVAL evaluation board from motor power drive board. Disconnect STM0E-EVAL evaluation board from motor power drive board and QST board. Remove R7. /8

24 Connectors UM088 Table. Daughter board extension connector CN (continued) Pin # Description Alternative function PA MC/USART_RTS PC MC/BNC PC MC/BNC 7 PF0 LCD_CS PG8 User button B Remove R0. PG FSMC_INT Keep JP7 on open. PG FSMC_A - 8 PG FSMC_A PD FSMC_A8 - PD FSMC_A - PD9 FSMC_A - 8 PB IS_DIN - Disconnect STM0E-EVAL evaluation board from motor power drive board. Disconnect STM0E-EVAL evaluation board from motor power drive board. Disconnect analog signal from BNC. Disconnect STM0E-EVAL evaluation board from motor power drive board. Disconnect analog signal from BNC. 0 PB USB disconnect Connect pin of JP to pin. PB Smartcard_CK/MC/IS_CMD PB0 Smartcard_IO Remove R9. PE FSMC_D - 8 PE FSMC_D PD FSMC_D0 - PE0 FSMC_D7 - PE8 FSMC_D PG0 FSMC_A0 - PF FSMC_A9 - PF FSMC_A7 - PF QST / MicroSD card detection How to disconnect from function block on STM0E-EVAL board Disconnect STM0E-EVAL evaluation board from motor power drive board. Disconnect STM0E-EVAL evaluation board from QST board. Remove SD card from card socket CN. /8

25 UM088 Connectors Table PC MC PA7 MC/SPI_MOSI/QST PA SPI_CLK/DAC_LIN/QST 8 PA MC/USART_RX 0 PA MC/USART_TX - Daughter board extension connector CN (continued) Pin # Description Alternative function PC MC/BNC PC0 MC How to disconnect from function block on STM0E-EVAL board Disconnect STM0E-EVAL evaluation board from motor power drive board. Disconnect STM0E-EVAL evaluation board from motor power drive board and QST board. Disconnect STM0E-EVAL evaluation board from QST board. Remove R8. Disconnect STM0E-EVAL evaluation board from motor power drive board. Remove R9. Disconnect STM0E-EVAL evaluation board from motor power drive board. Disconnect STM0E-EVAL evaluation board from motor power drive board. Disconnect analog signal from BNC. Disconnect STM0E-EVAL evaluation board from motor power drive board. Remove C7 & R. /8

26 Connectors UM088.9 RS connector CN Figure. RS connector CN (front view) Table. RS connector CN Pin number Description Pin number Description NC Connect to Pin USART_PA0 7 Connect to Pin 8 USART_PA9 8 Connect to Pin 7 Connect to Pin 9 NC.0 MicroSD connector CN Figure. MicroSD connector CN (front view) Table. MicroSD connector CN Pin number Description Pin number Description MicroSDcard_D (PC0) MicroSDcard_CLK (PC) MicroSDcard_D (PC) Vss/ MicroSDcard_CMD (PD) 7 MicroSDcard_D0 (PC8) 8 MicroSDcard_D (PC9) 9 MicroSDcard_detect (PF) /8

27 UM088 Connectors. USB type B connector CN Figure. USB type B connector CN (top view) Table 7. USB type B connector CN Pin number Description Pin number Description VBUS(power) PA, Shield PA. Audio jack CN A. mm stereo audio jack CN connected to the audio DAC is available on the STM0E-EVAL board.. TFT LCD connector CN One 0-pin male header is available on the board to connect the LCD module board MB9 to the FSMC interface of the STMF0Z. Refer to Section.7: Display and input devices on page for details.. Power connector CN7 Your STM0E-EVAL evaluation board can be powered from a DC V power supply via the external power supply jack (CN7) shown in Figure. The central pin of CN7 must be positive. Figure. Power supply connector CN7 (front view) DC +V 7/8

28 Connectors UM088. Smartcard connector CN8 Figure. Smartcard connector CN8 (front view) Table 8. Smartcard connector CN8 Pin number Description Pin number Description VCC RST NC CLK 7 I/O NC 8 NC 7 Detection pin of card presence 8 Detection pin of card presence 8/8

29 UM088 Schematic diagrams Schematic diagrams This section provides the design schematics for the STM0E-EVAL board key features, to help you implement these features in your applications. Schematics are provided for: Microcontroller connections, see Figure MCU, see Figure 7 Peripherals, see Figure 8 RS and IrDA connectors, see Figure 9 Audio, see Figure 0 LCD and joystick connections, see Figure SD card and smartcard, see Figure Motor control, see Figure JTAG and trace connectors, see Figure Power supply, see Figure SRAM and Flash, see Figure Color LCD module, see Figure 7 9/8

30 Schematic diagrams UM088 0/8 Figure. Microcontroller connections STMicroelectronics Title: Number: Rev: Sheet of D.(PCB.SCH)Date: MB7 STM0E-EVAL IS_CMD IS_DIN IS_CK MCO Audio_SCK Audio_SDA Audio_LIN Audio_RIN IS_MCK Audio_PDN U_Audio Audio.SchDoc A[0..] D[0..] FSMC_NE FSMC_NCE FSMC_NE FSMC_NWE FSMC_NOE FSMC_NBL0 FSMC_NBL FSMC_NWAIT FSMC_INT U_SRAM&Flash SRAM&Flash.SchDoc USART_RX USART_TX USART_RTS USART_CTS USART_TX USART_RX IrDA_RX IrDA_TX U_RS&IrDA RS&IrDA.SchDoc Flash_CS Flash_SCK Flash_MISO Flash_MOSI LED LED LED LED USB_DM USB_DP USB_Disconnect TemperatureSensor_INT TemperatureSensor_SCL TemperatureSensor_SDA BNC CAN_TX CAN_RX Potentiometer BNC BNC U_Peripherals Peripherals.SchDoc MC_EmergencySTOP MC_CurrentA MC_CurrentB MC_CurrentC MC_PFCsync MC_PFCsync MC_WL MC_VH MC_VL MC_UH MC_UL MC_WH MC_NTC MC_DissipativeBrake MC_PFCpwm MC_EnA MC_EnB MC_HeatsinkTemperature MC_BusVoltage MC_EnIndex BNC BNC BNC U_MotorCtrl MotorCtrl.SchDoc U_Power Power.SchDoc TDI RESET# TRACE_D TRACE_D TRACE_D TRACE_D0 TRACE_CK TRST TMS/SWDIO TCK/SWCLK TDO/SWO U_JTAG&SWD JTAG&SWD.SchDoc TDI TRACE_CK TMS/SWDIO TCK/SWCLK TDO/SWO USART_RX USART_TX USART_RTS USART_CTS USART_TX USART_RX IrDA_RX IrDA_TX MC_EmergencySTOP MC_CurrentA MC_CurrentB MC_CurrentC MC_PFCsync MC_PFCsync MC_WL MC_VH MC_VL MC_UH MC_UL MC_WH MC_NTC MC_DissipativeBrake MC_PFCpwm MC_EnA MC_EnB MC_HeatsinkTemperature MC_BusVoltage MC_EnIndex JOY_SEL JOY_DOWN JOY_LEFT JOY_RIGHT JOY_UP LCD_CS LCD_backlight Anti_Tamper WAKEUP User_Button SPI_CS SPI_SCK SPI_MISO SPI_MOSI LED LED LED LED USB_DM USB_DP USB_Disconnect TemperatureSensor_INT CAN_TX CAN_RX Potentiometer FSMC_NE A[0..] D[0..] FSMC_NE FSMC_NCE FSMC_NE FSMC_NWE FSMC_NOE FSMC_NBL0 FSMC_NBL FSMC_NWAIT FSMC_INT MicroSDCard_CLK MicroSDCard_CMD SmartCard_/V SmartCard_IO SmartCard_RST SmartCard_CLK SmartCard_OFF SmartCard_CMDVCC MicroSDCard_D0 IS_CMD IS_DIN IS_CK MCO IC_SCK IC_SDA MicroSDCard_D MicroSDCard_D MicroSDCard_D RESET# TRACE_D TRACE_D TRACE_D TRACE_D0 TRST Audio_LIN Audio_RIN MicroSDCard_Detect IS_MCK Audio_PDN U_MCU MCU.SchDoc MicroSDCard_CLK MicroSDCard_CMD SmartCard_/V SmartCard_IO SmartCard_RST SmartCard_CLK SmartCard_OFF SmartCard_CMDVCC MicroSDCard_D0 MicroSDCard_D MicroSDCard_D MicroSDCard_D MicroSDCard_Detect U_SD&Smart Card SD&Smart Card.SchDoc JOY_SEL JOY_DOWN JOY_LEFT JOY_RIGHT JOY_UP LCD_CS LCD_CLK LCD_DI RESET# LCD_backlight Anti_Tamper WAKEUP User_Button FSMC_NE D[0..] A[0..] FSMC_NWE FSMC_NOE LCD_DO U_LCD&Joystick LCD&Joystick.SchDoc

31 UM088 Schematic diagrams Figure 7. MCU USART_CTS MC_EnA Default setting:<-> WAKEUP JP USART_RTS MC_EnB USART_TX MC_EnIndex R MC_DissipativeBrake USART_RX R 0 Audio_RIN SPI_SCK Audio_LIN JP MC_EmergencySTOP SPI_MISO USART_TX Default setting:open USART_RX MC_UL USB_DM SPI_MOSI USB_DP TMS/SWDIO LCD_backlight TCK/SWCLK MCO TDI TP MCO BOOT MC_VL SmartCard_/V SPI_CS R 0K MC_WL TDO/SWO MC_PFCsync IC_SCK TRST IC_SDA JP CAN_RX TemperatureSensor_INT CAN_TX MC_PFCpwm SmartCard_IO Default setting:close SmartCard_RST SmartCard_CLK MC_NTC IS_CK IS_CMD USB_Disconnect IS_DIN MC_BusVoltage JP MC_CurrentA SmartCard_CMDVCC MC_CurrentB MC_CurrentC Default setting:close IS_MCK Potentiometer MC_UH JP MC_HeatsinkTemperature SmartCard_OFF Default setting:close MC_VH JP7 MC_WH Default setting:close MicroSDCard_D0 MicroSDCard_D IrDA_TX MicroSDCard_D JP IrDA_RX MicroSDCard_CLK MicroSDCard_D Anti_Tamper Default setting:open R X R9 BOOT0 R 0K C 0pF C 0pF C7 8MHz (with socket) MC0-G-0Q-.78 (manufacturer JFVNY) 0pF X C8 R0 RESET# R9 90 0K 0pF B RESET C9 PA0 PA PA PA PA PA PA PA7 PA8 PA9 PA0 PA PA PA PA PA PB0 PB PB PB PB PB PB PB7 PB8 PB9 PB0 PB PB PB PB PB PC0 PC PC PC PC PC PC PC7 PC8 PC9 PC0 PC PC PC PC PC RESET# U8A PA0-WKUP PA PA PA PA PA PA PA7 PA8 PA9 PA0 PA PA PA PA PA PB0 PB PB PB PB PB PB PB7 PB8 PB9 PB0 PB PB PB PB PB PC0 PC PC PC PC PC PC PC7 PC8 PC9 PC0 PC PC PC-ANTI_TAMP PC-OSC_IN PC-OSC_OUT BOOT0 NC OSC_IN OSC_OUT NRST STMF0ZET IC9--0-B PG PG PG PG PG PG0 PG9 PG8 PG7 PG PG PG PG PG PG PG0 PF PF PF PF PF PF0 PF9 PF8 PF7 PF PF PF PF PF PF PF0 PE PE PE PE PE PE0 PE9 PE8 PE7 PE PE PE PE PE PE PE0 PD PD PD PD PD PD0 PD9 PD8 PD7 PD PD PD PD PD PD PD PG PG PG PG PG PG0 PG9 PG8 PG7 PG PG PG PG PG PG PG0 PF PF PF PF PF PF0 PF9 PF8 PF7 PF PF PF PF PF PF PF0 PE PE PE PE PE PE0 PE9 PE8 PE7 PE PE PE PE PE PE PE0 PD PD PD PD PD PD0 PD9 PD8 PD7 PD PD PD PD PD PD PD0 D D D0 D9 D8 D7 D D D D D0 D D D D D A A A A A A0 A9 A8 A7 A A A A A A A0 A A A0 A9 A A8 A7 A D[0..] A[0..] D[0..] A[0..] JOY_UP JOY_LEFT JOY_RIGHT FSMC_NE Audio_PDN FSMC_NE FSMC_NE User_Button JOY_SEL FSMC_INT MicroSDCard_Detect LCD_CS LED LED LED LED FSMC_NBL FSMC_NBL0 TRACE_D TRACE_D TRACE_D TRACE_D0 TRACE_CK FSMC_NCE FSMC_NWAIT FSMC_NWE FSMC_NOE JOY_DOWN MicroSDCard_CMD MC_PFCsync MCU PC R RESET# R DV DV PC JP9 CN (Right) PG8 PG7 PG PG PG PG PG PD PD PD PD0 PD9 PD8 PB 7 8 PB 9 0 PB PB PB PB0 PE PE PE PE 7 8 PE 9 0 PD PD PE9 PE0 PE7 PE8 PG 7 8 PG0 9 0 PF PF PF PF PB PF PB PB0 PC PC PA7 PA PA PA PA 7 8 PA 9 0 PA PC PC PC PC0 PF Header X CN0 (Left) PC PC7 PC8 PC9 PA8 PA9 PA0 7 8 PA0 9 0 PA PA PA PA PA PC0 PC 7 8 PC 9 0 PD0 PD PE PE PD PD PD PD 7 8 PD 9 0 PD7 PG9 PG0 PG PG PG PG PG 7 8 PB 9 0 PB PB PB PB7 PB8 PB9 PE PE PE PE PE PC JP0 PF0 PC 7 8 PF 9 0 PF PF PF PF PF PF7 PF8 PF Header X Extension connector +V CN +V PB PA PB7 PA7 PB PA 7 8 PF PB 9 0 PA8 Header 7X TP TP Ground Ground QST connector STMicroelectronics Title: STM0E-EVAL MCU D.(PCB.SCH)Date: Number: MB7 Rev: Sheet of /8

32 Schematic diagrams UM088 Figure 8. Peripherals CN USB-typeB connector VCC D- D+ SHELL SHELL 0 0 UV U I/O I/O I/O Vbus I/O USBLC-P T R9.K R70 UV 0K R K C7 U9 SDA SCL OS/INT VDD A0 A A STLM7ME 8 7 C9 C STMicroelectronics 7 8 U HOLD VCC S Q W VSS MP-VMEG C D Title: Number: MB Rev: D.(PCB.SCH) Date: Sheet of C78.7nF R9 M 90 T UV 90 R C7 0K R 0 U D VCC R RS CANH CANL Vref SNHVD0 R 7K 8 7 PB USB_Disconnect JP JP R CN DB9-male CAN connector JP8 LD Green LD Orange LD Red LD Blue CAN_TX CAN_RX TemperatureSensor_SDA TemperatureSensor_SCL TemperatureSensor_INT R8 0 R R 0 0 R7 0 Default setting: <-> USB_DM USB_DP USB CAN Temperature sensor LED LED LED LED R9 00 R97 00 R98 00 R99 00 R 0 R7 0 PC R8 0 Potentiometer BNC BNC BNC R 0 RV 0K PB9 PB8 PB7 PB PB R K7 R8 0 R8 0 PA PA Default setting: Open R0 R9 0 PF PF7 PF8 PF9 LED JP- Default setting:open JP JP JP PC PC PC C00 0nF CN VB CN VB CN VB BNC connector Potentiometer Flash_CS Flash_MISO Flash_SCK Flash_MOSI PB PA PA PA7 R 0 R7 0 SPI Flash STM0E-EVAL Peripherals /8

33 UM088 Schematic diagrams Figure 9. RS and IrDA connectors USART_TX USART_RX USART_RTS USART_CTS USART_TX USART_RX PA PA PA PA0 PA9 PA0 C8 C9 R9 0 R0 0 C C9 C R 0 R 0K C U V+ VCC C+ C+ Tin Tout Rout Rin Tin Tout Rout Rin V- STECTR U7 V+ VCC C+ C- C- C- C- C+ Tin Tout Rout Rin Tin Tout Rout Rin V- STECTR C0 RS_TX RS_RX RS_RTS RS_CTS C0 RS_TX RS_RX C7 C R CN8 DB9-male USART connector for USART R CN DB9-male USART connector for USART IrDA_TX IrDA_RX PC0 PC R8 7 Default setting: close JP R89 0 R9 R88 0K 7 8 U SD TxD RxD Anode (VCC) Cathode VCC Vlogic TFDU00 C7.7uF C8 0.uF C77.7uF C7 0.uF IrDA STMicroelectronics Title: STM0E-EVAL RS&IrDA Number: MB7 Rev: D.(PCB.SCH) Date: Sheet of /8

34 Schematic diagrams UM088 Figure 0. Audio IS_MCK MCO PC PA8 IS_DIN IS_CMD IS_CK Audio_SCK Audio_SDA Audio_PDN R 0 R7 PB PB PB PB PB7 PG R8 0 R8 0 Default setting: <-> TP7 MCKO JP8 R7 0K C9 uf C7 0uF C C79 0uF C U0 MCKO MCKI SDTI LRCK BICK IC CSN/CAD0 CCLK/SCL CDTI/SDA PDN MUTET HPL HPR SPP SPN TEST TEST RIN/IN+ LIN/IN- LIN/IN+ RIN/IN- MIN/LIN VCOC/RIN LOUT/RCP ROUT/RCN DVDD DVSS AVDD HVDD AVSS HVSS AK VCOM Jumper to select PLL slave clock mode:. <-> reference clock MCKI. <-> reference clock BICK or LRCK IC control interface selected (share with temperature sensor) by connecting pin "IC" to high, the slave address is set to "0000" by pull up pin "CAD0". TP SPP TP SPN TP0 HPL TP8 HPR U KSS-08 C TP9 RIN uf C7 uf TP LIN C 0uF C C.uF C C7 0.uF R7 0 C8 C7 0.uF R8.8 R87.8 C70 7uF C80 7uF CN ST--0 R8 0 R7 0 R8 0 PA PA Audio_RIN Audio_LIN C STMicroelectronics Title: STM0E-EVAL Audio Number: MB7 Rev: D.(PCB.SCH) Date: Sheet of /8

35 UM088 Schematic diagrams Figure. LCD and joystick connections R 00 U9 COMMON Selection STMicroelectronics Title: Number: MB Rev: D.(PCB.SCH) Date: Sheet of C9 C9 C97 C98 C99 R 0K R 0K R 0K R 0K R 0K JOY_SEL JOY_DOWN JOY_LEFT JOY_RIGHT JOY_UP R0 0 R00 0 R0 0 R0 0 R0 0 DWON LEFT RIGHT UP MT008-A R K7 R0 00 PG8 R0 PC Anti_Tamper 0 C9 R 0K B WKUP B USER C9 R7 00 R 0 R K7 B Tamper C9 User_Button PG7 PD PG PG PG Joystick R 00 WAKEUP PA0 R0 0 User Button Tamper Button Wakeup Button D[0..] A[0..] FSMC_NE FSMC_NWE FSMC_NOE RESET# LCD_DO PG PD R78 R7 PD PA LCD_backlight R77 0 R80 0 R0 R07 0 JP JP7 D[0..] A[0..] PA8 A CN CS RS WR/SCL RD RESET BL_ BL_Control VDD VCI BL_VDD SDO SDI TFT LCD PD PD PD PD PD PD PD7 PD8 PD0 PD PD PD PD PD PD PD7 Connector to Mother board D0 D D D D D D D7 D8 D9 D0 D D D D D LCD_CLK LCD_DI LCD_CS PA PA7 PF0 R7 R7 C R79 0 +V 7 8 U8 Vss Vcc VO CLK SID CS A K HXM0-GB () Gray LCD STM0E-EVAL LCD&Joystick /8

36 Schematic diagrams UM088 Figure. SD card and smartcard C8 +V C8 0nF C8 7uF R90 K7 C87 C U7 CLKDIV CLKDIV V/V P C+ Vddp C- Vup PRES PRES I/O AUX AUX C ST80CDR AUXUC AUXUC I/OUC XTAL XTAL OFF Vdd RSTIN CMDVCC PORADJ Vcc RST CLK C NC I/O NC CN8 C8 VCC RST CLK NC R9 0K R8 00K R9 0K R9 0 R7 0 R09 0K R08 0K TP AUX TP AUX C SmartCard_/V SmartCard_IO SmartCard_CLK SmartCard_OFF C8 7uF SmartCard_RST SmartCard_CMDVCC Smart Card MicroSDCard_D MicroSDCard_D0 MicroSDCard_D MicroSDCard_D MicroSDCard_CLK MicroSDCard_CMD 7 8 CN PJS SMS0FF or SMS8FF 9 0 SW SW PB0 PB0 PB PC7 PB PC R 7K R0 7K R 7K R 7K R 7K PC9 PC8 PC PC0 PC PD PF MicroSDCard_Detect R9 0 MicroSD card STMicroelectronics Title: STM0E-EVAL SD&Smart Card Number: MB7 Rev: D.(PCB.SCH) Date: Sheet 7 of /8

37 UM088 Schematic diagrams Figure. Motor control MC_EmergencySTOP PA MC_CurrentA MC_CurrentB MC_CurrentC MC_PFCsync MC_PFCsync PC PC PC R8 0 PD PB R7.K C8 nf R 0 C R 0 C R 0 C9 JP0 C MC_UH MC_UL MC_VH MC_VL MC_WH MC_WL MC_NTC MC_DissipativeBrake MC_PFCpwm MC_EnA MC_EnB BNC BNC BNC Default setting: Open C0 PC PA7 PC7 PB0 PC8 PB PB PA PB PA0 PA +V C Motor control connector CN EMERGENCY STOP MC-UH MC_UL MC_VH MC_VL MC_WH MC_WL CURRENT A CURRENT B CURRENT C NTC BYPASS RELAY DISSIPATIVE BRAKE +V POWER PFC SYNC PFC PWM Encoder A Encoder B MC_connector BUS VOLTAGE Heatsink Temperature.V Power Encoder Index Default setting: Open JP C C 0nF C R 0 R 0 C7 C PC PC0 R 00K MC_BusVoltage MC_HeatsinkTemperature PA C MC_EnIndex STMicroelectronics Title: STM0E-EVAL Motor Control Number: MB7 Rev: D.(PCB.SCH) Date: Sheet 8 of 7/8

38 Schematic diagrams UM088 Figure. JTAG and trace connectors TMS/SWDIO TCK/SWCLK TDO/SWO TDI TRST RESET# CN7 FTSH-0-0-L-DV KEY R9 0 R0 R0 0 R TRACE_D TRACE_D TRACE_D TRACE_D0 TRACE_CK PE PE PE PE PE Trace connector PA PA PB PA PB R8 0K R 0K R 0K R9 0K R 0K CN9 JTAG R8 0K R7 0K R 0K R JTAG connector Default setting: Open JP9 STMicroelectronics Title: STM0E-EVAL JTAG&Trace Number: MB7 Rev: D.(PCB.SCH) Date: Sheet 9 of 8/8

39 UM088 Schematic diagrams Figure. Power supply U LD08DM Vin Vout CN7 DC-0B U ZEN0V0ALS Z SMAJ.0A-TR C8 U SV SG CV CG CG CG BNX00-0 +V TP V R7 00 LD red TP Ground Jumper for choice between power connector, USB connector or daughter board C8 0uF EV +V C 0uF C9 7uF TP V C STMicroelectronics Title: Number: MB7 Rev: D.(PCB.SCH) Date: Sheet 0 of UV DV EV JP Default setting: <-> VREF+ R U8B VSS_ VSS_ VSS_ VSS_ VSS_ VSS_ VSS_7 VSS_8 VSS_9 VSS_0 VSS_ VREF- VREF- VSSA VDD_ VDD_0 VDD_9 VDD_8 VDD_7 VDD_ VDD_ VDD_ VDD_ VDD_ VDD_ VREF+ VDDA VBAT STMF0ZET Vbat VDD VDDA R 7 VDDA C 0nF C0 0uF JP L BEAD C 0nF TP VREF BT CR0 holder MCU power JP Default setting: <-> C C VDD C VDD C7 C8 C C C Power regulator C9 C8 C STM0E-EVAL Power 9/8

40 Schematic diagrams UM088 0/8 Figure. SRAM and Flash STMicroelectronics Title: Number: Rev: Sheet of D.(PCB.SCH) Date: A A A A A A A7 A8 A9 A0 A A A A A A A A A A A A A7 A8 A9 A0 A A A A A A A7 A8 A9 A0 A A A[0..] D[0..] RB 7 R 8 E 9 VDD VSS CL AL 7 W 8 WP 9 I/O0 9 I/O 0 I/O I/O VSS VDD 7 I/O I/O I/O I/O7 U NANDWACNE A A7 FSMC_NE FSMC_NE FSMC_NCE FSMC_NWE FSMC_NOE FSMC_NWAIT R9 0K D[0..] A[0..] MB7 STM0E-EVAL SRAM&FLASH JP7 C C0 C88 C R7 0K R0 0K C7 C C R 0K C0 R 0K R 0K R 0K JP A0 A0 A7 A8 D0 D D D D D D D7 D8 D9 D0 D D D D D D0 D D D D D D D7 D8 D9 D0 D D D D D D0 D D D D D D D7 R 0 R 0K R 0 R 0 R8 0K R Default setting: Open Default setting: <-> A B A B A A A A A0 A CE B I/O0 B I/O C I/O C I/O D VCC D VSS D I/O E I/O F I/O F I/O7 G WE G A E A F A F A G A G A H A0 H A9 H A8 H I/O8 B I/O9 C I/O0 C I/O D VCC E I/O E I/O F I/O F I/O G BLE A BHE B OE A A7 D A C A C A7 D A8 H VSS E U ISWVBLL-0MLI A B8 A D7 A C7 A A7 A B7 A D A0 C A9 A A8 B A9 D A0 D W A RP B A C Vpp/WP B RB A A8 C A7 B A7 A A C A D A B A A A C A D VCC D8 A0 E E F VSS E8 G G DQ0 E DQ8 F DQ H DQ9 G DQ E DQ0 F DQ H DQ G VCC F DQ H DQ F DQ E DQ G DQ H DQ F DQ7 E DQA- G7 VSS H7 BYTE F7 A E7 VCC G VSS H U M9W8GL70ZAE C M9W8GH70ZAE NANDWABNE PE PE0 PD PG9 PD PD PG0 PD7 PG FSMC_NBL0 FSMC_NBL FSMC_INT S9GL8P90FFIR0 Rev D. modification : references of NOR flash used for U updated

41 UM088 Schematic diagrams Figure 7. Color LCD module VDD RP 0K VDD Enable DotClk HSYNC VSYNC CS WR RD RS #RESET A K CN Enable DotClk HSYNC VSYNC NC NC NC CS WR/SCL RD RS SDO SDI RESET VDD VCI VCI A K NC NC NC NC NC NC NC NC NC NC NC NC PD7 PD PD PD PD PD PD PD0 PD9 PD8 PD7 PD PD PD PD PD PD PD0 FH-S-0.SHW(0) AM00L8TNQW0H PD7 PD PD PD PD PD PD PD0 PD9 PD8 PD7 PD PD PD PD PD PD PD0 BLVDD BL_Control VDD CS RS WR RD #RESET BL 0-pin connector to mother board only for bit system interface of color LCD STMicroelectronics Title: Color LCD module with bit parallel interface Number: MB9 Rev: A.(PCB.SCH) Date: Sheet of HSYNC Enable VSYNC DotClk C uf/0v R K7 R K7 SDO SDI PD PD PD PD PD PD PD7 PD8 PD0 PD PD PD PD PD PD PD7 RS RD SDO SDI BLVDD C.uF BL BL_Control BLVDD R8 uh L R7 0 8 BL R R Z U SW Vin SHDN STPSL0M C uf/0v Vout LDS FB Rset STLD0D-C8 7 R 00K BL R BL SDO SDI CN CS RS WR/SCL RD RESET BL_ BL_Control VDD VCI BL_VDD SDO SDI PD PD PD PD PD PD PD7 PD8 PD0 PD PD PD PD PD PD PD7 Connector to Mother board PD PD PD PD0 PD8 PD PD PD PD7 PD PD PD PD7 PD PD PD PD9 PD0 RP RP R9 K7 R0 K7 RP RP /8

42 STM0E-EVAL IO assignment UM088 Appendix A STM0E-EVAL IO assignment Table 9. STM0E-EVAL IO assignment Pin # Pin name STM0E-EVAL IO assignment PE Trace_CLK/FSMCA PE Trace_D0/FSMCA9 PE Trace_D/FSMCA0 PE Trace_D/FSMCA PE Trace_D/FSMCA VBAT or battery 7 PC-ANTI_TAMP Anti-tamper button 8 PC-OSC_IN K OSC 9 PC-OSC_OUT K OSC 0 PF0 FSMCA0 PF FSMCA PF FSMCA PF FSMCA PF FSMCA PF FSMCA VSS_ 7 VDD_ 8 PF LD 9 PF7 LD 0 PF8 LD PF9 LD PF0 LCD_CS for graphic LCD (optional) OSC_IN 8MHz crystal X OSC_OUT 8MHz crystal X NRST Reset button B PC0 MC_ADC 0 pin (bus voltage) 7 PC MC_ADC pin / BNC 8 PC MC_ADC pin 7 / BNC 9 PC MC_ADC pin 9 / BNC 0 VSSA VREF- VREF+ /8

43 UM088 STM0E-EVAL IO assignment Table 9. VDDA PA0-WKUP MC_TIM_CH pin (Ena) / WAKEUP /USART CTS PA MC_TIM_CH pin (EnB)/USART RTS PA MC_TIM_CH pin (EnIndex)/USART TX 7 PA MC_TIM_CH pin (dissipative brake)/usart RX 8 VSS_ 9 VDD_ 0 PA DAC_Audio RIN PA SPI_Flash_CLK / DAC_Audio LIN / QST pin PA STM0E-EVAL IO assignment Pin # Pin name STM0E-EVAL IO assignment MC_STOP pin (Emergency stop) / SPI_Flash_MISO / QST pin8 PA7 MC_TIM_CHN pin (UL) / SPI_Flash_MOSI / QST pin PC Potentiometer PC MC_ADC pin (heatsink temperature) PB0 MC_TIM_CHN pin 9 (VL) / SmartCard_/ 7 PB MC_TIM_CHN pin (WL) / QST pin7 8 PB Boot/ NSS_SPI_Flash 9 PF QST pin9 / MicroSD card detection 0 PF FSMCA VSS_ VDD_ PF FSMCA7 PF FSMCA8 PF FSMCA9 PG0 FSMCA0 7 PG FSMCA 8 PE7 FSMCD 9 PE8 FSMCD 0 PE9 FSMCD VSS_7 VDD_7 PE0 FSMCD7 PE FSMCD8 PE FSMCD9 PE FSMCD0 /8

44 STM0E-EVAL IO assignment UM088 Table 9. STM0E-EVAL IO assignment Pin # Pin name STM0E-EVAL IO assignment 7 PE FSMCD 8 PE FSMCD 9 PB0 Smart_IO 70 PB Smart Reset 7 VSS_ 7 VDD_ 7 PB Smart_CK / MC_pin (NTC) / Audio IS_CMD 7 PB Audio IS_CK 7 PB USB Disconnect 7 PB Audio IS_DIN 77 PD8 FSMCD 78 PD9 FSMCD 79 PD0 FSMCD 80 PD FSMCA 8 PD FSMCA7 8 PD FSMCA8 8 VSS_8 8 VDD_8 8 PD FSMCD0 8 PD FSMCD 87 PG FSMCA 88 PG FSMCA 89 PG FSMCA 90 PG FSMCA 9 PG FSMC_INT 9 PG7 JOY_Select 9 PG8 User Button B 9 VSS_9 9 VDD_9 9 PC MC_TIM_CH pin (UH) / Smart_ CMD / VCC/IS_MCK 97 PC7 MC_TIM_CH pin 7(VH) / Smartcard_OFF 98 PC8 MC_TIM_CH pin (WH) / MicroSD card D0 99 PC9 MicroSD card D 00 PA8 MCO / LCD backlight /QST pin 0 PA9 USART TX /8

45 UM088 STM0E-EVAL IO assignment Table 9. STM0E-EVAL IO assignment Pin # Pin name STM0E-EVAL IO assignment 0 PA0 USART RX 0 PA USB DM 0 PA USB DP 0 PA Debug TMS 0 NC 07 VSS_ 08 VDD_ 09 PA Debug TCK 0 PA Debug TDI PC0 IRDA TX / MicroSD card D PC IRDA RX /MicroSD card D PC MicroSD card CLK PD0 FSMCD PD FSMCD PD Sd card CMD / MC_TIM_ETR pin 7 (PFCsync) 7 PD JOY_Down 8 PD FSMCNOE 9 PD FSMCNWE 0 VSS_0 VDD_0 PD FSMCNWAIT PD7 FSMCNE PG9 FSMCNE PG0 FSMCNE PG PDN of Audio DAC 7 PG FSMCEBAR 8 PG JOY_Right 9 PG JOY_Left 0 VSS_ VDD_ PG JOY_Up PB Debug TDO PB Debug TRST/MC_TIM_CH pin 7 (PFCsync) PB Temperature SMBIA / MC_TIM_CH pin 9 (PFC pwm)/ QST pin0 /8

46 STM0E-EVAL IO assignment UM088 Table 9. STM0E-EVAL IO assignment Pin # Pin name STM0E-EVAL IO assignment PB Audio IC_SCL & Temperature SCL / QST pin 7 PB7 Audio_IC_SDA & Temperature SDA / QST pin 8 BOOT0 BOOT0 9 PB8 CAN RX 0 PB9 CAN TX PE0 FSMCBLN0 PE FSMCBLN VSS_ VDD_ /8

47 UM088 Revision history Revision history Table 0. Document revision history Date Revision Changes -May-008 Initial release. -June-008 Added information on NOR Flash references in Section.0 on page. Updated schematics in Section on page 9. 7/8

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