UM1461 User manual - ebvnews.ru · The STM3240G-EVAL evaluation board is a complete demonstration...
Transcript of UM1461 User manual - ebvnews.ru · The STM3240G-EVAL evaluation board is a complete demonstration...
2 September 2011 Doc ID 022138 Rev 1 1/65
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UM1461User manual
STM3240G-EVAL evaluation board
IntroductionThe STM3240G-EVAL evaluation board is a complete demonstration and development platform for the STM32 F-4 series and includes an embedded STM32F407IGH6 high-performance ARM®Cortex™-M4 32-bit microcontroller.
The full range of hardware features on the board is provided to help you evaluate all peripherals (USB OTG HS, USB OTG FS, ethernet, motor control, CAN, MicroSD card, smartcard, USART, Audio DAC, RS-232, IrDA, SRAM, MEMS, EEPROM… etc.) and develop your own applications. Extension headers make it possible to easily connect a daughter board or wrapping board for your specific application.
The in-circuit ST-LINK/V2 tool can be easily used for JTAG and SWD interface debugging and programming.
Figure 1. STM3240G-EVAL evaluation board
www.st.com
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Contents UM1461
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Contents
1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.2 Demonstration software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.3 Order code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.4 Delivery recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2 Hardware layout and configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
2.1 Power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
2.2 Boot option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
2.3 Clock source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
2.4 Reset source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
2.5 Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
2.6 EEPROM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
2.7 CAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
2.8 RS-232 and IrDA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
2.9 Motor control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
2.10 Smartcard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
2.11 MicroSD card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.12 MEMS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.13 Potentiometer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.14 ADC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.15 USB OTG FS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
2.16 Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
2.17 USB OTG HS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
2.18 Camera module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
2.19 SRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
2.20 Development and debug support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
2.21 Display and input devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
3 Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
3.1 Daughter board extension connectors CN1, 2, 3 and 4 . . . . . . . . . . . . . . 22
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3.2 Motor control connector CN5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
3.3 MicroSD connector CN6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
3.4 Ethernet RJ45 connector CN7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
3.5 USB OTG FS Micro-AB connector CN8 . . . . . . . . . . . . . . . . . . . . . . . . . . 31
3.6 USB OTG HS Micro-AB connector CN9 . . . . . . . . . . . . . . . . . . . . . . . . . 31
3.7 CAN D-type 9-pin male connectors CN10 (CAN1 or CAN2) . . . . . . . . . . 32
3.8 Audio connector CN11 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
3.9 Trace debugging connector CN13 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
3.10 JTAG debugging connector CN14 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
3.11 Camera module connector CN15 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
3.12 RS-232 connector CN16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
3.13 Power connector CN18 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
3.14 TFT LCD connector CN19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
3.15 Smartcard connector CN20 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
3.16 ST-LINK/V2 connector CN21 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
3.17 Camera extension connector CN23 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
3.18 STM3240G-EVAL pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
4 Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
5 Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
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Overview UM1461
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1 Overview
1.1 Features■ STM32F407IGT6 microcontroller. The MCU marking on the first boards manufactured is
STM32F457IGH6.
■ 16 Mbit SRAM
■ 1 Gbyte or more MicroSD card
■ Boot from user Flash, system memory or SRAM
■ Both ISO/IEC 14443 type A and B smartcard support
■ I2C compatible serial interface 8 Kbytes EEPROM, MEMS and I/O expander
■ IEEE 802.3-2002 compliant ethernet connector
■ Two CAN 2.0 A/B channels on the same DB connector
■ RS-232 communication
■ IrDA transceiver
■ USB OTG (HS and FS) with Micro-AB connector
■ Inductor motor control connector
■ I2S Audio DAC, stereo audio jack for headset
■ 3.2" 240x320 TFT color LCD with touchscreen
■ 4 color LEDs
■ Camera module and extension connector for ST camera plug-in
■ Joystick with 4-direction control and selector
■ Reset, wakeup, tamper and user button
■ RTC with backup battery
■ Extension connector for daughterboard or wrapping board
■ JTAG, SWD and trace debug support
■ Embedded ST-LINK/V2
■ Five 5V power supply options: Power jack, USB FS connector, USB HS connector, ST-LINK/V2 or daughterboard
1.2 Demonstration softwareDemonstration software is preloaded in the board's Flash memory for easy demonstration of the device peripherals in standalone mode. For more information and to download the latest version, please refer to STM3240G-EVAL demonstration software available on web: www.st.com/mcu
1.3 Order codeTo order the STM32F407IGT6 MCU evaluation board, use order code STM3240G-EVAL.
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1.4 Delivery recommendationsSeveral verifications are needed before using the board for the first time to make sure that nothing has been damaged during shipment and no components are unplugged and lost.
When the board is extracted from its plastic bag, please check that no component remains in the bag. Main components to verify are:
1. The 25MHz crystals (X1 and X4) may have been removed by a shock.
2. The camera connected on socket CN15 located on the right side of the board under the JTAG connector may be unplugged. If this is the case, please refer to the note in Section 2.18: Camera module to make sure to replug it in the correct position.
3. The MicroSD card may have been ejected from its connector CN6 (top left corner of the board).
The plastic protection on the camera should be removed carefully as the connection is very fragile.
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Hardware layout and configuration UM1461
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2 Hardware layout and configuration
The STM3240G-EVAL evaluation board is designed around the STM32F407IGH6 in the UFBGA176 package. The hardware block diagram Figure 2 illustrates the connection between STM32F407IGH6 and peripherals (Camera module, LCD, SRAM, EEPROM, MEMS, USART, IrDA, USB OTG HS, USB OTG FS, Ethernet, Audio, CAN bus, Smart card, MicroSD card and motor control) and Figure 3 will help you locate these features on the actual evaluation board.
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Figure 2. Hardware layout and configuration
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Figure 3. STM3240G-EVAL evaluation board layout
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2.1 Power supplySTM3240G-EVAL evaluation board is designed to be powered by 5V DC power supply and to be protected by PolyZen from a wrong power plug-in event. It is possible to configure the evaluation board to use any of following five sources for the power supply:
● 5V DC power adapter connected to CN18, the Power Jack on the board
● 5V DC power with 500 mA limitation from CN8, the USB OTG FS Micro-AB connector
● 5V DC power with 500 mA limitation from CN9, the USB OTG HS Micro-AB connector
● 5V DC power with 500 mA limitation from CN21, the ST-LINK/V2 USB connector
● 5V DC power from both CN1 and CN3, the extension connector for daughterboard (DTB for daughterboard on silkscreen)
The power supply is configured by setting the related jumpers JP4, JP32, JP18 and JP19 as described inTable 1.
Table 1. Power related jumpers and solder bridges
Jumper Description
JP4JP4 should be fitted to enable power down reset (PDR). PDR is disabled when JP4 is not fitted. Default setting: Fitted.
JP32
MCU_VDD is connected to 3.3V power when JP32 is closed and MCU current consumption measurement can be done manually by multi-meter when JP32 is open.Default setting: Fitted.
JP18
JP18 is used to select one of the five possible power supply sources.
To select the ST-LINK/V2 USB connector (CN21) power supply, set JP18 as shown:(Default setting)
To select power supply jack (CN18) power supply, set JP18 as shown:
To select daughterboard connector (CN1 and CN3) power supply, set JP18 as shown:
HSFSDTBPSUSTlk
HSFSDTBPSUSTlk
HSFSDTBPSUSTlk
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Note: The LED LD9 is lit when the STM3240G-EVAL evaluation board is powered by the 5V correctly.
2.2 Boot optionThe STM3240G-EVAL evaluation board is able to boot from:
● Embedded User Flash
● System memory with boot loader for ISP
● Embedded SRAM for debugging
The boot option is configured by setting switch SW1 (BOOT1) and SW2 (BOOT0). The BOOT0 can be configured also via RS-232 connector CN16.
JP18(cont.)
To select USB OTG FS (CN8) power supply, set JP18 as shown:
To select USB OTG HS (CN9) power supply, set JP18 as shown:
To select power supply jack (CN18) power supply to both STM3240G-EVAL and daughterboard connected on CN1 and CN3, set JP18 as shown (daughterboard must not have its own power supply connected)
JP19
To connect Vbat to the battery, set JP19 as shown:
To connect Vbat to 3.3V power, set JP19 as shown: (Default setting)
Table 1. Power related jumpers and solder bridges (continued)
Jumper Description
HSFSDTBPSUSTlk
HSFSDTBPSUSTlk
HSFSDTBPSUSTlk
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Table 2. Boot related jumpers
BOOT 0 BOOT 1 Boot source
0 Don’t care STM3240G-EVAL boots from User Flash (Default setting)
1 1 STM3240G-EVAL boots from Embedded SRAM
1 0 STM3240G-EVAL boots from System Memory
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2.3 Clock sourceFour clock sources are available on STM3240G-EVAL evaluation board for STM32F407IGH6 and RTC embedded:
● X1, 25 MHz crystal for ethernet PHY with socket. It can be removed when clock is provided by MCO pin of the MCU
● X2, 26 MHz crystal for USB OTG HS PHY
● X3, 32 kHz crystal for embedded RTC
● X4, 25 MHz crystal with socket for STM32F407IGH6 microcontroller (It can be removed from socket when internal RC clock is used.)
2.4 Reset sourceThe reset signal of STM3240G-EVAL evaluation board is low active and the reset sources include:
● Reset button B1
● Debugging tools from JTAG connector CN14 and trace connector CN13
● Daughterboard from CN3
● RS-232 connector CN16 for ISP
● ST-LINK/V2
2.5 AudioThe STM3240G-EVAL evaluation board enables stereo audio play and microphone recording by an external headset connected on audio jack CN11. An audio DAC CS43L22 is connected to both I2S2 port and one DAC channel while a microphone amplifier is connected to the ADC of STM32F407IGH6. The CS43L22 can be configured via I2C1 and the external PLL (U36) can be used to provide external clock which is connected to I2S_CKIN pin (PC9).
2.6 EEPROMA 64KBit EEPROM is connected to the I2C1 bus of STM32F407IGH6.
Table 3. Audio related jumpers
Jumper Description
JP16 Description of JP16 is in Table 10 on page 15.
JP33The microphone amplifier can be disabled when JP33 is fitted.
Default setting: Not fitted
Table 4. EEPROM related jumper and solder bridge
Jumper Description
JP24The EEPROM is in Write Protection mode when JP24 is fitted.
Default Setting: Not fitted
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2.7 CANSTM3240G-EVAL evaluation board enables two channels of CAN2.0A/B compliant CAN bus communication based on a 3.3V CAN transceiver on one DB9 connector (CN10). The two CAN buses can be disconnected by jumpers from relevant STM32F407IGH6 I/Os which are shared with FSMC and USB OTG HS. Jumpers JP3 and JP10 must be refit to enable CAN1 or CAN2 as listed in Table 5.
High-speed, Standby and Slope Control modes are available and can be selected by setting jumper JP7.
2.8 RS-232 and IrDABoth RS-232 and IrDA communication is enabled by D-type, 9-pin RS-232 connectors (CN16) and IrDA transceiver U11 which are connected to USART3 of STM32F407IGH6 on STM3240G-EVAL evaluation board.
For ISP support, two signals are added on the RS-232 connector CN16:
● Bootloader_RESET (shared with CTS signal)
● Bootloader_BOOT0 (shared with DSR signal)
RS-232 or IrDA can be selected by setting of JP22 and ISP can be enabled by setting of jumper JP29 and JP34.
Table 5. CAN-related jumpers
Jumper Description
JP3
To connect CAN1_TX to CAN transceiver, set JP3 as shown:
To connect CAN2_TX to CAN transceiver, set JP3 as shown:
JP10
To connect CAN1_RX to CAN transceiver, set JP10 as shown:
To connect CAN2_RX to CAN transceiver, set JP10 as shown:
PD0 and PB5 are disconnected from the CAN transceiver and used for FSMC and USB_OTG_HS when jumper JP10 is not fitted (default setting).
JP7
To enable the selected CAN transceiver to work in Standby mode, set JP7 as shown:
To enable the selected CAN transceiver to work in High-speed mode, set JP7 as shown (default setting):
To enable the selected CAN transceiver to work in Slope Control mode, do not fit a jumper on JP7.
JP9To enable the terminal resistor for the selected CAN, fit a jumper on JP9.
(Default setting: not fitted)
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2.9 Motor controlSTM3240G-EVAL evaluation board enables a three-phase brushless motor control via a 34- pin connector (CN5), 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, 3-phase motor current, bus voltage, heatsink temperature coming from the motor driving board and 6 channels of PWM control signal going to the motor driving circuit.
The solder bridge (SB18) allows to choose two kinds of synchronization methods for PFCs (Power Factor Correction) while the SB17 can be set for different signals on pin 31 of CN5.
The I/O pins used on motor control connector CN5 are multiplexed with some peripherals on the board; either motor control connector or multiplexed peripherals can be enabled by the setting of solder bridges SB10, SB11, SB12, SB14, SB15 and SB16.
Table 6. RS-232 and IrDA related jumper
Jumper Description
JP22
To connect USART3_RX to IrDA transceiver and enable IrDA communication, set JP22 as shown:
To connect USART3_RX to RS-232 transceiver and enable RS-232 communication, set JP22 as shown (Default setting):
To enable MicroSD card, which shares same I/Os with RS-232, JP22 is not fitted.
JP29Bootloader_BOOT0 is managed by pin 6 of CN16 (RS-232 DSR signal) when JP29 is closed. This configuration is used for boot loader application only.
Default setting: Not fitted.
JP34Bootloader_RESET is managed by pin 8 of CN16 (RS-232 CTS signal) when JP34 is fitted. This configuration is used for boot loader application only.
Default setting: Not fitted.
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Table 7. Motor control solder bridges
Solder Bridge
DescriptionMultiplexed peripherals
SB18
When closed, SB18 redirects the PFC synchronized signal to the timer 3 input capture pin 2 in addition to the timer 3 external trigger input. Default setting: Open
SB17
For CN5 encoder signal input (pin 31), SB17 must be open.For CN5 special motor analog signal input (pin 31), SB17 must be closed.Default setting: Open
SB16To connect MC_EmergencySTOP to PI4, close SB16.Default setting: Open
Camera module connected to
CN15
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Note: 1 Some 0 ohm resistors have to be removed or soldered to enable motor control application except the solder bridges configurations mentioned above:
– R34, R58 & R51 to be removed
– R66, R204 & R205 to be soldered
2 MicroSD card must be removed from CN6 for motor control application.
2.10 SmartcardSTMicroelectronics smartcard interface chip ST8024 is used on STM3240G-EVAL board for asynchronous 3V and 5V smartcards. It performs all supply protection and control functions based on the connections with STM32F407IGH6 listed in Table 8:
SB10To connect MC_EnIndex to PB8, close SB10.Default setting: Open
EthernetSB11To connect MC_CurrentA to PC1, close SB11.Default setting: Open
SB12To connect MC_CurrentB to PC2, close SB12.Default setting: Open
SB14To connect MC_EnB to PD13, close SB14.Default setting: Open
FSMC
SB15To connect MC_EnA to PD12 close SB15.Default setting: Open
Table 7. Motor control solder bridges (continued)
Solder Bridge
DescriptionMultiplexed peripherals
Table 8. Connection between ST8024 and STM32F407IGH6
Signals of ST8024 DescriptionConnect to
STM32F407IGH6
5V/3V Smartcard power supply selection pin PH15
I/OUC MCU data I/O line PC6
XTAL1 Crystal or external clock input PG7
OFFDetect presence of a card, MCU interrupt, share same pin with motor controller
PF6
RSTIN Card reset input from MCU PF7
CMDVCCStart activation sequence input (Active Low), share same pin with I2S DAC and Motor control
PG12
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Smartcard shares some I/Os with I2S bus for Audio. Some jumper settings need to be reconfigured to enable smartcard as indicated below:
2.11 MicroSD cardThe 1 GByte or more MicroSD card connected to SDIO of STM32F407IGH6 is available on the board. MicroSD card detection is managed by the standard I/O port PH13. MicroSD card shares I/Os with motor control, RS-232 and audio. The jumpers JP22 and JP16 must be refit and motor control connector (CN5) must be disconnected for MicroSD card function.
2.12 MEMSA ST MEMS device LIS302DL is connected to I2C1 bus of STM32F407IGH6 on the board.
2.13 PotentiometerThere is one 10K ohm potentiometer RV1 connected to PF9 of STM32F407IGH6 on the board.
2.14 ADCTwo test points (TP3 AIN-) and (TP4 AIN+) are placed close to port PC1 of the MCU allowing precise measurements on ADC1, ADC2 or ADC3 channel 11. As PC1 is also used as current A input on the motor control connector it is recommended to remove R219 to optimize noise immunity on this input.
A potentiometer RV1 is connected to PF9 of STM32F407IGH6. If needed, a low pass filter (R74 and C59) can be placed on this input to reduce the bandwidth of the analog input PF9.
It is also possible to place the Ethernet PHY (U5) in low power mode in order to reduce the noise induced by this high frequency peripheral. Power down pin (MII_INT in the schematic) is connected to PB14 of the MCU, so this I/O can be configured as output low during analog precision measurement.
Table 9. Smartcard related jumper
Jumper Description
JP21
To connect Smartcard_IO to PC6, JP21must be fitted.
JP21 must not be fitted for Audio DAC connection to I2S.
Default setting: Not Fitted
Table 10. MicroSD card related jumpers
Jumper Description
JP22 Description of JP22 is in Section 2.8: RS-232 and IrDA
JP16
PC9 is connected to MicroSDCard_D1 when JP16 is set as shown to the right: (Default setting):
PC9 is connected to I2S_CKIN when JP16 is set as show to the right:
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2.15 USB OTG FSSTM3240G-EVAL evaluation board enables USB OTG full speed communication via a USB Micro-AB connector (CN8) and USB power switch (U1) connected to VBUS. The evaluation board can be powered by this USB connection at 5V DC with a 500 mA current limitation.
The LED LD6 indicates that the power switch (U1) is ON and STM3240G-EVAL functions as a USB host or that the VBUS is powered by another USB host while STM3240G-EVAL functions as a USB device. The LED LD5 indicates an over-current.
2.16 EthernetSTM3240G-EVAL evaluation board enables 10/100M ethernet communication by a PHY DP83848CVV (U5) and integrated RJ45 connector (CN7). Both MII and RMII interface modes can be selected by setting jumpers JP5, JP6 and JP8 as listed below:
Note: 1 A test point (TP2) is available on the board for the PTP_PPS feature test.
2 The Ethernet PHY (U5) can be powered down by regulating PB14.
3 In RMII mode it is not possible to use MCO to output the 50 MHz clock to PHY due to the PLL limitation explained in chapter 2.6.5 of STM32F20x & STM32F21x Errata sheet (ES0005). In such a case it is possible to provide the 50 MHz clock by soldering a 50 MHz oscillator (ref SM7745HEV-50.0M or equivalent) on the U3 footprint located under CN3 and also removing jumper on JP5. This oscillator is not provided with the board.
Table 11. Ethernet related jumpers and solder bridges
Jumper Description
JP8
JP8 is used to select MII or RMII interface mode.
To enable MII, JP8 is not fitted.To enable RMII interface mode, JP8 is fitted.
Default setting: Not fitted
JP6
To enable MII interface mode, set JP6 as shown (Default setting):
To enable RMII interface mode, set JP6 as shown:
JP5
To provide 25 MHz clock for MII or 50 MHz clock for RMII by MCO at PA8, set JP5 as shown (Default setting):
To provide 25 MHz clock by external crystal X1 (for MII interface mode only) set JP5 as shown:
When clock is provided by external oscillator U3, JP5 must not be fitted.
SB1
SB1 is used to select clock source only for RMII mode.
To connect the clock from oscillator U3 to RMII_REF_CLK, close SB1.The resistor R212 has to be removed in this case.
Default setting: Closed.
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2.17 USB OTG HSThe STM3240G-EVAL evaluation board enables USB OTG high speed communication via a USB Micro-AB connector (CN9), USB high speed PHY (U8) and USB power switch (U4) connected to VBUS. The evaluation board can be powered by this USB connector (CN9) at 5V DC with a 500 mA current limitation.
The LED LD7 indicates that power switch (U4) is ON and STM3240G-EVAL is working as a USB host or that VBUS is powered by another USB host when STM3240G-EVAL is working as a USB device. The LD8 indicates an over-current.
The USB ULPI bus is shared with CAN2 bus, the JP10 and JP3 must be kept open for USB OTG HS.
Note: On boards MB786 prior to version B03 it is possible that after a board RESET the MCU is no longer able to control communication with the OTG PHY (U8). When this issue occurs the only way to recover OTG PHY control is to power the board OFF and ON. This issue is fixed on MB786 version B03 or newer.
Table 12. MicroSD card related jumper
Jumper Description
JP31To disable USB OTG PHY U8, JP31 is not fitted.Default setting: Fitted
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2.18 Camera moduleA camera module is connected to DCMI bus of STM32F407IGH6 and shares the same I/Os with the motor control connector. SB16 must be kept open for camera module application.
There are two possible modules and omnivision cameras populated on the CN15 connector of the board:
● 1.3 Megapixel: Module CN01302H1045-C: Camera OV9655
● 2 Megapixel: Module CN020VAH2554-C: Camera OV2640
Note: 1 When the camera demo loaded in Flash is executed, some green pixels may appear in high contrast zones, depending on the image captured.
2 The camera is not firmly restricted on its connector (CN15). It is possible that during shipment the camera could be unplugged. In such case you need to plug it into the right position as shown on the picture below (pin 1 dot on top left corner of the socket).
It is not recommended to remove it in order to avoid false contact later.
Table 13. Camera module related jumpers
Jumper Description
JP26To set power down mode for the camera module, JP26 is fitted.Default setting: Not Fitted
SB16 Description of SB16 is in Section 2.9: Motor control.
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Figure 4. Pin 1 camera plug
The camera extension connector CN23 is available on the boards to connect the ST camera plug-in board.
2.19 SRAMThe 16 Mbit SRAM is connected to FSMC bus of STM32F407IGH6 which shares the same I/Os with CAN1 bus. JP3 and JP10 must not be fitted for SRAM and LCD application.
Table 14. SRAM related jumpers
Jumper Description
JP1
Connect PE4 to SRAM as A20 by setting JP1 as shown (Default setting):
Connect PE4 to trace connector CN13 as TRACE_D1 by setting JP1 as shown:
JP2
Connect PE3 to SRAM as A19 by settiing JP2 as shown (Default setting):
Connect PE3 to trace connector CN13 as TRACE_D0 by setting JP2 as shown:
321
321
321
321
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2.20 Development and debug supportVersion 2 of the ST-LINK, called ST-LINK/V2, is embedded on the board. This tool allows onboard program loading and debugging of the STM32F using the JTAG or SWD interface. Third-party debug tools are also supported by the JTAG (CN14) or Trace (CN13) connectors.
To communicate with the embedded ST-LINK/V2, a specific driver needs to be installed on your PC. To download and install this driver, refer to the software and development tools page for the STM32F family available on www.st.com (the install shield is called ST-LINK_V2_USBdriver.exe).
Third-party toolchains, Atollic TrueSTUDIO, KEIL ARM-MDK, IAR EWARM and Tasking VX-Toolset support ST-LINK/V2 according to the following table:
The embedded ST-LINK/V2 connects to the PC via a standard USB cable from connector CN21. The bicolor LED LD10 (COM) indicates the status of the communication as follows:
● Slow blinking Red/Off: At power-on before USB initialization
● Fast blinking Red/Off: After the first correct communication between PC and ST-LINK/V2 (enumeration)
● Red LED On: When initialization between PC and ST-LINK/V2 is successfully finished
● Green LED On: After successful target communication initialization
● Blinking Red/Green: During communication with target
● Green On: Communication finished and OK
● Orange On: Communication failure
Note: It is possible to power the board via CN21 (embedded ST-LINK/V2 USB connector) even if an external tool is connected to CN13 (trace) or CN14 (external JTAG and SWD).
Table 15. Third-party toolchain support
Manufacturer Toolchain Version
Atollic TrueSTUDIO 2.1
IAR EWARM 6.20.4
Keil MDK-ARM 4.20
Tasking VX-Toolset ARM Cortex-M 4.0.1
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2.21 Display and input devicesThe 3.2” TFT color LCD connected to FSMC bus and 4 general purpose color LEDs (LD 1, 2, 3, 4) are available as display devices. A touchscreen connected to an I/O expander (U24), 4-direction joystick with selection key, general purpose button (B4), wakeup button (B2) and tamper detection button (B3) are available as input devices.
Table 16. LCD modules
Pin on CN19
Pin name Pin connectionPin on CN19
Pin name Pin connection
1 CS FSMC_NE3 (PG10) 18 PD14 FSMC_D12
2 RS FSMC_A0 19 PD15 FSMC_D13
3 WR/SCL FSMC_NWE 20 PD16 FSMC_D14
4 RD FSMC_NOE 21 PD17 FSMC_D15
5 RESET RESET# 22 BL_GND GND
6 PD1 FSMC_D0 23 BL_Control +5V
7 PD2 FSMC_D1 24 VDD +3V3
8 PD3 FSMC_D2 25 VCI +3V3
9 PD4 FSMC_D3 26 GND GND
10 PD5 FSMC_D4 27 GND GND
11 PD6 FSMC_D5 28 BL_VDD +5V
12 PD7 FSMC_D6 29 SDO NC
13 PD8 FSMC_D7 30 SDI NC
14 PD10 FSMC_D8 31 XL I/O expander U24
15 PD11 FSMC_D9 32 XR I/O expander U24
16 PD12 FSMC_D10 33 YD I/O expander U24
17 PD13 FSMC_D11 34 YU I/O expander U24
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3 Connectors
3.1 Daughter board extension connectors CN1, 2, 3 and 4Four male headers, CN1, 2, 3 and 4, can be used to connect with a daughterboard or standard wrapping board to STM3240G-EVAL evaluation board. A total number of 140 GPIOs are available on the board.
Each pin on CN1, 2, 3 and 4 can be used by a daughterboard after disconnecting it from the corresponding function block on STM3240G-EVAL evaluation board. Please refer to Table 17 and Table 20 for details.
Table 17. Daughter board extension connector CN1
Pin Description Alternative functionHow to disconnect with
function block onSTM3240G-EVAL board
1 GND - -
3 PE3 Trace_D0 and FSMC_A19 Keep JP2 on 2<->3
5 PE5 Trace_D2
7 PI8 LCD_HSYNC -
9 PC14 OSC32_IN Remove R84, SB4 closed
11 PC15 OSC32_OUT Remove R85, SB5 closed
13 PI10 MII_RX_ER Remove RS3
15 PF0 FSMC_A0 -
17 PF2 FSMC_A2 -
19 GND - -
21 PF5 FSMC_A5 -
23 PF7 Smartcard_RST -
25 PF9 Potentiometer Remove R151
27 PH0 OSC_IN SB6 closed
29 PC0 ULPI_STP -
31 PC1 MII_MDC SB11 open
33 PC3 MII_TX_CLK Remove R51
35 PA0 WakeUP Remove R139
37 PA2 MII_MDIO -
39 GND - -
41 PH4 ULPI_NXT Remove R61
43 NC - -
45 NC - -
47 EMU_3V3 - -
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49 EMU_5V - -
2 PE2 Trace_CLK -
4 PE4 Trace_D1 & FSMC_A20 Keep JP1 on 2<->3
6 PE6 Trace_D3 -
8 PC13 Anti-Tamper Remove R143
10 GND - -
12 PI9 LED3 Remove R141
14 PI11 ULPI_DIR Remove R62
16 PF1 FSMC_A1 -
18 PF3 FSMC_A3 -
20 PF4 FSMC_A4 -
22 PF6 Smartcard_OFF Remove R126
24 PF8 LCD_CS
26 PF10 Audio_IN Remove R196
28 PH1 OSC_OUT Remove R86, SB7 closed
30 GND - -
32 PC2 MII_TXD2 & MC SB12 open
34 VREF+ - -
36 PA1 MII_RX_CLK JP6 open
38 PH2 MII_CRS Remove RS3
40 PH3 MII_COL Remove RS3
42 PH5 OTG_FS_PowerSwitchOn Remove R18
44 NC - -
46 NC - -
48 APP_3V3 - -
50 GND - -
Table 17. Daughter board extension connector CN1 (continued)
Pin Description Alternative functionHow to disconnect with
function block onSTM3240G-EVAL board
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Table 18. Daughterboard extension connector CN2
PinDescripti
onAlternative Function
How to disconnect with function block on STM3240G-EVAL board
1 GND - -
3 PA3 ULPI_D0 -
5 PA5 ULPI_CLK Remove R69
7 PA7 MII_RX_DV Remove RS2, JP8 open
9 PC5 MII_RXD1 Remove R58
11 PB0 ULPI_D1 -
13 PB2 BOOT1 -
15 PF12 FSMC_A6 -
17 PF14 FSMC_A8 -
19 GND - -
21 PG1 FSMC_A11 -
23 PE8 FSMC_D5 -
25 PE10 FSMC_D7 -
27 PE12 FSMC_D9 -
29 PE14 FSMC_D11 -
31 PE15 FSMC_D12 -
33 PB11 ULPI_D4 -
35 PH7 MII_RXD3 Remove RS3
37 PH9 DCMI_D0 Remove camera module from CN15
39 GND - -
2APP_VCC
- -
4 PA4 Audio_DAC_OUT Remove R115
6 PA6 DCMI_PIXCK Remove camera module from CN15
8 PC4 MII_RXD0 Remove RS2
10 GND - -
12 PB1 ULPI_D2 -
14 PF11 OTG_FS_Overcurrent Remove R15
16 PF13 FSMC_A7 -
18 PF15 FSMC_A9 -
20 PG0 FSMC_A10 -
22 PE7 FSMC_D4 -
24 PE9 FSMC_D6 -
26 PE11 FSMC_D8 -
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28 PE13 FSMC_D10 -
30 GND - -
32 PB10 ULPI_D3 -
34 PH6 MII_RXD2 Remove RS5
36 PH8 DCMI_HSYNC & MCRemove camera module from CN15. Disconnect motor control board from CN5.
38 PH10 DCMI_D1 &MCRemove camera module from CN15. Disconnect motor control board from CN5.
40 PH11 DCMI_D2 &MCRemove camera module from CN15. Disconnect motor control board from CN5.
Table 19. Daughter board extension connector CN3
Pin Description Alternative FunctionHow to disconnect with function block on
STM3240G-EVAL board
1 GND - -
3 PI1 I2S_CK -
5 PH15Smartcard_3/5V and MC
Disconnect motor control board from CN5
7 PH13MicroSDCard_detect and MC
Remove MicroSD card from CN6. Disconnect motor control board from CN5.
9 PC13 Anti-tamper Remove R143
11 RESET# Reset button -
13 PA11 OTG_FS_DM Remove R17
15 PA9 VBUS_FSRemove USB cable from CN8.Remove R18.
17 PC9MicroSDCard_D1 & I2S_CKIN
Keep JP16 on open
19 EMU_5V - -
21 PC6I2S_MCK & Smartcard_IO
JP21 open
23 PG7 Smartcard_CLK -
25 PG5 FSMC_A15 -
27 PG3 FSMC_A13 -
29 PD15 FSMC_D1 -
31 PD14 FSMC_D0 -
33 PD12 FSMC_A17 SB15 open
35 PD10 FSMC_D15 -
Table 18. Daughterboard extension connector CN2 (continued)
PinDescripti
onAlternative Function
How to disconnect with function block on STM3240G-EVAL board
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37 PD8 FSMC_D13 -
39 GND - -
41 PB13 ULPI_D6 & CAN2_TX -
43 PH12 DCMI_D3 & MCRemove camera module from CN15.Disconnect motor control board from CN5.
45 NC - -
47 EMU_3V3 - -
49 EMU_5V - -
2 PI2 IO_Expandor_INT Remove R136
4 PI0 I2S_CMD -
6 PH14 DCMI_D4 & MCRemove camera module from CN15.Disconnect motor control board from CN5.
8 PA13 TMS/SWDIO -
10 GND - -
12 PA12 OTG_FS_DP Remove R19
14 PA10 OTG_FS_ID Remove R21
16 PA8 MCO JP5 open
18 PC8MicroSDCard_D0 & MC
Remove MicroSD card from CN6.
Disconnect motor control board from CN5.
20 PC7 LED4 Remove R140
22 PG8 LED2 Remove R154
24 PG6 LED1 Remove R155
26 PG4 FSMC_A14 -
28 PG2 FSMC_A12 -
30 GND - -
32 PD13 FSMC/MCSB14 open.
Disconnect motor control board from CN5.
34 PD11 FSMC_A16 -
36 PD9 FSMC_D14 -
38 PB15 OneNAND_INT Remove R53
40 PB14 MII_INT Remove R41
42 PB12 ULPI_D5 -
44 NC - -
46 NC - -
Table 19. Daughter board extension connector CN3 (continued)
Pin Description Alternative FunctionHow to disconnect with function block on
STM3240G-EVAL board
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48 APP_3V3 - -
50 GND - -
Table 20. Daughter board extension connector CN4
Pin Description Alternative FunctionHow to disconnect with function block on
STM3240G-EVAL board
1 GND - -
3 PI6 DCMI_D6 & MCRemove camera module from CN15.Disconnect motor control board from CN5.
5 PI4 DCMI_D5 & MCRemove camera module from CN15.SB16 open
7 PE0 FSMC_BL0 -
9 PB8 MII_TXD3 & MC
Remove RS5
SB10 open
Disconnect motor control board from CN5.
11 BOOT0 BOOT0 -
13 PB6 I2C1_SCL Remove R103
15 PB4 TRST -
17 PG15 User button Remove R150
19 GND - -
21 PG12Smartcard_CMDVCC & LCD_VSYNC
Remove R128
23 PG10 FSMC_NE3 Remove LCD board MB785 from CN19
25 PD7 FSMC_NE1 Remove R52
27 PD5 FSMC_NWE -
29 PD3 FSMC_CLK -
31 PD2 MicroSDCard_CMD -
33 PD0 FSMC_D2 & CAN1_RX JP10 open
35 PC11MicroSDCard_D3 & RS232/IrDA_RX
JP22 open
Remove MicroSD card from CN6
37 PA15 TDI -
39 GND - -
2 PI7 DCMI_D7 & MCRemove camera module from CN15
Disconnect motor control board from CN5
4 PI5 DCMI_VSYNC & MCRemove camera module from CN15
Disconnect motor control board from CN5
Table 19. Daughter board extension connector CN3 (continued)
Pin Description Alternative FunctionHow to disconnect with function block on
STM3240G-EVAL board
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6 PE1 FSMC_BL1 -
8 PB9 I2C1_SDA Remove R111
10 GND - -
12 PB7 FSMC_NL -
14 PB5 ULPI_D7 & CAN2_RX JP10 open
16 PB3 TDO/SWO -
18 PG14 MII_TXD1 Remove RS6
20 PG13 MII_TXD0 Remove RS6
22 PG11 MII_TX_EN Remove RS6
24 PG9 FSMC_NE2 Remove R47
26 PD6 FSMC_NWAIT Remove R54
28 PD4 FSMC_NOE -
30 GND - -
32 PD1 FSMC_D3 & CAN1_TX JP3 open
34 PC12 MicroSDCard_CLK Remove MicroSD card from CN6
36 PC10MicroSDCard_D2 & RS232/IrDA_TX
Remove MicroSD card from CN6
38 PA14 TCK/SWCLK -
40 PI3 I2S_DIN -
Table 20. Daughter board extension connector CN4
Pin Description Alternative FunctionHow to disconnect with function block on
STM3240G-EVAL board
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3.2 Motor control connector CN5
Figure 5. Motor Control connector CN5
Table 21. Motor Control connector CN5
Description STM32F407IGH6
pin
Pin number of CN5
Pin number of CN5
STM32F407IGH6 pin Description
EMERGENCY STOP
PI4 1 2 GND
PWM-UH PI5 3 4 GND
PWM-UL PH13 5 6 GND
PWM-VH PI6 7 8 GND
PWM-VL PH14 9 10 GND
PWM-WH PI7 11 12 GND
PWM-WL PH15 13 14 PC4BUS
VOLTAGE
PHASE A CURRENT
PC1 15 16 GND
PHASE B CURRENT
PC2 17 18 GND
PHASE C CURRENT
PC3 19 20 GND
NTC BYPASS RELAY
PH8 21 22 GND
DISSIPATIVE BRAKE PWM
PC8 23 24 GND
+5V power +5V 25 26 PC5Heatsink
temperature
PFC SYNC PH10 and PH11 27 28 VDD_Micro
PFC PWM PH12 29 30 GND
Encoder A PD12 31 32 GND
Encoder B PD13 33 34 PB8Encoder
Index
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3.3 MicroSD connector CN6
Figure 6. MicroSD connector CN6
3.4 Ethernet RJ45 connector CN7
Figure 7. Ethernet RJ45 connector CN7
Table 22. MicroSD connector CN6
Pin number Description Pin number Description
1 SDIO_D2 (PC10) 5 SDIO_CLK (PC12)
2 SDIO_D3 (PC11) 6 Vss/GND
3 SDIO_CMD (PD2) 7 SDIO_D0 (PC8)
4 +3V3 8 SDIO_D1 (PC9)
10 MicroSDcard_detect (PH13)
Table 23. RJ45 connector CN7
Pin number
DescriptionPin
numberDescription
1 TxData+ 2 TxData-
3 RxData+ 4 Shield
5 Shield 6 RxData-
7 Shield 8 Shield
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3.5 USB OTG FS Micro-AB connector CN8
Figure 8. USB OTG FS Micro-AB connector CN8
3.6 USB OTG HS Micro-AB connector CN9
Figure 9. USB OTG HS Micro-AB connector CN9
Table 24. USB OTG FS Micro-AB connector CN8
Pin number Description Pin number Description
1 VBUS (PA9) 4 ID (PA10)
2 D- (PA11) 5 GND
3 D+ (PA12)
Table 25. USB OTG HS Micro-AB connector CN9
Pin number Description Pin number Description
1 VBUS 4 ID
2 D- 5 GND
3 D+
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3.7 CAN D-type 9-pin male connectors CN10 (CAN1 or CAN2)
Figure 10. CAN D-type 9-pin male connector CN10 (CAN1 or CAN2)
3.8 Audio connector CN11A 3.5mm Stereo audio jack CN11 is available on STM3240G-EVAL board to support headset (headphone & microphone integrated).
3.9 Trace debugging connector CN13
Figure 11. Trace debugging connector CN13
Table 26. CAN D-type 9-pin male connector CN10 (CAN1 or CAN2)
Pin number Description Pin number Description
1,4,8,9 NC 7 CANH
3,5,6 GND 2 CANL
Table 27. Trace debugging connector CN13
Pin number Description Pin number Description
1 3.3V power 2 TMS/PA13
3 GND 4 TCK/PA14
5 GND 6 TDO/PB3
7 KEY 8 TDI/PA15
9 GND 10 RESET#
11 GND 12 TraceCLK/PE2
13 GND 14 TraceD0/PE3 or SWO/PB3
15 GND 16 TraceD1/PE4 or nTRST/PB4
17 GND 18 TraceD2/PE5
19 GND 20 TraceD3/PE6
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3.10 JTAG debugging connector CN14
Figure 12. JTAG debugging connector CN14
3.11 Camera module connector CN15
Figure 13. Camera module connector CN15 (front view)
Table 28. JTAG debugging connector CN14
Pin number Description Pin number Description
1 3.3V power 2 3.3V power
3 PB4 4 GND
5 PA15 6 GND
7 PA13 8 GND
9 PA14 10 GND
11 RTCK 12 GND
13 PB3 14 GND
15 RESET# 16 GND
17 DBGRQ 18 GND
19 DBGACK 20 GND
Table 29. Camera module connector CN15
Pin number Description Pin number Description
1 DGND 13 XCLK1
2 DGND 14 Y6(PI6)
3 SIO_D (PB9) 15 DGND
4 AVDD (2.8V) 16 Y5(PI4)
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3.12 RS-232 connector CN16
Figure 14. RS-232 connector CN16 with ISP support (front view)
3.13 Power connector CN18Your STM3240G-EVAL evaluation board can be powered from a 5V DC power supply via the external power supply jack (CN18) shown in Figure 15. The central pin of CN18 must be positive.
Figure 15. Power supply connector CN18
5 SIO_C (PB6) 17 PCLK (PA6)
6 RESET 18 Y4(PH14)
7 VSYNC (PI5) 19 Y0 (PH9)
8 PWDN 20 Y3(PH12)
9 HREF (PH8) 21 Y1(PH10)
10 DVDD (1.8V) 22 Y2(PH11)
11 DOVDD (2.8V) 23 AGND
12 Y7(PI7) 24 AGND
Table 29. Camera module connector CN15 (continued)
Pin number Description Pin number Description
Table 30. RS-232 connector CN16 with ISP support
Pin number Description Pin number Description
1 NC 6 Bootloader_BOOT0
2 RS232_RX (PC11) 7 NC
3 RS232_TX (PC10) 8 Bootloader_RESET
4 NC 9 NC
5 GND
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3.14 TFT LCD connector CN19One 34-pin male header CN19 is available on the board for connecting LCD module board MB785. Please refer to Section 2.21: Display and input devices for details.
3.15 Smartcard connector CN20
Figure 16. Smartcard connector CN20
3.16 ST-LINK/V2 connector CN21The USB type B connector CN21 is for ST-LINK/V2 connected between the STM3240G-EVAL evaluation board and the PC for board debugging.
3.17 Camera extension connector CN23
Table 31. Smartcard connector CN20
Pin number DescriptionPin
numberDescription
1 VCC 5 GND
2 RST 6 NC
3 CLK 7 I/O
4 NC 8 NC
17 Card presence detection pin 18 Card presence detection pin
Table 32. Camera extension connector CN23
Pin number Description Pin number Description
1 +1V8 2 +1V8
3 GND 4 GND
5 NC 6 NC
7 GND 8 GND
9 NC 10 NC
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3.18 STM3240G-EVAL pinout
11 GND 12 GND
13 SCL 14 SDA
15 Camera_Plug 16 GND
17 Camera_RST 18 NC
19 Camera_XSDN 20 Camera_CLK
21 GND 22 GND
23 DCMI_D0 24 DCMI_D1
25 DCMI_D2 26 DCMI_D3
27 DCMI_D4 28 DCMI_D5
29 DCMI_D6 30 DCMI_D7
31 HSYSC 32 VSYSC
33 PIXCLK 34 NC
35 NC 36 NC
37 GND 38 GND
39 +2V8 40 +2V8
Table 32. Camera extension connector CN23
Pin number Description Pin number Description
Table 33. STM3240G-EVAL pinout
Pin no. Pin Name Description
A2 PE2 TRACE_CLK / FSMC_A23
A1 PE3 TRACE_D0 / FSMC_A19
B1 PE4 TRACE_D1 / FSMC_A20
B2 PE5 TRACE_D2 / FSMC_A21
B3 PE6 TRACE_D3 / FSMC_A22
C1 VBAT VBAT
D2 PI8- ANTI TAMP2 LCD_HSYNC
D1 PC13-ANTI_TAMP ANTI-TAMPER_BUTTON
E1 PC14-OSC32_IN 32K_OSC
F1 PC15-OSC32_OUT 32K_OSC
D3 PI9 LED2
E3 PI10 ETHER_RX_ER
E4 PI11 USB_HS_DIR
F2 VSS_13
F3 VDD_13
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E2 PF0 FSMC_A0
H3 PF1 FSMC_A1
H2 PF2 FSMC_A2
J2 PF3 FSMC_A3
J3 PF4 FSMC_A4
K3 PF5 FSMC_A5
G2 VSS_5
G3 VDD_5
K2 PF6 SmartCard_OFF
K1 PF7 SmartCard_RESET
L3 PF8 LCD_CS
L2 PF9 POTENTIOMETER
L1 PF10 Audio_IN
G1 PH0 - OSC_IN OSC_IN
H1 PH1 - OSC_OUT OSC_OUT
J1 NRST RESET_BUTTON
M2 PC0 USB_HS_STP
M3 PC1 ETHER_MDC / MC_ADC123_11 pin 15 (Current A)
M4 PC2 ETHER_TXD2 / MC_ADC123_1 2 pin 17 (Current B)
M5 PC3 ETHER_TX_CLK / MC_ADC123_13 pin 19 (Current C)
M1 VSSA
N1 VREF-
P1 VREF+
R1 VDDA
N3 PA0-WKUP WAKEUP_BUTTON
N2 PA1 ETHER_RX_CLK
P2 PA2 ETHER_MDIO
F4 PH2 ETHER_CRS
G4 PH3 ETHER_COL
H4 PH4 USB_HS_NXT
J4 PH5 USB_FS_POWER_ON
R2 PA3 USB_HS_D0
L4 BYPASS BYPASS
K4 VDD_4
N4 PA4 Audio_DAC_OUT
Table 33. STM3240G-EVAL pinout (continued)
Pin no. Pin Name Description
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P4 PA5 USB_HS_CK
P3 PA6 CAM_PIXCK
R3 PA7 ETHER_DV
N5 PC4 ETHER_RXD0 / MC_ADC12_14 pin 14 (Bus voltage)
P5 PC5ETHER_RXD1 / MC_ADC12_15 pin 26 (Heatsink temperature)
R5 PB0 USB_HS_D1
R4 PB1 USB_HS_D2
M6 PB2 BOOT1 /
R6 PF11 USB_FS_OVERCURRENT
P6 PF12 FSMC_A6
M8 VSS6
N8 VDD_6
N6 PF13 FSMC_A7
R7 PF14 FSMC_A8
P7 PF15 FSMC_A9
N7 PG0 FSMC_A10
M7 PG1 FSMC_A11
R8 PE7 FSMC_D4
P8 PE8 FSMC_D5
P9 PE9 FSMC_D6
M9 VSS_7
N9 VDD_7
R9 PE10 FSMC_D7
P10 PE11 FSMC_D8
R10 PE12 FSMC_D9
N11 PE13 FSMC_D10
P11 PE14 FSMC_D11
R11 PE15 FSMC_D12
R12 PB10 USB_HS_D3
R13 PB11 ULPI_D4
M10 VCAP1 VCAP / 1.2V
N10 VDD_1
M11 PH6 ETHER_RXD2
N12 PH7 ETHER_RXD3
Table 33. STM3240G-EVAL pinout (continued)
Pin no. Pin Name Description
DR
AF
T
UM1461 Connectors
Doc ID 022138 Rev 1 39/65
M12 PH8 CAM_HSYNC / MC_NTC_bypass
M13 PH9 CAM_D0
L13 PH10 CAM_D1 / MC_TIM5_ETR pin 27 (PFC SYNC)
L12 PH11 CAM_D2 / MC_TIM3_CH2 pin 27 (PFCSYNC)
K12 PH12 CAM_D3 / TIM5_CH3 pin 29 (PFCPWM)
H12 VSS_14
J12 VDD_14
P12 PB12 ULPI_D5
P13 PB13 ULPI_D6 / CAN2_TX
R14 PB14 ETHER_INT
R15 PB15 OneNAND_INT
P15 PD8 FSMC_D13
P14 PD9 FSMC_D14
N15 PD10 FSMC_D15
N14 PD11 FSMC_A16
N13 PD12 FSMC_A17 / MC_TIM4_CH2 pin 33 (EnB)
M15 PD13 FSMC_A18 / MC_TIM4_CH2 pin 33 (EnB)
J13 VDD_8
M14 PD14 FSMC_D0
L14 PD15 FSMC_D1
L15 PG2 FSMC_A12
K15 PG3 FSMC_A13
K14 PG4 FSMC_A14
K13 PG5 FSMC_A15
J15 PG6 LED0
J14 PG7 SmartCard_CK
H14 PG8 LED1
G12 VSS_9
H13 VDD_9
H15 PC6 SmartCard_IO / Audio_I2S_ MCK
G15 PC7 LED3
G14 PC8 SDIO_D0/ MC_TIM3_CH3 pin23 (Dissipative Brake)
F14 PC9 SDIO_D1 I2S_CKIN
F15 PA8 MCO
E15 PA9 USB_FS_VBUS
Table 33. STM3240G-EVAL pinout (continued)
Pin no. Pin Name Description
DR
AF
T
Connectors UM1461
40/65 Doc ID 022138 Rev 1
D15 PA10 USB_FS_ID
C15 PA11 USB_FS_DM
B15 PA12 USB_FS_DP
A15 PA13 JTAG_TMS
F13 VCAP2 VCAP / 1.2V
F12 VSS 2
G13 VDD_2
E12 PH13 MC_TIM8_CH1N pin 5 (UL) / MicroSD card detect
E13 PH14 CAM_D4 / MC_TIM8_CH2N pin 9 (VL)
D13 PH15 MC_TIM8_CH3N pin 13 (WL) / SmartCard_3/5V
E14 PI0 Audio_I2S_WS
D14 PI1 Audio_I2S_CK
C14 PI2 Expander_INT
C13 PI3 Audio_I2S_DOUT
D9 VSS_15
C9 VDD_15
A14 PA14 JTAG_TCK
A13 PA15 JTAG_TDI
B14 PC10 SDIO_D2 / RS232_TX
B13 PC11 SDIO_D3 / RS232_RX
A12 PC12 SDIO_CK
B12 PD0 FSMC_D2 / CAN1_RX
C12 PD1 FSMC_D3 / CAN1_TX
D12 PD2 SDIO_CMD
D11 PD3 FSMC_CLK
D10 PD4 FSMC_NOE
C11 PD5 FSMC_NWE
D8 VSS_10
C8 VDD_10
B11 PD6 FSMC_NWAIT
A11 PD7 FSMC_NE1
C10 PG9 FSMC_NE2
B10 PG10 FSMC_NE3
B9 PG11 ETHER_TXEN
B8 PG12 SmartCard_CMDVCC
Table 33. STM3240G-EVAL pinout (continued)
Pin no. Pin Name Description
DR
AF
T
UM1461 Connectors
Doc ID 022138 Rev 1 41/65
A8 PG13 ETHER_TXD0
A7 PG14 ETHER_TXD1
D7 VSS_11
C7 VDD_11
B7 PG15 USER_BUTTON
A10 PB3 JTAG_TDO
A9 PB4 JTAG_TRST
A6 PB5 CAN2_RX / ETHER_PPS_OUT / ULPI_D7
B6 PB6 I2C1_SCL
B5 PB7 FSMC_NL
D6 BOOT0 BOOT0
A5 PB8 ETHER_TXD3 / MC_TIM4_CH3 pin 34 (Index)
B4 PB9 I2C1_SDA
A4 PE0 FSMC_NBL0
A3 PE1 FSMC_NBL1
D5 VSS_SA
C6 VDD_3 POR Disable
C5 VDD_SA
D4 PI4 CAM_D5 / MC_TIM8_BKIN pin 1 (Stop)
C4 PI5 CAM_VSYNC / MC_TIM8_CH1 pin 3 (UH)
C3 PI6 CAM_D6 / MC_TIM8_CH2 pin 7 (VH)
C2 PI7 CAM_D7 / MC_TIM8_CH3 pin 11 (WH)
Table 33. STM3240G-EVAL pinout (continued)
Pin no. Pin Name Description
DR
AF
T
Schematics UM1461
42/65 Doc ID 022138 Rev 1
4 Schematics
The following schematic diagrams are listed:
● Figure 17: STM3240G-EVAL on page 43
● Figure 18: MCU on page 44
● Figure 19: USB OTG HS on page 45
● Figure 20: Camera on page 46
● Figure 21: Ethernet on page 47
● Figure 22: Audio on page 48
● Figure 23: USB OTG FS on page 49
● Figure 24: SRAM on page 50
● Figure 25: LCD on page 51
● Figure 27: CAN on page 53
● Figure 28: I/O peripherals on page 54
● Figure 29: I/O expandor on page 55
● Figure 30: MicroSD card on page 56
● Figure 31: Motor control on page 57
● Figure 32: Smartcard on page 58
● Figure 33: JTAG and Trace on page 59
● Figure 34: Power on page 60
● Figure 35: Extension connector on page 61
● Figure 36: STLINK/V2 on page 62
● Figure 37: 3.2” LCD module with SPI and 16-bit interface on page 63
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 43/65
Figure 17. STM3240G-EVAL
11
22
33
44
55
66
77
88
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev
:Sh
eet
ofC.
1(PC
B.SC
H)
Dat
e:8/
22/2
011
MB7
861
20
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Mod
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1.A
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tor
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Add
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rela
ted
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tent
ion
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22
DR
AF
T
Schematics UM1461
44/65 Doc ID 022138 Rev 1
Figure 18. MCU
11
22
33
44
55
66
77
88
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev
:Sh
eet
ofC.
1(PC
B.SC
H)
Dat
e:8/
15/2
011
MB7
862
20
STM
3220
-21-
45-4
6G-
EVA
L M
CU
PA[0
..15]
PA[0
..15]
PB[0
..15]
PB[0
..15]
PC[0
..15]
PC[0
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PD[0
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PD[0
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PE[0
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PE[0
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1 432
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D2
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LED
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Use
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WD
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WC
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WO
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A[0
..20]
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C_N
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Mic
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Mic
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Mic
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Mic
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entB
MC_
Curr
entC
MC_
PFC
sync
1M
C_PF
Csy
nc2
MC_
WL
MC_
VH
MC_
VL
MC_
UH
MC_
UL
MC_
WH
MC_
NT
C
MC_
Dis
sipa
tiveB
rake
MC_
PFC
pwm
MC_
EnA
MC_
EnB
MC_
Hea
tsin
kTem
pera
ture
MC_
BusV
olta
ge
MC_
EnIn
dex
Smar
tCar
d_3/
5V
Smar
tCar
d_IO
Smar
tCar
d_R
ST
Smar
tCar
d_C
LK
Smar
tCar
d_O
FF
Smar
tCar
d_C
MD
VCC
FSM
C_N
E1
FSM
C_N
E2
FSM
C_N
WE
FSM
C_N
OE
FSM
C_BL
N0
FSM
C_BL
N1
FSM
C_N
WA
IT
FSM
C_CL
K
FSM
C_N
L
One
NA
ND
_IN
T
PE0
PE1
PE2
PE3
PE4
PE5
PE6
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
PI0
PI1
PI2
PI3
PI4
PI5
PI6
PI7
PI8
PI9
PI10
PI11
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PC10
PC11
PC12
PC13
PC14
PC15
PF0
PF1
PF2
PF3
PF4
PF5
PF6
PF7
PF8
PF9
PF10
PF11
PF12
PF13
PF14
PF15
A0
A1
A2
A3
A4
A5
PA0
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
PA10
PA11
PA12
PA13
PA14
PA15
PH0
PH1
PH2
PH3
PH4
PH5
PH6
PH7
PH8
PH9
PH10
PH11
PH12
PH13
PH14
PH15
ULP
I_D
0
ULP
I_D
1U
LPI_
D2
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12
PB13
PB14
PB15
A6
A7
A8
A9
PG0
PG1
PG2
PG3
PG4
PG5
PG6
PG7
PG8
PG9
PG10
PG11
PG12
PG13
PG14
PG15
A10
A11
ULP
I_D
3
DC
MI_
D0
DC
MI_
D1
DC
MI_
D2
DC
MI_
D3
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
PD9
PD10
PD11
PD12
PD13
PD14
PD15
D13
D14
D15
D4
D5
D6
D7
D8
D9
D10
D11
D12
A16
A17
D0
D1
A12
A13
A14
A15
DC
MI_
D4
D2
D3
DC
MI_
D5
DC
MI_
D6
DC
MI_
D7
DC
MI_
D[0
..7]
A[0
..20]
D[0
..15]
ULP
I_D
[0..7
]
VBU
S_F
S
PF[0
..15]
PF[0
..15]
PG[0
..15]
PG[0
..15]
PH[0
..15]
PH[0
..15]
PI[0
..11]
PI[0
..11]
JP21
BT1
CR1
220
hold
er
L3 BEA
D
C74
1uF
C69
100n
F
R87
47VD
DA
VDD
_MC
U
VRE
F+C68
100n
F
TP5
VRE
F
12
3
JP19
+3V
3
VDD
_MC
U
C60
100n
F
VDD
_MC
U
C50
2.2u
FC
332.
2uF
C48
100n
FC
3710
0nF
C35
100n
FC
5410
0nF
C67
100n
FC
3410
0nF
C57
100n
F
VDD
_MC
U
C56
100n
FC
3610
0nF
C61
100n
FC
6610
0nF
C53
100n
FC
4910
0nF
C65
100n
F
IOs
Mul
tiple
xed
IOs
Mul
tiple
xed
ULP
I_D
4U
LPI_
D5
ULP
I_D
6
ULP
I_D
7
R71
10K
C75
1uF
BO
OT
0B
OO
T0
D1
BA
T60
JFIL
M
JP29
D2
BA
T60
JFIL
M
TP1
4
MCO
1
TP1
6
CPU
CK
TP1
5
MCO
2
A18
A19
A20
Aud
io_I
N
JP34
SB1
0
SB1
1
SB1
2
SB1
4
SB1
5
SB1
6
R34
0
R20
4[N
/A]
R58
0
R20
5[N
/A]
12
3
JP1 1
23
JP2
PE2
A2
PE3
A1
PE4
B1
PE5
B2
PE6
B3
PI8
D2
PC13
D1
PC14
E1
PC15
F1
PI9
D3
PI10
E3
PI11
E4
PF0
E2
PF1
H3
PF2
H2
PF3
J2PF
4J3
PF5
K3
PF6
K2
PF7
K1
PF8
L3PF
9L2
PF10
L1
PH0
G1
PH1
H1
NR
STJ1
PC0
M2
PC1
M3
PC2
M4
PC3
M5
PA0
N3
PA1
N2
PA2
P2
PH2
F4PH
3G
4PH
4H
4PH
5J4
PA3
R2
PA4
N4
PA5
P4
PA6
P3
PA7
R3
PC4
N5
PC5
P5
PB0
R5
PB1
R4
PB2
M6
PF11
R6
PF12
P6PF
13N
6PF
14R
7PF
15P7
PG0
N7
PG1
M7
PE7
R8
PE8
P8PE
9P9
PE10
R9
PE11
P10
PE12
R10
PE13
N11
PE14
P11
PE15
R11
PB10
R12
PB11
R13
PH6
M11
PH7
N12
PH8
M12
PH9
M13
PH10
L13
PH11
L12
PH12
K12
PB12
P12
PB13
P13
PB14
R14
PB15
R15
PD8
P15
PD9
P14
PD10
N15
PD11
N14
PD12
N13
PD13
M15
PD14
M14
PD15
L14
PG2
L15
PG3
K15
PG4
K14
PG5
K13
PG6
J15
PG7
J14
PG8
H14
PC6
H15
PC7
G15
PC8
G14
PC9
F14
PA8
F15
PA9
E15
PA10
D15
PA11
C15
PA12
B15
PA13
A15
PH13
E12
PH14
E13
PH15
D13
PI0
E14
PI1
D14
PI2
C14
PI3
C13
PA14
A14
PA15
A13
PC10
B14
PC11
B13
PC12
A12
PD0
B12
PD1
C12
PD2
D12
PD3
D11
PD4
D10
PD5
C11
PD6
B11
PD7
A11
PG9
C10
PG10
B10
PG11
B9
PG12
B8
PG13
A8
PG14
A7
PG15
B7
PB3
A10
PB4
A9
PB5
A6
PB6
B6
PB7
B5
BO
OT
0D
6
PB8
A5
PB9
B4
PE0
A4
PE1
A3
PI4
D4
PI5
C4
PI6
C3
PI7
C2
U16
A
STM
32F2
07IG
H6
VBA
TC
1
VSS
F2
VDD
F3
VSS
G2
VDD
G3
VRE
F-N
1
VSSA
M1
VRE
F+P1
VDD
AR
1
BYP
ASS
_RE
GL4
VDD
K4
VSS
M8
VDD
N8
VSS
M9
VDD
N9
VCA
PM
10
VDD
N10
VSS
H12
VDD
J12
VSS_
SAD
5
VDD
J13
VSS
G12
VDD
H13
VCA
PF1
3
VSS
F12
VDD
G13
VSS
D9
VDD
C9
VSS
D8
VDD
C8
VSS
D7
VDD
C7
RFU
C6
VDD
_SA
C5
U16
B
STM
32F2
07IF
T6
LCD
_HS
YNC
LCD
_VS
YNC
LCD
_CS
R81
10KJP
4
+3V
3
12
3
JP16
I2S_
CKIN
R51
0R
66[N
/A]
C58
4.7u
F
STM
32F2
17IG
H6
STM
32F4
07IG
H6
STM
32F4
17IG
H6
Opt
iona
l
-RF
Um
eans
Res
erve
dfo
rFu
ture
Use
.-
Asan
optio
n,R
FUco
uld
betie
dto
VDD
orV
SSfo
rfor
war
dco
mpa
tibili
tyw
ithfu
ture
STM
32F
prod
ucts
.H
owev
er,u
serm
ayle
ave
RFU
pin
conn
ecte
dto
VD
D,o
rVSS
,orN
Cfo
rST
M32
F2xx
excl
usiv
eus
e.-
JP4
shou
ldbe
fitte
dfo
rfut
ure
back
war
dco
mpa
tibili
tyw
ithsT
M32
F2xx
.
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 45/65
Figure 19. USB OTG HS
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1M
B78
63
20
STM
3220
-21-
45-4
6G
-EVA
LU
SBO
TGH
S
ULP
I_D
[0..7
]
ULP
I_CL
K
ULP
I_D
0U
LPI_
D1
ULP
I_D
2U
LPI_
D3
ULP
I_D
IRU
LPI_
NX
T
ULP
I_ST
P
C44
4.7u
F
+5V
R32
10K
+3V
3
R28
330
1 2
LD7
Gre
en1
2LD8
Red
R29
620
C25
4.7u
F
GN
D2
IN5
EN4
OU
T1
FAU
LT3
U4
STM
PS21
41ST
R@54
R50
12K
[1%
]
VBU
S1
DM
2
DP
3
ID4
GN
D5
Shie
ld0
USB_Micro-ABreceptacle
CN9
4759
0000
1V
BUS_
HS
C24
0.1u
F
PI11
PC0
PH4
PA3
PA5
PB0
PB1
PB10
+3V
3
C39
0.1u
FC2
90.
1uF
C43
0.1u
FC4
20.
1uF
C31
4.7u
FC2
60.
1uF
C40
33pFX
2
26M
Hz
R55
1M
C41
33pF
ULP
I_D
[0..7
]
PB11
PB12
PB13
PB5
ULP
I_D
4U
LPI_
D5
ULP
I_D
6U
LPI_
D7
R31
10K
R46
2K2
R61
0R6
20
R69
0
GN
DD
2G
ND
C5
PSW
_ND
4
VBU
SF4
IDD
3
VCC
F3
DP
D1
DM
C1
RES
ET_N
C4
FAU
LTE2
NX
TD
5
DIR
E5
STP
D6
CLO
CKA
4
VCC
(I/O
)B2
D7
C6
D6
B6
D5
A6
D4
A5
D3
A3
D2
A2
D1
A1
D0
B1
VCC
(I/O
)B5
XT
AL2
F6
XT
AL1
F5
REG
1V8
E6RE
G_3
V3
E3
RREF
C2
CFG
0E1
NC
F1
NC
F2
GN
DE4
CFG
1B4
CFG
2B3
CHIP
_SEL
_NC3
U8
ISP1
705A
ET
+3V
3
R72
[N/A
]
+3V
3
R70
100K
JP31 +3
V3
+3V
3
C46
0.1u
FC4
70.
1uF
C64
0.1u
FC1
310.
1uF
A1A2
B1B2
U10
USB
ULC
6-2
F3
A1A2
B1B2
U12
ESD
A14
V2-
2BF
3
3
2
1T3
9013
R207
47K
R206
[N/A
]
+3V
3
RES
ET#
DR
AF
T
Schematics UM1461
46/65 Doc ID 022138 Rev 1
Figure 20. Camera
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1M
B78
64
20
STM
3220
-21-
45-4
6G
-EVA
LCa
mer
a
DCM
I_PI
XCK
DCM
I_V
SYN
C
DCM
I_D
[0..7
]D
CMI_
HSY
NC
Cam
era_
RST
EN1
GN
D2
OU
T3
VCC
4U
27
SM77
45H
EW-2
4.0M
+2V
5 R130
10K
DCM
I_D
[0..7
]D
CMI_
D0
DCM
I_D
1D
CMI_
D2
DCM
I_D
3D
CMI_
D4
DCM
I_D
5D
CMI_
D6
DCM
I_D
7R1
0810
K
+2V
8
C90
0.1u
F
I2C1
_SCL
I2C1
_SD
A
Cam
era_
CLK
C84
0.1u
F
DG
ND
1D
GN
D2
SIO
_D3
AV
DD
(2.8
V)
4
SIO
_C5
RES
ET6
VSY
NC
7
PWD
N8
HRE
F9
DV
DD
(1.8
V)
10
DO
VD
D(2
.8V
)11
Y7
12
XCL
K1
13
Y6
14
DG
ND
15
Y5
16
PCLK
17
Y4
18
Y0
19
Y3
20
Y1
21
Y2
22
AG
ND
23A
GN
D24
CN15
24-5
805-
024-
000-
829+
+2V
8
JP26
C85
0.1u
F
+1V
8
+2V
8
PH8
PI5
PA6
PB9
PB6
PH9
PH10
PH11
PH12
PI4
PH14
PI6
PI7
+2V
8
R109
10K
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN23
CLM
-120
-02-
L-D
+1V
8+1
V8
SCL
SDA
SCL
SDA
Cam
era_
CLK
DCM
I_D
0D
CMI_
D1
DCM
I_D
2D
CMI_
D3
DCM
I_D
4D
CMI_
D5
DCM
I_D
6D
CMI_
D7
HSY
SCV
SYSC
PIX
CLK
HSY
SCV
SYSC
PIX
CLK
+2V
8+2
V8
C151
0.1u
FC1
520.
1uF
C150
0.1u
F
C149
0.1u
F
Cam
era_
RST
Cam
era_
RST
Cam
era_
XSD
N
+2V
8 R213
10K
Cam
era_
PLU
G
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 47/65
Figure 21. Ethernet
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1M
B78
65
20
STM
3220
-21-
45-4
6G
-EVA
LEt
hern
et
MII
_TX
D0
MII
_TX
_EN
MII
_TX
_CLK
MII
_RX
D0
MII
_RX
_ER
MII
_RX
_DV
/RM
II_C
RSD
V
MII
_RX
_CLK
/RM
II_R
EF_C
LK
MII
_CO
L
MII
_CRS
MII
_MD
CM
II_M
DIO
X1
25M
Hz
(with
sock
et)
C14
22pF
C15
22pF
12
3JP5
MCO
EN1
GN
D2
OU
T3
VCC
4U
3
SM77
45H
EV-5
0.0M
(do
notfi
t)
+3V
3 R26
10K
RES
ET#
R24
0
JP8
R40
2K2
+3V
3
+3V
3
R25
4.87
K
R30
2K2
+3V
3R3
32K
2
C21
0.1u
FC1
70.
1uF
C19
0.1u
FC1
310
uF
R42
2K2
MII
_TX
D1
MII
_TX
D2
MII
_TX
D3
MII
_RX
D1
MII
_RX
D2
MII
_RX
D3
TX
_CLK
1
TX
_EN
2
TX
D_0
3
TX
D_1
4
TX
D_2
5
TX
D_3
/SN
I_M
OD
E6
PWR_
DO
WN
/INT
7
NC
8N
C9
NC
10N
C11
NC
12RD
-13
RD+
14
AG
ND
15
TD
-16
TD
+17
PFBI
N1
18
AG
ND
19
NC
20N
C21
AV
DD
3322
PFBO
UT
23
RBIA
S24
25M
Hz_
OU
T25
LED
_ACT
/CO
L/A
N_E
N26
LED
_SPE
ED/A
N1
27LE
D_L
INK
/AN
028
RES
ET_N
29
MD
IO30
MD
C31
IOV
DD
3332
X2
33
X1
34
IOG
ND
35
DG
ND
36
PFBI
N2
37
RX_C
LK38
RX_D
V/M
II_M
OD
E39
CRS
/CRS
_DV
/LED
_CF
G40
RX_E
R/M
DIX
_EN
41
COL/
PH
YA
D0
42
RXD
_0/P
HY
AD
143
RXD
_1/P
HY
AD
244
RXD
_2/P
HY
AD
345
RXD
_3/P
HY
AD
446
IOG
ND
47
IOV
DD
3348
U5
DP8
3848
CVV
+3V
3
C16
0.1u
FC2
70.
1uF
C20
0.1u
F
+3V
3
R43
1.5K
12
3
JP6
TP1
25M
Hz
TD
+1
TCT
4
TD
-2
RD+
3
RCT
5
RD-
6
NC
7
CHS
GN
D8
LED
(gre
en)_
A9
LED
(gre
en)_
K10
LED
(Yel
low
)_A
12
LED
(Yel
low
)_K
11
Shie
ld13
Shie
ld14
CN7
J001
1D21
B
R22
240
R1 240
+3V
3
C7 0.1u
FC6 0.
1uF
+3V
3M
II_I
NT
R41
0
R44
0Se
cond
sour
ce:S
I-60
116-
F
RS5
51RS
351
RS6
51
+3V
3Unu
sedi
nRM
IIm
ode
RS1
2K2
RS4
51
RS2
51
PI10
PC1
PC2
PC3
PA1
PA2
PH2
PH3
PA7
PC4
PC5
PG11
PH6
PH7
PG13
PG14
PB14
PB8
PA8
SB1
R208
51
R212
150
STM
324x
G-E
VA
LST
M32
2xG
-EV
AL
SB1
R212
Clos
eO
pen
Not
fitte
d15
0ohm
Boar
dco
nfig
urat
ion
DR
AF
T
Schematics UM1461
48/65 Doc ID 022138 Rev 1
Figure 22. Audio
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1M
B78
66
20
STM
3220
-21-
45-4
6G
-EVA
LA
udio
I2S_
WS
I2S_
SDI2
S_SC
KR1
34
10K
Aud
io_S
CLA
udio
_SD
A
R110
51
1 2
U19
KSS
-150
8or
KSSG
1708
Aud
io_R
ST
I2S_
MCK
+5V
I2C
addr
ess
0x94
C87
1uF
(X7R
)
C95
1uF
C103
0.1u
F
SDA
1
SCL
2
A0
3
SPK
R_O
UT
A+
4
VP
5
SPK
R_O
UT
A-
6
SPK
R_O
UT
B+7
VP
8SP
KR_
OU
TB-
9
-VH
PFIL
T10
FLY
N11
FLY
P12
+VH
P13
HP/
LIN
E_O
UT
B14
HP/
LIN
E_O
UT
A15
VA
16
AG
ND
17FI
LT+
18
VQ
19T
STO
20
AIN
4A21
AIN
4B22
AIN
3A23
AIN
3B24
AIN
2A25
AIN
2B26
AFI
LTA
27A
FILT
B28
AIN
1A29
AIN
1B30
SPK
R/H
P31
RES
ET32
VL
33
VD
34
DG
ND
35
TST
O36
MCL
K37
SCLK
38
SDIN
39
LRCK
40
GN
D/T
herm
alPa
d0
U23
CS43
L22
C88
1uF(
X7R
)
C98
0.1u
FC9
20.
1uF
+2V
5
C104
0.1u
F
+3V
3
C102
1uF(
X5R
)C1
011u
F(X
5R)
C107
150p
F(CO
G)
C108
150p
F(CO
G)
C94
0.1u
F
C86
0.02
2uF
R112
51
C97
0.02
2uF
C93
0.1u
F
From
IOex
pand
or
Aud
io_D
AC_
OU
TR1
22
100
R113
100K
C105
1uF(
X7R
)
R115
0
PB9
PB6
PC6
PI0
PI1
PI3
PA4
Aud
io_I
NBY
P2
GN
D4
IN-
5
IN+
8
GS
9
BIA
S10
C114
C215
OU
T-
16O
UT
+17
VCC
20
STBY
21
GN
D22
U33
TS4
72IQ
T
12
U34
KEC
G27
40TB
L[N
/A]
C143
100n
F
R198
0
C141
1uF
R197
1K
C144
100n
FC1
421u
F
+3V
3C1
40 1uF
C145
100p
F
C146
100p
F
C147
0ohm
R199
100K
R196
0PF
10
R200
47
+3V
3R1
9510
K
JP33
26 43CN
11
PJ30
28B-
3
R216
0R2
150
R217
[N/A
]R2
18[N
/A]
Fit
forIp
hone
head
set
Fit
forNo
kia
head
set
VD
1
GN
D2
CLK
_OU
T3
AU
X_O
UT
4
TST
_IN
5X
TO
6X
TI/
REF
_CLK
7A
D0/
CS8
SCL/
CCLK
9SD
A/C
DIN
10U
36
CS22
00-C
P
MCO
+3V
3
C158
0.1u
F
PA8
I2S_
CKIN
C159
1uF
PC9
R209
0
C155
[N/A
]
C154
[N/A
]X
6[N
/A]
R211
0
R221
10K
+3V
3
0ohm
resi
stor
moun
ted
for
DCco
uplin
g
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 49/65
Figure 23. USB OTG FS
11
22
33
44
DD
CC
BB
AA
STM
icroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1M
B78
67
20
STM
32 2
0-21
-45-
46 G
-EVA
L U
SB_O
TG_F
S
+5V
R20
10K
OT
G_F
S_Po
wer
Switc
hOn
OT
G_F
S_O
verC
urre
nt
R16
47K
+3V
3
1 2
LD5
Red
R23
620
OT
G_F
S_D
MO
TG
_FS_
DP
OT
G_F
S_ID
C5 4.7u
F
R18
0
R21
0
R15
0G
ND
2
IN5
EN4
OU
T1
FAU
LT3
U1
STM
PS21
41ST
R@54
VBU
S1
DM
2
DP
3
ID4
GN
D5
Shie
ld0
USB_Micro-ABreceptacle
CN8
4759
0000
1
VBU
S_FS
PH5
PF11
PA9
PA10
PA11
PA12
R17
22R1
922
Dz
A2
IDA
3
Pd1
B1
Pup
B2
Vbu
sB3
D+i
nC1
Pd2
C2
D+o
utC3
D-in
D1
GN
DD
2
D-o
utD
3
U2
EMIF
02-U
SB03
F2
R27
330
1 2
LD6
Gre
en
3
2
1T1
9013
R180
47K
+3V
3
R181
[N/A
]
+3V
3
DR
AF
T
Schematics UM1461
50/65 Doc ID 022138 Rev 1
Figure 24. SRAM
11
22
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44
DD
CC
BB
AA
Titl
e:
Num
ber:
Rev:
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tof
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(PC
B.S
CH
)D
ate:
8/15
/201
1
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A[0
..20]
D[0
..15]
FSM
C_N
E1FS
MC_
NW
EFS
MC_
NO
E
FSM
C_N
WA
IT
D[0
..15]
A[0
..20]
R36
10K
+3V
3
A0
R48
10K
C28
100n
F
+3V
3
R49
10K
+3V
3
FSM
C_CL
KFS
MC_
NL
WE
A1
RPA
2
DQ
14A
3
Vss
A4
Vss
A5
DQ
13A
6D
Q12
B1
DQ
8B2
DQ
1B3
OE
B4
DQ
9B5
Vcc
Core
B6
DQ
7C1
DQ
4C2
DQ
11C3
DQ
10C4
DQ
3C5
Vcc
IOC6
DQ
15D
1
A12
D2
DQ
0D
3A
15D
4
DQ
5D
5
DQ
6D
6
CLK
E1
CEE2
DQ
2E3
NC
E4N
CE5
A9
E6
A14
F1
A13
F2
AV
DF3
A7
F4
A11
F5
A8
F6
INT
G1
A0
G2
A1
G3
NC
G4
A10
G5
A6
G6
RDY
H1
A4
H2
A5
H3
A2
H4
A3
H5
NC
H6
U7
KFG
1216
U2A
-DIB
6
C18
100n
FC2
210
0nF
+3V
3R5
20
R45
10K
+3V
3
R53
0O
neN
AN
D_I
NT
R54
0
MB
786
820
STM
3220
-21-
45-4
6G
-EVA
LSR
AM
PD5
PD4
PD3
PB7
PD6
PD7
PB15
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
FSM
C_N
E2
FSM
C_BL
N0
FSM
C_BL
N1
A0
A17
PE0
PE1
R47
0
R35
10K
+3V
3
PG
9
A18
A19
C30
100n
F
C23
100n
F
+3V
3D
0D
1D
2D
3D
4D
5D
6D
7D
8D
9D
10D
11D
12D
13D
14D
15A
20
CY
7C10
71D
V33
-12B
AXI
A4
B4
A3
B3
A2
A5
A1
A4
A0
A3
CEB5
I/O
0B6
I/O
1C5
I/O
2C6
I/O
3D
5
VCC
D6
VSS
D1
I/O
4E5
I/O
5F5
I/O
6F6
I/O
7G
6
WE
G5
A16
E4
A15
F4
A14
F3
A13
G4
A12
G3
A11
H5
A10
H4
A9
H3
A8
H2
I/O
8B1
I/O
9C1
I/O
10C2
I/O
11D
2
VCC
E1
I/O
12E2
I/O
13F2
I/O
14F1
I/O
15G
1
BLE
A1
BHE
B2
OE
A2
A7
D4
A6
C4
A5
C3
A17
D3
A18
H1
VSS
E6
A19
G2
A20
H6
CE2
A6
U6
IS61
WV
1024
16BL
L-10
MLI
Not
tted
STMicroelectron
ics
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 51/65
Figure 25. LCD
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
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tof
C.1
(PC
B.S
CH
)D
ate:
8/22
/201
1
Tou
chSc
reen
_X+
Tou
chSc
reen
_X-
Tou
chSc
reen
_Y+
Tou
chSc
reen
_Y-
CS1
RS2
WR/
SCL
3
RD4
RES
ET5
VD
D24
VCI
25
GN
D26
GN
D27
BL_
VD
D28
BL_
Cont
rol
23BL
_G
ND
22
PD1
6
PD2
7
PD3
8
PD4
9
PD5
10
PD6
11
PD7
12
PD8
13
PD10
14
PD11
15
PD12
16
PD13
17
PD14
18
PD15
19
PD16
20
PD17
21
SDO
29
SDI
30X
L31
XR
32
YD
33
YU
34
CN19
3.2"
LCD
_con
nect
or(M
B785
with
AM-2
4032
0D4T
OQ
W-T
00H
(R))
+3V
3
+5V
MB
786
920
S
STM
3220
-21-
45-4
6G
-EVA
LLC
D
To
IOex
pand
or
RES
ET#
D[0
..15]
A[0
..20]
A[0
..20]
D[0
..15]
FSM
C_N
WE
FSM
C_N
OE
FSM
C_N
E3D
0D
1D
2D
3D
4D
5D
6D
7
D8
D9
D10
D11
D12
D13
D14
D15
A0
PD5
PD4
PG10
R170
150
R171
150
R172
150
R173
150
R174
150
R175
150
R176
150
R177
150
R82
150
R161
150
R163
150
R165
150
R166
150
R167
150
R168
150
R169
150
R78
150
R119
150
R162
150
R164
150
C148
10uF
L2 BEA
D
C153
100n
F
L1 BEA
D
LCD
_HSY
NC
LCD
_VSY
NC
LCD
_CS
12
34
56
CN22
Hea
der
3X2H
PC[0
..15]
PC10
PC11
PC[0
..15]
Res
erv
edfo
rLC
Dco
nnec
tor
R67
0
+3V
3R6
8[N
/A]
DR
AF
T
Schematics UM1461
52/65 Doc ID 022138 Rev 1
Figure 26. RS-232 and IrDA
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
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e:
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ber:
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tof
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CH
)D
ate:
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/201
1
RS23
2/IrD
A_T
X
RS23
2/IrD
A_R
X
SD5
TxD
3
GN
D8
Ano
de(V
CC2)
1
Cath
ode
2
RxD
4
VCC
16
NC
7
U11
TFD
U63
00
R64
5R6
3
47
C51
0.1u
FC5
20.
1uF
+3V
3
C55
4.7u
FC4
54.
7uF
IrDA
32
1
JP22
MB
786
1020
STM
3220
-21-
45-4
6G
-EVA
LRS
-232
& Ir
DA
C2+
1
C2-
2V
-3
R1IN
4
R2IN
5
R3IN
6
R4IN
7
R5IN
8
T1O
UT
9
T2O
UT
10
T3O
UT
11T
3IN
12T
2IN
13T
1IN
14
R5O
UT
15R4
OU
T16
R3O
UT
17R2
OU
T18
R1O
UT
19R2
OU
TB
20R1
OU
TB
21
nSH
DN
22nE
N23
C1-
24G
ND
25V
CC26
V+
27
C1+
28U
17
ST32
41EB
PR
C78
100n
F
C80 10
0nF
C76
100n
F
C77
100n
FC7
910
0nF
+3V
3
1 6 2 7 3 8 4 9 5
CN16
DB9
-mal
eU
ART
3or
4
+3V
3
Boot
load
er_B
OO
T0
Boot
load
er_R
ESET
PC10
PC11
RX
D
TXD
CTS
DS
R
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 53/65
Figure 27. CAN
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
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ber:
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tof
C.1
(PC
B.S
CH
)D
ate:
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/201
1
CAN
1_T
X
CAN
1_RX
D1
GN
D2
VCC
3
R4
Vre
f5
CAN
L6
CAN
H7
RS8
U9
SN65
HV
D23
0
+3V
3
+3V
3
R38
120
JP9
32
1
JP7
R37
10K
+3V
3
C32
100n
F
R39
0
CAN
2_T
X
CAN
2_RX
R60
0R5
6do
notfi
t
Def
ault
sett
ing:
1<->
2D
efau
ltse
ttin
g:O
pen
MB
786
1120
STM
3220
-21-
45-4
6G
-EVA
LCA
N
1 6 2 7 3 8 4 9 5
CN10
DB9
-mal
eCA
Nco
nnec
tor
PD1
PD0
PB13
PB5
32
1
JP3
32
1
JP10
DR
AF
T
Schematics UM1461
54/65 Doc ID 022138 Rev 1
Figure 28. I/O peripherals
11
22
33
44
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CC
BB
AA
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1
12
LD3
Red
12
LD2
Ora
nge 1
2
LD4
Blue
12
LD1
Gre
enR1
55
510
R154
680
R141
680
R140
680
LED
4
LED
3
LED
1
LED
2
31
2RV
133
86P-
103H
[10%
]R1
51
0
+3V
3
Pote
ntiom
eter
C122
10nF
R14710KR14610KR14510KR14410K
R14910K
+2V
8
C119100nF
C128100nF
C120100nF
C129100nF
C121100nF
R159
100
COM
MO
N5
Sele
ctio
n2
DW
ON
3
LEF
T1
RIG
HT
4
UP
6
U32
MT
008-
A
R153
220K
1
4 3
2
B2 WK
UP
C124
dono
tfit
+3V
3
R138
100
R148
4K7
1
43
2
B4 USE
RC1
3010
0nF
+3V
3 R160
100
R142
4K7
1
43
2
B3 Tam
per
C118
100n
F
+3V
3 R156
100
R139
330
R150
0R1
430
JOY
_SEL
JOY
_DO
WN
JOY
_LEF
TJO
Y_R
IGH
TJO
Y_U
P
Ant
i_Ta
mpe
r
WA
KEU
P
Use
r_Bu
tton
EEP
ROM
_SCL
EEP
ROM
_SD
AM
EMS
_SCL
MEM
S_S
DA
MEM
S_I
NT
1M
EMS
_IN
T2
E01
E12
E23
VSS
4SD
A5
SCL
6W
C7
VCC
8U
18
M24
C64-
RMN
6TP
+3V
3 R102
10K
JP24
VD
D_I
O1
GN
D2
Rese
rved
3
GN
D4
GN
D5
VD
D6
CS7
INT
18
INT
29
GN
D10
Rese
rved
11
SDO
12
SDA
13
SCL
14
U20
LIS3
02D
L
+2V
8R1
0710
K
+2V
8
MB
786
1220
STM
3220
-21-
45-4
6G
-EVA
LIO
Perip
hera
ls
Joys
tick
LED
s
EEPR
OM
MEM
S
BU
TTO
N
Pote
ntiom
eter
C81
100n
F
C89
100n
F
To
IOex
pand
or
To
IOex
pand
or
R152
1K
PG6
PG8
PI9
PC7
PC13
PA0
PG15
PF9
PB9
PB6
PB9
PB6
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 55/65
Figure 29. I/O expandor
11
22
33
44
DD
CC
BB
AA
STMicroelectron
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Titl
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ber:
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tof
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B.S
CH
)D
ate:
8/15
/201
1M
B78
613
20
STM
3220
-21-
45-4
6G
-EVA
LIO
_Exp
ando
r
Y-
1
INT
2
A0/
Dat
aO
ut3
SCLK
4
SDA
T5
VCC
6
Dat
ain
7
IN0
8IN
19
GN
D10
IN2
11IN
312
X+
13
Vio
14
Y+
15X
-16
U24
STM
PE81
1QT
R
Y-
1
INT
2
A0/
Dat
aO
ut3
SCLK
4
SDA
T5
VCC
6
Dat
ain
7
IN0
8IN
19
GN
D10
IN2
11IN
312
X+
13
Vio
14
Y+
15X
-16
U29
STM
PE81
1QT
RR1
3510
K
+2V
8
I2C
devi
cead
dres
s:0x
82
I2C
devi
cead
dres
s:0x
88
+2V
8
+2V
8
R116
100K
R132
100K
IO_E
xpa
ndor
_SCK
IO_E
xpa
ndor
_SD
AIO
_Ex
pand
or_I
NT
Tou
chSc
reen
_X+
Tou
chSc
reen
_X-
Tou
chSc
reen
_Y+
Tou
chSc
reen
_Y-
EXP_
IO2
EXP_
IO3
EXP_
IO4
EXP_
IO5
EXP_
IO6
EXP_
IO7
EXP_
IO8
EXP_
IO9
EXP_
IO10
EXP_
IO11
EXP_
IO12
EXP_
IO1
R121
10K
R136
0 +2V
8
R117
10K
R131
10K
+2V
8
C99
100n
F
C115
100n
F
PB9
PB6
PI2
DR
AF
T
Schematics UM1461
56/65 Doc ID 022138 Rev 1
Figure 30. MicroSD card
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
Mic
roSD
card
MB
786
1420
STM
3220
-21-
45-4
6G
-EVA
LM
icro
SDca
rd
+3V
3
Mic
roSD
Card
_CLK
Mic
roSD
Card
_CM
D
SMS
064F
For
SMS
128F
F
12345678
SW2 9
SW1 10
CN6
PJS0
08-2
000
Mic
roSD
Card
_D0
Mic
roSD
Card
_D1
Mic
roSD
Card
_D2
Mic
roSD
Card
_D3
Mic
roSD
Card
_Det
ect
R9 47K
R8 47K
R2 0
R11
47K
R10
47K
R65
47K
+3V
3
PC8
PC9
PC10
PC11
PC12
PD2
PH13
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 57/65
Figure 31. Motor control
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
R7 3.3K C4 1n
F
+3V
3
+3V
3+5
V
R14
0
C3 100n
F
C12
100n
F
R74
0C5
9do
notfi
t
C62
dono
tfit
C63
dono
tfit
C11
dono
tfit
C38
dono
tfit
C2 10nF
C8 dono
tfit
C1 dono
tfit
R77
0
R80
0
R12
0 R4 0
C10
dono
tfit
EMER
GEN
CYST
OP
1
MC-
UH
3
MC_
UL
5
MC_
VH
7
MC_
VL
9
MC_
WH
11
MC_
WL
13
CURR
ENT
A15
CURR
ENT
C19
CURR
ENT
B17
NT
CBY
PASS
RELA
Y21
DIS
SIPA
TIV
EBR
AK
E23
+5V
POW
ER25
PFC
SYN
C27
PFC
PWM
29
Enco
derA
31
Enco
derB
33
GN
D2
GN
D4
GN
D6
GN
D8
GN
D10
GN
D12
BUS
VO
LTA
GE
14
GN
D16
GN
D18
GN
D20
GN
D22
GN
D24
Hea
tsin
kT
empe
ratu
re26
Vdd
_Mic
ro28
GN
D30
GN
D32
Enco
derI
ndex
34
CN5
MC_
conn
ecto
r
MC_
Emer
genc
yST
OP
MC_
Curr
entA
MC_
Curr
entB
MC_
Curr
entC
MC_
PFC
sync
1
MC_
PFC
sync
2
MC_
WL
MC_
VH
MC_
VL
MC_
UH
MC_
UL
MC_
WH
MC_
NT
CM
C_D
issi
pativ
eBra
ke
MC_
PFC
pwm
MC_
EnA
MC_
EnB
MC_
Hea
tsin
kTem
pera
ture
MC_
BusV
olta
ge
MC_
EnIn
dex
R6 100K
C9 dono
tfit
Mot
orco
ntro
lco
nnec
tor
Def
ault
sett
ing:
Ope
n
Def
ault
sett
ing:
Ope
n
MB
786
1520
STM
3220
-21-
45-4
6G
-EVA
LM
otor
cont
rol
R73
0 R76
0 R79
0
R13
0
R5 0
PC4
PC5
PC1
PC2
PC3
PH8
PH10
PH11
PD13
PC8
PB8
PH13
PH14
PH15
PD12
PI4
PI5
PI6
PI7
R3 0
R59
0
R57
0
TP4
AIN
+T
P3A
IN-
SB17
SB18
R219
0
DR
AF
T
Schematics UM1461
58/65 Doc ID 022138 Rev 1
Figure 32. Smartcard
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
VCC
1
RST
2
CLK
3
NC
4
GN
D5
NC
6
I/O
7
NC
8
1817CN
20C8
16
CLK
DIV
11
CLK
DIV
22
5V/3
V3
PGN
D4
C1+
5
Vdd
p6
C1-
7
Vup
8
PRES
9
PRES
10
I/O
11
AU
X2
12
AU
X1
13
CGN
D14
CLK
15RS
T16
Vcc
17PO
RAD
J18
CMD
VCC
19RS
TIN
20V
dd21
GN
D22
OFF
23X
TA
L124
XT
AL2
25I/
OU
C26
AU
X1U
C27
AU
X2U
C28
U31
ST80
24CD
R
C125
100n
F
C126
100n
F
C117
47uF
+5V
C127
100n
F
C109
100n
F
R158
100K
+3V
3
R157
4K7
+3V
3
R129
10K
R123
10K
+3V
3
C111
100n
F
C114
47uF
+3V
3
R124
10K
+3V
3
R127
0
R126
0
R125
10K
TP1
1A
UX
2T
P12
AU
X1
Smar
tCar
d_3/
5V
Smar
tCar
d_IO
Smar
tCar
d_RS
T
Smar
tCar
d_CL
KSm
artC
ard_
OFF
Smar
tCar
d_CM
DV
CC
MB
786
1620
STM
3220
-21-
45-4
6G
-EVA
LSm
artc
ard
R128
0
PF7PF
6PG
7
PC6
PG12PH
15
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 59/65
Figure 33. JTAG and Trace
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
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tof
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(PC
B.S
CH
)D
ate:
8/15
/201
1
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
CN13
FTSH
-110
-01-
L-D
V+3
V3
R97
[N/A
]
R96
[N/A
]
R101
[N/A
]R95
[N/A
]
R98
dono
tfit
+3V
3
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
CN14
JTA
G+3
V3
+3V
3
R105
10K
R106
10K
R99
10K
R92
[N/A
]
R104
0R1
00do
notfi
tR9
40
R91
dono
tfit
TRA
CE_D
3T
RACE
_D2
TRA
CE_D
1T
RACE
_D0
TRA
CE_C
K
Tra
ceco
nnec
tor
JTA
Gco
nnec
tor
KEY
MB
786
1720
STM
3220
-21-
45-4
6G
-EVA
LJT
AG
&Tr
ace
PA13
PA14
PB3
PA15
PB4
PE6
PE5
PE4
PE3
PE2
TD
I
RES
ET#
TRS
T
TM
S/S
WD
IOT
CK/S
WCL
KT
DO
/SW
O
D8 Z5V1
RS7
22D
3 Z5V1
D4 Z5V1
D5 Z5V1
D6 Z5V1
D7 Z5V1
DR
AF
T
Schematics UM1461
60/65 Doc ID 022138 Rev 1
Figure 34. Power
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
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tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
Vin
3
GND 1
Vou
t2
U22
LD10
86D
2M33
TR
C113
220u
FC8
310
uFC8
210
0nF
+5V
TP7
3V3
SV1
SG2
CV3
CG1
4
CG2
5
CG3
6
U25
BNX
002-
01
C106
10uF
E5V
TP8
5V+5
V
R93
1K 1 2
LD9
red
TP1
3G
roun
d
1 32
CN18
DC-
10B
Z1 SMA
J5.0
A-T
RC1
1210
0nF
1
2
3
U28
ZEN
056V
130A
24LS
+3V
3
D5V
E5V
MB
786
1820
STM
3220
-21-
45-4
6G
-EVA
LPo
wer
Vin
3V
out
2
1
U21
LD11
17S2
5TR
+5V
C91
10uF
+2V
5
TP6
2V5
C96
220u
F
VBU
S_FS
VBU
S_H
S
Vin
3V
out
2
1
U30
LD11
17S1
8TR
C116
10uF
+1V
8V
in3
Vou
t2
1
U26
LD11
17ST
R+5
V
C110
10uF
+2V
8
TP9
2V8
R114
120 C1
0010
uF
R120
150
TP1
01V
8
+3V
3V
DD
_MCU
JP32
12
34
56
78
910
JP18
Hea
der
5X2
U5V
_ST
_LIN
K
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 61/65
Figure 35. Extension connector
11
22
33
44
DD
CC
BB
AA
STM
icroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
RES
ET#
RES
ET#
MB
786
1920
STM
32
20-2
1-45
-46
G-E
VAL
Exte
nsio
nco
nnec
tor
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN4
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN1
21N
2256
4-50
S10B
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN2
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN3
21N
2256
4-50
S10B
PA0PA1PA2
PA3
PA4
PA5
PA6
PA7
PA8PA10 PA11PA12
PA13
PA14
PA15
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12 PB13PB14PB15
PC0PC1PC2PC3
PC4
PC5
PC6PC7PC8 PC9
PC10
PC11
PC12
PC13EXT_PC14EXT_PC15
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8PD9 PD10PD11 PD12PD13 PD14
PD15
PE0
PE1
PE2PE3PE4PE5PE6
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
PF0PF1PF2PF3
PF4PF5PF6PF7PF8PF9PF10
PF11
PF12
PF13
PF14
PF15
PG0
PG1
PG2 PG3PG4 PG5PG6 PG7PG8
PG9
PG10
PG11
PG12
PG13
PG14
PG15
EXT_PH0EXT_PH1
PH2PH3
PH4PH5
PH6
PH7
PH8
PH9
PH10
PH11
PH12
PH13PH14 PH15PI0 PI1PI2
PI3
PI4
PI5
PI6
PI7
PI8
PI9PI10PI11
VRE
F+
EMU
_3V
3
EMU
_5V
APP
_3V
3
APP
_VCC
PC13RESET#
EMU
_5V
EMU
_3V
3
EMU
_5V
APP
_3V
3
BOO
T0
(Lef
t)(R
ight
)
(But
tom
)
(Top
)
PA[0
..15]
PA[0
..15]
PB[0
..15]
PB[0
..15]
PC[0
..15]
PC[0
..15]
PD[0
..15]
PD[0
..15]
PE[0
..15]
PE[0
..15]
PF[0
..15]
PF[0
..15]
PG[0
..15]
PG[0
..15]
PH[0
..15]
PH[0
..15]
PI[0
..11]
PI[0
..11]
APP
_3V
3A
PP_V
CC
EMU
_5V
D5V
+3V
3
SB6
SB7
SB4
SB5
PH0
PH1
PC14
PC15
EXT
_PH
0
EXT
_PH
1
EXT
_PC1
4
EXT
_PC1
5
Clos
eto
crys
talo
nPC
B
BOO
T0
BOO
T0
VBU
S_FS
CX1
33pF
11
22
33
44
DD
CC
BB
AA
STM
icroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
RES
ET#
RES
ET#
MB
786
1920
STM
32
20-2
1-45
-46
G-E
VAL
Exte
nsio
nco
nnec
tor
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN4
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN1
21N
2256
4-50
S10B
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN2
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN3
21N
2256
4-50
S10B
PA0PA1PA2
PA3
PA4
PA5
PA6
PA7
PA8PA10 PA11PA12
PA13
PA14
PA15
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12 PB13PB14PB15
PC0PC1PC2PC3
PC4
PC5
PC6PC7PC8 PC9
PC10
PC11
PC12
PC13EXT_PC14EXT_PC15
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8PD9 PD10PD11 PD12PD13 PD14
PD15
PE0
PE1
PE2PE3PE4PE5PE6
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
PF0PF1PF2PF3
PF4PF5PF6PF7PF8PF9PF10
PF11
PF12
PF13
PF14
PF15
PG0
PG1
PG2 PG3PG4 PG5PG6 PG7PG8
PG9
PG10
PG11
PG12
PG13
PG14
PG15
EXT_PH0EXT_PH1
PH2PH3
PH4PH5
PH6
PH7
PH8
PH9
PH10
PH11
PH12
PH13PH14 PH15PI0 PI1PI2
PI3
PI4
PI5
PI6
PI7
PI8
PI9PI10PI11
VRE
F+
EMU
_3V
3
EMU
_5V
APP
_3V
3
APP
_VCC
PC13RESET#
EMU
_5V
EMU
_3V
3
EMU
_5V
APP
_3V
3
BOO
T0
(Lef
t)(R
ight
)
(But
tom
)
(Top
)
PA[0
..15]
PA[0
..15]
PB[0
..15]
PB[0
..15]
PC[0
..15]
PC[0
..15]
PD[0
..15]
PD[0
..15]
PE[0
..15]
PE[0
..15]
PF[0
..15]
PF[0
..15]
PG[0
..15]
PG[0
..15]
PH[0
..15]
PH[0
..15]
PI[0
..11]
PI[0
..11]
APP
_3V
3A
PP_V
CC
EMU
_5V
D5V
+3V
3
SB6
SB7
SB4
SB5
PH0
PH1
PC14
PC15
EXT
_PH
0
EXT
_PH
1
EXT
_PC1
4
EXT
_PC1
5
Clos
eto
crys
talo
nPC
B
BOO
T0
BOO
T0
VBU
S_FS
CX1
33pF
11
22
33
44
DD
CC
BB
AA
STM
icroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
RES
ET#
RES
ET#
MB
786
1920
STM
32
20-2
1-45
-46
G-E
VAL
Exte
nsio
nco
nnec
tor
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN4
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN1
21N
2256
4-50
S10B
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN2
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN3
21N
2256
4-50
S10B
PA0PA1PA2
PA3
PA4
PA5
PA6
PA7
PA8PA10 PA11PA12
PA13
PA14
PA15
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12 PB13PB14PB15
PC0PC1PC2PC3
PC4
PC5
PC6PC7PC8 PC9
PC10
PC11
PC12
PC13EXT_PC14EXT_PC15
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8PD9 PD10PD11 PD12PD13 PD14
PD15
PE0
PE1
PE2PE3PE4PE5PE6
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
PF0PF1PF2PF3
PF4PF5PF6PF7PF8PF9PF10
PF11
PF12
PF13
PF14
PF15
PG0
PG1
PG2 PG3PG4 PG5PG6 PG7PG8
PG9
PG10
PG11
PG12
PG13
PG14
PG15
EXT_PH0EXT_PH1
PH2PH3
PH4PH5
PH6
PH7
PH8
PH9
PH10
PH11
PH12
PH13PH14 PH15PI0 PI1PI2
PI3
PI4
PI5
PI6
PI7
PI8
PI9PI10PI11
VRE
F+
EMU
_3V
3
EMU
_5V
APP
_3V
3
APP
_VCC
PC13RESET#
EMU
_5V
EMU
_3V
3
EMU
_5V
APP
_3V
3
BOO
T0
(Lef
t)(R
ight
)
(But
tom
)
(Top
)
PA[0
..15]
PA[0
..15]
PB[0
..15]
PB[0
..15]
PC[0
..15]
PC[0
..15]
PD[0
..15]
PD[0
..15]
PE[0
..15]
PE[0
..15]
PF[0
..15]
PF[0
..15]
PG[0
..15]
PG[0
..15]
PH[0
..15]
PH[0
..15]
PI[0
..11]
PI[0
..11]
APP
_3V
3A
PP_V
CC
EMU
_5V
D5V
+3V
3
SB6
SB7
SB4
SB5
PH0
PH1
PC14
PC15
EXT
_PH
0
EXT
_PH
1
EXT
_PC1
4
EXT
_PC1
5
Clos
eto
crys
talo
nPC
B
BOO
T0
BOO
T0
VBU
S_FS
CX1
33pF
11
22
33
44
DD
CC
BB
AA
STM
icroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
RES
ET#
RES
ET#
MB
786
1920
STM
32
20-2
1-45
-46
G-E
VAL
Exte
nsio
nco
nnec
tor
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN4
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN1
21N
2256
4-50
S10B
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN2
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN3
21N
2256
4-50
S10B
PA0PA1PA2
PA3
PA4
PA5
PA6
PA7
PA8PA10 PA11PA12
PA13
PA14
PA15
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12 PB13PB14PB15
PC0PC1PC2PC3
PC4
PC5
PC6PC7PC8 PC9
PC10
PC11
PC12
PC13EXT_PC14EXT_PC15
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8PD9 PD10PD11 PD12PD13 PD14
PD15
PE0
PE1
PE2PE3PE4PE5PE6
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
PF0PF1PF2PF3
PF4PF5PF6PF7PF8PF9PF10
PF11
PF12
PF13
PF14
PF15
PG0
PG1
PG2 PG3PG4 PG5PG6 PG7PG8
PG9
PG10
PG11
PG12
PG13
PG14
PG15
EXT_PH0EXT_PH1
PH2PH3
PH4PH5
PH6
PH7
PH8
PH9
PH10
PH11
PH12
PH13PH14 PH15PI0 PI1PI2
PI3
PI4
PI5
PI6
PI7
PI8
PI9PI10PI11
VRE
F+
EMU
_3V
3
EMU
_5V
APP
_3V
3
APP
_VCC
PC13RESET#
EMU
_5V
EMU
_3V
3
EMU
_5V
APP
_3V
3
BOO
T0
(Lef
t)(R
ight
)
(But
tom
)
(Top
)
PA[0
..15]
PA[0
..15]
PB[0
..15]
PB[0
..15]
PC[0
..15]
PC[0
..15]
PD[0
..15]
PD[0
..15]
PE[0
..15]
PE[0
..15]
PF[0
..15]
PF[0
..15]
PG[0
..15]
PG[0
..15]
PH[0
..15]
PH[0
..15]
PI[0
..11]
PI[0
..11]
APP
_3V
3A
PP_V
CC
EMU
_5V
D5V
+3V
3
SB6
SB7
SB4
SB5
PH0
PH1
PC14
PC15
EXT
_PH
0
EXT
_PH
1
EXT
_PC1
4
EXT
_PC1
5
Clos
eto
crys
talo
nPC
B
BOO
T0
BOO
T0
VBU
S_FS
CX1
33pF
11
22
33
44
DD
CC
BB
AA
STM
icroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
RES
ET#
RES
ET#
MB
786
1920
STM
32
20-2
1-45
-46
G-E
VAL
Exte
nsio
nco
nnec
tor
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN4
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN1
21N
2256
4-50
S10B
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN2
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN3
21N
2256
4-50
S10B
PA0PA1PA2
PA3
PA4
PA5
PA6
PA7
PA8PA10 PA11PA12
PA13
PA14
PA15
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12 PB13PB14PB15
PC0PC1PC2PC3
PC4
PC5
PC6PC7PC8 PC9
PC10
PC11
PC12
PC13EXT_PC14EXT_PC15
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8PD9 PD10PD11 PD12PD13 PD14
PD15
PE0
PE1
PE2PE3PE4PE5PE6
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
PF0PF1PF2PF3
PF4PF5PF6PF7PF8PF9PF10
PF11
PF12
PF13
PF14
PF15
PG0
PG1
PG2 PG3PG4 PG5PG6 PG7PG8
PG9
PG10
PG11
PG12
PG13
PG14
PG15
EXT_PH0EXT_PH1
PH2PH3
PH4PH5
PH6
PH7
PH8
PH9
PH10
PH11
PH12
PH13PH14 PH15PI0 PI1PI2
PI3
PI4
PI5
PI6
PI7
PI8
PI9PI10PI11
VRE
F+
EMU
_3V
3
EMU
_5V
APP
_3V
3
APP
_VCC
PC13RESET#
EMU
_5V
EMU
_3V
3
EMU
_5V
APP
_3V
3
BOO
T0
(Lef
t)(R
ight
)
(But
tom
)
(Top
)
PA[0
..15]
PA[0
..15]
PB[0
..15]
PB[0
..15]
PC[0
..15]
PC[0
..15]
PD[0
..15]
PD[0
..15]
PE[0
..15]
PE[0
..15]
PF[0
..15]
PF[0
..15]
PG[0
..15]
PG[0
..15]
PH[0
..15]
PH[0
..15]
PI[0
..11]
PI[0
..11]
APP
_3V
3A
PP_V
CC
EMU
_5V
D5V
+3V
3
SB6
SB7
SB4
SB5
PH0
PH1
PC14
PC15
EXT
_PH
0
EXT
_PH
1
EXT
_PC1
4
EXT
_PC1
5
Clos
eto
crys
talo
nPC
B
BOO
T0
BOO
T0
VBU
S_FS
CX1
33pF
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
1
RES
ET#
RES
ET#
MB
786
1920
STM
3220
-21-
45-4
6G
-EVA
LEx
tens
ion
conn
ecto
r
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN4
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN1
21N
2256
4-50
S10B
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
CN2
21N
2256
4-40
S10B
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
CN3
21N
2256
4-50
S10B
PA0PA1PA2
PA3
PA4
PA5
PA6
PA7
PA8PA10 PA11PA12
PA13
PA14
PA15
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12 PB13PB14PB15
PC0PC1PC2PC3
PC4
PC5
PC6PC7PC8 PC9
PC10
PC11
PC12
PC13EXT_PC14EXT_PC15
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8PD9 PD10PD11 PD12PD13 PD14
PD15
PE0
PE1
PE2PE3PE4PE5PE6
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
PF0PF1PF2PF3
PF4PF5PF6PF7PF8PF9PF10
PF11
PF12
PF13
PF14
PF15
PG0
PG1
PG2 PG3PG4 PG5PG6 PG7PG8
PG9
PG10
PG11
PG12
PG13
PG14
PG15
EXT_PH0EXT_PH1
PH2PH3
PH4PH5
PH6
PH7
PH8
PH9
PH10
PH11
PH12
PH13PH14 PH15PI0 PI1PI2
PI3
PI4
PI5
PI6
PI7
PI8
PI9PI10PI11
VRE
F+
EMU
_3V
3
EMU
_5V
APP
_3V
3
APP
_VCC
PC13RESET#
EMU
_5V
EMU
_3V
3
EMU
_5V
APP
_3V
3
BOO
T0
(Lef
t)(R
ight
)
(But
tom
)
(Top
)
PA[0
..15]
PA[0
..15]
PB[0
..15]
PB[0
..15]
PC[0
..15]
PC[0
..15]
PD[0
..15]
PD[0
..15]
PE[0
..15]
PE[0
..15]
PF[0
..15]
PF[0
..15]
PG[0
..15]
PG[0
..15]
PH[0
..15]
PH[0
..15]
PI[0
..11]
PI[0
..11]
APP
_3V
3A
PP_V
CC
EMU
_5V
D5V
+3V
3
SB6
SB7
SB4
SB5
PH0
PH1
PC14
PC15
EXT
_PH
0
EXT
_PH
1
EXT
_PC1
4
EXT
_PC1
5
Clos
eto
crys
talo
nPC
B
BOO
T0
BOO
T0
VBU
S_FS
CX1
33pF
DR
AF
T
Schematics UM1461
62/65 Doc ID 022138 Rev 1
Figure 36. STLINK/V2
11
22
33
44
DD
CC
BB
AA
STMicroelectron
ics
Titl
e:
Num
ber:
Rev:
Shee
tof
C.1
(PC
B.S
CH
)D
ate:
8/15
/201
120
20
VBA
T1
PC13
2
PC14
3
PC15
4
OSC
_IN
5
OSC
_OU
T6
/RS
T7
VSS
A8
VD
DA
9
PA0
10
PA1
11
U2_
TX
12U2_RX 13
U2_CK 14
S1_CK 15
S1_MISO 16
S1_MOSI 17
PB0 18
PB1 19
PB2/BOOT1 20
PB10 21
VSS_1 23
VDD_1 24
PB12
25
PB11 22
S2_C
K26
S2_M
ISO
27S2
_MO
SI28
PA8
29PA
930
PA10
31PA
1132
PA12
33JT
MS
34V
SS_2
35V
DD
_236
JTCK37 JTDI38 JTDO39 JNRST40 PB541 PB642 PB743 BOOT044 PB845 PB946 VSS_347 VDD_348
U15
STM
32F1
03C8
T6
20pF
C139
20pF
C138
12
X5
8MH
z+3
V3
US
B_D
MU
SB
_DP
STM
_RS
T
T_JTCK
T_JT
CK
T_JTDOT_JTDI
T_JT
MS
STM
_JTM
S_S
WD
IO
STM_JTCK_SWCLK
LED
_STL
INK
OS
C_I
NO
SC
_OU
T
T_NRSTT_JRST
LED
_STL
INK
T_JT
CK
T_JT
DI
T_JT
DO
T_N
RS
TT_
JTM
S
T_JR
ST
R185
4K7
R186
4K7
AIN
_1C1
3710
0nF
R183
100K
R201
100
+3V
3
+3V
3
+3V
3+3
V3
+3V
3
+3V
3
AIN
_1
VCC
1
D-
2
D+
3
GN
D4
SHEL
L0
SHEL
L0
CN21
USB
-typ
eBco
nnec
tor
US
B_D
MU
SB
_DP
+3V
3 C135
100n
FC1
3310
0nF
C136
100n
FC1
3410
0nF
R192
10R1
9310
MCU U
SB
JTAG
STM
_JTM
S_S
WD
IOS
TM_J
TCK
_SW
CLK
+3V
3
U5V
_ST
_LIN
KT
DI
TRS
T
TM
S/S
WD
IO
TCK
/SW
CLK
TD
O/S
WO
RES
ET#
SWIM
_PU
_CT
RL
R182
100K
T_S
WO
T_S
WD
IO_I
N
T_S
WD
IO_I
N
T_S
WO
12
34
5
CN17
JTA
G
R194
1.5K
R189
10K
R191
36K
2
3 1
T2
9013
+3V
3U
5V_S
T_L
INK
R187
[N/A
]R188
10K
R184
100K
MCO
2 1
43
Red
Yellow
LD10
HSM
F-A
201-
A00
J1
R202
100
R190
0
+3V
3
MB
786
STM
3220
-21-
45-4
6G
-EVA
LST
-LIN
K/V2
DR
AF
T
UM1461 Schematics
Doc ID 022138 Rev 1 63/65
Figure 37. 3.2” LCD module with SPI and 16-bit interface
11
22
33
44
DD
CC
BB
AA
STMicroelec
tron
ics
Title:
Num
ber:
Rev:
Sheet of
A.1(PCB.SCH)
Date:3/27
/200
9
Enable
DotClk
HSY
NC
VSY
NC
CS
RS
WR
RD
#RES
ET
SDO
SDI
VDD
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
PD9
PD10
PD11
PD12
PD13
PD14
PD15
PD16
PD17
YU
YD
XR
XL
VSS
1
XL
2XR
3YD
4YU
5
VSS
6
IM0/ID
7
IM1
8
IM3
9
SDO
10
NC
11
SDI
12
D17
13D16
14D15
15D14
16D13
17D12
18D11
19D10
20D9
21D8
22D7
23D6
24D5
25D4
26D3
27D2
28D1
29D0
30CS
31
RES
ET32
RS
33
WR/SCL
34
RD
35
VSY
NC
36
HSY
NC
37
DOTC
LK38
ENABLE
39
VCC
40
VCC
41
VSS
42
LED_K
43LE
D_A
44
VSS
45
CN2
FF02
45SS
1
R4
0
R1
10K
VDD
RP1
10K
RP2
10K
RP4
10K
PD0
PD2
PD4
PD6
PD8
PD9
PD10
PD11
PD12
PD13
PD14
PD15
PD16
PD17
Enable
DotClk
HSY
NC
VSY
NC
VDD
C3
1uF/50V
R3
4K7
R2
4K7
SDI
SDO RD
RS
Soldered fo
r Serial interface only
Soldered fo
r i80-system 16-bit interface
The 34-pin connector to
mother b
oard fo
r both
seria
l & 16bit interface. Com
patib
le with
MB694 with
Touch sc
reen signals a
dded on
Pin 31-34.
CS
RS
WR
RD
#RES
ET
VDD
BLG
ND
BLV
DD
BL_
Contro
l
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
PD10
PD11
PD12
PD13
PD14
PD15
PD16
PD17
SDO
SDI
A K
Z1 STPS
1L40M
C1
4.7uF/50V
L14.7u
H(1A)
R7
10
BLG
ND
BLV
DD
R6
100K
C2
2.2uF R
50
R8 do
not fit
BLV
DD
BL_
Contro
l
BLG
ND
BLG
ND
BLG
ND
AM-240320D
4TOQW-T00H(R)
Vi
1
Rset
2GND
3FB
4
NC
5Vo
6
EN7
SW8
PGND
9
U1
STLD
40DPM
R
CS
1
RS
2
WR/SCL
3
RD
4
RES
ET5
VDD
24
VCI
25
GND
26
GND
27
BL_
VDD
28
BL_
Contro
l23
BL_
GND
22
PD1
6
PD2
7
PD3
8
PD4
9
PD5
10
PD6
11
PD7
12
PD8
13
PD10
14
PD11
15
PD12
16
PD13
17
PD14
18
PD15
19
PD16
20
PD17
21
SDO
29
SDI
30XL
31
XR
32
YD
33
YU
34
CN1
3.2L
CD_connector
YU
YD
XR
XL
LCD board connector to
Mother b
oard
MB7
851
1
3.2" LCD m
odule with
both SPI &
16b
it interfa
ce
RP3
10K
RP6
10K
RP5
10K
PD1
PD3
PD5
PD7
DR
AF
T
Revision history UM1461
64/65 Doc ID 022138 Rev 1
5 Revision history
Table 34. Document revision history
Date Revision Changes
02-Sept-2011 1d Initial release.
DR
AF
T
UM1461
Doc ID 022138 Rev 1 65/65
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