Download STM32100E-EVAL evaluation board

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Transcript 
UM1055
User manual
STM32100E-EVAL evaluation board
Introduction
The STM32100E-EVAL evaluation board is designed as a complete development platform
for the STMicroelectronics ARM® Cortex-M3 core-based STM32F100 microcontroller with
HDMI CEC connection, FSMC (Flexible Static Memory Controller), two I2C, three SPI, five
USART, 32 Kbytes of internal SRAM, 512 Kbytes of internal Flash memory and JTAG and
SWD debugging/programming support.
The full range of hardware features on the board helps you evaluate all peripherals
(HDMI CEC, SRAM, motor control, LCD, MicroSD card, serial Flash, EEPROM, temperature
sensor, speaker, IrDA, RS-232, RS-485… etc.) and develop your own applications.
Extension headers facilitate the connection of a daughterboard or wrapping board for your
specific applications.
A ST-LINK/V2 is integrated on the board as an embedded debugger and programmer for the
STM32F100 MCU.
Figure 1.
March 2011
STM32100E-EVAL evaluation board
Doc ID 018466 Rev 1
1/49
www.st.com
www.BDTIC.com/ST
Contents
UM1055
Contents
1
2
3
2/49
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.1
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.2
Demonstration software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.3
Order code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Hardware layout and configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.1
Development and debug support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
2.2
Power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
2.3
Boot option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
2.4
Clock source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
2.5
Reset source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
2.6
Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
2.7
EEPROM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
2.8
IrDA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
2.9
Motor control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
2.10
MicroSD card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
2.11
Analog input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
2.12
SRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
2.13
Serial Flash . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
2.14
Temperature sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
2.15
Display and input devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
2.16
HDMI CEC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
2.17
IR receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
2.18
RS-232 communication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
2.19
RS-485 communication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
3.1
Motor control connector CN1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
3.2
HDMI connectors CN2 and CN3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
3.3
Analog input connector CN4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
3.4
RS-232 connector CN5 with RTS/CTS handshake support . . . . . . . . . . . 17
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UM1055
4
Contents
3.5
RS-232 with ISP support and RS-485 connector CN10 . . . . . . . . . . . . . . 17
3.6
MicroSD connector CN6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
3.7
JTAG debugging connector CN7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
3.8
Daughterboard extension connectors CN8 and CN9 . . . . . . . . . . . . . . . . 19
3.9
Audio jack CN11 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
3.10
ST-LINK/V2 connector CN13 (USB connector) . . . . . . . . . . . . . . . . . . . . 24
3.11
ST-LINK/V2 programming connector CN12 (reserved connector) . . . . . . 24
3.12
Power connector CN14 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Appendix A STM32100E-EVAL pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
5
Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
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3/49
Overview
UM1055
1
Overview
1.1
Features
●
Three 5V power supply options:
–
1.2
Power jack
–
ST-LINK/V2 connector
–
Daughterboard
●
Boot from user Flash, system memory or SRAM
●
1 Gbyte (or more) MicroSD card
●
16 Mbytes of serial Flash memory
●
2 Mbytes of SRAM
●
8 Kbytes of EEPROM
●
I2C/SMBus compatible serial interface temperature sensor
●
2-channel RS-232 communication interface with RTS/CTS handshake support on one
channel
●
1-channel RS-485 communication interface sharing the USART1 connector
●
IrDA transceiver
●
IR receiver
●
Inductor motor control connector
●
JTAG and SWD debug support
●
3.2" TFT color LCD with touch screen
●
Joystick with 4-direction control and selector
●
Reset, wakeup, tamper and user buttons
●
Speaker
●
4 LEDs
●
RTC with backup battery
●
Extension connector for daughterboard or wrapping board
●
Embedded ST-LINK/V2 debugger and programmer
●
HDMI (High-Definition Multimedia Interface) with Consumer Electronics Control (CEC)
connection
Demonstration software
Demonstration software is preloaded on board Flash memory for easy demonstration of the
device peripherals in standalone mode. For more information and to download the latest
version available, please refer to STM32100E-EVAL demonstration software available on
the web: www.st.com/mcu.
1.3
Order code
To order the STM32F100ZET6 MCU evaluation board, use the order code
STM32100E-EVAL.
4/49
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UM1055
2
Hardware layout and configuration
Hardware layout and configuration
The STM32100E-EVAL evaluation board is designed around the STM32F100ZET6 (144-pin
LQFP package). The hardware block diagram Figure 2 illustrates the connection between
STM32F100ZET6 and peripherals (LCD, SRAM, IR receiver, SPI Flash, USART, IrDA,
speaker, HDMI CEC, temperature sensor, MicroSD card, motor control and embedded
ST-LINK/V2) and Figure 3 will help you locate these features on the actual evaluation board.
Figure 2.
Hardware block diagram
)2RECEIVER
)2RECEIVER
4)-?#(
30)
3ERIAL&LASH
3ERIAL&LASH
6REGULATOR
30)
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CARD
%XTENSION
CONNECTORFOR
'0)/S
-"YTE
32!&3-#
4&4
,#$
($-)
($-)
CONNECTOR
CONNECTOR
($-)
($-)
CONNECTOR
CONNECTOR
)#
#%#
34-&:%4
53!24
)R$!
)R$!
TRANSCEIVER
53!24 23
23
TRANSCEIVER
TRANSCEIVER
53!24
53!24
2323
TRANSCEIVER
TRANSCEIVER
53!24
53!24
2323
TRANSCEIVER
TRANSCEIVER
'0)/
%%02/%%02/-
"UTTONS
"UTTONS
)#
0OTENTIOMETER
0OTENTIOMETER
!$#
-#
4EMPERATURE
3ENSOR
$!#
3PEAKER
!MPLIFIER
*4!'
%MBEDDED
%MBEDDED
34 ,).+6
".#
".#
CONNECTOR
CONNECTOR
-OTOR#ONTROL
-OTOR#ONTROL
CONNECTOR
CONNECTOR
53!24
53!24
$"CONNECTOR
,#$4OUCH
,#$4OUCH
SCREEN
SCREEN
*OYSTICK
*OYSTICK
,%$S
,%$S
53!24
53!24
$"CONNECTOR
53"4YPE"
53"4YPE"
CONNECTOR
CONNECTOR
*4!'4RACE
CONNECTOR
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Hardware layout and configuration
Figure 3.
UM1055
STM32100E-EVAL Evaluation board layout
#.
-OTORCONTROL
#.#.
%XTENSIONHEADER
#.
($-)CONNECTOR
5
)2RECEIVER
#.
-ICRO3$CARD
5
32!
#.
($-)CONNECTOR
5
34-&:%4
#.
".#
#.
53!24
#.
*4!'
#.
53!2423
#.
34,).+6
#.
!UDIO*ACK
#.
4&4,#$
#.
0OWERJACK
,%$
#/5
)R$!
26
0OTENTIOMETER
"
2ESET
6/49
"
7AKEUP
"
4AMPER
5
*OYSTICK
"
+EY
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UM1055
2.1
Hardware layout and configuration
Development and debug support
Version 2 of the ST-LINK, known as ST-LINK/V2, is embedded on the board. This tool allows
program loading and debugging of the STM32F using the JTAG or SWD interface
Third-party debug tools are also supported by using the JTAG connector (CN7).
A specific driver needs to be installed on your PC for communication with the embedded
ST-LINK/V2. The InstallShield package ST-LINK_V2_USBdriver.exe is available from the ST
website. To download and install this driver, please refer to Software and development
tools page for STM32F family available on www.st.com.
Connect the embedded ST-LINK/V2 to the PC via a standard USB cable from connector
CN13. The bi-color LED LD5 (COM in Figure 3) 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 STLink/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:
Note: It is possible to power the board via CN13 (embedded ST-LINK/V2 USB connector)
even if an external tool is connected to CN7 (external JTAG and SWD).
2.2
Power supply
STM32100E-EVAL evaluation board is designed to be powered by a 5 V DC power supply
and to be protected by PolyZen U18 from damage caused by overvoltage and overcurrent
fault conditions. It is possible to configure the evaluation board to use any of following three
power supply sources:
●
5V DC power adapter connected to CN14, the Power Jack on the board (Power Supply
Unit (PSU) in Figure 3, JP13 jumper description in Table 1).
●
5V DC power with 500mA limitation from CN13, the ST-LINK/V2 type-B USB connector
(STlk in Figure 3, JP13 jumper description in Table 1).
●
5V DC power from both CN8 and CN9, the extension connector for daughterboard
(DTB for Daughterboard in Figure 3, JP13 jumper description in Table 1).
The power supply is configured by setting the related jumpers JP13, JP1 and JP10 as
described in Table 1.
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Hardware layout and configuration
Table 1.
UM1055
Power related jumpers
Jumper
Description
035
$4"
035
53"
34LK
$4"
035
53"
34LK
$4"
035
For power supply from power supply jack (CN14) to both
STM32100E-EVAL and daughterboard connected on CN8 and
CN9, JP13 is set as shown to the right:
(daughter board must have not its own powersupply
connected)
53"
34LK
JP13
(selects one of
the three possible
power supply
For power supply from ST-LINK/V2 USB connector (CN13) to
resources)
STM32100E-EVAL only, JP13 is set as shown to the right:
(Default setting)
$4"
For power supply from the daughterboard connectors (CN8
and CN9) to STM32100E-EVAL only, JP13 is set as shown to
the right:
53"
34LK
For power supply jack (CN14) to the STM32100E-EVAL only,
JP13 is set as shown to the right:
Jumper setting
Vbat is connected to +3.3V power when JP1 is set as shown to
the right:
(Default setting)
1 2 3
Vbat is connected to battery when JP1 is set as shown to the
right:
1 2 3
JP1
JP10
Enables consumption measurements of both VDD and VDDA.
Default setting: Fitted
The LED LD6 is lit when the STM32100E-EVAL evaluation board is powered by the 5 V
correctly.
Note:
The recommended AC220V to DC5V power adapter is the PSU-5V2A. It is not included with
the board but can be ordered from ST as a separate item. You can also use another
equivalent 5V power adapter (polarity compatible with CN14) to power STM32100E-EVAL
board via the CN14 power jack on the board. To order the recommended power supply, use
the order code: PSU-5V2A.
2.3
Boot option
The STM32100E-EVAL evaluation board is able to boot from:
8/49
●
Embedded user Flash
●
System memory with boot loader for ISP
●
Embedded SRAM for debugging
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UM1055
Hardware layout and configuration
The boot option is configured by setting switch SW1 and SW2.
Table 2.
Boot related switches and jumper
Switch
Switch
configuration
Boot source
STM32100E-EVAL boot from User Flash when BOOT0 is set as shown
to the right:
BOOT1 is don’t care in this configuration.
(Default setting)
STM32100E-EVAL boot from Embedded SRAM when BOOT0 and
BOOT1 are set as shown to the right:
SW1
SW2
STM32100E-EVAL boot from System Memory when BOOT0 and
BOOT1 are set as shown to the right:
The BOOT0 pin of STM32F100ZET6 is connected to RS-232 connector
CN10 pin 6 (DSR) for ISP support when JP8 is closed. This
configuration is used for bootloader application only.
(Default Setting: Not fitted)
JP8
2.4
Clock source
Two clock sources are available on STM32100E-EVAL evaluation board for
STM32F100ZET6 microcontroller:
●
X2, 32 kHz crystal for embedded RTC
●
X1, 8 MHz Crystal with socket for STM32F100ZET6 Microcontroller, it can be removed
from its socket when internal RC clock is used.
Table 3.
RTC related solder bridges
Solder bridge
SB5, SB6
2.5
Description
PC14 and PC15 are connected to extension connector CN8 when solder
bridges SB5 and SB6 are closed.
Default Setting: Not fitted
Reset source
The reset signal of STM32100E-EVAL evaluation board is active low and the reset sources
include:
●
Reset button B1
●
Debugging tools from JTAG connector CN7
●
Daughterboard from CN9
●
Embedded ST-LINK/V2
●
Bootloader_Reset from RS-232 connector CN10
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9/49
Hardware layout and configuration
Table 4.
UM1055
Reset related jumpers
Jumper
JP7
2.6
Description
Bootloader_Reset signal from RS-232 connector CN10 pin 1 (DCD) is
connected to RESET# of STM32F100ZET6 when JP7 is closed. This
configuration is used for bootloader application only.
Default Setting: Not fitted.
Audio
STM32100E-EVAL evaluation board supports playback based on a speaker on the board.
Two channels DAC of STM32F100ZET6 are connected to audio amplifier TS4956EIJT
which drive both speaker and stereo audio jack output. The audio volume can be adjusted
by configuration of audio amplifier through I2C interface.
Table 5.
Audio related jumpers
Jumper
Description
JP15
The I/O pin PA5 is connected to Audio DAC as DAC2 when JP15 is closed.
JP15 must be kept open for connection to serial flash as Flash_SCK.
Default setting: Not fitted
Note:
Channel DAC1 is shared by audio and BNC while channel DAC2 is shared by audio and
serial Flash on the board.
2.7
EEPROM
The EEPROM M24C64-WMN6TP connected to I2C2 of STM32F100ZET6 is available on
the board. Its address can be changed by setting solder bridge SB10.
Table 6.
EEPROM related jumper and solder bridge
Jumper
2.8
Description
JP14
The EEPROM write operations are disabled when JP14 is open.
Default Setting: Fitted
SB10
The device address of EEPROM is 0xA0 when SB10 is open and 0xA2
when SB10 is closed.
Default Setting: Not fitted
IrDA
IrDA communication is supported by IrDA transceiver U16 connected to USART4 of
STM32F100ZET6. IrDA can be enabled or disabled by setting PA11.
10/49
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UM1055
2.9
Hardware layout and configuration
Motor control
The STM32100E-EVAL evaluation board supports an induction motor control via a 34-pin
connector. Connector CN1 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.
Special motor current sampling operation is enabled by setting jumper JP12.
Table 7.
Motor control related jumpers
Jumper
Description
JP12
The special motor current sampling operation is enabled when
JP12 is fitted (PD2 connected to PB4). The I/O pins PD2 and PB4
are disconnected and can be used by daughterboard when JP12
is NOT fitted.
Default setting: Not fitted
JP2
JP2 must be open when encoder signal is from pin 31 of motor
control connector CN1. JP2 must be closed when the analog
signal is from pin31 of CN1 for special motor.
Default setting: Not fitted
JP3
PA6 is connected to motor control connector CN1 as
MC_EmergencySTOP when JP3 is closed. JP3 must be kept on
open for serial Flash operation.
Default setting: Not fitted
JP4
PA0 is connected to RS-232 transceiver U5 as USART2_CTS
when JP4 is set as shown to the right:
(Default setting)
1 2 3
PA0 is connected to motor control connector CN1 as MC_EnA
when JP4 is set as shown to the right:
1 2 3
PA10 is connected to motor control connector CN1 as MC_WH
when JP5 is set as shown to the right:
1 2 3
PA10 is connected to USART1_RX when JP4 JP5 is set as shown
to the right: (Default setting)
1 2 3
JP5
JP9
PD2 is used as MC_PFCsync2 output on motor control connector
CN1 when JP9 is open. PD2 is used as USART5_RX input when
JP9 is closed.
Default setting: Fitted
JP11
PB12 is used as MC_NTC on motor control connector CN1 when
JP11 is open. PB12 is used as temperature interrupt input when
JP11 is closed. JP11 must be kept closed for
TemperatureSensor_INT operation.
Default setting: Fitted
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Hardware layout and configuration
2.10
UM1055
MicroSD card
The 1 Gbyte (or more) MicroSD card connected to SPI2 of STM32F100ZET6 is available on
the board. MicroSD card chip select is managed by standard I/O port PG6 while MicroSD
card detect signal is managed by I/O port PF11.
2.11
Analog input
One BNC connector CN4 is connected to PA4 of STM32F100ZET6 as external analog input
or DAC output. The 50 ohm terminal resister can be enabled by closing of solder bridge
SB2. A low pass filter can be implemented for BNC connector by replacing of R49 and C45
by ADC input or replacing R48 and C45 for DAC output with the right value of the resister
and capacitor as presented in the end user’s application.
There are also 2 analog signals available on the board:
2.12
●
10K ohm potentiometer RV1 connected to PC4.
●
External ADC input which can be connected to TP1 (AIN+) and TP2 (AIN-), R51 should
be removed to avoid noise.
SRAM
The 2 Mbyte SRAM (IS61WV102416BLL-10MLI) is connected to Bank 2 of FSMC of
STM32F100ZET6 on the board.
2.13
Serial Flash
A 128 Mbit serial Flash memory connected to SPI1 of STM32F100ZET6, serial Flash chip
select is managed by standard I/O port PE6.
Note:
JP3 must be kept open for serial Flash operation. Please refer to Table 7 for details.
2.14
Temperature sensor
One I2C interface temperature sensor STLM75 (–55°C to +125°C) connected to I2C2 of
STM32F100ZET6 is available on the board. Its address can be changed by setting of solder
bridge SB8.
Table 8.
Temperature Sensor Related Solder bridges
Jumper
SB8
Note:
12/49
Description
Temperature sensor device address is 0x90 when SB8 is open and 0x92
when SB8 is closed.
Default Setting: Not fitted
JP11 must be closed for temperatureSensor_INT operation. Please refer to Table 7 for details.
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UM1055
2.15
Hardware layout and configuration
Display and input devices
The 3.2” TFT color LCD connected to Bank 3 (FSMC) of STM32F100ZET6 and 4 general
purpose LEDs (LD1,2,3,4) are available as display devices. The touch screen is supported
on the TFT LCD by I/O port expander STMPE811QTR which is connected via I2C bus to the
microcontroller. A 4-direction joystick with selection key, general purpose button (B4),
wakeup button (B2) and tamper detection button (B3) are available as input devices.
Table 9.
Touch screen related solder bridge and jumper
Jumper
The device address of I/O expander U19 is 0x82 when SB9 is open and
0x88 when SB9 is closed.
Default Setting: Not fitted
SB9
2.16
Description
HDMI CEC
Two HDMI connectors CN2 and CN3 are available on STM32100E-EVAL board. The signals
CEC, SCL, SDA and HPD are supported and connected to STM32F100ZET6 through
HDMI2C1-5DIJ, the ST full integrated ESD protection, level-shifting device and signal
booster for control links of HDMI 1.3 transmitter.
Table 10.
HDMI CEC Related solder bridge and Jumper
Jumper
Description
SB1
The +5V power pin of HDMI connectors CN2 and CN3 is
connected to 5V power on STM32100E-EVAL board when SB1 is
closed.
Defult Status: Open
JP6
PB7 is connected to HDMI level shifter U2 as I2C1_SDA when JP6
is set as shown to the right:
(Default setting)
Configuration not used:
2.17
1 2 3
1 2 3
IR receiver
The IR receiver TSOP34836 is connected to PC6 of STM32F100ZET6 on the board.
2.18
RS-232 communication
Two D-type 9-pin connectors are available on STM32100E-EVAL evaluation board:
●
CN10 (USART1) connector is connected to RS-232 transceiver U7 with
Bootloader_Reset and Bootloader_BOOT0 support for ISP
●
CN5 (USART2) connector with RTS/CTS handshake signal support is connected to
RS-232 transceiver U5
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13/49
Hardware layout and configuration
UM1055
Note:
Jumper JP4 must be fitted on pins 2-3 for USART2 operations and jumper JP5 must be
fitted on pins 1-2 for for USART1 operations. Please refer to Table 7 for more details.
2.19
RS-485 communication
The RS-485 communication on USART5 is supported by RS-485 transceiver ST485ABDR
and connected to pin4 and pin 9 of D-type 9-pin connector CN10 (shared with USART1).
Table 11.
RS-485 related solder bridges
Solder bridge
Note:
14/49
Description
SB3, SB4
The external fail-safe biasing are enabled when solder bridges SB3 and
SB4 are closed.
Default Setting: Not fitted
SB7
The bus termination is enabled when solder bridge SB7 is closed.
Default Setting: Not fitted
Jumper JP9 must be fitted for RS-485 operations. Please refer to Table 7 for more details.
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UM1055
Connectors
3
Connectors
3.1
Motor control connector CN1
Figure 4.
Motor control connector CN1
6IEWEDFROMABOVE0#"
-36
M
Table 12.
Motor control connector CN1 pin assignments
Description
Pin of
STM32F100
ZET6
Pin number
of CN1
Pin number
of CN1
EMERGENCY STOP
PA6
1
2
GND
PWM-UH
PA8
3
4
GND
PWM-UL
PA7
5
6
GND
PWM-VH
PA9
7
8
GND
PWM-VL
PB0
9
10
GND
PWM-WH
PA10
11
12
GND
PWM-WL
PB1
13
14
PHASE A CURRENT
PC1
15
16
GND
PHASE B CURRENT
PC2
17
18
GND
PHASE C CURRENT
PC3
19
20
GND
NTC BYPASS RELAY
PB12
21
22
GND
DISSIPATIVE BRAKE
PWM
PC8
23
24
GND
25
26
+5 V power
Pin of
STM32F100
ZET6
PC0
PC5
Description
BUS VOLTAGE
Heatsink
temperature
PFC SYNC
PD2 and PB4
27
28
3.3V power
(VDD MCU)
PFC PWM
PB5
29
30
GND
Encoder A
PA0
31
32
GND
Encoder B
PA1
33
34
PA2
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Encoder Index
15/49
Connectors
UM1055
3.2
HDMI connectors CN2 and CN3
Figure 5.
HDMI connectors CN2 & CN3
.47
Table 13.
HDMI connectors CN2 & CN3
Pin number
3.3
Description
Pin number
Description
1-12
NC
16
SDA (PB7)
13
CEC (PB8)
17
GND
14
NC
18
NC
15
SCL (PB6)
19
HPD (PB9)
Analog input connector CN4
Figure 6.
Analog input connector CN4
1
2
5
4
3
Bottom view
Table 14.
Analog input connector CN4
Table 15.
HDMI connectors CN2 & CN3
Pin number
16/49
Description
MS19142V1
Pin number
Description
1
GND
4
GND
2
GND
5
Analog input/PA4
3
GND
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UM1055
3.4
Connectors
RS-232 connector CN5 with RTS/CTS handshake support
1 2 3 4 5
6 7 8 9
Front view
MS19140V2
Table 16.
RS-232 connector CN5 with full modem control support
Pin number
3.5
Description
Pin number
Description
1
NC
6
Connect to Pin 4
2
USART2_RX
7
USART2_RTS
3
USART2_TX
8
USART2_CTS
4
Connect to Pin 6
9
NC
5
GND
RS-232 with ISP support and RS-485 connector CN10
1 2 3 4 5
6 7 8 9
Front view
MS19140V2
Table 17.
RS-232/RS-485 connector CN10
Pin number
Description
Pin number
Description
1
NC
6
BOOTLOADER_BOOT0
2
USART1_RX
7
NC
3
USART1_TX
8
BOOTLOADER_RESET
4
RS485_A
9
RS485_B
5
GND
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17/49
Connectors
3.6
UM1055
MicroSD connector CN6
'SPOUWJFX
-36
Table 18.
MicroSD connector CN6
Pin number
3.7
Description
Pin number
Description
1
Reserved
5
SCLK/PB13
2
CS/PG6
6
Vss/GND
3
DI/PB15
7
DO/PB14
4
VDD
10
Card Detect (PF11)
JTAG debugging connector CN7
19 17
20
18
15
13
16
14
11
9
12 10
7
8
5
3
6
4
1
2
Viewed from above PCB
MS19143V2
Table 19.
JTAG debugging connector CN7
Pin number
18/49
Description
Pin number
Description
1
3.3V power
2
3.3V power
3
TRST
4
GND
5
TDI
6
GND
7
TMS/SWDIO
8
GND
9
TCK/SWCLK
10
GND
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UM1055
Connectors
Table 19.
JTAG debugging connector CN7 (continued)
Pin number
3.8
Description
Pin number
Description
11
RTCK
12
GND
13
TDO/SWO
14
GND
15
RESET#
16
GND
17
Pull-Down
18
GND
19
Pull-Down
20
GND
Daughterboard extension connectors CN8 and CN9
Two 70-pinmale header connectors CN8 and CN9 can be used to connect with
daughterboard or standard wrapping board to STM32100E-EVAL evaluation board. All
GPI/Os are available on it. The space between these two connectors and position of power,
GND and RESET pins are defined as a standard which allows to develop common
daughterboards for several evaluations boards.
The standard width between CN8 pin1 and CN9 pin1 is 2700 mils (68.58mm). The standard
was implemented on the majority of evaluation boards. Each pin on CN8 and CN9 can be
used by a daughterboard after disconnecting it from the corresponding function block on
STM32100E-EVAL evaluation board. Please refer to Table 20 and Table 21 for more details.
Table 20.
Pin
Daughterboard extension connector CN8
Description
How to disconnect from function block
on STM3210E-EVAL board
Alternative function
1
GND
-
-
3
PC7
LCD_backlight
-
5
PC9
RS485_DIR
-
7
PA9
MC_VH
9
PA0
MC/Wakeup/
USART2_CTS
11
-
13
PA12
IO_Expandor_INT
15
PA14
Debug_TCK
-
17
PC10
IrDA_TX
-
19
GND
-
-
21
PD0
FSMC_D2
-
23
PE2
-
-
25
PD2
MC/RS485
27
PD4
FSMC_NOE
-
Disconnect STM3210E-EVAL evaluation
board from motor.
Keep JP4 on open.
Remove R99
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
Keep JP9 on open.
-
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Connectors
Table 20.
20/49
UM1055
Daughterboard extension connector CN8 (continued)
How to disconnect from function block
on STM3210E-EVAL board
Pin
Description
Alternative function
29
PD6
FSMC_MWAIT
Remove R36
31
PD7
FSMC_NE0
Remove R22
33
PG10
FSMC_NE2
Remove R18
35
PG12
FSMC_NE3
Remove R85
37
PG14
Joystick_Left
Remove R106
39
GND
-
41
PB4
Debug_TRST/MC
43
PB6
I2C1_SCL
Remove R38
45
PB8
HDMI_CEC
Remove R37
47
PE0
FSMC_BLN0
-
49
D5V
-
-
51
PE4
FSMC_A20
-
53
PE6
Flash_CS
Remove R44
55
PC14
OSC32_IN
Remove R59.
Keep solder bridge SB5 on close.
57
PF0
FSMC_A0
-
59
GND
-
-
61
PF2
FSMC_A2
-
63
PF4
FSMC_A4
-
65
PF6
LD1
Remove R76
67
PF8
LD3
Remove R74
69
+3V3
-
2
PC6
IR_receiver
4
PC8
MC
6
PA8
MCO/MC_UH
8
PA10
USART1_RX/MC_WH
10
GND
-
-
12
PA11
IrDA_SD
-
14
PA13
Debug TMS
-
16
PA15
Debug TDI
-
18
PC11
IrDA_RX
20
PC12
RS485_TX
Disconnect STM3210E-EVAL evaluation
board from motor power drive board or
remove JP12.
Remove R1
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
Keep JP5 on open
Remove R110
-
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UM1055
Connectors
Table 20.
Daughterboard extension connector CN8 (continued)
How to disconnect from function block
on STM3210E-EVAL board
Pin
Description
22
PD1
FSMC_D3
-
24
PE1
FSMC_BLN1
-
26
PD3
FSMC_CLK
-
28
PD5
FSMC_WEN
-
30
GND
-
-
32
PG9
-
-
34
PG11
Joystick_Down
Remove R104
36
PG13
Joystick_Right
Remove R107
38
PG15
Joystick_Up
Remove R108
40
PB3
Debug_TDO
-
42
PB5
MC
44
PB7
FSMC/I2C1
Keep JP6 on open
46
PB9
HDMI_HPD
Remove R35
48
3V3
-
-
50
GND
-
-
52
PE3
FSMC_A19
-
54
PE5
-
-
56
PC13
Anti-tamper button
58
PC15
OSC32_OUT
60
PF1
FSMC_A1
-
62
PF3
FSMC_A3
-
64
PF5
FSMC_A5
-
66
PF7
LD2
Remove R75
68
PF9
LD4
Remove R73
70
GND
-
Table 21.
Pin
Alternative function
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
Remove R103
Remove R60.
Keep solder bridge SB6 on close.
-
Daughterboard extension connector CN9
Description
How to disconnect from function block
on STM3210E-EVAL board
Alternative function
1
GND
-
-
3
PG7
Joystick_Select
5
PG5
FSMC_A15
-
7
PG3
FSMC_A13
-
Remove R105
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Connectors
Table 21.
22/49
UM1055
Daughterboard extension connector CN9 (continued)
How to disconnect from function block
on STM3210E-EVAL board
Pin
Description
Alternative function
9
PC13 Button B3
-
-
11
RESET#
-
-
13
PD12
FSMC_A17
Remove R99
15
PD10
FSMC_D15
-
17
PC8
FSMC_D13
-
19
D5V
-
-
21
PB13
MicroSDcard
-
23
PB11
I2C2_SDA
Remove R72
25
PE15
FSMC_D12
-
27
PE13
FSMC_D10
-
29
PE11
FSMC_D8
-
31
PD15
FSMC_D1
-
33
PE9
FSMC_D6
-
35
PE7
FSMC_D4
-
37
PG1
FSMC_A11
-
39
GND
-
-
41
PF14
FSMC_A8
Disconnect STM3210E-EVAL evaluation
board from motor power drive board or
remove JP12.
43
PF12
FSMC_A6
-
45
PB2
BOOT1
47
PB1
MC
49
-
51
PB0
MC
53
PC4
Potentiometer
Remove R47
55
PA6
MC/SPI_MISO
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
Remove R46.
57
PA4
BNC/DAC_audio
-
59
GND
-
-
61
PA1
MC/USART2_RTS
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
63
PC3
MC
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
-
Remove R37
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.-
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UM1055
Connectors
Table 21.
Daughterboard extension connector CN9 (continued)
Pin
Description
How to disconnect from function block
on STM3210E-EVAL board
Alternative function
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
65
PC1
MC
67
PF10
-
-
69
+3V3
-
-
2
PG8
User button B4
Remove R109
4
PG6
MicroSDcard_CS
Remove R16
6
PG4
FSMC_A14
-
8
PG2
FSMC_A12
-
10
GND
-
-
12
PD13
FSMC_A18
-
14
PD11
FSMC_A16
-
16
PD9
FSMC_A14
-
18
PB15
MicroSD card
-
20
PB14
MicroSD card
Remove R24
22
PB12
24
PB10
I2C2_SCK
Remove R77
26
PE14
FSMC_D11
-
28
PE12
FSMC_D9
-
30
GND
-
-
32
PD14
FSMC_D0
-
34
PE10
FSMC_D7
-
36
PE8
FSMC_D5
-
38
-
-
-
40
PG0
FSMC_A10
-
42
PF15
FSMC_A9
-
44
PF13
FSMC_A7
-
46
PF11
MicroSD card detection
48
-
-
-
50
GND
-
-
52
PC5
MC
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
54
PA7
MC/SPI_MOSI
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
56
PA5
SPI_CLK/DAC_audio
Disconnect STM3210E-EVAL evaluation
MC/Temperature Sensor board from motor power drive board.
Keep JP11 on open
Remove SD card from card socket CN6
-
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Connectors
Table 21.
UM1055
Daughterboard extension connector CN9 (continued)
Pin
3.9
Description
How to disconnect from function block
on STM3210E-EVAL board
Alternative function
58
PA3
USART2_RX
60
PA2
MC/USART2_TX
62
-
64
PC2
MC
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
66
PC0
MC
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
Remove R9 and C12.
68
-
-
-
70
GND
-
-
-
Remove R138
Disconnect STM3210E-EVAL evaluation
board from motor power drive board.
-
Audio jack CN11
A 3.5mm Mono audio jack connector CN11 is available on STM32100E-EVAL board. The
speaker U12 will be bypassed when an earphone is plugged into connector CN11.
3.10
ST-LINK/V2 connector CN13 (USB connector)
Figure 7.
ST-LINK/V2 USB connector CN13 (viewed from front)
-36
ST-LINK/V2 USB connector CN13
Table 22.
ST-LINK/V2 USB connector CN13
Pin number
Description
Pin number
1
VBUS(power)
4
2
DM
5
3
DP
6
Description
GND
Shield
3.11
ST-LINK/V2 programming connector CN12 (reserved
connector)
The connector CN12 is not mounted on the board and reserved for manufacture only.
24/49
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UM1055
3.12
Connectors
Power connector CN14
The STM32100E-EVAL evaluation board can be powered by a DC 5V power supply via the
external power supply jack connector CN14 shown in Figure 8. The central pin of CN14
must be positive.
Figure 8.
Power supply connector CN14
$#6
'.$
&RONTVIEW
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-36
25/49
Schematics
4
UM1055
Schematics
The following schematics are listed:
26/49
●
Figure 9: Schematic diagram of STM32100E-EVAL on page 27
●
Figure 10: STM32100E-EVAL MCU on page 28
●
Figure 11: STM32100E-EVAL SRAM and OneNAND on page 29
●
Figure 12: STM32100E-EVAL LCD, EEPROM and TSensor on page 30
●
Figure 13: STM32100E-EVAL Audio schematic on page 31
●
Figure 14: STM32100E-EVAL I/O Peripherals on page 32
●
Figure 15: STM32100E-EVAL I/O Peripherals on page 33
●
Figure 16: STM32100E-EVAL MicroSD and SPI Flash on page 34
●
Figure 17: STM32100E-EVAL RS-232 and IrDA on page 35
●
Figure 18: STM32100E-EVAL RS-485 on page 36
●
Figure 19: STM32100E-EVAL HDMI_CEC and IR receiver on page 37
●
Figure 20: STM32100E-EVAL JTAG on page 38
●
Figure 21: STM32100E-EVAL ST-LINK (JTAG only) on page 39
●
Figure 22: STM32100E-EVAL motor control on page 40Figure 23: STM32100E-EVAL
power on page 41
●
Figure 24: STM32100E-EVAL 3.2" LCD module with both SPI and16 bit interface on
page 42
Doc ID 018466 Rev 1
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JOY_S EL
JOY_ DOWN
JOY_ LEFT
JOY_ RI GHT
JOY_ UP
Anti_Tamper
WA KEUP
User_Button
Potentiometer
BNC
LED1
LED2
LED3
LED4
MC_Em ergencySTOP
MC_CurrentA
MC_CurrentB
MC_CurrentC
MC_EnA
MC_EnB
MC_HeatsinkTemperature
MC_BusVolt age
MC_EnIndex
MC_PFCpwm
MC_Di ssipativeBrake
MC_NTC
MC_WH
MC_UL
MC_UH
MC_VL
MC_VH
MC_WL
MC_PFCsync2
MC_PFCsync1
U_MotorCtrl
MotorCtrl.SchDoc
Fl ash_CS
Fl ash_MI SO
Fl ash_MOSI
Fl ash_SCK
SDcard_detect
Mi croSD_SC
K
Mi croSD_MOSI
Mi croSD_MI SO
Mi croSD_CS
U_Mi croSD&SPI Flash
Mi croSD&SP
I Flash.SchDoc
U_I O_Peripheral
IO_Peripheral.SchDoc
HDMI _HPD
HDMI _CEC
IR_IN
I2C1_SDA
I2C1_SCL
U_CEC&
I R receiver
CEC&
I R receiver.SchDoc
HP_PLUGIN
DA C1_A udio
DA C2_A udio
A[0..20]
D[0..15]
FSMC_ NE0
FSMC_ NE2
FSMC_ NWE
FSMC_ NOE
FSMC_ BLN0
FSMC_ BLN1
FSMC_ CLK
FSMC_ NL
OneNA ND_I NT
FSMC_ NWAIT
USA RT2_ TX
USA RT2_ RTS
USA RT2_ CTS
USA RT2_ RX
USA RT5_ RX
USA RT5_ TX
RS485_DIR
IrDA_ RX
IrDA_ TX
USA RT1_ TX
USA RT1_ RX
Bootloader_BOOT
0
Bootloader_RESE
T
IrDA_SD
TDO/SWO
TCK/SWCLK
TMS/SW DIO
TRST
RES ET#
TDI
FSMC_ NE3
I2C2_SCK
I2C2_SDA
TemperatureSensor_INT
IO_Expandor_INT
LCD_backlight
MC_Em ergencySTOP
MC_CurrentA
MC_CurrentB
MC_CurrentC
MC_EnA
MC_EnB
MC_HeatsinkTemperature
MC_BusVolt age
MC_EnIndex
MC_PFCpwm
MC_Di ssipativeBrake
MC_NTC
MC_WH
MC_UL
MC_UH
MC_VL
MC_VH
MC_WL
MC_PFCsync2
MC_PFCsync1
Fl ash_CS
Fl ash_MI SO
Fl ash_MOSI
Fl ash_SCK
SDcard_detect
Mi croSD_SC
K
Mi croSD_MOSI
Mi croSD_MI SO
Mi croSD_CS
JOY_S EL
JOY_ DOWN
JOY_ LEFT
JOY_ RI GHT
JOY_ UP
Anti_Tamper
WA KEUP
User_Button
Potentiometer
BNC
LED1
LED2
LED3
LED4
HDMI _HPD
HDMI _CEC
IR_IN
I2C1_SDA
I2C1_SCK
DA C1_A udio
DA C2_A udio
U_MCU
MCU.Sc
h Doc
R77
R72
0
0
R83
R112
+3V3
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TDO/SWO
TCK/ SWCLK
TMS/SW DIO
TRST
RES ET#
TDI
U_ST_L
I NK
ST_LI NK.S CHDOC
TDO/SWO
TCK/SWCLK
TMS/S W DIO
TRST
RESET#
TDI
U_JTAG&SWD
JTA G&SW D.SchDoc
RES ET#
HP_PLUGIN
D[0..15]
A[0..20]
FSMC_ NWE
FSMC_ NOE
FSMC_ NE3
I2C2_SCK
I2C2_SDA
TemperatureSensor_INT
IO_Expandor_INT
LCD_backlight
U_LCD&EEPROM& TS
LCD&EEPROM&TS.Sc
h Doc
A[0..20]
D[0..15]
FSMC_ NE0
FSMC_ NE2
FSMC_ NWE
FSMC_ NOE
FSMC_ BLN0
FSMC_ BLN1
FSMC_ CLK
FSMC_ NL
OneNA ND_I NT
FSMC_ NWAIT
U_SRA M&One NA ND
SRA M&One NA ND.Sch Doc
USA RT2_ TX
IrDA_SD
USA RT2_ RTS
USA RT2_ CTS
USA RT2_ RX
USA RT5_ RX
USA RT5_ TX
RS485_DIR
IrDA_ RX
IrDA_ TX
USA RT1_ TX
USA RT1_ RX
Bootloader_BOOT
0
Bootloader_RESE
T
U_RS2 32&I rDA
RS232&I rDA.Sch Doc
4K7
4K7
2EV"
-36
Figure 9.
I2C2_SDA
I2C2_SCK
U_A udio
Audio.SchDoc
UM1055
Schematics
Schematic diagram of STM32100E-EVAL
27/49
1
3
JP3
USA RT 2_RX
BNC
Flash_SCK
JP4
2
Default setting:2<->3
2
10K
R53
1
3
4
RESE
T#
B1
RESE
T
C84
100nF
R111
[N/A]
+3V3
JP11
FSMC_NL
HDMI _CEC
HDMI _HPD
I2C2_SCK
I2C2_SDA
Mi croSD_SCK
Mi croSD_MI SO
Mi croSD_MOSI
JP7
20pF
C53
20pF
C52
BAT6 0JFI LM
10K
R52
390
R64
RESE
T#
26
27
28
29
44
45
96
97
98
99
111
112
113
7
8
9
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PC10
PC11
PC12
PC13
PC14
PC15
Bootloader_BOOT0
25
24
23
106
138
46
47
48
133
134
135
136
137
139
140
69
70
73
74
75
76
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12
PB13
PB14
PB15
34
35
36
37
40
41
42
43
100
101
102
103
104
105
109
110
STM32F100ZET6
IC149-144-045-B
5
NRST
OSC_ OUT
OSC_IN
NC
BOOT0
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PC10
PC11
PC12
PC13-ANTI_TA MP
PC14-OSC3 2_IN
PC15-OSC3 2_OUT
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12
PB13
PB14
PB15
PA0-WKUP
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
PA9
PA10
PA11
PA12
PA13
PA14
PA15
U8A
DA C1_Au dio
DA C2_Au dio
PA0
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
PA9
PA10
PA11
PA12
PA13
PA14
PA15
Bootloader_RESE
T
X1
8MHz (with socket)
1 BOOT0
2
3
BAT6 0JFI LM
D2
JP8
D3
+3V3
JP6
MC_PFCpwm
I2C1_SCK
MC_BusVol tage
MC_CurrentA
MC_CurrentB
MC_CurrentC
Potentiometer
MC_He atsinkTemperature
IR_IN
LCD_ba cklight
MC_Di ssipativeBrake
RS4 85_DIR
IrDA _TX
IrDA _RX
USA RT 5_TX
Anti_Tamper
1
2
TDO/SWO
MC_VL
MC_WL
IrDA _SD
IO_Expandor_INT
TMS/SWDIO
TCK /SWCLK
TDI
Default setting:1<->2
Default setting:close
C51
6.8pF
R60
0
2
JP5
MC306-G- 06Q-32.768 (manufacturer JFVNY)
X2
1
3
MCO
TP6
Default setting:1<->2
3
I2C1_SDA
TemperatureSensor_INT
MC_NTC
MC_PFCsync1
TRST
C50 2
6.8pF
R59
0
+3V3
1
BOOT1
3
USA RT 1_RX
MC_VH
USA RT 1_TX
MC_WH
MC_UH
MC_UL
Flash_MOSI
MC_EmergencySTOP
Flash_MISO
Default setting:Open
USA RT 2_TX
MC_EnInd ex
USA RT 2_RTS
MC_EnB
3
2
www.BDTIC.com/ST
1
Doc ID 018466 Rev 1
4
28/49
WAK EUP
MC_EnA
USA RT 2_CTS
PD15
PD14
PD13
PD12
PD11
PD10
PD9
PD8
PD7
PD6
PD5
PD4
PD3
PD2
PD1
PD0
PE15
PE14
PE13
PE12
PE11
PE10
PE9
PE8
PE7
PE6
PE5
PE4
PE3
PE2
PE1
PE0
PF15
PF14
PF13
PF12
PF11
PF10
PF9
PF8
PF7
PF6
PF5
PF4
PF3
PF2
PF1
PF0
PG15
PG14
PG13
PG12
PG11
PG10
PG9
PG8
PG7
PG6
PG5
PG4
PG3
PG2
PG1
PG0
86
85
82
81
80
79
78
77
123
122
119
118
117
116
115
114
68
67
66
65
64
63
60
59
58
5
4
3
2
1
142
141
55
54
53
50
49
22
21
20
19
18
15
14
13
12
11
10
132
129
128
127
126
125
124
93
92
91
90
89
88
87
57
56
PD15
PD14
PD13
PD12
PD11
PD10
PD9
PD8
PD7
PD6
PD5
PD4
PD3
PD2
PD1
PD0
PE15
PE14
PE13
PE12
PE11
PE10
PE9
PE8
PE7
PE6
PE5
PE4
PE3
PE2
PE1
PE0
PF15
PF14
PF13
PF12
PF11
PF10
PF9
PF8
PF7
PF6
PF5
PF4
PF3
PF2
PF1
PF0
PG15
PG14
PG13
PG12
PG11
PG10
PG9
PG8
PG7
PG6
PG5
PG4
PG3
PG2
PG1
PG0
D3
D2
D15
D14
D13
D1
D0
D12
D11
D10
D9
D8
D7
D6
D5
D4
A18
A17
A16
A20
A19
A5
A4
A3
A2
A1
A0
A9
A8
A7
A6
A15
A14
A13
A12
A11
A10
A[0..20]
D[0..15]
JP9
-#5
USA RT 5_RX
FSMC_NE
0
FSMC_NW
AIT
FSMC_NWE
FSMC_NO
E
FSMC_CLK
MC_PFCsync2
FSMC_BLN
1
FSMC_BLN
0
Flash_CS
SDcard_detect
OneNA ND_I NT
LED4
LED3
LED2
LED1
User_Butto n
JOY_SE
L
Mi croSD_CS
JOY_UP
JOY_LE
FT
JOY_RI
G HT
FSMC_NE
3
JOY_DOWN
FSMC_NE
2
A[0..20]
D[0..15]
+3V3
D5V
SB6
SB5
R11
R20
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
Header 35X2
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
CN8 (Left)
Header 35X2
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
CN9 (Right)
%XTENSIONCONNECTOR
PF2
PF4
PF6
PF8
PF0
PE4
PE6
PB4
PB6
PB8
PE0
PD0
PE2
PD2
PD4
PD6
PD7
PG10
PG12
PG14
PA12
PA14
PC10
PC7
PC9
PA9
PA0
PA1
PC3
PC1
PF10
PB0
PC4
PA6
PA4
PF14
PF12
PB2
PB1
PB13
PB11
PE15
PE13
PE11
PD15
PE9
PE7
PG1
PD12
PD10
PD8
PC15
PC14
820
820
Close to R59 & R60 on PCB
+3V3
D5V
PC13
RESE
T#
PG7
PG5
PG3
+3V3
-36
PF1
PF3
PF5
PF7
PF9
PE3
PE5
PC13
PG9
PG11
PG13
PG15
PB3
PB5
PB7
PB9
PA11
PA13
PA15
PC11
PC12
PD1
PE1
PD3
PD5
PC6
PC8
PA8
PA10
PC2
PC0
PC5
PA7
PA5
PA3
PA2
PG0
PF15
PF13
PF11
PD14
PE10
PE8
PD13
PD11
PD9
PB15
PB14
PB12
PB10
PE14
PE12
PG8
PG6
PG4
PG2
Schematics
UM1055
Figure 10. STM32100E-EVAL MCU
FS MC_NWE
FS MC _ NOE
FS MC_ CLK
FS MC_ N L
FS MC_ NWAIT
FSMC_ BLN0
FSMC_ BLN1
FS MC_ NE2
PD5
PD4
PD3
PB7
PD6 R36
PE0
PE1
Doc ID 018466 Rev 1
www.BDTIC.com/ST
R32
10K
+3V3
0
R23
10K
+3V3
PG 10R18 0
D[0..15]
A[0..20]
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
H6
G2
H1
D3
E4
F4
F3
G4
G3
H5
H4
H3
H2
D4
C4
C3
B4
B3
A5
A4
A3
B5
G5
A2
A1
B2
D[0..15]
A[0..20]
VSS
VSS
CE2
VCC
VCC
I/O15
I/O14
I/O13
I/O12
I/O11
I/O10
I/O9
I/O8
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1
I/O0
100nF
C17
100nF
D1
E6
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
+3V3 C22
A6
D6
E1
G1
F1
F2
E2
D2
C2
C1
B1
G6
F6
F5
E5
D5
C6
C5
B6
FS MC_ NE0
IS61WV102416BLL-10 MLI
CY 7C1071DV33-12BAXI
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
CE
WE
OE
BLE
BHE
U3
PD7
R22 0
R21
10K
+3V3
E2
A1
B4
E1
F3
H1
A2
G1
D4
F1
F2
D2
F5
G5
E6
F6
F4
G6
H3
H2
H5
H4
G3
G2
NC
NC
NC
NC
Vss
Vss
Vc cI/O
Vc cCore
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
+3V3
G4
H6
E5
E4
A5
A4
C6
B6
+3V3
R25
10K
C21
100nF
C18
100nF
-36
OneNA ND_I NT
+3V3
D3 D0
B3 D1
E3 D2
C5 D3
C2 D4
D5 D5
D6 D6
C1 D7
B2 D8
B5 D9
C4 D10
C3 D11
B1 D12
A6 D13
A3 D14
D1 D15
R28 0 PB15
NOT FITTED
CE
WE
OE
CLK
AVD
RDY
RP
INT
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
U4
C14 R17
100nF 10K
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
UM1055
Schematics
Figure 11. STM32100E-EVAL SRAM and OneNAND
29/49
30/49
+5V
+3V3
0
[N/A]
PC7
BEAD
L3
PD5
PD4
+3V3
0
R98
SB10
SB8
0x90 when SB open by default
0x92 when SB close
+3V3
0xA0 when SB open bydefault
0xA2 when SB close
C94
10uF
+3V3
R79
10K
R94
10K
+3V3
A0
XL
XR
YD
YU
PD10
PD11
PD12
PD13
PD14
PD15
PD16
PD17
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
D8
D9
D10
D11
D12
D13
D14
D15
14
15
16
17
18
19
20
21
31
32
33
34
D0
D1
D2
D3
D4
D5
D6
D7
6
7
8
9
10
11
12
13
R126
100K
8
9
11
12
16
13
1
15
VCC
WC
SCL
SDA
5
6
7
8
A2
GND
A1 OS/I NT
A0
SCL
VDD SDA
U10
4
3
2
1
100nF
8
7
6
5
M24C64-WMN6TP
E0
E1
E2
VSS
U13
C59
0
R80
10K
R78
+3V3
R86
10K
+3V3
JP14
I2C device address:
IN0 A0/Data Out
IN1
Data in
IN2
INT
IN3
SDAT
XSCLK
X+
GND
YVio
Y+
VCC
U19
STMPE811QT
R
3
7
2
5
4
10
14
6
PB12
TemperatureSensor_INT
SB9
+3V3
PB10
PB11
Doc ID 018466 Rev 1
www.BDTIC.com/ST
-36
2EV"
C83
100nF
R99 0 PA12
R113 R123 R114
10K 10K 10K
+3V3+3V3
HP_PLUGIN
0x82 when SB open by default
0x88 when SB close
+3V3
3.2" LCD_connector (MB785 wit h AM-240320D4TOQW -T00H(R))
BL_GND
BL_Cont rol
VDD
VCI
GND
GND
BL_VDD
SDO
SDI
CS
RS
WR/SCL
RD
RES ET
CN15
C56
STLM75 M2E
100nF
1
2
3
4
22
23
24
25
26
27
28
29
30
1
2
3
4
5
I2C2_SDA
I2C device address:
10K
R84
C93
100nF
0
R95 [N/A]
BEAD
L2
+3V3
PG 12 R85
A[0..20]
D[0..15]
I2C2_SCK
I2C device address:
LCD_backlight
R136
R137
FSMC_ NWE
FSMC_ NOE
RES ET#
FSMC_ NE3
A[0..20]
D[0..15]
Schematics
UM1055
Figure 12. STM32100E-EVAL LCD, EEPROM and TSensor
IO_Expandor_INT
UM1055
Schematics
Figure 13. STM32100E-EVAL Audio schematic
100nF
+5V
C62
1uF
#.
34 5
#
+3V3
%
#
#
#
N&
I#6##
6##
6##
,(0
0'(
2(0
"
!
$
2
3
1
4
+3V3
#
A1
A3
N&
0!
$!#?!UDIO
$!#?!UDIO
*0
0A5
-)0
-).
320
32.
0"
0"
+
6
5
(0?0,5').
"
$
5
+$-'
#
N&
#
N&
#
"
!
-,/
,).
2).
"90!33
)#?3$!
)#?3#+
2
N&
%
%
3$!
3#,
'.$
'.$
%
$
#
# U&
#
2EV"
-36
Doc ID 018466 Rev 1
www.BDTIC.com/ST
31/49
Schematics
UM1055
Figure 14. STM32100E-EVAL I/O Peripherals
5
2
2
+
2
+
2
+
2
+
2
+
6
N&
N&
N&
N&
#
#
#
#
N&
2
2
2
2
2
#
0'
0'
0'
0'
0'
*/9?3%,
*/9?$/7.
*/9?,%&4
*/9?2)
*/9?50
#/--/.
3ELECTION
$7/.
,%&4
2)'(4
50
-4!
*OYSTICK
6
2
"
7+50
0! 2
2
+
7AKEUPBUTTON
6
6
2
+
"
53%2
#
N&
"
4AMPER
0'
5SER?"UTTON
2
0#
!NTI?4AMPER
2
+
2
2
4AMPERBUTTON
#
N&
7!+%50
#
;.!=
2
5SERBUTTON
2EV"
-36
32/49
Doc ID 018466 Rev 1
www.BDTIC.com/ST
UM1055
Schematics
Figure 15. STM32100E-EVAL I/O Peripherals
,$
'REEN
2
0&
,%$
,$
/RANGE
2
0&
,%$
,$
2ED
2
0&
,%$
,%$
,$
"L UE
2
0&
,%$
6
0#
0OTENTIOMETER
2
26
0(; =
0OTENTIOMETER
#
N&
#LOSETO-#5ON0#"
40
!).
3"
2
0!
2 2
2 #
;.!=
#LOSETO-#5ON0#"
".#
40
!).
".#CONNECTOR
#.
6"
2EV"
-36
Doc ID 018466 Rev 1
www.BDTIC.com/ST
33/49
34/49
PB15
PG6
PB13
PB14
Fl ash_SCK
Fl ash_MOSI
Fl ash_CS
Fl ash_MI SO
Mi croSD_MOSI
Mi croSD_CS
Mi croSD_SC
K
Mi croSD_MI SO
R16
R24 0
0
PA5
PA7
PE6
PA6
R44 0
R46 0
+3V3
R15
10K
R45
10K
+3V3
+3V3
SW1
SW2
10
9
G1
G2
G3
G4
30)&LASH
M25P128-VME6G
100nF U6
7
HOLD
C
8
VCC
D
1
S
VSS
2
Q
W
+3V3
C31
6
5
4
3
+3V3
PJS008-2000(SMS064FF or SMS128FF)
RVS
DO
Vss
SCLK
Vdd
DI
CS
RVS
CN6
-ICRO3$CARD
8
7
6
5
4
3
2
1
PF 11
-36
SDcard_detect
Schematics
UM1055
Figure 16. STM32100E-EVAL MicroSD and SPI Flash
Doc ID 018466 Rev 1
www.BDTIC.com/ST
UM1055
Schematics
Figure 17. STM32100E-EVAL RS-232 and IrDA
#.
$"MALE 53!24
+3V3
+3V3+3V3
U5
R27 R31
10K 10K
C24
100nF
2
1
C25
100nF
USART2_ TX
USART2_ RX
USART2_ RTS
USART2_ CTS
3
11
PA2
PA3
R138
0
R33
0
12
10
PA1
PA0
9
6
V+
C2-
C1-
C2+
T1in
T1out
T2in
16
VCC
C1+
R1out
[N/A]
R41
C23
100nF
5
C26
100nF
4
R1in
T2out
R2out
R2in
V-
GND
14
RS232_TX2
13
RS232_RX2
7
RS232_RTS2
8
RS232_CTS2
1
6
2
7
3
8
4
9
5
CONNECTOR FOR 53!24
15
C27
100nF
34%#42
IrDA_ TX
IrDA_ RX
PC10
PC11
PA11
IrDA_SD
R110
+3V3
0
R115
5
R96
47
R100
10K
U16
5
3
4
1
2
6
7
8
SD
TxD
RxD
Anode (VCC2)
Cathode
VCC1
Vlo gic
GND
TFDU6300
C77
4.7uF
C78
0.1uF
C82
4.7uF
C80
0.1uF
)R$!
2EV"
-36
Doc ID 018466 Rev 1
www.BDTIC.com/ST
35/49
Schematics
UM1055
Figure 18. STM32100E-EVAL RS-485
CN10
DB9-mal e USART1
+3V3
100nF
C33
R5 0
10K
US A RT1_ TX
USA RT1_ RX
Bootloader_RESET
0
VCC
GND
V+
V-
T1I N
T2I N
T3I N
21
20
19
18
17
16
15
Bootloader_BOOT0
PA10R43
C1+
C1C2+
C2-
14
13
12
PA 9
C34
100nF
U7
28
24
C42
1
100nF 2
+3V3
T1OUT
T2OUT
T3OUT
R1OUTB
R2OUTB
R1OUT
R2OUT
R3OUT
R4OUT
R5OUT
23
n EN
R1IN
R2IN
R3IN
R4IN
R5IN
n SHDN
26
25
27
3
9
10
11
C37
100nF
C41
100nF
4
5
6
7
8
DS R
RXD
RTS
TX D
CTS
1
6
2
7
3
8
4
9
5
connector for USART1 & RS485
+3V3
22
ST3241EBPR
U9
USA RT5_ RX
RS485_DIR
USA RT5_ TX
PD2
PC9
R66
0
PC12
1
2
3
4
RO
RE
DE
DI
Vcc
B
A
GND
+5V
R55 22 K
8
7
6
R56 22 K
5
SB3
SB4
ST485A BDR
R40
10K
C49
100nF
R58
SB7
120
2EV"
-36
36/49
Doc ID 018466 Rev 1
www.BDTIC.com/ST
UM1055
Schematics
Figure 19. STM32100E-EVAL HDMI_CEC and IR receiver
2
+
6
2
+
2 2 2 2
+ + + +
2
+
$
"!4*&),5
($-) ?#%#
)#?3#,
)#?3$!
0"
2
0"
0"
2
2
0"
2
2 +
($-) ?(0$
6
6
#%#?)#
.#
3,#?)#
3$!?)#
'.$
6$$?6
(0$?)#
6$$?)#
#%#
.#
3#,
3$!
'.$
6?/54
(0$
6$$?#%#
($-) ?3#,
($-) ?3$!
3"
#
N&
($-) ?6
($-) ?(0$
6
#
N&
($-) #$)*
#
N&
($-) ?#%#
#
N&
#.
4-$3?$
4-$3?$
4-$3?$
4-$3?$
($-) ?#%#
($-) ?3#,
($-) ?(0$
4-$3?$
4-$3?$
4-$3?#,+
4-$3?#,+
2ESERVED
($-) ?3$!
($-) ?6
5
43/0
#.
4-$3?$
4-$3?$
4-$3?$
4-$3?$
($-) ?#%#
($-) ?3#,
($-) ?(0$
)2?).
0#
2
2
6
#
U&
4-$3?$
4-$3?$
4-$3?#,+
4-$3?#,+
2ESERVED
($-) ?3$!
($-) ?6
2EV"
-36
Doc ID 018466 Rev 1
www.BDTIC.com/ST
37/49
38/49
TMS/SWDIO
TCK/SWCLK
TDO/SWO
TDI
TRST
RESET#
PA13
PA14
PB3
PA15
D4
LBZX84C5V6LT1G
*4!'CONNECTOR
D7 D5 D8 D9 D6
RS8M22R0J1
RS1
R65
[N/A]
CN7
2316S-20G+3V3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
R63 R69 R57 R54
[N/A] [N/A] [N/A] [N/A]
+3V3
Doc ID 018466 Rev 1
www.BDTIC.com/ST
10K
R71
-36
2EV"
10K
R70
R68
10K
R67
[N/A]
+3V3
Schematics
UM1055
Figure 20. STM32100E-EVAL JTAG
1
2
R87
100K
8MHz
X3
Doc ID 018466 Rev 1
www.BDTIC.com/ST
1
2
3
4
0
0
2
4
R133
R134
+3V3
VBAT
PC13
PC14
PC15
OSC_IN
OSC_OUT
/RST
VSS A
VDDA
PA 0
PA1
U2_TX
+3V3
1.5K
R135
10USB_DM
10USB_DP
1
2
3
SW I M_PU_CTRL 4
5
OSC_ IN
6
OSC_OUT
7
STM_RST
8
C73
9
100nF+3V3 AIN_1 10
11
12
+3V3
C72
100nF
7 R129
[N/A] 10K
C74
100nF
USB-type B connector
VCC
DD+
GND
SHELL
SHELL
CN13
U5V_ST_LINK
JTAG
1
3
5
CN12
R9
C79
20pF
C68
100nF
STM_JTMS_S WDIO
STM_JTCK_S WCLK
+3V3
C75
20pF
C67
100nF
100K
R132
36K
2
R130
10K
U5V_ST_LINK
100K
R88
T_JTCK
T_JTDO
T_JTD I
T_N RST
T_JRST
T1
9013
+3V3
+3V3
VDD_2
VSS _2
JTMS
PA12
PA11
PA10
PA9
PA8
S2_MOS I
S2_M ISO
S2_CK
PB12
+3V3
-#5
T_JTMS
T_ JTCK
T_S WDIO_IN
MCO
STM_JTMS_S WDIO
USB_ DP
USB_ DM
T_SWO
LED_STLINK
53"
36
35
34
33
32
31
30
29
28
27
26
25
U14
STM32 F103C8T6
T_JTDO
T_S WO
T_S WDIO_ IN
T_JTMS
T_NRST
T_ JRST
T_JTDI
T_ JTCK
+3V3
LED_STLINK
R93
4K 7
4K 7
+3V3
AIN_1
TMS/SW DIO
RESET#
TRST
TDI
TCK/SWCLK
TDO/SWO
LD5
HSMF -A201- A00J1
Yellow
R131
0
R90
100
R91
Red
R89
100
2
1
R81
STM_JTCK_SW CL K
48
47
46
45
44
43
42
41
40
39
38
37
VDD_3
VSS_3
PB9
PB8
BOOT0
PB7
PB6
PB5
JNRST
JTDO
JTDI
JTCK
U2_RX
U2_CK
S1_CK
S1_M ISO
S1_MOSI
PB0
PB1
PB2/BOOT1
PB10
PB11
VSS_1
VDD_1
13
14
15
16
17
18
19
20
21
22
23
24
3
1
3
4
+3V3
-36
2EV"
*4!'
UM1055
Schematics
Figure 21. STM32100E-EVAL ST-LINK (JTAG only)
39/49
40/49
PA6
MC_PFCsy
nc1
MC_PFCsy
nc2
MC_CurrentC
MC_CurrentB
MC_CurrentA
MC_Em ergencySTOP
PC3
PC2
PC1
PB4
PD2
0
R8
C57
[N/A]
R4 0
C8
[N/A]
R5 0
C9
[N/A]
R6 0
C10
[N/A]
C11
1nF
R10
3.3K
+3V3
JP12
C1
[N/A]
Default setting: Open
MC_PFCpwm
MC_EnA
MC_EnB
MC_NTC
MC_Di ssipativeBrake
MC_UH
MC_UL
MC_VH
MC_VL
MC_WH
MC_WL
PB5
PA0
PA1
+5V
PB12
PC8
PA8
PA7
PA9
PB0
PA10
PB1
C6
[N/A]
MC_connector
C3
10nF
JP2
C13
[N/A]
C4
[N/A]
EME RGENCYSTOP
MC-UH
MC_UL
MC_VH
MC_VL
MC_WH
MC_WL
CURRENT
A
CURRENTB
CURRENTC
NTC BYPA SS RELA
Y
DISSIPA TI VE BRA KE
+5V POWER
PFC SYNC
PFC PWM
Encoder A
Encoder B
CN1
Default setting: Open
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
Motor control connector
GND
GND
GND
GND
GND
GND
BUS VOLTAGE
GND
GND
GND
GND
GND
Heatsink Temperature
3.3V Power
GND
GND
Encoder Index
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
+3V3
0
R3
0
R7
PC0
C5
[N/A]
PA2
C7
100nF
PC5
MC_BusVolt age
MC_EnIndex
-36
2EV"
MC_HeatsinkTemperature
C12
R9
100nF 100K
Schematics
UM1055
Figure 22. STM32100E-EVAL motor control
Doc ID 018466 Rev 1
www.BDTIC.com/ST
UM1055
Schematics
Figure 23. STM32100E-EVAL power
5
:%. 6! ,3
5
#.
:
3-! *! 42
$# "
#
N&
6O UT
#'
#'
#'
#
U&
6
#
U&
#
N&
#
U&
3'
40
6
'.$
6IN
#6
".8
5
,$ $- 42
6
%6
36
0OWERREGULATOR
$6
%6
*0
56?34?,).+
40
6
40
'ROUND
,$
RED
6
2
+
$EFAULT SETTING *UMPEROPTIONSPOWERCONNECTOR53"CONNECTORORDAUGHTERBOARD
62%&
40
#
U&
6$$
5"
2
633?
6$$?
633?
6$$?
633?
6$$?
633?
6$$?
633?
6$$?
633?
6$$?
633?
6$$?
633?
6$$?
633?
6$$?
633? 6$$?
633? 6$$?
62%&
633!
62%&
6$$!
#
N&
6
62%&
*0
6$$
,
"%!$
#
N&
#
N&
#
N&
#
N&
#
N&
#
N&
#
N&
#
N&
#
N&
6$$!
6$$
2
#
U&
#
N&
6$$!
#
N&
#
N&
6"!4
"4
6AL UELIN E +
6BAT
-#5POWER
*0
#2 HOLDER
6
$EFAULT SETTING Doc ID 018466 Rev 1
www.BDTIC.com/ST
2EV"
-36
41/49
Schematics
UM1055
Figure 24. STM32100E-EVAL 3.2" LCD module with both SPI and16 bit interface
,#$BOARDCONNECTORTOMOTHERBOARD
CN1
CS
RS
WR
RD
#RESET
1
2
3
4
5
CS
RS
WR/SCL
RD
RESE
T
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
BL GND
22
23
24
25
26
27
28
29
30
BL _Control
VDD
VDD
SDO
SDI
PD10
PD11
PD12
PD13
PD14
PD15
PD16
PD17
BL _GND
BL _Control
VDD
VCI
GND
GND
BL _VDD
SDO
SDI
XL
XR
YD
YU
6
7
8
9
10
11
12
13
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
14
15
16
17
18
19
20
21
PD10
PD11
PD12
PD13
PD14
PD15
PD16
PD17
31
32
33
34
XL
XR
YD
YU
Soldered for i80system 16-bit interface
SDO
SDI
R4
CS
WR
RD
RS
31
34
35
33
SDO
SDI
10
12
#RESET
32
A
K
8
1
7
3
9
BL _Control R5
0
BL VDD
42/49
C1
4.7uF/50V
U1
BL GND
SW
Vo
Vi
NC
EN
GND
FB
PGND Rset
STL D40DPMR
BL GND
40
41
Z1
L1
C2
2.2uF
36
37
38
39
11
VDD
STPS1L40M
6
5
BL GND
4
2
44
43
6
42
45
1
VSYNC
HSYNC
DOTCLK
ENABLE
NC
CS
WR/SCL
RD
RS
SDO
SDI
RESE
T
VCC
VCC
LED_A
LED_K
VSS
VSS
VSS
VSS
YU
YD
XR
XL
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
D16
D17
R7
10
VDD
RP6
R8
do not fit
IM1
IM3
IM0/ID
8
9
7
4K7
4K7
0
5
4
3
2
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
RP1
YU
YD
XR
XL
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
PD9
PD10
PD11
PD12
PD13
PD14
PD15
PD16
PD17
PD16
PD14
PD12
PD10
10K
RP2
PD8
PD6
PD4
PD2
10K
RP3
PD9
PD0
RS
RD
10K
RP4
PD17
PD15
PD13
PD11
FF0245SS1
AM- 240320D4TOQW-T00H(R)
R6
100K
R2
R3
CN2
VSYNC
HSYNC
DotClk
Enable
4HEPINCONNECTORTOTHEMOTHERBOARD
FORBOTHSERIALANDBITINTERFACE
#OMPATIBLEWITH-"WITHTOUCHSCREEN
SIGNALSADDEDONPIN
4.7uH(1A)
10K
VDD
Soldered for Serial interface only
3.2LCD_connector
BL VDD
R1
BL GND
10K
RP5
PD7
PD5
PD3
PD1
HSYNC
Doc ID 018466 Rev 1
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UM1055
STM32100E-EVAL pinout
Appendix A
Table 23.
STM32100E-EVAL pinout
STM32100E-EVAL pinout
Pin no.
Pin name
Description
1
PE2
2
PE3
FSMCA19
3
PE4
FSMCA20
4
PE5
5
PE6
Flash_CS
6
VBAT
VBAT
7
PC13-ANTI_TAMP
Anti-tamper button
8
PC14-OSC32_IN
32K OSC
9
PC15-OSC32_OUT
32K OSC
10
PF0
FSMCA0
11
PF1
FSMCA1
12
PF2
FSMCA2
13
PF3
FSMCA3
14
PF4
FSMCA4
15
PF5
FSMCA5
16
VSS_5
17
VDD_5
18
PF6
LED1
19
PF7
LED2
20
PF8
LED3
21
PF9
LED4
22
PF10
23
OSC_IN
24
OSC_OUT
25
NRST
26
PC0
MC1_ADC_123_10 (Bus voltage)
27
PC1
MC1_ADC11 pin 15
28
PC2
MC1_ADC12 pin 17
29
PC3
MC1_ADC13 pin 19
30
VSSA
31
VREF-
32
VREF+
Doc ID 018466 Rev 1
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43/49
STM32100E-EVAL pinout
Table 23.
UM1055
STM32100E-EVAL pinout (continued)
Pin no.
Pin name
Description
33
VDDA
34
PA0-WKUP
MC1_TIM2_CH1 pin 31 (EnA) / Wakeup button / USART2 CTS
35
PA1
MC1_TIM2_CH2 pin 33 (EnB) / USART2 RTS
36
PA2
MC1_TIM2_CH3 pin34 (EnIndex) / USART2 TX
37
PA3
USART2 RX
38
VSS_4
39
VDD_4
40
PA4
DAC1_Audio / BNC
41
PA5
SPI_Flash_CLK / DAC2_Audio
42
PA6
MC1_STOP pin 1 (Emergency stop) / SPI_Flash_MISO
43
PA7
MC1_TIM5_CH1N pin 5 (UL) / SPI_Flash_MOSI
44
PC4
Potentiometer
45
PC5
MC1_ADC_12_15 pin 26
46
PB0
MC1_TIM5_CH2N pin 9 (VL)
47
PB1
MC1_TIM5_CH3N pin 13 (WL)
48
PB2
Boot1
49
PF11
MicroSD card detect
50
PF12
FSMCA6
51
VSS_6
52
VDD_6
53
PF13
FSMCA7
54
PF14
FSMCA8
55
PF15
FSMCA9
56
PG0
FSMCA10
57
PG1
FSMCA11
58
PE7
FSMCD4
59
PE8
FSMCD5
60
PE9
FSMCD6
61
VSS_7
62
VDD_7
63
PE10
FSMCD7
64
PE11
FSMCD8
65
PE12
FSMCD9
66
PE13
FSMCD10
67
PE14
FSMCD11
44/49
Doc ID 018466 Rev 1
www.BDTIC.com/ST
UM1055
STM32100E-EVAL pinout
Table 23.
STM32100E-EVAL pinout (continued)
Pin no.
Pin name
Description
68
PE15
FSMCD12
69
PB10
EEPROM_TS_IO_expandor_Audio_SCL2
70
PB11
EEPROM_TS_IO_expandor_Audio_SDA2
71
VSS_1
72
VDD_1
73
PB12
MC1_pin21 / Temperature SMBIA
74
PB13
SD_card_SCK
75
PB14
SD_card MISO
76
PB15
SD_card_MOSI
77
PD8
FSMCD13
78
PD9
FSMCD14
79
PD10
FSMCD15
80
PD11
FSMCA16
81
PD12
FSMCA17
82
PD13
FSMCA18
83
VSS_8
84
VDD_8
85
PD14
FSMCD0
86
PD15
FSMCD1
87
PG2
FSMCA12
88
PG3
FSMCA13
89
PG4
FSMCA14
90
PG5
FSMCA15
91
PG6
SD_card_CS
92
PG7
Joystick sel
93
PG8
User button
94
VSS_9
95
VDD_9
96
PC6
IR_receiver
97
PC7
LCD_backlight
98
PC8
MC_DissipativeBrake
99
PC9
RS485_DIR
100
PA8
MCO/MC_TIM1_CH1 pin 3 (UH)
101
PA9
MC_TIM1_CH2_pin7(VH)
102
PA10
MC_TIM2_CH3_pin11(WH) / USART1 RX
Doc ID 018466 Rev 1
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45/49
STM32100E-EVAL pinout
Table 23.
UM1055
STM32100E-EVAL pinout (continued)
Pin no.
Pin name
Description
103
PA11
IrDA_SD
104
PA12
IO_Expandor_INT
105
PA13
Debug TMS
106
NC
107
VSS_2
108
VDD_2
109
PA14
Debug TCK
110
PA15
Debug TDI
111
PC10
IRDA TX
112
PC11
IRDA RX
113
PC12
RS485_TX5
114
PD0
FSMCD2
115
PD1
FSMCD3
116
PD2
MC1_TIM3_ETR pin 27 (PFCsync2) / RS485_RX5
117
PD3
FSMC_CLK
118
PD4
FSMCOEN
119
PD5
FSMCWEN
120
VSS_10
121
VDD_10
122
PD6
123
PD7
124
PG9
125
PG10
FSMCEBAR2 SRAM
126
PG11
Joystick_down
127
PG12
FSMCEBAR3 LCD
128
PG13
Joystick_right
129
PG14
Joystick_left
130
VSS_11
131
VDD_11
132
PG15
Joystick_up
133
PB3
Debug TDO
134
PB4
Debug TRST/MC1_TIM3_CH1 pin 27 (PFCsync1)
135
PB5
MC1_TIM3_CH2 pin 29 (PFC pwm)
136
PB6
THDMI_SCL1
137
PB7
FSMC_NBAR / HDMI_SDA1
46/49
FSMCWAITN
Doc ID 018466 Rev 1
www.BDTIC.com/ST
UM1055
STM32100E-EVAL pinout
Table 23.
STM32100E-EVAL pinout (continued)
Pin no.
Pin name
Description
138
BOOT0
139
PB8
HDMI_CEC
140
PB9
HDMI_HPD
141
PE0
FSMCBLN0
142
PE1
FSMCBLN1
143
VSS_3
144
VDD_3
Doc ID 018466 Rev 1
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47/49
Revision history
5
UM1055
Revision history
Table 24.
48/49
Document revision history
Date
Revision
23-Mar-2011
1
Changes
Initial release.
Doc ID 018466 Rev 1
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UM1055
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ST and the ST logo are trademarks or registered trademarks of ST in various countries.
Information in this document supersedes and replaces all information previously supplied.
The ST logo is a registered trademark of STMicroelectronics. All other names are the property of their respective owners.
© 2011 STMicroelectronics - All rights reserved
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