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Compact multimedia development system rich with on-board peripherals for
all-round development on STM32F207VGT6 and STM32F407VGT6 devices
for STM32®mikromedia™
Page 3
I want to express my thanks to you for being interested in our products and for having
confidence in MikroElektronika.
The primary aim of our company is to design and produce high quality electronic products
and to constantly improve the performance thereof in order to better suit your needs.
The STM32®, ARM® and Windows® logos and product names are trademarks of STMicroelectronics®, ARM® Holdings and Microsoft® in the U.S.A. and other countries.
TO OUR VALUED CUSTOMERS
Nebojsa Matic
General Manager
Page 3
Introduction to mikromedia for STM32® 4
Package Contains 5
Key Features 6
System Specification 7
1. Power supply 8
USB power supply 8
Battery power supply 8
2. Key microcontrollers features 10
STM32F207VGT6 10
STM32F407VGT6 11
3. Programming the microcontroller 12
Pro gramming with mikroBootloader 14
step 1 – Connecting mikromedia 14
step 2 – Browsing for .hex file 15
step 3 – Selecting .hex file 15
step 4 – Uploading .hex file 16
step 5 – Finish upload 17
Programming with mikroProg™ programmer 18
mikroProg Suite™ for ARM® Software 19
Programming with ST-LINK V2 programmer 20
4. Reset buttons 22
5. Oscillators 24
6. MicroSD Card Slot 25
7. Touch Screen 26
8. Audio Module 28
9. USB connection 30
10. Accelerometer 32
11. Flash Memory 33
12. Pads 34
13. Pinout 35
14. Dimensions 36
15. Mikromedia Accessories 37
16. What’s Next 38
Table of Contents
Page 4 Page 5
Introduction to mikromedia for STM32®
The mikromedia for STM32® is a compact
development system with lots of on-board
peripherals which allow development of devices
with multimedia contents. The central part
of the system is a 32-bit STM32F207VGT6
or STM32F407VGT6 microcontroller. The
mikromedia for STM32® features integrated
modules such as stereo MP3 codec, TFT 320x240 touch screen display, accelerometer,
USB connector, MMC/SD card slot, 8 Mbit flash
memory, 2x26 connection pads and other. It
comes pre-programmed with USB bootloader,
but can also be programmed with external
programmers, such as mikroProg™ for STM32®
or ST-LINK. Mikromedia is compact and slim,
and perfectly fits in the palm of the hand, which
makes it convenient platform for mobile devices.
Page 4 Page 5
Package Contains
Copyright ©2011 Mikroelektronika.
All rights reserved. Mikroelektronika, Mikroelektronika logo and other
Mikroelektronika trademarks are the property of Mikroelektronika.
All other tradmarks are the property of their respective owners.
Unauthorised copying, hiring, renting, public performance and
broadcasting of this DVD prohibited.
20122011 www.mikroe.com
01 02
04 05
03
06
Damage resistant
protective box
mikromedia for STM32®
development system
mikromedia for STM32®
user’s guide
mikromedia for STM32®
schematics
DVD with documentation
and examples
USB cable and ST-LINK V2 to mikroProg™ adapter
Page 6 Page 7
Key Features
01
16
02
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
Connection Pads
TFT 320x240 display
USB MINI-B connector
Charge indication LED
LI-Polymer battery connector
3.5mm headphone connector
Power supply regulator
Crystal oscillator
VS1053 Stereo mp3 coder/decoder
RESET button
STM32F207VGT6 or STM32F407VGT6
microcontroller
Accelerometer
Serial Flash memory
microSD Card Slot
Power indication LED
JTAG/SWD programmer connector
Page 6 Page 7
System Specification
power supply
Via USB cable (5V DC)
board dimensions
81.2 x 60.5 mm (3.19 x 2.38 inch)
weight
~45 g (0.10 lbs)
power consumption
46.5 mA with erased MCU
(when on-board modules are inactive)
03
06
07
08 09
11
10
12
13
14
15
04 05
16
Page 8 Page 9
1. Power supply
You can apply power supply to the board
using MINI-B USB cable provided with
the board. On-board voltage regulators
provide the appropriate voltage levels
to each component on the board. Power LED (GREEN) will indicate the presence of
power supply.
You can also power the board using Li-Polymer battery,
via on-board battery connector. On-board circuit
MCP73832 enables you to charge the battery over
USB connection. LED diode (RED) will indicate battery
charging. Led is off when battery is full. Charging current
is ~250mA and charging voltage is 4.2V DC.
Battery power supply
USB power supply
Figure 1-1: Connecting USB power supply
Figure 1-2: Connecting Li-Polymer battery
Page 8 Page 9
23
5
4
1
VCC-SYS VCC-3.3
E310uF E4
10uF
R26
2K23
12GND
Vin
Vout
REG1
LD29080DT33
VCC-BAT
D1PMEG3010ER
R443K9
Charging Current approx. 250mA
R394K7
VCC-3.3
E7
10uF
C40
2.2uF
R344K7
R64K7
VCC-BAT
VSENSE
VCC-SYS
VCC-SYS
R4310K
R37
10K
R3610K
VCC-3.3
STAT
R3810K
R451K
VCC-3.3
E510uF
R3510K
VCC-3.3
R494K7
+-
CN1BATT CONN
M1DMP2160UW
STATVSSVBAT VDD
PROG
U5
MCP73832Q4BC846
Q5BC846
C2810nF
FP2FERRITE
12345 GND
IDD+D-VBUS
CN3
USB MINIB
VCC-USB
C29
2.2uF
VCC-3.3
R4622K
E10
10uF
R47120K
VCC-1.8
VCC-1.8
R5012K1
123
5
4
VinGNDEN ADJ
Vout
U3
AP7331-ADJ
DAT
A BU
S
LD2CHARGE
LD1POWER
VCC-BAT
1234567891011121314151617181920212223242526
HDR1
M1X26
2728293031323334353637383940414243444546474849505152
HDR2
M1X26
VCC-3.3 VCC-3.3
VCC-SYS
VCC-1.8VREF-1.8FP3
VCC-3.3AVCC
FP4
C25100nF
C302.2uF
C34100nF
C362.2uF
Figure 1-3: Power supply schematics
Page 10 Page 11
2. Key microcontrollers features
STM32F207VGT6- 1.25 DMIPS/MHz, 32-bit Cortex™-M3 Core;
- 1 Mbyte Flash memory;
- 128 + 4 Kbytes of SRAM;
- 83 I/O pins;
- SPI, I2C, CAN, USB, Ethernet;
- USART, UART
- 16-bit and 32-bit Timers, up to 120Mhz;
- Internal Oscillator 16MHz, 32kHz, PLL;
- ADC, DAC, etc.
APB
2 6
0M
Hz
3 x ADC
temperature sensor
1 x SPI
1 x USART
3 x TIMER 16-bit
3 x TIM/PWM 16-bit
SDIO/MMC
2 x CAN
3 x I2C
2 x SPI
2 x UART
2 x USART
5 x TIMER 16-bit
2 x TIMER 32-bit
APB
1 3
0M
Hz
2 x DAC
3 x TIMER 16-bit
WWDG
RTC
IWDG
SRAM 112KB
FLASH 1MB
EXT. MEM. CONTR
DMA 2
ETH. MAC 10/100
JTAG & SW
USB OTG FS
CAM. INTERFACE
RNG
DMA 1SRAM 16KB
USB OTG HSAHB BUS - MATRIX
POWER / RESET
GPIO PORT(A,B,C,D,E,F,G,H,I) ARM Cortex™-M3
STM32F207VGT6
The mikromedia for STM32® M3 development system comes
with the STM32F207VGT6 microcontroller. This high-
performance 32-bit microcontroller with its integrated
modules and in combination with other on-board modules is
ideal for multimedia applications.
Page 10 Page 11
STM32F407VGT6- 1.25 DMIPS/MHz, 32-bit Cortex™-M4 Core;
- 1 Mbyte Flash memory;
- 192 + 4 Kbytes of SRAM;
- 83 I/O pins;
- SPI, I2C, CAN, USB, Ethernet;
- USART, UART
- 16-bit and 32-bit Timers, up to 168Mhz;
- Internal Oscillator 16MHz, 32kHz, PLL;
- ADC, DAC, etc.
APB
2 8
4M
Hz
3 x ADC
temperature sensor
1 x SPI
1 x USART
3 x TIMER 16-bit
3 x TIM/PWM 16-bit
SDIO/MMC
2 x CAN
3 x I2C
2 x SPI
2 x UART
2 x USART
5 x TIMER 16-bit
2 x TIMER 32-bit
APB
1 4
2M
Hz
2 x DAC
3 x TIMER 16-bit
WWDG
RTC
IWDG
SRAM 176 KB
FLASH 1MB
EXT. MEM. CONTR
DMA 2
ETH. MAC 10/100
JTAG & SW
USB OTG FS
CAM. INTERFACE
RNG
DMA 1SRAM 16KB
USB OTG HSAHB BUS - MATRIX
POWER / RESET
GPIO PORT(A,B,C,D,E,F,G,H,I) ARM Cortex™-M4
STM32F407VGT6
The mikromedia for STM32® M4 development system comes
with the STM32F407VGT6 microcontroller, which can deliver
even more processing power. With up to 168MHz operation,
this 32-bit microcontroller with other on-board modules is a
perfect choice for performance-demanding applications.
Page 13
3. Programming the microcontroller
Figure 3-1:STM32F207VGT6
Microcontroller
Figure 3-2:STM32F407VGT6
Microcontroller
Page 12
Page 13
The microcontroller can be programmed in three ways:
01 02Via USB mikroBootloader Using external mikroProg™ programmer
03 Using external ST-LINK V2™ programmer
The mikromedia for STM32® development system can be programmed in three different ways. 01 Using bootloader which is
pre-programmed into device by default or via external programmers ( 02 mikroProg™ or 03 ST-LINK V2™) .
010101010101010101010101010101
Page 14 Page 15
Programming with mikroBootloader
You can program the microcontroller with bootloader which
is pre-programmed into the device by default. To transfer
.HEX file from a PC to MCU you need bootloader software
(mikroBootloader USB HID) which can be downloaded from:
After software is downloaded unzip it to desired location and
start mikroBootloader USB HID software.
http://www.mikroe.com/eng/products/view/853/mikromedia-for-stm32/
Figure 3-3: USB HID mikroBootloader window
step 1 – Connecting mikromedia
01 To start, connect the USB cable, or if already connected press the Reset button on your mikromedia board. Click the ”Connect” button within 5s to enter the bootloader mode, otherwise existing microcontroller program will execute.
01
02
Page 14 Page 15
step 3 – Selecting .HEX file step 2 – Browsing for .HEX file
Figure 3-4: Browse for HEX Figure 3-5: Selecting HEX
01 Click the ”Browse for HEX” button and from a pop-up window (Figure 3.5) choose the .HEX file which will be uploaded to MCU memory.
01
02
Select .HEX file using open dialog window.
Click the ”Open” button.
01
01
01
Page 16 Page 17
step 4 – Uploading .HEX file
Figure 3-6: Begin uploading Figure 3-7: Progress bar
01
01
01 01To start .HEX file bootloading click the ”Begin uploading” button.
You can monitor .HEX file uploading via progress bar
Page 16 Page 17
step 5 – Finish upload
Figure 3-8: Restarting MCU Figure 3-9: mikroBootloader ready for next job
01
01 Click the ”OK” button after uploading is finished and wait for 5 seconds. Board will automatically reset and your new program will execute.
Page 18 Page 19
The microcontroller can be programmed with external mikroProg™ for STM32® programmer and mikroProg Suite™ for ARM® software.
The mikroProg™ programmer is connected to the development system via the CN5 (JTAG) connector. You can choose between two ways to
program microcontrollers , Figure 3-14:
Programming with mikroProg™ programmer
mikroProg™ is a fast USB 2.0
programmer with mikroICD™
hardware In-Circuit Debugger.
It supports over 180 ARM® Cortex™
M3 and Cortex™ M4 microcontrollers from
STM32® family. Outstanding performance, easy
operation and elegant design are it’s key features.
Figure 3-10: Connecting
mikroProg™ to mikromedia™
01
02
Via JTAG interface
Via Serial wire debug (SWD) interface
Before attaching the programming connector, you have to solder the provided 2x5 male header to the JTAG pads (CN5)
Available on Product DVD!
NOTE:
Page 18 Page 19
mikroProg Suite™ for ARM® Software
Available on Product DVD!
On-board mikroProg™ programmer requires special programming software called mikroProg
Suite™ for ARM®. This software is used for programming of all supported microcontroller
families with ARM® Cortex™-M3 and Cortex™-M4 cores. Software has intuitive
interface and SingleClick™ programming technology. To begin, first locate the
installation archive on the Product DVD:
Click the Detect MCU button in order to recognize the device ID.
Click the Read button to read the entire microcontroller memory. You can click the Save button to save it to target HEX file.
If you want to write the HEX file to the microcontroller, first make sure to load the target HEX file. You can drag-n-drop the file onto the software window, or use the Load button to open Browse dialog and point to the HEX file location. Then click the Write button to begin programming.
After downloading, extract the package and double click the executable
setup file, to start installation.
DVD://download/eng/software/development-tools/arm/mikroprog/mikroprog_suite_for_arm_v110.zip
Copyright ©2011 Mikroelektronika.
All rights reserved. Mikroelektronika, Mikroelektronika logo and other
Mikroelektronika trademarks are the property of Mikroelektronika.
All other tradmarks are the property of their respective owners.
Unauthorised copying, hiring, renting, public performance and
broadcasting of this DVD prohibited.
20122011 www.mikroe.com
02
01
03
Quick GuideFigure 3-11:
mikroProg Suite™ for ARM® window
Page 21
The microcontroller can be also programmed with ST-LINK V2 programmer and
mikroProg Suite™ for ARM® software, Figure 3-11 . This programmer connects
with mikromedia board via mikroProg to ST-LINK V2 adapter.
Programming with ST-LINK V2 programmer
In order to adjust the ST-LINK™ V2 programmer
to be connected to the development system, it
is necessary to provide the appropriate adapter
such as the mikroProg to ST-LINK V2 adapter.
2x5 male headers should be first soldered on the
CN5 connector pads. Then you should plug adapter into
the ST-LINK V2 programmer (2x10 male header), and plug
IDC10 flat cable in male headers, Figure 3-13
Figure 3-13: Connecting ST-LINK™ V2
programmer
Figure 3-12: mikroProg™ to
ST-LINK™ V2 adaper
Page 20
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1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0
VCC-3.3
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3
VCC-3.3 VCC-3.3
VCC-3.3
C31
100nF
VCC-3.3
C222pF
C122pF
X1
32.768KHz
AVCC
TCK/
TMS/TD
I
TDO
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
77
2423
181716151413
5678
10
7 812
22212019
3839404 147 31 26
25
7 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BOO
T0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
D
PE2PE3
PA2PA1
VCA
PVD
D
PC9
PD13
PB10
PB11
PD10
PE8
PB2
PD11
PD14
PD5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
STM32F207VGT6
U1
OSC32_INOSC32_OUT
VREF-1.8
C41 2.2uF
C422.2uF
R66 100K
RESET#
VCC-3.3
TDOSWCLK
SWCL
K
SWDIO
TDIRESET#
68109
75
1 23 4
CN5
TRST
JTAG
decouplingcapacitors
R65
100K
VCC-3.3
J3
J2
TRST
TMS/TCK/
(SWD)
STM32F407VGT6
SWDIO
Figure 3-14: mikroProg™ or JTAG programmer connection schematics
Jumper J3 is soldered by defaultNOTE:
Page 22 Page 23
Board is equipped with two reset buttons. First is located at the back side of the
board (Figure 4-1), and second one is at the top of the front side (Figure 4-2).
If you want to reset the circuit, press either of two buttons. It will generate low
voltage level on microcontroller reset pin (input). In addition,
a reset can be externally provided through pin 27 on
side headers (Figure 4-3).
4. Reset Buttons
Figure 4-2: Frontal reset buttonFigure 4-1: Reset button located at the backside of the board
Do not press the reset buttons during programming
NOTE:
Page 22 Page 23
decouplingcapacitors
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1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0
R810K
VCC-3.3
C3100nF
T1
R7 100
T2
VCC-3.3
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3VCC-3.3
C31
100nF
VCC-3.3
C2 22pF
C1 22pF
X1 32.768KHz
AVCC
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
772423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
257 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9PE
13PE
12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BOO
T0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
DPE2PE3
PA2PA1
VCA
PVD
D
PC9
PD13
PB10
PB11
PD10
PE8
PB2
PD11
PD14PD
5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
OSC32_INOSC32_OUT
VREF-1.8
R65
100K
C41 2.2uF
C422.2uF
R66 100K
RST
VCC-3.3
J3
J2
RXTX
SDASCL
PWM
2728293031323334353637383940414243444546474849505152
HDR2
M1X26
VCC-3.3
STM32F207VGT6STM32F407VGT6
Figure 4-3: Reset circuit schematics
Page 24 Page 25
STM32F207VGT6 and STM32F407VGT6 microcontrollers are equipped with internal
16MHz RC oscillator that provides stable clock
signal. Since the chips have an integrated PLL, this
base frequency is suitable for further clock multiplication.
Board also contains 32.768kHz Crystal oscillator (X1) which provides external clock for internal RTCC module.
5. Oscillators
Figure 5-1:Crystal oscillator module (X1)
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VCC-3.3
C222pF
C122pF
X1
32.768KHz
AVCC
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
77
2423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
25
7 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BO
OT0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
D
PE2PE3
PA2PA1
VC
AP
VD
D
PC9
PD13
PB10
PB11
PD10
PE8
PB2
PD11
PD14
PD5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
OSC32_INOSC32_OUT
VREF-1.8
R65
100K
C41 2.2uF
C422.2uF
R66 100K
decouplingcapacitors
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3VCC-3.3
C31
100nF
VCC-3.3VCC-3.3
J3
J2
STM32F207VGT6STM32F407VGT6
The use of crystal in all other schematics is implied even if it is purposely left out, because of the schematics clarity.
NOTE:
Figure 5-2:Crystal oscillator schematics
Page 24 Page 25
6. MicroSD Card Slot
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SD-CS#
R1110K
R1010K
VCC-MMC
R910K
SD-CD#
VCC-MMC
R16
27
VCC-3.3
E610uF
C38100nF
FP1
FERRITE
VCC-3.3
124567
CSDin+3.3VSCKGNDDout
CD
GN
D
CN4
MMC CARD MICRO
AVCC
SD-CD#
SD-C
S#
SCK3-PC10
MOSI3-PC12
MISO3-PC11
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
77
2423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
25
7 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BOO
T0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
D
PE2PE3
PA2PA1
VCA
PVD
D
PC9
PD13
PB10
PB11
PD10
PE8
PB2
PD11
PD14
PD5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
MIS
O3-
PC11
R427
R527
SCK3
-PC
10
MO
SI3-
PC12
VREF-1.8
R65
100K
C41 2.2uF
C422.2uF
R66 100K
decouplingcapacitors
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3VCC-3.3
C31
100nF
VCC-3.3
VCC-3.3
J3
J2
STM32F207VGT6STM32F407VGT6
Board contains microSD card slot for using microSD cards in your
projects. It enables you to store large amounts of data externally,
thus saving microcontroller memory. MicroSD cards use Serial Peripheral
Interface (SPI) for communication with the microcontroller.
Figure 6-3:Inserting microSD card
Figure 6-1: microSD card slot
Figure 6-2:microSD Card Slot module connection schematics
Page 26 Page 27
The development system features a TFT 320x240 display covered with a resistive
touch panel. Together they form a functional unit called a touch screen. It enables
data to be entered and displayed at the same time. The TFT display is capable of
showing data in 262.144 diffe rent colors.
7. Touch Screen
Figure 7-1: Touch Screen
Page 26 Page 27
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1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0
R2310K
VCC-SYS
LCD-RST
LCD-RSLCD-CS#
LCD-YULCD-XLLCD-YDLCD-XR
VCC-3.3
E1310uF
R2510K
VCC-3.3
R2410K
LCD-RSTLCD-CS#
VCC-3.3
LCD-BLEDR4012
VCC-3.3
PMRDPMWR
2
15
12
35
11
36
3456
14
789
13
43
33
10
37383940
444546
34
1
47
1617181920212223242526272829303132
4142
LED-KLED-A1LED-A2LED-A3LED-A4IM0IM1IM2IM3RESETVSYNCHSYNCDOTCLKENABLEDB17DB16DB15DB14DB13DB12DB11DB10DB9DB8DB7DB6DB5DB4DB3DB2DB1DB0SDOSDIRDWR/SCLRSCSFMARKVCC-IOVCCVCC-IGNDXRYDXLYU
TFT1
MI0283QT2
VCC-3.3
VCC-3.3
AVCC
Q9BC856
Q10BC846
R58
10K
R411K
VCC-1.8
R15
10K
R34K7
VCC-3.3
Q8BC856
VCC-1.8
R55
10K
Q6BC846
R14
10K
C21100nF
R42100K
Q7BC846
R56
10KC22
100nFR57100K
R544K7
VCC-3.3
LCD-XR
LCD-YU
LCD-XL
LCD-YD
DRIVEA
DRIVEB
Q3BC846
Q2BC846
Q1BC846
T-D
0
LCD
-BLE
D
PMW
RP M
RD
LCD
-RS
T-D2T-D3
T-D6
DR
IVEA
DR
IVEB
-CS#
LCD
-RST
T-D4
T-D
7
T-D5
LCD
-XL
LCD
-YD
T-D
1
T-D5
T-D7
T-D4T-D3T-D2T-D1T-D0
T-D6
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
77
2423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
25
7 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BO
OT0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
D
PE2PE3
PA2PA1
VC
AP
VD
D
PC9
PD13PB
10PB
11
PD10
PE8
PB2
PD11
PD14
PD5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
VREF-1.8
R65
100K
C41 2.2uF
C422.2uF
R66 100K
R51
1K
LCD
decouplingcapacitors
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3VCC-3.3
C31
100nF
VCC-3.3
VCC-3.3
J3
J2
STM32F207VGT6STM32F407VGT6
Figure 7-2: Touch Screen connection schematics
Page 28 Page 29
Figure 8-2: Inserting 3.5mm headphones jack
The mikromedia for STM32® features stereo audio codec VS1053. This module
enables audio reproduction by using stereo headphones connected to the
system via a 3.5mm connector CN2. All functions of this module are controlled
by the microcontroller over Serial Peripheral Interface (SPI).
8. Audio Module
Figure 8-1: On-board VS1053
MP3 codec
Page 28 Page 29
Figure 8-3: Audio module connection schematics
2345671112
1314
5
24232221
18171615
8 1
19
91076
20
8 9 0 1 2 3 4 5 6
373839404142434445464748
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51
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6
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1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0
MP3-CS#
C2022pF
C1922pF
C11
100nF
R1 1M
R2010K
R21 10K
MP3
-DR
EQ
MP3-RST#
C10
100nF
C4
100nF
C12
100nF
C9
100nF
R210K
R1910K C23
100nF
VCC-3.3
C24
100nF
VCC-3.3
C26
100nF
VCC-3.3 VCC-3.3
C27
100nF
X2
12.288MHzC13
1uF
VCC-3.3
GPI
O
VCC-3.3
LEFT
RIGHT
GBUF
VCC-1.8 VCC-1.8 VCC-1.8 VCC-1.8 VCC-3.3
E1 10uF
E2 10uF
CN2
PHONEJACK
LEFT
RIGHT
C16
10nF
C14
47nF
C15
10nF
R2710
R3020
R3120
R28 10
R29 10
R32
470C173.3nF
R17100K
R33
470C183.3nF
R18100K
L
R
R2227
2 22 2 2 3 3 3 3 3 3 3M
CP/
LN1
MIC
NXR
ESET
DG
ND
0C
VDD
0IO
VDD
0C
VDD
1D
REQ
GPI
O2
GPI
O3
GPI
O6
GPI
O7
XDCS/BSYNCIOVDD1VC0DGND1XTAL0XTAL1IOVDD2DGND2DGND3DGND4XCSCVDD2
GPI
O5
RX
TX SCLK
SI SO CVD
D3
XTES
TG
PIO
0G
PIO
1G
ND
GPI
O4
AGND0AVDD0
AVDD2
AGND1AGND2
AGND3LN2
LEFT
RCAPAVDD1
GBUF
RIGHT
VS1053
U2
VCC-1.8 VCC-3.3
MP3-CS#
MP3
-RST
#
VCC-3.3
AVCC
MP3-DCS
MP3-DCS
MP3-RST#MP3-DREQ
MP3-CS#
MIS
O3-
PC11
SCK3-
PC10
MO
SI3-
PC12
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
77
2423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
25
7 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BOO
T0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
D
PE2PE3
PA2PA1
VCA
PVD
D
PC9
PD13
PB10
PB11
PD10PE
8
PB2
PD11
PD14
PD5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
MIS
O3-
PC11
R4
27
R5
27
SCK3
-PC
10
MO
SI3-
PC12
VREF-1.8
R65
100K
C41 2.2uF
C422.2uF
R66 100K
decouplingcapacitors
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3VCC-3.3
C31
100nF
VCC-3.3
decouplingcapacitors
VCC-3.3
J3
J2
STM32F207VGT6STM32F407VGT6
Page 30 Page 31
STM32F207VGT6 and STM32F407VGT6 microcontrollers have integrated USB
module, which enables you to implement
USB communication functionality to your
mikromedia board. Connection with target USB
host is done over MINI-B USB connector which
is positioned next to the battery connector.
9. USB connection
Figure 9-1: Connecting USB
cable to programming connector
Page 30 Page 31
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1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0
VCC-USB
C2810nF
FP2FERRITE
VCC-3.3
R62 100 12345 GND
IDD+D-VBUS
CN3
USB MINIB
AVCC
USB-DET
USB-DET
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
772423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
257 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BOO
T0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
DPE2PE3
PA2PA1
VCA
PVD
D
PC9
PD13
PB10
PB11
PD10
PE8
PB2
PD11
PD14PD
5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
R64100K
VREF-1.8
R65
100K
C41 2.2uF
C422.2uF
R66 100K
USB-D_NUSB-D_P
USB-D_NUSB-D_P
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3
VCC-3.3 VCC-3.3
VCC-3.3
C31
100nF
VCC-3.3
decouplingcapacitors
VCC-3.3
J3
J2
STM32F207VGT6STM32F407VGT6
Figure 9-2: USB module connection schematics
Page 32 Page 33
123456 8
910111213
14
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1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0
C32100nF
C33100nF
VCC-3.3
R1210K
R1310K
VCC-3.3ACC ADDRESSVCC
GNDResGNDGNDVCC
7C
S INT1INT2NCResADDSDASC
L
U9
ADXL345
VCC-3.3
VCC-3.3
VCC-3.3
VCC-3.3
AVCC
SDA
1-PB
7SC
L1-P
B6
SDA1-PB7
SCL1-PB6
123
J1
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
77
2423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
25
7 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BOO
T0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
D
PE2PE3
PA2PA1
VCA
PVD
D
PC9
PD13
PB10
PB11
PD10
PE8
PB2
PD11
PD14
PD5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
VREF-1.8
R65
100K
C41 2.2uF
C422.2uF
R66 100K
decouplingcapacitors
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3VCC-3.3
C31
100nF
VCC-3.3
VCC-3.3
J3
J2
STM32F207VGT6STM32F407VGT6
10. AccelerometerOn board ADXL345 accelerometer is used to
measure acceleration in three axis: x, y and z. The
acceleromer’s function is defined by the user in the
program loaded into the microcontroller. Communication
between the accelerometer and the microcontroller is
performed via the I2C interface.
You can set the accelerometer
address to 0 or 1 by re-soldering the
SMD jumper (zero-ohm resistor) to the
appropriate position. Jumper is placed
in address 1 position by default.
Figure 10-2: Accelerometer connection schematics
Figure 10-1: Accelerometer
module
Page 32 Page 33
11. Flash Memory
58575655545352
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1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 C37
100nF
R4810K
VCC-3.3 VCC-3.3VCC-3.3
VCC-3.3
123
54678CS
SDOWPGND SDI
SCKHOLD
VCC
U10
M25P80
AVCC
R59 27
FLA
SH-C
S#
FLASH-CS#MISO3-PC11
SCK3-PC10MOSI3-PC12
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
77
2423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
25
7 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BOO
T0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
D
PE2PE3
PA2PA1
VCA
PVD
D
PC9
PD13
PB10
PB11
PD10
PE8
PB2
PD11
PD14
PD5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
MIS
O3-
PC11
R427
R527
SCK3
-PC
10
MO
SI3-
PC12
VREF-1.8
R65
100K
C41 2.2uF
C422.2uF
R66 100K
decouplingcapacitors
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3VCC-3.3
C31
100nF
VCC-3.3
VCC-3.3
J3
J2
STM32F207VGT6STM32F407VGT6
Figure 11-2:Flash memory module connection schematics
Since multimedia applications are
getting increasingly demanding, it is
necessary to provide additional memory
space to be used for storing more data.
The flash memory module enables the
microcontroller to use additional 8Mbit
flash memory. It is connected to the
microcontroller via the Serial Peripheral
Interface (SPI).
Figure 11-1:Flash memory module
Page 34 Page 35
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1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0
R7 100
VCC-3.3
AVCC
PA1PA2
PC0
PA3
U2R
x-PD
6U
2Tx-
PD5
SDA
1-PB
7SC
L1-P
B6
PA5
PA6
PA4
30 29 28 2734 3346 36 3542434445 3750
9
4849
1112
32
43
77
2423
181716151413
5678
10
7 8
12
22212019
3839404 147 31 26
25
7 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 10
PE11
PE10
PE6VBAT
PC13/TAMPER_RTCPC14/OSC32_IN
PA10PA9PA8
PD9
PE13
PE12
PB13PB14PB15PD8
PE14
PE15
PB5
PB4
PB3
PB7
PD7
PD6
PE5PE4
PE1
PE0
PB9
PB8
BOO
T0
PB6
OSC_IN
PA0-WKUPVDDA
VREF+GNDA
VDDPC3
PA12PA11
PB12
PC8
NRST
VDDGND
PE7
PDR
_ON
(RFU
)VD
D
PE2PE3
PA2PA1
VCA
PVD
D
PC9
PD13
PB10
PB11
PD10
PE8
PB2
PD11
PD14
PD5
PC2PC1PC0
PB1
PE9
PD12
PC7OSC_OUT
PC15/OSC32_OUT
PD15PC6
PA13
PC10
PA14
VCAPGNDVDD
PA15
PC11
PC12
PD0
PA6
PA5
PC4
PA7
PC5
PB0
GN
DVD
D
PA3
PA4
PD1
PD2
PD3
PD4
U1
MIS
O3-
PC11
R4
27
R5
27
SCK3
-PC
10
MO
SI3-
PC12
VREF-1.8
PD0
PA7
PA8
PA10
PD14PC1PC2PC3
PC4
PC5
SCL2
-PB1
0SD
A2-
PB11
PB12SCK2-PB13MISO2-PB14MOSI2-PB15
PB5
PD1
PD2
PD4
PD8PD9PD10PD11PD12PD13
R65
100K
C41 2.2uF
C422.2uF
R66 100K
RST
RXTX SCK
SDISDOSDA
SCL
AN
INT
PWM
1234567891011121314151617181920212223242526
HDR1
M1X26
2728293031323334353637383940414243444546474849505152
HDR2
M1X26
VCC-3.3VCC-3.3
VCC-SYS
RST
LR
PC4
U2Rx-PD6U2Tx-PD5
MISO3-PC11SCK3-PC10
MOSI3-PC12SDA1-PB7SCL1-PB6
PA1PA2
PC0
PA3PA4
PA6PA5
PD2 PC2PC3
PC5
PD0
PA7PA8
PA10PD14
PC1
SCL2-PB10SDA2-PB11
SCK2-PB13PB12
MISO2-PB14MOSI2-PB15
PB5PD1
PD4PD8PD9
PD10PD11PD12PD13PE13PE14
PE13
PE14
decouplingcapacitors
C5
100nF
C6
100nF
C7
100nF
C8
100nF
E8
10uF
VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3VCC-3.3
C31
100nF
VCC-3.3
VCC-3.3
J3
J2
STM32F207VGT6STM32F407VGT6
12. Pads
Most microcontroller pins are available for further connectivity via two 1x26 rows of connection
pads on both sides of the mikromedia board. They are designed to match additional shields,
such as Battery Boost shield, Gaming, PROTO shield and others.
Pads HDR2 Pads HDR1
Figure 12-1: Pads connecting schematics
Page 34 Page 35
SPI LinesInterrupt LinesAnalog LinesDigital lines I2C Lines UART lines PWM lines
VSYS RST Reset pinSystem power supplyGND GND Reference GroundReference GroundPA1 LPA2 R
left ch.right ch.
PA3 PA7PA4 PA8PA5 PA10PA6 PD14PC0 PB5PC1 PD1PC2 PD2PC3 PD4PC4 PD8PC5 PD9
PB10 PD10PB11 PD11PB12 PD12PB13 PD13PB14 PE13PB15 PE14
PD0 PD6PC10 PD5PC11 PB6PC12 PB73.3V 3.3V 3.3V power supplyGND GND Reference Ground
Pin functions Pin functions
audio out
13. Pinout
Digital I/O lines
SPI Lines
Interrupt Lines
Analog Lines
RXTXSCKSCLSDISDASDO
UART Lines
I2C Lines
PWM lines
Digital I/O lines
3.3V power supplyReference Ground
Page 36 Page 37
73.66 mm
81.15 mm
63.5 mm
2.67 mm2.54 mm
36.5
8 m
m
55.8
8 m
m
60.4
5 m
m
2.03
mm
(3195 mils)
(2900 mils)
(238
0 m
ils)
(220
0 m
ils)
(2500 mils)
(144
0 m
ils)
(105 mils)(100 mils)
(80
mils
)
8.89
mm
(350
mils
)7.
62 m
m(3
00 m
ils)
14. Dimensions
Page 36 Page 37
15. Mikromedia accessories
We have prepared a set of
extension boards pin-compatible
with your mikromedia, which
enable you to easily expand
your board basic functionality.
We call them mikromedia
shields. But we also offer other
accessories, such as Li-polymer
battery, stacking headers, wire
jumpers and more.
04
01
05 06 07
02 03
Gaming shield
Connect shield
Li-Polimer battery Wire Jumpers Stacking headers
BatteryBoost shield PROTO shield
Page 38 Page 39
You still don’t have an appropriate compiler? Locate ARM® compiler that suits you best on
the Product DVD provided with the package:
Choose between mikroC™, mikroBasic™ and mikroPascal™ and download fully functional
demo version, so you can begin building your first applications.
Once you have chosen your compiler, and since you already got the board, you are ready to start writing your first
projects. Visual TFT software for rapid development of graphical user interfaces enables you to quickly create your
GUI. It will automatically create necessary code which is compatible with mikroElektronika compilers. Visual TFT is
rich with examples, which are an excellent starting point for your future projects. Just load the example, read well
commented code, and see how it works on hardware. Visual TFT is also available on the Product DVD.
You have now completed the journey through each and every feature of mikromedia for STM32® board. You got to know it’s modules and
organization. Now you are ready to start using your new board. We are suggesting several steps which are probably the best way to begin. We
invite you to join the users of mikromedia™ brand. You will find very useful projects and tutorials and can get help from a large ecosystem of
users. Welcome!
Compiler
Projects
DVD://download/eng/software/compilers/
What’s next?
Page 38 Page 39
DISCLAIMER
All the products owned by MikroElektronika are protected by copyright law and international copyright treaty. Therefore, this manual is to be treated as any other copyright material. No part of this manual, including product and software described herein, may be reproduced, stored in a retrieval system, translated or transmitted in any form or by any means, without the prior written permission of MikroElektronika. The manual PDF edition can be printed for private or local use, but not for distribution. Any modification of this manual is prohibited.
MikroElektronika provides this manual ‘as is’ without warranty of any kind, either expressed or implied, including, but not limited to, the implied warranties or conditions of merchantability or fitness for a particular purpose.
MikroElektronika shall assume no responsibility or liability for any errors, omissions and inaccuracies that may appear in this manual. In no event shall MikroElektronika, its directors, officers, employees or distributors be liable for any indirect, specific, incidental or consequential damages (including damages for loss of business profits and business information, business interruption or any other pecuniary loss) arising out of the use of this manual or product, even if MikroElektronika has been advised of the possibility of such damages. MikroElektronika reserves the right to change information contained in this manual at any time without prior notice, if necessary.
TRADEMARKS
The MikroElektronika name and logo, the MikroElektronika logo, mikroC™, mikroBasic™, mikroPascal™, mikroProg™, mikroBUS™, Click Boards™, EasyMx PRO™ and mikromedia™ are trademarks of MikroElektronika. All other trademarks mentioned herein are property of their respective companies.All other product and corporate names appearing in this manual may or may not be registered trademarks or copyrights of their respective companies, and are only used for identification or explanation and to the owners’ benefit, with no intent to infringe.
Copyright © MikroElektronika, 2012, All Rights Reserved.
HIGH RISK ACTIVITIES
The products of MikroElektronika are not fault – tolerant nor designed, manufactured or intended for use or resale as on – line control equipment in hazard-ous environments requiring fail – safe performance, such as in the operation of nuclear facilities, aircraft navigation or communication systems, air traffic control, direct life support machines or weapons systems in which the failure of Software could lead directly to death, personal injury or severe physical or environmental damage (‘High Risk Activities’). MikroElektronika and its suppliers specifically disclaim any expressed or implied warranty of fitness for High Risk Activities.
If you want to learn more about our products, please visit our website at www.mikroe.com
If you are experiencing some problems with any of our products or just need additional
information, please place your ticket at www.mikroe.com/esupport
If you have any questions, comments or business proposals,
do not hesitate to contact us at office@mikroe.com
mikromedia for STM32® M3/M4 Manual ver. 1.00
0 100000 019511
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