Amazingly compact, all-on-a-single-pcb development board that carries
5’’ TFT Touch Screen and lots of multimedia peripherals, all driven by
a powerful TM4C129L(X)NCZAD
for Tiva™
mikromedia5
Page 2
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.
TO OUR VALUED CUSTOMERS
Nebojsa Matic
General Manager
The Tiva™ and Windows® logos and product names are trademarks of Texas Instruments® and Microsoft® in the U.S.A. and other countries.
Introduction to mikromedia 5 for Tiva™ 4
System Specification 4
Package Contains 5
1. Power Supply 6
2. TM4C129L(X)NCZAD microcontroller 8
Key microcontroller features 8
3. Programming the microcontroller 9
On-board mikroProg™ for Tiva® programmer 10
mikroProg Suite™ for ARM® software 12
Software installation wizard 13
4. RTC Battery and Reset Button 14
5. Crystal Oscillators and 2.048 V Reference 16
6. microSD Card Slot 18
7. Touch Screen 20
8. Audio Module 22
9. USB DEVICE connection 24
10. USB HOST connection 26
11. Accelerometer 28
12. SDRAM 30
13. RF Transceiver 32
14. Ethernet 34
15. Buzzer 36
16. WiFi 38
17. Other Modules 40
18. Pads 42
19. Dimensions 44
20. What’s next? 45
Page 3
Table of Contents
Page 4
The mikromedia 5 for Tiva™ is a compact development
board which allows development of devices with
multimedia contents. The central part of the system is
a 32-bit 212-pin TM4C129L(X)NCZAD microcontroller.
The mikromedia 5 for Tiva™ features lots of on board
modules such as stereo MP3 codec, 5’’ TFT 800x480 px touch screen display, accelerometer, microSD card slot,
buzzer, IR receiver, RGB LED diode, PIN photodiode,
temperature sensor, 2.4 GHz RF transceiver, Ethernet,
Wi-Fi transceiver, 64Mb SDRAM, Li-Polimer battery
charger etc. The board also contains two MINI-B USB
connectors, 2x5 Cortex Debug connector, two 1x26
connection pads, ON/OFF switch and other. It comes
with an on-board mikroProg™ for Tiva® programmer and debugger, but can also be programmed with
external programmers. mikromedia 5 for Tiva™ is
compact and slim, which makes it a convenient platform
for mobile and other multimedia devices.
Introduction to mikromedia 5 for Tiva™
System Specificationpower supply
Via USB cable (5V DC) or via adapter
connector (5 - 12 V DC)
power consumption
121 mA with empty MCU
(when on-board modules are disabled)
board dimensions
135x86.6 mm (5.3x3.4 inch)
weight
~136g (0.3 lbs)
Page 5
01 02
04 05
03
06
Damage resistant
protective box
mikromedia 5 for Tiva™
development board
mikromedia 5 for Tiva™
user’s guidemikromedia 5 for Tiva™
schematic
Roll USB cable, roll ethernet cable and headers
Distancers, plastic pen and microSD card
SCHEMATICS
We present you with a complete color schematics for mikromedia 5 for Tiva development board. We want you to know what your board is consisted of
and how it actually works.
TM
for Tiva™
mikromedia5Amazingly compact, all-on-single-pcb development board carring 5’’ TFT
Touch Screen and lots of multimedia peripherals, all driven by powerful
TM4C129LNCZAD
for Tiva™
mikromedia5
Package Contains
Page 6
1. Power Supply
Figure 1-3: Battery power supply
Figure 1-4: Adapterconnector power supply
Figure 1-1:ICDI USB power supply
Figure 1-2:USB power supply
The mikromedia 5 for Tiva™ board can be powered in four different ways: via two USB connectors using MINI-B USB cable provided with
the board (CN9 or CN2), via battery connector using Li-Polymer battery (CN3) or via adapter connector using adapter power supply
(CN1). After you plug in the appropriate power supply turn the power switch ON (SW1). The USB connection can provide up to 500 mA
current which is more than enough for the operation of all on-board modules and the microcontroller as well. If you decide to use external
power supply via adapter connector, voltage levels must be within 5-12 V DC range. Power LED ON (GREEN) indicates the presence of
power supply. On-board battery charger circuit LM3658SD-A enables you to charge the battery over two USB connectors or via adapter
connector. LED diode (RED) indicates when battery is charging. Charging current is ~250 mA and charging voltage is 4.2 V DC.
Page 7
Vusb_OUT Vdc
Vbat_INCN
3
R5
10K
R9
10K
R4100K
L1 1.5uH
R61K
C8
22uFC15
100nF
C16
10pF
C9
22uF
C10
22uF
R710K
R122
0
R1230
R11100K
L2 1.5uH
R1512K
C18
22uFC26100nF
C27
10pF
C19
22uF
C20
22uF
VCC-5V
VCC-3.3V
VCC-5V
R310K
R210K
USB-PSW#
E210uF
1
2
3
OUT
GND
IN5
4 OCEN
U5
TPS2041B
VCC-3.3V
E310uF
USB-VBUS_ER#
E110uF
USB-D_NUSB-D_P
USB-ID
USB-VBUS
R81K
Vusb_IN
D5B340A
D2B340A
D4PMEG3010ER
D1PMEG3010ER
1098765
4321
PG
VINL1
ENPS
VAUXGND
FB
L2VOUT
PGND
U6
TPS63060
1098765
4321
PG
VINL1
ENPS
VAUXGND
FB
L2VOUT
PGND
U7
TPS63060
USB-D_NUSB-D_PUSB-ID
USB-VBUSUSB-PSW#USB-VBUS_ER#
R12100K
R14100K
R18100K
BAT-VSENSE BAT-VSENSE
R191K
C2522uF
C722uF
R17470
POWER
USB-VBUS_ER#USB-PSW#USB-VBUSUSB-D_NUSB-D_PUSB-ID
VCC-3.3V
12345GND
IDD+D-
VBUS
CN2
USB MINIB
C6100nF
VINPWR-EN
PWR-EN
1 2 3
SW1JS202011AQN
R13100K
C11
1uF
C12
100nF
C13
10nF
C14
100pF
C21
1uF
C22
100nF
C23
10nF
C24
100pF
V_INPUT
FP1
VIN
VIN
1
23
R1
R2
Q1PDTC114EU
R110K
VCC-3.3V
DC-VBUS# DC-VBUS# VCC-3.3V VCC-1.8V1
2
3
IN
GND
OUT 5
4EN ADJ
U8
AP7331-ADJ
R20
100KC29
2.2uFE410uF
R21
27K4
R22
1K
R101M C17
3.3nF
LD1
D3PMEG3010ER
D6ESDA5V3L
D7ESDA5V3L
Vusb-ICDI
M2DMP2305U
±1%
R164K87
M1DMP2305U
123
CN1
PJ-002AH-SMT
Vbat_IN
R3210K
R29560
C312.2uF
R31
10K
R2610K
R3310K
R2710K
CHARGE
R2810K
R2510K
VCC-5VV_INPUT
M4DMG3420U
C301uF
BAT-
STAT
2BA
T-ST
AT1
BAT-STAT2BAT-STAT1
VCC-3.3VVCC-3.3V
4
1
8
67
1023
5
9
EN_b
USBpwrCHG_IN
GNDUSB_sel
STAT2STAT1
Iset
BATTTs
PGND
U9
LM3658SD-A
R23
1K
R34
1K
LD2
CHARGING CURRENT IS 250mA
1
23
R1
R2
Q2PDTC114EU
1
23
R1
R2
Q3PDTC114EU
M3DMP2305U
M5DMG3420U
R2410K
V_INPUT
R30
10K
Vbat_IN
C28100nF
VIN
E1010uF
Vusb-ICDI
12345 GND
IDD+D-VBUS
CN9
USB MINIB
FP7
R1111M C113
3.3nF
Figure 1-5: Power supply schematic
Page 8
The mikromedia 5 for Tiva™ development board comes with
the 212-pin ARM® Cortex™-M4F TM4C129L(X)NCZAD
microcontroller. This high-performance 32-bit microcontroller
with its integrated modules and in combination with other
on-board modules is ideal for multimedia applications.
Key microcontroller features
2. TM4C129L(X)NCZAD microcontroller
- Up to 150 DMIPS Operation (120 MHz);
- 1024 KB of Flash memory;
- 256 KB of SRAM memory;
- 6 KB of EEPROM memory;
- up to 140 I/O pins;
- 16/32-bit timers
- 16 MHz internal oscillator, 32 kHz RTCC;
- 8xUART, 4xSSI, 10xI2C, 2xCAN, 2xADC, USB, Ethernet etc.
ROM
1024 KBFlash
6 KBEEPROM
256 KBSRAM
Cortex M4FTM4C129 (120MHz)
JTAG
NVIC ETM
FPUSWD
MPU
Analog
LDO VoltageRegulator
3 AnalogComparators
2x12-bit ADCUp to 24 channels
Temp Sensor
System periphery Serial periphery
Motion control
8 UART
4 SSI
10 I2C
2 CANEthernetMAC/PHY
USB OTG(FS PHY or ULPI)
SHA/MD5
2 WatchdogTimer
DMA
GPIO3(140)
ExternalPeripheralInterface
AES
CRC
DES
TFT LEDcontroller
TFT LEDcontroller
HibernationModule
8 GP timers PWM(1 unit/8 signals)
QE1(1 unit)
Page 9
01
02
Using on-board mikroProg™ for Tiva® programmer
Using external programmers
Figure 3-1:TM4C129L(X)NCZAD
microcontroller
The microcontroller can be programmed in two ways:
3. Programming the microcontroller
Page 10
On-board mikroProg™ for Tiva® programmer
The microcontroller can be programmed with on-board mikroProg™ for Tiva® programmer and mikroProg Suite™ for ARM® software.
Connection with PC is established over ICDI USB connector. For proper insertion of the MINI-B USB cable refer to Figure 3-2. Signalization
LEDs (ACTIVE and DATA) are also provided on the opposite side of the ICDI USB connector. It is also possibly to program the microcontroler
with external porogrammers, via 2x5 Cortex Debug connector (CN8) with appropriate adapter, Figure 3-3.
Figure 3-2:On-board mikroProg™ programmer
Figure 3-3:External programmer
Page 11
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C128
100nF
C138
100nF
VREF
C139
10nF
V
C140
1uF
C142
10nF
FP9VCC-ADC VCC-3.3
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
PQ0E3
PQ1E2
PQ2H4
PQ3M4
PQ4A13
PQ5W12
PQ6U15
PQ7M3
PR0 N5
PR1 N4
PR2 N2
PR3 V8
PR4 P3
PR5 P2
PR6 W9
PR7 R10
PS0 D12
PS1 D13
PS2 B14
PS3 A14
PS4 V9
PS5 T13
PS6 U10
PS7 R13
PT0 W10
PT1 V10
PT2 E18
PT3 F17
POR
T Q
POR
T R
POR
T S
POR
T N
PN0C10
PN1B11
PN2A11
PN3B10
PN4A10
PN5B9
PN6T12
PN7U12
PP0D6
PP1D7
PP2B13
PP3C12
PP4D8
PP5B12
PP6B8
PP7A8
POR
T P
POR
T T
TM4C129LNCZAD
RST#
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
JTAG-TCKJTAG-TMSJTAG-TDIJTAG-TDO
TRACE-RXTRACE-TX
ICDI-VBUS
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
VCC-3.3V
C104
100nF
C103
100nF
C102
100nF
ICDI-LED-ACTIVEICDI-LED-DATA
1 23 45 67 89 10
CN8
JTAG-TCKJTAG-TMS
JTAG-TDIJTAG-TDO
RST#EXT-PROG#
VCC-3.3V
R106100K
LD8 LD9
AC
TIV
E
DA
TA
R991K
R1001K
VCC-5VVCC-3.3V
VCC-5V VCC-3.3V
C111
100nF
C110
100nF
C109
100nF
C108
100nF
ICDI-VBUS
D9ESD
A5V3
L
E1010uF
R10910K
Vusb-ICDI
12345 GND
IDD+D-VBUS
CN9
USB MINIB
FP7
ICDI-USB_NICDI-USB_P
R1111M C113
3.3nF
±1%R1084K87
VCC-3.3V VCC-5V
ICDI
JTAG-TCKJTAG-TMS
JTAG-TDIJTAG-TDO
RST#
ICDI-VBUSTRACE-RXTRACE-TX
TRAC
E-RX
TRAC
E-TX
Figure 3-4: Programmer connection schematic
Page 12
On-board mikroProg™ for Tiva™ programmer requires special programming software called
mikroProg Suite™ for ARM®. This software is used for programming ALL Tiva™ and Stellaris®
ARM® Cortex-M3™ and Cortex-M4™ microcontroller families. It features intuitive interface and
SingleClick™ programming technology. Software installation is available on following link:
After downloading, extract the package and double click the executable setup file to start installation.
mikroProg Suite™ for ARM® software
Quick Guide
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 the target HEX file.
If you want to write the HEX file into the microcontroller, first make sure to load the target HEX file using the Load button. Then click the Write button to begin programming.
Click the Erase button to clear the microcontroller memory.
01
02
03
04
http://www.mikroe.com/mikroprog/tiva/
Page 13
01
04
02
05
03
06
Start Installation
Choose destination folder
Accept EULA and continue
Installation in progress
Install for all users
Finish installation
Software installation wizard
4. RTC Battery and Reset Button
mikromedia 5 for Tiva™ features
an RTC battery holder for
microcontroller RTC module.
Battery is used as alternate source
of power, so the RTC module can
continue to keep time while the
primacy source of power is off or
currently unavailable. Three types
of coin battery are supported:
CR1216, CR1220 and CR1225.
The board is equipped with reset
button, which is located on the
front side of the board. If you want
to reset the circuit, press the reset
button. It will generate low voltage
level on the microcontroller reset pin
(input). A reset can also be exter-
nally provided through the
pin 27 on the side
headers.
Page 14
RTC Battery
Reset Button
Page 15
VCC-3.3V
R6610K
R67
330
C75100nF
RESETT1
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
Vdc
RST#HDR2
M1X26
2728293031323334353637383940414243444546474849505152
VCC-3.3V
Figure 4-1: Reset button and RTC battery connection schematic
Page 16
The board is equipped with 01 25 MHz crystal oscillator (X4) circuit that
provides external clock waveform
to the microcontroller OSC1 and OSC2
pins. This base frequency is suitable for
further clock multipliers and is also ideal for
generation of necessary USB clock, which ensures
proper operation of bootloader and your custom USB-
based applications. The board also contains 02 32.768 kHz crystal oscillator (X5) which provides external clock for internal
RTCC module. Microcontroller ADC requires an accurate source of
reference voltage signal. That is why we provide the external 03 voltage reference to the microcontroller VREF pin which is 2.048 V.
5. Crystal Oscillators and 2.048 V Reference
01 02
Figure 5-1: Crystal oscillators and 2.048 V reference
03
01
02
03
Page 17
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4PO
WE
R
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VCC-ADC
VCC-3.3V
C811uF
C80100nF
1
23IN
OUTGND
REF1
MAX6106EUR+
Figure 5-2: Crystal oscillators and voltage reference connection schematic
Page 18
The board contains 01 microSD card slot that enables you to use 02 microSD cards in
your projects and to store large amounts of data externally, thus saving microcontroller memory.
microSD cards use Serial Peripheral Interface (SPI) for communication with the microcontroller.
Ferrite and capacitor are provided to compensate voltage and current glitch that can occur when pushing
microSD card in and out of the socket. The proper insertion of the microSD card is shown in Figure 6-1.
6. microSD Card Slot
Figure 6-1: microSD Card Slot
01
02
Page 19
VCC-MMC
SD-CD#
R64
10K
124567
CSDIN+3.3VSCKGNDDOUT
CD
GN
D
CN6
R63
10K
SD-CS#
R65
27
FP4
FERRITE
VCC-3.3V VCC-MMC
C74100nF
C7322uF
X425MHz
C11922pF
C11822pF
X532.768KHz
C12010pF
C12110pF
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
BAT13000TR
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2SPI0-SCK
SPI0-SCK
SD-CS#SPI0-MOSI
SPI0-MOSI
SPI0-MISO
SPI0-MISO
SD-CD#
±1%
R1214K87
R117 27
R118 27
Figure 6-2: microSD Card Slot module connection schematic
The mikromedia features a 5‘‘ TFT 800x480 px display with a
resistive touch panel. Together they
form a functional unit called a touch screen, Figure 7-1. It enables
data to be entered and displayed
at the same time. The TFT display
is capable of showing graphics in
16.7M diffe rent colors.
Figure 7-1: Touch Screen
7. Touch Screen
Page 20
Page 21
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
PQ0E3
PQ1E2
PQ2H4
PQ3M4
PQ4A13
PQ5W12
PQ6U15
PQ7M3
PR0 N5
PR1 N4
PR2 N2
PR3 V8
PR4 P3
PR5 P2
PR6 W9
PR7 R10
PS0 D12
PS1 D13
PS2 B14
PS3 A14
PS4 V9
PS5 T13
PS6 U10
PS7 R13
PT0 W10
PT1 V10
PT2 E18
PT3 F17
POR
T Q
POR
T R
POR
T S
POR
T N
PN0C10
PN1B11
PN2A11
PN3B10
PN4A10
PN5B9
PN6T12
PN7U12
PP0D6
PP1D7
PP2B13
PP3C12
PP4D8
PP5B12
PP6B8
PP7A8
POR
T P
POR
T T
U1D
TM4C129LNCZAD
TP-INT#
RST#
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
SPI1-SCKSPI1-MOSI
SPI1-MISO
SPI1-SCK
SPI1-MOSI
SPI1-MISO
LCD-B5
LCD-R6LCD-R7LCD-B2LCD-R2LCD-DETP-CS#
LCD-R5LCD-R4
I2C2-SCLI2C2-SDA
I2C2-SCL
I2C2-SDA
LCD-DCLKLCD-VSYNCLCD-HSYNC
LCD-B6LCD-B3LCD-B4LCD-B7LCD-G2
LCD-R1LCD-B0LCD-G0LCD-R0LCD-G3LCD-G4LCD-G5LCD-G6
LCD-G7LCD-R3LCD-B1LCD-G1
LCD-PWM
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
R1154K87
R1164K87
VCC-
3.3V
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
R120 27R119 27
VLED
-VL
ED+
GN
DVD
DR
0R
1R
2R
3R
4R
5R
6R
7G
0G
1
HSY
NC
DIS
PPC
LKG
ND
B7B6B5B4B3B2B1B0G7
G6
G5
G4
G3
G2
VSYN
CD
EN
CG
ND
X_R
Y_B
X_L
Y_T
TFT1 HT050AWV40T
1
2
3
SW
GND
VIN5
4 FBEN
U11
TPS61041
L3 10uH
C5910uF
D8PMEG3010ER
VCC-5V
DZ1MMSZ5246B
R5634
VLED+VLED-
LCD
-PW
M
VCC-3.3V
LCD
-R0
LCD
-R1
LCD
-R2
LCD
-R3
LCD
-R4
LCD
-R5
LCD
-R6
LCD
-R7
LCD
-G0
LCD
-G1
LCD
-G2
LCD
-G3
LCD
-G4
LCD
-G5
LCD
-G6
LCD
-G7
LCD
-B0
LCD
-B1
LCD
-B2
LCD
-B3
LCD
-B4
LCD
-B5
LCD
-B6
LCD
-B7
LCD
-DCL
K
LCD
-HSY
NC
LCD
-VSY
NC
LCD
-DE
TP-X
_RTP
-Y_B
TP-X
_LTP
-Y_T
TP-X_R
TP-Y__BTP-Y_B
TP-X_L
TP-X
_L
TP-X_R TP-Y_T
TP-Y
_T
R570R
C58100nF
2 1512 3511 363 4 5 6 147 8 9 13 3310 37 38 39 40341 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
CN5
FP2
R58
10K
C56100nF
E910uF
VCC-3.3V
C571uF
C60100nF
VCC-3.3V
C611uF
VCC-3.3V
C68
1uF
C69
100nF
VCC-3.3V
C642.2nF
C65
2.2nF
C66
2.2nFC672.2nF
VCCA-TPTP-RST#TP-INT#TP-SDI/AD1TP-SCLK/SCLTP-SDO/SDA
TP-C
S#
R62
10K
R61
10K
R60 10K
VCC-3.3V
FP3VCC-1.8V
C71
1uF
C72
100nF
C70
10uF
VCCA-TP
123
J2
123
J3
123
J4
SDO/SDA1
SCLK/SCL2
AD13
PINTDAV4
RESET5
DG
ND
6
I/O
VDD
7
NC
8
AUX
9
AGN
D10
VREF 11SNSVDD 12X+ 13Y+ 14SUBGND 15
X-16
Y-17
SNSG
ND
18N
C19
AD0
20
TSC2006
U13
Figure 7-2: Touch Screen connection schematic
Page 22
mikromedia 5 for Tiva™ features stereo audio codec 01 VS1053. This module
enables audio reproduction and sound recording by using 02 stereo headphones with microphone connected to the system via a 03 3.5 mm connector CN4. All functions of this
module are controlled by the microcontroller over Serial Peripheral Interface (SPI). IN and OUT
channels are also provided on the side headers.
Figure 8-1: On-board VS1053
MP3 codec
8. Audio Module
01
02
03
Page 23
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
VCC-3.3V
C122
100nF
VCC-3.3V
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
PQ0E3
PQ1E2
PQ2H4
PQ3M4
PQ4A13
PQ5W12
PQ6U15
PQ7M3
PR0 N5
PR1 N4
PR2 N2
PR3 V8
PR4 P3
PR5 P2
PR6 W9
PR7 R10
PS0 D12
PS1 D13
PS2 B14
PS3 A14
PS4 V9
PS5 T13
PS6 U10
PS7 R13
PT0 W10
PT1 V10
PT2 E18
PT3 F17
POR
T Q
POR
T R
POR
T S
POR
T N
PN0C10
PN1B11
PN2A11
PN3B10
PN4A10
PN5B9
PN6T12
PN7U12
PP0D6
PP1D7
PP2B13
PP3C12
PP4D8
PP5B12
PP6B8
PP7A8
POR
T P
POR
T T
U1D
TM4C129LNCZAD
SPI0-SCK
SPI0-SCK
SPI0-MOSI
SPI0-MOSI
SPI0-MISO
SPI0-MISO
MP3-CS#MP3-DREQMP3-RST#MP3-DCS
R119
R117 27
R118 27
LEFT
RIGHT
C38
10nF
C36
47nF
C37
10nF
GBUF
C55100nF
C54100nF
C52100nF
C49100nF
C53100nF
C46100nF
C47100nF
C48100nF
C50100nF
VCC-1.8V
VCC-3.3V
234567
1112
13 14
25
2423222118171615
8
1
19
910 27
26
20
282930313233343536
373839404142434445464748
MICP/LN1MICNXRESETDGND0CVDD0IOVDD0CVDD1DREQGPIO2GPIO3GPIO6GPIO7
XDCS
/BSY
NC
IOVD
D1
VC0
DG
ND
1XT
AL0
XTAL
1IO
VDD
2D
GN
D2
DG
ND
3D
GN
D4
XCS
CVD
D2
GPIO5RXTX
SCLKSISO
CVDD3XTESTGPIO0GPIO1
GNDGPIO4
AGN
D0
AVD
D0
AVD
D2
AGN
D1
AGN
D2
AGN
D3
LN2
LEFT
RCA
PAV
DD
1G
BUF
RIG
HT
VS1053
U10
R4610
R4710
R4810
R41 10
R42 10
VCC-1.8VVCC-3.3V
LEFT
RIG
HT
GBU
F
C34 1uF
R5410K
GPI
O
GPI
O
R4510K
VCC-3.3V
R50 27
MP3
-DCS
MP3-DREQ
MP3-RST#MICN
MP3
-CS#
R4910K
R5310K
VCC-3.3V
E810uF
3
1
2
4
CN4
CUI_SJ-43514-SMT
R391K
R401K
VCC-3.3V
LN-I
N_R
C39100nF
LN-IN_L
MICP
LN-IN_R
C35 100nF
E6
10uF
E5 10uF
R37
470C333.3nF
R38100K
R35
470C323.3nF
R36100K
LINE-OUT_L
LINE-OUT_R
E7
10uF
C401uF
C411uF
C4310nF
C4210nF
R52470
R51470 LINE-IN_R
LINE-IN_L
R4310
R4410
X1
12.288MHz
R55 1M
C4522pF
C4422pF
123
J1
MIC/LN-IN_LMICP
LN-IN_L
MIC/LN-IN_L
C51100nF
Vdc
LINE_OUT_LLINE_OUT_R
LINE_IN_RLINE_IN_L
HDR2
M1X26
2728293031323334353637383940414243444546474849505152
VCC-3.3V
Figure 8-2: Audio module connection schematic
9. USB DEVICE connection
Figure 9-1: Connecting USB cable to MINI-B
USB connector
Page 24
TM4C129L(X)NCZAD microcontroller has integrated USB module,
which enables you to implement USB communication to your mikromedia
board. Connection with target USB host is established over 01 MINI-B USB
connector. For proper insertion of the 02 MINI-B USB cable refer to Figure 9-1.
01
02
Page 25
X425MHz
C11922pF
C11822pF
X532.768KHz
C12010pF
C12110pF
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
USB-IDUSB-VBUS
USB-D_PUSB-D_N
±1%
R1214K87
USB-D_NUSB-D_P
USB-ID
USB-VBUS
R81K
Vusb_IN
12345GND
IDD+D-
VBUS
CN2
USB MINIB
FP1
R101M C17
3.3nF
D6ESDA5V3L
D7ESDA5V3L
Figure 9-2: USB DEVICE module connection schematic
10. USB HOST connection
Figure 10-1: Connecting USB cable to MINI-B USB
connector via USB adapter
Page 26
TM4C129L(X)NCZAD can also be used as USB HOST which enables
microcontroller to establish connection with the target device (eg. USB
keyboard, USB mouse, etc). The board provides necessary power supply to the
target via TPS2041B IC. To connect 01 USB HOST cable, it is necessary to use the
appropriate 02 MINI-B USB to USB type A adapter. For proper insertion refer to Figure 10-1.
01
02
Note: When the device is working in USB HOST mode, it must not be mounted to other USB HOST.
Page 27
X425MHz
C11922pF
C11822pF
X532.768KHz
C12010pF
C12110pF
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
USB-IDUSB-VBUS
USB-PSW#USB-VBUS-ER#
USB-D_PUSB-D_N
±1%
R1214K87
Vusb_OUT
VCC-5V
R310K
R210K
USB-PSW#
E210uF
1
2
3
OUT
GND
IN5
4 OCEN
U5
TPS2041B
VCC-3.3V
E310uF
USB-VBUS_ER#
E110uF
USB-D_NUSB-D_P
USB-ID
USB-VBUS
R81K
Vusb_IN
D1PMEG3010ER
VCC-3.3V
12345GND
IDD+D-
VBUS
CN2
USB MINIB
C6100nF
FP1
R101M C17
3.3nF
D6ESDA5V3L
D7ESDA5V3L
Figure 10-2: USB HOST module connection schematic
On board ADXL345 accelerometer measures acceleration in three axis: x, y
and z. Most common use is to determine screen orientation, but there
are many other fields of usage. Communication between the
accelerometer and the microcontroller is established
through I2C interface.
11. Accelerometer
Figure 11-1: Accelerometer module
Page 29
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TRPJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PQ0E3
PQ1E2
PQ2H4
PQ3M4
PQ4A13
PQ5W12
PQ6U15
PQ7M3
PR0 N5
PR1 N4
PR2 N2
PR3 V8
PR4 P3
PR5 P2
PR6 W9
PR7 R10
PS0 D12
PS1 D13
PS2 B14
PS3 A14
PS4 V9
PS5 T13
PS6 U10
PS7 R13
PT0 W10
PT1 V10
PT2 E18
PT3 F17
POR
T Q
POR
T R
POR
T S
POR
T N
PN0C10
PN1B11
PN2A11
PN3B10
PN4A10
PN5B9
PN6T12
PN7U12
PP0D6
PP1D7
PP2B13
PP3C12
PP4D8
PP5B12
PP6B8
PP7A8
POR
T P
POR
T T
U1D
TM4C129LNCZAD
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
ACCEL-INT#
I2C2-SCLI2C2-SDA
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
R1154K87
R1164K87
VCC-3.3V
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
C63100nF
I2C2-SDA
VCC-3.3V
ACCEL-INT#
VCC-3.3V
R5910K
VCC-3.3V
8
109
111213
14
123456
7
VCCGNDResGNDGNDVCC
CS
INT1INT2NCResADDSDASC
L
U12
ADXL345
C62100nF
VCC-3.3V
I2C2-SCL
Figure 11-2: Accelerometer connection schematic
Page 30
12. SDRAM
mikromedia 5 for Tiva™ board features high-speed 64 Mbit M12L64164A SDRAM (Synchronous Dynamic Random-Access Memory). It is
internally organized as 4 x 1,048,576 words by 16 bits. The SDRAM provides for programmable read or write burst lengths of 1, 2, 4, 8
locations, or the full page, with a burst terminate option. SDRAM is connected to the microcontroller via dedicated 16-bit parallel interface
providing a high-speed data rate for more demanding multimedia applications, such as TFT diplay.
Figure 12-1: SDRAM
Page 31Page 31
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2PO
RT
GPO
RT
H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
PQ0E3
PQ1E2
PQ2H4
PQ3M4
PQ4A13
PQ5W12
PQ6U15
PQ7M3
PR0 N5
PR1 N4
PR2 N2
PR3 V8
PR4 P3
PR5 P2
PR6 W9
PR7 R10
PS0 D12
PS1 D13
PS2 B14
PS3 A14
PS4 V9
PS5 T13
PS6 U10
PS7 R13
PT0 W10
PT1 V10
PT2 E18
PT3 F17
POR
T Q
POR
T R
POR
T S
POR
T N
PN0C10
PN1B11
PN2A11
PN3B10
PN4A10
PN5B9
PN6T12
PN7U12
PP0D6
PP1D7
PP2B13
PP3C12
PP4D8
PP5B12
PP6B8
PP7A8
POR
T P
POR
T T
U1D
TM4C129LNCZAD
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
SDRAM-AD8SDRAM-AD9
SDRAM-WE#
SDRAM-AD7SDRAM-AD6SDRAM-AD5SDRAM-AD4
SDRAM-AD11SDRAM-AD10
SDRAM-AD0SDRAM-AD1SDRAM-AD2SDRAM-AD3
SDRAM-CLK
SDRAM-DQMLSDRAM-DQMHSDRAM-CAS#SDRAM-RAS#
SDRAM-D15SDRAM-D14/BA1SDRAM-D13/BA0
SDRAM-D12
SDRAM-CS#SDRAM-C KE
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
DQ15 A2
DQ0 A8
DQ14 B1DQ13 B2
DQ2 B8DQ1 B9
DQ12 C1DQ11 C2
DQ4 C8DQ3 C9
DQ10 D1DQ9 D2
DQ6 D8DQ5 D9
DQ8 E1
NC E2
DQML E8
DQ7 E9
DQMH F1
CLKF2
CKEF3
CAS#F7
RAS#F8
WE#F9
NC/A12G1 A11G2
A9G3
BA0G7
BA1G8
CS#G9
A8H1 A7H2 A6H3
A0H7
A1H8
A10H9
A5J2 A4J3 A3J7 A2J8
U2A
M12L64164A
VSS A1
VSSQ A3VDDQA7
VDDA9
VDDQB3 VSSQ B7
VSSQ C3VDDQC7
VDDQD3 VSSQ D7
VSS E3VDDE7
VSS J1VDDJ9
U2B
M12L64164ASDRAM-D13/BA0SDRAM-D14/BA1
SDRAM-DQMLSDRAM-DQMH
SDRAM-AD0SDRAM-AD1SDRAM-AD2SDRAM-AD3SDRAM-AD4SDRAM-AD5SDRAM-AD6SDRAM-AD7SDRAM-AD8SDRAM-AD9
SDRAM-AD10SDRAM-AD11
SDRAM-D12SDRAM-D13/BA0SDRAM-D14/BA1
SDRAM-D15
SDRAM-AD0SDRAM-AD1SDRAM-AD2SDRAM-AD3SDRAM-AD4SDRAM-AD5SDRAM-AD6SDRAM-AD7SDRAM-AD8SDRAM-AD9SDRAM-AD10SDRAM-AD11
SDRAM-CLK
SDRAM-CKE
SDRAM-WE#SDRAM-CAS#SDRAM-RAS#SDRAM-CS#
VCC-3.3V
VCC-3.3V
C1
100nF
C2
100nF
C3
100nF
C4
10nF
C5
10nF
Figure 12-2: SDRAM connection schematic
Page 32
13. RF Transceiver
Figure 13-1:RF transceiver antenna
mikromedia 5 for Tiva™ board features nRF24L01P RF transceiver chip with 2.4 GHz chip antenna. It is suitable for wireless operation
in the world wide ISM frequency band at 2.400 - 2.4835 GHz with air data rate up to 2 Mbps. RF transceiver module is connected to the
microcontroller via the Serial Peripheral Interface (SPI). This RF transceiver module is widely used for wireless PC peripherals, remote
controllers, VoIP headsets, game controllers, sensors, home and commercial automation, active RFID, toys and many more.
Figure 13-2: RF transceiver module
Page 33
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
SPI1-SCK
SPI1-SCK
SPI1-MOSI
SPI1-MOSI
SPI1-MISO
SPI1-MISO
RF-CS#
RF-INT#RF-CE
VCC-3.3V
C122
100nF
VCC-3.3V
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uFC136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
R120
27
R119
27
R7722K
C8333nF
C9222pF
C9322pF
R82 1M
C862.2nF
C874.7pF
C84
1.5pF
C85N.M.
L58.2nH
L6 2.7nH
L4 3.9nH
RF-CS#
RF-INT#
R7910K
R8110K
RF-CE2345
6 7 1098
1
1112131415
1617181920
CECSNSCKMOSIMISO
IRQ
VDD
VSS
XC2
XC1
VDD_PAANT1ANT2VSSVDD
VSS
DVD
DVS
S
VDD
IREF
nRF24L01P
U16
X2
16MHz
VCC-RF
R7810K
C91
100nF
C89
100nF
C90
100nF
VCC-RF
C88
10uF
FP5
FERRITE
VCC-3.3V
R80 27
A1 W3008C
Figure 13-3: RF transceiver module connection schematic
Page 34
Figure 14-1: Ethernet RJ-45 connector
14. Ethernet
The development board features an Ethernet controller which is integrated in TM4C129L(X)NCZAD microcontroller. It is ideal for
local area networking (LAN). If you want to establish connection with computer, router or other devices, the development board also
contains standard RJ-45 connector. Communication over Ethernet is based on data packets called frames. Each frame contains source
and destination addresses and error-checking data so that damaged data can be detected and retransmitted. Signalization LEDs are
provided on the opposite side of the board.
Page 35
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
LAN-TX_PLAN-TX_NLAN-RX_PLAN-RX_N
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
LAN-LED0LAN-LED2
LAN-LED1
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
R83
49.9
R84
49.9
R85
49.9
R86
49.9
FP6
C96100nF
C97100nF
VCC-3.3V
LAN-RX_P
LAN-RX_N
LAN-TX_P
LAN-TX_N
LAN-LED1LAN-LED2
C95100nF
C94100nF
R93330
R94330
TO+1
TBO2
TO-3
RO+6
RBO7
RO-8
TI+ 16
TPI 15
TI- 14
RI+ 11
RBI 10
RI- 9
T2
LP1188NLE
A11
K12
A23
K24 A3 5K3 6A4 7K4 8U17
SLVU2.8-4
RJ45-TX_P
RJ45-TX_N
RJ45-RX_N
RJ45-RX_P
R8875
C991000pF 1210
RJ45-GND
R91 1M
120
6
RJ45-GND
C98
4700
pF 1
812
LAN-LED0
R92330
LD6LD5
LIN
K
AC
TIV
ITY
SPE
ED
R8775
R9075
R8975
LD7
TX+1
TX-2
RX+3
T1A4
T1B5
RX-6
T2A7
T2B8
S
CN7 LPJE8801DNL
Figure 14-2: Ethernet module schematic
Page 36
Figure 15-1: Buzzer module
15. Buzzer
The board is also equipped with SPT-1325A piezo buzzer. It is an electric component which can be used to create sound when is
provided with electrical signal. This is usually a PWM signal coming from a microcontroller pin. Frequency of the signal determines
the pitch of the sound and duty cycle of the signal can be used to increase or decrease the volume. Piezo buzzer is connected to the
microcontroller pin N18.
Page 37Page 36
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
R711K
VCC-5V
1
23
R1
R2
Q7PDTC114EU
PZ1SPT-1325A
Figure 15-2: Buzzer module connection schematic
Page 38
Figure 16-1:2.4GHz ceramic chip
antenna
Figure 16-2: Wi-Fi 802.11b/g network
porocessor
16. WiFi
mikromedia 5 for Tiva™ board features CC3000 - Wi-Fi 802.11 b/g network processor chip and 2.4 GHz ceramic chip antenna. With
integrated IPv4 TCP/IP stack and many built-in network protocols it simplifies the implementation of internet connectivity and minimizes
the software requirements of the host microcontroller. It also contains integrated EEPROM which stores firmware patch, network
configuration, MAC address and 5 KB of user data. Wi-Fi module is connected to the microcontroller via the Serial Peripheral Interface (SPI).
Page 39
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
WIFI-CS#SPI1-SCK
SPI1
-SCK
SPI1-MOSI
SPI1
-MO
SI
SPI1-MISO
WIFI-INT#
WIFI-PWR
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C128
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
±1%
R1214K87
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
R120 27R119 27
27
27
GND1
RSVD_12
NC3
RSVD_24
WL_EN25
WL_RS232_TX6
WL_EN17
WL_RS232_RX8
GND9
GND10
GN
D11
SPI_
CS12
SPI_
DO
UT
13
SPI_
IRQ
14
SPI_
DIN
15
GN
D16
SPI_
CLK
17
GN
D18
VBAT_IN 19GND 20EXT_32K 21GND 22VIO_HOST 23RSVD_3 24GND 25VBAT_SW_EN 26SDA_EE 27SDA_CC 28
SCL_
EE29
SCL_
CC30
GN
D31
GN
D32
GN
D33
GN
D34
RF_
ANT
35G
ND
36 U24CC3000MOD
WIF
I-CS
#
WIF
I-IN
T#
VCC-3.3V
WIFI-PWR
C11510pF
C114
2.2pFL7N.M.
L82.2nH
C117
1uF
C116
100nF
FP8
VCC-WIFI
VCC-WIFI
WIF
I-AN
T
R114
27
R112 10KR113 10K
VCC-3.3V
A22450AT45A100
SPI1
-MIS
O
Figure 16-3: WiFi connection schematic
Page 40
17. Other Modules
The board also contains other useful peripherals such as 01 PIN photodiode, 02 RGB led diode, 03 IR receiver and 04 analog
temperature sensor. PIN photodiode is a type of photo detector. It is high sensitive and fast responsive. It is connected to the
microcontroller analog pin A8. IR receiver is used in infrared remote control systems. The demodulated output signal obtained from IR
module can be directly decoded by microcontroller. Many of standard data formats are supported. RGB (Red, Green, Blue) diode can
be used as a light indicator. Each color is driven separately by the transistor. The analog temperature sensor converts temperature
to analog voltage. It is directly connected to the microcontroller K1 analog pin. Temperature measurement range of mikromedia 5 for
Tiva™ board is from -20° C to 70° C.
01
02 03
04
Page 41
X425MHz
C11922pF
C11822pF
X532.768KHz
C12010pF
C12110pF
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
PQ0E3
PQ1E2
PQ2H4
PQ3M4
PQ4A13
PQ5W12
PQ6U15
PQ7M3
PR0 N5
PR1 N4
PR2 N2
PR3 V8
PR4 P3
PR5 P2
PR6 W9
PR7 R10
PS0 D12
PS1 D13
PS2 B14
PS3 A14
PS4 V9
PS5 T13
PS6 U10
PS7 R13
PT0 W10
PT1 V10
PT2 E18
PT3 F17
POR
T Q
POR
T R
POR
T S
POR
T N
PN0C10
PN1B11
PN2A11
PN3B10
PN4A10
PN5B9
PN6T12
PN7U12
PP0D6
PP1D7
PP2B13
PP3C12
PP4D8
PP5B12
PP6B8
PP7A8
POR
T P
POR
T T
U1D
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADC
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
MISC-LED-RMISC-LED-GMISC-IR-RXMISC-LED-B
MISC-TEMP
MISC-PD
±1%
R1214K87
1
23
R1
R2
Q4PDTC114EU
1
23
R1
R2
Q5PDTC114EU
1
23
R1
R2
Q6PDTC114EU
R682K2
R693K3
R702K2
VCC-5V VCC-5V VCC-5V
MIS
C-LE
D_R
MIS
C-LE
D_G
MIS
C-LE
D_B
LD3 LD3 LD3
LD4PD15
12
3
84
U3ALM358
R74
27K4VCC-3.3V
MISC-PD5
67
U3BLM358
C82100nF
VCC-3.3V
R73
100K
R751M
C79100nF
R76
150K
VCC-3.3V
MISC-IR_RX
C764.7uF
4321
U14
TSOP6238
1
23VDD
VOUTGND
U15
MCP9700A
VCC-3.3V
C78100nF
MISC-TEMP
C77100nF
R72
100
Figure 17-1: Other modules connection schematic
Page 42
Many microcontroller pins are available for further connectivity via two 1x26 rows of connection pads on both sides of the board
18. Pads Analog lines SPI CAN PWM InterruptI2CUART
RST3.3V
PL4
R
PL5PM4
R
PM5PF2
L
L
PF3PQ1PQ0
VDC
PQ3PQ2PK6PK7PH6PH7PJ0PJ1
PB6PB7GND
27.28.
33.
30.
34.35.
32.
36.37.
29.
31.
38.39.40.
52.
41.42.43.44.45.46.47.48.49.50.51.
Reset pin3.3V pwr.Audio out
Audio in
PWM Lines
SPI3
I2C4 Lines
UART5 Lines
UART3 Lines
I2C6
Ref. Ground5-12V Input
5VGND
PD1
PE2
PD0PE7
PE0
PP4PP0
PE3
PE1
PP1PG6PG7
GND
PG4PG5PQ4PQ5PAOPA1NCNCNCNC3.3V
1.2.
7.
4.
8.9.
6.
10.11.
3.
5.
12.13.14.
26.
15.16.17.18.19.20.21.22.23.24.25.
5V powerRef. Ground
Analog lines
Interrupt lines
SPI2
CAN
UART1
3.3V powerRef. Ground
Page 43
X425MHzC119
22pF
C11822pF
X532.768KHz
C12010pF
C12110pF
BAT13000TR
PJ0C8
PJ1E7
PJ2H17
PJ3F16
PJ4F18
PJ5E17
PJ6N1
PJ7K5
PK0 J1
PK1 J2
PK2 K1
PK3 K2
PK4 U19
PK5 V17
PK6 V16
PK7 W16
PL0 G16
PL1 H19
PL2 G18
PL3 J18
PL4 H18
PL5 G19
PL6 C18
PL7 B18
PM0 K18
PM1 K19
PM2 L18
PM3 L19
PM4 M18
PM5 G15
PM6 N19
PM7 N18
POR
T J
POR
T K
POR
T L
POR
T M
PG0N15
PG1T14
PG2V11
PG3M16
PG4K17
PG5K15
PG6V12
PG7U14
PH0P4
PH1R2
PH2R1
PH3T1
PH4R3
PH5T2
PH6U2
PH7V2
POR
T G
POR
T H
U1C
TM4C129LNCZAD
EN0RXINV13 EN0RXIPW13 EN0TXONV14 EN0TXOPV15
GNDX R18
GNDX2 D18HIBM17
NC C5
NC E13
NC V18
NC V19
NC W18
NC W19
OSC0 E19
OSC1 D19
RBIASW15
RSTP18
VBATP19 WAKEU18
XOSC0 T18
XOSC1 T19
SYST
EM
U1A
TM4C129LNCZAD
PA0V3
PA1W3
PA2T6
PA3U5
PA4V4
PA5W4
PA6V5
PA7R7
PB0A16
PB1B16
PB2A17
PB3B17
PB4C6
PB5B6
PB6F2
PB7F1
PC0B15
PC1C15
PC2D14
PC3C14
PC4M2
PC5M1
PC6L2
PC7K3
PD0 C2
PD1 C1
PD2 D2
PD3 D1
PD4 A4
PD5 B4
PD6 B3
PD7 B2
PE0 H3
PE1 H2
PE2 G1
PE3 G2
PE4 A5
PE5 B5
PE6 A7
PE7 B7
PF0 U6
PF1 V6
PF2 W6
PF3 T7
PF4 V7
PF5 W7
PF6 T8
PF7 U8
POR
T A
POR
T B
POR
T C
POR
T D
POR
T E
POR
T F
U1B
TM4C129LNCZAD
PQ0E3
PQ1E2
PQ2H4
PQ3M4
PQ4A13
PQ5W12
PQ6U15
PQ7M3
PR0 N5
PR1 N4
PR2 N2
PR3 V8
PR4 P3
PR5 P2
PR6 W9
PR7 R10
PS0 D12
PS1 D13
PS2 B14
PS3 A14
PS4 V9
PS5 T13
PS6 U10
PS7 R13
PT0 W10
PT1 V10
PT2 E18
PT3 F17
POR
T Q
POR
T R
POR
T S
POR
T N
PN0C10
PN1B11
PN2A11
PN3B10
PN4A10
PN5B9
PN6T12
PN7U12
PP0D6
PP1D7
PP2B13
PP3C12
PP4D8
PP5B12
PP6B8
PP7A8
POR
T P
POR
T T
U1D
TM4C129LNCZAD
RST#
XOSC0
XOSC1
OSC1
OSC0
GNDX
GNDX2
CAN-RXCAN-TX
HDR-AN5HDR-AN4
HDR-AN3HDR-AN2HDR-AN1HDR-AN0
HDR-INT0
SPI2-MISO
SPI2-MISO
SPI2-MOSI
SPI2-MOSI
SPI2-CS#
SPI2-CS#
SPI2-SCK
SPI2-SCK
UART5-RXUART5-TX
UART5-RXUART5-TX
UART3-RXUART3-TX
UART3-RXUART3-TX
I2C4-SCLI2C4-SDA
I2C4-SCLI2C4-SDA
HDR-PWM0HDR-PWM1
HDR-PWM2HDR-PWM3
HDR-PWM4HDR-PWM5
HDR-INT1
HDR-INT2HDR-INT3
I2C2-SCLI2C2-SDA
I2C2-SCLI2C2-SDA
SPI3-SCK
SPI3-SCK
SPI3-CS#
SPI3-CS#
SPI3-MOSISPI3-MISO
SPI3-MOSISPI3-MISO
UART1-RXUART1-TX
UART1-RXUART1-TX
VCC-3.3V
C122
100nF
C123
100nF
C124
100nF
C125
100nF
C126
100nF
C127
100nF
C140
1uF
C136
1uF
C137
2.2uF
VCC-CORE
C135
100nF
C134
10nF
C142
10nF
C128
100nF
C138
100nF
VREF
C139
10nF
FP9VCC-ADC VCC-3.3V
C141
100nF
C129
100nF
C130
100nF
C131
100nF
C132
10nF
C133
10nF
±1%
R1214K87
R1154K87
R1164K87
VCC-3.3V
GNDA1
GNDA2
GNDA18
GNDA19
GNDB1
GNDB19
GNDF10
GNDH10
GNDH11
GNDH12
GNDJ11
GNDJ12
GNDK6
GNDK9
GNDK10
GNDK13
GNDK14
GNDL8
GNDL9
GNDM8
GNDM9
GNDM10
GNDN10
GNDP16
GNDR17
GNDV1
GNDW1
GNDW2 GNDA G4
VDD G10
VDD H9
VDD J8
VDD J9
VDD J10
VDD K7
VDD K8
VDD K11
VDD K12
VDD L10
VDD L11
VDD L12
VDD M11
VDD M12
VDD N16
VDD P10
VDD P17
VDDA F3
VDDC E10
VDDC H16
VREFA- G5VREFA+ F4
POW
ER
U1E
TM4C129LNCZAD
VCC-3.3V
VCC-CORE
VREF
VCC-ADCVCC-3.3V
Vdc
VCC-5V
RST#
HDR-LN_OUT_LHDR-LN_OUT_R
HDR-LN_IN_RHDR-LN_IN_L
HDR1
M1X26
HDR2
M1X26
1234567891011121314151617181920212223242526
2728293031323334353637383940414243444546474849505152
VCC-3.3V
CAN_RXCAN_TX
HDR-AN0HDR-AN1HDR-AN2HDR-AN3HDR-AN4HDR-AN5
HDR-PWM0HDR-PWM1HDR-PWM2HDR-PWM3
HDR-INT0HDR-INT1HDR-INT2HDR-INT3
HDR-PWM4HDR-PWM5
MP3HDR-LN_OUT_LHDR-LN_OUT_R
HDR-LN_IN_RHDR-LN_IN_L
LINE-OUT_LLINE-OUT_RLINE-IN_LLINE-IN_R
Figure 18-1: Connecting pads schematic
Page 44
19. Dimensions5318.66135.1
5003.7127
465.7111.6
362.29.2
397.910.1
1361.334.6
260066
934.8423.7
3411
.42
86.6
3096
.45
78.6
702.24
17.8
3067.8
3719.4
956.9824.3
457.311.6
70017.8
48012.2
631.6
1574
697.317.7
400
10.2
1020
25.913
6834
.71628
41.3
487.32
12.4
755
19.2
Legend
Tolerance +/-0.5mm
mmmils
Page 45
20. What’s next?
You still don’t have an appropriate compiler? Locate ARM® compiler that suits you best
on our website:
Choose between mikroC™, mikroBasic™ and mikroPascal™ and download fully functional
demo version, so you can start 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 МikroElektronika 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 link bellow:
You have now completed the journey through each and every feature of mikromedia 5 for Тiva™ 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
http://www.mikroe.com/compilers/arm/
http://www.mikroe.com/visualtft/
Page 46
Notes:
Page 47
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™ 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, 2013, 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/support/
If you have any questions, comments or business proposals,
do not hesitate to contact us at [email protected]
mikromedia 5 for TIVATM
Manual
ver. 1.02
0 100000 025109