Mikromedia 5 Tiva Manual

Mikromedia 5 Tiva Manual

mikromedia

5

for Tiva

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

TO OUR VALUED CUSTOMERS

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.

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.

Page 2

Table of Contents

Introduction to mikromedia 5 for Tiva

System Specification

Package Contains

1. Power Supply

2. TM4C129L(X)NCZAD microcontroller

Key microcontroller features

3. Programming the microcontroller

On-board mikroProg

for Tiva

®

programmer

mikroProg Suite

for ARM

®

software

Software installation wizard

4. RTC Battery and Reset Button

5. Crystal Oscillators and 2.048 V Reference

6. microSD Card Slot

7. Touch Screen

12

13

14

16

18

20

9

10

8

8

5

6

4

4

8. Audio Module

9. USB DEVICE connection

10. USB HOST connection

11. Accelerometer

12. SDRAM

13. RF Transceiver

14. Ethernet

15. Buzzer

16. WiFi

17. Other Modules

18. Pads

19. Dimensions

20. What’s next?

Page 3

30

32

34

36

22

24

26

28

38

40

42

44

45

Introduction to mikromedia 5 for Tiva

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.

System Specification

power 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 4

Package Contains

01

Damage resistant protective box

mikromedia

5 for Tiva

Amazingly compact, all-on-single-pcb development board carring 5’’ TFT

Touch Screen and lots of multimedia peripherals, all driven by powerful

TM4C129LNCZAD

04 mikromedia 5 for Tiva

™ user’s guide

02 mikromedia 5 for Tiva

™ development board

SCHEMATICS

mikromedia

5 for Tiva

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.

05 mikromedia 5 for Tiva

™ schematic

Page 5

03

Roll USB cable, roll ethernet cable and headers

06

Distancers, plastic pen and microSD card

1. Power Supply

Figure 1-1:

ICDI USB power supply

Figure 1-2:

USB power supply

Figure 1-3:

Battery power supply

Figure 1-4: Adapter connector 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 6

USB-PSW#

VCC-5V

VCC-3.3V

R2

10K

4

5

E1

10uF

U5

EN OC

GND

IN OUT

TPS2041B

3

2

1

VCC-3.3V

R3

10K

USB-VBUS_ER#

C6

100nF

D1

PMEG3010ER

USB-VBUS_ER#

USB-PSW#

USB-VBUS

USB-D_N

USB-D_P

USB-ID

Vusb_OUT

R5

10K

CN2 Vusb_IN

FP1

VBUS

D-

ID

GND

3

4

1

2

5

USB MINIB

R10

1M

USB-D_N

USB-D_P

USB-ID

R8

1K

USB-VBUS

E2

10uF

E3

10uF

M1

DMP2305U

Vbat_IN

D6

ESDA5V3L

D7

ESDA5V3L

USB-VBUS_ER#

USB-PSW#

USB-VBUS

USB-D_N

USB-D_P

USB-ID

Vdc

CN1

PJ-002AH-SMT

R9

10K

1

2

3

1

Q1

PDTC114EU

VCC-3.3V

R1

10K

D2

B340A

D5

R1

B340A

R12

100K

M2

DMP2305U

R14

100K

BAT-VSENSE

R18

100K

C28

100nF

BAT-VSENSE

R2

Vusb-ICDI

D3

PMEG3010ER

V_INPUT

VIN

SW1

DC-VBUS#

JS202011AQN

VIN

PWR-EN

VIN

PWR-EN

R13

100K

DC-VBUS#

C25

22uF

C7

22uF

R123

0

1

2

3

4

5

U6

L1

VIN

EN

PS

PG

PGND

L2

VOUT

FB

GND

VAUX

TPS63060

R122

0

VIN

8

7

10

9

6

1

2

3

4

5

U7

L1 1.5uH

L2 1.5uH

L1

VIN

EN

PS

PG

PGND

L2

VOUT

FB

GND

VAUX

TPS63060

8

7

10

9

6

C26

100nF

VCC-5V Vbat_IN VCC-3.3V

VCC-3.3V

V_INPUT

R24

10K

V_INPUT

R25

10K

R23

1K

M3

DMP2305U

Vbat_IN

R30

1

10K

Q2

PDTC114EU

R1

R2

1

Q3

PDTC114EU

R1

R2

R28

10K

M4

DMG3420U

C31

2.2uF

3

4

1

2

5

U9

CHG_IN

USBpwr

GND

USB_sel

EN_b

PGND

BATT

Ts

Iset

STAT1

STAT2

LM3658SD-A R32

10K

8

7

6

10

9

CHARGING CURRENT IS 250mA

R33

10K

R26

10K

BAT-STAT1

BAT-STAT2

R27

10K

R34

1K

R29

560

LD2

CHARGE

M5

DMG3420U

Figure 1-5: Power supply schematic

Page 7

VCC-3.3V

C29

2.2uF

1

2

3

U8

IN

GND

OUT

EN ADJ

AP7331-ADJ

5

4

R20

100K

R21 R22

27K4 1K

E4

VCC-1.8V

10uF

VCC-5V

R4

100K

R6

1K

R7

10K

C16

10pF

C8

22uF

C9

22uF

C10

22uF

C11

1uF

C12 C13

100nF 10nF

C14

100pF

R15

12K

R16

VCC-3.3V

R11

100K

C27

10pF

C18

22uF

C19

22uF

C20

22uF

C21

1uF

C22 C23

100nF 10nF

C24

100pF

R17

470

LD1

POWER

Vusb-ICDI

FP7

3

4

1

2

5

CN9

R111

1M

VBUS

D-

D+

ID

GND

USB MINIB

2. TM4C129L(X)NCZAD microcontroller

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

- 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, 10xI

2

C, 2xCAN, 2xADC, USB, Ethernet etc.

Cortex M4F

TM4C129 (120MHz)

JTAG

NVIC

SWD

MPU

ETM

FPU

System periphery

AES

CRC

DES

GPIO3(140)

TFT LED controller

8 GP timers

Hibernation

Module

DMA

SHA/MD5

TFT LED controller

External

Peripheral

Interface

2 Watchdog

Timer

1024 KB

Flash

256 KB

SRAM

ROM

6 KB

EEPROM

Analog

LDO Voltage

Regulator

3 Analog

Comparators

2x12-bit ADC

Up to 24 channels

Temp Sensor

Serial periphery

8 UART

4 SSI

10 I2C

2 CAN

USB OTG

(FS PHY or ULPI)

Ethernet

MAC/PHY

Motion control

PWM

(1 unit/8 signals)

QE1

(1 unit)

Page 8

3. Programming the microcontroller

Figure 3-1:

TM4C129L(X)NCZAD microcontroller

The microcontroller can be programmed in two ways:

01

02

Using on-board mikroProg

for Tiva

®

programmer

Using external programmers

Page 9

On-board mikroProg

for Tiva

®

programmer

Figure 3-2:

On-board mikroProg

programmer

Figure 3-3:

External 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.

Page 10

VCC-3.3V

VCC-5V

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3

V

C142

10nF

VREF

C138

100nF

C139

10nF

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VCC-3.3V

LD8

VCC-5V

LD9

R99

1K

R100

1K

ICDI-LED-DATA

ICDI-LED-ACTIVE

ICDI

VCC-5V VCC-3.3V

C108

100nF

C109

100nF

C110 C111

100nF 100nF

VCC-3.3V

C102

100nF

C103

100nF

C104

100nF

EXT-PROG#

JTAG-TMS

JTAG-TCK

JTAG-TDO

JTAG-TDI

RST#

TRACE-RX

TRACE-TX

ICDI-VBUS

ICDI-USB_N

ICDI-USB_P

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

VCC-3.3V

R106

100K

5

7

1

3

9

CN8

6

8

2

4

10

JTAG-TMS

JTAG-TCK

JTAG-TDO

JTAG-TDI

RST#

D9

Vusb-ICDI

R108

4K87 ±1% FP7

3

4

1

2

5

R109

10K

E10

10uF

ICDI-VBUS

CN9

R111

1M

VBUS

D-

D+

ID

GND

USB MINIB

C113

3.3nF

JTAG-TCK

JTAG-TMS

JTAG-TDI

JTAG-TDO

A16

B16

A17

B17

C6

B6

F2

F1

V3

W3

T6

U5

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

U6

V6

W6

T7

V7

W7

T8

U8

A5

B5

A7

B7

H3

H2

G1

G2

A4

B4

B3

B2

C2

C1

D2

D1

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

R3

T2

U2

V2

P4

R2

R1

T1

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

K18

K19

L18

L19

M18

G15

N19

N18

G16

H19

G18

J18

H18

G19

C18

B18

J1

J2

K1

K2

U19

V17

V16

W16

TRACE-RX

TRACE-TX

ICDI-VBUS

C10

B11

A11

B10

A10

B9

T12

U12

PN0

PN1

PN2

PN3

PN4

PN5

PN6

PN7

D6

D7

B13

C12

D8

B12

B8

A8

PP0

PP1

PP2

PP3

PP4

PP5

PP6

PP7

E3

E2

H4

M4

A13

W12

U15

M3

PQ0

PQ1

PQ2

PQ3

PQ4

PQ5

PQ6

PQ7

TM4C129LNCZAD

PT0

PT1

PT2

PT3

PS0

PS1

PS2

PS3

PS4

PS5

PS6

PS7

PR0

PR1

PR2

PR3

PR4

PR5

PR6

PR7

D12

D13

B14

A14

V9

T13

U10

R13

N5

N4

N2

V8

P3

P2

W9

R10

W10

V10

E18

F17

R121

RST# P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

OSC0

E19

D18

D19

GNDX2

C5

E13

V18

V19

W18

W19

OSC1

XOSC0

T18

R18

T19

GNDX

XOSC1

Figure 3-4: Programmer connection schematic

Page 11

C118

22pF

C119

22pF

C120

10pF

C121

10pF

X4

25MHz

X5

32.768KHz

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

F4

G5

E10

H16

F3

G4

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

VREF

VCC-CORE

VCC-ADC

mikroProg Suite

for ARM

® software

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:

http://www.mikroe.com/mikroprog/tiva/

After downloading, extract the package and double click the executable setup file to start installation.

Quick Guide

01

Click the

Detect MCU

button in order to recognize the device ID.

02

Click the

Read

button to read the entire microcontroller memory. You can click the

Save

button to save it to the target HEX file.

03

04

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.

Page 12

Software installation wizard

01

Start Installation

02

Accept EULA and continue

03

Install for all users

04

Choose destination folder

05

Installation in progress

Page 13

06

Finish installation

4. RTC Battery and Reset Button

Reset Button

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 externally provided through the

pin 27 on the side headers.

RTC Battery

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.

Page 14

VCC-3.3V

R66

10K

R67

U1A

330

P18

M17

U18

P19

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

E19

D18

D19

T1

RESET

C75

100nF NC

NC

NC

NC

NC

NC

C5

E13

V18

V19

W18

W19

39

40

41

42

43

35

36

37

38

27

28

29

30

31

32

33

34

48

49

50

51

52

44

45

46

47

VCC-3.3V

HDR2

RST#

Vdc

VCC-3.3V

C122

100nF

C123

100nF

VCC-CORE

C134

10nF

M1X26

R121

C124

100nF

C135

100nF

C125

100nF

C136

1uF

V15

V14

W13

V13

W15

BAT1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

3000TR

C126

100nF

C137

2.2uF

C127

100nF

VREF

C138

100nF

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

C128

100nF

T18

R18

T19

C129

100nF

VCC-ADC

C139

10nF

C140

1uF

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C130

100nF

C141

100nF

C131

100nF

C118

22pF

C119

22pF

C120

10pF

C121

10pF

FP9

C142

10nF

C132

10nF

X4

25MHz

X5

32.768KHz

VCC-3.3V

C133

10nF

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H10

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

TM4C129LNCZAD

VDDC

VDDC

VDDA

GNDA

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K11

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

Figure 4-1: Reset button and RTC battery connection schematic

Page 15

5. Crystal Oscillators and 2.048 V Reference

02

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 USBbased 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

.

01 02 03

01

03

Figure 5-1: Crystal oscillators and 2.048 V reference

Page 16

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VCC-CORE

VCC-ADC

C80

100nF

VCC-3.3V

1

2

C81

1uF

MAX6106EUR+

IN

GND

OUT

3

REF1

R121

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

BAT1

3000TR

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

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

OSC0

GNDX2

OSC1

C118

22pF

C119

22pF

X4

25MHz

XOSC0

GNDX

XOSC1

C120

10pF

C121

10pF

X5

32.768KHz

Figure 5-2: Crystal oscillators and voltage reference connection schematic

Page 17

6. microSD Card Slot

01

02

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.

Page 18

Figure 6-1: microSD Card Slot

VCC-MMC

SD-CS#

SPI0-MOSI

SPI0-SCK

SPI0-MISO

SD-CD#

R65

27

CN6

4

5

1

2

6

7

CS

DIN

+3.3V

SCK

GND

DOUT

CD

VCC-3.3V

FP4

FERRITE

VCC-MMC

C73

22uF

C74

100nF

SPI0-SCK

SD-CS#

SPI0-MOSI

SPI0-MISO

VCC-3.3V

R117

R118

V3

W3

27

T6

U5

27

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

A16

B16

A17

B17

C6

B6

F2

F1

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

C122

100nF

C123

100nF

C124

100nF

C125

100nF

C126

100nF

A4

B4

B3

B2

C2

C1

D2

D1

V7

W7

T8

U8

U6

V6

W6

T7

A5

B5

A7

B7

H3

H2

G1

G2

SD-CD#

C127

100nF

C128

100nF

R121

4K87

±1%

P18

M17

U18

P19

U1A

RST

HIB

WAKE

VBAT

V15

V14

W13

V13

W15

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

BAT1

3000TR

C129

100nF

C130

100nF

C131

100nF

C132

10nF

C133

10nF

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C118

22pF

C119

22pF

C120

10pF

C121

10pF

X4

25MHz

X5

32.768KHz

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

TM4C129LNCZAD

VDDC

VDDC

VDDA

GNDA

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

Figure 6-2: microSD Card Slot module connection schematic

Page 19

7. Touch Screen

Page 20

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

TFT1

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

VCC-3.3V

CN5

3 4 5 6 7 8 9

VCC-5V

FP2

C59

10uF

L3 10uH

5

U11

VIN SW

GND

4

EN FB

R58

TPS61041

10K

1

2

3

D8

PMEG3010ER

DZ1

MMSZ5246B

C58

100nF

VLED+

VLED-

R56

34

R57

0R

16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 37 38 39 40

HT050AWV40T

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

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

VCCA-TP

C70

10uF

C71

1uF

FP3

C72

100nF

VCC-1.8V

VCC-3.3V

C68

1uF

C69

100nF

VCC-3.3V

E9

10uF

C56

100nF

C57

1uF

SPI1-MISO

J2

1

2

3

I2C2-SDA

SPI1-SCK

J3

1

2

3

I2C2-SCL

SPI1-MOSI

J4

1

2

3

VCC-3.3V

C60

100nF

C61

1uF

TP-SDO/SDA

TP-SCLK/SCL

TP-SDI/AD1

TP-INT#

TP-RST#

VCC-3.3V

R60 10K

U13

3

4

1

2

5

SDO/SDA

SCLK/SCL

AD1

RESET

TSC2006

PINTDAV

SUBGND

Y+

X+

SNSVDD

VREF

15

14

13

12

11

TP-Y_B

TP-X_R

VCCA-TP

TP-X_R

TP-X_L

TP-Y_ B

TP-Y_T

C64

2.2nF

C65

2.2nF

C66

2.2nF

VCC-3.3V

SPI1-SCK

R120 27

A16

B16

A17

B17

C6

B6

F2

F1

V3

W3

T6

U5

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

A4

B4

B3

B2

C2

C1

D2

D1

U6

V6

W6

T7

V7

W7

T8

U8

A5

B5

A7

B7

H3

H2

G1

G2

R119 27

SPI1-MOSI

SPI1-MISO

LCD-B5

LCD-R6

LCD-R7

LCD-B2

LCD-R2

LCD-DE

TP-CS#

R3

T2

U2

V2

P4

R2

R1

T1

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

G16

H19

G18

J18

H18

G19

C18

B18

J1

J2

K1

K2

U19

V17

V16

W16

K18

K19

L18

L19

M18

G15

N19

N18

LCD-PWM

R116

4K87

LCD-R5

LCD-R4

R115

4K87

I2C2-SCL

I2C2-SDA

D6

D7

B13

C12

D8

B12

B8

A8

C10

B11

A11

B10

A10

B9

T12

U12

U1D

PN0

PN1

PN2

PN3

PN4

PN5

PN6

PN7

PP0

PP1

PP2

PP3

PP4

PP5

PP6

PP7

E3

E2

H4

M4

A13

W12

U15

M3

PQ0

PQ1

PQ2

PQ3

PQ4

PQ5

PQ6

PQ7

TM4C129LNCZAD

PT0

PT1

PT2

PT3

PS0

PS1

PS2

PS3

PS4

PS5

PS6

PS7

PR0

PR1

PR2

PR3

PR4

PR5

PR6

PR7

D12

D13

B14

A14

V9

T13

U10

R13

N5

N4

N2

V8

P3

P2

W9

R10

W10

V10

E18

F17

Figure 7-2: Touch Screen connection schematic

Page 21

LCD-DCLK

LCD-VSYNC

LCD-HSYNC

LCD-B6

LCD-B3

LCD-B4

LCD-B7

LCD-G2

LCD-R1

LCD-B0

LCD-G0

LCD-R0

LCD-G3

LCD-G4

LCD-G5

LCD-G6

LCD-G7

LCD-R3

LCD-B1

LCD-G1

RST#

TP-INT#

R121

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C118

22pF

C119

22pF

X4

25MHz

C120

10pF

C121

10pF

X5

32.768KHz

8. Audio Module

Figure 8-1:

On-board

VS1053

MP3 codec

02

03 01 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.

Page 22

C39

100nF

MIC/LN-IN_L

MICN

MP3-RST#

MP3-DREQ

R49

10K

VCC-3.3V

1

6

7

4

5

2

3

8

9

10

11

12

MICP/LN1

MICN

XRESET

DGND0

CVDD0

IOVDD0

CVDD1

DREQ

GPIO2

GPIO3

GPIO6

GPIO7

C34 1uF

VS1053

U10

GPIO4

GND

GPIO1

GPIO0

XTEST

CVDD3

SO

SI

SCLK

TX

RX

GPIO5

36

35

34

33

32

31

30

29

28

27

26

25

VCC-1.8V

VCC-3.3V

R45

10K

R50 27

SPI0-MISO

SPI0-MOSI

SPI0-SCK

VCC-3.3V

R35

470

R37

470

E5 10uF

LINE-OUT_L

C32

3.3nF

R36

100K

E6

C33

3.3nF

10uF

LINE-OUT_R

R38

100K

MICP

GBUF

C35 100nF

RIGHT

R41

LEFT

R42

R46

10

C36

47nF

10

10

R43

10

R47

10

C37

10nF

R44

10

R48

10

C38

10nF

E7

10uF

VCC-3.3V

R39

1K

R40

1K

1

4

3

CN4

2

CUI_SJ-43514-SMT

R53

10K

J1

1

2

3

MICP

MIC/LN-IN_L

LN-IN_L

LN-IN_R

LN-IN_L

C42

10nF

R51

470

C40

1uF

LINE-IN_R

R52

470

C43

10nF

C41

1uF

LINE-IN_L

VREF

C138

100nF

C139

10nF

13 14

R54

10K

R121

4K87

±1%

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

OSC0

E19

D18

D19

GNDX2

C5

E13

V18

V19

W18

W19

OSC1

XOSC0

T18

R18

T19

GNDX

XOSC1

C118

22pF

C119

22pF

X4

25MHz

C120

10pF

C121

10pF

R55

X1

1M

12.288MHz

C44

22pF

C45

22pF

X5

32.768KHz

44

45

46

47

40

41

42

43

36

37

38

39

32

33

34

35

28

29

30

31

VCC-3.3V

HDR2

27

LINE_OUT_L

LINE_OUT_R

LINE_IN_L

LINE_IN_R

48

49

50

51

52

M1X26

Vdc

SPI0-SCK R117

SPI0-MOSI

SPI0-MISO

R118

A16

B16

A17

B17

C6

B6

F2

F1

V3

W3

27 T6

U5

27

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

V7

W7

T8

U8

U6

V6

W6

T7

C2

C1

D2

D1

A4

B4

B3

B2

H3

H2

G1

G2

A5

B5

R119

A7

B7

MP3-CS#

MP3-DREQ

MP3-RST#

MP3-DCS

D6

D7

B13

C12

D8

B12

B8

A8

C10

B11

A11

B10

A10

B9

T12

U12

U1D

PN0

PN1

PN2

PN3

PN4

PN5

PN6

PN7

PP0

PP1

PP2

PP3

PP4

PP5

PP6

PP7

A13

W12

U15

M3

E3

E2

H4

M4

PQ0

PQ1

PQ2

PQ3

PQ4

PQ5

PQ6

PQ7

TM4C129LNCZAD

PT0

PT1

PT2

PT3

PS0

PS1

PS2

PS3

PS4

PS5

PS6

PS7

PR0

PR1

PR2

PR3

PR4

PR5

PR6

PR7

W10

V10

E18

F17

N5

N4

N2

V8

P3

P2

W9

R10

D12

D13

B14

A14

V9

T13

U10

R13

Figure 8-2: Audio module connection schematic

Page 23

VCC-1.8V

C52

100nF

C53

100nF

C54

100nF

C55

100nF

VCC-3.3V

E8

10uF

C46

100nF

C47

100nF

C48

100nF

C49

100nF

C50

100nF

C51

100nF

VCC-3.3V

C122

100nF

C123

100nF

C124

100nF

C125

100nF

C126

100nF

C127

100nF

C128

100nF

VCC-3.3V

C129

100nF

C130

100nF

C131

100nF

C132

10nF

C133

10nF

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

L9

M8

M9

M10

N10

P16

R17

K10

K13

K14

L8

J11

J12

K6

K9

A1

A2

A18

A19

B1

B19

F10

H10

H11

H12

V1

W1

W2

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

TM4C129LNCZAD

VDDC

VDDC

VDDA

GNDA

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

K12

L10

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

9. USB DEVICE connection

01

02

Figure 9-1: Connecting

USB cable to MINI-B

USB connector

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.

Page 24

CN2

USB MINIB

R10

1M

VBUS

D-

D+

ID

GND

3

4

1

2

5

FP1

C17

3.3nF

D6

ESDA5V3L

Vusb_IN

R8

1K

D7

USB-D_N

USB-D_P

USB-ID

USB-VBUS

ESDA5V3L

P18

M17

U18

P19

U1A

RST

HIB

WAKE

VBAT

V15

V14

W13

V13

W15

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

BAT1

3000TR

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C118

22pF

C120

10pF

C121

10pF

X4

25MHz

X5

32.768KHz

R121

4K87

±1%

USB-ID

USB-VBUS

A16

B16

A17

B17

C6

B6

F2

F1

V3

W3

T6

U5

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

U6

V6

W6

T7

V7

W7

T8

U8

A5

B5

A7

B7

H3

H2

G1

G2

A4

B4

B3

B2

C2

C1

D2

D1

R3

T2

U2

V2

P4

R2

R1

T1

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

J1

J2

K1

K2

U19

V17

V16

W16

K18

K19

L18

L19

M18

G15

N19

N18

G16

H19

G18

J18

H18

G19

C18

B18

USB-D_P

USB-D_N

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

VCC-CORE

10nF

C134

10nF

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

Figure 9-2: USB DEVICE module connection schematic

Page 25

10. USB HOST connection

01

02

Figure 10-1: Connecting

USB cable to MINI-B USB connector via USB adapter

Note: When the device is working in

USB HOST mode, it must not be mounted to other USB HOST.

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.

Page 26

USB-PSW#

CN2

VBUS

D-

D+

ID

GND

USB MINIB

VCC-5V

VCC-3.3V

R2

10K

4

5

E1

10uF

U5

EN OC

GND

IN OUT

TPS2041B

1

2

3

4

5

FP1

VCC-3.3V

3

2

1

R3

10K

USB-VBUS_ER#

Vusb_OUT

Vusb_IN

USB-D_N

USB-D_P

USB-ID

R8

1K

USB-VBUS

C6

100nF

D1

PMEG3010ER

E2

10uF

E3

10uF

C17

3.3nF

D6

ESDA5V3L

D7

ESDA5V3L

R121

4K87

±1%

P18

M17

U18

P19

U1A

RST

HIB

WAKE

VBAT

V15

V14

W13

V13

W15

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

X4

25MHz

X5

32.768KHz

USB-ID

USB-VBUS

A16

B16

A17

B17

C6

B6

F2

F1

V3

W3

T6

U5

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

V7

W7

T8

U8

U6

V6

W6

T7

A5

B5

A7

B7

H3

H2

G1

G2

A4

B4

B3

B2

C2

C1

D2

D1

USB-PSW#

USB-VBUS-ER#

VCC-3.3V

C122

100nF

C123

100nF

C124

100nF

C125

100nF

C126

100nF

C127

100nF

C128

100nF

C129

100nF

C130

100nF

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

R3

T2

U2

V2

P4

R2

R1

T1

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

K18

K19

L18

L19

M18

G15

N19

N18

G16

H19

G18

J18

H18

G19

C18

B18

J1

J2

K1

K2

U19

V17

V16

W16

USB-D_P

USB-D_N

C131

100nF

C132

10nF

C133

10nF

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

C137

2.2uF

VREF

C138

100nF

VCC-ADC

C139

10nF

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

Figure 10-2: USB HOST module connection schematic

Page 27

11. Accelerometer

Figure 11-1:

Accelerometer module

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

I

2

C

interface.

VCC-3.3V

C62

VCC-3.3V

100nF

C63

100nF

VCC-3.3V

3

4

1

2

5

6

VCC

GND

Res

GND

GND

VCC

U12

SDA

ADD

Res

NC

INT2

INT1

ADXL345

13

12

11

10

9

8

VCC-3.3V

I2C2-SCL

R59

10K

I2C2-SDA

ACCEL-INT#

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

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

F4

G5

E10

H16

F3

G4

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

VREF

VCC-CORE

VCC-ADC

R3

T2

U2

V2

P4

R2

R1

T1

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

J1

J2

K1

K2

U19

V17

V16

W16

ACCEL-INT#

G16

H19

G18

J18

H18

G19

C18

B18

K18

K19

L18

L19

M18

G15

N19

N18

R115

4K87

I2C2-SCL

I2C2-SDA

VCC-3.3V

D6

D7

B13

C12

D8

B12

B8

A8

R116

4K87

U1D

C10

B11

A11

B10

A10

B9

T12

U12

PN0

PN1

PN2

PN3

PN4

PN5

PN6

PN7

PP0

PP1

PP2

PP3

PP4

PP5

PP6

PP7

A13

W12

U15

M3

E3

E2

H4

M4

PQ0

PQ1

PQ2

PQ3

PQ4

PQ5

PQ6

PQ7

TM4C129LNCZAD

PT0

PT1

PT2

PT3

PS0

PS1

PS2

PS3

PS4

PS5

PS6

PS7

PR0

PR1

PR2

PR3

PR4

PR5

PR6

PR7

N5

N4

N2

V8

P3

P2

W9

R10

D12

D13

B14

A14

V9

T13

U10

R13

W10

V10

E18

F17

R121

4K87

±1%

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C118

22pF

C119

22pF

C120

10pF

C121

10pF

X4

25MHz

X5

32.768KHz

Figure 11-2: Accelerometer connection schematic

Page 29

12. SDRAM

Figure 12-1:

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.

Page 30

VCC-3.3V

A7

B3

C7

D3

A9

E7

J9

VCC-3.3V

C1

100nF

U2B

VDDQ

VDDQ

VDDQ

VDDQ

VDD

VDD

VDD

M12L64164A

C2

100nF

C3

100nF

VSSQ

VSSQ

VSSQ

VSSQ

VSS

VSS

VSS

C4

10nF

A3

B7

C3

D7

A1

E3

J1

C5

10nF

SDRAM-AD8

SDRAM-AD9

SDRAM-WE#

SDRAM-AD7

SDRAM-AD6

SDRAM-AD5

SDRAM-AD4

A16

B16

A17

B17

C6

B6

F2

F1

V4

W4

V5

R7

V3

W3

T6

U5

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

A5

B5

A7

B7

H3

H2

G1

G2

A4

B4

B3

B2

C2

C1

D2

D1

V7

W7

T8

U8

U6

V6

W6

T7

SDRAM-AD0

SDRAM-AD1

SDRAM-AD2

SDRAM-AD3

SDRAM-AD4

SDRAM-AD5

SDRAM-AD6

SDRAM-AD7

SDRAM-AD8

SDRAM-AD9

SDRAM-AD10

SDRAM-AD11

SDRAM-D13/BA0

SDRAM-D14/BA1

SDRAM-CLK

SDRAM-CKE

SDRAM-WE#

SDRAM-CAS#

SDRAM-RAS#

SDRAM-CS#

H3

H2

H1

G3

H9

G2

G1

H7

H8

J8

J7

J3

J2

G7

G8

U2A

A0

A1

A2

A3

A4

A5

A6

A7

A8

A9

A10

A11

NC/A12

BA0

BA1

F2

F3

CLK

CKE

F9

F7

F8

G9

WE#

CAS#

RAS#

CS#

M12L64164A

DQ8

DQ9

DQ10

DQ11

DQ12

DQ13

DQ14

DQ15

DQ0

DQ1

DQ2

DQ3

DQ4

DQ5

DQ6

DQ7

DQML

DQMH

NC

E2

E1

D2

D1

C2

C1

B2

B1

A2

D9

D8

E9

A8

B9

B8

C9

C8

E8

F1

SDRAM-AD0

SDRAM-AD1

SDRAM-AD2

SDRAM-AD3

SDRAM-AD4

SDRAM-AD5

SDRAM-AD6

SDRAM-AD7

SDRAM-AD8

SDRAM-AD9

SDRAM-AD10

SDRAM-AD11

SDRAM-D12

SDRAM-D13/BA0

SDRAM-D14/BA1

SDRAM-D15

SDRAM-DQML

SDRAM-DQMH

SDRAM-AD11

SDRAM-AD10

SDRAM-AD0

SDRAM-AD1

SDRAM-AD2

SDRAM-AD3

R3

T2

U2

V2

P4

R2

R1

T1

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

G16

H19

G18

J18

H18

G19

C18

B18

J1

J2

K1

K2

U19

V17

V16

W16

SDRAM-CLK

SDRAM-DQML

SDRAM-DQMH

SDRAM-CAS#

SDRAM-RAS#

K18

K19

L18

L19

M18

G15

N19

N18

SDRAM-D15

SDRAM-D14/BA1

SDRAM-D13/BA0

SDRAM-D12

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

VCC-CORE

C134

10nF

R121

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C118

22pF

C119

22pF

C120

10pF

C121

10pF

X4

25MHz

X5

32.768KHz

SDRAM-CS#

SDRAM-C KE

D6

D7

B13

C12

D8

B12

B8

A8

C10

B11

A11

B10

A10

B9

T12

U12

U1D

PN0

PN1

PN2

PN3

PN4

PN5

PN6

PN7

PP0

PP1

PP2

PP3

PP4

PP5

PP6

PP7

PR0

PR1

PR2

PR3

PR4

PR5

PR6

PR7

A13

W12

U15

M3

E3

E2

H4

M4

PQ0

PQ1

PQ2

PQ3

PQ4

PQ5

PQ6

PQ7

TM4C129LNCZAD

PT0

PT1

PT2

PT3

PS0

PS1

PS2

PS3

PS4

PS5

PS6

PS7

N5

N4

N2

V8

P3

P2

W9

R10

D12

D13

B14

A14

V9

T13

U10

R13

W10

V10

E18

F17

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

C141

100nF

FP9

VCC-3.3V

C142

10nF

Figure 12-2: SDRAM connection schematic

13. RF Transceiver

Figure 13-1:

RF transceiver antenna

Figure 13-2:

RF transceiver module 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.

Page 32

C83

33nF

R77

22K

VCC-RF

VCC-3.3V

C122

100nF

C123

100nF

C124

100nF

C125

100nF

C126

100nF

C127

100nF

VCC-3.3V

C128

100nF

C129

100nF

C130

100nF

C131

100nF

C132

10nF

C133

10nF

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

SPI1-SCK

R120

27

A16

B16

A17

B17

C6

B6

F2

F1

V3

W3

T6

U5

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

A4

B4

B3

B2

C2

C1

D2

D1

V7

W7

T8

U8

U6

V6

W6

T7

A5

B5

A7

B7

H3

H2

G1

G2

R119

27

SPI1-MOSI

SPI1-MISO

RF-CS#

RF-CE

RF-CS#

SPI1-SCK

SPI1-MOSI

SPI1-MISO

R80 27

R81

10K

RF-INT#

R78

10K

R79

10K

U16

1

2

3

4

5

CE

CSN

SCK

MOSI

MISO nRF24L01P

VDD

VSS

ANT2

ANT1

VDD_PA

15

14

13

12

11

6 7

R82 1M

X2

16MHz

C92

22pF

RF-INT#

RF-CE

R3

T2

U2

V2

P4

R2

R1

T1

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

J1

J2

K1

K2

U19

V17

V16

W16

K18

K19

L18

L19

M18

G15

N19

N18

G16

H19

G18

J18

H18

G19

C18

B18

R121

P18

M17

U18

P19

V15

V14

W13

V13

W15

BAT1

3000TR

L5

8.2nH

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

L4 3.9nH

C84

L6 2.7nH

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

1.5pF

C86

2.2nF

C87

4.7pF

VCC-RF

C93

22pF

VCC-3.3V

FP5

FERRITE

C88

10uF

C89

100nF

C90

100nF

C91

100nF

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

A1 W3008C

C118

22pF

C119

22pF

X4

25MHz

C120

10pF

C121

10pF

X5

32.768KHz

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

Figure 13-3: RF transceiver module connection schematic

Page 33

14. Ethernet

Figure 14-1: Ethernet

RJ-45 connector

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 34

C94

100nF

LAN-TX_P

LAN-TX_N

LAN-RX_P

LAN-RX_N

LAN-LED2

LAN-LED1

LAN-LED0

C96

100nF

R92

330

VCC-3.3V

100nF

C95

LD5

330

T2

1

2

3

TO+

TBO

TO-

6

7

8

RO+

RBO

RO-

C97

100nF

LP1188NLE

R93

LD6

R94

330

TI+

TPI

TI-

16

15

14

RI+

RBI

RI-

11

10

9

LD7

R87

75

R88

75

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

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

1

2

3

4

U17

A1

K1

A2

K2

SLVU2.8-4

RJ45-TX_P

RJ45-TX_N

RJ45-RX_P

RJ45-RX_N

K4

A4

K3

A3

8

7

6

5

R89

75

CN7

8

7

6

5

4

3

2

1

T2B

T2A

RX-

T1B

T1A

RX+

TX-

TX+

R90

75

LPJE8801DNL

C99

1000pF 1210

RJ45-GND RJ45-GND

B15

C15

D14

C14

M2

M1

L2

K3

A16

B16

A17

B17

C6

B6

F2

F1

V4

W4

V5

R7

V3

W3

T6

U5

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

C2

C1

D2

D1

A4

B4

B3

B2

H3

H2

G1

G2

A5

B5

A7

B7

V7

W7

T8

U8

U6

V6

W6

T7

LAN-LED0

LAN-LED2

LAN-LED1

LAN-TX_P

LAN-TX_N

LAN-RX_P

LAN-RX_N

R121

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

H10

H11

H12

J11

J12

K6

K9

K10

K13

K14

L8

A1

A2

A18

A19

B1

B19

F10

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

TM4C129LNCZAD

VDDC

VDDC

VDDA

GNDA

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K11

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C118

22pF

C119

22pF

C120

10pF

C121

10pF

X4

25MHz

X5

32.768KHz

Figure 14-2: Ethernet module schematic

Page 35

15. Buzzer

Figure 15-1:

Buzzer module

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 36

Page 36

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

TM4C129LNCZAD

VDDC

VDDC

VDDA

GNDA

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

R121

±1%

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C118

22pF

C119

22pF

C120

10pF

C121

10pF

X4

25MHz

X5

32.768KHz

R3

T2

U2

V2

P4

R2

R1

T1

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ4

PJ5

PJ6

PJ7

PJ0

PJ1

PJ2

PJ3

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

J1

J2

K1

K2

U19

V17

V16

W16

G16

H19

G18

J18

H18

G19

C18

B18

K18

K19

L18

L19

M18

G15

N19

N18 1

R71

1K

Q7

PDTC114EU

R1

VCC-5V

PZ1

SPT-1325A

R2

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

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

Figure 15-2: Buzzer module connection schematic

Page 37

16. WiFi

Figure 16-1:

2.4GHz ceramic chip antenna

Figure 16-2:

Wi-Fi 802.11b/g network porocessor 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 38

A2

2450AT45A100

C114

L7

2.2pF

N.M.

L8

2.2nH

C115

10pF

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

VCC-WIF

I

C116

100nF

C117

1uF

FP8

VCC-3.3V

9

10

7

8

5

6

3

4

1

2

GND

RSVD_1

NC

RSVD_2

WL_EN2

WL_RS232_TX

WL_EN1

WL_RS232_RX

GND

GND

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

R114

27

U24

CC3000MOD

VCC-WIFI

SDA_CC

SDA_EE

VBAT_SW_EN

GND

RSVD_3

VIO_HOST

GND

EXT_32K

GND

VBAT_IN

28

27

26

25

24

23

22

21

20

19

WIFI-PWR

R112

R113

10K

10K

VCC-3.3V

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

F4

G5

E10

H16

F3

G4

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

VREF

VCC-CORE

VCC-ADC

WIFI-INT#

WIFI-CS#

SPI1-SCK

R120 27

A16

B16

A17

B17

C6

B6

F2

F1

27

27

V3

W3

T6

U5

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

U6

V6

W6

T7

V7

W7

T8

U8

A4

B4

B3

B2

C2

C1

D2

D1

A5

B5

A7

B7

H3

H2

G1

G2

R119 27

SPI1-MOSI

SPI1-MISO

WIFI-PWR

R121

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

C118

22pF

C119

22pF

X4

25MHz

C120

10pF

C121

10pF

X5

32.768KHz

Figure 16-3: WiFi connection schematic

Page 39

17. Other Modules

01

04

02 03

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.

Page 40

1

Q4

PDTC114EU

R1

R2

VCC-5V

LD3

R68

2K2

1

Q5

PDTC114EU

R1

R2

VCC-5V

LD3

R69

3K3

MISC-IR_RX

C76

4.7uF

VCC-3.3V

2

1

4

3

U14

TSOP6238

MISC-TEMP

C77

100nF

VCC-3.3V

R72

100

C78

100nF

1

2

U15

VDD

GND

VOUT

MCP9700A

3

A16

B16

A17

B17

C6

B6

F2

F1

V3

W3

T6

U5

V4

W4

V5

R7

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

U6

V6

W6

T7

V7

W7

T8

U8

A5

B5

A7

B7

H3

H2

G1

G2

C2

C1

D2

D1

A4

B4

B3

B2

MISC-LED-R

MISC-LED-G

MISC-IR-RX

MISC-LED-B

1

Q6

PDTC114EU

R1

R2

VCC-5V

LD3

R70

2K2

MISC-PD 7

R73

100K

U3B

LM358

6

5

R74

27K4

VCC-3.3V

C82

100nF

R75

1M

VCC-3.3V

R76

150K

C79

100nF

1

U3A

LM358

2

3

R3

T2

U2

V2

P4

R2

R1

T1

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

J1

J2

K1

K2

U19

V17

V16

W16

MISC-TEMP

G16

H19

G18

J18

H18

G19

C18

B18

K18

K19

L18

L19

M18

G15

N19

N18

MISC-PD

D6

D7

B13

C12

D8

B12

B8

A8

C10

B11

A11

B10

A10

B9

T12

U12

U1D

PN0

PN1

PN2

PN3

PN4

PN5

PN6

PN7

PP0

PP1

PP2

PP3

PP4

PP5

PP6

PP7

E3

E2

H4

M4

A13

W12

U15

M3

PQ0

PQ1

PQ2

PQ3

PQ4

PQ5

PQ6

PQ7

TM4C129LNCZAD

PT0

PT1

PT2

PT3

PS0

PS1

PS2

PS3

PS4

PS5

PS6

PS7

PR0

PR1

PR2

PR3

PR4

PR5

PR6

PR7

N5

N4

N2

V8

P3

P2

W9

R10

D12

D13

B14

A14

V9

T13

U10

R13

W10

V10

E18

F17

R121

4K87

±1%

LD4

PD15

A1

A2

A18

A19

M9

M10

N10

P16

R17

K6

K9

K10

K13

K14

L8

L9

M8

B1

B19

F10

H10

H11

H12

J11

J12

V1

W1

W2

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

G10

H9

J8

J9

J10

K7

K8

K11

K12

L10

L11

L12

M11

M12

N16

P10

P17

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

P18

M17

U18

P19

U1A

RST

HIB

WAKE

VBAT

V15

V14

W13

V13

W15

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

OSC0

GNDX2

OSC1

XOSC0

GNDX

XOSC1

BAT1

3000TR

C118

22pF

C119

22pF

X4

25MHz

C120

10pF

C121

10pF

X5

32.768KHz

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

VCC-CORE

C134

10nF

C135

100nF

C136

1uF

C137

2.2uF

VREF

C138

100nF

C139

10nF

VCC-ADC

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

Figure 17-1: Other modules connection schematic

Page 41

18. Pads

Analog lines SPI CAN UART PWM

I2C Interrupt

5-12V Input

Ref. Ground

I2C6

UART3 Lines

UART5 Lines

I2C4 Lines

SPI3

PWM Lines

Audio in

Audio out

3.3V pwr.

Reset pin

52.

51.

50.

49.

48.

47.

46.

45.

44.

43.

42.

41.

40.

39.

38.

37.

36.

35.

34.

33.

32.

31.

30.

29.

28.

27.

VDC

GND

PB7

PB6

PJ1

PJ0

PH7

PH6

PK7

PK6

PQ2

PQ3

PQ0

PQ1

PF3

PF2

PM5

PM4

PL5

PL4

R

L

R

L

3.3V

RST

26.

25.

24.

23.

22.

21.

20.

19.

18.

17.

16.

15.

14.

13.

12.

11.

4.

3.

2.

1.

10.

9.

8.

7.

6.

5.

GND

3.3V

NC

NC

NC

NC

PA1

PAO

PQ5

PQ4

PG5

PG4

PG7

PG6

PP1

PP0

PP4

PE7

PD0

PD1

PE0

PE1

PE2

PE3

GND

5V

Ref. Ground

3.3V power

CAN

UART1

SPI2

Interrupt lines

Analog lines

Ref. Ground

5V power

Many microcontroller pins are available for further connectivity via two 1x26 rows of connection pads on both sides of the board

Page 42

K14

L8

L9

M8

M9

M10

N10

P16

R17

V1

W1

W2

H11

H12

J11

J12

K6

K9

K10

K13

A1

A2

A18

A19

B1

B19

F10

H10

U1E

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

VREFA+

VREFA-

VDDC

VDDC

VDDA

GNDA

TM4C129LNCZAD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VDD

VCC-3.3V

K12

L10

L11

L12

M11

M12

N16

P10

P17

G10

H9

J8

J9

J10

K7

K8

K11

F4

G5

E10

H16

F3

G4

VREF

VCC-CORE

VCC-ADC

HDR-AN0

HDR-AN1

HDR-AN2

HDR-AN3

HDR-AN4

HDR-AN5

HDR-INT0

HDR-INT1

HDR-INT2

HDR-INT3

SPI2-CS#

SPI2-SCK

SPI2-MISO

SPI2-MOSI

UART1-RX

UART1-TX

CAN_RX

CAN_TX

VCC-3.3V

VCC-5V

24

25

26

M1X26

20

21

22

23

16

17

18

19

HDR1

1

2

3

6

7

4

5

12

13

14

15

8

9

10

11

VCC-3.3V

HDR2

39

40

41

42

35

36

37

38

31

32

33

34

27

28

29

30

47

48

49

50

43

44

45

46

51

52

M1X26

Vdc

RST#

HDR-LN_OUT_L

HDR-LN_OUT_R

HDR-LN_IN_L

HDR-LN_IN_R

HDR-PWM0

HDR-PWM1

HDR-PWM2

HDR-PWM3

HDR-PWM4

HDR-PWM5

SPI3-CS#

SPI3-SCK

SPI3-MOSI

SPI3-MISO

I2C4-SCL

I2C4-SDA

UART5-RX

UART5-TX

UART3-RX

UART3-TX

I2C2-SCL

I2C2-SDA

HDR-LN_OUT_L

HDR-LN_OUT_R

HDR-LN_IN_L

HDR-LN_IN_R

MP3

LINE-OUT_L

LINE-OUT_R

LINE-IN_L

LINE-IN_R

RST#

R121

P18

M17

U18

P19

V15

V14

W13

V13

W15

U1A

RST

HIB

WAKE

VBAT

OSC0

GNDX2

OSC1

EN0TXOP

EN0TXON

EN0RXIP

EN0RXIN

RBIAS

XOSC0

GNDX

XOSC1

TM4C129LNCZAD

NC

NC

NC

NC

NC

NC

BAT1

3000TR

OSC0

E19

D18

D19

C5

E13

V18

V19

W18

W19

T18

R18

T19

GNDX2

OSC1

XOSC0

GNDX

XOSC1

CAN-RX

CAN-TX

V4

W4

V5

R7

V3

W3

T6

U5

U1B

PA0

PA1

PA2

PA3

PA4

PA5

PA6

PA7

A16

B16

A17

B17

C6

B6

F2

F1

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

B15

C15

D14

C14

M2

M1

L2

K3

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

TM4C129LNCZAD

PE0

PE1

PE2

PE3

PE4

PE5

PE6

PE7

PF0

PF1

PF2

PF3

PF4

PF5

PF6

PF7

VCC-3.3V

PD0

PD1

PD2

PD3

PD4

PD5

PD6

PD7

A5

B5

A7

B7

H3

H2

G1

G2

A4

B4

B3

B2

C2

C1

D2

D1

V7

W7

T8

U8

U6

V6

W6

T7

C122

100nF

C123

100nF

C124

100nF

C125

100nF

C126

100nF

HDR-AN5

HDR-AN4

HDR-AN3

HDR-AN2

HDR-AN1

HDR-AN0

HDR-INT0

HDR-PWM4

HDR-PWM5

C127

100nF

SPI2-MISO

SPI2-MOSI

SPI2-CS#

SPI2-SCK

UART5-RX

UART5-TX

UART3-RX

UART3-TX

C128

100nF

C129

100nF

N15

T14

V11

M16

K17

K15

V12

U14

U1C

PG0

PG1

PG2

PG3

PG4

PG5

PG6

PG7

R3

T2

U2

V2

P4

R2

R1

T1

PH0

PH1

PH2

PH3

PH4

PH5

PH6

PH7

C8

E7

H17

F16

F18

E17

N1

K5

PJ0

PJ1

PJ2

PJ3

PJ4

PJ5

PJ6

PJ7

TM4C129LNCZAD

PM0

PM1

PM2

PM3

PM4

PM5

PM6

PM7

PL0

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PK0

PK1

PK2

PK3

PK4

PK5

PK6

PK7

K18

K19

L18

L19

M18

G15

N19

N18

G16

H19

G18

J18

H18

G19

C18

B18

J1

J2

K1

K2

U19

V17

V16

W16

I2C4-SCL

I2C4-SDA

HDR-PWM0

HDR-PWM1

HDR-PWM2

HDR-PWM3

VCC-CORE

C130

100nF

C131

100nF

C132

10nF

C133

10nF

C134

10nF

C135

100nF

R116

4K87

HDR-INT2

HDR-INT3

R115

4K87

HDR-INT1

I2C2-SCL

I2C2-SDA

SPI3-SCK

SPI3-CS#

SPI3-MOSI

SPI3-MISO

UART1-RX

UART1-TX

C10

B11

A11

B10

A10

B9

T12

U12

U1D

PN0

PN1

PN2

PN3

PN4

PN5

PN6

PN7

D6

D7

B13

C12

D8

B12

B8

A8

PP0

PP1

PP2

PP3

PP4

PP5

PP6

PP7

A13

W12

U15

M3

E3

E2

H4

M4

PQ0

PQ1

PQ2

PQ3

PQ4

PQ5

PQ6

PQ7

TM4C129LNCZAD

PT0

PT1

PT2

PT3

PS0

PS1

PS2

PS3

PS4

PS5

PS6

PS7

PR0

PR1

PR2

PR3

PR4

PR5

PR6

PR7

VREF VCC-ADC

D12

D13

B14

A14

V9

T13

U10

R13

N5

N4

N2

V8

P3

P2

W9

R10

W10

V10

E18

F17

C136

1uF

C137

2.2uF

C138

100nF

C139

10nF

C140

1uF

C141

100nF

FP9

VCC-3.3V

C142

10nF

C118

22pF

C119

22pF

X4

25MHz

C120

10pF

C121

10pF

X5

32.768KHz

Figure 18-1: Connecting pads schematic

Page 43

19. Dimensions

11.6

465.71

34.6

1361.3

135.1

5318.66

127

5003.7

66

2600

23.7

934.84

9.2

362.2

10.1

397.9

Legend

mm mils

Tolerance +/-0.5mm

4

157

1.6

63

17.8

700

12.2

480

11.6

457.3

17.7

697.3

Page 44

7.8

306

24.3

956.98

9.4

371

20. What’s next?

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

You still don’t have an appropriate compiler? Locate ARM

®

compiler that suits you best on our website:

http://www.mikroe.com/compilers/arm/

Choose between mikroC

, mikroBasic

and mikroPascal

and download fully functional demo version, so you can start building your first applications.

Projects

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:

http://www.mikroe.com/visualtft/

Page 45

Notes:

Page 46

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.

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 hazardous 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.

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.

Page 47

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 TIVA ver. 1.02

TM

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