mikroElektronika mikromedia PIC24 User Manual

Page 1

user's guide to

mikrome ia

board for PIC24

Compact development system rich with on-board peripherals for all-round multimedia development on PIC24FJ256GB110 device

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I want to express my thanks to you for being interested in our products and for having

condence in Mikroelektronika.

The primary aim of our company is to design and produce high quality electronic products

and to constantly improve the performance thereof in order to better suit your needs.

The Microchip, Atmel, NXP and CYPRESS name, logo and products names are trademarks of Microchip, Atmel, NXP and CYPRESS Inc. in the U.S.A and other countries.

TO OUR VALUED CUSTOMERS

Nebojsa Matic

General Manager

Page 3

Introduction to mikromedia for PIC24 4

Package Contains 5

Key Features 6

System Specication 7

1. USB power supply 8

2. Battery power supply 9

3. PIC24FJ256GB110 Microcontroller 10

Key microcontroller features 10

4. Programming the microcontroller 11

Programming with mikroBootloader 12

step 1 – Connecting mikromedia 12

step 2 – Browsing for .hex le 13

step 3 – Select .hex le 13

step 4 – .hex le uploading 14

step 5 – Finish upload 15

Programing with mikroProg™ programmer 16

mikroProg Suite™ for PIC Software 17

Programing with 18

ICD2 or ICD3 programmer 18

6. microSD Card Slot 20

7. Flash Memory 21

8. Touch Screen 22

9. Audio Module 24

10. USB connection 26

11. Accelerometer 28

12. Crystal oscillator 29

13. Pads 30

14. Pinout 31

15. Dimensions 32

Table of Contents

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Introduction to mikromedia for PIC24

The mikromedia for PIC24 is a compact development system with lots of on-board peripherals which allow development of devices with multimedia contents. The central part of the system is a 16-bit PIC24FJ256GB110 microcontroller. The mikromedia for PIC24 features integrated modules such as stereo MP3 codec, TFT 320x240 touch screen display, accelerometer, USB connector, MMC/SD card slot and other. It comes preprogrammed with USB bootloader, but can also be programmed with external programmers, such as mikroProg or ICD2/3. Mikromedia is compact and slim, and

perfectly ts in the palm of the hand, which

makes it convenient platform for mobile devices.

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Package Contains

04 05

Damage resistant protective box

mikromedia for PIC24 development system

mikromedia for PIC24 user’s guide

mikromedia for PIC24 schematic

DVD with documentation and examples

USB cable

schematic

Compact development system rich with on-board peripherals for all-round multimedia development on PIC24FJ256GB110 device

mikrome

board for PIC24

user

s guide to

mikro

board for PIC24

Compact development system rich with on-board peripherals for allround multimedia development on PIC24FJ256GB110 device

Page 6

Page 7

Key Features

Connection Pads

TFT 320x240 display

USB MINI-B connector

LI-Polymer battery connector

3.5mm headphone connector

Power supply regulator

Serial Flash memmory

VS1053 Stereo mp3 coder/decoder

RESET button

PIC24FJ256GB110 microcontroller

Accelerometer

Crystal oscillator

Power indicator LED

microSD Card Slot

ICD2/3 connector

Mikroprog connector

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System Specication

power supply

Over a USB cable (5V DC)

board dimensions

8 x 6cm (3.14 x 2.36 inch)

weight

~50g (0.11 lbs)

power consumption

50mA in idle state

(when on-board modules are o)

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1. USB power supply

You can provide power supply to the board using provided miniUSB connector. Onboard voltage regulator will make sure to generate the appropriate voltage levels to each part of the board. Power LED will indicate the presence of power supply.

Figure 1-1:

Powering your

mikromedia board

with USB cable

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You can also power the board using Li-Polymer battery, via on-board battery connector. On-board battery charger circuit MCP73832 enables you to charge the battery over USB connection. Charging current is ~250mA and charging voltage is 4.2V DC.

VCC-BATVCC-3.3VCC-3.3 VCC-SYS

1 5

2 3

VSS VBAT

PROGSTAT

VDD

MCP73832

10uF

C40

2.2uF

VCC-3.3

10uF

R44 3K9

R45 1K

R38

10K

R37

10K

Q5 BC846

Q4 BC846

R36

LD2 RED

10K

R39

4K7

VCC-3.3

R35

10K

STAT

VCC-SYS

LD1 GREEN

R26

2K2

VCC-BAT

VCC-SYS

D1 PMEG3010ER

DMP2160UW

R43

10K

VCC-USB

CN1

VCC-BAT

GND

R49

4K7

VCC-BAT

4K7

R34

4K7

VSENSE

VCC-3.3

CN1

BAT CONN

VCC-SYS

10uF

LD29080DT33

REG1

VCC-3.3

GNDVIN

VOUT

Figure 2-1: Li-polymer battery connected to mikromedia

Figure 2-2: Battery charger connection schematic

2. Battery power supply

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The mikromedia for PIC24 development system comes with the

PIC24FJ256GB110 microcontroller. This high-performance 16-bit

microcontroller with its integrated modules and in combination with other on-board modules is ideal for multimedia applications.

3. PIC24FJ256GB110 Microcontroller

Key microcontroller features

- Up to 16 MIPS Operation;

- 8 MHz Internal Oscillator;

- 256KB of program memory;

- 16,384 Bytes of RAM;

- 80 I/O pins;

- 4-UART, 3-SPI, 3-I2C;

- nanoWatt features;

- Flexible Addressing modes; etc.

Memory Bus

Peripheral Bus

16 MIPS

16-bit Core

16-bit ALU

17x17 MPY

JTAG

PMP

LCD

Segment

Drive

Watchdog

Analog Comp.

16-bit

Timers

Input

Capture

CTMU

Out Comp.

/PWM

Integrated

Graphics

ADC 10-Bit 16 ch.

UART SPI I2C

Flash

(Up to 256KB)

RAM

(Up to 96KB)

EEPROM

(Up to 512B)

DMA

Addresse

Generation

16x16

Barrel

Shifter

USB

PIC24

Page 11

The microcontroller can be programmed in three ways:

4. Programming the microcontroller

Over USB HID mikroBootloader

Using mikroProg external programmer

Using ICD2/3 external programmer

Figure 4-1:

PIC24FJ256GB110

Microcontroller

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Programming with mikroBootloader

You can program the microcontroller with bootloader which is

preprogrammed into the device by default. To transfer .hex le

from a PC to MCU you need bootloader software (mikroBootloader

USB HID) which can be downloaded from:

After software is downloaded unzip it to desired location and start mikroBootloader USB HID software.

http://www.mikroe.com/eng/products/view/587/ mikromedia-for-pic24-board/

Figure 3-1: mikroBootloader USB HID

step 1 – Connecting mikromedia

Connect mikromedia board with a PC via USB cable and USB icon will turn red.

Click the Connect button whitin 5s, otherwise existing microcontroller program will execute.

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step 3 – Select .hex le step 2 – Browsing for .hex le

Figure 3-2: Browse for HEX Figure 3-3: Selecting HEX

Click on Browse for HEX button

Select .hex le via open window

Click on Open button

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step 4 – .hex le uploading

Figure 3-4: Begin uploading Figure 3-5: Progress bar

01 01

To start .hex le uploading click on Begin uploading

button

You can monitor .hex le uploading via progress bar

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step 5 – Finish upload

Figure 3-6: Restarting MCU

Figure 3-7: mikroBootloader ready for next job

To nish uploading click on OK button

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The microcontroller can be programmed with mikroProg programmer and mikroProg Suite fo PIC software. The mikroProg programmer is connected to the development system via the CN6 connector, Figure 3-8.

mikroProg™

is a fast USB 2.0

programmer with mikroICD

hardware In-Circuit Debugger.

Smart engineering allows mikroProg to

support PIC10, PIC12, PIC16, PIC18, dsPIC30/33,

PIC24 and PIC32 devices in a single programmer. It

supports over 570 microcontrollers from Microchip. Outstanding

performance, easy operation and elegant design are it’s key features.

Programing with mikroProg™

programmer

Figure 3-8:

connecting

mikroProg

Page 17

mikroProg Suite™ for PIC Software

mikroProg™ programmer requires

special programming software called

mikroProg Suite™ for PIC®. This

software is used for programming ALL of Microchip® microcontroller families, including PIC10, PIC12, PIC16, PIC18, dsPIC30/33, PIC24 and PIC32. Software has intuitive interface and SingleClick™ programming technology. Just by downloading the latest version of mikroProg Suite™ your programmer is ready to program new devices. mikroProg Suite™ is updated regularly, at least four times a year, so your programmer will be more and more powerful with each new release.

Figure 3-9: Main Window of mikroProg Suite for PIC programming software

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Figure 5-1:

Placing ICD2 connector

The microcontroller can be also programmed with ICD2 or

ICD3 programmer. These programmer is connected with

mikromedia board via ICD2 CONNECTOR BOARD.

Programing with

ICD2 or ICD3 programmer

In order to enable the ICD2 and ICD3 programmers to be connected

to the development system, it is necessary to provide the appropriate

connector such as the ICD2 CONNECTOR BOARD. This connector should be

rst soldered on the CN5 connector, Figure 5-1. Then you should plug in the ICD2

or ICD3 programmer into it, Figure 5-2.

Figure 5-2:

Connecting

ICD2 or ICD3

programmer

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Figure 5-3: ICD2 / ICD3 & mikroProg programmer connection schematic

VCC-3.3

PGC2

PGD2

VCC-3.3

CN5

M1X6

MCLR# MCLR#

MCLR#

VCC-3.3

RST

PGC2

PGD2

MCLR#

PGC2 PGD2

CN6

M1X5

VCC-3.3 GND

10uF

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6. microSD Card Slot

MOSI2-RG8

SCK2-RG6 MISO2-RG7

VCC-3.3

VCC-MMC

C38

100nF

VCC-MMC

R10

10K

VCC-MMC

10K

CN4 MMC CARD MICRO

SD-CS#

SD-CD#

SD-CS#

MOSI2-RG8

SCK2-RG6

MISO2-RG7

MISO2-MMC

SD-CD#

R16 27

VCC-3.3 VCC-MMC

FP1

FERRITE

+3.3V

SCK GND Dout

Din

VCC-MMC

R11

10K

10uF

Board contains microSD card slot for using microSD cards in your projects. It enables you to store large ammounts of data externally, thus saving microcontroller memory. microSD cards use Serial Peripheral Interface (SPI) for communication with the microcontroller.

Figure 6-3:

Inserting microSD card

Figure 6-1:

microSD card

Figure 6-2:

microSD Card Slot

module connection schematic

Page 21

7. Flash Memory

MOSI2-RG8

MISO2-RG7

SCK2-RG6

FLASH-CS#

VCC-3.3

FLASH-CS#

MISO2-RG7

SCK2-RG6

MOSI2-RG8

VCC-3.3

R48 10K

C37

100nF

10uF

Figure 7-1: Flash memory module connection schematic

Since multimedia applications are getting increasingly demanding, it is necessary to provide additional memory space to be used for storing more data.

The ash memory module enables the

microcontroller to use additional 8Mbit

ash memory. It is connected to the

microcontroller via the Serial Peripheral Interface (SPI).

Figure 7-2:

Flash memory module

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The development system features a TFT

320x240 display covered with a resistive

touch panel. Together they form a functional unit called a touch screen. It enables data to be entered and displayed at the same time. The TFT display is capable of showing data in 262.000 die rent colors.

8. Touch Screen

Figure 8-1: Touch Screen

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VCC-SYS

LCD-

BLED

LED-K

LCD-RST

PMD7

TFT 320x240 display

PMD6 PMD5 PMD4 PMD3 PMD2 PMD1 PMD0

PMRD PMWR LCD-RS LCD-CS

LCD-XR LCD-YD LCD-XL LCD-YU

1 2 3 4 5 6 7 8

9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47

LED-A1 LED-A2 LED-A3 LED-A4 IM0 IM1 IM2 IM3 RESET VSYNC HSYNC DOTCLK ENABLE DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB

8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB

0 SD

O SDI RD WR/SC

L RS CS FMARK VCC-IO VCC VCC-I GND XR YD XL YU

R23

LCD-RST

LCD-CS#

R40 12

BC846

TFT1

MI0283QT2

E13

10uF

PMD0

PMD1

PMD2

PMD3

PMD4

PMWR

PMRD

PMD5 PMD6 PMD7 LCD-RS

LCD-YD

LCD-XR

LCD-YU

LCD-XL

LCD-CS#

LCD-XL

LCD-YU

47nF

C21

C22

VCC-3.3

R41

300K

R42

300K

R24

10K

R25

10K

VCC-3.3

LCD-

BLED

Figure 8-2: Touch Screen connection schematic

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Figure 9-2: Inserting 3.5mm headphones jack

The mikromedia for PIC24 features MP3 codec audio controller VS1053. This module enables audio reproduction by using stereo headphones connected to the system via a 3.5mm connector CN2. All functions of this module are controlled by the microcontroller over Serial Peripheral Interface (SPI).

9. Audio Module

Figure 9-1:

On-board VS1053

MP3 codec

Page 25

Figure 9-3: Audio module connection schematic

VS1053

MICP

MICN

XRESET

DGND0

CVDD0

IOVDD0

CVDD1

DREQ

GPIO2

GPIO3

GPIO6

GPIO7

XDCS

IOVDD1

VCO

DGND1

XTALO

XTALI

IOVDD2

DGND2

DGND3

DGND4

XCS

CVDD2

LINE2

AGND3

LEFT

AVDD2

RCAP

AVDD1

GBUF

AGND2

AGND1

RIGHT

AVDD0

AGND0

GPIO4

GND

GPIO1

GPIO0

XTEST

CVDD3

SCLK

GPIO5

MOSI2-RG8

SCK2-RG6

VCC-3.3

12.288MHz

C20

22pF

C19

22pF

R2 10K

R20 10K

VCC-1.8VCC-3.3

GPIO

MP3-DCS/BSYNC MP3-CS#

R19 10K

GPIO

VCC-3.3

MISO2-MP3 MISO2-RG7

MOSI2-RG8

SCK2-RG6

CN2

PHONEJACK

R22 27

VCC-3.3

R21

10K

C13 1uF

R28

10 R29

GBUF

LEFT

RIGHT

R27 10

C14

47nF

100nF

VCC-1.8

100nF

VCC-1.8

C10

100nF

VCC-1.8

C11

100nF

VCC-1.8

C23

100nF

VCC-3.3

C24

100nF

VCC-3.3

C26

100nF

VCC-3.3

C12

100nF

VCC-3.3

MIC5205-ADJ

GND EN

VOUT

ADJ

VCC-3.3 VCC-1.8

C29

1 5

2 3

2.2uF

E10

10uF

R47

220K

R46

100K

R50

VCC-3.3

MISO2-RG7

R32

470

R17

100K

C17

3.3nF

R31

C16

10nF

LLEFT

RIGHT

R33

470

R18

100K

C18

3.3nF

R30 20

C15

10nF

MP3-RST#

MP3-DREQ

MP3-DCS/BSYNC

MP3-CS#

MP3-RST#

E9 10uF

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PIC24FJ256GB110 microcontroller has integrated USB OTG

module, which enables you to implement USB communication functionality of your mikromedia board. Connection with target USB host is done over miniUSB connector which is positioned next to the battery connector.

10. USB connection

Figure 10-1:

Connecting USB

cable to programming

connector

Page 27

Figure 10-2: USB module connection schematic

MOSI2-RG8

SCK2-RG6

VCC-3.3

USB-ID USBDP USBDM

C28 10nF

R14 100

VCC-USB

USBDM

USB-DET

USB-ID

USBDP

USB-DET

FP2

FERRITE

USB MINI B

CN3

10uF

VCC-SYS

10uF

LD29080DT33

REG1

VCC-3.3

GNDVIN

VOUT

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11. Accelerometer

On board ADXL345 accelerometer is used to measure acceleration in three axis: x- y- and z-.

The acceleromer’s function is dened by the user in

the program loaded into the microcontroller. Communication between the accelerometer and the microcontroller is performed over the I2C interface.

Figure 11-2: Accelerometer connection schematic

Figure 11-1:

Accelerometer

module

VCC-3.3

VCC

GND

VCC

SCLK

SDO/ADR

SDI

INT2

INT1

VCC-3.3

C33

100nF

VCC-3.3

C32

100nF

ADXL345

SCL2-RA2

SDA2-RA3

SCL2-RA2

SDA2-RA3

VCC-3.3

SDA2-RA3

SCL2-RA2

ACC ADDRESS

SMD JUMPER

VCC-3.3 VCC-3.3

R13

10K

R12

10K

10uF

Page 29

Board is equipped with 8Mhz crystal

oscillator circuit that provides external

clock to the microcontroller OSC pins. This base frequency is suitable for further PLL clock multipliers and ideal for generation of necessary USB clock, which ensures proper operation of bootloader and your custom USBbased applications.

12. Crystal oscillator

Figure 12-2: Crystal oscillator schematic

Figure 12-1:

Crystal oscillator module

VCC-3.3

C30 C31

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RA0

MOSI2-RG8

MISO2-RG7

SCK2-RG6

MISO1-RC4

STAT

FLASH-CS#

RE8 RE9 RB5 RB4 RB3 RB2 RB1 RB0

VREF-1.8

VSENSE

RB9

RA1

RF13

RF14

RF4

RF5

RF2

RF8

USBDM

SCL2-RA2

SCL1-RA14

SDA1-RA15

SDA2-RA3

RD8

RD9

MOSI1-RD0

SCK1-SD10

TX-RD1

RB0 RB1 RB2 RB3 RB4 RB5 RB9 RD6 RD7 RD12 RD13 SCL1-RA14 SDA1-RA15 SCK1-RD10 MISO1-RC4 MOSI1-RD0 RB14 RG13 RG14 SCK2-RG6 MISO2-RG7 MOSI2-RG8

RX-RD3

LCD-BLED

RD12

RD13

RD6

RD7

RF0

RF1

RG1

RG0

MP3-CS#

RG14

MP3-DCS/BSYNC

RG13

M1X26

VCC-3.3

L R RD9 RF2 RF4 RF5 RF8 RF13 RA0 RA1 RE8 RE9 RD8 RD11 RG0 RG1 RF0 RF1 RX-RD3 TX-RD1 SCL2-RA2 SDA2-RA3

M1X26

VCC-3.3

E9 10uF

13. Pads

Most microcontroller pins are available for further connectivity via two 1x26 rows of connection pads on both sides of the mikromedia board. They are designed to perfectly match additional shields, such as Battery Boost shield, Gaming, PROTO shield and others.

Pads HDR2

Pads HDR1

Figure 13-1: Pads connecting schematic

Page 31

14. Pinout

SPI LinesInterrupt LinesAnalog Lines

Programing lines I2C Lines

UART lines

Remappable Comparator lines

5V RST Reset pin5V power supply

GND GND Reference GroundReference Ground

RB0 L RB1 R

left ch.PGED1/RP0/AN0/CN2

right ch.PGEC1/RP1/AN1/CN3 RB2 RD9 RP4/DPLN/CN54RP13/C2INB/AN2/CN4 RB3 RF2 RP30/CN70VPIO/C2INA/AN3/CN5 RB4 RF4 RP10/PMA9/CN17

PGED3/RP28/AN4/CN6

RB5 RF5 RP17/PMA8/CN18/PGEC3/RP18/AN5/CN7 RB9 RF8 RP15/CN74RP9/AN9/CN27

RD6 RF13 RP31/CN76C3INB/CN15 RD7 RA0 TMS/CN33C3INA/CN16

RD12 RA1

TCK/CN34

RPI42/CN57

RD13 RE8 RPI33/CN66CN19 RA14 RE9 RPI34/CN67RPI36/SCL1/CN43 RA15 RD8 RP2/DMLN/RTCC/CN53

RPI35/SDA1/CN44

RD10 RD11 RP12/PMCS1/CN56RP3/PMCS2/CN55

RC4 RG0 CN77RPI41/CN48

RD0 RG1 CN78RP11/DMH/CN49/INT0 RB14 RF0 VBUSST/VCMPST1/CN68RP14/AN14/CN32 RG13 RF1

VCMPST2/CN69

CN80

RG14 RD3 RP22(RX)/PMBE/CN52CN81

RG6 RD1 RP24(TX)/VCPCON/CN50RP21(SCK)/C1IND/CN8 RG7 RA2 SCL2/CN35RP26 (SDI)/C1INC/CN9 RG8 RA3 SDA2/CN36RP19 (SDO)/C2IND/CN10

3.3V 3.3V 3.3V power supply3.3V power supply GND GND Reference GroundReference Ground

Pin functions Pin functions

audio out

Page 32

Page 33

80.90 mm (3.18”)

73.01 mm (2.87”)

69.85 mm (2.75”)

2.54 mm (0.10”)4.45 mm (0.17”) 2.77 mm (0.11”)

60.56 mm (2.38”)

5.08 mm (0.20”)

36.55 mm (1.44”)

55.47 mm (2.18”)

50.27 mm (1.98”)

15. Dimensions

Page 33

Notes:

Page 34

Notes:

Page 35

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 modication 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 tness 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 Mik-

roElektronika, its directors, ocers, employees or distributors be liable for any indirect, specic, incidental or consequential damages (including damages for loss of business prots 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 trac 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 specically disclaim any expressed or implied warranty of tness for High Risk Activities.

TRADEMARKS

The Mikroelektronika name and logo, the Mikroelektronika logo, mikroC, mikroC PRO, mikroBasic, mikroBasic PRO, mikroPascal, mikroPascal PRO, AVRash, PICash, dsPICprog, 18FJprog, PSOCprog, AVRprog, 8051prog, ARMash, EasyPIC5, EasyPIC6, BigPIC5, BigPIC6, dsPIC PRO4, Easy8051B, EasyARM, EasyAVR5,

EasyAVR6, BigAVR2, EasydsPIC4A, EasyPSoC4, EasyVR Stamp LV18FJ, LV24-33A, LV32MX, PIC32MX4 MultiMedia Board, PICPLC16, PICPLC8 PICPLC4, SmartGSM/GPRS, UNI-DS 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 identication or explanation and to the owners’ benet, with no intent to infringe.

Page 36

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/en/support

If you have any questions, comments or business proposals,

do not hesitate to contact us at oce@mikroe.com