Ready Best solution for fast and simple development of applications using ATxmega128A1 device. With special white plastic casing you can quickly turn your Ready for XMEGA project into a final product.

™

for XMEGA®

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 AVR®, XMEGA® and Windows® logos and product names are trademarks of Atmel® and Microsoft® in the U.S.A. and other countries.

Table of Contents Introduction

4

step 4 – Selecting .hex file 

15

Package Contains

5

step 5 – Uploading .hex file

15

Key Features

6

step 6 – Progress bar

16

step 7 – Finish upload

16

1. Power supply 2. ATxmega128A1 Microcontroller

8 10

Programing with JTAG programmer

17

Key microcontroller features

10

Programing with PDI

18

3. Programming the microcontroller

11

4. USB-UART

20

Programming with mikroBootloader

12

5. Prototyping area 

21

mikroBootloader software

12

6. Pin headers

22

Identifying device COM port 

13

7. Reset button

23

step 1 – Choosing COM port 

13

8. Piezo buzzer

24

step 2 – Establishing connection

14

9. Integrating with the casing

25

step 3 – Browsing for .hex file 

14

10. Dimensions

26

Page 3

Introduction

Ready for XMEGA Board is the best solution for fast and simple development of various microcontroller applications. It comes with ATxmega128A1, and contains double-row smart headers for all available microcontroller ports. We have groupped pins according to their functions, so you have everything on the silkscreen. You don’t even have to browse through the datasheet. Board also contains USB-UART module, prototyping area and a power supply circuit. Board is specially designed to fit into special white plastic casing so you can turn your XMEGA project into a final product.

Page 4

Package Contains 20122011 www.mikroe.com

Copyright ©2011 Mikroelektronika. All rights reserved. Mikroelektronika, Mikroelektronika logo and other Mikroelektronika trademarks are the property of Mikroelektronika. All other tradmarks are the property of their respective owners. Unauthorised copying, hiring, renting, public performance and broadcasting of this DVD prohibited.

01

Damage resistant protective box

02

Ready for XMEGA board with double row male pin headers

04

Ready for XMEGA user’s guide

05

Ready for XMEGA schematic Page 5

03

DVD with documentation and examples

06

USB cable

Key Features System Specification power supply Via AC/DC connector 7-23V AC or 9-32V DC power consumption 50mA in idle state (when on-board modules are off) board dimensions 141 x 84mm (5.55 x 3.3 inch)

weight ~67g (0.15 lbs)

Page 6

JTAG connector

01

Power LED indicator

02

UART communication LEDs (RX, TX)

03

Power regulator

04

FTDI chip

05

USB UART connector

06

Power connector

07

Power screw terminals

08

Reset button

09

Double-row pin headers

10

PDI connection

11

Prototyping area

12

ATxmega128A1 microcontroller

13 12

Piezo Buzzer

14

01

09

10

11

02

03 04 05

12

06

10 Page 7

13

07

08

10

14

1. Power supply

Figure 1-1: AC/DC adapter power supply connected

Figure 1-2: laboratory power supply connected to screw terminals

Figure 1-3: USB power supply connected

Ready for XMEGA board can be powered in two ways: via USB connection, or using external power sources such as adapters and laboratory power supplies. USB connection can provide up to 500mA of current which is more than enough for every on-board module and for operation of the microcontroller. If you decide to use external power supply, you can choose between AC/DC adapter connector or power screw terminals. Voltage values must be within 7-23V AC or 9-32V DC ranges. Power LED (GREEN) will indicate the presence of power supply. Use only one of suggested methods for powering the board. Page 8

VCC-3.3V

VREF-1.8V

VCC-3.3V 5 R15

E6

4

120K

10uF R13

R14

22K

12K1

U5 OUT IN GND ADJ EN

1

VCC-5V

3

2 C22

3

E4

2.2uF

AP7331-ADJ

1.8V VOLTAGE REGULATOR

VCC-5V

POWER LD1

330uF/6V

CN3

FP1

2

FERRITE

C1

E5

100nF

10uF

C18

100nF

C19 100nF

100nF

C10 100nF

VCC 1 2 3 GND 4 USB B

U1 1 L2

E2

Vout

3.3V VOLTAGE REGULATOR

VCC-5V

R56 2K2

Vin

D2

VCC-3.3V

MC33269DT3.3

C2

10uF

GND

VCC-USB

VCC-5V

MBRS140T3

FP2 FERRITE

REG1 1

AVCC

220uH

2 3

D6 MBRS140T3

C21 220pF

4

SWC

DRVC

SWE

IPK

CT

VIN

GND

CMPR

MC34063A

8

R12 0.22

D4

D1

1N4007

1N4007

D5

D3

1N4007

1N4007

7 VCC-EXT

6 5

+

VCC-5V R10 3K

CN4

E1 330uF/35V

R11 1K

5V SWITCHING POWER SUPPLY

Figure 1-4: Power supply schematics

Page 9

-

CN2

2. ATxmega128A1 microcontroller Ready for XMEGA development system comes with the ATxmega128A1 microcontroller. Having lots of MIPS power, flash and RAM, and rich set of inegrated modules, ATxmega128A1 is ideal choice for both beginners and professionals.

DATA BUS

ADC

Power/ Reset Control

DAC

Key microcontroller features

AC AES/DES Crypto Support

- Up to 32 MIPS Operation; - 8/16-bit architecture; - 128KB of Flash memory; - 8KB of SRAM memory;

I/O PORTS

DMA Controller

- 2048Bytes of EEPROM; - 78 I/O pins;

Event System Controller

- 32kHz RTC; - 1.6V to 3.6V Operating Voltage (VCC); - UART, SPI, TWI;

TIMERS/CO

UNTERS

- ADC, DAC, AC; etc.

Page 10

Debug/Prog

. interface

BOD

VREF

OCD

Temp sensor

RTC

AVR CPU

OSC/CLK

FLASH RAM EEPROM

Watchdog Ti mer Interrupt Co nt

roller

EBI

DATA BUS EVENT ROUT ING NETWOR K

UART/SPI/T W

I/ COMMUN

ICATION

3. Programming the microcontroller Figure 3-1: ATxmega128A1

The microcontroller can be programmed in three ways: 01 Via USB-UART mikroBootloader 02 Using JTAG external programmer 03 Using PDI external programmer Page 11

Programming with mikroBootloader You can program the microcontroller with bootloader which is preprogrammed into the device by default. To transfer .hex file from a PC to MCU you need bootloader software (mikroBootloader USB HID) which can be downloaded from:

mikroBootloader software note

Before starting mikroBootloader software, connect Ready for XMEGA with a PC using USB cable provided with the package

http://www.mikroe.com/eng/downloads/get/1271/ mikrobootloader_xmega_v101.zip After software is downloaded, unrar it to a desired location, and start mikroBootloader USB HID software.

Figure 3-2: mikroBootloader window 01

note

This version of mikroBootloader is specialized for ATxmega128A1 chip. Page 12

When you start mikroBootloader software, a window shown on Figure 3-2 should appear.

Identifying device COM port

step 1 – Choosing COM port

01

01

02

03 Figure 3-4: Choosing COM port

Figure 3-3: Identifying COM port 01

Open Device Manager window and expand Ports section to see which COM port is assigned to Ready for XMEGA board (in this case COM34)

01

Click the ”Change Settings” button.

02

From the drop down list, select appropriate COM port which is used for communication with a PC

03

Click OK.

Page 13

step 2 - Establishing Connection

step 3 - Browsing for .HEX file

note: Baud rate is set to 115200bps by default.

01 01

Figure 3-5: Connecting with mikroBootloader

Figure 3-6: Browse for HEX

01 Press ”Reset” button on Ready for XMEGA board and click ”Connect” button within 5s, otherwise existing microcontroller program will execute. If connected, caption on a button will be changed to ”Disconnect”.

01 Click the ”Browse for HEX” button and from a pop-up window (Figure 3.7) choose .HEX file which will be uploaded to MCU memory

Page 14

step 4 - Selecting .HEX file

step 5 - Uploading .HEX file

01

01

02

Figure 3-7: Locating and Selecting .hex file

Figure 3-8: Begin uploading

01 Select .HEX file using open dialog window.

01 To start .HEX file bootloding click the ”Begin uploading” button.

02 Click the ”Open” button.

Page 15

step 6 - Progress bar

step 7 - Finish upload

01 01

Figure 3-9: Progress bar

Figure 3-10: Restarting MCU

01 You can monitor .HEX file uploading via progress bar.

01 Click ”OK” button after uploading is finished. 02 Press ”Reset” button on Ready for XMEGA board and wait for 5 seconds. Your program will execute automatically. Page 16

Programming with JTAG programmer Figure 3-11: placing 10 pin header

Figure 3-12: connecting JTAG programmer

Ready for XMEGA board contains JTAG connector pads so you can program the board and debug your code using external programer/ debugger. Before connecting the programmer you have to solder the provided IDC10 2x5 male header onto the board’s JTAG connector pads. If bootloader program is accidentally erased, you can upload it again via AVR JTAG or PDI programmer. Ready for XMEGA Bootloader Firmware.hex can be found under Firmware folder (see page 12). Page 17

Programming with PDI programmer Figure 3-13: placing 6 pin header

The board is also equipped with PDI connector pads, which allow you to program the microcontroller using external serial PDI programmer. Before attaching the programming connector, you have to solder the provided 2x3 male header to the board’s PDI connector pads. Page 18

Figure 3-14: Connecting PDI programmer

PK7 PK6 PK5 PK4 PK3 PK2 PK1

PR1 PR0 RESET# PDI PQ3 PQ2 PQ1/TOSC2 PQ0/TOSC1

PA5 PA4 PA3 PA2 PA1 VREF-1.8V

AVCC

VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V

VCC-3.3V

C6

C11

C12

C13

100nF

100nF

100nF

100nF

100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76

VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V

75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51

C16

C17

100nF

100nF

100nF

PK0 PJ7 PJ6 PJ5 PJ4 PJ3 PJ2 PJ1 PJ0

Decoupling capacitors VCC-3.3V

CN8

PDI RESET#

PDI PH7 PH6 PH5 PH4 PH3 PH2 PH1 PH0 PF7 PF6

VCC-3.3V PB6/TCK PB7/TDO PB4/TMS

VCC-3.3V

CN6 RESET#

PB5/TDI

JTAG

22pF

Figure 3-15: PDI & JTAG programmer connection schematics Page 19

32.768kHz

PQ1/TOSC2 PQ0/TOSC1

R1 27 R2 27

PF0 PF1 PF2 PF3 PF4 PF5

R4 27

PE0 PE1 PE2 PE3 PE4 PE5 PE6 PE7

PD0

R3 27

ATxmega128A1

PK0 VCC GND PJ7 PJ6 PJ5 PJ4 PJ3 PJ2 PJ1 PJ0 VCC GND PH7 PH6 PH5 PH4 PH3 PH2 PH1 PH0 VCC GND PF7 PF6

C15

100nF

PD1 PD2 PD3 PD4 PD5 PD6 PD7 GND VCC PE0 PE1 PE2 PE3 PE4 PE5 PE6 PE7 GND VCC PF0 PF1 PF2 PF3 PF4 PF5

PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7

PA6 PA7 GND AVCC PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 GND VCC PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 GND VCC PD0

C14

26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

PB0 PB1 PB2 PB3 PB4/TMS PB5/TDI PB6/TCK PB7/TDO

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

PD1 PD2 PD3 PD4 PD5 PD6 PD7

PA6 PA7

PA5 PA4 PA3 PA2 PA1 PA0 AVCC GND XTAL1/PR1 XTAL2/PR0 RESET/PDI PDI PQ3 PQ2 TOSC2/PQ1 TOSC1/PQ0 GND VCC PK7 PK6 PK5 PK4 PK3 PK2 PK1

U4

C4

X2

22pF

C3

4. USB-UART Fast on-board FTDI® chip allows you to communicate with a PC or other UART devices using USB-UART connection. USB-B connector (CN3) is used for connecting the USB cable. RX (receive) and TX (transmit) LEDs will indicate communication status. Before conecting the board with the PC, make sure to have the appropriate FTDI drivers installed on your operating system. Drivers can be found at following URL:

Figure 4-1: USB-UART connected

http://www.ftdichip.com/Drivers/VCP.htm VCC-3.3V PC2

PC3

RX-MCU

J2

DATA BUS

J3

TX-MCU

1 2 3 4 5 6 7 8 9 10 11 12 13 14

VCC-5V

U2 TXD OSCO DTR# OSCI RTS# TEST VCCIO AGND RXD NC RI# CBUS0 GND CBUS1 FT232RL GND NC DSR# VCC DCD# RESET# CTS# GND CBUS4 3V3OUT CBUS2 USBDM CBUS3 USBDP FT232RL

28 27 26 25 24 23 22 21 20 19 18 17 16 15

R57 2K2

RX-LED TX-LED

RX LD2

VCC-5V R58 2K2 TX LD3

CN3 VCC 1

D2 MBRS140T3

USBDM

D- 2

USBDP

D+ 3 GND 4

FP1

VCC-FTDI

USB B

FERRITE

VCC-FTDI VCC-3.3V VCC-FTDI C10

C8 100nF

VCC-USB

VCC-5V

Figure 4-2: USB-UART schematics Page 20

100nF

C5

C9

E3

100nF

100nF

10uF

5. Prototyping area

Figure 5-2: schematics of three LEDs connected to microcontroller pins as shown in Figure 5-1

Figure 5-1: Proto area usage

PJ2

PJ1

PJ0

DATA BUS GREEN

RED

YELLOW

LD1

LD2

LD3

R1

R2

R3

Proto area allows you to expand your Ready for XMEGA board with additional functionalities. That can be done by placing your additional components on available prototyping area. Pads are arranged in standard 100mils distance form factor. There are 20 connected lines on both halves of the breadboard area, and each line consists of 5 soldering pads, which are on the same voltage level (connected to each other) .

Page 21

VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V C6

C11

C12

C13

100nF

100nF

100nF

100nF

VCC-5V

PH0 PH1 PH2 PH3 PH4 PH5 PH6 PH7 PB0 PB1 PB2 PB3 PB4/TMS PB5/TDI PB6/TCK PB7/TDO PF4 PF5 PF6 PF7 RESET# PDI

6. Pin headers VCC-3.3V

2x26 header

C17

100nF

100nF

PK7 PK6 PK5 PK4 PK3 PK2 PK1

VCC-3.3V

VCC-3.3V

PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 PD0

R4 27

PA6 PA7 GND AVCC PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 GND VCC PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 GND VCC PD0

ATXmega128A1

PK0 VCC GND PJ7 PJ6 PJ5 PJ4 PJ3 PJ2 PJ1 PJ0 VCC GND PH7 PH6 PH5 PH4 PH3 PH2 PH1 PH0 VCC GND PF7 PF6

75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51

PK0 PJ7 PJ6 PJ5 PJ4 PJ3 PJ2 PJ1 PJ0 PH7 PH6 PH5 PH4 PH3 PH2 PH1 PH0 PF7 PF6

VCC-3.3V

PA1 PA2 PA3 PA4 PA5 PA6 PA7 PJ0 PJ1 PJ2 PJ3 PJ4 PJ5 PJ6 PJ7 PK0 PK1 PK2 PK3 PK4 PK5 PK6 PK7 PR0 PR1 PQ2 PQ3

PA1 PA2 PA3 PA4 PA5 PA6 PA7 PJ0 PJ1 PJ2 PJ3 PJ4 PJ5 PJ6 PJ7 PK0 PK1 PK2 PK3 PK4 PK5 PK6 PK7 PR0 PR1 PQ2 PQ3

2x30 header

22pF PQ1/TOSC2 PQ0/TOSC1

R1 27 R2 27

32.768kHz

Figure 6-1: Connection schematics of pin headers

R3 27

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

PF0 PF1 PF2 PF3 PF4 PF5

PB0 PB1 PB2 PB3 PB4/TMS PB5/TDI PB6/TCK PB7/TDO

PA5 PA4 PA3 PA2 PA1 PA0 AVCC GND XTAL1/PR1 XTAL2/PR0 RESET/PDI PDI PQ3 PQ2 TOSC2/PQ1 TOSC1/PQ0 GND VCC PK7 PK6 PK5 PK4 PK3 PK2 PK1

PA6 PA7

Figure 6-2: Pin headers

Decoupling capacitors

100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76

PR1 PR0 RESET# PDI PQ3 PQ2 PQ1/TOSC2 PQ0/TOSC1

C16

100nF

U4

PE0 PE1 PE2 PE3 PE4 PE5 PE6 PE7

2x30 header

C15

100nF

PD1 PD2 PD3 PD4 PD5 PD6 PD7 GND VCC PE0 PE1 PE2 PE3 PE4 PE5 PE6 PE7 GND VCC PF0 PF1 PF2 PF3 PF4 PF5

PF3 PF2 PF1 PF0 PE7 PE6 PE5 PE4 PE3 PE2 PE1 PE0 PD7 PD6 PD5 PD4 PD3 PD2 PD1 PD0 PC7 PC6 PC5 PC4 PC3 PC2 PC1 PC0

AVCC

C14

26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

PF3 PF2 PF1 PF0 PE7 PE6 PE5 PE4 PE3 PE2 PE1 PE0 PD7 PD6 PD5 PD4 PD3 PD2 PD1 PD0 PC7 PC6 PC5 PC4 PC3 PC2 PC1 PC0

PA5 PA4 PA3 PA2 PA1 VREF-1.8V

VCC-5V

PD1 PD2 PD3 PD4 PD5 PD6 PD7

VCC-5V

VCC-5V

PH0 PH1 PH2 PH3 PH4 PH5 PH6 PH7 PB0 PB1 PB2 PB3 PB4/TMS PB5/TDI PB6/TCK PB7/TDO PF4 PF5 PF6 PF7 RESET# PDI

VCC-3.3V

Decoupling capacitors

VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V

22pF

Page 22

C4

X2

C3

Each microcontroller pin is available for futher connections through on-board connection headers. Each line is available in two header pins. Pins are groupped according to their functions, which makes development and connections much easier. Everything is printed on the silkscreen, so you won’t even have to open the microcontroller datasheet while developing. Before using the pins, you have to solder the provided 2x30 and 2x26 male headers onto the board’s pads.

7. Reset button

22pF

VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V C6

C11

C12

C13

100nF

100nF

100nF

100nF

VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V C14

C15

C16

C17

100nF

100nF

100nF

100nF

Decoupling capacitors

PA6 PA7 GND AVCC PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 GND VCC PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 GND VCC PD0

PQ1/TOSC2 PQ0/TOSC1

ATXmega128A1

PD1 PD2 PD3 PD4 PD5 PD6 PD7 GND VCC PE0 PE1 PE2 PE3 PE4 PE5 PE6 PE7 GND VCC PF0 PF1 PF2 PF3 PF4 PF5

32.768kHz

PQ1/TOSC2 PQ0/TOSC1

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

PA5 PA4 PA3 PA2 PA1 PA0 AVCC GND XTAL1/PR1 XTAL2/PR0 RESET/PDI PDI PQ3 PQ2 TOSC2/PQ1 TOSC1/PQ0 GND VCC PK7 PK6 PK5 PK4 PK3 PK2 PK1

U4

22pF

X2

VCC-3.3V

100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76

100nF

RESET

C4

100

26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

C7

C3

AVCC

R9

T1

RESET#

VCC-3.3V R8 10K

Figure 7-1: Reset button connection schematics

Page 23

PK0 VCC GND PJ7 PJ6 PJ5 PJ4 PJ3 PJ2 PJ1 PJ0 VCC GND PH7 PH6 PH5 PH4 PH3 PH2 PH1 PH0 VCC GND PF7 PF6

75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51

Ready for XMEGA board has a specialized reset circuit with high-quality reset button, which can be used to reset the program execution of the microcontroller. If you want to reset the circuit, press on-board RESET button. It will generate low voltage level on microcontroller reset pin (input). In addition, a reset can be externally provided through RST pin on 2x26 header (Figure 6-1).

8. Piezo buzzer On-board piezo buzzer is a very useful module which can be used in debuging your code, or to have audio signalization feature when board is integrated as a final product. Piezo buzzer’s resonant frequency is 3.8kHz. In addition, other frequencies in the range between 20Hz and 20.000Hz can be used, but the best performance is provided by frequencies ranging between 2kHz and 4kHz. VCC-5V

PZ1

AVCC PERSPECTIVE VIEW

VCC-3.3V

100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76

R29 1K

PQ2 PQ1/TOSC2 PQ0/TOSC1

TOP VIEW

10K

C3

22pF

X2

C4

32.768kHz

Figure 8-1: Piezo buzzer

PQ1/TOSC2 PQ0/TOSC1

22pF

VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V C6

C11

C12

C13

100nF

100nF

100nF

100nF

VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V

Figure 8-2: Piezo buzzer connection schematics

C14

C15

C16

C17

100nF

100nF

100nF

100nF

Decoupling capacitors

Page 24

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

PA6 PA7 GND AVCC PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 GND VCC PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 GND VCC PD0

ATXmega128A1

PD1 PD2 PD3 PD4 PD5 PD6 PD7 GND VCC PE0 PE1 PE2 PE3 PE4 PE5 PE6 PE7 GND VCC PF0 PF1 PF2 PF3 PF4 PF5

PQ2

26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

R27

PA5 PA4 PA3 PA2 PA1 PA0 AVCC GND XTAL1/PR1 XTAL2/PR0 RESET/PDI PDI PQ3 PQ2 TOSC2/PQ1 TOSC1/PQ0 GND VCC PK7 PK6 PK5 PK4 PK3 PK2 PK1

U4 Q12 BC846

PK0 VCC GND PJ7 PJ6 PJ5 PJ4 PJ3 PJ2 PJ1 PJ0 VCC GND PH7 PH6 PH5 PH4 PH3 PH2 PH1 PH0 VCC GND PF7 PF6

75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51

9. Integrating with the casing

Figure 9-1: Place the board into the bottom part of the casing. Make sure to align the connectors with the square openenings

Figure 9-2: Wind screws into inner screw holes to mount the board to the bottom casing plastic

Figure 9-2: Place cover casing plastic and wind screws into outter screw holes for connecting it with bottom plastics

Ready for XMEGA can easily be integrated into the specialized white plastic casing. This feature is very convenient for turning the board into a final product. The white plastic casing contains inner and outter screw holes. Inner are used for attaching the board to the casing and outter are used for connecting the top part of the casing, and enclosing the board. Casing comes with holes for USB and power adapter connector, but you can customize it by driling and cutting holes in specific areas, depending on the target application. Page 25

10. Dimensions

(510 mils) 12.59 mm

(1839 mils) 46.7 mm (1268 mils) 32.2 mm

(360 mils) 9.14 mm (100 mils) 2.54 mm

(975 mils) 24.76 mm

(4882 mils) 124 mm (5551 mils) 141 mm

Page 26

(3307 mils) 84 mm

(2598 mils) 66 mm

(1890 mils) 48 mm

(100 mils) 2.54 mm

(220 mils) 5.59 mm

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™, AVRProg™, Ready for XMEGA™, EasyAVR™, EasyAVR PRO™, Click Boards™ and mikromedia™ are trademarks of MikroElektronika. All other trademarks mentioned herein are property of their respective companies. All other product and corporate names appearing in this manual may or may not be registered trademarks or copyrights of their respective companies, and are only used for identification or explanation and to the owners’ benefit, with no intent to infringe. Copyright © MikroElektronika, 2012, All Rights Reserved. Page 27

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Ready for XMEGA Manual ver. 1.00

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