Atmel Xplained Evaluation Board ATXMEGAB1-XPLD ATXMEGAB1-XPLD Fiche De Données
Codes de produits
ATXMEGAB1-XPLD
2
Atmel AVR1926
8439A-AVR-09/11
2 What is needed to get started?
To be able to run the preprogrammed code, you need the Atmel AVR XMEGA-B1
Xplained evaluation kit and a USB cable (Standard-A to Mini-B according to USB.org)
to connect the board to a PC.
Xplained evaluation kit and a USB cable (Standard-A to Mini-B according to USB.org)
to connect the board to a PC.
To modify the example code or to write new code and compile it, you need a
toolchain for Atmel AVR microcontrollers and an integrated development environment
(IDE) to edit and debug code. In
toolchain for Atmel AVR microcontrollers and an integrated development environment
(IDE) to edit and debug code. In
, Atmel provides an IDE and
the Atmel AVR GNU Toolchain. Other IDEs and toolchains are also available, such as
the IAR Embedded Workbench
the IAR Embedded Workbench
®
.
If you also want to debug the code at runtime, you will need a debugger like the Atmel
AVR JTAGICE 3, Atmel AVR JTAGICE mkII, or Atmel AVR ONE!. More information
on these tools is available from the Atmel website. See the reference section later in
this document for more details.
AVR JTAGICE 3, Atmel AVR JTAGICE mkII, or Atmel AVR ONE!. More information
on these tools is available from the Atmel website. See the reference section later in
this document for more details.
2.1 Documentation for XMEGA-B1 Xplained
The AVR1912: XMEGA-B1 Xplained Hardware User’s Guide package includes all in-
depth information about the kit, such as schematics, BOM, assembly drawings, 3D
plots, and more. The package is available from the Atmel website:
depth information about the kit, such as schematics, BOM, assembly drawings, 3D
plots, and more. The package is available from the Atmel website:
2.2 Atmel AVR Software Framework
Integrated in AVR Studio 5 is the AVR Software Framework (ASF), a collection of
production-ready source code, written and optimized by experts and tested in
hundreds of production designs. Using these peripheral drivers, communication
stacks and application-specific libraries is a quick and effortless way to complete a
project. The ASF uses a set of standard Application Programming Interfaces APIs
across all Atmel AVR microcontrollers. They simplify how your application code
interfaces with chip peripherals and communication interfaces, ensuring that your
application code migrates even easier across the whole range of AVR
microcontrollers.
production-ready source code, written and optimized by experts and tested in
hundreds of production designs. Using these peripheral drivers, communication
stacks and application-specific libraries is a quick and effortless way to complete a
project. The ASF uses a set of standard Application Programming Interfaces APIs
across all Atmel AVR microcontrollers. They simplify how your application code
interfaces with chip peripherals and communication interfaces, ensuring that your
application code migrates even easier across the whole range of AVR
microcontrollers.
2.3 IDEs for Atmel AVR microcontrollers
2.3.1 AVR Studio 5
AVR Studio 5 is a free IDE for developing applications for all AVR microcontrollers. It
offers an advanced editor as well as programming and debugging support.
offers an advanced editor as well as programming and debugging support.
Atmel AVR Studio 5 (free Atmel IDE)
2.3.2 Embedded Workbench for Atmel AVR
IAR™ Embedded Workbench is an integrated development environment with project
management tools and editor.
management tools and editor.
IAR Embedded Workbench for Atmel AVR