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文档 ATxmega128A1U
Atmel AVR XMEGA AU Manual
(文件大小: 7.2MB, 478 页数, 修订版 F, 更新时间: 04/2013)
ATxmega64A1U/128A1U Complete
(文件大小: 12.1MB, 216 页数, 修订版 I, 更新时间: 10/2014)
Application Note
Atmel AT01080: XMEGA E Schematic Checklist
(文件大小: 249KB, 11 页数, 修订版 A, 更新时间: 04/2013)
This application note describes a common checklist which should be used when
starting and reviewing the schematics for an Atmel(R) AVR(R) XMEGA(R) E design.
Atmel AT01084: XMEGA E Using the XCL Module
(文件大小: 797KB, 35 页数, 修订版 B, 更新时间: 09/2014)
The Atmel(R) AVR(R) XMEGA(R) Custom Logic (XCL) is a new module on the XMEGA E devices. Using the two dedicated 8-bit timer/counter with the two configurable Look Up Tables, the user can generate any combinatorial or sequential logic expressions as well as proprietary protocols.
Atmel AT01482: XMEGA RTC Calibration
(文件大小: 382KB, 8 页数, 修订版 A, 更新时间: 04/2013)
This application note provide example software project which performs RTC calibration with help of an external accurate clock source. The software will calculate the RTC calibration value for connected RTC clock source.
Atmel AT01616: Using the WeX Timer/Counter Extension
(文件大小: 505KB, 30 页数, 修订版 A, 更新时间: 04/2013)
This application note describes the various functions of the Waveform Extension
(WeX) to Timer/Counter 4/5 available on the Atmel(R) AVR(R) XMEGA(R) E.
Atmel AT01617: Using the FAULT Timer/Counter Extension
(文件大小: 2.1MB, 24 页数, 修订版 A, 更新时间: 04/2013)
This application note describes the various functions of the FAULT Extension to the Timer/Counter available on the Atmel(R) AVR(R) XMEGA(R) E. This extension provides a hardware control of switching applications. It also includes details on the differences and improvements according to Timer/Counters of the Atmel XMEGA A/B/C/D series (see the AVR1311: Using the XMEGA Timer/Counter Extensions application note for the XMEGA A/B/C/D series).
Atmel AT02509: In House Unit with Bluetooth Low Energy Module Hardware User Guide
(文件大小: 1MB, 14 页数, 修订版 B, 更新时间: 09/2013)
This application note describes the design details of the In House Unit (IHU) project. The IHU design with CSR Bluetooth Low Energy (BLE) module is a platform to evaluate the integration of the BLE module and the Atmel AVR XMEGA microcontroller. It contains a fixed inteface with BLE and LCD and demos the basic communication between them. It is quite easy for the user to get started using AVR XMEGA peripherals.
Atmel AT02657: XMEGA-E5 Xplained Software User Guide
(文件大小: 1226KB, 13 页数, 修订版 A, 更新时间: 04/2013)
The Atmel(R) XMEGA(R)-E5 Xplained evaluation kit demo software is created to showcase the Atmel AVR(R) ATxmega32E5 device. The demo samples the light sensor connected on ADC and sent the values on the OLED display.
Atmel AT02667: XMEGA-E5 Xplained Hardware User Guide
(文件大小: 657KB, 14 页数, 修订版 A, 更新时间: 04/2013)
The Atmel(R) XMEGA-E5 Xplained kit is a MCU board for Atmel AVR(R) XMEGA(R). It features an
ATxmega32E5 and additional components demonstrating the features of the device.
Atmel AT03160: Migrating Bootloader from ATxmega128A1 to other Atmel XMEGA Devices
(文件大小: 632KB, 16 页数, 修订版 A, 更新时间: 07/2013)
This application note describes how to migrate bootloader from Atmel(R) ATxmega128A1 to other AVR(R) XMEGA(R) devices step by step.
Atmel AT03922: DALI Slave with XMEGA E - Software User's Guide
(文件大小: 438KB, 16 页数, 修订版 B, 更新时间: 01/2014)
This application shows DALI slave LED module function that compliant with standard IEC62386. Stack is in dali-&dali_lib folder, drivers in ASF folder, and others are application. The slave should be controlled by master.
Atmel AT04204: Design a Buck Converter with XMEGA
(文件大小: 776KB, 16 页数, 修订版 A, 更新时间: 09/2013)
The application note will introduce the working principle of the Buck converter, and give a guide on how to design a Buck converter with XMEGA E device in both hardware and firmware aspects.
Atmel AT06015: Production Programming of Atmel Microcontrollers
(文件大小: 559KB, 14 页数, 修订版 C, 更新时间: 01/2015)
This application note provides an overview of 3rd party programming tools that can be used to program Atmel microcontrollers in small and large scale production environments. It also provides suggestions for suppliers of pre-programming services.
Atmel AT06409: DALI Master with ATxmega32E5 User Guide
(文件大小: 1.8MB, 25 页数, 修订版 B, 更新时间: 01/2014)
The kit offers a standard DALI Master features which follow the DALI protocol. It enables the Atmel AVR XMEGA user to get started using XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AT08569: Optimizing ASF Code Size to Minimize Flash and RAM Usage
(文件大小: 1.6MB, 19 页数, 修订版 A, 更新时间: 09/2014)
ASF is a general solution that works across many architectures, and is written to illustrate how to use most of the features Atmel microcontrollers provide. A single application typically only needs a subset of this functionality, and there are a number of ways to tune of the Atmel Software Framework implementation.This application note explores various approaches to minimizing ASF application memory requirements.
Atmel AT09331: ASF USB Stack Manual
(文件大小: 2MB, 246 页数, 修订版 A, 更新时间: 12/2014)
This application note describes the USB Stack Usage for the Atmel SAM/AVR devices.
Atmel AT09332: USB Device Interface (UDI) for Communication Class Device (CDC)
(文件大小: 531KB, 55 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for the USB Device Stack CDC driver - UDI CDC.
Atmel AT09333: USB Host Interface (UHI) for Communication Class Device (CDC)
(文件大小: 321KB, 31 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for USB Host Stack CDC driver - UHI CDC.
Atmel AT09334: USB Device Interface (UDI) for Human Interface Device Generic (HID Generic)
(文件大小: 356KB, 37 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for USB Device Stack HID Generic driver - UDI HID Generic.
Atmel AT09335: USB Device Interface (UDI) for Human Interface Device Keyboard (HID Keyboard)
(文件大小: 360kB, 36 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for USB Device Stack HID Keyboard driver - UDI HID Keyboard.
Atmel AT09336: USB Device Interface (UDI) for Human Interface Device Mouse (HID Mouse)
(文件大小: 390KB, 38 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for USB Device Stack HID Mouse driver - UDI HID Mouse.
Atmel AT09337: USB Host Interface (UHI) for Human Interface Device Mouse (HID Mouse)
(文件大小: 297KB, 28 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for USB Host Stack HID Mouse driver - UHI HID.
Atmel AT09338: USB Device Interface (UDI) for Mass Storage Class (MSC)
(文件大小: 440KB, 49 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for the USB Device Stack MSC driver - UDI MSC.
Atmel AT09339: USB Host Interface (UHI) for Mass Storage Class (MSC)
(文件大小: 343KB, 32 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for USB Host Stack MSC driver - UHI MSC.
Atmel AT09340: USB Device Interface (UDI) for Vendor Class Device
(文件大小: 393KB, 41 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for USB Device Stack Vendor driver - UDI Vendor.
Atmel AT09341: USB Host Interface (UHI) for Vendor Class Device
(文件大小: 323KB, 30 页数, 修订版 A, 更新时间: 12/2014)
This document describes use cases for USB Host Stack Vendor driver - UHI Vendor.
Atmel AT11487: Low Power Consumption Techniques for XMEGA XPLAINED Kit
(文件大小: 790KB, 22 页数, 修订版 A, 更新时间: 05/2015)
This Application note explains the techniques for achieving the lowest possible power figures for XMEGA Xplained kits, it also explains how current consumption of the device can be reduced while a peripheral (ADC is used as reference) is running.
Atmel AT1886: Mixing Assembly and C with AVRGCC
(文件大小: 140KB, 8 页数, 修订版 B, 更新时间: 11/2012)
This application note describes how to mix both C and assembly code in an AVRGCC project using Atmel Studio 6 IDE. The application note is written from the perspective that C is the language of choice and assembly language is included in situations where it is either necessary or convenient.
Atmel AVR1017: XMEGA - USB Hardware Design Recommendations
(文件大小: 326KB, 12 页数, 修订版 A, 更新时间: 07/2012)
This document introduces a set of recommendations that cover the following technical topics:
USB 2.0 full speed and low speed electrical complianceEFTB (electrical fast transient burst)Global EMC performance
Atmel AVR1019: Migration from ATxmega128A1/64A1 to ATxmegaU
(文件大小: 80662, 10 页数, 修订版 A, 更新时间: 10/2011)
This application note is a guide to assist users of Atmel(R) ATxmega128A1/64A1 in converting designs to Atmel ATxmega128A1U/64A1U. For complete device details, always refer to the most recent version of the ATxmega128A1U/64A1U datasheet and the Atmel AVR(R) XMEGA(R) AU manual.
Atmel AVR116: Wear Leveling on DataFlash
(文件大小: 629KB, 25 页数, 修订版 A, 更新时间: 07/2012)
This application note describes the use of the Flash Translation Layer (FTL) interface. It describes the features, structure and interface of the FTL library, and how to use this library in Atmel Studio. Flash memory has a limited program/erase lifecycle and programming and erasing the same block many times will result in bad blocks and shortened flash memory life. The intermediate software layer, FTL, addresses this issue.
Atmel AVR127: Understanding ADC parameters
(文件大小: 288KB, 20 页数, 修订版 C, 更新时间: 10/2013)
This application note discusses about the basic concepts of analog-to-digital converter (ADC) and the various parameters that determine the performance of an ADC. These ADC parameters are of good importance since they are a part of deciding the accuracy of the ADC's output.
Atmel AVR1300: Using the XMEGA ADC
(文件大小: 879KB, 27 页数, 修订版 I, 更新时间: 06/2013)
This application note describes the basic functionality of the Atmel(R) AVR(R) XMEGA(R) ADC with code examples to get up and running quickly. A driver interface written in C is included as well.
Atmel AVR1304: Using the XMEGA DMA Controller
(文件大小: 200KB, 11 页数, 修订版 D, 更新时间: 05/2013)
This application note describes the basic functionality of the XMEGA DMAC with code examples to get up and running quickly. A driver interface written in C is included as well.
Atmel AVR1324: XMEGA ADC Selection Guide
(文件大小:
页数, 修订版 A, 更新时间: 10/2011)
Depending on the selected family, Atmel(R) AVR(R) XMEGA(R) devices offer two ADC types. Both are flexible modules suitable for a wide range of applications, such as data acquisition, embedded control, and general signal processing. This application note describes these two ADC types and helps users to select the most suitable ADC for their application.
Atmel AVR1327: Two Wire Interface (TWI) Slave Bootloader for Atmel AVR XMEGA
(文件大小: 34261, 15 页数, 修订版 A, 更新时间: 09/2011)
This document discusses a general purpose Atmel(R) AVR(R) XMEGA(R) Bootloader that is first programmed into the ATxmega device.
Atmel AVR1605: XMEGA Boot Loader Quick Start Guide
(文件大小: 765KB, 15 页数, 修订版 B, 更新时间: 07/2014)
This application note describes how to use a boot loader application with one of the Atmel(R) AVR(R) XMEGA(R) family devices (e.g. ATxmega128A1) and how an AVR with the Store Program Memory (SPM) instruction can be configured for Self-programming.
Atmel AVR1610: Guide to IEC 60730 Class B Compliance with XMEGA
(文件大小: 367KB, 25 页数, 修订版 A, 更新时间: 07/2012)
IEC 60730 is a safety standard for household appliances that addresses many aspects of both product design and operation. This standard is also referred to by other standards for safety-critical devices, for example, IEC 60335. System-wide compliance with this standard is necessary for an appliance to be certified as safe to operate. This application note is a guide to compliance with Annex H of the standard, which regards electronic controls.
Atmel AVR1612: PDI programming driver
(文件大小:
页数, 修订版 A, 更新时间: 11/2010)
This application note describes how to implement PDI programming. It is based on the Atmel(R) Xplain evaluation board and clarifies the protocol and timing of the PDI programming.
Atmel AVR1614: Widget Toolkit - Getting Started
(文件大小: 515KB, 13 页数, 修订版 B, 更新时间: 07/2012)
The aim of this document is to introduce the Window system and Widget toolkit (WTK) which is used in the Display Xplained software library.
Atmel AVR1622: TWI Boot Loader for XMEGA
(文件大小:
页数, 修订版 A, 更新时间: 09/2011)
This application note describes how to use boot loader of the Atmel(R) AVR(R) XMEGA(R) family of devices to update the application section and how XMEGA can be configured for self programming. The target device used for demonstration is the Atmel ATxmega128A1 on the Atmel STK(R)600.
Atmel AVR1629: XMEGA ADC Oversampling
(文件大小: 293KB, 12 页数, 修订版 A, 更新时间: 03/2012)
The XMEGA controller offers an analog to digital converter with 12-bit resolution. In most cases 12-bit resolution is sufficient, but in some cases higher accuracy is desired. Special signal processing techniques can be used to improve the resolution of the measurement. By using a method called ‘Oversampling and Decimation’ higher resolution might be achieved, without using an external ADC. For example by using 12-bit XMEGA ADC, a 16-bit result could be achieved with oversampling technique. This application note explains the method, and conditions needed to be fulfilled to make this method work properly. This application note also provides source code as per explained theory to achieve this oversampling technique.
Atmel AVR1631: Single Phase Energy Meter using XMEGA A
(文件大小: 1.7MB, 39 页数, 修订版 A, 更新时间: 11/2012)
This application note describes single-phase electronic energy meter solution with tamper detection logic. The design is low-cost and measures active power, apparent power, power factor, voltage, and current in a single-phase distribution environment.
Atmel AVR1636: Configurable PMSM Sensorless Field Oriented Control using the XMEGA
(文件大小: 2704KB, 46 页数, 修订版 A, 更新时间: 01/2013)
This application note describes a configurable 3-phase permanent magnet synchronous motor (PMSM) sensorless field oriented control implementation using the ATxmega16D4 microcontroller.
Atmel AVR1638: XMEGA RTC Calibration
(文件大小: 248KB, 8 页数, 修订版 A, 更新时间: 11/2012)
This application note provide example software project which performs RTC calibration with help of an external accurate clock source. The software will calculate the RTC calibration value for connected RTC clock source for current environmental condition.
Atmel AVR1912: Atmel XMEGA-B1 Xplained Hardware User Guide
(文件大小: 845KB, 22 页数, 修订版 A, 更新时间: 06/2012)
The Atmel(R) AVR(R) XMEGA(R) B1 Xplained evaluation kit is a hardware platform to evaluate the Atmel ATxmega128B1 microcontroller. The kit offers a larger range of features that enables the Atmel AVR XMEGA user to get started using Atmel AVR XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AVR1924: XMEGA A1 Xplained Hardware User Guide
(文件大小: 190KB, 13 页数, 修订版 C, 更新时间: 05/2012)
The Atmel(R) AVR(R) XMEGA(R) A1 Xplained evaluation kit is a hardware platform to evaluate the Atmel ATxmega128A1 microcontroller. The kit offers a larger range of features that enables the Atmel AVR XMEGA user to get started using XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AVR1926: XMEGA-B1 Xplained Getting Started Guide
(文件大小:
页数, 修订版 A, 更新时间: 10/2011)
The Atmel(R) AVR(R) XMEGA(R) B1 Xplained evaluation kit is a hardware platform to evaluate the Atmel ATxmega128B1 microcontroller. The kit offers a larger range of features that enables the Atmel AVR XMEGA user to get started using Atmel AVR XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AVR1927: XMEGA-A1 Xplained Getting Started Guide
(文件大小:
页数, 修订版 A, 更新时间: 04/2011)
The Atmel(R) AVR(R) XMEGA(R) A1 Xplained evaluation kit is a hardware platform to evaluate the Atmel ATxmega128A1 microcontroller.
The kit offers a larger range of features that enables the Atmel AVR XMEGA user to get started using Atmel AVR XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AVR1932: XPLORE Hardware User's Guide
(文件大小: 2821KB, 24 页数, 修订版 A, 更新时间: 07/2012)
The XPLORE evaluation kit/board is a well designed hardware platform to evaluate the Atmel AVR XMEGA family of the microcontrollers for its best analog performance.
Atmel AVR1934: XMEGA A3BU Xplained Software User Guide
(文件大小:
页数, 修订版 A, 更新时间: 09/2011)
The Atmel(R) AVR(R) XMEGA(R) A3BU Xplained evaluation kit demo software is created to showcase the XMEGA A3BU, touch button and LCD, using a simple menu navigation system, and small applications showcasing different features.
Atmel AVR1935: XMEGA A3BU Xplained Getting Started Guide
(文件大小:
页数, 修订版 B, 更新时间: 09/2011)
The Atmel(R) AVR(R) XMEGA(R) A3BU Xplained evaluation kit is a hardware platform to evaluate the Atmel ATxmega256A3BU microcontroller. The kit offers a larger range of features that enables the Atmel AVR XMEGA user to get started using XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AVR1936: XPLORE Getting Started Guide
(文件大小: 4161KB, 29 页数, 修订版 A, 更新时间: 07/2012)
This document contains information about how to get started with the Atmel ATxmega32A4(U)/D4 microcontroller using the XPLORE evaluation kit.
Atmel AVR1939: XMEGA-C3 Xplained Getting Started Guide
(文件大小: 835KB, 12 页数, 修订版 B, 更新时间: 02/2015)
The Atmel AVR XMEGA-C3 Xplained evaluation kit is a hardware platform to evaluate the Atmel ATxmega384C3 microcontroller. The kit offers a larger range of features that enables the Atmel AVR XMEGA user to get started using XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AVR32852: Building Custom Application using ASF Example Projects
(文件大小: 1.25MB, 27 页数, 修订版 A, 更新时间: 10/2012)
This application note describes the concept of building a custom application by re-using code from several ASF example projects.
Atmel AVR4027: Tips and Tricks to Optimize Your C Code for 8-bit AVR Microcontrollers
(文件大小: 38656, 18 页数, 修订版 A, 更新时间: 11/2011)
This application note covers some basic tips on C code optimization using avr-gcc. Both code and size optimization tips are described.
Atmel AVR600: STK600 Expansion, Routing and Socket
(文件大小: 725KB, 23 页数, 修订版 C, 更新时间: 04/2013)
This application note describes the process of developing new routing, socket and expansion cards for the STK600. It also describes the physical parameters for creating such cards.
Atmel AVR928: Scalar sensorless methods to drive BLDC motors
(文件大小: 487KB, 22 页数, 修订版 B, 更新时间: 07/2013)
This application note describes how to implement a sensorless commutation on BLDC motors and provides all information that is relevant for an implementation of sensorless commutation using the Atmel devices and Starter-kits.
Atmel AVR944: Atmel LED Driver Library for 8-bit AVR
(文件大小: 74421, 13 页数, 修订版 A, 更新时间: 11/2011)
Atmel MSLxxxx is a series of compact, high power LED drivers. This application note explains how to use 8-bit Atmel AVR(R) microcontrollers to interface with these LED drivers. MSLxxxx series of drivers feature either TWI or SPI interface to read and write to their internal registers. Atmel LED driver library provides easy to use wrapper functions to read/write to those registers using any 8-bit AVR as master. This library supports both TWI and SPI interfaces.
Atmel AVR947: Single-Wire Bootloader for any MCU with Self Programming Capability
(文件大小: 241KB, 19 页数, 修订版 A, 更新时间: 01/2013)
This application note discusses a bootloader specifically designed for devices lacking a separate bootloader section and any hardware communication modules. This design does not require any chip resources like TWI, SPI or UART modules. Instead, it implements a single-wire UART (as described in the Atmel(R) AVR(R)274: Single-wire Software UART, application note) in software, which requires only one general purpose IO-pin.
AVR067: JTAGICE mkII Communication Protocol
(文件大小:
页数, 修订版 D, 更新时间: 11/2009)
This document describes the communication protocol used between AVR Studio and JTAGICE mkII.
AVR069: AVRISP mkII Communication Protocol
(文件大小:
页数, 修订版 B, 更新时间: 02/2006)
This document describes the AVRISP mkII protocol. The firmware is distributed with AVR Studio 4.12 or later.
AVR079: STK600 Communication Protocol
(文件大小:
页数, 修订版 A, 更新时间: 04/2008)
This document describes the STK600 protocol. The firmware is distributed with AVR Studio 4.14 or later.
AVR1000: Getting Started Writing C-code for XMEGA
(文件大小:
页数, 修订版 A, 更新时间: 02/2008)
This application note describes the coding style behind header files and drivers for XMEGA this coding style ensures high readability, reusability and short development times of embedded code for electronic products.
AVR1001: Getting Started With the XMEGA Event System
(文件大小:
页数, 修订版 A, 更新时间: 02/2008)
This application note describes the XMEGA event system which is a set of features that allows peripherals to interact without intervention from the CPU. Several peripheral modules can generate events.
AVR1003: Using the XMEGA Clock System
(文件大小:
页数, 修订版 E, 更新时间: 11/2009)
This application note describes the XMEGA Clock System which is a set of highly flexible modules that provides a large portfolio of internal and external clock sources.
AVR1005: Getting started with XMEGA
(文件大小:
页数, 修订版 B, 更新时间: 11/2009)
This document briefly introduces the similarities and differences between the megaAVR family and the XMEGA family, and provides an overview of the available tool chain.
AVR1008: Writing EEPROM and Flash in XMEGA A3/D3/256A3B Revision B
(文件大小: 74225, 5 页数, 修订版 B, 更新时间: 04/2010)
This document describes a workaround for the errata "Writing EEPROM or Flash while reading any of them will not work" that is present on revision B of Atmel AVR XMEGA A3/D3 family and the revision B of the ATxmega256A3B. Please refer to the datasheet for details about the errata.
AVR1010: Minimizing the power consumption of XMEGA devices
(文件大小:
页数, 修订版 B, 更新时间: 12/2010)
This application note describes what must be done to achieve the lowest possible power consumption for XMEGA devices. Example code is also supplied, which compiles with both GCC and IAR Embedded Workbench.
AVR1012: XMEGA A Schematic Checklist
(文件大小:
页数, 修订版 B, 更新时间: 03/2010)
This application note describes a common checklist which should be used when starting and reviewing the schematics for a XMEGA A design.
AVR1014: MC303 Hardware User Guide
(文件大小: 1.45MB, 16 页数, 修订版 B, 更新时间: 08/2013)
The MC303 is the device board for ATxmega128A1 AVR(R) microcontroller which can be connected to the general-purpose power stage board MC300 for driving brushless DC, brushed DC and stepper motors.
AVR107: Interfacing AVR microcontrollers with serial memories
(文件大小:
页数, 修订版 A, 更新时间: 03/2005)
This application note describes the functionality and the architecture of SPI serial memories drivers as well as the motivation of the selected solution.
AVR121: Enhancing ADC resolution by oversampling
(文件大小:
页数, 修订版 A, 更新时间: 09/2005)
This Application Note explains the method called "Oversampling and Decimation" and which conditions need to be fulfilled to make this method work properly to achieve a higher resolution without using an external ADC.
AVR1301: Using the XMEGA DAC
(文件大小:
页数, 修订版 B, 更新时间: 04/2008)
This application note describes the basic functionality of the XMEGA DAC with code examples to get up and running quickly. A driver interface written in C is included as well.
AVR1302: Using the XMEGA Analog Comparator
(文件大小: 293KB, 7 页数, 修订版 C, 更新时间: 07/2013)
This application note describes the basic functionality of the XMEGA AC with code examples to get up and running quickly. A driver interface written in C is included as well.
AVR1303: Using the XMEGA IR communication module
(文件大小: 52947, 5 页数, 修订版 C, 更新时间: 07/2008)
This application note describes the basic functionality of the IRCOM module in the AVR XMEGA with code examples to get up and running quickly. A driver interface written in C is included as well.
AVR1305: using the XMEGA Interrupts and the Programmable Multi-level Interrupt Controller
(文件大小:
页数, 修订版 A, 更新时间: 02/2008)
This application note describes the XMEGA Interrupt mechanisms and the Programmable Multi-level Interrupt Controller (PMIC). The application note also offers a C code example that shows how the PMIC can be accessed.
AVR1306: Using the XMEGA Timer/Counter
(文件大小:
页数, 修订版 A, 更新时间: 02/2008)
This application note describes the XMEGA Timer/Counter modules which are true 16-bit Timer/Counters with Input Capture and PWM functionality. The application note also offers a C code example that shows how the Timer/Counters can be accessed.
AVR1307: Using the XMEGA USART
(文件大小:
页数, 修订版 A, 更新时间: 02/2008)
This application note describes how to set up and use the USART in asynchronous mode in the XMEGA. C code drivers and examples are included for both polled and interrupt controlled USART applications.
AVR1308: Using the XMEGA TWI
(文件大小:
页数, 修订版 A, 更新时间: 07/2009)
This application note describes how to set up and use the TWI module in the XMEGA. C code drivers and examples are included for both master and slave applications.
AVR1309: Using the XMEGA SPI
(文件大小:
页数, 修订版 A, 更新时间: 11/2009)
This application note describes how to set up and use the SPI module in the AVR XMEGA. Both interrupt controlled and polled C code drivers and examples are included for master and slave applications.
AVR1310: Using the XMEGA Watchdog Timer
(文件大小: 243KB, 9 页数, 修订版 C, 更新时间: 02/2015)
This application note describes how to set up and use the Watchdog Timer module in the AVR XMEGA. A driver interface written in C is included as well.
AVR1311: Using the XMEGA Timer/Counter Extensions
(文件大小:
页数, 修订版 A, 更新时间: 04/2008)
This application note describes how to set up and use the extension module available on some Timer/Counters of the XMEGA. A driver interface written in C is included as well.
AVR1312: Using the XMEGA External Bus Interface
(文件大小:
页数, 修订版 A, 更新时间: 06/2010)
This application note describes the basic functionality of the XMEGA EBI with code examples to get up and running quickly. A driver interface written in C is included as well.
AVR1313: Using the XMEGA IO Pins and External Interrupts
(文件大小:
页数, 修订版 A, 更新时间: 02/2008)
This application note describes the highly configurable XMEGA I/O pins and external interrupts. A driver interface written in C is included as well.
AVR1314: Using the XMEGA Real Time Counter
(文件大小:
页数, 修订版 A, 更新时间: 02/2008)
This application note describes the use of the 16-bit Real Time Counter (RTC) in the XMEGA. A driver interface written in C is included as well.
AVR1315: Using the XMEGA EEPROM
(文件大小: 86735, 8 页数, 修订版 B, 更新时间: 08/2010)
This application note describes the basic functionality of the Atmel(R) AVR(R) XMEGA(TM) EEPROM with code examples to get up and running quickly. A driver interface written in C is included as well.
AVR1316: Using the XMEGA Self-programming
(文件大小:
页数, 修订版 B, 更新时间: 11/2008)
This application note describes the basic functionality of the XMEGA Self-programming feature and gives code examples to get up and running quickly.
AVR1317: Using the XMEGA built-in DES accelerator
(文件大小:
页数, 修订版 A, 更新时间: 04/2008)
This application note describes the basic functionality of the XMEGA DES instructions with code examples to get up and running quickly. A driver interface written in C and Assembler is included as well.
AVR1318: Using the XMEGA built-in AES accelerator
(文件大小:
页数, 修订版 A, 更新时间: 04/2008)
This application note describes the basic functionality of the XMEGA AES with code examples to get up and running quickly. A driver interface written in C is included as well.
AVR1320: True 400 kHz operation for TWI slave
(文件大小:
页数, 修订版 A, 更新时间: 04/2010)
This application note describes a TWI slave driver implementation for AVR XMEGA that ensures that the clock is not stretched.
AVR1321: Using the Atmel AVR XMEGA 32-bit Real Time Counter and Battery Backup System
(文件大小:
页数, 修订版 B, 更新时间: 02/2011)
This application note covers the use of the 32-bit Real Time Counter and the battery backup system that is available on some Atmel(R) AVR(R) XMEGA(R) devices in detail.
AVR1500: Xplain training - XMEGA Basics
(文件大小: 33003, 16 页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(R) basics, using the IO ports to show various concepts in four tasks. You will learn to use small code fragments, utilizing the XMEGA header files and some of the XMEGA features for more efficient and compact code.
AVR1501: Xplain training – XMEGA Timer/Counter
(文件大小: 42076, 15 页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(R) timers, PWM generation, High resolution Extension, Advanced Waveform extension and many other features of the high-end and very flexible XMEGA 16-bit Timer/Counters.
AVR1502: Xplain Training - Direct Memory Access Controller
(文件大小: 22766, 10 页数, 修订版 A, 更新时间: 08/2011)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(R) Direct Memory Access Controller (DMAC). You will learn to perform simple memory transfers almost without using CPU time, and reading and writing to peripherals with hardly any CPU intervention.
AVR1503: Xplain training - XMEGA Programmable Multi Interrupt Controller
(文件大小: 22249, 7 页数, 修订版 A, 更新时间: 08/2011)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(R) advanced Programmable Multi-level Interrupt Controller (PMIC) which allows control over interrupt priorities and scheduling of interrupts.
AVR1506: Xplained Training - XMEGA Clock System
(文件大小:
页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(TM) clock system which supports a large number of clock sources, oscillators, PLL, prescalers, a calibration system and clock monitoring. More details of the XMEGA clock system are also available in AVR1003.
AVR1511: QT600-ATxmega128A1 Training Guide
(文件大小:
页数, 修订版 B, 更新时间: 08/2011)
The purpose of this training is to get familiar with the Atmel(R)QTouch Suite(TM) for developing and debugging any Atmel touch application. It includes four core solutions: Atmel QTouch Studio, Atmel QT600 development kit, Atmel QTouch Library, and Atmel(R)AVR Studio(R).
AVR153: USB PC Drivers Based on Generic HID Class
(文件大小:
页数, 修订版 B, 更新时间: 07/2008)
This document gives information on integrating the Atmel USB HID DLL functions. Simple code examples that demonstrate different types of implementation are given.
AVR1600: Using the XMEGA Quadrature Decoder
(文件大小:
页数, 修订版 A, 更新时间: 08/2008)
This application note describes the basic functionality of the XMEGA QDECs with code example.
AVR1606: XMEGA Internal RC Oscillator Calibration
(文件大小:
页数, 修订版 A, 更新时间: 12/2009)
This application note describes a fast and accurate method to calibrate the internal RC oscillator. It offers an easily adaptable calibration firmware source code, which can be used with any XMEGA with internal tunable RC oscillator and JTAG interface. This firmware allows device calibration using the AVR tools JTAGICE mkII and AVRONE.
AVR1607: Brushless DC Motor (BLDC) Control in Sensor mode using ATxmega128A1 and ATAVRMC323
(文件大小: 835KB, 18 页数, 修订版 C, 更新时间: 03/2014)
This application note describes how to implement a control of Brushless DC motor (BLDC) in sensor mode using the ATxmega128A1, Atmel(R) AVR(R) microcontroller and the ATAVRMC323 development kit.
AVR1617: Frequency Measurement with Atmel AVR XMEGA Family Devices
(文件大小: 10913, 13 页数, 修订版 A, 更新时间: 06/2011)
Frequency measurement is a function commonly needed in today's consumer and industrial applications, and is easily implemented by using the Atmel(R)AVR(R)XMEGA(R) Event System and counter/timers.
AVR1624: Using ATxmega128A1 Xplain Kit as USB to TWI Bridge
(文件大小: 63912, 13 页数, 修订版 A, 更新时间: 09/2011)
This application note describes how to use the Atmel(R) ATxmega128A1 Xplain kit as a USB to TWI Bridge. This application can be used to communicate to various applications which have TWI Slave functionality. In this application note we use a TWI slave running a TWI boot loader application on ATxmega128A1.
AVR186: Best practices for the PCB layout of Oscillators
(文件大小: 92401, 4 页数, 修订版 A, 更新时间: 03/2008)
This application note provides guidelines to design the PCB layout in order not to risk failure and unstable oscillator operation.
AVR1900: Getting started with ATxmega128A1
(文件大小:
页数, 修订版 A, 更新时间: 04/2008)
This document contains information about how to get started with the ATxmega128A1 on STK600.
AVR1907: Xplain Hardware User Guide
(文件大小:
页数, 修订版 D, 更新时间: 04/2010)
This application note describes the Xplain evaluation kit which is a hardware platform to evaluate the ATxmega128A1. The kit enables the user to get started using the XMEGA(R)'s peripherals and to integrate the XMEGA in their own design.
AVR1909: Display Xplained Hardware User Guide
(文件大小:
页数, 修订版 A, 更新时间: 06/2010)
The Display Xplained module gives the possibility to evaluate a 240 x 320 pixel (QVGA) graphical RGB TFT display with a 4-wire touch interface and LED backlight.
AVR1913: Display Xplained Firmware - Getting Started
(文件大小:
页数, 修订版 A, 更新时间: 05/2010)
This application note will step you through how to compile and upload the software framework application targeted for Display Xplained. It will also guide you through generating a Tiny Simple file system image and upload this to the Xplain flash memory.
AVR1921: Reprogramming the Xplain AT90USB1287 and ATxmega128A1 firmware
(文件大小:
页数, 修订版 A, 更新时间: 05/2010)
This application note describes how to reprogram the AT90USB1287 and the ATxmega128A1 on the Xplain board with the original firmware, or your own application code.
AVR1922: Xplain Board Controller Firmware
(文件大小:
页数, 修订版 A, 更新时间: 05/2010)
The Xplain board controller, an AT90USB1287, is in charge of some of the low-level tasks on boards in the Xplain series. The board controller improves usability of the main microcontroller, and adds features the main controller lacks, like USB.
AVR32798: EXTBT User Guide
(文件大小:
页数, 修订版 A, 更新时间: 11/2010)
The Atmel(R) EXTBT is a Bluetooth extension module for Atmel(R) AVR(R) development kits. The kit is equipped with the FREE2MOVE(TM) F2M03GXA Bluetooth module and provides Bluetooth functionality through a UART interface to any AVR devices. This guide shows the user how to quickly get started with this kit and describes the EXTBT hardware.
AVR32827: How to Migrate from ASF 1.7 to ASF 2.x
(文件大小:
页数, 修订版 A, 更新时间: 03/2011)
This application note, which is meant for pre-ASF 2.x AVR UC3 users, lists the main changes between these two revisions, and pinpoints the items that must be carefully considered when migrating to the latest revision.
AVR32917: Getting started with the picoPower Board
(文件大小:
页数, 修订版 A, 更新时间: 12/2009)
This application note describes the picoPower function of ATmega48PA, ATxmega32A4 and AT32UC3L064 and the picoPower Board which purpose is to get familiar with the general power-saving features of AVR microcontrollers.
AVR4013: picoPower Basics
(文件大小: 16830, 7 页数, 修订版 A, 更新时间: 12/2010)
This application note demonstrates how to extend the battery life of our application by multiple factors by modifying only the firmware. You will see that, while some of the modifications are very simple and only require setting some registers, other modifications will need some rewriting of the code.
AVR4100: Selecting and testing 32kHz crystal oscillators for AVR microcontrollers
(文件大小: 1MB, 24 页数, 修订版 E, 更新时间: 03/2015)
This application note summarizes the crystal basics, PCB layout considerations, and how to test a crystal in your application. A crystal selection guide shows recommended crystals tested by experts and found suitable for various oscillator modules in different Atmel(R) AVR(R) families.
AVR430: ATAVRMC300 Hardware User Guide
(文件大小:
页数, 修订版 C, 更新时间: 10/2008)
The ATAVRMC300 is a general-purpose power stage board able to drive brushless DC, brushed DC and stepper motors. The board is designed to be a flexible platform for developing motor control applications.
AVR998: Guide to IEC60730 Class B compliance with AVR Microcontrollers
(文件大小:
页数, 修订版 B, 更新时间: 04/2008)
This application note describes the 'Class B' software classification, refering to embedded firmware which is intended to prevent unsafe operation of controlled equipment and provides guidelines for compliance with the 'Class B' classification as it relates to AVR devices.
Atmel AVR1504: XMEGA-A1 Xplained training - XMEGA Event System
(文件大小: 30990, 15 页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(TM) Event System which allows inter-peripheral communication, enabling a change of state in one peripheral to automatically trigger actions in other peripherals, without any use of interrupts or CPU and DMA resources.
Atmel AVR1505: XMEGA-A1 Xplained training - XMEGA ADC
(文件大小: 27636, 11 页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(TM) ADC which has an optional gain stage and is capable of 12-bit resolution and 2 million samples per second (MSPS), single-ended or differential measurements, signed or unsigned results.
Atmel AVR1507: XMEGA-A1 Xplained training - XMEGA Crypto Engines
(文件大小: 48762, 11 页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(TM) powerful hardware support for encryption algorithms. Details of the mathematics behind the DES and AES algorithms are beyond the scope of this application note and will not be covered.
Atmel AVR1508: XMEGA-A1 Xplained training - XMEGA DAC
(文件大小: 52649, 11 页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(TM) Digital to Analog Converter (DAC) which is capable of 12-bit resolution and 1 million samples per second (MSPS).
Atmel AVR1509: XMEGA-A1 Xplained training - Low Power
(文件大小: 55723, 12 页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with Atmel(R) AVR(R) XMEGA(TM) various sleep modes and software controlled clock gating which allow to tailor power consumption to the application's requirement.
Atmel AVR1510: XMEGA-A1 Xplained training - XMEGA USART
(文件大小: 26637, 10 页数, 修订版 A, 更新时间: 08/2010)
This Application Note will get you started with using Atmel(R) AVR(R) XMEGA(TM) USART (Universal Synchronous Asynchronous Receiver Transmitter) in polling mode, interrupt mode and how to use the DMA Controller to transfer data without CPU interaction.
Atmel AVR1512: XMEGA-A1 Xplained Training - XMEGA Basics
(文件大小: 34093, 16 页数, 修订版 A, 更新时间: 07/2011)
This application note covers Atmel(R) AVR(R) XMEGA(R) basics, using IO ports to show various concepts in four tasks. The goal of this training is to get you started with small code fragments, utilizing the XMEGA header files and some of the XMEGA features for more efficient and compact code.
Atmel AVR1513: XMEGA-A1 Xplained Training – XMEGA Timer/Counter
(文件大小: 46250, 13 页数, 修订版 A, 更新时间: 07/2011)
Atmel(R) AVR(R) XMEGA(R) has a set of high-end and very flexible 16-bit Timer/Counters (TC). Their basic capabilities include accurate program execution timing, frequency and waveform generation, event management, and time measurement of digital signals. In this hand-on we will learn more about the XMEGA timers, PWM generation, High resolution Extension and Advanced Waveform extension.
Atmel AVR1514: XMEGA-A1 Xplained Training - Direct Memory Access Controller
(文件大小: 26324, 10 页数, 修订版 A, 更新时间: 07/2011)
This application note covers the basic features of the Atmel(R) AVR(R) XMEGA(R) Direct Memory Access Controller (DMAC). The goal for this training is to get started with simple memory transfers almost without using CPU time, and reading / writing to peripherals with hardly any CPU intervention.
Atmel AVR1515: XMEGA-A1 Xplained Training - XMEGA Programmable Multi Interrupt Controller
(文件大小: 25006, 7 页数, 修订版 A, 更新时间: 07/2011)
Atmel(R) AVR(R) XMEGA(R) has an advanced Programmable Multi-level Interrupt Controller (PMIC). The PMIC allows control over interrupt priorities and scheduling of interrupts. In this hands-on we will learn more about the Atmel XMEGA Programmable Interrupt Controller.
Atmel AVR1516: XMEGA-A1 Xplained Training - XMEGA Event System
(文件大小: 36192, 16 页数, 修订版 A, 更新时间: 07/2011)
This Application note is intended to give you a basic overview of the terminology and behavior which is needed to understand the Event System and the tasks in this training. The tasks in this training will show you how the Event System works in more detail.
Atmel AVR1517: XMEGA-A1 Xplained Training - XMEGA Analog to Digital Converter
(文件大小: 32870, 11 页数, 修订版 A, 更新时间: 07/2011)
The Analog to Digital Converter (ADC) in the Atmel(R) AVR(R) XMEGA(R) A series has 12-bit resolution. This training is based on the Atmel AVR Xplain evaluation kit which features the ATxmega128A1 microcontroller. Different from most Atmel AVR ADCs, the ADC in the XMEGA A has a pipelined architecture.
Atmel AVR1518: XMEGA-A1 Xplained Training - XMEGA Clock System
(文件大小: 26559, 12 页数, 修订版 A, 更新时间: 07/2011)
Atmel(R) AVR(R) XMEGA(R) has an advanced clock system, supporting a large number of clock sources. It incorporates both integrated oscillators, and external crystal oscillators and resonators. In addition, an internal high frequency Phase Locked Loop (PLL) can be used to multiply selected clock sources with a factor ranging from 1x to 31x. The internal 2MHz and 32MHz oscillators available have hardware support for automatic calibration against a 32kHz clock source with the help of the built-in Digital Frequency Locked Loop (DFLL).
Atmel AVR1519: XMEGA-A1 Xplained Training - XMEGA Crypto Engines
(文件大小: 30723, 11 页数, 修订版 A, 更新时间: 07/2011)
This training will focus on practical implementation of the mentioned encryption algorithms, and it explains how to easily implement them using Atmel(R) AVR(R) XMEGA(R) powerful hardware support.
Atmel AVR1520: XMEGA-A1 Xplained Training - XMEGA Digital to Analog Converter
(文件大小:
页数, 修订版 A, 更新时间: 07/2011)
Atmel(R) AVR(R) XMEGA(R) DAC converts digital signals to analog signals. This can be used in applications where you want stereo sound, signal generation, calibration or signal compensation. This training will show how to set up and use the DAC with practical code examples.
Atmel AVR1521: XMEGA-A1 Xplained Training - Low Power
(文件大小:
页数, 修订版 A, 更新时间: 07/2011)
Atmel(R) AVR(R) XMEGA(R) provides various sleep modes and software controlled clock gating in order to tailor power consumption to the application's requirement. Sleep modes enables the microcontroller to shut down unused modules to save power. When the device enters sleep mode, program execution is stopped and interrupts or reset is used to wake the device again. The individual clock to unused peripherals can be stopped during normal operation or in sleep, enabling a much more fine tuned power management than sleep modes alone.
Atmel AVR1522: XMEGA-A1 Xplained Training - XMEGA USART
(文件大小:
页数, 修订版 A, 更新时间: 07/2011)
The USART (Universal Synchronous Asynchronous Receiver Transmitter) is the key element in serial communications between computers, terminals and other devices.
This training covers basic setup and use of the Atmel(R) AVR(R) XMEGA(R) USART and the three tasks will demonstrate how to use the USART In polling-mode, interrupt mode and how to use the DMAC (Direct Memory Access Controller) to transfer data without CPU interaction.
Atmel AVR232: Authentication Using SHA-256
(文件大小: 165KB, 9 页数, 修订版 A, 更新时间: 09/2012)
Using encryption (SHA-256) in a way that enables a slave to authenticate towards a master. E.g. to make sure the connected slave is a legit accessory for the master.
Atmel AT04022: DALI Slave with XMEGA E Hardware User Guide
(文件大小: 453KB, 15 页数, 修订版 A, 更新时间: 09/2013)
The reference design of DALI Slave based on Atmel(R) AVR(R) ATxmega32E5 is developed to demonstrate DALI protocol functions. The reference hardware includes three parts, DALI physical layer interface, MCU, and LED drive circuit. The LED string is controlled by the DALI commands through the ATxmega32E5.
Atmel AT01607: XMEGA C Schematic Checklist
(文件大小: 224KB, 12 页数, 修订版 A, 更新时间: 06/2013)
This application note describes a common checklist which should be used when starting and reviewing the schematics for an Atmel(R) AVR(R) XMEGA(R) C design.
Atmel AT01639: XMEGA-C3 Xplained Software User Guide
(文件大小: 549KB, 15 页数, 修订版 A, 更新时间: 02/2013)
The Atmel(R) XMEGA-C3 Xplained evaluation kit demo software is created to showcase the Atmel AVR ATxmega384C3 device. The demo samples sensors connected on ADC and sen the values through OLED display, USB or microSD card.
Atmel AVR154: Software Emulation of TWI Slave Hardware Module
(文件大小: 77KB, 4 页数, 修订版 A, 更新时间: 03/2012)
This application note describes a Two-wire Interface (TWI) slave implementation, in the form of a full-featured driver and an example of usage for this driver. Many chips feature a hardware TWI others have Universal Serial Interface (USI), which can be used in TWI mode. This application note discusses the TWI slave driver for devices without any of these hardware modules. This driver emulates the hardware TWI slave in software hence providing the programmer an easy way of porting the code from high end TWI enabled devices to low cost devices.
Atmel AVR1923: XMEGA-A3BU Xplained Hardware User Guide
(文件大小: 446KB, 19 页数, 修订版 B, 更新时间: 02/2012)
The Atmel(R) AVR(R) XMEGA(R) A3BU Xplained evaluation kit is a hardware platform to evaluate the Atmel ATxmega256A3BU. microcontroller. The kit offers a larger range of features that enables the Atmel AVR XMEGA user to get started using XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AVR1925: XMEGA-C3 Xplained Hardware User's Guide
(文件大小: 655KB, 15 页数, 修订版 B, 更新时间: 02/2015)
The Atmel AVR XMEGA-C3 Xplained evaluation kit is a hardware platform to evaluate the Atmel ATxmega384C3 microcontroller. The kit offers a larger range of features that enables the Atmel AVR XMEGA user to get started using XMEGA peripherals right away and understand how to integrate the XMEGA device in their own design.
Atmel AVR32848: Android Accessory Demo
(文件大小: 714KB, 11 页数, 修订版 A, 更新时间: 05/2012)
This document explains the usage of the demonstrator developed for the Android Open Accessory Protocol and based on Atmel microcontrollers. The examples are included in the Atmel Software Framework (ASF) to provide the customer with a quick and easy way to get started with developing an Android accessory. The use of the library is explained in the AVR4960 application note.
Atmel AVR4023: FLIP USB DFU Protocol
(文件大小: 143KB, 15 页数, 修订版 A, 更新时间: 03/2012)
This application note describes the FLIP USB DFU Protocol. To perform firmware upgrade, Atmel has developed a Flexible in-system programmer (FLIP). This software allows performing In-System Programming from an USB host controller without removing the part from the system or without a preprogrammed application, and without any external programming interface.
Atmel AVR4029: Atmel Software Framework - Getting Started
(文件大小: 797KB, 25 页数, 修订版 C, 更新时间: 03/2013)
The Atmel(R) Software Framework (ASF) is a collection of embedded software for Atmel flash MCU: megaAVR, AVR XMEGA, AVR UC3, and SAM devices.
Atmel AVR4030: AVR Software Framework - Reference Manual
(文件大小: 362KB, 28 页数, 修订版 B, 更新时间: 03/2012)
The Atmel(R) Software Framework (ASF) is a collection of embedded software for Atmel flash MCU: megaAVR, AVR XMEGA, AVR UC3, and SAM devices.
AVR000: Register and Bit-Name Definitions for the 8-bit AVR Microcontroller
(文件大小:
页数, 修订版 C, 更新时间: 11/2009)
This Application Note contains files which allow the user to use Register and Bit names from the databook when writing assembly programs for 8-bit AVR microcontrollers.
AVR001: Conditional Assembly and portability macros
(文件大小: 95161, 6 页数, 修订版 E, 更新时间: 04/2008)
This application note describes the Conditional Assembly feature present in the 8-bit AVR Assembler version 1.74 and later. Examples of how to use Conditional Assembly are included to illustrate the syntax and concept.
AVR030: Getting Started with IAR Embedded Workbench for Atmel 8-bit AVR
(文件大小:
页数, 修订版 D, 更新时间: 10/2004)
The purpose of this application note is to guide new users through the initial settings of IAR Embedded Workbench, and compile a simple C-program.
AVR031: Getting Started with ImageCraft C for Atmel 8-bit AVR
(文件大小:
页数, 修订版 B, 更新时间: 05/2002)
The purpose of this Application Note is to guide new users through the initial settings of the ImageCraft IDE and compile a simple C program.
AVR032: Linker Command Files for the IAR ICCA90 Compiler
(文件大小:
页数, 修订版 B, 更新时间: 05/2002)
This Application Note describes how to make a linker command file for use with the IAR ICCA90 C-compiler for the 8-bit AVR Microcontroller.
AVR033: Getting Started with the CodeVisionAVR C Compiler
(文件大小: 2916, 18 页数, 修订版 C, 更新时间: 04/2008)
The purpose of this Application Note is to guide the user through the preparation of an example C program using the CodeVisionAVR C compiler.
AVR034: Mixing C and Assembly Code with IAR Embedded Workbench for 8-bit AVR microcontrollers
(文件大小: 96573, 8 页数, 修订版 B, 更新时间: 04/2003)
This Application Note describes how to use C to control the program flow among main program and assembly modules to control time critical I/O functions.
AVR035: Efficient C Coding for 8-bit AVR microcontrollers
(文件大小:
页数, 修订版 D, 更新时间: 01/2004)
This Application Note describes how to utilize the advantages of the 8-bit AVR architecture and the development tools to achieve more efficient c Code than for any other microcontroller.
AVR072: Accessing 16-bit I/O Registers
(文件大小: 78147, 4 页数, 修订版 B, 更新时间: 05/2002)
This Application Note shows how to read and write the 16-bit registers in the AVR Microcontrollers. Since the AVR has an 8-bit I/O bus these registers must be written in two execution cycles. It explains how to safely read and write these 16-bit registers.
AVR101: High Endurance EEPROM Storage
(文件大小: 48384, 5 页数, 修订版 A, 更新时间: 09/2002)
This Application Note describes how to make safe, high endurance, parameter storage in EEPROM, insuring no wear-out of the memory.
AVR120: Characterization and Calibration of the ADC on an AVR
(文件大小:
页数, 修订版 D, 更新时间: 02/2006)
This application note explains various ADC (Analog to Digital Converter) characterization parameters, how they affect ADC measurements and how to measure them and how to perform run-time compensation.
AVR180: External Brown-Out Protection
(文件大小:
页数, 修订版 B, 更新时间: 05/2002)
This Application Note shows in detail how to prevent system malfunction during periods of insufficient power supply voltage.
AVR201: Using the 8-bit AVR Hardware Multiplier
(文件大小:
页数, 修订版 C, 更新时间: 06/2002)
Examples of using the 8-bit AVR multiplier for 8-bit arithmetic.
AVR204: BCD Arithmetics
(文件大小: 96638, 14 页数, 修订版 B, 更新时间: 01/2003)
This Application Note lists routines for BCD arithmetics.
AVR244: UART as ANSI Terminal Interface
(文件大小: 56579, 8 页数, 修订版 A, 更新时间: 11/2003)
This application note describes some basic routines to interface an AVR microcontroller to a terminal window using the UART (hardware or software).
Computers that You Wear Help Your Work and Play
(文件大小: 112KB, 4 页数, 更新时间: 05/2013)
Designing Feature-Rich User Interfaces for Home and Industrial Controllers
(文件大小: 933KB, 5 页数, 更新时间: 06/2013)
Microprocessor or Microcontroller
(文件大小: 104KB, 4 页数, 更新时间: 05/2013)
Brochures and Flyers
Atmel AVR XMEGA
(2 页数, 修订版 B, 更新时间: 01/2013)
Atmel AVR Xplained - Evaluate the AVR
(2 页数, 修订版 C)
Atmel Flash Microcontroller Product Portfolio
(文件大小: 3.5MB, 40 页数, 修订版 R, 更新时间: 09/2013)
Atmel Xplained Pro
(文件大小: 40K, 2 页数, 修订版 B, 更新时间: 02/2013)
Atmel Xplained Pro kits provide a complete and easy to use low-cost development platform for evaluating and prototyping your Atmel Flash-based microcontrollers (MCUs) designs.
Automotive Solutions
(文件大小: 5.51 MB, 20 页数, 更新时间: 02/2014)
(文件大小:
页数, 修订版 C, 更新时间: 10/2008)
8/16-bit High Performance Low Power Flash Microcontrollers
汽车集成电路 (Chinese Version)
(文件大小:
页数, 修订版 I, 更新时间: 03/2011)
Atmel AVR Microntrollers
(2 页数, 更新时间: 01/2013)
Atmel AVR Studio 5 - development and debugging
(2 页数, 更新时间: 01/2013)
Atmel Studio - Software Development Environment
(2 页数, 修订版 B, 更新时间: 09/2012)
Atmel-Integrating the Internet of Things
(2 页数, 更新时间: 11/2014)
AVR Instruction Set
(文件大小: 1.4MB, 152 页数, 修订版 J, 更新时间: 07/2014)
AVR and AVR32 - Quick Reference Guide
(文件大小:
页数, 修订版 I, 更新时间: 05/2009)
Introduction of the product range of AVR and AVR32 microcontrollers and application processors:Device family descriptionKey featuresDevice selection guidesApplication oriented device familiesTools offer
White Paper
Introducing a New Breed of Microcontrollers for 8/16-bit Applications
(文件大小:
页数, 修订版 A, 更新时间: 02/2008)
This whitepaper discusses the key challenges that 8/16-bit embedded developers meet and how the new XMEGA AVR family from Atmel brings 8/16-bit microcontrollers up to a new level of system performance.
Next-Generation IDE: Maximizing IP Reuse
(文件大小: 988KB, 15 页数, 更新时间: 07/2012)