AVR Libc

Introduction

The latest version of this document is always available from http://savannah.nongnu.org/projects/avr-libc/

The AVR Libc package provides a subset of the standard C library for Atmel AVR 8-bit RISC microcontrollers. In addition, the library provides the basic startup code needed by most applications.

There is a wealth of information in this document which goes beyond simply describing the interfaces and routines provided by the library. We hope that this document provides enough information to get a new AVR developer up to speed quickly using the freely available development tools: binutils, gcc avr-libc and many others.

If you find yourself stuck on a problem which this document doesn't quite address, you may wish to post a message to the avr-gcc mailing list. Most of the developers of the AVR binutils and gcc ports in addition to the devleopers of avr-libc subscribe to the list, so you will usually be able to get your problem resolved. You can subscribe to the list at http://lists.nongnu.org/mailman/listinfo/avr-gcc-list . Before posting to the list, you might want to try reading the Frequently Asked Questions chapter of this document.

Note:

If you think you've found a bug, or have a suggestion for an improvement, either in this documentation or in the library itself, please use the bug tracker at https://savannah.nongnu.org/bugs/?group=avr-libc to ensure the issue won't be forgotten.

General information about this library

In general, it has been the goal to stick as best as possible to established standards while implementing this library. Commonly, this refers to the C library as described by the ANSI X3.159-1989 and ISO/IEC 9899:1990 ("ANSI-C") standard, as well as parts of their successor ISO/IEC 9899:1999 ("C99"). Some additions have been inspired by other standards like IEEE Std 1003.1-1988 ("POSIX.1"), while other extensions are purely AVR-specific (like the entire program-space string interface).

Unless otherwise noted, functions of this library are not guaranteed to be reentrant. In particular, any functions that store local state are known to be non-reentrant, as well as functions that manipulate IO registers like the EEPROM access routines. If these functions are used within both standard and interrupt contexts undefined behaviour will result. See the FAQ for a more detailed discussion.

Supported Devices

The following is a list of AVR devices currently supported by the library. Note that actual support for some newer devices depends on the ability of the compiler/assembler to support these devices at library compile-time.

megaAVR Devices:
  • atmega103

  • atmega128

  • atmega128a

  • atmega1280

  • atmega1281

  • atmega1284

  • atmega1284p

  • atmega16

  • atmega161

  • atmega162

  • atmega163

  • atmega164a

  • atmega164p

  • atmega164pa

  • atmega165

  • atmega165a

  • atmega165p

  • atmega165pa

  • atmega168

  • atmega168a

  • atmega168p

  • atmega168pa

  • atmega168pb

  • atmega16a

  • atmega2560

  • atmega2561

  • atmega32

  • atmega32a

  • atmega323

  • atmega324a

  • atmega324p

  • atmega324pa

  • atmega325

  • atmega325a

  • atmega325p

  • atmega325pa

  • atmega3250

  • atmega3250a

  • atmega3250p

  • atmega3250pa

  • atmega328

  • atmega328p

  • atmega48

  • atmega48a

  • atmega48pa

  • atmega48pb

  • atmega48p

  • atmega64

  • atmega64a

  • atmega640

  • atmega644

  • atmega644a

  • atmega644p

  • atmega644pa

  • atmega645

  • atmega645a

  • atmega645p

  • atmega6450

  • atmega6450a

  • atmega6450p

  • atmega8

  • atmega8a

  • atmega88

  • atmega88a

  • atmega88p

  • atmega88pa

  • atmega88pb

  • atmega8515

  • atmega8535

tinyAVR Devices:
  • attiny4

  • attiny5

  • attiny10

  • attiny11 [1]

  • attiny12 [1]

  • attiny13

  • attiny13a

  • attiny15 [1]

  • attiny20

  • attiny22

  • attiny24

  • attiny24a

  • attiny25

  • attiny26

  • attiny261

  • attiny261a

  • attiny28 [1]

  • attiny2313

  • attiny2313a

  • attiny40

  • attiny4313

  • attiny43u

  • attiny44

  • attiny44a

  • attiny441

  • attiny45

  • attiny461

  • attiny461a

  • attiny48

  • attiny828

  • attiny84

  • attiny84a

  • attiny841

  • attiny85

  • attiny861

  • attiny861a

  • attiny87

  • attiny88

  • attiny1634

Automotive AVR Devices:
  • atmega16m1

  • atmega32c1

  • atmega32m1

  • atmega64c1

  • atmega64m1

  • attiny167

  • ata5505

  • ata5272

  • ata5702m322

  • ata5782

  • ata5790

  • ata5790n

  • ata5791

  • ata5795

  • ata5831

  • ata6612c

  • ata6613c

  • ata6614q

  • ata6616c

  • ata6617c

  • ata664251

  • ata8210

  • ata8510

CAN AVR Devices:
  • at90can32

  • at90can64

  • at90can128

LCD AVR Devices:
  • atmega169

  • atmega169a

  • atmega169p

  • atmega169pa

  • atmega329

  • atmega329a

  • atmega329p

  • atmega329pa

  • atmega3290

  • atmega3290a

  • atmega3290p

  • atmega3290pa

  • atmega649

  • atmega649a

  • atmega6490

  • atmega6490a

  • atmega6490p

  • atmega649p

Lighting AVR Devices:
  • at90pwm1

  • at90pwm2

  • at90pwm2b

  • at90pwm216

  • at90pwm3

  • at90pwm3b

  • at90pwm316

  • at90pwm161

  • at90pwm81

Smart Battery AVR Devices:
  • atmega8hva

  • atmega16hva

  • atmega16hva2

  • atmega16hvb

  • atmega16hvbrevb

  • atmega32hvb

  • atmega32hvbrevb

  • atmega64hve

  • atmega64hve2

  • atmega406

USB AVR Devices:
  • at90usb82

  • at90usb162

  • at90usb646

  • at90usb647

  • at90usb1286

  • at90usb1287

  • atmega8u2

  • atmega16u2

  • atmega16u4

  • atmega32u2

  • atmega32u4

  • atmega32u6

XMEGA Devices:
  • atxmega8e5

  • atxmega16a4

  • atxmega16a4u

  • atxmega16c4

  • atxmega16d4

  • atxmega16e5

  • atxmega32a4

  • atxmega32a4u

  • atxmega32c3

  • atxmega32c4

  • atxmega32d3

  • atxmega32d4

  • atxmega32e5

  • atxmega64a1

  • atxmega64a1u

  • atxmega64a3

  • atxmega64a3u

  • atxmega64a4u

  • atxmega64b1

  • atxmega64b3

  • atxmega64c3

  • atxmega64d3

  • atxmega64d4

  • atxmega128a1

  • atxmega128a1u

  • atxmega128a3

  • atxmega128a3u

  • atxmega128a4u

  • atxmega128b1

  • atxmega128b3

  • atxmega128c3

  • atxmega128d3

  • atxmega128d4

  • atxmega192a3

  • atxmega192a3u

  • atxmega192c3

  • atxmega192d3

  • atxmega256a3

  • atxmega256a3u

  • atxmega256a3b

  • atxmega256a3bu

  • atxmega256c3

  • atxmega256d3

  • atxmega384c3

  • atxmega384d3

Wireless AVR devices:
  • atmega644rfr2

  • atmega64rfr2

  • atmega128rfa1

  • atmega1284rfr2

  • atmega128rfr2

  • atmega2564rfr2

  • atmega256rfr2

Miscellaneous Devices:
  • at94K [2]

  • at76c711 [3]

  • at43usb320

  • at43usb355

  • at86rf401

  • at90scr100

  • ata6285

  • ata6286

  • ata6289

  • m3000 [4]

Classic AVR Devices:
  • at90s1200 [1]

  • at90s2313

  • at90s2323

  • at90s2333

  • at90s2343

  • at90s4414

  • at90s4433

  • at90s4434

  • at90s8515

  • at90c8534

  • at90s8535

Note:

[1] Assembly only. There is no direct support for these devices to be programmed in C since they do not have a RAM based stack. Still, it could be possible to program them in C, see the FAQ for an option.

Note:

[2] The at94K devices are a combination of FPGA and AVR microcontroller. [TRoth-2002/11/12: Not sure of the level of support for these. More information would be welcomed.]

Note:

[3] The at76c711 is a USB to fast serial interface bridge chip using an AVR core.

Note:

[4] The m3000 is a motor controller AVR ASIC from Intelligent Motion Systems (IMS) / Schneider Electric.

avr-libc License

avr-libc can be freely used and redistributed, provided the following license conditions are met.

Portions of avr-libc are Copyright (c) 1999-2016
Werner Boellmann,
Dean Camera,
Pieter Conradie,
Brian Dean,
Keith Gudger,
Wouter van Gulik,
Bjoern Haase,
Steinar Haugen,
Peter Jansen,
Reinhard Jessich,
Magnus Johansson,
Harald Kipp,
Carlos Lamas,
Cliff Lawson,
Artur Lipowski,
Marek Michalkiewicz,
Todd C. Miller,
Rich Neswold,
Colin O'Flynn,
Bob Paddock,
Andrey Pashchenko,
Reiner Patommel,
Florin-Viorel Petrov,
Alexander Popov,
Michael Rickman,
Theodore A. Roth,
Juergen Schilling,
Philip Soeberg,
Anatoly Sokolov,
Nils Kristian Strom,
Michael Stumpf,
Stefan Swanepoel,
Helmut Wallner,
Eric B. Weddington,
Joerg Wunsch,
Dmitry Xmelkov,
Atmel Corporation,
egnite Software GmbH,
The Regents of the University of California. 
All rights reserved.

   Redistribution and use in source and binary forms, with or without
   modification, are permitted provided that the following conditions are met:

   * Redistributions of source code must retain the above copyright
     notice, this list of conditions and the following disclaimer.

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   * Neither the name of the copyright holders nor the names of
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   AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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