AVR (results: 671)
Product | Cart |
Manufacturer
|
Architecture
|
FLASH memory
|
RAM memory
|
EEPROM memory
|
Number of I/O
|
Supply voltage range
|
Frequency
|
ADC
|
DAC
|
UART/USART interface
|
SPI interface
|
TWI (I2C) interface
|
CAN interface
|
ETHERNET interface
|
USB interface
|
Encryption
|
Operating temperature (range)
|
Case
|
|
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ATXMEGA256A3-MH
256kB-FL 16kB-RAM 4kB-EE 50I/O 1.6÷3.6V 32MHz 16A/D 7UART 3SPI 2TWI -40÷85°C
|
|||||||||||||||||||||
MICROCHIP | 8/16-bit | 256kB | 16kB | 4kB | 50 | 1,6V~3,6V | 32,000MHz | YES | YES | YES | YES | YES | NO | NO | NO | YES | -40°C ~ 85°C | MLF64 | |||
|
Item available on a request
|
||||||||||||||||||||
ATXMEGA256A3BU-AU
256kB-FL 16kB-RAM 4kB-EE 47I/O 1.6÷3.6V 32MHz 32A/D 6UART 2SPI 2TWI USB -40÷85°C
|
|||||||||||||||||||||
MICROCHIP | 8/16-bit | 256kB | 16kB | 4kB | 47 | 1,6V~3,6V | 32,000MHz | YES | YES | YES | YES | YES | NO | NO | YES | YES | -40°C ~ 85°C | TQFP64 | |||
|
Item available on a request
|
||||||||||||||||||||
ATXMEGA32A4U-AN Microchip Technology
MCU 8-bit/16-bit AVR RISC 32KB Flash 1.8V/2.5V/3.3V 44-Pin Tray ATXMEGA32A4U-ANR;
|
|||||||||||||||||||||
MICROCHIP | 8/16-bit | 16kB | 4kB | 1kB | 34 | 1,6V ~ 3,6V | 32,000MHz | YES | YES | YES | YES | YES | YES | 0°C ~ 105°C | TQFP44 | ||||||
|
Item available on a request
|
||||||||||||||||||||
ATXMEGA64B3-AU TQFP64
MCU 8-bit/16-bit XMEGA AVR RISC 64KB Flash 1.8V/2.5V/3.3V ATXMEGA64B3-AUR (T/R)
|
|||||||||||||||||||||
MICROCHIP | 8/16-bit | 64kB | 4kB | 2kB | 36 | 1,6V~3,6V | 32,000MHz | YES | NO | YES | YES | YES | NO | NO | YES | YES | -40°C ~ 85°C | TQFP64 | |||
|
Item available on a request
|
||||||||||||||||||||
ATXMEGA64C3-AU
64kB-FL 4kB-RAM 2kB-EE 50I/O 1.6÷3.6V 32MHz 16A/D 3UART 2SPI 2TWI USB -40÷85°C
|
|||||||||||||||||||||
MICROCHIP | 8/16-bit | 64kB | 4kB | 2kB | 50 | 1,6V~3,6V | 32,000MHz | YES | NO | YES | YES | YES | NO | NO | YES | NO | -40°C ~ 85°C | TQFP64 | |||
|
Item available on a request
|
||||||||||||||||||||
AVR128DA28-E/SP
AVR AVR® DA Microcontroller IC 8-Bit 24MHz 128KB (128K x 8) FLASH 28-SPDIP
|
|||||||||||||||||||||
MICROCHIP | 8-bit | 128kB | 16kB | 512B | 23 | 1,8V ~ 5,5V | 24,000MHz | YES | YES | YES | YES | YES | NO | NO | NO | NO | -40°C ~ 125°C | DIP28 | |||
|
Item available on a request
|
||||||||||||||||||||
AVR64DB28-I/SP PDIP28 0.3"
IC: AVR microcontroller; PDIP28; Ext.Interrupt: 22; Cmp: 3; AVR64
|
|||||||||||||||||||||
MICROCHIP | 8-bit | 64kB | 8kB | 512B | 21 | 1,8V ~ 5,5V | 24,000MHz | YES | YES | YES | YES | YES | NO | NO | NO | NO | -40°C ~ 85°C | PDIP28 | |||
|
Item available on a request
|
||||||||||||||||||||
ATMXT224E-MAHR
TS Sensor IC autograde 3; 224 Channel; 20mA; 1,8V~3,3V; 400kHz; -40°C~85°C; Substitute: ATMXT224E-MAH; ATMXT224E-MAHR030;
|
|||||||||||||||||||||
MICROCHIP | 12-bit | 224 | 1,8V ~ 3.3V | 400kHz | YES | -40°C ~ 85°C | QFN-48 | ||||||||||||||
|
Item available on a request
|
||||||||||||||||||||
AT32UC3C0512C-ALUT
512kB-FL 64kB-RAM 123I/O 3.3/5V 66MHz 6xtimer 16A/D 5UART 2SPI 3TWI 2CAN USB ETH AT32UC3C0512C-ALUT, AT32UC3C0512C-ALUR
|
|||||||||||||||||||||
|
Item available on a request
|
||||||||||||||||||||
ATMEGA324PB-MU Microchip
32kB-FL 2kB-RAM 1kB-EE 39I/O 1.8÷5.5V 20MHz 3xtimer 8A/D 2UART SPI TWI -40÷85°C
|
|||||||||||||||||||||
|
Item available on a request
|
||||||||||||||||||||
ATXMEGA192D3-MH
192kB-FL 16kB-RAM 2kB-EE 50I/O 1.6÷3.6V 32MHz 16A/D 3UART 2SPI 2TWI -40÷85°C
|
|||||||||||||||||||||
|
Item available on a request
|
AVR Microcontrollers as Fundamental Components of All Electronic Circuits
Microcontrollers play a crucial role in today's electronics. They are ubiquitous, and among them, the models from the AVR family lead the way. We offer a wide selection of such components. We invite you to explore the full range and characteristics of AVR microcontrollers.
What Are AVR Microcontrollers?
Before explaining what AVR is, it is worth approaching the topic more generally to understand what microcontrollers are in the first place. A microcontroller is a very small computer, equipped with all the necessary components and functionalities. The AVR microcontroller, like microcontrollers from other groups, is equipped with a processor and Flash RAM. This element is part of an integrated circuit. Today, AVR microcontrollers are ubiquitous in all electronic devices. They are found in all laptops, phones, televisions, electronically controlled machines, and even in modern cars. However, this is just the beginning of a very long list of applications for these components. It can be confidently said that today every electronic device that can be controlled contains at least one microcontroller, most often a model from the AVR family.
What Is AVR?
It is worth explaining the acronym that has been mentioned several times in this text. What is AVR? Well, the acronym stands for Automatic Voltage Regulator. This would mean that AVR microcontrollers are used to control voltage in electronic devices. Essentially, this is their main purpose. The microcontroller's task is to maintain constant voltage in the electronic circuit under constant load. Thus, it might seem that microcontrollers perform a relatively simple task, and AVR programming is trivial. In reality, however, reducing the function of microcontrollers to merely voltage control would be an oversimplification. In the following paragraphs, we explain how these devices work and why they are so important.
How Does an AVR Microcontroller Work?
We have briefly explained what an AVR microcontroller is and where it is used. How does it actually work and why is it so indispensable? Why is the invention of AVR microcontrollers considered one of the greatest breakthroughs in electronics? As previously mentioned, the microcontroller is a device that can be regarded as a fully-fledged computer. Therefore, it should not be surprising that maintaining voltage in the circuit is not its only function. There are five main functions of AVR microcontrollers:
- Input,
- Computation,
- Storage,
- Output,
- Control.
The microcontroller receives information from switches, sensors, and other input devices. Its task is to compute the input data, store the obtained information, and then further transmit it to control the circuit. It is necessary to program the AVR in advance so that the microcontroller receives the correct data, calculates it appropriately, and then transmits it to the desired location.
The Best AVR Microcontrollers
There are various elements of this category available on the market. The most highly regarded are the Atmel microcontrollers. The company was founded almost 40 years ago and has since established itself as one of the market leaders. In our assortment, you can find various AVR microcontrollers. Most of them are listed in our catalog. We invite you to explore the full range of Atmel microcontrollers as well as microcontrollers from other renowned manufacturers. If you have any questions, we are happy to assist you.