The ATTINY261-15XZ is a high-performance, low-power AVR 8-bit microcontroller from Microchip Technology, renowned for its versatility and efficiency in a wide array of applications. This microcontroller is part of the tinyAVR series, which is well-suited for operations in constrained environments where space and power consumption are critical considerations.

Key Features:

• Advanced RISC Architecture: With 120 powerful instructions, most of which are executed in a single clock cycle, the ATTINY261-15XZ achieves throughputs approaching 1 MIPS per MHz, balancing power consumption and processing speed.
• Memory: It comes equipped with 2KB ISP Flash memory, 128B EEPROM, and 128B SRAM, providing ample space for code and data storage.
• Speed: The device operates at a maximum frequency of 15MHz, ensuring swift task execution and responsiveness in time-sensitive applications.
• Operating Voltage: The microcontroller supports a wide operating voltage range from 1.8V to 5.5V, offering flexibility for various power supply designs.
• I/O and Packages: It offers 16 programmable I/O lines and is available in a compact 20-pin package, making it an ideal choice for space-constrained projects.
• Power-saving Modes: Multiple power-saving modes are available, allowing for the reduction of power consumption during idle periods.
• Peripherals: A rich set of peripherals including USART, SPI, and Two-wire Serial Interface (TWI/I2C) enhances its capabilities for communication with other devices.

Applications:

The ATTINY261-15XZ is designed for applications that require a balance between power efficiency and processing capability. It is commonly used in:

• Industrial control systems
• Battery management
• Portable devices
• LED lighting control
• Home automation and smart sensors

Quality and Reliability:

Microchip Technology ensures high standards of quality and reliability for the ATTINY261-15XZ, making it a trusted choice for engineers and product designers across various industries. Its robust design ensures stable operation even under challenging conditions.