ATMEGA2564RFR2-ZF Overview
The ATMEGA2564RFR2-ZF is a high-performance microcontroller combining an advanced 8-bit AVR core with an integrated 2.4 GHz transceiver, designed for wireless communication applications. This device integrates extensive memory resources and flexible peripheral interfaces to support complex embedded designs while minimizing external components. Its low-power architecture and robust RF capabilities enable reliable operation in battery-powered and industrial environments. Engineers and sourcing specialists will appreciate its balance of processing power, wireless connectivity, and system integration, making it a preferred choice for compact IoT and industrial wireless solutions. For detailed specifications and availability, visit the Produttore di circuiti integrati.
ATMEGA2564RFR2-ZF Technical Specifications
Parametro | Specifiche |
---|---|
Core | 8-bit AVR CPU |
Frequenza operativa | Up to 16 MHz |
Program Memory (Flash) | 256 KB |
SRAM | 32 KB |
EEPROM | 4 KB |
Integrated RF Transceiver | 2.4 GHz IEEE 802.15.4 compliant |
Tensione di esercizio | 1.8 V to 3.6 V |
Pacchetto | 64-pin QFN |
Power Consumption (RX) | Approximately 13.6 mA |
Power Consumption (TX) | Up to 13.5 mA at 0 dBm output |
ATMEGA2564RFR2-ZF Key Features
- Integrated 2.4 GHz Transceiver: Enables seamless wireless communication without external RF modules, reducing system complexity and cost.
- Large On-Chip Memory: With 256 KB flash and 32 KB SRAM, it supports complex firmware and data buffering for demanding applications.
- Basso consumo energetico: Optimized for energy efficiency with sleep modes and low active current, extending battery life in portable systems.
- Flexible Peripheral Set: Includes multiple timers, UART, SPI, and I2C interfaces, facilitating diverse sensor and actuator integration.
ATMEGA2564RFR2-ZF Advantages vs Typical Alternatives
This microcontroller stands out by integrating an efficient 8-bit core with a built-in 2.4 GHz transceiver, eliminating the need for separate wireless components and reducing PCB footprint. Its extensive memory and flexible interfaces outperform conventional single-function devices, offering enhanced system reliability and design simplicity. Moreover, its low power profile and proven AVR architecture provide a competitive edge in industrial and IoT wireless applications where energy efficiency and robust communication are critical.
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Applicazioni tipiche
- Wireless sensor networks and industrial IoT nodes requiring reliable 2.4 GHz communication and low power consumption for extended deployment times.
- Home automation systems that benefit from integrated RF and flexible peripheral options for controlling lighting, HVAC, and security devices.
- Remote control and telemetry devices demanding compact design and robust wireless connectivity.
- Smart metering and asset tracking solutions where integration and power efficiency are paramount.
ATMEGA2564RFR2-ZF Brand Info
The ATMEGA2564RFR2-ZF is part of the ATmega family renowned for reliable 8-bit microcontrollers with integrated wireless capabilities. This product merges the classic AVR architecture with a high-performance IEEE 802.15.4 compliant transceiver, symbolizing the brand??s commitment to innovation in embedded wireless technology. It supports developers with mature toolchains and extensive documentation, facilitating rapid development cycles and dependable performance in diverse industrial and consumer applications.
FAQ
What type of wireless communication does this microcontroller support?
This device features an integrated transceiver operating at 2.4 GHz, compliant with the IEEE 802.15.4 standard. This enables it to support protocols such as ZigBee and other low-power wireless communication schemes commonly used in sensor networks and IoT applications.
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How does the memory capacity benefit embedded system design?
With 256 KB of flash memory and 32 KB of SRAM, the microcontroller can accommodate complex firmware and data handling tasks. This large memory footprint allows developers to implement sophisticated algorithms and store sensor data locally, reducing the need for external memory chips and improving system integration.
What are the power consumption characteristics of this device?
The unit is optimized for low power usage, consuming approximately 13.6 mA in receive mode and around 13.5 mA during transmission at 0 dBm output power. Additionally, it supports multiple sleep and power-saving modes, making it suitable for battery-operated and energy-sensitive applications.
📩 Contattaci
Which package type is available for this microcontroller?
This microcontroller is supplied in a 64-pin QFN package. This compact form factor facilitates high-density PCB layouts while maintaining good thermal performance and ease of assembly in automated manufacturing processes.
What development tools and support are available for this product?
The microcontroller benefits from a mature ecosystem including comprehensive datasheets, application notes, and development kits. Software toolchains supporting C and assembly programming, along with debugging tools, are widely available to streamline design and testing phases.