Overview of AT91SAM9G25-CU by Microchip Technology Inc.
The AT91SAM9G25-CU is a Microcontroller MCU, 32-bit, from the SAM9 Family AT91SAM9G Series Microcontrollers. Engineered by Microchip Technology Inc., this electronic component features an ARM9 core and operates at a maximum frequency of 400 MHz. It is packaged in a 217-pin BGA (Ball Grid Array) and supports a temperature range from -40 °C to 85 °C, making it suitable for demanding industrial applications. This part has a 32 KB program memory size and utilizes CMOS technology, offering a low power mode to enhance energy efficiency.
Key attributes of AT91SAM9G25-CU include a maximum supply voltage of 1.1 V, minimum supply voltage of 0.9 V, and a nominal supply voltage of 1 V. Additionally, it supports multiple communication protocols such as MMC(2) and RS-485, indicative of its versatility in handling different data interfaces. The inclusion of 16 DMA channels and the capability to handle boundary scan further demonstrate its suitability for complex data management and diagnostic tasks in embedded systems.
The part is also compliant with RoHS, suggesting its use in applications requiring adherence to environmental standards concerning hazardous substances. As of the current writing, the factory lead time for AT91SAM9G25-CU is noted as 4 weeks.
Industry Applications for AT91SAM9G25-CU
The versatile features of the AT91SAM9G25-CU allow it to be potentially suitable for various applications across multiple industries. However, these examples are purely illustrative and should be validated by engineering and design teams according to specific industry standards and application requirements.
- Industrial Automation: The AT91SAM9G25-CU could potentially be integrated into the control systems of industrial robots or assembly lines due to its high number of DMA channels and support for operating temperatures consistent with those found in industrial environments.
- Telecommunications: Given its support for multiple serial I/Os and high communication protocol versatility (including RS-485), this microcontroller might be suited for telecommunication equipment such as modems or router components to handle high-speed data transmissions efficiently.
- Smart Cities: The low power consumption and substantial data bus interface could make the AT91SAM9G25-CU ideal for use in smart city infrastructure components, such as traffic management systems or public utility monitoring, to optimize energy usage and improve city system management.
- Consumer Electronics: Devices that require responsive user interactivity and data processing, like smartwatches or home automation controllers, might incorporate AT91SAM9G25-CU due to its quick processing capabilities and support for integrated caches.
Note: These suggestions are theoretical and should be subjected to detailed analysis in real-world conditions.
About Microchip Technology Inc.
Microchip Technology Inc. is a prominent player in the field of semiconductor production, with a strong footing in the areas of Microcontrollers and Processors. Known for their innovation and reliability, Microchip’s products are highly regarded in the electronics industry. The Microcontrollers segment, which includes the AT91SAM9G25-CU, showcases their commitment to delivering advanced microcontroller solutions that serve a broad spectrum of applications from consumer electronics to complex industrial systems. Microchip’s microcontrollers are designed to offer high performance, enhanced interface options, and robust security features, accommodating a range of programming and operational demands.
Where to Find AT91SAM9G25-CU by Microchip Technology Inc
For sourcing the AT91SAM9G25-CU, potential buyers may consider exploring findchips.com for the most updated stock information and pricing. Although this component has historically been available at distributors like Master Electronics, EBV Elektronik, Chip Stock, and Avnet Silica, it is essential to verify current availability and conditions at findchips.com. The site also offers a comprehensive overview of other Microcontrollers that could serve as alternatives or comparisons to the AT91SAM9G25-CU.