Overview of 10M50DAF484C8G by Intel Corporation
The 10M50DAF484C8G is a Field Programmable Gate Array (FPGA) designed by Intel Corporation, known for its flexibility and high performance in complex processing systems. This part represents a state-of-the-art semiconductor with 50,000 logic cells encapsulated in a 484-ball plastic BGA package. The dimensions of this part are 23 x 23 mm with a fine pitch of 1 mm. Fully RoHS compliant, this FPGA is designed for broad application across multiple industries, adequately meeting modern environmental and manufacturing standards.
This device operates with a supply voltage range from 1.15 V to 1.25 V, features 360 I/O pins, and supports a maximum operating temperature of 85°C. The comprehensive spec sheet includes advanced technical features such as 3,125 configurable logic blocks (CLBs) and a balanced input-output number, making it considerably powerful within mid-range FPGA deployments. These attributes make this component part ideal for designers looking to balance power consumption with substantial computational capabilities.
Industry Applications for 10M50DAF484C8G
The adaptive nature and robust functionality of FPGAs like 10M50DAF484C8G allow for their use in a wide range of applications across various industries. Here, we explore possible industries that might benefit from integrating this FPGA:
- Telecommunications: The high I/O count and flexibility to reconfigure logic as per use-case make this FPGA suitable for telecommunications infrastructure, possibly serving as a core component in base stations or network routers where quick processing of information is crucial.
- Consumer Electronics: FPGAs are increasingly common in smart home devices and high-performance personal gadgets. The 10M50DAF484C8G could potentially be used in developing complex consumer electronics that require adaptive control and processing capabilities, like advanced wearables or gaming systems.
- Industrial Automation: With the capability to handle extensive input/output tasks, this FPGA can serve as a central processing unit in manufacturing robots, automation controllers, or real-time processing systems that require rapid and flexible response mechanisms.
- Computing and Data Storage: Data centers that demand high-speed data processing and flexible network configurations might leverage the 10M50DAF484C8G to optimize operations and manage workloads effectively between storage systems and network interfaces.
Please note that these potential industry applications are purely illustrative and would require in-depth analysis and verification by design teams to ensure that the FPGA meets specific standards and performance criteria in those scenarios.
About Intel Corporation
Intel Corporation is a global leader in digital technology innovation, including the development and production of Field Programmable Gate Arrays. Their FPGAs are known for high performance, reliability, and state-of-the-art technology integration tailored for a range of applications from consumer electronics to complex aerospace systems. Products like the 10M50DAF484C8G showcase Intel’s commitment to providing solutions that empower developers to deliver high-performance and versatile applications. Intel continues to push boundaries in scalable FPGA technology, focusing on energy efficiency, high-density integration, and the FPGA’s role in emerging applications such as artificial intelligence and the internet of things.
Where to Find 10M50DAF484C8G by Intel Corporation
To procure the 10M50DAF484C8G, it is recommended to utilize a reliable and up-to-date electronic components supplier database like findchips.com. Historically, this part has been available through distributors such as Win Source Electronics and DigiKey. By navigating to findchips.com, potential buyers can view current availability, compare prices, and order directly. For those considering alternative solutions, explore other Field Programmable Gate Arrays from Intel Corporation or other manufacturers within the same category to ensure the best fit for specific applications.