Overview of EP4CE10E22A7N by Intel Corporation
The EP4CE10E22A7N is a Field Programmable Gate Array (FPGA) from Intel Corporation, featuring 645 Configurable Logic Blocks (CLBs), capable of operating at a clock frequency of up to 472.5 MHz. With 10,320 logic cells, this component offers substantial flexibility and capacity for various programmable logic applications. The part is encapsulated in a plastic epoxy 144-LQFP Exposed Pad package with dimensions of 22 x 22 mm and a fine pitch of 0.50 mm. It is designed for automated surface mounting using gull wing terminals. The device boasts 91 input/output pins, supporting detailed and complex logic circuits suitable for advanced electronic designs.
This device adheres to high manufacturing and environmental standards, being RoHS compliant and Reach compliant, as well as being constructed with lead-free materials. The part operates over a broad temperature range, from -40°C to 125°C, making it suitable for use in challenging environmental conditions. Its moisture sensitivity level is specified at 3, signifying that it needs standard care during handling to prevent moisture-induced damage. The EP4CE10E22A7N is also characterized by automotive temperature grade specifications, indicating its robustness for higher-demand applications.
Industry Applications for EP4CE10E22A7N
The versatile features of EP4CE10E22A7N make it an enabling technology across various industries. Though to use this Field Programmable Gate Arrays effectively, it would be crucial to thoroughly analyze and verify its specs for compliance and suitability in specific applications. Here are a few industries where this FPGA could potentially be utilized:
- Industrial Automation: FPGAs like the EP4CE10E22A7N can potentially handle complex control systems and real-time processing tasks within automated manufacturing lines. Its high-speed clock and substantial logic cell count could manage multiple sensors and actuators, possibly improving efficiency and reliability in production workflows.
- Computing and Data Storage: This part might be employed in data centers to facilitate high-speed data processing tasks, potentially accelerating tasks such as data sorting and cryptographic security. The low-profile and heat sink packaging of the FPGA makes it ideally suited for densely packed electronic configurations often found in server environments.
- Electronic Manufacturing: The device could be beneficial in the testing and development of electronic products, providing a reconfigurable platform for prototyping various digital designs and interfaces, potentially shortening the development time and enhancing the testing accuracy in electronic production.
Please note, these potential industry applications are only conceptual and must be verified by engineering and design teams to ensure compliance with industry standards and specific application requirements.
About Intel Corporation
Intel Corporation is a leading global provider of semiconductor solutions, well-regarded for its innovations in the fields of computing and digital technology. Within the domain of programmable logic, Intel’s portfolio, including devices like EP4CE10E22A7N, showcases their commitment to providing advanced Field Programmable Gate Arrays that cater to a wide range of applications from consumer electronics to industrial systems. Their FPGAs are recognized for high performance, reliability, and the flexibility to meet the diverse needs of a global electronic market.
Where to Find EP4CE10E22A7N by Intel Corporation
To purchase the EP4CE10E22A7N, buyers should consider researching through an inventory platform like Field Programmable Gate Arrays at findchips.com. This part has been historically available at distributors such as Win Source Electronics and DigiKey. However, current stock levels and pricing vary, so it is vital to check for the most up-to-date information on findchips.com. This platform can also help locate alternate parts that may be offered by Intel Corporation or other manufacturers, thus aiding in finding the exact component needed for specific requirements.