The XC2VP4-6FG256C is a cutting-edge field-programmable gate array (FPGA) from Xilinx’s renowned Virtex-II Pro series, designed to deliver exceptional performance for demanding digital signal processing and embedded processing applications. This advanced programmable logic device combines high-speed processing capabilities with flexible configuration options, making it an ideal choice for telecommunications, aerospace, and industrial control systems.
Product Specifications
The XC2VP4-6FG256C features a robust architecture optimized for high-performance applications. This FPGA incorporates 4,928 logic cells with advanced CLB (Configurable Logic Block) technology, providing substantial computational resources for complex digital designs. The device operates at a speed grade of -6, ensuring rapid signal processing and minimal propagation delays.
Key technical specifications of the XC2VP4-6FG256C include 256-pin Fine-Pitch Ball Grid Array (FBGA) packaging, offering excellent thermal performance and signal integrity. The device supports multiple I/O standards and features embedded PowerPC processors, making it suitable for system-on-chip (SoC) implementations. With its commercial temperature range operation, the XC2VP4-6FG256C maintains reliable performance across various environmental conditions.
Price
Pricing for the XC2VP4-6FG256C varies based on quantity, supplier, and current market conditions. For accurate pricing information and volume discounts, contact authorized Xilinx distributors or electronic component suppliers. The cost-effectiveness of this FPGA makes it attractive for both prototype development and production applications, offering excellent value for its advanced feature set.
Documents & Media
Comprehensive documentation for the XC2VP4-6FG256C includes detailed datasheets, user guides, and application notes available through Xilinx’s official documentation portal. These resources provide essential information for design implementation, including pinout diagrams, electrical characteristics, and timing specifications. Development tools and IP cores are also available to accelerate the design process and maximize the potential of this versatile FPGA.
Reference designs and example projects demonstrate practical applications of the XC2VP4-6FG256C, helping engineers implement complex digital systems efficiently. Video tutorials and webinars provide additional learning resources for both novice and experienced FPGA developers.
Related Resources
The XC2VP4-6FG256C is supported by Xilinx’s comprehensive development ecosystem, including the ISE Design Suite and various IP cores specifically optimized for Virtex-II Pro devices. Compatible evaluation boards and development kits enable rapid prototyping and system validation, reducing time-to-market for new products.
Related products in the Virtex-II Pro family offer scalable solutions for different application requirements, allowing designers to select the optimal device based on logic capacity, I/O count, and performance specifications. Technical support resources, including online forums and application engineering assistance, provide valuable guidance throughout the development process.
Environmental & Export Classifications
The XC2VP4-6FG256C complies with industry-standard environmental regulations and quality certifications. This FPGA meets RoHS (Restriction of Hazardous Substances) requirements and follows lead-free manufacturing processes, ensuring environmental responsibility and regulatory compliance.
Export classification information for the XC2VP4-6FG256C is available through official channels, with proper documentation required for international shipments. The device adheres to applicable export control regulations and quality standards, making it suitable for global deployment in commercial and industrial applications.
Quality assurance testing ensures reliable operation under specified environmental conditions, including temperature cycling, humidity exposure, and mechanical stress testing. The XC2VP4-6FG256C maintains consistent performance characteristics throughout its operational lifetime, providing dependable service in mission-critical applications.
