The XCV300-6PQ240C is a powerful field-programmable gate array (FPGA) from Xilinx’s Virtex series, designed to deliver exceptional performance for demanding digital signal processing and system-on-chip applications. This advanced programmable logic device combines high-density architecture with superior speed capabilities, making it an ideal choice for telecommunications, automotive, industrial automation, and aerospace applications.
Product Specifications
The XCV300-6PQ240C features a robust architecture built on advanced CMOS technology. This FPGA incorporates 300,000 system gates with a -6 speed grade, ensuring optimal performance for time-critical applications. The device comes in a 240-pin plastic quad flat pack (PQ240) package, providing excellent thermal characteristics and reliable connectivity.
Key technical specifications of the XCV300-6PQ240C include configurable logic blocks (CLBs) that offer flexible logic implementation, dedicated memory blocks for efficient data storage, and integrated digital clock managers (DCMs) for precise clock distribution. The device operates across commercial temperature ranges and supports multiple I/O standards, making it compatible with various system interfaces.
The XCV300-6PQ240C delivers exceptional logic density with its array of lookup tables (LUTs), flip-flops, and routing resources. The architecture supports both synchronous and asynchronous design methodologies, allowing engineers to implement complex digital systems with confidence. Built-in boundary scan capabilities facilitate comprehensive testing and debugging throughout the development cycle.
Price
Pricing for the XCV300-6PQ240C varies based on order quantity, distribution channel, and current market conditions. For accurate pricing information and volume discounts, contact authorized Xilinx distributors or visit official semiconductor marketplaces. Educational institutions and research organizations may qualify for special academic pricing programs.
The XCV300-6PQ240C represents excellent value for applications requiring high-performance programmable logic with proven reliability. When evaluating total cost of ownership, consider the device’s long-term availability, comprehensive development tool support, and extensive documentation resources that accelerate time-to-market.
Documents & Media
Comprehensive technical documentation supports the XCV300-6PQ240C throughout the design cycle. The official datasheet provides detailed electrical characteristics, timing specifications, and package information essential for successful implementation. Application notes offer practical guidance for common design challenges and optimization techniques.
Development resources include reference designs, evaluation boards, and software tools that streamline the design process. The Xilinx ISE Design Suite provides complete synthesis, implementation, and verification capabilities specifically optimized for the XCV300-6PQ240C architecture. Additional resources include user guides, white papers, and training materials available through Xilinx’s online documentation portal.
Technical support materials encompass PCB layout guidelines, thermal management recommendations, and power supply design considerations. These resources ensure reliable operation and optimal performance of the XCV300-6PQ240C in production environments.
Related Resources
The XCV300-6PQ240C ecosystem includes compatible development boards, IP cores, and third-party tools that extend functionality and reduce development time. Popular evaluation platforms provide immediate access to the device’s capabilities, enabling rapid prototyping and proof-of-concept development.
Software tools supporting the XCV300-6PQ240C include simulation environments, debugging utilities, and performance analysis tools. The Xilinx ecosystem offers extensive IP libraries covering common functions such as digital signal processing, memory controllers, and communication interfaces. These pre-verified components accelerate development while ensuring reliable operation.
Community resources include user forums, application examples, and design contests that showcase innovative applications of the XCV300-6PQ240C. These platforms facilitate knowledge sharing and provide access to expert guidance from experienced FPGA developers worldwide.
Environmental & Export Classifications
The XCV300-6PQ240C meets stringent environmental standards for commercial and industrial applications. The device complies with RoHS directives, ensuring lead-free manufacturing processes and environmental responsibility. Halogen-free package options support green electronics initiatives and regulatory compliance requirements.
Operating temperature ranges and reliability specifications make the XCV300-6PQ240C suitable for demanding environmental conditions. The device undergoes comprehensive qualification testing including thermal cycling, humidity exposure, and mechanical stress evaluation to ensure long-term reliability.
Export classification information for the XCV300-6PQ240C is available through official channels to support international shipping and customs requirements. Proper export documentation ensures compliance with applicable trade regulations and facilitates global distribution of products incorporating this FPGA technology.
The XCV300-6PQ240C represents proven FPGA technology with comprehensive support resources, making it an excellent choice for applications requiring high-performance programmable logic solutions. Its combination of advanced features, reliable operation, and extensive ecosystem support delivers exceptional value for demanding digital system implementations.
