The XCV50-4PQG240I is a powerful field-programmable gate array (FPGA) from Xilinx’s Virtex-II family, designed to deliver exceptional performance for demanding digital signal processing, telecommunications, and embedded system applications. This industrial-grade FPGA combines advanced architecture with robust reliability standards.
Product Specifications
The XCV50-4PQG240I features a comprehensive set of technical specifications optimized for high-performance applications:
Core Architecture:
- 50,000 system gates providing substantial logic capacity
- Advanced Virtex-II architecture with optimized routing resources
- Distributed RAM and block RAM for flexible memory solutions
- Dedicated multipliers for efficient DSP operations
Package and Pin Configuration:
- 240-pin Plastic Quad Flat Pack (PQG240) package
- Industrial temperature range (-40ยฐC to +100ยฐC)
- Speed grade -4 for high-performance applications
- Lead-free and RoHS compliant construction
Power and Performance:
- Low power consumption with advanced power management
- High-speed I/O capabilities supporting multiple standards
- Clock management units for precise timing control
- Built-in configuration memory and security features
Pricing Information
The XCV50-4PQG240I pricing varies based on quantity, supplier, and current market conditions. For accurate pricing information:
- Contact authorized Xilinx distributors for volume pricing
- Individual unit pricing typically ranges from $200-$400
- Development quantities may qualify for engineering sample programs
- Long-term supply agreements available for production volumes
Educational discounts and evaluation programs may be available through Xilinx University Program partnerships.
Documents & Media
Comprehensive documentation supports the XCV50-4PQG240I implementation:
Technical Documentation:
- Complete datasheet with electrical specifications
- Pin-out diagrams and package mechanical drawings
- Application notes covering design best practices
- Migration guides from previous FPGA generations
Design Resources:
- Reference designs and demonstration projects
- Constraint files and PCB layout guidelines
- Simulation models for major EDA tools
- Configuration and programming specifications
Software Tools:
- ISE Design Suite compatibility information
- Synthesis and implementation flow documentation
- Debugging and verification tool guides
Related Resources
The XCV50-4PQG240I ecosystem includes numerous supporting resources:
Development Tools:
- Xilinx ISE Design Suite for complete design flow
- ModelSim simulation environment integration
- ChipScope Pro for real-time debugging
- Platform Studio for embedded processor designs
Evaluation Platforms:
- Development boards featuring the XCV50-4PQG240I
- Reference designs for common applications
- Third-party development kits and modules
- Academic research platforms and courseware
Community Support:
- Xilinx forums and technical support channels
- Application engineering consultation services
- Training courses and certification programs
- Partner ecosystem for specialized solutions
Environmental & Export Classifications
The XCV50-4PQG240I meets stringent environmental and regulatory requirements:
Environmental Compliance:
- RoHS compliant lead-free construction
- REACH regulation compliance for European markets
- Conflict minerals reporting compliance
- Green packaging using recyclable materials
Quality Standards:
- Industrial temperature grade qualification
- Automotive quality standards where applicable
- ISO 9001 manufacturing quality systems
- Six Sigma design and manufacturing processes
Export Classifications:
- EAR99 classification for most applications
- ECCN compliance documentation available
- Country-specific import/export guidance
- Trade compliance support through authorized channels
Reliability Standards:
- Extended operating temperature range testing
- Accelerated aging and stress testing validation
- Comprehensive failure analysis and reporting
- Long-term supply commitment and lifecycle management
The XCV50-4PQG240I represents a proven solution for engineers requiring reliable, high-performance FPGA technology with comprehensive design support and long-term availability assurance.
