The XC2VP7-7FG456C is a powerful Field Programmable Gate Array (FPGA) from Xilinx’s Virtex-II Pro family, designed to deliver exceptional performance for demanding applications. This advanced programmable logic device combines high-speed processing capabilities with flexible configuration options, making it ideal for telecommunications, aerospace, defense, and industrial automation systems.
Product Specifications
The XC2VP7-7FG456C features robust specifications that enable complex digital signal processing and system-on-chip implementations. This FPGA incorporates 4,928 logic cells with 44,096 system gates, providing substantial processing power for sophisticated applications. The device operates at a -7 speed grade, ensuring reliable performance across various operating conditions.
Key specifications of the XC2VP7-7FG456C include:
Logic Resources:
- 4,928 logic cells for complex digital designs
- 44,096 equivalent system gates
- 88 user I/O pins for flexible connectivity
- Dedicated multiplier blocks for DSP applications
Memory Configuration:
- 792 Kb total block RAM
- 18 Kb block RAM units
- Distributed RAM capability
- Configuration memory for design storage
Package Details:
- FG456 Fine-Pitch BGA package
- 456-pin configuration
- Compact 23mm x 23mm footprint
- RoHS compliant lead-free package
Performance Characteristics:
- -7 speed grade for high-performance applications
- Low power consumption design
- Commercial temperature range operation
- Advanced clock management resources
Price Information
The XC2VP7-7FG456C pricing varies based on quantity, distribution channel, and current market conditions. Contact authorized Xilinx distributors for current pricing and availability information. Volume discounts are typically available for large-quantity orders, making this FPGA cost-effective for production applications.
For the most accurate XC2VP7-7FG456C pricing, request quotes from multiple suppliers to ensure competitive rates and optimal lead times for your project requirements.
Documents & Media
Comprehensive documentation supports the XC2VP7-7FG456C implementation process:
Technical Documentation:
- Complete datasheet with electrical specifications
- Pinout diagrams and package drawings
- AC/DC switching characteristics
- Power consumption analysis
- Thermal management guidelines
Design Resources:
- Xilinx ISE Design Suite compatibility
- Reference designs and application notes
- Constraint files and timing models
- PCB design guidelines
- Signal integrity recommendations
Software Support:
- Xilinx Vivado Design Suite integration
- ChipScope Pro analyzer compatibility
- ModelSim simulation support
- Third-party tool compatibility
Related Resources
The XC2VP7-7FG456C ecosystem includes various supporting components and resources:
Development Tools:
- Xilinx development boards featuring the XC2VP7-7FG456C
- Evaluation kits for rapid prototyping
- Debug and programming cables
- IP core libraries and reference designs
Compatible Products:
- Other Virtex-II Pro family members
- Configuration memory devices
- Power management solutions
- Clock generation circuits
Technical Support:
- Xilinx Answer Database access
- Community forums and user groups
- Application engineer support
- Training courses and webinars
Environmental & Export Classifications
The XC2VP7-7FG456C meets stringent environmental and regulatory requirements:
Environmental Compliance:
- RoHS directive compliance (lead-free)
- WEEE directive adherence
- REACH regulation compliance
- Green package certification
Quality Standards:
- ISO 9001:2015 manufacturing quality
- Automotive qualification available
- Industrial temperature range options
- Extended reliability testing
Export Classifications:
- ECCN (Export Control Classification Number) compliance
- Country of origin documentation
- Trade compliance certifications
- Restricted party screening
The XC2VP7-7FG456C represents a proven solution for high-performance FPGA applications, combining advanced features with reliable operation and comprehensive support resources. This versatile device enables engineers to implement complex digital systems while maintaining design flexibility and cost-effectiveness.
