Product Specifications
The XC6VSX475T-L1FFG1156I features robust technical specifications that set it apart in the FPGA market:
Core Architecture:
- Logic Cells: 475,520 system gates
- Configurable Logic Blocks (CLBs): 74,400
- Maximum User I/O: 600 pins
- Block RAM: 38 Mb total memory
- DSP48E1 Slices: 2,016 dedicated multiply-accumulate blocks
Performance Characteristics:
- Speed Grade: -1L (Low Power variant)
- Operating Temperature Range: Industrial grade (-40ยฐC to +100ยฐC)
- Package Type: FFG1156 (Fine-Pitch Ball Grid Array)
- Supply Voltage: 1.0V core, multiple I/O standards supported
Advanced Features:
- High-speed serial transceivers for multi-gigabit connectivity
- Integrated memory controllers supporting DDR3/DDR2 interfaces
- Built-in PCIe endpoint and root port capabilities
- Advanced clock management with multiple PLLs and DCMs
The XC6VSX475T-L1FFG1156I incorporates Xilinx’s 40nm process technology, delivering optimal power efficiency while maintaining high performance standards essential for mission-critical applications.
Price Information
Pricing for the XC6VSX475T-L1FFG1156I varies based on quantity, distribution channel, and current market conditions. For accurate pricing information and volume discounts, contact authorized Xilinx distributors or visit official semiconductor supply partners. Educational institutions and research organizations may qualify for special academic pricing programs.
Documents & Media
Comprehensive technical documentation supports the XC6VSX475T-L1FFG1156I implementation:
Essential Documentation:
- Complete datasheet with electrical characteristics and timing specifications
- User guide covering configuration, programming, and design methodologies
- Package and pinout diagrams for FFG1156 ball grid array
- Power consumption analysis and thermal management guidelines
Development Resources:
- Reference designs and application notes
- Simulation models and timing analysis tools
- Board layout guidelines and signal integrity recommendations
- Software development kit (SDK) and driver packages
Multimedia Resources: Technical webinars, video tutorials, and interactive design tools provide additional support for engineers implementing the XC6VSX475T-L1FFG1156I in their projects.
Related Resources
The XC6VSX475T-L1FFG1156I ecosystem includes extensive development and support resources:
Development Tools:
- Xilinx Vivado Design Suite for synthesis and implementation
- ChipScope Pro for real-time debugging and analysis
- System Generator for DSP algorithm development
- EDK (Embedded Development Kit) for processor-based designs
Compatible Products:
- Development boards featuring the XC6VSX475T-L1FFG1156I
- Memory modules and high-speed connectors
- Cooling solutions and power management components
- Test and measurement equipment for validation
Support Services:
- Technical support forums and knowledge base
- Application engineering assistance
- Training courses and certification programs
- Third-party IP cores and design services
Environmental & Export Classifications
The XC6VSX475T-L1FFG1156I meets stringent environmental and regulatory standards:
Environmental Compliance:
- RoHS compliant (lead-free manufacturing)
- REACH regulation compliance
- Conflict minerals reporting program participation
- Green packaging and sustainable manufacturing practices
Export Control Classifications:
- Export Control Classification Number (ECCN) as designated by BIS
- Country-specific import/export requirements may apply
- Compliance with international trade regulations
- End-use and end-user screening requirements
Quality Standards:
- ISO 9001:2015 certified manufacturing
- Automotive qualification standards where applicable
- Military and aerospace grade options available
- Comprehensive quality assurance and testing protocols
The XC6VSX475T-L1FFG1156I represents the pinnacle of FPGA technology, offering designers the flexibility and performance needed for next-generation electronic systems. Its combination of high logic density, advanced features, and comprehensive support resources makes it an excellent choice for demanding applications requiring both performance and reliability.
