The XC7K160T-2FF676I is a powerful field-programmable gate array (FPGA) from Xilinx’s Kintex-7 family, designed to deliver exceptional performance for demanding applications. This advanced FPGA combines high logic capacity with energy efficiency, making it ideal for telecommunications, aerospace, defense, and high-performance computing applications.
Product Specifications
The XC7K160T-2FF676I features impressive technical specifications that set it apart in the FPGA market:
Logic Resources:
- 162,240 logic cells providing extensive programmable logic capacity
- 11,700 configurable logic blocks (CLBs) for flexible design implementation
- 600 user I/O pins supporting various interface standards
Memory Architecture:
- 11.7 Mb total block RAM for high-speed data storage
- 1,540 block RAM blocks optimized for memory-intensive applications
- Distributed RAM capability for additional storage flexibility
DSP Performance:
- 600 DSP48E1 slices for high-performance signal processing
- 25×18-bit multipliers supporting complex mathematical operations
- Dedicated DSP blocks optimized for filtering and transformation algorithms
Package Details:
- FF676 package type in fine-pitch ball grid array (FBGA)
- -2 speed grade ensuring reliable performance across temperature ranges
- Industrial temperature range operation (-40°C to +100°C)
Price Information
The XC7K160T-2FF676I pricing varies based on quantity and supplier. Contact authorized Xilinx distributors for current pricing and volume discounts. Educational institutions and qualifying organizations may be eligible for special pricing programs.
Documents & Media
Essential documentation for the XC7K160T-2FF676I includes:
Technical Documentation:
- Official Xilinx datasheet with complete electrical and timing specifications
- Kintex-7 FPGA User Guide providing detailed architectural information
- Package and pinout documentation for PCB design integration
- Power consumption and thermal management guidelines
Design Resources:
- Vivado Design Suite compatibility information
- Reference designs and application notes
- Board design guidelines and layout recommendations
- Signal integrity considerations for high-speed applications
Related Resources
Maximize your XC7K160T-2FF676I implementation with these complementary resources:
Development Tools:
- Xilinx Vivado Design Suite for synthesis and implementation
- SDK for embedded software development
- ChipScope Pro for real-time debugging and analysis
- ModelSim simulation environment compatibility
Evaluation Platforms:
- Kintex-7 FPGA KC705 Evaluation Kit
- Compatible development boards from third-party vendors
- Reference designs for common applications
- Community forums and technical support resources
Training and Support:
- Online training courses for Kintex-7 architecture
- Application-specific design tutorials
- Technical support through Xilinx Answer Database
- Professional services for complex design challenges
Environmental & Export Classifications
The XC7K160T-2FF676I meets stringent environmental and regulatory standards:
Environmental Compliance:
- RoHS compliant for lead-free manufacturing processes
- REACH regulation compliance for chemical safety
- Conflict minerals reporting template (CMRT) available
- ISO 14001 environmental management system certified manufacturing
Export Classification:
- Export Control Classification Number (ECCN) as designated by BIS
- Suitable for commercial applications with standard export procedures
- Compliance documentation available for international shipments
- Regional distributors ensure local regulatory compliance
Quality Standards:
- Automotive-grade versions available for critical applications
- Military and aerospace qualified variants for defense applications
- Industrial temperature range certification
- Long-term supply commitment for production designs
The XC7K160T-2FF676I represents Xilinx’s commitment to providing high-performance, reliable FPGA solutions. Its combination of logic capacity, DSP performance, and flexible I/O makes it an excellent choice for next-generation electronic systems requiring programmable logic capabilities.
