The XC7K410T-3FFG676E is a powerful Field-Programmable Gate Array (FPGA) from Xilinx’s acclaimed Kintex-7 family, engineered to deliver exceptional performance for demanding digital signal processing, communications, and high-speed computing applications. This advanced FPGA combines superior processing capabilities with energy efficiency, making it an ideal choice for engineers developing next-generation electronic systems.
Product Specifications
The XC7K410T-3FFG676E features robust technical specifications that enable complex digital designs:
Core Architecture:
- Logic Cells: 406,720 logic cells providing extensive programmable resources
- Configurable Logic Blocks (CLBs): 63,550 CLBs for flexible digital logic implementation
- Block RAM: 28.6 Mb of integrated block RAM for high-speed data storage
- DSP Slices: 1,540 DSP48E1 slices optimized for signal processing operations
Memory and Processing:
- Distributed RAM: 3.3 Mb of distributed RAM for efficient data handling
- Maximum User I/O: 500 user I/O pins for extensive connectivity options
- Operating Voltage: 1.0V core voltage with multiple I/O voltage standards
- Speed Grade: -3 speed grade ensuring high-performance operation
Package Details:
- Package Type: FFG676 (Fine-Pitch Ball Grid Array)
- Pin Count: 676 pins in compact form factor
- Operating Temperature: Extended commercial temperature range
- Process Technology: 28nm CMOS technology for optimal power efficiency
Price Information
The XC7K410T-3FFG676E pricing varies based on quantity, supplier, and market conditions. Contact authorized Xilinx distributors for current pricing information, volume discounts, and availability. Enterprise customers may qualify for special pricing programs and extended support options.
Documents & Media
Technical Documentation:
- XC7K410T-3FFG676E datasheet with complete electrical specifications
- Kintex-7 FPGAs Data Sheet (DS182) containing detailed performance characteristics
- Package and pinout documentation for PCB design requirements
- Power consumption and thermal management guidelines
Development Resources:
- Vivado Design Suite compatibility information
- Reference designs and application notes
- Getting started guides for rapid prototyping
- Migration guides from previous FPGA generations
Quality and Reliability:
- Qualification reports and reliability data
- Environmental testing documentation
- Quality management system certifications
Related Resources
Development Tools:
- Vivado Design Suite: Comprehensive FPGA design environment supporting the XC7K410T-3FFG676E
- ISE Design Suite: Legacy tool support for existing projects
- ChipScope Pro: Advanced debugging and verification tools
- System Generator for DSP: MATLAB/Simulink integration for signal processing
Evaluation Platforms:
- Kintex-7 FPGA KC705 Evaluation Kit for rapid prototyping
- Compatible development boards from third-party vendors
- Reference designs showcasing XC7K410T-3FFG676E capabilities
Support Resources:
- Xilinx Community Forums for technical discussions
- Application engineering support for design optimization
- Training courses and certification programs
- Online documentation and video tutorials
Environmental & Export Classifications
Environmental Compliance: The XC7K410T-3FFG676E meets stringent environmental standards including RoHS compliance for lead-free manufacturing. The device is designed for extended operating temperature ranges and maintains performance across industrial environmental conditions.
Export Classifications:
- ECCN (Export Control Classification Number): 3A991.a.4
- HTS (Harmonized Tariff Schedule): 8542.39.0001
- Country of Origin: Varies by manufacturing location
- Export licensing requirements may apply for certain destinations
Quality Standards:
- ISO 9001:2015 certified manufacturing processes
- Automotive grade options available (contact factory)
- Industrial temperature grade standard
- JEDEC standard compliance for reliability testing
The XC7K410T-3FFG676E represents cutting-edge FPGA technology, delivering the performance and flexibility required for today’s most demanding applications while maintaining the reliability and support that engineers expect from Xilinx products.
