The XC6SLX25-2CSG324C is a powerful field-programmable gate array (FPGA) from Xilinx’s acclaimed Spartan-6 family, designed to deliver exceptional performance for cost-sensitive applications. This versatile programmable logic device combines advanced features with energy efficiency, making it an ideal choice for digital signal processing, embedded systems, and industrial control applications.
Product Specifications
The XC6SLX25-2CSG324C offers robust technical specifications that meet demanding application requirements:
Core Architecture:
- Logic Cells: 24,051 configurable logic blocks
- System Gates: 589,824 equivalent gates
- Block RAM: 1,267 Kb total memory
- DSP48A1 Slices: 38 dedicated multiply-accumulate blocks
- Maximum User I/O: 227 programmable input/output pins
Performance Characteristics:
- Speed Grade: -2 (standard performance)
- Operating Voltage: 1.2V core, 1.8V/2.5V/3.3V I/O
- Maximum Operating Frequency: Up to 375 MHz
- Power Consumption: Optimized for low-power applications
Package Details:
- Package Type: CSG324 (Chip Scale Grid Array)
- Pin Count: 324 pins
- Package Size: 15mm x 15mm
- Operating Temperature: Commercial grade (0ยฐC to +85ยฐC)
The XC6SLX25-2CSG324C integrates advanced clock management units, memory controllers, and high-speed transceivers, enabling seamless connectivity and superior signal processing capabilities.
Price Information
Pricing for the XC6SLX25-2CSG324C varies based on quantity, supplier, and market conditions. Contact authorized Xilinx distributors for current pricing and volume discounts. Educational institutions and qualified development teams may be eligible for special pricing programs.
Documents & Media
Technical Documentation:
- Official Xilinx Spartan-6 Family Datasheet
- XC6SLX25-2CSG324C Product Brief
- Configuration User Guides
- Package and Pinout Specifications
- Power Consumption Analysis Reports
Development Resources:
- Vivado Design Suite compatibility information
- ISE Design Suite project templates
- Reference designs and application notes
- Board design guidelines and layout recommendations
Media Resources:
- High-resolution product images
- Block diagrams and architecture overviews
- Video tutorials and webinar recordings
- Case studies showcasing real-world implementations
Related Resources
Development Tools:
- Xilinx Vivado Design Suite
- ISE Design Suite (legacy support)
- ChipScope Pro Analyzer for debugging
- System Generator for DSP applications
Evaluation Platforms:
- Spartan-6 FPGA Development Boards
- Compatible expansion modules
- Starter kits for rapid prototyping
- Third-party evaluation platforms
Complementary Products:
- Configuration memory devices
- Power management solutions
- Clock generation and distribution ICs
- Interface and connectivity components
Support Resources:
- Xilinx Community Forums
- Application engineering support
- Training courses and certification programs
- Design service partner network
Environmental & Export Classifications
Environmental Compliance: The XC6SLX25-2CSG324C meets stringent environmental standards including RoHS (Restriction of Hazardous Substances) compliance and REACH regulation requirements. The device is manufactured using environmentally responsible processes and materials.
Export Classifications:
- ECCN (Export Control Classification Number): 3A001.a.7
- HTS (Harmonized Tariff Schedule): 8542.31.0001
- Country of Origin: Various (consult specific part marking)
- Export licensing requirements may apply for certain destinations
Quality Standards:
- ISO 9001:2015 certified manufacturing
- Automotive qualification available (contact for AEC-Q100 variants)
- Industrial temperature range options
- Extended reliability testing and validation
Packaging and Handling:
- Moisture sensitivity level (MSL): Level 3
- Anti-static handling requirements
- Tray and tape-and-reel packaging options
- Lead-free and halogen-free construction
The XC6SLX25-2CSG324C represents an excellent balance of performance, features, and cost-effectiveness for modern FPGA applications. Its comprehensive feature set, robust design tools, and extensive documentation make it a preferred choice for engineers developing next-generation digital systems.
