Product Specification
The XCS30XL-PQ208 features a comprehensive set of specifications that make it suitable for a wide range of applications:
Core Features:
- Logic capacity optimized for medium to large-scale designs
- 208-pin Plastic Quad Flat Pack (PQFP) package configuration
- Advanced architecture supporting complex programmable logic implementations
- High-speed performance capabilities for time-critical applications
- Multiple I/O standards compatibility for versatile system integration
Technical Specifications:
- Package type: 208-pin PQFP (PQ208)
- Operating temperature range suitable for industrial applications
- Low power consumption design for energy-efficient operation
- Robust signal integrity and noise immunity
- Comprehensive configuration options for diverse design requirements
The XCS30XL-PQ208 incorporates advanced silicon technology that ensures reliable performance across various operating conditions while maintaining the flexibility that makes FPGAs essential for modern electronic design.
Price
Pricing for the XCS30XL-PQ208 varies based on quantity, supplier, and current market conditions. For the most accurate and up-to-date pricing information, we recommend contacting authorized distributors or checking with major electronic component suppliers. Volume discounts are typically available for larger orders, making the XCS30XL-PQ208 cost-effective for both prototyping and production applications.
Documents & Media
Comprehensive documentation and supporting materials are available for the XCS30XL-PQ208 to assist with design integration and implementation:
Technical Documentation:
- Detailed datasheet containing complete electrical and mechanical specifications
- Programming and configuration guides for optimal device utilization
- Application notes covering common implementation scenarios
- Pin configuration diagrams and package specifications
- Timing characteristics and performance parameters
Design Resources:
- Reference designs and example implementations
- Development board schematics and layouts
- Software tools compatibility information
- Programming file formats and configuration procedures
These resources provide engineers with the necessary information to successfully integrate the XCS30XL-PQ208 into their designs while maximizing performance and reliability.
Related Resources
The XCS30XL-PQ208 is part of a broader ecosystem of development tools and compatible components:
Development Tools:
- Compatible synthesis and place-and-route software packages
- Simulation and verification tools for design validation
- Programming and debugging interfaces
- Development boards and evaluation kits
Compatible Components:
- Related FPGA devices in the same family for scalability options
- Supporting components including configuration memory and power management solutions
- Interface devices and connectors optimized for the PQ208 package
- Reference clock sources and timing solutions
These resources enable designers to create complete systems around the XCS30XL-PQ208 while leveraging proven design methodologies and support infrastructure.
Environmental & Export Classifications
The XCS30XL-PQ208 meets stringent environmental and regulatory requirements:
Environmental Compliance:
- RoHS (Restriction of Hazardous Substances) compliant manufacturing
- Lead-free package construction for environmental responsibility
- Halogen-free materials where applicable
- Conflict minerals compliance for responsible sourcing
Export and Trade Classifications:
- Appropriate export control classification numbers (ECCN) for international trade
- Compliance with relevant trade regulations and restrictions
- Country of origin marking for supply chain transparency
- Quality certifications meeting international standards
Operating Environment:
- Industrial temperature range capability
- Moisture sensitivity level classification
- ESD (Electrostatic Discharge) protection ratings
- Long-term reliability specifications
The XCS30XL-PQ208 represents a reliable, high-performance FPGA solution that combines advanced technology with comprehensive support resources. Its robust design, extensive documentation, and regulatory compliance make it an excellent choice for engineers developing next-generation electronic systems requiring programmable logic capabilities.
