The XC2064-125PC68C is a versatile Field Programmable Gate Array (FPGA) designed to deliver exceptional performance for complex digital circuit implementations. This powerful programmable logic device offers engineers and designers the flexibility to create custom digital solutions with optimal speed and efficiency.
Product Specifications
The XC2064-125PC68C features robust technical specifications that make it ideal for demanding applications:
Core Architecture:
- 64 Configurable Logic Blocks (CLBs) providing extensive design flexibility
- Advanced routing architecture for optimal signal integrity
- High-speed performance with 125MHz maximum operating frequency
- Low power consumption design for energy-efficient applications
Package Details:
- 68-pin Plastic Leaded Chip Carrier (PLCC) package
- Compact form factor suitable for space-constrained designs
- Industrial-grade construction ensuring reliable operation
- Lead-free packaging compliant with environmental standards
Memory and I/O:
- Integrated configuration memory for seamless programming
- Multiple I/O standards support for versatile connectivity
- Programmable I/O pins with configurable drive strength
- Built-in pull-up and pull-down resistors for enhanced signal integrity
Price
The XC2064-125PC68C offers competitive pricing for its performance class, making it an economical choice for both prototype development and volume production. Pricing varies based on order quantity, with significant discounts available for bulk purchases. Contact authorized distributors for current pricing information and volume discount schedules.
Documents & Media
Comprehensive technical documentation supports the XC2064-125PC68C implementation:
Technical Documentation:
- Complete datasheet with electrical characteristics and timing specifications
- Programming guide with detailed configuration procedures
- Application notes covering common implementation scenarios
- Reference designs and example code for rapid development
Development Tools:
- Compatible with industry-standard FPGA design software
- Comprehensive simulation models for accurate pre-implementation verification
- Programming utilities and configuration file generators
- Debug and analysis tools for system optimization
Related Resources
The XC2064-125PC68C ecosystem includes various supporting components and resources:
Development Boards:
- Evaluation kits featuring the XC2064-125PC68C for rapid prototyping
- Reference designs demonstrating key application areas
- Tutorial materials and getting-started guides
Compatible Components:
- Configuration PROMs for standalone operation
- Clock generation and distribution circuits
- Interface components for system integration
- Power management solutions optimized for FPGA applications
Software Tools:
- Design entry and synthesis software packages
- Place-and-route tools for optimal resource utilization
- Timing analysis utilities for performance optimization
- Configuration and programming software
Environmental & Export Classifications
The XC2064-125PC68C meets stringent environmental and regulatory requirements:
Environmental Compliance:
- RoHS compliant lead-free construction
- Operating temperature range: 0ยฐC to +70ยฐC (commercial grade)
- Storage temperature range: -65ยฐC to +150ยฐC
- Humidity tolerance up to 85% non-condensing
Quality Standards:
- Manufactured in ISO 9001 certified facilities
- Full traceability and quality documentation
- Extensive reliability testing and qualification
- Compliance with automotive and industrial quality standards
Export Classifications:
- ECCN classification for international shipping compliance
- Country of origin documentation available
- Export license requirements vary by destination
- Full regulatory compliance documentation provided
The XC2064-125PC68C represents an excellent balance of performance, flexibility, and cost-effectiveness for FPGA-based designs. Its comprehensive feature set, robust documentation, and strong ecosystem support make it an ideal choice for engineers developing advanced digital systems across multiple application domains.
