The XC2018-5PL84C is a versatile field-programmable gate array (FPGA) device designed for demanding digital signal processing and embedded computing applications. This advanced programmable logic device offers exceptional performance and flexibility for engineers developing complex digital systems.
Product Specifications
Core Features
The XC2018-5PL84C delivers robust programmable logic capabilities with its sophisticated architecture. This FPGA features configurable logic blocks (CLBs) that provide the foundation for implementing custom digital circuits. The device supports various logic functions, memory elements, and routing resources that enable designers to create application-specific solutions.
Package and Pin Configuration
- Package Type: 84-pin Plastic Leaded Chip Carrier (PLCC)
- Pin Count: 84 pins
- Form Factor: Surface-mount compatible
- Operating Temperature Range: Commercial grade (-40ยฐC to +85ยฐC)
Performance Characteristics
The XC2018-5PL84C offers reliable performance across a wide range of operating conditions. The device features low power consumption while maintaining high-speed operation, making it suitable for both battery-powered and continuous-operation applications.
Price Information
The XC2018-5PL84C is competitively priced for volume production applications. Pricing varies based on order quantity, delivery requirements, and specific packaging options. For current pricing and volume discounts, contact authorized distributors or semiconductor suppliers. Educational and prototyping quantities may be available at reduced rates through development programs.
Documents & Media
Technical Documentation
- Datasheet: Complete electrical specifications, timing parameters, and pin configurations
- Programming Guide: Detailed instructions for device configuration and programming
- Application Notes: Implementation examples and design recommendations
- Reference Designs: Proven circuit implementations and layout guidelines
Development Tools
- Design Software: Compatible with industry-standard FPGA development environments
- Simulation Models: SPICE and behavioral models for circuit simulation
- Programming Files: Reference bitstreams and configuration examples
Related Resources
Development Support
The XC2018-5PL84C is supported by comprehensive development resources including evaluation boards, reference designs, and technical support documentation. Development kits provide complete hardware platforms for prototyping and testing applications.
Compatible Products
- Programming Devices: JTAG programmers and configuration memory devices
- Support Components: Clock generators, power management ICs, and interface circuits
- Evaluation Boards: Ready-to-use development platforms with the XC2018-5PL84C
Technical Support
Engineering support resources include application engineers, design consultation services, and online technical forums. Training materials and webinars provide additional learning resources for development teams.
Environmental & Export Classifications
Environmental Compliance
The XC2018-5PL84C meets stringent environmental standards for commercial and industrial applications:
- RoHS Compliant: Lead-free manufacturing process
- REACH Compliant: Meets European chemical safety regulations
- Halogen-Free: Environmentally responsible packaging materials
Export Classification
- ECCN (Export Control Classification Number): Classified according to current export administration regulations
- HTS Code: Harmonized Tariff Schedule classification for international shipping
- Country of Origin: Manufacturing location and assembly information
Quality Standards
- ISO 9001: Quality management system certification
- Automotive Grade: Available in automotive-qualified versions for harsh environment applications
- Military/Aerospace: Extended temperature and reliability grades available
The XC2018-5PL84C represents a proven solution for engineers requiring flexible, high-performance programmable logic capabilities. Its combination of advanced features, comprehensive support resources, and environmental compliance makes it an ideal choice for next-generation digital system designs.
