The XC4036XL-08BGG432C is a versatile field-programmable gate array (FPGA) from Xilinx’s XC4000XL series, designed to deliver exceptional performance for complex digital signal processing and embedded system applications. This advanced programmable logic device combines high-speed operation with flexible configuration options, making it an ideal choice for demanding engineering projects.
Product Specification
The XC4036XL-08BGG432C features a robust architecture built on Xilinx’s proven XC4000XL technology platform. This FPGA incorporates 36,000 system gates with a speed grade of -08, ensuring optimal performance for time-critical applications. The device utilizes a 432-pin Ball Grid Array (BGA) package configuration, providing excellent thermal dissipation and signal integrity.
Key technical specifications of the XC4036XL-08BGG432C include multiple configurable logic blocks (CLBs), dedicated input/output blocks (IOBs), and embedded memory resources. The device supports various I/O standards and operates across a wide temperature range, making it suitable for both commercial and industrial applications. The programmable interconnect matrix enables flexible routing between logic elements, allowing designers to implement custom digital architectures efficiently.
The XC4036XL-08BGG432C supports in-system programming capabilities, enabling field updates and configuration changes without removing the device from the target system. This feature significantly reduces development time and provides flexibility for product updates and customization.
Price
Pricing for the XC4036XL-08BGG432C varies based on order quantity, packaging options, and supplier relationships. The device is typically available through authorized Xilinx distributors and electronic component suppliers. Volume pricing discounts are commonly available for large-scale production requirements.
For current pricing information and availability status of the XC4036XL-08BGG432C, contact authorized distributors or visit official Xilinx partner websites. Price quotations often include lead time estimates and minimum order quantities, which can vary based on market conditions and inventory levels.
Educational institutions and research organizations may be eligible for special academic pricing programs. Custom packaging and testing options may also be available for specific application requirements, though these services typically involve additional costs and extended lead times.
Documents & Media
Comprehensive technical documentation is available for the XC4036XL-08BGG432C through official Xilinx resources. The primary datasheet provides detailed electrical characteristics, timing specifications, and package information essential for proper device implementation.
Application notes and design guides offer practical implementation examples and best practices for utilizing the XC4036XL-08BGG432C in various applications. These resources include reference designs, timing analysis guidelines, and power consumption optimization techniques.
Development tool support documentation covers software requirements, programming procedures, and debugging methodologies. The XC4036XL-08BGG432C is supported by Xilinx’s integrated development environment, which includes synthesis, place-and-route, and verification tools.
Technical reference manuals provide in-depth architectural information, including detailed descriptions of logic block configurations, routing resources, and I/O capabilities. These documents are essential for advanced users requiring comprehensive understanding of device internals.
Related Resources
The XC4036XL-08BGG432C is compatible with various development boards and evaluation kits designed for the XC4000XL series. These platforms provide convenient prototyping environments for testing and validating designs before production implementation.
Software development tools specifically supporting the XC4036XL-08BGG432C include synthesis tools, simulation environments, and programming utilities. These resources enable efficient design entry, verification, and device configuration throughout the development process.
Third-party intellectual property (IP) cores compatible with the XC4036XL-08BGG432C are available from various vendors, providing pre-verified functions such as digital signal processing blocks, communication interfaces, and memory controllers. These IP cores can significantly accelerate development timelines and reduce design complexity.
Training materials and online resources offer educational content for engineers working with the XC4036XL-08BGG432C. These include webinars, technical presentations, and hands-on tutorials covering device programming, optimization techniques, and troubleshooting procedures.
Environmental & Export Classifications
The XC4036XL-08BGG432C complies with international environmental standards including RoHS (Restriction of Hazardous Substances) directives, ensuring responsible manufacturing practices and environmental protection. The device meets halogen-free requirements and follows lead-free assembly processes.
Operating temperature ranges for the XC4036XL-08BGG432C are specified for both commercial and industrial grade variants, with extended temperature options available for harsh environment applications. The device demonstrates excellent reliability performance across specified temperature, humidity, and vibration conditions.
Export classification information for the XC4036XL-08BGG432C is available through official channels, with specific Export Control Classification Numbers (ECCN) assigned based on technical capabilities and intended applications. International shipping and customs documentation requirements vary by destination country and end-use applications.
Environmental testing standards compliance includes thermal cycling, moisture sensitivity, and electromagnetic compatibility requirements. The XC4036XL-08BGG432C undergoes comprehensive qualification testing to ensure reliable operation across specified environmental conditions and application scenarios.
Quality assurance programs for the XC4036XL-08BGG432C include statistical process control, reliability testing, and traceability documentation. These programs ensure consistent device performance and facilitate quality audits for mission-critical applications requiring high reliability standards.
