The XCV400E-6BG432C represents a powerful solution in Xilinx’s Virtex-E FPGA family, designed to meet demanding requirements in telecommunications, digital signal processing, and high-speed computing applications. This field-programmable gate array delivers exceptional performance with its advanced architecture and comprehensive feature set.
Product Specifications
The XCV400E-6BG432C features a robust configuration optimized for complex digital designs:
Core Architecture:
- System gates: 400,000 equivalent gates
- Logic cells: Approximately 4,704 configurable logic blocks
- Speed grade: -6 (high-performance timing specification)
- Package type: BG432 (Ball Grid Array, 432 pins)
- Operating voltage: 1.8V core, 3.3V I/O
- Temperature range: Commercial (0ยฐC to +85ยฐC)
Memory and I/O Capabilities:
- Block RAM: 32 blocks of 4Kb each (128Kb total)
- Maximum user I/O pins: 404
- Differential I/O pairs: 202
- Digital Clock Managers (DCMs): 4 units
- Global clock buffers: 8 dedicated buffers
Performance Characteristics:
- Maximum system frequency: Up to 200MHz
- Low-power CMOS technology
- Advanced routing architecture for optimal signal integrity
- Support for multiple I/O standards including LVTTL, LVCMOS, and differential signaling
Pricing Information
The XCV400E-6BG432C pricing varies based on quantity and distribution channel. Contact authorized Xilinx distributors for current pricing and availability. Volume discounts are typically available for orders exceeding 100 units. Lead times generally range from 12-16 weeks for standard orders, with expedited options available for urgent requirements.
Documents & Media
Technical Documentation:
- XCV400E-6BG432C datasheet (comprehensive electrical and timing specifications)
- Virtex-E FPGA family user guide
- Package mechanical drawings and pin-out diagrams
- Application notes for design optimization
- Programming and configuration guidelines
Development Resources:
- Reference designs and example projects
- Constraint files for timing optimization
- Board layout guidelines for BG432 package
- Thermal management recommendations
- Signal integrity design guidelines
Software Tools:
- Compatible with Xilinx ISE Design Suite
- ModelSim simulation support
- ChipScope Pro debugging capabilities
- Impact programming software compatibility
Related Resources
Development Boards: Several evaluation and development platforms support the XCV400E-6BG432C, enabling rapid prototyping and system validation. These boards typically include power supplies, programming interfaces, and peripheral connections.
Companion Devices:
- Configuration memory devices (Platform Flash PROMs)
- Clock generation and distribution ICs
- Power management solutions optimized for Virtex-E FPGAs
- High-speed connectors and interface components
Design Services:
- Xilinx Alliance Program partners offering design consultation
- IP cores and reference designs from third-party vendors
- Training courses for Virtex-E FPGA development
- Technical support resources and online communities
Environmental & Export Classifications
Environmental Compliance: The XCV400E-6BG432C meets stringent environmental standards including RoHS compliance for lead-free manufacturing. The device undergoes comprehensive qualification testing to ensure reliability across specified operating conditions.
Quality Standards:
- ISO 9001 certified manufacturing
- JEDEC standard compliance
- Automotive-grade reliability testing (where applicable)
- Moisture sensitivity level classification
Export Control Information: This product may be subject to export control regulations depending on the destination country and end-use application. The XCV400E-6BG432C classification should be verified with current export control lists before international shipment.
Packaging and Handling:
- Anti-static packaging for component protection
- Moisture-sensitive device handling requirements
- Recommended storage conditions and shelf life
- Lead-free and halogen-free options available
The XCV400E-6BG432C delivers the performance, flexibility, and reliability required for next-generation digital systems, making it an ideal choice for engineers developing advanced FPGA-based solutions across multiple industry segments.
