XCV300E-6FG456I – Xilinx Virtex-E High I/O Industrial FPGA Product Description

1. Product Specifications

Core Features

• Manufacturer: Xilinx (now AMD)
• Part Number: XCV300E-6FG456I
• Family: Virtex-E 1.8V FPGAs
• Speed Grade: -6 (Cost-optimized performance grade)
• Temperature Grade: Industrial (I-TEMP)
• Technology Node: 0.18μm 6-layer metal CMOS process
• Series: Virtex®-E

Logic Resources & Performance

• System Gates: 411,955 gates
• Logic Gates: 82,944K gates
• Logic Elements/Cells: 6,912 cells
• LABs/CLBs: 1,536 Configurable Logic Blocks
• Total RAM Bits: 131,072 bits embedded block RAM
• Number of I/O: 312 user I/O pins (Maximum in XCV300E family)
• Maximum Frequency: 357MHz internal performance (speed grade -6)

Package & Physical Specifications

• Package Type: 456-Pin FBGA (Fine-pitch Ball Grid Array)
• Package Designation: FG456 (Fine-pitch Grid Array with 456 pins)
• Package Classification: 456-BBGA
• Package Dimensions: 23mm × 23mm
• Pin Count: 456 pins total
• Mounting Type: Surface Mount
• Ball Pitch: Fine-pitch for high I/O density

Electrical Specifications

• Core Voltage (VCCINT): 1.71V ~ 1.89V (Nominal 1.8V)
• I/O Voltage (VCCIO): Configurable based on I/O standards
• Operating Temperature Range: -40°C ~ 100°C (Industrial grade)
• Power Consumption: Optimized low-power 1.8V operation
• Voltage Supply Range: 1.71V ~ 1.89V

High I/O Industrial Characteristics

• Maximum I/O Count: 312 user I/O pins (highest in XCV300E family)
• Extended Temperature Range: -40°C to +100°C operation
• Speed Grade -6 Benefits: 357MHz performance at reduced cost
• Industrial Reliability: Enhanced qualification for demanding environments
• Cost-Performance Optimization: Maximum I/O at budget-friendly pricing

2. Price Information

Market Status & Availability

• Product Status: Obsolete/Legacy component (End-of-Life)
• Lifecycle Status: Obsolete (confirmed by multiple distributors)
• Current Availability: Available from multiple distributors and brokers
• Stock Status: Active inventory from various suppliers:
  • 12 distributors available (Octopart)
  • BOSER Technology: Immediate shipping available
  • FPGAkey: Real-time market intelligence
  • DigiKey: Standard availability

Cost-Effective High I/O Positioning

• Speed Grade Advantage: Lower cost compared to -7 and -8 speed grades
• Industrial Value: Extended temperature range with competitive pricing
• Maximum I/O Benefits: 312 I/O pins at cost-effective price point
• Performance Balance: 357MHz sufficient for most industrial I/O applications

Pricing Strategy

• Legacy Component Economics: Pricing varies based on remaining inventory
• Industrial Grade Premium: Higher cost than commercial grade due to extended qualification
• I/O Density Value: Maximum connectivity for XCV300E family at reasonable cost
• Volume Considerations: Multiple suppliers enable competitive pricing

Sourcing Recommendations

• Primary Sources: Multiple authorized distributors with confirmed stock
• Secondary Sources: Electronic component brokers specializing in legacy industrial components
• Quality Verification: Ensure original AMD Xilinx parts with full traceability
• Warranty Coverage: Typically 1-year warranty from authorized distributors

3. Documents & Media

Technical Documentation

• Primary Datasheet: Xilinx DS003 – Virtex-E 1.8V Field Programmable Gate Arrays
• User Guide: Virtex-E FPGA Complete Data Sheet and User Guide
• Configuration Manual: Virtex-E Configuration User Guide
• Package Documentation: 456-Pin FBGA package specifications and thermal data

Design Resources

• Pinout Information: Detailed 456-Pin FBGA pinout diagrams showing all 312 I/O pins
• IBIS Models: Signal integrity simulation models for high I/O density design
• BSDL Files: Boundary scan description language files for testing
• Package Models: Thermal and electrical package models for 456-pin FBGA
• Footprint Libraries: PCB layout footprints for major CAD tools (23×23mm package)

High I/O Design Documentation

• I/O Planning: Guidelines for utilizing 312 I/O pins effectively
• Signal Integrity: Design practices for high I/O density applications
• Power Distribution: Power delivery strategies for maximum I/O utilization
• Industrial Guidelines: Application notes for harsh environment I/O design

Speed Grade Specific Resources

• Timing Specifications: Speed grade -6 specific timing characteristics (357MHz)
• Performance Optimization: Guidelines for cost-effective high I/O design implementation
• Power Analysis: Speed grade -6 power consumption with maximum I/O utilization
• Industrial Applications: Use cases for moderate-speed, high I/O industrial systems

Media & Support Files

• Product Images: High-resolution package photos showing 456-pin FBGA
• Block Diagrams: Internal architecture and I/O structure diagrams
• Performance Charts: Speed grade comparison and industrial temperature operation
• Application Examples: High I/O industrial application reference designs

4. Related Resources

Development Tools & Software

• Primary Development Suite: ISE Design Suite (Recommended for Virtex-E)
  • ISE Foundation or ISE WebPack
  • XST (Xilinx Synthesis Technology)
  • Place and Route (PAR) tools with speed grade -6 and high I/O optimization
  • TRCE timing analyzer with industrial temperature derating
• Configuration Tools: iMPACT programming software
• Simulation Support: ModelSim, ISim integration with 456-pin FBGA models

Hardware Development Resources

• Programming Hardware:
  • Xilinx Platform Cable USB/Parallel
  • JTAG programming interfaces for industrial environments
  • Boundary scan test equipment for 456-pin FBGA
• Development Platforms: Limited availability (legacy products)
• Socket Solutions: 456-pin FBGA socket adapters for prototyping

Compatible Components

• Configuration Memory:
  • Xilinx Serial PROMs (industrial temperature rated)
  • Platform Flash configuration devices
  • External flash memory solutions for extended temperature
• Power Management:
  • Industrial grade 1.8V core voltage regulators
  • Multiple VCCIO supply solutions for diverse I/O requirements
• Clock Management: Industrial grade oscillators and clock distribution for high I/O systems

High I/O Design Considerations

• PCB Layout: Design strategies for 312 I/O pins in 456-FBGA package
• Signal Integrity: Managing signal quality with maximum I/O utilization
• Thermal Management: Heat dissipation with high I/O activity
• Power Distribution: Efficient power delivery for 312 I/O pins
• EMI/EMC: Managing electromagnetic interference with high I/O count

Modern Migration Path

Recommended Alternatives for New Designs:

• Artix-7 Series: XC7A100T, XC7A200T (Higher performance, more I/O, industrial temperature)
• Kintex-7 Series: XC7K160T, XC7K325T (High I/O density with superior performance)
• Zynq-7000: XC7Z045, XC7Z100 (For embedded processing with high I/O requirements)
• Automotive Series: Zynq UltraScale+ for automotive high I/O applications

Technical Support Resources

• Legacy Support: Technical assistance for high I/O industrial applications
• Migration Consulting: Guidance for transitioning to current high I/O families
• Industrial Application Support: Specialized support for harsh environment designs
• Community Resources: Industrial FPGA design forums and high I/O communities

5. Environmental & Export Classifications

Environmental Compliance

• RoHS Status: Contains Lead / RoHS Non-Compliant (Legacy product)
• Lead-Free Availability: Limited lead-free versions may be available
• REACH Regulation: EU REACH regulation compliance required for European markets
• Environmental Standards: Industrial electronic component classification

Temperature & Operating Conditions

• Operating Temperature: -40°C ~ 100°C (Industrial grade specification)
• Extended Temperature Qualification: Full industrial temperature range testing
• Storage Temperature: -65°C to +150°C
• Relative Humidity: 5% to 95% non-condensing
• Thermal Characteristics: Qualified for extended temperature cycling with high I/O activity

Reliability & Quality Standards

• Quality Grade: Industrial standard qualification
• ESD Protection: Human Body Model (HBM) and Machine Model (MM) tested
• Reliability Testing: Extended JEDEC standard industrial qualification
• Temperature Cycling: Enhanced qualification for -40°C to +100°C operation
• High I/O Qualification: Testing for maximum I/O pin utilization in industrial conditions

Export Control & Classifications

• ECCN (Export Control Classification Number): 3A001.a.7.a
• HTS Code: 8542.31.0001 (Harmonized Tariff Schedule)
• Country of Origin: Manufacturing location dependent
• Export Restrictions: Subject to US Export Administration Regulations (EAR)

Packaging & Handling

• Package Standards: Surface mount FBGA with industrial grade marking
• Anti-Static Requirements: ESD protective packaging mandatory
• Moisture Control: Dry pack shipping in moisture barrier bags
• Physical Protection: Anti-static handling for 456-pin FBGA packages
• Traceability: Full lot traceability for industrial applications

Industrial Applications

Ideal Applications:

• Industrial Automation: High I/O control systems and interfaces
• Automotive Electronics: Extended temperature automotive control units
• Telecommunications: Outdoor equipment with high connectivity requirements
• Medical Equipment: Industrial-grade medical instrumentation
• Aerospace & Defense: High I/O avionics and control systems
• Oil & Gas: Instrumentation and control in harsh environments
• Railway Systems: High I/O transportation control systems

Environmental Advantages:

• Extended temperature operation (-40°C to +100°C)
• Maximum I/O density (312 pins) for complex interface requirements
• Industrial grade reliability and qualification
• Cost-effective solution for high I/O harsh environments

Compliance Certifications

• ISO Standards: Manufacturing under ISO 9001 quality systems
• IPC Standards: Package and assembly standards compliance
• JEDEC Standards: Industrial grade electronic component specifications
• Automotive Standards: AEC-Q100 compatible qualification testing

Disposal & Environmental Impact

• WEEE Directive: Compliance with waste electrical equipment directive
• Conflict Minerals: Responsible sourcing compliance where applicable
• Recycling Programs: Electronic waste recycling participation
• Material Content: Silicon, copper, lead (legacy), and standard materials
• Environmental Impact: Industrial-grade environmental specifications

Regional Compliance

• North America: FCC compliance for industrial electronic equipment
• Europe: CE marking requirements for industrial equipment
• Asia Pacific: Local industrial equipment regulations
• Automotive: Meets automotive electronics environmental requirements

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High I/O Industrial FPGA Notice: The XCV300E-6FG456I provides the ultimate solution for applications requiring maximum I/O connectivity (312 pins) with industrial temperature operation (-40°C to +100°C) while maintaining cost-effectiveness through speed grade -6 selection. This variant offers the highest I/O count in the XCV300E family, making it ideal for complex industrial interface applications, control systems, and data acquisition systems. The 357MHz performance is well-suited for most industrial I/O applications where maximum connectivity is more critical than absolute speed. The proven 456-pin FBGA package provides excellent signal integrity and thermal performance for high I/O density designs. This legacy product represents mature, field-proven technology with extensive history in harsh industrial environments, making it perfect for existing high I/O industrial designs and new cost-sensitive applications requiring maximum connectivity with extended temperature operation. For new designs, migration to current FPGA families with modern development tools, higher performance, and long-term support is recommended.