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  • Inquire: Call 0086-755-23203480, or reach out via the form below/your sales contact to discuss our design, manufacturing, and assembly capabilities.
  • Quote: Email your PCB files to Sales@pcbsync.com (Preferred for large files) or submit online. We will contact you promptly. Please ensure your email is correct.
Drag & Drop Files, Choose Files to Upload You can upload up to 3 files.

Notes:
For PCB fabrication, we require PCB design file in Gerber RS-274X format (most preferred), *.PCB/DDB (Protel, inform your program version) format or *.BRD (Eagle) format. For PCB assembly, we require PCB design file in above mentioned format, drilling file and BOM. Click to download BOM template To avoid file missing, please include all files into one folder and compress it into .zip or .rar format.

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- Ben Carter Operations Director

XCV100E-6FG256I: High-Performance Xilinx Virtex-E FPGA for Advanced Embedded Applications

XCV100E-6FG256I: High-Performance Xilinx Virtex-E FPGA for Advanced Embedded Applications

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Product Details

Overview of XCV100E-6FG256I FPGA

The XCV100E-6FG256I is a powerful Field Programmable Gate Array (FPGA) from AMD Xilinx’s renowned Virtex-E family. This industrial-grade FPGA delivers exceptional performance with 100,000 system gates, making it ideal for complex digital designs in telecommunications, industrial automation, consumer electronics, and aerospace applications. As a member of the Xilinx FPGA portfolio, the XCV100E-6FG256I represents proven technology for mission-critical embedded systems.

Key Features and Specifications

The XCV100E-6FG256I stands out with its robust feature set designed for demanding applications:

  • System Gates: 100,000 gates (176,000 maximum gates)
  • User I/O Pins: 176 configurable I/O
  • Logic Cells: 81,920 logic cells
  • Configuration Memory: 2,700 CLB slices
  • Package Type: 256-pin FineLine BGA (FBGA)
  • Speed Grade: -6 (6ns maximum propagation delay)
  • Operating Temperature: Industrial range (-40°C to +100°C)
  • Supply Voltage: 1.8V to 3.45V (core: 1.8V, I/O: 3.3V)
  • Maximum Frequency: 133.3 MHz
  • Part Number: XCV100E-6FG256I

Technical Specifications Table

Parameter Specification
Manufacturer AMD Xilinx (formerly Xilinx Inc.)
Product Family Virtex-E FPGA Series
System Gates 100,000
Logic Cells 81,920
CLB Slices 2,700
User I/O 176 pins
Package Type 256-FBGA (FineLine Ball Grid Array)
Speed Grade -6 (6ns delay)
Core Voltage 1.8V
I/O Voltage 3.3V (2.5V/3.3V compatible)
Temperature Range -40°C to +100°C (Industrial)
Max Operating Frequency 133.3 MHz
Lead Status Contains lead / RoHS non-compliant
Mounting Type Surface Mount (SMT)

Performance Characteristics

Processing Power and Speed

The XCV100E-6FG256I FPGA excels in high-speed digital processing with its -6 speed grade, ensuring minimal propagation delay of just 6 nanoseconds. This makes it suitable for:

  • Real-time signal processing
  • High-speed data acquisition systems
  • Fast control loop applications
  • Time-critical embedded systems

Architecture and Logic Resources

Resource Type Quantity Description
CLB Slices 2,700 Configurable Logic Blocks for custom logic
Total Gates 176,000 Maximum usable gates
System Gates 100,000 Typical design capacity
I/O Standards Multiple LVTTL, LVCMOS, PCI, GTL+ support
Block RAM Yes Embedded memory blocks
DLLs 4 Digital Locked Loops for clock management

Pin Configuration and Package Details

256-FBGA Package Information

Package Feature Details
Package Type FineLine BGA (Ball Grid Array)
Pin Count 256 pins
Body Size 17mm x 17mm
Ball Pitch 1.0mm
User I/O Available 176 pins
Power Pins Multiple VCC/GND pairs
Configuration Pins JTAG and SelectMAP interface
Mounting Surface mount technology (SMT)

I/O Capabilities

The XCV100E-6FG256I provides 176 user-configurable I/O pins supporting multiple voltage standards:

  • 3.3V LVTTL/LVCMOS
  • 2.5V LVCMOS
  • PCI 33/66 MHz
  • GTL, GTL+
  • SSTL2, SSTL3
  • HSTL Class I, II, III, IV

Applications and Use Cases

Primary Applications

The XCV100E-6FG256I FPGA is deployed across various industries:

  1. Telecommunications Equipment
    • Digital signal processing
    • Protocol conversion
    • Network interface cards
    • Wireless base stations
  2. Industrial Control Systems
    • Motor control units
    • Process automation
    • PLC implementations
    • Factory automation
  3. Consumer Electronics
    • Video processing systems
    • Audio equipment
    • Digital TV set-top boxes
    • Gaming hardware
  4. Automotive Systems
    • Engine control units (ECU)
    • Advanced driver assistance (ADAS)
    • Infotainment systems
    • Vehicle diagnostics
  5. Medical Devices
    • Imaging equipment
    • Patient monitoring systems
    • Laboratory instruments
    • Diagnostic devices
  6. Aerospace and Defense
    • Avionics systems
    • Radar signal processing
    • Secure communications
    • Navigation systems

Design Advantages

Advantage Benefit
Reconfigurability Field-upgradable designs without hardware changes
Low Power Consumption 1.8V core reduces power consumption
High Integration 100K gates reduce external component count
Fast Time-to-Market Programmable logic accelerates development
Cost-Effective Single chip replaces multiple discrete ICs
Industrial Temperature Reliable operation in harsh environments

Power Supply Requirements

Voltage Specifications

Supply Rail Voltage Tolerance Purpose
VCCINT 1.8V ±5% Core logic power
VCCO 3.3V ±5% I/O bank power (configurable)
VCCAUX 3.3V ±5% Auxiliary circuits
GND 0V Ground reference

Power Consumption Estimates

  • Typical Active Power: 0.5W – 2.0W (design dependent)
  • Standby Power: <100mW
  • Power per I/O: ~10mW per active I/O

Configuration and Programming

Configuration Methods

The XCV100E-6FG256I supports multiple configuration modes:

  1. JTAG Boundary Scan – IEEE 1149.1 compliant
  2. Master Serial Mode – Uses external PROM
  3. Slave Serial Mode – Controlled by external processor
  4. SelectMAP – 8-bit parallel configuration
  5. Slave Parallel Mode – Fastest configuration method

Development Tools

Compatible with Xilinx design tools:

  • Vivado Design Suite (legacy support)
  • ISE Design Suite (primary tool)
  • ChipScope Pro – On-chip debugging
  • ModelSim – HDL simulation
  • VHDL/Verilog – HDL language support

Reliability and Quality

Environmental and Mechanical Specifications

Parameter Specification
Operating Temperature -40°C to +100°C
Storage Temperature -65°C to +150°C
Moisture Sensitivity Level MSL 3
ESD Protection HBM: 2000V, CDM: 500V
MTBF >1,000,000 hours
Quality Standard ISO 9001 certified

Compliance and Standards

  • Industrial Temperature Grade (-I suffix)
  • Lead-bearing solder balls (pre-RoHS)
  • JEDEC compliant package
  • IPC standards for PCB layout

Comparison with Similar FPGAs

XCV100E Series Variants

Part Number Package I/O Pins Speed Grade Temp Range
XCV100E-6FG256I 256-FBGA 176 -6 Industrial
XCV100E-6FG256C 256-FBGA 176 -6 Commercial
XCV100E-7FG256I 256-FBGA 176 -7 Industrial
XCV100E-6PQ240I 240-PQFP 158 -6 Industrial
XCV100E-6BG352I 352-BGA 221 -6 Industrial

Performance Comparison

  • Faster than -7 speed grade (better performance)
  • More I/O than PQ240 package (176 vs 158 pins)
  • Smaller footprint than BG352 (17mm vs 27mm)
  • Industrial temp range advantage over commercial grades

Procurement and Availability

Where to Buy XCV100E-6FG256I

The XCV100E-6FG256I is available through authorized distributors:

  • Digi-Key Electronics – Full stock and documentation
  • Mouser Electronics – Global shipping
  • Arrow Electronics – Volume pricing
  • Avnet – Design support services
  • Authorized Xilinx distributors – Guaranteed authenticity

Pricing Information

Pricing varies based on:

  • Order quantity (volume discounts available)
  • Lead time (stock vs. custom order)
  • Distribution channel (direct vs. distributor)
  • Package type and speed grade

Contact authorized distributors for current pricing

Design Considerations

PCB Layout Guidelines

When designing with the XCV100E-6FG256I:

  1. Power Plane Design
    • Separate analog and digital grounds
    • Multiple decoupling capacitors (0.01µF, 0.1µF, 10µF)
    • Low-impedance power distribution
  2. Signal Integrity
    • Controlled impedance traces for high-speed signals
    • Proper termination for I/O signals
    • Minimize crosstalk between adjacent pins
  3. Thermal Management
    • Adequate copper pour for heat dissipation
    • Thermal vias under package if needed
    • Monitor junction temperature in design
  4. Configuration Interface
    • JTAG connector for programming/debug
    • Configuration mode selection circuitry
    • External PROM if using Master mode

Common Design Challenges

Challenge Solution
Power Supply Noise Multiple decoupling caps, power planes
Clock Distribution Use DLLs, minimize skew
I/O Timing Proper constraints in UCF file
Configuration Errors Check bitstream and connections
Thermal Issues Add heatsink or improve airflow

Support and Resources

Documentation

  • Product Data Sheet – Complete electrical specifications
  • User Guide – Virtex-E architecture and features
  • Application Notes – Design best practices
  • Package Drawings – Mechanical dimensions
  • Configuration Guide – Programming instructions

Technical Support

For technical assistance with the XCV100E-6FG256I:

  • AMD Xilinx Support Portal – Online resources
  • Community Forums – Peer-to-peer help
  • Field Application Engineers – Direct support
  • Authorized Distributors – Local assistance

Frequently Asked Questions (FAQ)

Q1: Is the XCV100E-6FG256I recommended for new designs?

While the Virtex-E series is mature and proven, AMD Xilinx now offers newer families (7-Series, UltraScale) with better performance and lower power. However, the XCV100E remains suitable for cost-sensitive applications and design continuity.

Q2: What is the difference between -6 and -7 speed grades?

The -6 speed grade is faster than -7, with lower propagation delays. The -6 grade provides better timing performance for high-speed applications but may consume slightly more power.

Q3: Can I use 2.5V I/O with this FPGA?

Yes, the XCV100E-6FG256I supports multiple I/O voltage standards including 2.5V LVCMOS when configured appropriately in the design software.

Q4: What programming cable do I need?

Standard Xilinx programming cables work, including:

  • Platform Cable USB II
  • Platform Cable USB
  • Compatible JTAG programmers (3.3V LVTTL levels)

Q5: Is this part RoHS compliant?

No, the XCV100E-6FG256I contains lead and is not RoHS compliant. For RoHS applications, consider newer Xilinx FPGA families or request lead-free alternatives if available.

Q6: What development software should I use?

Use ISE Design Suite (version 14.7 or compatible) for Virtex-E FPGAs. Vivado does not support this older device family.

Q7: How many logic resources do I actually get?

While the device has 176,000 maximum gates, the typical usable system gates are 100,000. Actual utilization depends on your design complexity and architecture.

Conclusion

The XCV100E-6FG256I remains a reliable choice for industrial embedded applications requiring proven FPGA technology. With 100,000 system gates, 176 I/O pins, and industrial temperature ratings, this Xilinx FPGA delivers the performance and reliability needed for demanding environments.

Key Takeaways

High-performance FPGA with 100K system gates
176 configurable I/O in compact 256-FBGA package
Industrial temperature range (-40°C to +100°C)
6ns propagation delay for time-critical applications
Proven Virtex-E architecture with extensive design support
Multiple configuration modes for flexible deployment
Wide application range from telecom to aerospace

Whether you’re designing industrial control systems, telecommunications equipment, or embedded processing solutions, the XCV100E-6FG256I offers the perfect balance of performance, integration, and reliability.

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Contact Sales & After-Sales Service

Contact & Quotation

  • Inquire: Call 0086-755-23203480, or reach out via the form below/your sales contact to discuss our design, manufacturing, and assembly capabilities.

  • Quote: Email your PCB files to Sales@pcbsync.com (Preferred for large files) or submit online. We will contact you promptly. Please ensure your email is correct.

Drag & Drop Files, Choose Files to Upload You can upload up to 3 files.

Notes:
For PCB fabrication, we require PCB design file in Gerber RS-274X format (most preferred), *.PCB/DDB (Protel, inform your program version) format or *.BRD (Eagle) format. For PCB assembly, we require PCB design file in above mentioned format, drilling file and BOM. Click to download BOM template To avoid file missing, please include all files into one folder and compress it into .zip or .rar format.