Overview of XCV600E-6FG680I Field Programmable Gate Array
The XCV600E-6FG680I is a sophisticated Field Programmable Gate Array (FPGA) from AMD Xilinx’s renowned Virtex-E family, designed to deliver exceptional programmable logic solutions for complex digital systems. This industrial-grade FPGA combines high-capacity logic resources with advanced processing capabilities, making it an ideal choice for telecommunications, industrial automation, medical equipment, and aerospace applications.
As part of the Virtex-E series, this FPGA represents a significant advancement in programmable logic technology, offering designers the flexibility and performance needed for demanding real-time applications. The XCV600E-6FG680I features a 680-pin Fine-Pitch Ball Grid Array (FBGA) package, providing robust connectivity and thermal performance in space-constrained environments.
Key Technical Specifications
Core Architecture Features
| Specification |
Value |
| Logic Cells |
15,552 cells |
| System Gates |
186,624 gates |
| Configurable Logic Blocks (CLBs) |
3,456 CLBs |
| Total RAM Bits |
294,912 bits |
| Maximum Frequency |
357 MHz |
| Process Technology |
0.18 μm CMOS (6-layer metal) |
| Core Voltage |
1.8V |
| Package Type |
680-Pin FBGA (Fine-Pitch Ball Grid Array) |
| Operating Temperature |
Industrial Grade (-40°C to +100°C) |
Performance Characteristics
| Feature |
Description |
| Speed Grade |
-6 (357 MHz maximum performance) |
| I/O Standards Support |
16+ high-performance interface standards |
| Clock Management |
4 Delay-Locked Loops (DLLs) |
| Configuration |
SRAM-based in-system configuration |
| Package Dimensions |
Fine-pitch BGA with optimal thermal characteristics |
Advanced Features and Capabilities
Programmable Logic Architecture
The XCV600E-6FG680I delivers exceptional silicon efficiency through its optimized architecture designed specifically for place-and-route efficiency. Each configurable logic block (CLB) contains dedicated resources for implementing complex digital functions, including:
- Look-Up Tables (LUTs): High-speed combinational logic implementation
- Dedicated Carry Logic: Accelerated arithmetic operations for DSP applications
- Flexible Registers/Latches: Support for clock enable, synchronous/asynchronous set and reset
- Fast Interconnect Resources: Hierarchical routing architecture for minimal signal delay
Memory Architecture
With nearly 295,000 RAM bits distributed throughout the device, this Xilinx FPGA provides ample embedded memory resources for:
- Data buffering and FIFO implementations
- Look-up table storage for complex algorithms
- Local memory for processor cores
- High-speed cache applications
Clock Management System
The four integrated Delay-Locked Loops (DLLs) provide:
- Precise clock distribution and skew elimination
- Clock multiplication and division capabilities
- Phase-shifted clock generation
- Low-jitter performance for high-speed interfaces
Application Areas
Telecommunications Infrastructure
| Application |
Benefits |
| Base Station Processing |
High-speed signal processing with low latency |
| Network Routing |
Flexible protocol implementation and packet processing |
| SDR (Software Defined Radio) |
Reconfigurable RF front-end processing |
| 5G/LTE Systems |
High-bandwidth data processing capabilities |
Industrial Automation
The XCV600E-6FG680I excels in industrial control applications requiring:
- Real-time motion control systems
- Machine vision processing
- PLC (Programmable Logic Controller) implementations
- Industrial network protocols (PROFINET, EtherCAT)
- Safety-critical control systems
Medical Equipment
- Medical imaging processing (ultrasound, CT, MRI)
- Real-time diagnostic equipment
- Patient monitoring systems
- Laboratory instrumentation
- Surgical robotics control
Aerospace and Defense
- Radar signal processing
- Avionics systems
- Satellite communication
- Navigation systems
- Secure communications
Package Information
FG680 Package Details
| Parameter |
Specification |
| Package Type |
Fine-Pitch Ball Grid Array (FBGA) |
| Total Pins |
680 pins |
| Form Factor |
Compact, space-efficient design |
| Thermal Performance |
Enhanced heat dissipation |
| Mounting |
Surface mount technology (SMT) |
| Lead-Free |
RoHS compliant |
Design and Development Tools
Software Requirements
The XCV600E-6FG680I is supported by industry-standard Xilinx development tools:
- ISE Design Suite: Legacy support for Virtex-E family
- iMPACT: Device programming and configuration
- ChipScope Pro: Real-time signal analysis and debugging
- ModelSim/Xilinx Edition: HDL simulation environment
Programming Languages
- VHDL: IEEE-standard hardware description language
- Verilog: Industry-standard HDL
- Schematic Entry: Visual design capture
- IP Core Integration: Pre-verified functional blocks
Performance Advantages
Speed Grade Analysis
| Speed Grade |
Max Frequency |
Typical Applications |
| -6 Grade |
357 MHz |
High-speed digital processing, telecommunications |
| Performance Class |
Mid-to-high range |
Balanced performance and cost |
| Timing Margin |
Robust |
Reliable operation across temperature ranges |
Power Efficiency
The 1.8V core voltage provides significant advantages:
- Reduced power consumption compared to 2.5V devices
- Lower heat generation for improved reliability
- Extended battery life in portable applications
- Improved power integrity for complex designs
Comparison with Related Models
Virtex-E Family Comparison
| Model |
Logic Cells |
System Gates |
Package |
Speed Grade |
| XCV600E-6FG680I |
15,552 |
186,624 |
680-FBGA |
-6 (Industrial) |
| XCV600E-6FG676I |
15,552 |
186,624 |
676-FBGA |
-6 (Industrial) |
| XCV600E-7FG680C |
15,552 |
186,624 |
680-FBGA |
-7 (Commercial) |
| XCV600E-6BG560I |
15,552 |
186,624 |
560-BGA |
-6 (Industrial) |
Quality and Reliability
Manufacturing Standards
- Process Technology: Advanced 0.18 μm CMOS with 6-layer metal interconnect
- Quality Assurance: Rigorous testing and validation procedures
- Reliability Testing: Extended temperature cycling, thermal shock, and HTOL testing
- Compliance: RoHS, REACH, and industry-specific certifications
Lifecycle Information
The XCV600E-6FG680I represents mature technology with:
- Proven reliability in deployed systems
- Extensive documentation and application notes
- Strong technical support ecosystem
- Available from authorized distributors with verified authenticity
Design Considerations
Power Supply Requirements
| Supply Rail |
Voltage |
Purpose |
| VCCINT |
1.8V |
Core logic power |
| VCCO |
Variable (1.5V-3.3V) |
I/O bank power (standard-dependent) |
| VCCAUX |
2.5V or 3.3V |
Auxiliary circuits (DLLs, configuration) |
Thermal Management
Proper thermal design is essential for optimal performance:
- Heat sink recommendations based on power dissipation
- Adequate airflow for convection cooling
- Thermal vias in PCB design for heat spreading
- Junction temperature monitoring for reliability
Ordering Information
Part Number Breakdown
XCV600E-6FG680I
- XCV600E: Device family and density (Virtex-E, 600K equivalent gates)
- -6: Speed grade (357 MHz maximum)
- FG680: Package type (Fine-Pitch BGA, 680 pins)
- I: Industrial temperature range (-40°C to +100°C)
Availability
The XCV600E-6FG680I is available through authorized Xilinx distributors worldwide. When sourcing this component, ensure verification of authenticity through:
- Authorized distribution channels
- Original factory packaging
- Valid datecodes and country of origin markings
- Proper anti-static handling and storage
Technical Support Resources
Documentation
- Complete datasheet with electrical specifications
- User guides for Virtex-E family
- Application notes for specific design scenarios
- Reference designs and example projects
- Packaging and PCB layout guidelines
Development Support
- Online technical forums and communities
- Application engineering assistance
- Design consulting services
- Training materials and webinars
- IP core libraries and reference designs
Conclusion
The XCV600E-6FG680I stands as a robust, high-performance FPGA solution for applications demanding reliable programmable logic with industrial-grade specifications. Its combination of 15,552 logic cells, 357 MHz performance, and comprehensive I/O support makes it suitable for diverse applications ranging from telecommunications infrastructure to medical devices and industrial control systems.
With its proven 0.18 μm CMOS technology, extensive memory resources, and flexible architecture, this Virtex-E FPGA continues to serve as a dependable choice for designs requiring long-term availability, mature development tools, and well-documented performance characteristics. Whether you’re developing telecommunications equipment, industrial automation systems, or embedded computing platforms, the XCV600E-6FG680I provides the programmable logic capabilities needed for success.
For procurement inquiries, technical support, or design consultation regarding the XCV600E-6FG680I, contact authorized Xilinx distributors or visit the official AMD Xilinx support portal for the most current information and resources.
