The XCV600E-7FG680I is a high-performance Field Programmable Gate Array from Xilinx’s Virtex-E series, engineered to deliver exceptional computational capabilities for complex electronic systems. This industrial-grade FPGA combines 15,552 logic elements with 512 I/O pins, making it an ideal solution for telecommunications, signal processing, and industrial control applications. With its robust architecture and extended temperature range, the XCV600E-7FG680I stands as a reliable choice for demanding embedded systems.
Understanding the XCV600E-7FG680I FPGA Architecture
The XCV600E-7FG680I represents Xilinx’s commitment to delivering flexible programmable logic solutions. This advanced Xilinx FPGA features a sophisticated architecture built on 0.18µm CMOS technology, providing designers with the flexibility needed for modern digital design challenges.
Core Performance Specifications
At its core, the XCV600E-7FG680I delivers impressive computational power through its well-balanced architecture. The device incorporates 985,882 system gates, enabling complex algorithm implementation and sophisticated data processing workflows.
Technical Specifications Table
| Specification |
Value |
| Part Number |
XCV600E-7FG680I |
| Manufacturer |
Xilinx (Now AMD) |
| Product Family |
Virtex-E Series |
| Logic Elements/Cells |
15,552 |
| Configurable Logic Blocks (CLBs) |
3,456 |
| System Gates |
985,882 |
| Total RAM Bits |
294,912 |
| RAM Size |
36 kB |
| I/O Pins |
512 |
| Package Type |
680-FTEBGA (Fine-Pitch Ball Grid Array) |
| Package Size |
40mm x 40mm |
| Operating Temperature |
-40°C to 100°C (Industrial) |
| Supply Voltage |
1.71V to 1.89V (Nominal 1.8V) |
| Speed Grade |
-7 |
| Mounting Type |
Surface Mount |
Key Features of XCV600E-7FG680I
Advanced Logic Capacity
The XCV600E-7FG680I provides exceptional logic density with 15,552 logic elements distributed across 3,456 configurable logic blocks. This architecture enables designers to implement complex digital circuits efficiently, from state machines to DSP algorithms.
Extensive I/O Capabilities
With 512 user I/O pins, the XCV600E-7FG680I offers remarkable connectivity options. This extensive I/O count supports multiple interface standards, making it suitable for applications requiring high-bandwidth data transfer and multi-protocol support.
Memory Resources
The FPGA incorporates 294,912 bits of distributed RAM, equivalent to 36 kB of embedded memory. This on-chip memory resource supports data buffering, lookup tables, and temporary storage without requiring external memory components.
Industrial Temperature Range
Operating reliably from -40°C to 100°C, the XCV600E-7FG680I is designed for harsh industrial environments. This extended temperature range ensures consistent performance in automotive, aerospace, and outdoor installation scenarios.
Performance Characteristics
| Performance Metric |
Specification |
| Maximum Internal Clock Speed |
Up to 130 MHz (4 LUT levels) |
| System Performance |
Up to 200 MHz |
| PCI Compliance |
66-MHz PCI Compatible |
| Technology Node |
0.18µm CMOS |
| Metal Layers |
5-layer metal process |
| Configuration Type |
SRAM-based |
| Reprogrammability |
Unlimited in-system reconfiguration |
Applications and Use Cases
Telecommunications Equipment
The XCV600E-7FG680I excels in telecommunications infrastructure, supporting protocol conversion, signal routing, and data packet processing. Its high I/O count and logic capacity make it ideal for base stations and networking equipment.
Digital Signal Processing
With dedicated multiplier support and abundant logic resources, this FPGA handles complex DSP algorithms efficiently. Applications include audio processing, video filtering, and software-defined radio implementations.
Industrial Automation
The industrial temperature rating and robust design make the XCV600E-7FG680I perfect for factory automation, motor control systems, and process monitoring applications requiring reliable operation in challenging environments.
Medical Instrumentation
Medical device manufacturers leverage the XCV600E-7FG680I for imaging equipment, patient monitoring systems, and diagnostic instruments where reprogrammability and high computational power are essential.
Package Information
| Package Detail |
Specification |
| Package Code |
FG680 |
| Package Type |
FTEBGA (Fine-Pitch Thin Enhanced Ball Grid Array) |
| Total Pins/Balls |
680 |
| Pitch |
1.0mm |
| Package Dimensions |
40mm x 40mm |
| Package Height |
1.9mm (typical) |
| Mounting |
Surface Mount Technology (SMT) |
| Moisture Sensitivity Level |
MSL 3 |
| RoHS Compliance |
Non-compliant (Legacy product) |
Design Features and Capabilities
Clock Management System
The XCV600E-7FG680I includes sophisticated clock management circuitry with four dedicated Delay-Locked Loops (DLLs). These DLLs provide advanced clock control, including clock multiplication, division, and phase shifting capabilities. The device features four primary low-skew global clock distribution networks plus 24 secondary local clock nets for optimal timing performance.
SelectIO™ Technology
Supporting 16 different I/O standards, the XCV600E-7FG680I’s SelectIO™ interface allows direct connection to various memory types, including ZBTRAM, and supports multiple voltage levels for flexible system integration.
Memory Architecture
The hierarchical memory system offers versatility:
- LUTs configurable as 16-bit RAM, 32-bit RAM, 16-bit dual-ported RAM, or 16-bit shift registers
- Configurable synchronous dual-ported 4k-bit block RAMs
- Fast interfaces to external high-performance memory devices
XCV600E-7FG680I vs Alternative Models
| Model |
Logic Elements |
System Gates |
I/O Pins |
RAM Bits |
Package |
| XCV600E-7FG680I |
15,552 |
985,882 |
512 |
294,912 |
680-FTEBGA |
| XCV300E |
8,448 |
532,480 |
404 |
163,840 |
Various |
| XCV400E |
11,712 |
746,496 |
512 |
229,376 |
Various |
| XCV800E |
19,200 |
1,212,416 |
512 |
360,448 |
Various |
Programming and Development
Design Tools
The XCV600E-7FG680I is programmed using Xilinx ISE (Integrated Software Environment), supporting HDL-based development with VHDL or Verilog. The toolchain includes synthesis, place-and-route, and bitstream generation capabilities.
Configuration Methods
As an SRAM-based FPGA, the XCV600E-7FG680I requires configuration upon power-up. Supported configuration modes include:
- Master Serial mode
- Slave Serial mode
- SelectMAP parallel configuration
- JTAG boundary scan
Ordering and Availability
The XCV600E-7FG680I is available through authorized distributors and electronic component suppliers worldwide. When ordering, note that this is a legacy product, and availability may vary depending on existing inventory levels.
Part Number Breakdown
XCV600E-7FG680I decodes as:
- XCV = Virtex-E FPGA family
- 600E = 600K system gate density, Virtex-E series
- -7 = Speed grade (commercial timing)
- FG680 = Fine-pitch BGA package with 680 pins
- I = Industrial temperature range (-40°C to 100°C)
Quality and Reliability
Manufacturing Standards
Manufactured to strict quality standards, the XCV600E-7FG680I undergoes comprehensive testing including:
- Functional testing at speed
- Temperature cycling
- Voltage stress testing
- I/O characterization
Handling Precautions
Due to MSL 3 classification, proper handling is essential:
- Store in moisture-barrier bags with desiccant
- Floor life: 168 hours after bag opening at ≤30°C/60% RH
- Baking may be required if exposure time exceeded
- Use ESD protection during handling and assembly
Thermal Management Considerations
| Thermal Characteristic |
Specification |
| Junction Temperature (TJ) |
-40°C to 100°C |
| Storage Temperature |
-65°C to 150°C |
| Thermal Resistance (θJA) |
Contact manufacturer for specific values |
| Power Dissipation |
Application dependent |
Why Choose XCV600E-7FG680I?
Proven Reliability
With years of field deployment, the XCV600E-7FG680I has demonstrated exceptional reliability in mission-critical applications across telecommunications, industrial, and defense sectors.
Cost-Effective Solution
For existing designs or systems requiring specific functionality, the XCV600E-7FG680I offers excellent value with its balanced feature set and proven performance characteristics.
Design Flexibility
Unlimited reprogrammability enables firmware updates, feature additions, and bug fixes without hardware changes, reducing long-term maintenance costs and extending product lifecycles.
Strong Ecosystem Support
Despite being a legacy product, comprehensive documentation, reference designs, and application notes remain available, facilitating smooth design integration and troubleshooting.
Technical Support and Resources
Engineers working with the XCV600E-7FG680I can access extensive technical resources including:
- Detailed 233-page datasheet with electrical specifications
- Application notes for common design challenges
- Reference designs and IP cores
- Community forums and knowledge bases
- Legacy tool support documentation
Comparison: XCV600E-7FG680I vs XCV600E-6FG680I
The primary difference between these variants lies in the speed grade:
| Feature |
XCV600E-7FG680I |
XCV600E-6FG680I |
| Speed Grade |
-7 (Standard) |
-6 (Faster) |
| Performance |
Standard timing |
Enhanced timing |
| Power Consumption |
Lower |
Slightly higher |
| Cost |
More economical |
Premium pricing |
| Temperature Range |
Industrial (-40°C to 100°C) |
Industrial (-40°C to 100°C) |
Conclusion
The XCV600E-7FG680I Field Programmable Gate Array delivers a compelling combination of logic capacity, I/O flexibility, and reliability for industrial applications. With 15,552 logic elements, 512 I/O pins, and operation across the full industrial temperature range, this Virtex-E FPGA continues to serve demanding applications in telecommunications, industrial control, and embedded systems.
Whether you’re maintaining existing systems or considering this FPGA for cost-sensitive new designs, the XCV600E-7FG680I offers proven performance backed by comprehensive documentation and a robust design ecosystem. Its unlimited reprogrammability ensures your investment remains adaptable to changing requirements throughout your product’s lifecycle.
For engineers seeking reliable, high-performance programmable logic solutions with extensive I/O capabilities and industrial-grade environmental tolerance, the XCV600E-7FG680I remains a solid choice in the Field Programmable Gate Array landscape.
