Overview of XC5210-5PC84C Programmable Logic Device
The XC5210-5PC84C is a high-performance Field Programmable Gate Array (FPGA) from the renowned XC5200 family, manufactured by AMD Xilinx. This versatile programmable logic device delivers exceptional flexibility and robust performance for complex digital design applications, making it an ideal choice for engineers seeking reliable, cost-effective FPGA solutions.
Built on proven 0.5µm three-layer metal CMOS technology, the XC5210-5PC84C represents AMD Xilinx’s commitment to delivering professional-grade programmable logic devices with superior register/latch density and comprehensive feature sets.
Key Technical Specifications
| Specification |
Details |
| Part Number |
XC5210-5PC84C |
| Manufacturer |
AMD Xilinx (formerly Xilinx Inc.) |
| Product Family |
XC5200 FPGA Family |
| Logic Cells |
1,296 cells |
| Gate Count |
16,000 gates (16K gates) |
| I/O Pins |
65 user I/O pins |
| Package Type |
84-Pin PLCC (Plastic Leaded Chip Carrier) / LCC (J-Lead) |
| Operating Voltage |
5V |
| Process Technology |
0.5µm three-layer metal CMOS |
| Operating Temperature |
0°C to +85°C (Commercial grade) |
| Speed Grade |
-5 (Standard performance) |
| Architecture |
SRAM-based reprogrammable |
Advanced Features and Architecture
VersaBlock Logic Module Design
The XC5210-5PC84C incorporates the innovative VersaBlock™ logic module, which provides:
- Enhanced logic density with 1,296 configurable logic cells
- Rich register and latch resources for sequential logic designs
- Flexible routing architecture for optimized performance
- Efficient utilization of silicon area for cost-effective solutions
VersaRing I/O Interface Technology
The proprietary VersaRing I/O interface delivers:
- High logic cell to I/O ratio optimization
- 65 versatile user I/O pins for extensive connectivity
- Programmable output slew-rate control to minimize signal noise
- Zero flip-flop hold time for input registers, simplifying system timing design
- Support for multiple I/O standards and voltage levels
Hierarchical Interconnect Resources
The XC5210-5PC84C features a sophisticated interconnect hierarchy:
- Multiple routing channels for signal distribution
- Optimized for both local and global connections
- Reduced propagation delays through intelligent routing
- Enhanced design flexibility with minimal timing constraints
Performance Characteristics
| Performance Metric |
Specification |
| Maximum Operating Frequency |
83 MHz (typical) |
| System Gates |
16,000 equivalent gates |
| Logic Cells |
1,296 programmable cells |
| CLB Array |
Optimized for high-density designs |
| Configuration Time |
Fast SRAM-based programming |
| Power Consumption |
Optimized for 5V operation |
Package Information and Pin Configuration
84-Pin PLCC Package Details
| Package Parameter |
Specification |
| Package Type |
PLCC-84 (Plastic Leaded Chip Carrier) |
| Pin Count |
84 pins total |
| User I/O Pins |
65 pins |
| Power/Ground Pins |
Multiple VCC and GND pins |
| Configuration Pins |
Dedicated programming interface |
| Mounting Style |
Surface mount (J-Lead) |
| Package Dimensions |
Standard PLCC-84 footprint |
| Lead Pitch |
1.27mm (0.050″) |
The compact 84-pin PLCC package provides an excellent balance between I/O capability and board space efficiency, making it ideal for space-constrained applications.
Application Areas and Use Cases
The XC5210-5PC84C excels in various demanding applications:
Industrial Automation and Control
- Factory automation systems
- Process control interfaces
- Motor control applications
- Industrial communication protocols
Communications Equipment
- Data processing modules
- Protocol conversion
- Signal routing and switching
- Interface bridging
Consumer Electronics
- Digital signal processing
- Video/audio processing
- Gaming peripherals
- Smart home devices
Embedded Systems
- Custom logic implementation
- Glue logic replacement
- System-on-chip prototyping
- Rapid product development
Automotive Electronics
- Body electronics and lighting control
- Dashboard instrumentation
- Sensor interface modules
- Vehicle communication systems
Development Tools and Software Support
Comprehensive Design Environment
The XC5210-5PC84C is fully supported by industry-standard development tools:
| Tool Category |
Supported Options |
| Design Entry |
Schematic capture, VHDL, Verilog HDL, ABEL |
| Synthesis Tools |
Multiple third-party synthesis tools supported |
| Development Platforms |
Workstation and PC platforms |
| Programming Software |
Xilinx ISE Design Suite |
| Simulation |
Behavioral and timing simulation |
| Debugging |
ChipScope and integrated logic analyzer |
Design Flow Advantages
- Familiar Xilinx software environment
- Seamless integration with existing design flows
- Comprehensive library support
- Extensive IP core availability
- Proven development methodology
Technical Advantages for Engineers
Why Choose XC5210-5PC84C?
- Cost-Effective Solution: Optimized pricing for high-volume production
- Proven Reliability: Based on mature XC5200 family architecture
- Design Flexibility: SRAM-based reprogrammability enables field updates
- Rich Logic Resources: 1,296 logic cells for complex implementations
- Fast Time-to-Market: Comprehensive tool support accelerates development
- Industry Standard: Wide acceptance in multiple market segments
Comparison with Related Devices
| Feature |
XC5210-5PC84C |
XC5204 |
XC5215 |
| Logic Cells |
1,296 |
896 |
1,936 |
| Gate Count |
16K |
12K |
23K |
| User I/O |
65 |
61 |
Up to 244 |
| Package |
84-PLCC |
Various |
Various |
| Applications |
General Purpose |
Entry Level |
High Density |
Quality and Compliance
Manufacturing Standards
- RoHS Compliant: Lead-free, environmentally friendly
- Quality Assurance: Rigorous testing and qualification
- Traceability: Full component traceability available
- Certifications: Meets industry quality standards
Reliability Features
- Extended temperature operation (0°C to +85°C)
- High MTBF (Mean Time Between Failures)
- ESD protection on all I/O pins
- Proven manufacturing process
- Long-term availability commitment
Programming and Configuration
Configuration Methods
The XC5210-5PC84C supports multiple configuration modes:
- Master Serial Mode: FPGA controls configuration PROM
- Slave Serial Mode: External controller manages configuration
- Boundary Scan (JTAG): IEEE 1149.1 compliant for testing and programming
- SelectMAP Mode: Fast parallel configuration interface
Configuration Memory
- Volatile SRAM-based configuration
- Requires external configuration device or controller
- Fast reconfiguration capability
- Multiple bitstream support for multi-boot applications
Power Supply Requirements
| Power Parameter |
Specification |
| Core Voltage (VCC) |
5V ± 5% |
| I/O Voltage (VCCIO) |
5V (compatible with TTL/CMOS) |
| Power Consumption |
Application dependent |
| Standby Current |
Low power standby mode available |
| Decoupling |
Multiple VCC/GND pairs for noise reduction |
Ordering Information and Availability
Part Number Breakdown
XC5210-5PC84C decoding:
- XC5210: Device family and logic cell count
- -5: Speed grade (standard performance)
- PC84: Package type (84-pin PLCC)
- C: Commercial temperature range (0°C to +85°C)
Lead Time and Stock
The XC5210-5PC84C is available through authorized distributors and electronics component suppliers. Note that this is a mature product, and availability may vary. Contact authorized distributors for current stock levels and pricing.
Design Considerations and Best Practices
PCB Layout Recommendations
- Provide adequate decoupling capacitors near power pins
- Follow standard PLCC socket mounting guidelines
- Ensure proper thermal management for the package
- Maintain clean power distribution networks
- Consider signal integrity for high-speed I/O signals
Thermal Management
- Monitor junction temperature during operation
- Provide adequate airflow in enclosed systems
- Consider heatsink if operating near maximum specifications
- Calculate power dissipation based on design utilization
Related Products and Alternatives
For engineers exploring Xilinx FPGA solutions, the XC5200 family offers various options to match specific design requirements. Consider evaluating other devices in the family based on your logic density, I/O count, and performance needs.
Alternative Options in XC5200 Family
- XC5202: Lower logic density for simpler applications
- XC5204: Mid-range option with balanced resources
- XC5206: Enhanced I/O capabilities
- XC5215: Maximum logic density in the family
Frequently Asked Questions
What is the difference between XC5210-5PC84C and XC5210-6PC84C?
The primary difference is the speed grade. The -5 version offers standard performance, while the -6 version provides faster timing specifications. Choose based on your application’s timing requirements.
Is the XC5210-5PC84C still in production?
This is a mature product from the XC5200 family. While it may be listed as “not recommended for new designs” by the manufacturer, stock is still available through various distributors for legacy system support and maintenance.
What development tools are required?
The Xilinx ISE Design Suite is the primary development environment. The device is also supported by various third-party synthesis and simulation tools compatible with Xilinx FPGAs.
Can the XC5210-5PC84C be reprogrammed?
Yes, the SRAM-based architecture allows unlimited reprogramming cycles, making it ideal for development and field updates.
What is the maximum clock frequency?
The device typically operates up to 83 MHz, though actual performance depends on design complexity and routing efficiency.
Conclusion
The XC5210-5PC84C represents a reliable, proven FPGA solution from the respected XC5200 family. With 1,296 logic cells, 65 I/O pins, and comprehensive development tool support, this programmable logic device continues to serve engineers requiring cost-effective, flexible digital design solutions.
Whether you’re maintaining legacy systems or developing new industrial applications, the XC5210-5PC84C delivers the performance, reliability, and design flexibility needed for successful FPGA implementation. Its mature technology, extensive documentation, and broad industry acceptance make it a solid choice for demanding embedded applications.
For more information about Xilinx FPGA products and comprehensive design resources, visit Xilinx FPGA product pages and technical documentation.
