Overview of XC5215-5HQ208C Field Programmable Gate Array
The XC5215-5HQ208C is a powerful field-programmable gate array (FPGA) from the XC5200 family, designed to deliver exceptional performance in complex digital design applications. This FPGA combines high logic density, flexible I/O capabilities, and advanced programmable architecture to meet demanding embedded system requirements. Whether you’re developing telecommunications equipment, industrial control systems, or advanced digital signal processing applications, the XC5215-5HQ208C provides the computational power and flexibility needed for modern electronic designs.
Key Features and Specifications
Technical Specifications Table
| Specification |
Details |
| Part Number |
XC5215-5HQ208C |
| Product Family |
XC5200 Series FPGA |
| Package Type |
208-pin PQFP (Plastic Quad Flat Pack) |
| Logic Cells/Gates |
Approximately 15,000 usable gates |
| Operating Temperature |
Commercial (0°C to +70°C) |
| Speed Grade |
-5 (Standard Performance) |
| I/O Pins |
Up to 166 user I/O |
| Technology |
CMOS SRAM-based architecture |
| Configuration |
Serial or parallel programming modes |
| Core Voltage |
5V nominal |
Performance Characteristics
| Parameter |
Value |
| Maximum System Frequency |
Up to 50 MHz (design-dependent) |
| Propagation Delay |
Low-latency logic routing |
| Power Consumption |
Optimized for balanced performance |
| Configuration Time |
Fast programming capability |
| ESD Protection |
Human Body Model (HBM) compliant |
Architecture and Design Capabilities
Configurable Logic Blocks (CLBs)
The XC5215-5HQ208C features an array of Configurable Logic Blocks that serve as the fundamental building blocks for implementing complex digital functions. Each CLB contains lookup tables (LUTs), flip-flops, and routing resources that enable designers to create custom logic circuits tailored to specific application requirements.
Input/Output Block (IOB) Configuration
With up to 166 user I/O pins, the XC5215-5HQ208C offers extensive connectivity options for interfacing with external components. The I/O blocks support multiple voltage standards and can be configured for various signaling protocols, making this FPGA highly versatile for system integration.
Interconnect Architecture
The programmable interconnect matrix provides flexible routing between CLBs and IOBs, enabling efficient signal distribution throughout the device. This advanced routing architecture minimizes signal delay and optimizes overall system performance.
Application Areas
Industrial Automation and Control
The XC5215-5HQ208C excels in industrial automation applications where reliable, programmable logic is essential. Its robust architecture makes it ideal for:
- Motor control systems
- Process automation controllers
- Machine vision processing
- Real-time monitoring systems
- Industrial communication protocols
Telecommunications and Networking
For telecommunications equipment manufacturers, this FPGA delivers the processing power needed for:
- Protocol conversion and bridging
- Digital signal processing (DSP) functions
- Error detection and correction
- Data multiplexing and demultiplexing
- Network interface controllers
Embedded Systems Development
System designers leverage the XC5215-5HQ208C for embedded applications requiring:
- Custom peripheral interfaces
- Hardware acceleration
- System-on-chip (SoC) prototyping
- Reconfigurable computing platforms
- High-speed data acquisition
Package and Pin Configuration
208-Pin PQFP Package Details
| Package Feature |
Specification |
| Package Type |
PQFP (Plastic Quad Flat Pack) |
| Pin Count |
208 pins |
| Pin Pitch |
0.5mm |
| Body Size |
28mm × 28mm (typical) |
| Profile |
Low-profile surface mount |
| Moisture Sensitivity |
MSL 3 (Moisture Sensitivity Level) |
| Lead Material |
Tin-plated for excellent solderability |
Power Distribution and Grounding
The XC5215-5HQ208C implements a comprehensive power distribution network with multiple VCC and GND pins strategically positioned throughout the package to minimize noise and ensure stable operation. Proper decoupling capacitor placement near power pins is recommended for optimal performance.
Programming and Configuration
Configuration Methods
The XC5215-5HQ208C supports multiple configuration options:
- Serial Configuration: Using dedicated configuration PROMs or external microcontrollers
- Parallel Configuration: Fast programming through parallel data interfaces
- JTAG Boundary Scan: IEEE 1149.1 compliant for testing and programming
Development Tools and Support
Designers working with the XC5215-5HQ208C benefit from comprehensive development tool support. The device is compatible with industry-standard FPGA development environments that provide schematic capture, HDL synthesis, simulation, and timing analysis capabilities.
Comparison with Similar Products
XC5200 Family Comparison
| Part Number |
Logic Cells |
I/O Pins |
Speed Grade |
Package Options |
| XC5202 |
~2,000 gates |
Up to 117 |
-5, -6 |
Various |
| XC5204 |
~4,000 gates |
Up to 117 |
-5, -6 |
Various |
| XC5215 |
~15,000 gates |
Up to 166 |
-5, -6 |
PQFP, BGA |
| XC5216 |
~16,000 gates |
Up to 166 |
-5, -6 |
PQFP, BGA |
Design Considerations and Best Practices
Thermal Management
Operating the XC5215-5HQ208C within specified temperature ranges ensures reliable performance. Consider the following thermal design guidelines:
- Adequate airflow for natural or forced convection cooling
- Thermal vias in PCB design for heat dissipation
- Junction temperature monitoring in high-utilization designs
- Heatsink attachment when operating near maximum capacity
Signal Integrity
To maintain signal integrity in high-speed designs:
- Implement proper PCB layer stackup with controlled impedance traces
- Minimize stub lengths on clock and high-speed data signals
- Use appropriate termination for long traces
- Follow manufacturer guidelines for voltage reference levels
Power Supply Design
Ensure stable operation with proper power supply design:
- Use low-ESR decoupling capacitors near all power pins
- Implement separate power planes for core and I/O voltages
- Design for adequate current capacity on power delivery networks
- Consider soft-start circuitry for large FPGAs
Reliability and Quality Standards
The XC5215-5HQ208C is manufactured to meet stringent quality and reliability standards:
- RoHS compliant for environmental responsibility
- JEDEC standard qualification testing
- Electrostatic discharge (ESD) protection
- Extended temperature variants available for industrial applications
- Long-term supply availability through authorized distributors
Why Choose XC5215-5HQ208C for Your Design?
Proven Architecture
The XC5200 family has established itself as a reliable platform for FPGA-based designs across multiple industries. The XC5215-5HQ208C builds on this foundation with enhanced capabilities and proven performance.
Design Flexibility
With substantial logic resources and flexible I/O configuration, the XC5215-5HQ208C adapts to evolving project requirements without requiring hardware redesign. This programmability reduces time-to-market and development costs.
Cost-Effective Solution
For applications requiring moderate logic density, the XC5215-5HQ208C offers an optimal balance between capability and cost. Its 208-pin PQFP package provides excellent value while maintaining accessibility for prototyping and production.
Comprehensive Ecosystem
Designers benefit from extensive documentation, reference designs, and community support when working with Xilinx FPGA products. This ecosystem accelerates development and reduces technical risk.
Technical Support and Documentation
Available Resources
Engineers implementing the XC5215-5HQ208C have access to:
- Detailed datasheets with electrical specifications
- Application notes for common design scenarios
- Reference designs and example projects
- Technical support from authorized distributors
- Online design forums and community resources
Ordering Information
When ordering the XC5215-5HQ208C, ensure you specify:
- Complete part number including speed grade and temperature range
- Package type (HQ208 for 208-pin PQFP)
- Quantity requirements
- Any special testing or screening requirements
Frequently Asked Questions
What is the difference between XC5215-5HQ208C and XC5215-6HQ208C?
The primary difference lies in the speed grade designation. The -5 speed grade indicates standard performance characteristics, while the -6 speed grade represents a faster variant with reduced propagation delays and higher maximum operating frequencies. Both versions share the same logic capacity and I/O count.
Can the XC5215-5HQ208C be reprogrammed in-system?
Yes, the XC5215-5HQ208C supports in-system programming through its JTAG interface or other configuration modes. This capability enables field updates and configuration changes without removing the device from the circuit board.
What development tools are compatible with this FPGA?
The XC5215-5HQ208C is supported by industry-standard FPGA development tools that provide complete design flow from schematic entry or HDL coding through synthesis, place-and-route, and bitstream generation.
What is the typical power consumption?
Power consumption varies based on design utilization, operating frequency, and I/O activity. Consult the datasheet for detailed power estimation guidelines and use FPGA design tools with built-in power analysis features for accurate project-specific estimates.
Conclusion
The XC5215-5HQ208C represents a robust, versatile FPGA solution for applications requiring substantial programmable logic resources in a compact, cost-effective package. Its proven architecture, comprehensive I/O capabilities, and flexible configuration options make it an excellent choice for industrial, telecommunications, and embedded system applications. Whether you’re developing a new product or upgrading an existing design, the XC5215-5HQ208C delivers the performance, reliability, and design flexibility needed for successful project implementation.
For procurement inquiries, technical specifications, and additional support resources, consult authorized distributors and the manufacturer’s official documentation to ensure you’re working with genuine components that meet your application requirements.
