The XC2S200-6FGG917C is a powerful field-programmable gate array (FPGA) from Xilinx’s renowned Spartan-II family, designed to deliver exceptional performance for demanding digital design applications. This advanced programmable logic device offers an optimal balance of functionality, cost-effectiveness, and flexibility, making it an ideal choice for engineers developing complex embedded systems, communication protocols, and digital signal processing solutions.

As part of the Spartan-II 2.5V FPGA family, the XC2S200-6FGG917C represents a superior alternative to traditional mask-programmed ASICs, eliminating initial tooling costs and lengthy development cycles while providing field-upgradeable capabilities that ensure long-term adaptability.

Key Technical Specifications

Core Architecture Features

Package Configuration Details

The FGG917 package provides superior thermal and electrical performance through its fine-pitch ball grid array design. This advanced packaging technology enables:

• High-density interconnection with 917 solder balls
• Enhanced signal integrity for high-speed applications
• Improved thermal dissipation characteristics
• Reduced package footprint compared to traditional leaded packages
• RoHS-compliant lead-free (Pb-free) option indicated by the “G” designation

Performance Characteristics

Speed Grade and Timing Performance

The -6 speed grade of the XC2S200-6FGG917C offers excellent timing characteristics optimized for commercial temperature applications:

Configurable Logic Block (CLB) Architecture

Each CLB in the XC2S200-6FGG917C contains:

• Four logic slices for maximum flexibility
• Fast carry logic for arithmetic operations
• Distributed RAM capability for data storage
• Dedicated multiplexers for efficient routing
• Support for both combinatorial and sequential logic

Application Areas for XC2S200-6FGG917C

Digital Signal Processing (DSP)

The XC2S200-6FGG917C excels in DSP applications requiring real-time processing:

• Audio/video signal processing and filtering
• Image processing and compression algorithms
• Software-defined radio (SDR) implementations
• Digital filter implementations (FIR/IIR)

Communication Systems

Ideal for modern communication infrastructure:

• Protocol conversion and bridging
• Data encoding/decoding systems
• Network packet processing
• Interface controllers (UART, SPI, I2C)

Industrial Control Applications

Perfect for automation and control systems:

• Motor control and drive systems
• PLC (Programmable Logic Controller) replacements
• Sensor interface and data acquisition
• Real-time control loop implementations

Embedded System Development

Versatile platform for embedded applications:

• Custom peripheral development
• System-on-Chip (SoC) prototyping
• Hardware acceleration modules
• Rapid prototyping and development

Design Advantages and Benefits

Cost-Effective Alternative to ASICs

Programmability and Flexibility

The XC2S200-6FGG917C offers unmatched design flexibility:

• Reconfigurable architecture allows design modifications without hardware changes
• Field upgradeable functionality enables bug fixes and feature enhancements post-deployment
• Partial reconfiguration support for dynamic functionality updates
• Multiple configuration modes including JTAG, Master Serial, and Slave Serial

Development Ecosystem

Xilinx provides comprehensive development tools for the XC2S200-6FGG917C:

• ISE Design Suite for synthesis and implementation
• ChipScope Pro for in-system debugging
• Extensive IP core library for common functions
• Comprehensive simulation and verification tools

Memory Architecture and Resources

Block RAM Configuration

The XC2S200-6FGG917C includes 56K bits of block RAM organized as:

Distributed RAM Capabilities

With 75,264 bits of distributed RAM, designers can:

• Implement small memory buffers within logic fabric
• Create high-speed lookup tables (LUTs)
• Build FIFO structures for data buffering
• Develop shift register implementations

Input/Output Architecture

I/O Banking and Standards

The XC2S200-6FGG917C supports multiple I/O standards for versatile interfacing:

High I/O Count Benefits

With 284 maximum user I/O pins, the device enables:

• Complex multi-interface designs
• High-bandwidth data acquisition systems
• Multiple peripheral connections
• Extensive GPIO for custom applications

Power Management Features

Efficient Power Architecture

The 2.5V core voltage of the XC2S200-6FGG917C delivers:

Configuration and Programming

Flexible Configuration Options

The XC2S200-6FGG917C supports multiple configuration modes:

1. Master Serial Mode – FPGA controls configuration PROM
2. Slave Serial Mode – External microcontroller drives configuration
3. JTAG Mode – Boundary scan and in-system programming
4. Boundary Scan – IEEE 1149.1 compliant testing

Configuration Memory

• Fast configuration times (typically milliseconds)
• Bitstream encryption support for IP protection
• CRC verification for configuration integrity
• Readback capability for verification

Reliability and Quality Standards

Manufacturing Quality

The XC2S200-6FGG917C meets stringent quality requirements:

• Manufactured using proven 0.18μm CMOS process
• Extensive production testing and screening
• High reliability in commercial environments
• Long product lifecycle support

Compliance and Certifications

Design Resources and Support

Getting Started with XC2S200-6FGG917C

Engineers can leverage extensive Xilinx resources:

• Comprehensive datasheets and technical documentation
• Application notes for common design patterns
• Reference designs and example projects
• Online community forums and technical support

Compatible Development Boards

While evaluating the XC2S200-6FGG917C, consider:

• Custom PCB design with 917-ball BGA footprint
• Professional prototyping services
• BGA rework and assembly considerations
• Thermal management planning for high-performance applications

Xilinx FPGA Product Line Integration

The XC2S200-6FGG917C represents Xilinx’s commitment to delivering versatile FPGA solutions across diverse application domains. As part of the broader Spartan-II family, this device shares architectural compatibility with other family members while offering unique advantages through its high I/O count and fine-pitch BGA packaging.

PCB Design Considerations for FGG917 Package

Layout Guidelines

Critical PCB design factors for the 917-ball package:

Signal Integrity Considerations

• Controlled impedance routing for high-speed signals
• Proper power distribution network design
• Decoupling capacitor placement near BGA balls
• Ground plane integrity maintenance
• Differential pair routing for critical signals

Comparison with Alternative Solutions

XC2S200 vs. Other Spartan-II Devices

Procurement and Availability

Ordering Information

When specifying the XC2S200-6FGG917C, note the following part number breakdown:

• XC2S200 – Device designation (200K gates)
• -6 – Speed grade (commercial temperature)
• FGG917 – Package type (917-ball fine-pitch BGA, lead-free)
• C – Commercial temperature range (0°C to +85°C)

Quality Assurance

All XC2S200-6FGG917C devices undergo:

• 100% functionality testing
• Boundary scan verification
• Speed and timing characterization
• Package integrity inspection

Technical Support and Documentation

Available Resources

Engineers working with the XC2S200-6FGG917C can access:

• Datasheet DS001 – Complete electrical and timing specifications
• User Guides – Detailed architectural descriptions
• Application Notes – Design best practices and solutions
• Answer Records – Technical issue resolutions
• IBIS Models – Signal integrity simulation

Future-Proof Design Strategy

Long-Term Advantages

Choosing the XC2S200-6FGG917C provides:

1. Scalability – Easy migration to higher-density Spartan-II devices
2. Longevity – Mature product with established supply chain
3. Upgrade Path – In-field firmware updates extend product lifetime
4. Risk Mitigation – Avoid ASIC obsolescence and redesign costs
5. Development Speed – Rapid prototyping to production transition

Conclusion: Why Choose XC2S200-6FGG917C

The XC2S200-6FGG917C represents an optimal balance of performance, flexibility, and cost-effectiveness for mid-range FPGA applications. With its substantial logic resources, extensive I/O capabilities, and proven reliability, this device serves as an excellent foundation for:

• Professional embedded system development
• Communication infrastructure projects
• Industrial automation solutions
• Digital signal processing applications
• Rapid prototyping and product development

The combination of 200,000 system gates, 284 user I/O pins, and advanced BGA packaging makes the XC2S200-6FGG917C an ideal choice for engineers seeking a reliable, high-performance programmable logic solution that delivers both immediate functionality and long-term value.

Whether you’re developing next-generation communication systems, implementing sophisticated control algorithms, or building custom embedded platforms, the XC2S200-6FGG917C provides the resources, flexibility, and performance characteristics needed to bring your designs to life efficiently and cost-effectively.