The XC2S200-6FGG827C represents an advanced field-programmable gate array from Xilinx’s Spartan-II family, delivering exceptional performance for embedded systems and digital logic applications. This high-density FPGA combines 200,000 system gates with 5,292 logic cells, making it an ideal choice for complex digital designs requiring substantial processing capabilities.

Key Features and Technical Specifications

The XC2S200-6FGG827C stands out as a cost-effective programmable logic solution engineered with 0.18-micron CMOS technology. This device operates reliably at 2.5V core voltage with flexible I/O voltage options of 1.5V, 2.5V, or 3.3V, ensuring broad compatibility with modern digital systems.

Architecture and Design Capabilities

Configurable Logic Block Structure

The XC2S200-6FGG827C incorporates 1,176 Configurable Logic Blocks arranged in a 28 x 42 array, providing designers with flexible implementation options for complex digital circuits. Each CLB contains four logic cells with 4-input lookup tables (LUTs), enabling efficient implementation of combinational and sequential logic.

Memory Architecture Comparison

Advanced I/O Capabilities

With support for 16 different I/O standards, the XC2S200-6FGG827C provides exceptional interface flexibility:

• LVTTL (Low Voltage TTL)
• LVCMOS2 (2.5V CMOS)
• PCI 33/66 MHz (3.3V and 5V compliant)
• GTL/GTL+ (Gunning Transceiver Logic)
• HSTL Class I/III/IV (High-Speed Transceiver Logic)
• SSTL2/SSTL3 Class I/II (Stub Series Terminated Logic)
• CTT (Center-Tapped Termination)
• AGP-2X (Accelerated Graphics Port)

Speed Grade Performance Specifications

The -6 speed grade designation of the XC2S200-6FGG827C indicates the highest performance tier available for Spartan-II devices, exclusively offered in the commercial temperature range.

Clock Management and Distribution

Delay-Locked Loop Technology

The XC2S200-6FGG827C integrates four fully digital Delay-Locked Loops (DLLs) positioned at each corner of the die. These DLLs provide:

• Zero propagation delay clock distribution
• Quadrature clock phases (0°, 90°, 180°, 270°)
• Clock multiplication (2x frequency doubling)
• Clock division (÷1.5, ÷2, ÷2.5, ÷3, ÷4, ÷5, ÷8, ÷16)
• Board-level clock deskew capabilities

Global Clock Network

Four dedicated global clock networks ensure high-speed, low-skew clock distribution throughout the device. Each global clock can drive all CLB, IOB, and Block RAM clock inputs simultaneously.

Target Applications and Use Cases

Industrial Automation and Control

The XC2S200-6FGG827C excels in industrial applications requiring precise digital control, including motor controllers, process automation systems, and programmable logic controllers (PLCs). The device’s robust I/O standards support various industrial communication protocols.

Communications Infrastructure

This FPGA serves telecommunications equipment, network routers, and protocol converters effectively. With high-speed I/O capabilities and substantial logic resources, the XC2S200-6FGG827C handles complex data processing and protocol implementation.

Medical Instrumentation

Medical device manufacturers leverage the XC2S200-6FGG827C for imaging systems, diagnostic equipment, and patient monitoring devices where reliability, reprogrammability, and signal processing capabilities are essential.

Automotive Electronics

The automotive sector utilizes this FPGA in infotainment systems, advanced driver assistance systems (ADAS), and electronic control units (ECUs) where field upgradability provides significant advantages.

Development and Configuration Options

Configuration Modes Table

Configuration File Size

The XC2S200-6FGG827C configuration bitstream contains 1,335,840 bits, requiring approximately 167 KB of non-volatile storage when using external configuration memory.

Package and Pinout Specifications

FGG827 Ball Grid Array Package

The 827-ball Fine-Pitch Ball Grid Array package provides maximum I/O density and excellent thermal characteristics:

• High pin count enables maximum I/O utilization
• Fine-pitch ball configuration optimizes board space
• Enhanced thermal dissipation through large package footprint
• Pb-free (Green) package option available with “G” designation
• Compatible with standard BGA assembly processes

I/O Banking Architecture

The XC2S200-6FGG827C divides I/O pins into eight independent banks, enabling mixed-voltage operation and flexible I/O standard assignment. This banking structure allows:

• Independent VCCO supplies per bank
• Mixed I/O standards within voltage-compatible groups
• Optimized signal integrity through proper bank planning
• Reference voltage (VREF) sharing within banks

Competitive Advantages Over ASIC Solutions

Programming and Development Ecosystem

ISE Development Suite Support

The XC2S200-6FGG827C receives comprehensive support from Xilinx ISE Design Suite, providing:

• Schematic and HDL design entry (VHDL, Verilog)
• Synthesis optimization for Spartan-II architecture
• Timing-driven place and route algorithms
• Comprehensive timing analysis tools
• In-system debugging capabilities
• ChipScope Pro logic analyzer integration

Design Implementation Flow

1. Design Entry: HDL coding or schematic capture
2. Synthesis: Logic optimization and technology mapping
3. Implementation: Place and route with timing closure
4. Verification: Functional and timing simulation
5. Configuration: Bitstream generation and device programming

Power Consumption Characteristics

Voltage and Current Requirements

The XC2S200-6FGG827C implements segmented routing architecture to minimize dynamic power consumption while maintaining high performance. Actual power requirements depend heavily on design complexity, operating frequency, and I/O activity.

Quality and Reliability Standards

Manufacturing and Testing

Every XC2S200-6FGG827C device undergoes rigorous quality assurance:

• 100% functional testing at multiple temperature points
• Scan-based manufacturing test coverage
• IEEE 1149.1 JTAG boundary-scan compliance
• Electrical parameter verification
• Package integrity inspection

Environmental Compliance

• RoHS compliant (lead-free option with “G” designation)
• REACH regulation compliance
• Moisture Sensitivity Level (MSL) rated
• Halogen-free options available

Storage and Ordering Information

Part Number Breakdown

XC2S200-6FGG827C

• XC2S200: Device family and gate count
• -6: Speed grade (highest performance)
• FGG: Fine-pitch BGA package (Green/Pb-free)
• 827: Pin count
• C: Commercial temperature range (0°C to +85°C)

Recommended Storage Conditions

Design Resources and Documentation

Essential Documentation

• DS001 Spartan-II Family Datasheet (complete specifications)
• UG002 Spartan-II Platform FPGA User Guide
• XAPP176 Configuration and Readback Application Note
• Package and Pinout Specifications
• IEEE 1149.1 BSDL Files

Community and Support

Engineers selecting the XC2S200-6FGG827C gain access to extensive resources including reference designs, application notes, technical forums, and FAE support through authorized distributors.

Migration Path and Design Scalability

Device Family Comparison

The Spartan-II family architecture ensures pin-compatible migration paths within common package options, enabling design scalability without PCB redesign.

Why Choose the XC2S200-6FGG827C

Key Value Propositions

1. Maximum Logic Density: Largest Spartan-II device with 200K gates
2. Highest Performance: -6 speed grade delivers 263 MHz operation
3. Extensive I/O Options: 284 user I/O pins with 16 standard support
4. Advanced Features: Four DLLs, 56 Kbits Block RAM, ISE tool support
5. Cost-Effective: Superior price-performance vs. competing solutions
6. Proven Reliability: Mature Spartan-II architecture with extensive deployment history

Industry Recognition

The Spartan-II family has established itself as an industry-standard FPGA solution, with millions of units deployed across diverse applications worldwide. The XC2S200-6FGG827C represents the flagship device in this proven family.

Getting Started with XC2S200-6FGG827C

Recommended Development Path

1. Evaluation: Obtain development board with XC2S200 device
2. Tool Setup: Install Xilinx ISE Design Suite
3. Tutorial Completion: Work through basic design examples
4. Reference Design: Adapt application-specific reference designs
5. Prototyping: Implement and test core functionality
6. Optimization: Refine timing, resource utilization, power
7. Production: Scale to manufacturing volumes

Procurement Considerations

When sourcing the XC2S200-6FGG827C, consider:

• Lead times from authorized distributors
• Minimum order quantities for best pricing
• Configuration memory requirements (PROM sizing)
• Development kit availability
• Technical support access

For comprehensive information about Xilinx FPGA product selection, cross-reference alternatives, and design resources, consult with authorized distributors and technical representatives who can provide application-specific guidance.

Technical Support and Resources

Getting Technical Assistance

Designers implementing the XC2S200-6FGG827C can access multiple support channels:

• Authorized distributor FAE teams
• Xilinx online technical support portal
• Community forums and user groups
• Third-party design service providers
• University programs and training workshops

Continuous Innovation

While the Spartan-II family represents a mature, stable platform, ongoing software updates continue to enhance design tools, provide new reference designs, and address customer-reported issues, ensuring long-term support for deployed designs.