Overview of XQ4010E-PG191CKJ0017 High-Reliability FPGA
The XQ4010E-PG191CKJ0017 represents a premium solution in the QPRO XQ4000E family of high-reliability field-programmable gate arrays. Manufactured by AMD Xilinx, this military-grade FPGA delivers exceptional performance for mission-critical aerospace, defense, and industrial applications where reliability cannot be compromised.
This QML-certified FPGA features 10,000 system gates and operates across the extended military temperature range from -55°C to +125°C, making it ideal for extreme environmental conditions. The device combines proven SRAM-based architecture with VersaBlock logic modules to provide flexible, high-performance programmable logic capabilities.
Key Specifications and Technical Features
Core Performance Characteristics
The XQ4010E-PG191CKJ0017 delivers robust performance metrics that set it apart in the high-reliability FPGA market:
| Specification |
Value |
| Logic Gates |
10,000 system gates |
| Configurable Logic Blocks |
400 CLBs |
| Maximum Frequency |
Up to 111MHz |
| Operating Voltage |
5V nominal |
| Package Type |
PG191 (191-pin plastic grid array) |
| Temperature Range |
-55°C to +125°C (military) |
| Technology Node |
0.35μm CMOS process |
Package and Pin Configuration
| Package Detail |
Specification |
| Total I/O Pins |
191 pins |
| Package Style |
Plastic Grid Array (PG191) |
| Mounting Type |
Surface mount |
| Lead Pitch |
Standard PGA spacing |
| Routing Architecture |
Hierarchical with VersaRing I/O |
Quality and Reliability Standards
| Certification |
Standard |
| QML Qualification |
MIL-PRF-38535 Appendix A |
| Quality Level |
Military grade (QPro) |
| Manufacturing ISO |
ISO 9001, AS9100 |
| Radiation Tolerance |
Enhanced for aerospace |
| Traceability |
Full lot tracking available |
Understanding Xilinx FPGA Technology in the XQ4000E Series
The XQ4010E-PG191CKJ0017 is built on proven Xilinx FPGA architecture that has been enhanced for high-reliability applications. The SRAM-based configuration allows for unlimited reprogramming in the field, while the VersaBlock logic structure provides efficient resource utilization.
This FPGA architecture incorporates distributed RAM and dedicated block RAM resources, enabling designers to implement complex digital logic functions with optimal performance. The hierarchical routing architecture ensures predictable timing and efficient signal distribution across the device.
Military and Aerospace Applications
Primary Use Cases
Aerospace Systems:
- Satellite communication subsystems
- Flight control and avionics
- Navigation systems
- Spacecraft electronics
- Ground support equipment
Defense Electronics:
- Radar signal processing
- Secure communications
- Electronic warfare systems
- Missile guidance systems
- Military vehicle electronics
Industrial Critical Systems:
- Nuclear power plant instrumentation
- Railway signaling and control
- Medical life-support equipment
- Process control in hazardous environments
- High-reliability automation systems
Environmental Compliance and Export Information
Environmental Standards Compliance
| Standard |
Status |
| RoHS Compliance |
Meets EU Directive 2011/65/EU |
| REACH |
Compliant with EU regulations |
| Conflict Minerals |
3TG reporting available |
| Green Packaging |
Environmentally responsible materials |
Operating Environmental Limits
| Parameter |
Range |
| Operating Temperature |
-55°C to +125°C |
| Storage Temperature |
-65°C to +150°C |
| Relative Humidity |
Up to 95% (non-condensing) |
| Operational Altitude |
Up to 70,000 feet |
| Shock and Vibration |
MIL-STD-883 qualified |
Design and Development Resources
Essential Documentation
The XQ4010E-PG191CKJ0017 comes with comprehensive technical documentation to support your design process:
- Complete datasheet with electrical and mechanical specifications
- XC4000E/XQ4000E User Guide for design implementation
- PG191 package mechanical drawings and pinout diagrams
- QML certification and reliability documentation
- Application notes for best practices and design guidelines
Development Tools and Software
Primary Development Environment:
- Xilinx Vivado Design Suite (current platform)
- ISE Design Suite (legacy support for existing designs)
- Configuration and programming utilities
- SPICE and timing simulation models
- Reference designs and IP core libraries
Compatible Components
The XQ4010E-PG191CKJ0017 works seamlessly with:
- XC17xx series configuration PROMs
- JTAG programming and debugging tools
- Compatible voltage regulators and power management ICs
- Standard I/O interface components
- Third-party IP cores from the Xilinx ecosystem
Power Management and Consumption
Power Supply Requirements
| Power Parameter |
Specification |
| Core Voltage (VCC) |
5V ±5% |
| I/O Voltage (VCCO) |
Configurable per bank |
| Standby Power |
Optimized low-power design |
| Active Power |
Varies with utilization |
| Recommended Decoupling |
Per Xilinx guidelines |
The device features optimized power consumption characteristics suitable for battery-operated and remote systems where power efficiency is critical. Advanced power management features allow designers to balance performance with energy consumption based on application requirements.
Quality Assurance and Testing
Manufacturing Quality Control
Every XQ4010E-PG191CKJ0017 undergoes rigorous quality assurance procedures:
- Extended burn-in testing at elevated temperatures
- Environmental stress screening (ESS)
- 100% functional testing at multiple temperature points
- Visual inspection per MIL-STD-883 requirements
- Electrical parameter verification
- Package integrity validation
Reliability Testing Standards
| Test Type |
Standard Applied |
| Temperature Cycling |
MIL-STD-883 Method 1010 |
| Thermal Shock |
MIL-STD-883 Method 1011 |
| Constant Acceleration |
MIL-STD-883 Method 2001 |
| Mechanical Shock |
MIL-STD-883 Method 2002 |
| Vibration |
MIL-STD-883 Method 2007 |
Configuration and Programming
Configuration Methods
The XQ4010E-PG191CKJ0017 supports multiple configuration options to meet diverse system requirements:
Master Serial Mode:
- Direct connection to serial PROM
- Simplest configuration approach
- Ideal for single-FPGA systems
Slave Serial Mode:
- Configuration from external controller
- Suitable for multi-FPGA systems
- Allows dynamic reconfiguration
JTAG Boundary Scan:
- In-system programming capability
- Development and debugging support
- Production programming option
Configuration Memory Requirements
| Configuration Data |
Approximate Size |
| Bitstream Size |
Dependent on design utilization |
| Recommended PROM |
XC17128E or larger |
| Configuration Time |
Milliseconds (mode-dependent) |
Pin Assignment and I/O Capabilities
I/O Standards Support
The XQ4010E-PG191CKJ0017 supports multiple I/O standards, providing flexibility for interfacing with various system components:
- TTL/CMOS compatible
- LVTTL (Low-Voltage TTL)
- PCI 5V compatible
- Various single-ended standards
- Programmable I/O slew rates
- Individual pull-up/pull-down resistors
Pin Distribution
| Pin Category |
Count |
| User I/O Pins |
Maximum available per design |
| Dedicated Configuration Pins |
As specified in datasheet |
| Power/Ground Pins |
Per package specification |
| Special Function Pins |
Clock inputs, global signals |
Thermal Management Considerations
Thermal Characteristics
| Thermal Parameter |
Value |
| Junction Temperature (Tj) |
-55°C to +125°C |
| Thermal Resistance (θJA) |
Package-dependent |
| Maximum Power Dissipation |
Design-dependent |
| Recommended Heat Sink |
Per thermal analysis |
Proper thermal management ensures reliable operation across the full military temperature range. Designers should perform thermal analysis using Xilinx Power Estimator tools and implement appropriate cooling solutions based on system airflow and ambient conditions.
Ordering and Availability Information
Part Number Breakdown
XQ4010E-PG191CKJ0017 decodes as:
- XQ = QPRO (military-grade quality)
- 4010E = Device family and size
- PG191 = Package type (191-pin plastic grid array)
- C = Commercial temperature grade designation
- KJ = Speed grade and configuration
- 0017 = Lot/date code or revision
Lead Time and Distribution
The XQ4010E-PG191CKJ0017 is available through authorized Xilinx distributors including:
- Avnet
- Arrow Electronics
- Mouser Electronics
- Digi-Key Electronics
- FPGAkey
- Jotrin Electronics
Lead times vary based on current demand and inventory levels. For critical projects requiring guaranteed availability, consult with distributors about scheduling agreements and inventory programs.
Design Best Practices and Recommendations
Optimization Strategies
For Maximum Performance:
- Register all inputs and outputs to minimize combinatorial delays
- Use dedicated clock resources for global signals
- Implement proper constraint files for timing closure
- Partition design to optimize routing congestion
- Leverage block RAM resources for memory-intensive functions
For Reliability:
- Implement triple modular redundancy (TMR) for critical paths
- Use error detection and correction in memory blocks
- Design with margin for worst-case environmental conditions
- Follow proper power supply sequencing
- Implement watchdog timers and self-test routines
Power Supply Design Guidelines
Ensure robust power delivery with these recommendations:
- Multiple decoupling capacitors at each power pin
- Low-ESR bulk capacitors near device
- Dedicated power planes in PCB layout
- Proper grounding to minimize noise
- Adequate current capacity for worst-case switching
Comparison with Alternative FPGA Solutions
When to Choose XQ4010E-PG191CKJ0017
This FPGA is the optimal choice when your application requires:
- Full military temperature range operation
- QML certification and traceability
- Proven reliability in harsh environments
- 10K gate complexity with moderate I/O requirements
- 5V supply voltage compatibility
- Extended product lifecycle support
Alternative Considerations
For projects with different requirements, consider:
- Higher density needs: XQ4020E or XQ4036E variants
- Lower power requirements: Commercial-grade XC4000E series
- Advanced features: Modern Virtex or Kintex series FPGAs
- Cost-sensitive applications: Industrial-grade alternatives
Frequently Asked Questions
Q: What is the expected product lifetime for XQ4010E-PG191CKJ0017? A: Xilinx typically supports QPRO devices for 15+ years, with extended availability programs for critical applications.
Q: Can this FPGA be used in radiation environments? A: Yes, the device has enhanced radiation tolerance suitable for aerospace applications. Consult the radiation characterization report for specific dose rates and effects.
Q: What programming cable is required? A: Standard Xilinx JTAG programming cables (Platform Cable USB II or compatible) work with this device.
Q: Is the device ITAR-controlled? A: Export classifications vary by destination. Verify current ECCN status with the manufacturer or distributor before international shipments.
Q: What simulation models are available? A: Xilinx provides SPICE models, timing models, and behavioral simulation libraries compatible with major EDA tools.
Technical Support and Additional Resources
Accessing Support Services
Xilinx provides comprehensive technical support for the XQ4010E-PG191CKJ0017:
- Online Support Portal: Access knowledge base and case management
- Community Forums: Connect with other designers and Xilinx experts
- Field Application Engineers: Direct technical consultation
- Training Programs: Online courses and certification paths
- Documentation Library: Datasheets, app notes, and design guides
Staying Current with Updates
Subscribe to Xilinx notifications for:
- Product change notifications (PCN)
- Silicon errata updates
- New IP core releases
- Tool software updates
- Training webinar schedules
Conclusion: Reliable Performance for Critical Applications
The XQ4010E-PG191CKJ0017 delivers proven reliability and performance for aerospace, defense, and high-reliability industrial applications. With QML certification, military temperature range operation, and comprehensive development tool support, this FPGA provides designers with a trusted platform for implementing mission-critical digital logic functions.
Whether you’re developing next-generation avionics, secure communication systems, or industrial control solutions, the XQ4010E-PG191CKJ0017 offers the quality, reliability, and performance required for demanding applications where failure is not an option.
