XC4013XL-09HT144C: High-Performance FPGA for Industrial Applications

The XC4013XL-09HT144C is a robust field-programmable gate array (FPGA) from Xilinx’s XC4000XL series, engineered to deliver exceptional performance in demanding industrial environments. This advanced programmable logic device combines high-speed operation with extended temperature tolerance, making it an ideal choice for mission-critical applications.

Product Specification

The XC4013XL-09HT144C features a comprehensive array of specifications designed for professional-grade applications:

Core Architecture:

• Logic cells: 1,368 configurable logic blocks
• System gates: 13,000 equivalent gates
• Maximum user I/O pins: 112
• Internal RAM bits: 6,144

Performance Characteristics:

• Speed grade: -09 (9ns delay)
• Operating frequency: Up to 111 MHz
• Package type: TQFP-144 (Thin Quad Flat Package)
• Pin count: 144 pins with 0.5mm pitch

Power and Voltage:

• Core voltage: 3.3V ±5%
• I/O voltage compatibility: 3.3V/5V tolerant
• Power consumption: Optimized for low-power operation
• Standby current: Minimal power drain in inactive state

Temperature Range: The “HT” designation indicates high-temperature operation capability, supporting extended temperature ranges from -40°C to +125°C, making the XC4013XL-09HT144C suitable for harsh industrial environments.

Price

Pricing for the XC4013XL-09HT144C varies based on quantity, packaging options, and distributor channels. Contact authorized Xilinx distributors for current pricing information, volume discounts, and availability. The high-temperature variant typically commands a premium over standard temperature devices due to its enhanced environmental specifications.

Documents & Media

Technical Documentation:

• XC4013XL-09HT144C datasheet with complete electrical specifications
• XC4000XL series user guide and programming manual
• Package mechanical drawings and land pattern recommendations
• Application notes for optimal design implementation
• Programming file formats and configuration guidelines

Development Resources:

• Xilinx ISE development environment compatibility
• Reference designs and example projects
• Timing analysis and constraint files
• Board layout guidelines for TQFP-144 package

Quality Documentation:

• Product reliability reports and qualification data
• Manufacturing test specifications
• Quality assurance certificates

Related Resources

Compatible Development Tools:

• Xilinx ISE Design Suite for synthesis and implementation
• ModelSim simulation software for verification
• ChipScope Pro for in-system debugging
• JTAG programming cables and adapters

Evaluation Platforms:

• XC4000XL evaluation boards and development kits
• Reference design platforms featuring the XC4013XL-09HT144C
• Educational training modules and tutorials

Support Ecosystem:

• Technical support through Xilinx customer service
• Community forums and knowledge base
• Third-party IP cores and design services
• Migration guides for design upgrades

Environmental & Export Classifications

Environmental Compliance: The XC4013XL-09HT144C meets stringent environmental standards including RoHS compliance for lead-free manufacturing. The device undergoes rigorous qualification testing to ensure reliability across its specified operating conditions.

Export Control Information:

• ECCN (Export Control Classification Number): Classified under US export regulations
• Country of origin: Manufacturing location details available upon request
• REACH compliance: Compliant with European chemical regulations
• Conflict minerals: Sourced through responsible supply chain practices

Reliability Standards:

• JEDEC qualification standards compliance
• Automotive-grade reliability testing (where applicable)
• Extended burn-in testing for high-temperature variants
• Electrostatic discharge (ESD) protection ratings

Package Environmental Data:

• Moisture sensitivity level (MSL) classification
• Storage temperature recommendations
• Shelf life specifications
• Handling and storage guidelines

The XC4013XL-09HT144C represents a proven solution for applications requiring reliable programmable logic performance in challenging environmental conditions. Its combination of moderate complexity, high-speed operation, and extended temperature capability makes it particularly well-suited for industrial control systems, automotive electronics, and aerospace applications where dependability is paramount.