XC7K160T-L2FBG676I FPGA: High-Performance Kintex-7 Solution

The XC7K160T-L2FBG676I is a powerful field-programmable gate array (FPGA) from Xilinx’s Kintex-7 family, designed to deliver exceptional performance for mid-range applications. This versatile FPGA combines advanced processing capabilities with energy efficiency, making it ideal for telecommunications, industrial automation, and digital signal processing applications.

Product Specifications

The XC7K160T-L2FBG676I features robust specifications that meet demanding application requirements:

Core Architecture:

• Logic Cells: 162,240
• CLB Flip-Flops: 202,800
• CLB LUTs: 101,400
• Block RAM: 11,700 Kb
• DSP Slices: 600

Memory and Processing:

• Distributed RAM: 1,188 Kb
• Memory Interface: DDR3-1866 support
• PCI Express: Gen2 x8 lanes
• Transceivers: 8 GTX channels at 12.5 Gbps

Package Details:

• Package Type: FBGA676 (Fine-pitch Ball Grid Array)
• Pin Count: 676 pins
• Speed Grade: -2L (Low power variant)
• Operating Temperature: Industrial grade (-40°C to +100°C)

The XC7K160T-L2FBG676I incorporates Xilinx’s 28nm process technology, ensuring optimal power consumption while maintaining high performance levels.

Pricing Information

Pricing for the XC7K160T-L2FBG676I varies based on quantity, distributor, and current market conditions. Contact authorized Xilinx distributors for current pricing and availability. Volume discounts are typically available for orders exceeding 100 units.

Pricing Factors:

• Order quantity (unit vs. volume pricing)
• Lead time requirements
• Package and temperature grade specifications
• Regional availability and shipping costs

Documents & Media

Essential documentation for the XC7K160T-L2FBG676I includes:

Technical Documentation:

• Kintex-7 FPGA Data Sheet (DS182)
• XC7K160T-L2FBG676I Product Brief
• Package and Pinout Specifications
• Power and Thermal Management Guidelines

Development Resources:

• Vivado Design Suite compatibility guides
• Reference designs and application notes
• IP core integration documentation
• Hardware debugging and validation guides

Support Materials:

• PCB layout guidelines for FBGA676 package
• Signal integrity design recommendations
• Power supply design considerations
• Thermal management best practices

Related Resources

The XC7K160T-L2FBG676I integrates seamlessly with Xilinx’s comprehensive development ecosystem:

Development Tools:

• Vivado Design Suite for design implementation
• ISE Design Suite (legacy support)
• ChipScope Pro for hardware debugging
• PlanAhead for design planning and analysis

Evaluation Platforms:

• Kintex-7 FPGA KC705 Evaluation Kit
• Compatible development boards from third-party vendors
• Custom evaluation modules for specific applications

IP Cores and Libraries:

• Xilinx IP catalog with hundreds of verified cores
• Memory controllers and interface IP
• DSP and communication protocol stacks
• Video and imaging processing libraries

Training and Support:

• Xilinx University Program resources
• Online training modules and webinars
• Community forums and technical support
• Application-specific design services

Environmental & Export Classifications

The XC7K160T-L2FBG676I meets stringent environmental and regulatory standards:

Environmental Compliance:

• RoHS compliant (lead-free manufacturing)
• REACH regulation compliance
• Conflict minerals reporting compliance
• ISO 14001 environmental management certification

Export Classifications:

• ECCN (Export Control Classification Number): 3A001.a.7
• HTS (Harmonized Tariff Schedule): 8542.33.0001
• COO (Country of Origin): Varies by manufacturing location
• Export licensing requirements may apply for certain destinations

Quality Standards:

• Automotive qualified versions available (AEC-Q100)
• Industrial temperature range operation
• Extended product lifecycle support
• Comprehensive quality assurance testing

Packaging and Handling:

• Moisture sensitivity level (MSL) rating
• Anti-static packaging requirements
• Storage and handling guidelines
• Traceability and lot code tracking

The XC7K160T-L2FBG676I represents an optimal balance of performance, power efficiency, and cost-effectiveness for next-generation FPGA applications. Its comprehensive feature set and robust support ecosystem make it an excellent choice for engineers developing advanced digital systems across multiple industries.