The XC7K160T-1FBG676C is a powerful Field-Programmable Gate Array (FPGA) from AMD Xilinx’s Kintex-7 family, designed to deliver exceptional performance for demanding digital signal processing, communications, and embedded applications. This advanced FPGA combines high logic density with energy efficiency, making it an ideal choice for engineers developing next-generation electronic systems.
Product Specifications
The XC7K160T-1FBG676C features impressive technical specifications that make it suitable for complex digital designs:
Logic Resources:
- 101,440 logic cells with advanced 6-input look-up tables (LUTs)
- 162,240 flip-flops for high-speed sequential operations
- 325 configurable logic blocks (CLBs) for maximum design flexibility
Memory Architecture:
- 11,700 Kb of block RAM for efficient data storage
- 650 RAMB36 blocks supporting various memory configurations
- Ultra-fast distributed RAM capabilities
DSP Performance:
- 600 DSP48E1 slices for high-performance signal processing
- 25×18 multipliers with 48-bit accumulation
- Optimized for communications and digital filtering applications
Package Details:
- BGA676 (Ball Grid Array) package with 676 pins
- Compact 27mm x 27mm footprint
- Speed grade -1 for balanced performance and power consumption
- Commercial temperature range (0ยฐC to +85ยฐC)
I/O Capabilities:
- 400 user I/O pins for extensive connectivity options
- Support for multiple I/O standards including DDR3, LVDS, and PCIe
- High-speed transceivers for serial communication protocols
Price Information
The XC7K160T-1FBG676C pricing varies based on order quantity and supplier. Contact authorized distributors for current pricing information, volume discounts, and availability. Typical lead times range from 8-16 weeks depending on market conditions and inventory levels.
Documents & Media
Technical Documentation:
- Product Brief and detailed datasheet specifications
- Kintex-7 Family Overview and selection guide
- Pin-out diagrams and package mechanical drawings
- Power consumption analysis and thermal guidelines
Design Resources:
- Vivado Design Suite compatibility information
- Reference designs and application notes
- Programming and configuration guides
- PCB layout recommendations and design rules
Software Tools:
- Xilinx Vivado Design Suite support
- IP core library compatibility
- Simulation and verification tool integration
- Debug and analysis capabilities
Related Resources
Development Platforms:
- Kintex-7 evaluation boards and development kits
- Reference design examples for common applications
- Third-party development tools and IP solutions
Application Areas:
- Wireless infrastructure and base station equipment
- Medical imaging and ultrasound systems
- Industrial automation and motor control
- Aerospace and defense communications
- High-performance computing accelerators
Technical Support:
- Online community forums and knowledge base
- Application engineering support
- Training courses and webinar series
- Design consultation services
Environmental & Export Classifications
Environmental Compliance: The XC7K160T-1FBG676C meets stringent environmental standards:
- RoHS compliant with lead-free manufacturing processes
- REACH regulation compliance for chemical safety
- Conflict-free minerals certification
- ISO 14001 environmental management standards
Operating Conditions:
- Commercial temperature grade: 0ยฐC to +85ยฐC junction temperature
- Humidity resistance per JEDEC standards
- Vibration and shock resistance for industrial applications
- ESD protection exceeding industry requirements
Export Classifications:
- ECCN (Export Control Classification Number): 3A991.a.2
- Country of origin: Various (component sourcing)
- Export license requirements vary by destination country
- Compliance with international trade regulations
Quality Standards:
- Automotive-grade reliability testing (AEC-Q100 compatible)
- Military temperature range variants available
- Extended lifecycle support for critical applications
- Comprehensive quality assurance and testing procedures
The XC7K160T-1FBG676C represents an excellent balance of performance, power efficiency, and cost-effectiveness for engineers developing sophisticated FPGA-based solutions. Its robust feature set and comprehensive ecosystem support make it a reliable choice for both prototyping and production applications across diverse industries.
