Manufacturer Part Number
XC7K70T-L2FBG484E
Manufacturer
Xilinx
Introduction
The XC7K70T-L2FBG484E is part of the high-performance Kintex®-7 family of FPGAs from Xilinx, ideal for applications requiring high processing power and fast interfacing.
Product Features and Performance
Advanced 28nm process technology
5125 Logic Blocks for increased logic capacity
65,600 Logic Elements for complex digital processing
4,976,640 Total RAM Bits for efficient data handling
285 I/O pins for extensive interfacing capabilities
Supports voltage supply between 0.97V and 1.03V
Operates at temperatures from 0°C to 100°C
Available in a 484-pin FCBGA package for robust physical integration
Product Advantages
High logic and processing capabilities
Suitable for high-speed and high-density applications
Low power consumption
Stable performance in a wide range of environmental conditions
Key Technical Parameters
Number of LABs/CLBs: 5125
Number of Logic Elements/Cells: 65600
Total RAM Bits: 4976640
Number of I/O: 285
Voltage Supply: 0.97V ~ 1.03V
Operating Temperature: 0°C ~ 100°C (TJ)
Quality and Safety Features
Built using reliable 28nm process technology
Extensively tested for operation within specified temperature and voltage ranges
Compatibility
Compatible with various design software and development tools offered by Xilinx
Supports design suites that enable easier integration and development
Application Areas
Telecommunications
Automotive industry
Aerospace and Defense systems
Data processing systems
Consumer electronics
Product Lifecycle
Currently active with ongoing manufacturer support
Not nearing discontinuation
Updates and new model replacements readily available
Several Key Reasons to Choose This Product
High computational and storage capabilities for demanding applications
Broad compatibility with software and hardware interfaces
Supported by Xilinx’s extensive development and design resources
Reliable performance ensured by robust testing and quality measures
Ongoing support and lifecycle management from Xilinx ensuring long-term usability