Manufacturer Part Number
XCS20-3TQ144I
Manufacturer
Xilinx
Introduction
The XCS20-3TQ144I is a Spartan series FPGA (Field Programmable Gate Array) designed for embedded systems that require customizable logic solutions.
Product Features and Performance
Field Programmable Gate Array technology
400 Logic Blocks (LABs/CLBs)
950 Logic Elements/Cells for complex digital logic design
12800 bits of internal RAM for data storage
113 Input/Output pins for wide-ranging interface capabilities
20,000-gate logic capacity for versatile application support
Support for 4.5V to 5.5V power supply voltages
Surface mount 144-LQFP packaging for PCB integration
Operates reliably between -40°C and 100°C temperature range
Product Advantages
Easy implementation of custom logic circuits
High I/O count for connectivity options
Adequate on-chip memory enhances data handling
Reliable over a wide range of operating temperatures
Compatible with standard surface mount technology for easy PCB implementation
Key Technical Parameters
Number of LABs/CLBs: 400
Number of Logic Elements/Cells: 950
Total RAM Bits: 12800
Number of I/O: 113
Number of Gates: 20000
Voltage Supply Range: 4.5V to 5.5V
Operating Temperature: -40°C to 100°C
Quality and Safety Features
Compliance with industry-standard quality protocols
Extensive testing for reliability in extreme temperatures
Compatibility
144-TQFP (20x20) package is compatible with standard SMT manufacturing processes
Application Areas
Custom embedded systems
Digital signal processing
Prototyping and development for industrial, automotive, and consumer electronics
Product Lifecycle
Product status: Obsolete
Future availability may be limited; alternative solutions or upgrades should be considered
Several Key Reasons to Choose This Product
Robust FPGA solution from Xilinx, a leader in programmable logic devices
Versatile usage with a substantial number of I/O and logic cells
Reliable performance in a broad temperature range suits challenging environments
Supports integration into diverse electronic systems due to compatibility with standardized surface mounting
While obsolete, the existing support and resources may still be valuable for specific legacy applications