Manufacturer Part Number
XC95288XL-7TQ144I
Manufacturer
xilinx
Introduction
The XC95288XL-7TQ144I is a high-performance CPLD from Xilinx's XC9500XL series, designed for advanced embedded system applications requiring numerous logic cells and macrocells.
Product Features and Performance
In System Programmable with a minimum of 10,000 program/erase cycles
Low propagation delay of 7.5 ns max
Internal voltage supply range from 3V to 3.6V
Includes 16 logic elements/blocks
Features 288 macrocells and 6400 gates
Provides 117 input/output ports
Supports surface mount technology
Encapsulated in a 100-TQFP (14x14) package
Product Advantages
High logic capacity and programmability support complex logic designs
Broad voltage range enhances compatibility with various system voltages
Adequate number of I/O ports facilitates extensive interfacing with peripheral devices
Compact 100-TQFP packaging saves board space
Key Technical Parameters
Delay Time tpd(1) Max: 7.5 ns
Voltage Supply Internal: 3V ~ 3.6V
Number of Logic Elements/Blocks: 16
Number of Macrocells: 288
Number of Gates: 6400
Number of I/O: 117
Operating Temperature: -40°C ~ 85°C (TA)
Quality and Safety Features
Extensive testing to ensure reliable programming and operation within specified temperature ranges
Designed to meet stringent quality standards for industrial applications
Compatibility
Compatible with other devices and systems operating within the 3V to 3.6V range
Surface mount technology aligns with modern automated assembly techniques
Application Areas
Used in industrial controls, automotive systems, data processing, telecommunications, and more specialized embedded systems
Product Lifecycle
Marked as Last Time Buy indicating nearing discontinuation
Potential for replacements or upgrades should be considered due to lifecycle status
Several Key Reasons to Choose This Product
Reliable high-performance CPLD from trusted manufacturer Xilinx
Suitable for complex programmable solutions due to its high number of logic elements and macrocells
Longevity of service in industrial applications due to in-system programmability and extensive I/O options
Current lifecycle stage offers final purchase opportunities for existing designs before needing to shift to newer alternatives