Manufacturer Part Number
XC9536XL-10CSG48C
Manufacturer
Xilinx
Introduction
CPLD device from XC9500XL series optimized for high-performance 3V applications
Product Features and Performance
In System Programmable with over 10K program/erase cycles
Fast propagation delay time of 10 ns
Suitable for 3V to 3.6V power supply operations
Incorporates 2 logic blocks and 36 macrocells
Provides 800 configurable logic gates
Features 36 Input/Output pins
Operational temperature range from 0°C to 70°C
Surface mount 48-FBGA, CSPBGA package
Product Advantages
High integration capability for complex designs
Low power consumption
Robust programmable logic solutions for varied applications
Ease of design with in-system programmability
Reputation of Xilinx in CPLD market for reliability and performance
Key Technical Parameters
Programmable Type: In-System Programmable
Delay Time tpd(1) Max: 10 ns
Voltage Supply Internal: 3V to 3.6V
Number of Logic Elements/Blocks: 2
Number of Macrocells: 36
Number of Gates: 800
Number of I/O: 36
Operating Temperature: 0°C to 70°C
Package/Case: 48-FBGA, CSPBGA
Quality and Safety Features
Comes in a standardized 48-CSBGA package ensuring safety during handling and mounting
Compatibility
Compatible with high-density designs due to small form factor packaging
Application Areas
Ideal for control systems, automotive, telecommunications, data processing, and industrial applications
Product Lifecycle
Last Time Buy status indicating nearing discontinuation with recommendations for future replacements or upgrades feasible
Several Key Reasons to Choose This Product
Renowned manufacturing quality and support from Xilinx
High density and flexibility for complex circuit designs
Durable and long-lasting with high program/erase cycle count
Enhanced system performance with fast signal propagation
Efficient power consumption for 3V logic operations
Flexible I/O pin count for diverse application needs
Suitable for a range of industrial temperature conditions
With Last Time Buy status, ensures opportunity for stockpiling or phased transition to new solutions