Manufacturer Part Number
XC9536XL-10PCG44I
Manufacturer
Xilinx
Introduction
The XC9536XL-10PCG44I is an embedded CPLD from the XC9500XL series designed for high performance, low voltage applications.
Product Features and Performance
In-System Programmable with a minimum of 10,000 program/erase cycles
Proprietary DirectC technology for easy programming
Fast propagation delay time of 10 ns max
Low power operation with 3V to 3.6V internal voltage supply
36 macrocells with 800 gates for flexible logic implementation
34 user programmable I/O pins for versatile interfacing
Supports wide range of operating temperatures from -40°C to 85°C
Product Advantages
High integration to save board space
Low power consumption for energy-efficient designs
High reliability and long operational lifespan
Enhanced system speed due to fast propagation delay
Security features to protect proprietary designs
Key Technical Parameters
Program/Erase Cycles: min 10,000
Propagation Delay Time (tpd): Max 10 ns
Supply Voltage (Internal): 3V to 3.6V
Logic Elements/Blocks: 2
Macrocells: 36
Gates: 800
I/O Pins: 34
Operating Temperature Range: -40°C to 85°C
Mounting Type: Surface Mount
Package / Case: 44-LCC (J-Lead)
Quality and Safety Features
Lead-free and RoHS compliant
Extensive testing across temperature and voltage ranges for robust performance
Compatibility
Compatible with a variety of PCB design and layout tools
Supports JTAG programming for easy integration into existing setups
Application Areas
Automotive, Consumer Electronics, Industrial Control Systems, Telecommunication, Data Processing
Product Lifecycle
Obsolete status indicating end of production cycle with potential limited availability
Replacement or upgrade options may be available under different part numbers
Several Key Reasons to Choose This Product
Proven reliability for critical applications
High-speed performance for demanding logic operations
Xilinx-quality design and support ensure long term usage
Ability to update and reprogram in the field adapts to changing requirements
Extensive I/O capabilities for flexible system design