Manufacturer Part Number
XC95108-15PCG84C
Manufacturer
Xilinx
Introduction
XC95108-15PCG84C is a high-performance CPLD from Xilinx's XC9500 series, suitable for logic integration and complex programmable functions.
Product Features and Performance
In System Programmable with a minimum of 10K program/erase cycles
Delay time of maximum 15 ns
Internal voltage supply range from 4.75V to 5.25V
Contains 6 logic elements/blocks
Includes 108 macrocells
Provides 2400 gates
Offers 69 Input/Output pins
Supports operating temperatures from 0°C to 70°C
Surface mount, 84-LCC (J-Lead) packaging
Product Advantages
High integration capability with 108 macrocells and 2400 gates
Flexible in-system programming with up to 10K cycles
Broad voltage supply range catering to various power setups
Robust operating temperature range making it suitable for diverse environments
Key Technical Parameters
Programmable Type: In System Programmable (min 10K program/erase cycles)
Delay Time tpd(1) Max: 15 ns
Voltage Supply - Internal: 4.75V ~ 5.25V
Number of Logic Elements/Blocks: 6
Number of Macrocells: 108
Number of Gates: 2400
Number of I/O: 69
Quality and Safety Features
Designed for a wide range of operating temperatures (0°C to 70°C)
Standard surface mount package enhances reliability
Compatibility
Compatible with various surface mount technologies and standard programming tools
Application Areas
Ideal for telecommunication, data processing, and industrial control applications
Product Lifecycle
The XC95108-15PCG84C is marked as Obsolete, indicating that it is nearing the end of its product lifecycle. Contact Xilinx for information on replacement or upgrade options.
Several Key Reasons to Choose This Product
Highly programmable and reconfigurable, supporting diverse and complex logic designs
Long life in-system programmability ensuring adaptability and extended use
Supports a broad range of power supplies and operational environments
Robust packaging suitable for various assembly processes
Preferred choice for industries requiring high reliability and flexibility in logic operations