XC9572-10PCG44C - AMD

Manufacturer Part Number

XC9572-10PCG44C

Manufacturer

Xilinx

Introduction

The XC9572-10PCG44C is a high-performance CPLD from Xilinx's XC9500 series, primarily designed for system-level integration requiring high-speed, reliable programmability.

Product Features and Performance

In System Programmable with a minimum of 10,000 program/erase cycles

Maximum delay time of 10 ns

Internal voltage supply range from 4.75V to 5.25V

Contains 4 logic elements/blocks

Includes 72 macrocells

Equipped with 1600 gates

Provides 34 I/O pins

Supports operating temperatures from 0°C to 70°C

Surface mountable with a 44-LCC (J-Lead) package

Product Advantages

Enhanced programmability for improved system design flexibility

Reliable and fast performance suitable for demanding applications

Robust thermal and electrical performance

Compact form factor enabling easy integration in various designs

Key Technical Parameters

Programmable Type: In System Programmable

Delay Time tpd(1) Max: 10 ns

Voltage Supply Internal: 4.75V ~ 5.25V

Number of Logic Elements/Blocks: 4

Number of Macrocells: 72

Number of Gates: 1600

Number of I/O: 34

Operating Temperature: 0°C ~ 70°C

Quality and Safety Features

Highly reliable with a standard operating temperature range

Designed for stringent quality control and safety standards

Compatibility

Compatible with multiple design environments due to standard voltage and interfacing options

Application Areas

Telecommunications

Consumer electronics

Data processing systems

Industrial controls

Automotive systems

Product Lifecycle

The product is marked as Obsolete

Potential replacements or upgrades should be checked in newer series or alternative products by Xilinx

Several Key Reasons to Choose This Product

Programmability ensures ease of integration in system updates or modifications

Fast system performance with a maximum delay time of just 10 ns is optimal for real-time applications

High gate, macrocell, and I/O count offers design flexibility and scalability

Obsolescence status necessitates exploration of future-proof alternatives, making it suitable for short-term critical applications