Microchip Technology's ATF750C-10SI CPLD

The ATF750C-10SI is a high-performance, versatile Complex Programmable Logic Device (CPLD) brought to you by Microchip Technology. This integrated circuit is designed to cater to a wide array of applications, ranging from simple logic control to complex system initialization and interface management. It is particularly well-suited for power-sensitive and space-constrained applications.

With its 10 ns pin-to-pin logic delays and a register-to-register speed of 10 ns, the ATF750C-10SI ensures rapid processing and smooth operation for time-critical tasks. The device is fabricated using a 5V, 0.7-micron, two-layer-metal CMOS process, which endows it with a combination of speed and power efficiency. This makes it an ideal choice for applications requiring high-speed logic operations while maintaining low power consumption.

This CPLD contains 750 usable gates, which are organized in a flexible and easily programmable architecture. The device features 24 macrocells that provide ample logic capacity and can be configured to meet the specific needs of your application. The macrocells are configurable for both combinatorial and sequential logic, providing a high degree of design flexibility.

The ATF750C-10SI comes in a 24-pin SOIC package, which is widely used and recognized for its reliability and ease of assembly onto PCBs. The device operates over the industrial temperature range (-40°C to +85°C), ensuring reliable performance under extreme conditions. Additionally, it has a low power standby mode, which is particularly beneficial for battery-operated devices.

For those looking to develop with the ATF750C-10SI, Microchip Technology offers comprehensive development tools and software support. This ensures that engineers can rapidly prototype and deploy their designs with confidence, reducing time-to-market and increasing the efficiency of the development process.

In summary, the ATF750C-10SI from Microchip Technology is a robust, high-speed CPLD that is perfect for designers looking to integrate complex logic functions into their systems without compromising on power efficiency or design flexibility.