STMicroelectronics HCF4072BM1 - Dual 4-input OR Gate

The HCF4072BM1 from STMicroelectronics is a high-performance CMOS Dual 4-input OR Gate integrated circuit designed to deliver efficient logical operations for a wide range of electronic applications. This versatile component is well-suited for implementation in digital systems requiring a reliable logic OR function with multiple inputs.

Constructed with silicon gate CMOS technology, the HCF4072BM1 offers the advantage of high noise immunity and low power consumption, which are crucial for battery-operated devices and power-sensitive applications. Its symmetric output characteristics ensure balanced propagation delays, making it a preferred choice for precise timing applications.

The HCF4072BM1 operates over a broad voltage range from 3V to 15V, providing flexibility in various operating environments and compatibility with other logic families when used with appropriate interfacing. This makes it an ideal component for designers looking to create robust and adaptable electronic systems.

Key features of the HCF4072BM1 include:

• Medium-speed operation: Ensures adequate performance for a multitude of applications without compromising on power efficiency.
• Standardized symmetrical output characteristics: Offers consistent performance and simplifies design considerations.
• Wide operating voltage range: Accommodates a variety of power supplies and allows for versatile application use.
• Low power dissipation: Reduces energy consumption, which is particularly beneficial for portable and low-power designs.
• High noise immunity: Provides stable operation even in electrically noisy environments.

The HCF4072BM1 is available in a compact SO-14 package, which is suitable for automated surface-mount assembly processes and space-constrained applications. Whether you are designing consumer electronics, automotive systems, or industrial controls, the HCF4072BM1 from STMicroelectronics represents a reliable and efficient solution for implementing dual 4-input OR logic functions in your circuit designs.