ON Semiconductor MC14001UBDR2G - CMOS Quad NOR Gate
The MC14001UBDR2G is a high-performance CMOS Quad 2-Input NOR Gate integrated circuit designed and manufactured by ON Semiconductor. This device is part of the MC14001 series and is a versatile component used in a wide range of electronic applications, from simple logic control to complex computing systems.
Constructed with MOS P-Channel and N-Channel enhancement mode devices in a single monolithic structure, the MC14001UBDR2G offers excellent power dissipation and speed characteristics, making it suitable for both static and dynamic memory applications, as well as a variety of other logic functions.
With its quad 2-input configuration, this NOR gate provides the basic building block for implementing logical operations. The NOR gate is a universal gate, meaning it can be used to create any other type of logic gate, making the MC14001UBDR2G an essential component for digital circuit design. Its versatility is further enhanced by its wide operating voltage range, from 3V to 18V, allowing it to be used in both low and high-voltage applications.
The MC14001UBDR2G is available in a compact SOIC-14 package, which saves valuable board space while still providing high functionality. This, combined with its low power consumption and high noise immunity, makes it a preferred choice for power-sensitive and space-constrained applications.
Key features of the MC14001UBDR2G include:
- Quad 2-Input NOR Gate configuration
- Wide operating voltage range: 3V to 18V
- High noise immunity characteristic of CMOS devices
- Low power consumption
- High-speed performance
- SOIC-14 package for compact footprint
The MC14001UBDR2G is RoHS compliant and is designed for use in applications requiring high reliability and low power consumption, such as portable electronics, computing devices, and industrial control systems. Its robust design ensures stable operation over a broad range of environmental conditions, making it a solid choice for designers looking to implement reliable logic solutions in their products.