The ON Semiconductor MC14093BG is a high-performance, quad 2-input NAND Schmitt Trigger designed to offer both static and dynamic characteristics suitable for a broad range of digital applications. This integrated circuit is a member of the CMOS logic family and is fabricated using silicon gate technology which provides the benefit of high noise immunity and low power consumption.
Key Features
- Logic Type: Quad 2-Input NAND Schmitt Trigger
- Package: SOIC-14
- Operating Voltage Range: 3 V to 18 V
- Current - Output High, Low: 2.6 mA, 2.6 mA
- Temperature Range: -55°C to +125°C
- Propagation Delay Time: Variable depending on the operating voltage
- Hysteresis: Ensures enhanced noise immunity and clean switching characteristics
- Lead-Free, RoHS Compliant
Applications
The MC14093BG is widely used in various applications that require clean and stable switching operations. This includes, but is not limited to, wave and pulse shapers, astable multivibrators, monostable multivibrators, and circuit debouncing. Its robust design and hysteresis characteristics make it ideal for applications in noisy environments where signal conditioning is critical.
Performance Advantages
ON Semiconductor's MC14093BG provides users with several advantages in terms of performance. The Schmitt Trigger action on each input provides a hysteresis voltage which enhances noise immunity and transforms slowly changing input signals into sharply defined jitter-free output signals, contributing to its reliability in critical applications. Furthermore, the wide operating voltage range and low power consumption make it suitable for battery-operated devices and energy-efficient applications.
Quality and Reliability
ON Semiconductor is known for its commitment to quality and the MC14093BG is no exception. Each device undergoes rigorous testing to ensure it meets the high standards expected by users. The wide temperature range ensures that the device can operate effectively under extreme conditions, making it a reliable choice for industrial and automotive applications.