ON Semiconductor NC7SZ14FHX: Ultra-High Speed UHS Inverter

The ON Semiconductor NC7SZ14FHX is a high-performance, ultra-high-speed CMOS inverter fabricated with silicon gate CMOS technology. It is designed to deliver the most efficient performance for a wide range of applications that require logic inversion, with an emphasis on space-constrained environments due to its tiny footprint. The product belongs to the 7SZ series, which is known for its low power consumption and high speed.

Key Features

• High-Speed Operation: This inverter operates at a voltage range of 1.65 to 5.5V, ensuring compatibility with low-voltage applications while still providing the ability to interface with standard 5V logic levels.
• Power-Off Disable Outputs: It features power-off disable outputs that allow live insertion without damaging the device or the need to power down the system.
• Ultra-Small Package: The NC7SZ14FHX comes in an ultra-small MicroPak™ package, making it ideal for portable electronics where space is at a premium.
• Low Static Power Consumption: The inverter's sub-microampere static power consumption is beneficial for battery-powered devices, helping to extend battery life and reduce energy usage.
• High Noise Immunity: It is characterized by a balanced output drive with high noise immunity, ensuring stable performance in noisy environments.

Applications

• Portable electronics
• Logic level translation
• Battery management
• Data transmission
• Signal processing

The NC7SZ14FHX is a versatile component that can be used in a variety of digital circuits. Its high-speed operation makes it suitable for fast logic operations, while its low power consumption and small size are perfect for portable and battery-operated devices. Whether you are designing a new product or updating an existing one, the ON Semiconductor NC7SZ14FHX inverter is an excellent choice for reliable and efficient logic inversion.

Overall, the NC7SZ14FHX from ON Semiconductor is a testament to modern semiconductor design, offering both performance and practicality for today's electronic devices.