The CD74ACT04E is a high-speed CMOS logic hex inverter integrated circuit designed and manufactured by the renowned semiconductor company, Texas Instruments (TI). This device is part of TI's ACT (Advanced CMOS Technology) family, which is known for combining the speed of CMOS with the density advantages of TTL (Transistor-Transistor Logic).

The CD74ACT04E features six independent inverters in a single package, making it a versatile component for a wide range of digital applications. Each inverter is capable of transforming a high-level input signal into a low-level output, and vice versa, thereby providing the fundamental inverting function essential in digital electronics.

Key Features:

• Logic Type: Hex Inverter - The device contains six inverters which can process six separate input signals independently.
• Supply Voltage Range: 4.5V to 5.5V - This range is compatible with typical TTL power supply levels, allowing for easy integration into existing systems.
• High Speed: t_PD = 8.5ns (Typ) at V_CC = 5V - The propagation delay is minimal, ensuring swift signal processing and reduced latency in critical applications.
• Operating Temperature: -55°C to 125°C - A wide operating temperature range makes the CD74ACT04E suitable for use in various environmental conditions.
• Package: PDIP-14 - The device comes in a plastic dual-in-line package with 14 pins, which is a standard through-hole mounting configuration.

Applications:

The CD74ACT04E is commonly used in digital systems where signal inversion is necessary, such as in logic gates, oscillators, and pulse shaping circuits. Its high-speed performance is particularly advantageous in applications such as communication systems, data processing, and high-frequency signal generation.

Quality and Reliability:

Texas Instruments is committed to high-quality manufacturing processes, ensuring that the CD74ACT04E meets rigorous industry standards for performance and reliability. This device is a reliable choice for designers and engineers seeking a dependable inverter solution for their digital circuits.