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74HC10DB,118

74HC10DB,118 Description

The 74HC10DB,118 is a high-speed CMOS 3-input NAND gate IC, part of the 74HC series, designed for surface-mount applications. Manufactured by Nexperia USA Inc., this IC is known for its robust performance and compatibility with a wide range of digital systems. The 74HC10DB,118 features a maximum propagation delay of 16 nanoseconds at 6 volts and a maximum load capacitance of 50 picofarads, ensuring rapid signal processing and minimal latency. It operates within a supply voltage range of 2V to 6V, making it suitable for various power supply configurations.

The IC is designed with a maximum quiescent current of 2 µA, which significantly reduces power consumption during idle states. Each of the three NAND gates can handle an output current of 5.2 mA, both high and low, providing reliable signal transmission even under load. The input logic levels are specified as 0.5V to 1.8V for low and 1.5V to 4.2V for high, ensuring compatibility with a variety of digital signal sources.

Packaged in a 14-pin small outline package (SSOP) and available in tape and reel (TR) format, the 74HC10DB,118 is suitable for automated assembly processes. It is REACH unaffected and RoHS3 compliant, adhering to stringent environmental and safety standards. The moisture sensitivity level (MSL) is rated at 1 (unlimited), indicating excellent resistance to moisture, which is crucial for reliable performance in various environmental conditions.

74HC10DB,118 Features

• High-Speed Performance: With a maximum propagation delay of 16ns at 6V and 50pF, the 74HC10DB,118 ensures fast and efficient signal processing, ideal for high-speed digital circuits.
• Wide Operating Voltage Range: The IC operates within a supply voltage range of 2V to 6V, providing flexibility in power supply design and compatibility with various systems.
• Low Power Consumption: A maximum quiescent current of 2 µA minimizes power consumption during idle states, making it energy-efficient.
• Robust Output Current Capability: Each NAND gate can handle an output current of 5.2 mA, both high and low, ensuring reliable signal transmission even under load.
• Flexible Input Logic Levels: Input logic levels of 0.5V to 1.8V for low and 1.5V to 4.2V for high ensure compatibility with a wide range of digital signal sources.
• Surface-Mount Compatibility: Packaged in a 14-pin SSOP and available in tape and reel (TR) format, the 74HC10DB,118 is suitable for automated assembly processes.
• Environmental Compliance: REACH unaffected and RoHS3 compliant, ensuring the IC meets stringent environmental and safety standards.
• Moisture Resistance: An MSL rating of 1 (unlimited) indicates excellent resistance to moisture, crucial for reliable performance in various environmental conditions.

74HC10DB,118 Applications

The 74HC10DB,118 is ideal for a variety of digital circuit applications where high-speed signal processing and low power consumption are critical. Some specific use cases include:

• Digital Logic Circuits: The 3-input NAND gates are fundamental building blocks for digital logic circuits, enabling the creation of complex digital systems.
• Control Systems: The IC's high-speed performance and low power consumption make it suitable for control systems that require rapid decision-making and minimal energy usage.
• Data Processing: The robust output current capability ensures reliable signal transmission, making it ideal for data processing applications where signal integrity is crucial.
• Automated Assembly: The surface-mount package and tape and reel format make it suitable for automated assembly processes, reducing production costs and improving manufacturing efficiency.

Conclusion of 74HC10DB,118

The 74HC10DB,118 is a high-performance, low-power 3-input NAND gate IC that offers significant advantages over similar models. Its high-speed performance, wide operating voltage range, and low power consumption make it an excellent choice for a variety of digital circuit applications. The robust output current capability, flexible input logic levels, and environmental compliance further enhance its suitability for modern digital systems. While the product is marked as obsolete, its technical specifications and performance benefits continue to make it a valuable component for specific applications.