The 54F373DMQB is a high-performance integrated circuit from the renowned manufacturer, Texas Instruments (TI). Designed for a wide array of applications, this product is part of TI's family of octal transparent D-type latches that come with 3-state outputs.

Key Features

• Octal D-Type Latches: The 54F373DMQB contains eight latches that allow for the storage of data bits with the convenience of D-type inputs for straightforward operation.
• 3-State Outputs: The outputs of the latches can be in one of three states: high, low, or high impedance. This feature enables the use of the device in bus-oriented applications, allowing multiple devices to share a common data bus without interference.
• Transparent Latches: The transparency of the latches means that when the latch-enable (LE) input is high, the Q outputs will follow the D inputs. This allows for real-time data flow through the latches when needed.
• Durable Construction: Encased in a robust package, the 54F373DMQB is designed to withstand harsh conditions and provide reliable performance in a variety of settings.

Applications

The 54F373DMQB is suitable for use in applications that require the temporary storage of data, such as:

• Computing systems
• Data communications equipment
• Control systems
• Signal processing units

Technical Specifications

The device boasts a wide operating temperature range and is compatible with TTL logic levels. The 54F373DMQB offers fast propagation delays and setup times, which are essential for high-speed operations.

Quality and Reliability

As with all Texas Instruments products, the 54F373DMQB is manufactured to the highest quality standards. Users can expect a reliable component that meets rigorous industry specifications for performance and longevity.

Ordering Information

To purchase or request samples of the 54F373DMQB, customers can visit the Texas Instruments website or contact an authorized distributor. Detailed product documentation, including datasheets and support resources, is readily available to assist with integration and design needs.