ON Semiconductor 54LS175/BEAJC Quad D-Type Flip-Flop

The ON Semiconductor 54LS175/BEAJC is a high-performance, monolithic quad D-type flip-flop integrated circuit. This device features four individual D-type flip-flops with direct clear and preset inputs. It is designed for use in applications requiring a high degree of reliability and performance, making it an ideal choice for military, aerospace, and other critical systems that operate under harsh conditions.

Key Features:

• Logic Type: Quad D-Type Flip-Flop
• Logic Family: 54LS
• Number of Pins: 16
• Package: MIL-STD-883, Ceramic Dual-In-Line Package (CDIP)
• Operating Temperature Range: -55°C to +125°C
• Supply Voltage: Typically 5V
• Propagation Delay Time: Fast propagation delay for high-speed operations
• Direct Clear and Preset Inputs: For asynchronous control

The 54LS175/BEAJC is built on a low-power Schottky technology, which provides a high-speed operation while maintaining low power consumption. The flip-flops hold the data input (D) on the rising edge of the clock pulse (CLK), making it suitable for a variety of applications, including data storage, data transfer, and frequency division.

Each flip-flop has an independent clear (CLR) and preset (PRE) input. When the clear input is taken low, the corresponding flip-flop is cleared to a low state. Conversely, when the preset input is taken low, the flip-flop is set to a high state. If both the clear and preset inputs are low, the clear input takes precedence. These features allow for greater flexibility in control operations and make the device particularly useful for implementing essential logic functions in system designs.

The robust construction of the 54LS175/BEAJC ensures reliable operation in extreme environments. Its ceramic package provides excellent thermal properties and resistance to mechanical stress, making it a reliable choice for mission-critical applications where durability and dependability are paramount.

In summary, the ON Semiconductor 54LS175/BEAJC combines high-speed performance with the ruggedness required for demanding applications. Its precise control and flexibility make it an essential component in advanced digital systems where performance and reliability cannot be compromised.