The M74LS107AP is a dual JK flip-flop integrated circuit (IC) belonging to the 74LS series of logic gates. Manufactured by Mitsubishi, it's designed for various digital logic applications requiring sequential data storage and manipulation. It features separate J, K, Clock, and Reset inputs, allowing for versatile flip-flop operation.

Applications

• Frequency dividers
• Shift registers
• Control circuits
• Counters
• Data storage

Features

• Dual JK flip-flops with individual J, K, Clock, and Reset inputs
• Low-power Schottky TTL (LS-TTL) technology
• High noise immunity
• Positive-edge triggered clock input
• Asynchronous Reset input
• Operating voltage: 4.75V to 5.25V

Benefits

• Versatile functionality: The JK flip-flop design enables multiple operating modes including toggle, set, reset, and hold.
• Low power consumption: LS-TTL technology minimizes power requirements, making it suitable for battery-powered applications.
• Reliable operation: High noise immunity ensures stable performance in noisy environments.
• Easy to integrate: Standard DIP package simplifies prototyping and integration into existing circuits.
• Cost-effective: A common and readily available logic IC, providing an economical solution for digital logic needs.

Technical Specifications

Logic Family: 74LS

Function: Dual JK Flip-Flop

Trigger Type: Positive Edge

Number of Flip-Flops: 2

Supply Voltage: 5V

Operating Temperature: 0°C to +70°C

Package Type: DIP-14 (Dual In-line Package)

The M74LS107AP is a reliable and versatile dual JK flip-flop IC suitable for a wide range of digital logic applications. Its low power consumption, high noise immunity, and versatile functionality make it a popular choice for designers. The positive-edge triggered clock input and asynchronous Reset input provide flexibility in circuit design, while the standard DIP package simplifies integration into existing systems. Whether used in frequency dividers, shift registers, or control circuits, the M74LS107AP provides a cost-effective and reliable solution for sequential data storage and manipulation.