74ABT74PW,112

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Logic - Flip Flops refers to the most important parts of digital circuit systems which is used in sequential logic circuits, also called ‘latches’. It is a device or circuit that stores or registers a binary value and has two stable states, one of these states being either ‘SET’ or ‘RESET’. A logic flip-flop is made up of two inputs namely, the ‘clock’, and the ‘data’; the outputs are similarly ‘data’ and ‘clock’. The clock and data inputs of the logical flip-flop determine the state of the flip-flop. In the ‘SET’ state, the output is ‘1’, whilst in the ‘RESET’ state, the output is ‘0’.

74ABT74PW,112 is a type of flip-flop integrated circuit which is designed to take high-speed clock inputs and to produce parallel outputs. It uses two trigger type flip-flops to implement a two bit device, each flip-flop having two outputs namely, ‘Data,’ and ‘Clock.’ The flip-flop can be set or reset by a single input which is fed to the Data, Clock, and Enable lines of the flip-flop. The data, or data input, determines the state of the flip-flop while the clock is a periodic signal which starts the flip-flop from one state to another. The Enable line is used to enable or disable the flip-flop.

The 74ABT74PW,112 is a Positive Edge triggered D-Flip-flop which switches states upon the positive edge of the clock signal. Upon a positive edge of the clock pulse followed by an HIGH level of the enable signal, the input data is transferred to the output. For the first clock pulse, the data is supposed to be latched and the clock input needs to be ‘Low’. When the enable line is HIGH, the input data to the flip-flop is latched into the outputs on the rising edge of the clock pulse. The Enable pin is active Low when the output is disabled.

As logic flip-flops or latches are the most basic and important building blocks of digital logic circuits, they have a variety of applications. One of its major applications is in memory storage. Flip-flops are widely used in sequential circuit design because they are used to store data and keep it until the data is changed by the slowest changing signal in the circuit. Furthermore, flip-flops are used for making digital counter-timers, shift registers and other digital logic systems. They are used for synchronization of data transfer between devices, and even for making digital pattern generators and traffic controllers.

Another application of logic flip-flops is to make clock dividers. A clock divider is a hardware circuit or software device which receives an input clock signal and divides the frequency of the signal so the signal has the same frequency as the original but a lower period. Clock dividers are used in many devices, such as calculators and digital timers. They can also be used to divide the output of a quartz oscillator to drive a microcontroller. In this application, the quartz oscillator can serve as a reference signal for the system.

74ABT74PW-112 logic flip-flop is a useful integrated circuit for applications where a synchronous input signal is necessary such as memory applications, frequency dividers, and synchronous logic circuits. It is helpful for providing synchronization needed for the operation of circuits, to store data securely for future use, and for implementing systems that need reliable and maintenance-free operation. Its unique features make it an ideal choice for both small and large-scale applications.

The specific data is subject to PDF, and the above content is for reference