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Online simulation of the cmos-триггер ведущий-ведомый circuit

This is a master-slave flip-flop implemented with CMOS inverters and transmission gates. When the clock is low, the flip-flop holds its state. The first-stage flip-flop, the master, consists of two inverters in the upper left corner, which are connected in a positive-feedback configuration so that their outputs do not change. When the clock goes high, the D input is passed to the first stage, and the second stage (slave) is connected with positive feedback to ensure that the output still does not change. When the clock goes low again, the second stage is set to the same state as the first stage, changing the output. Thus, the output changes only when the clock has a negative transition.

This page is a utility for simulating cmos-триггер ведущий-ведомый online with specified initial values.

The online circuit simulator allows you to model circuit behavior in real time. You can change circuit parameters, add new elements, and observe their interactions. This is a useful tool for learning and experimenting with electronic circuits.
⚡ Circuit Online 
Left-click — place/select · hover over an end (◯ highlights) and drag — stretch · wheel — zoom · middle/right-click — pan · double-click — settings

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