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the last presentation we saw the basic off your SR flip-flop and also at the end we were having our truth table that I made here now by using this truth table in this presentation we are going to find out the characteristic table and the excitation table for s our flip-flop which is a very important part of the flip-flops and especially when you are having your flip-flop conversion so lets move to it the truth table is familiar to you in this we are having the clock whenever the clock is low whatever be the values of s and are the QN plus 1 now let me tell you about this QN plus 1 because till now we were using Q and Q Bar actually QN plus 1 is your next state ok and QN is your present state what I mean by this is that whatever be the value stored in the flip-flop is your present state and now when your clock changes and the inputs SNR changes depending upon their values the next state will be determined ok when clock is high and s and r are 0 0 we know that it is the memory it is th
