If LM = 00, the next state of the flip-flop is 1. If LM = 01, the next state of the flip-flop is the same as the present state. If LM = 10, the next state of the flip-flop is the complement of the present state. If LM = 11, the next state of the flip-flop is 0. A sequential circuit contains a register of four flip-flops. Initially, a binary num- ber N (0000 < N < 1111) is stored in the flip-flops. After a single clock pulse is applied to the circuit, the register should contain the result of the expression (N – 5) mod 16. Design the circuit using the aforementioned LM flip-flops.

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An LM flip-flop works as follows:

 

If LM = 00, the next state of the flip-flop is 1.
If LM = 01, the next state of the flip-flop is the same as the present state.
If LM = 10, the next state of the flip-flop is the complement of the present state.
If LM = 11, the next state of the flip-flop is 0.
A sequential circuit contains a register of four flip-flops. Initially, a binary num-
ber N (0000 < N < 1111) is stored in the flip-flops. After a single clock pulse
is applied to the circuit, the register should contain the result of the expression
(N – 5) mod 16. Design the circuit using the aforementioned LM flip-flops.
Transcribed Image Text:If LM = 00, the next state of the flip-flop is 1. If LM = 01, the next state of the flip-flop is the same as the present state. If LM = 10, the next state of the flip-flop is the complement of the present state. If LM = 11, the next state of the flip-flop is 0. A sequential circuit contains a register of four flip-flops. Initially, a binary num- ber N (0000 < N < 1111) is stored in the flip-flops. After a single clock pulse is applied to the circuit, the register should contain the result of the expression (N – 5) mod 16. Design the circuit using the aforementioned LM flip-flops.
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