MUX(A, B, S) = A*S + B*S'
NOT(A) = MUX(0, 1, A) = 0*A + 1*A' = A'
From http://noyesno.net/
The only way an Inverter could overload a circuit would be on the supply side. The fusing/protection for the inverter is incorrect.
combinational circuit
Which has more number of input, It can be obtained by cascading two or more multiplexer with less nunber of inputs.
The question is not clear can you go into discuss question and explain exactly what you want to do I'm sure I can help
multiplexer can be used as parallel to serial converter.
24-to1mux circuit
the design of multilevel inverter can be done by using is the mosfets ....multilevel inverter is the inverter which cna reduce the harmonics by increasing the voltage levels ANSWER: The design of multilevel converter is the same as a single converter. The feedback control however comes from the most hi current output capacity circuit.
Control circuit.
The only way an Inverter could overload a circuit would be on the supply side. The fusing/protection for the inverter is incorrect.
combinational circuit
Which has more number of input, It can be obtained by cascading two or more multiplexer with less nunber of inputs.
multiplexer
The question is not clear can you go into discuss question and explain exactly what you want to do I'm sure I can help
*an
multiplexer can be used as parallel to serial converter.
A multiplexer (MUX) allows multiple input signals to be combined into a single output line, which can save on wiring and reduce the complexity of circuit designs, making it efficient for data transmission. However, a disadvantage is that it can introduce latency and potential signal degradation, especially if the number of inputs is high or if the design is not optimized. Additionally, the increased complexity in control logic can lead to difficulties in design and troubleshooting.
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