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try using a 555 circuit
Short in circuit wiring or circuit overloaded.
letter note
Gain is also taken as Laplace transform of output to Laplace transform of Input . for example voltage gain calculation , it is not necessary to make the energy will be zero in L and C ( if present in the given circuit). But in case of Transfer function to avoid the system dynamics , we have to make the inductor and capacitor energy will be zero as initial condition = 0
thermal lag
yes it has a rated time for making and braking the circuit
it is delay sensitive becoz it doesnt require constant stream for data transfer which is related to bandwidth.
Two half adders, an OR gate, and a delay.
An All-Pass filter.
One prominent application is this: Some circuits have an output impedance very high. If these circuits are coupled with another circuit of low input impedance, the desired functionality of the latter circuit will be drastically affected. Because the first circuit tries to deliver large voltage to the second and the second invariably requires small input voltage. To avoid the circuit disfunctionality, a buffer circuit (a circuit with high i/p impedance and a low o/p impedance) is used. Another application is in the delay matching. This is an advanced topic though. The technology is still new. In delay matching, the latter circuit requires a delay of say "n" seconds after the first circuit's output. A buffer circuit is used in such cases also. The circuit design is totally different than the impedance matching case.
Joel Greenspoon has written: 'Effects of stimulus similarity and delay on transfer of training' -- subject(s): Transfer of training
I think you are talking about a timing circuit. More specifically, it would be an "off delay" timing circuit.