It is called ( pulsed DC ).
You have not provided enough information. For 12 volt peak to peak, purely AC signal, there will be no DC (hence purely AC). This means there is no offset - the AC signal peaks at 6 volts and -6 volts. The RMS value of this is VRMS = peak / sqrt(2) = 6 / 1.4.
There is no such thing as a d.c. transformer; all transformers work on a.c. So, what you are probably referring to is a power supply: the type of thing you would use, for example, to run a small radio or to charge a battery. In that case, no, you cannot plug a a.c. appliance into a power supply that has a d.c. output.
one is AC the other is DC
although the AC signal is rectified the output which we get is the pulsating DC which is not desired because many appliances wok on plain DC voltage . The pulsating DC can be viewed as AC + DC component of the signal ripple factor of a rectified circuit is the ratio of AC component of signal to the DC component of the same rectified output signal. higher the ripple factor says that the signal is not smooth so lesser is its application. the components used to smooth these type of signals or to remove the 'ripple voltage' as called filters
ac
It is called ( pulsed DC ).
rectifier circuit convert ac to dc signal
DC: constant current in the forward directionPulsating DC: An AC signal which has it's negative components blockedA: The terminology applies to a VALUE of DC being interrupted by its absence periodically or random
it convert ac signal into dc signal But it will give only half-wave rectification.
The operation of a rectifier is to conver a AC signal to a pulsating DC signal
The Amplification is much high during acmode because of transister conducts boththe Half cycles.But in DC the transister conducts only in positive half cycles.So the Amplification of AC signal greater than DC signal.
What will happen to the output ac signal if the dc level is insufficient? Sketch the effect on the waveform.
ac and dc
You have not provided enough information. For 12 volt peak to peak, purely AC signal, there will be no DC (hence purely AC). This means there is no offset - the AC signal peaks at 6 volts and -6 volts. The RMS value of this is VRMS = peak / sqrt(2) = 6 / 1.4.
There is no such thing as a d.c. transformer; all transformers work on a.c. So, what you are probably referring to is a power supply: the type of thing you would use, for example, to run a small radio or to charge a battery. In that case, no, you cannot plug a a.c. appliance into a power supply that has a d.c. output.
If the AC signal is sinusoidal, then the RMS value is 141 divided by square root of 2, i.e. 99.7 volts.