It is in millivolts (less than a volt).
The effect of diode voltage drop as the output voltage is that the input voltage will not be totally transferred to the output because power loss in the diode . The output voltage will then be given by: vout=(vin)-(the diode voltage drop).
The ratio of output windings to input windings determines the ratio of output voltage to input voltage. The ratio of current is the inverse.
When a load is connected to the output of a voltage divider, the output voltage will typically decrease due to the loading effect. This occurs because the load draws current, which can change the voltage across the resistors in the divider. The extent of the voltage drop depends on the resistance of the load relative to the resistors in the voltage divider. If the load resistance is significantly lower than the divider resistances, the output voltage will drop more noticeably.
Because the windings of transformers have resistance, the primary and secondary currents will cause voltage drops. To compensate for the drops, the transformer may have been designed to have a higher than specified output voltage when there is little or no output current. The no load output voltage typically is only slightly greater than the specified voltage. Before measuring the output voltage, measure the input (line) voltage. If it is not as specified for the transformer, calculate its effect on the output.
To set up a phantom power supply for a condenser microphone, first ensure that the microphone is compatible with phantom power (typically 48V). Connect the microphone to the input of the phantom power supply using an XLR cable. Then, connect the output of the phantom power supply to your audio interface or mixer, also using an XLR cable. Finally, turn on the phantom power on the supply to provide the necessary voltage for the microphone to operate.
A microphone has a voltage output and an acoustical input. Only the sound wave can move the diaphragm of the microphone and a voltage signal comes out. That goes to to an amplifier and to a loudspeaker.
Sound pressure hits a microphone's diaphragm and the microphone converts this acoustic pressure wave to a audio voltage wave. The microphone's output is called sensitivity of the mic.. Scroll down to related links and look at "Microphone sensitivity conversion - transfer factor".
Because the microphone delivers voltage that goes to the amplifier. The microphone is an output device. A loudspeaker is an input device.
No input sound is microphone output sound is speaker
That depends on the sort of microphone you have. A condenser microphone gives 20 dB more output level than a dynamic microphone.
No.
The sound sensor provides an output signal voltage that responds to sound detected by a microphone. It will only respond to loud sounds.
NO
Input, because a microphone can capable of detecting sound.
Input, because a microphone can capable of detecting sound.
If they are for hearing then its output device as they are not putting anything in to the computer, if they have a microphone attached as well then they are input/output (i.e. microphone is input, speakers are output)
Microphones do not output anything, they are INPUT devices.