Description:This circuit can be used to remotely monitor a loudspeaker, alarm, or audio source for presence of an audio waveform. It can also be directly connected across loudspeaker terminals used as a peak indicator.
If you need to monitor some audio signal at a location that is either soundproof are too far away to actually hear the signal then you can use a circuit similar to this one. A remote indication that the audio source is active is provided visually, here in the form of a LED. Referring to the above circuit, the 10k preset is a level control which should be adjusted so that when the source ( audio signal or alarm ) is producing the desired amount of noise, the LED lights. The input stage is an inverting x100 amplifier made with a 741 op-amp. The output of the 741 is capacitively coupled into a 10k load resistor, thus removing any dc component from the signal and the offset null voltage of the op-amp. As only the amplified audio signal appears across the 10k load resistor, this is half wave rectified by the 1N4148, filtered by the 10u capacitor, and this small dc voltage used to directly drive the 2N2222A transistor, lighting the LED. Any NPN transistor may be used in replacement of the 2N2222, and should work with any transistor having a current gain of over 100. Examples include, BC107/8/9, BC547/8, ZTX300, 2N3904 etc. The sensitivity of this circuit is high, and input signal level as low as 10mV RMS will light the LED. If the monitored audio signal level is much higher than this (i.e. 1000mV and higher) then the following simpler circuit may be used.
Operation is the same as the op-amp circuit. The input is now directly to a 10k preset resistor, the monitored audio signal being half-wave rectified and used to directly bias the transistor. As before any transistor with a forward dc current gain greater than 100 may be used.
To use either circuit as a peak monitor adjust as follows. For example suppose the input signal is from an audio power amplifier. Audio voltages higher than 1 Volt may easily be generated at the loudspeaker output, so the second circuit is used and connected directly across the loudspeaker terminals. You adjust the volume of the audio power amplifier until the level is uncomfortable or to any desired level. You then adjust the preset so that the LED lights. You then return the volume control to a normal level. If this accidentally gets turned up the LED will light providing visual indication that the peak level has been reached.
Content sourced from Zen SchematicsCircuit:Andy Collinson