The op amp provides an amplification of about 30 dB (which is sufficient for the relatively high output level of an electret microphone), this gain depends on the value of resistors R3 and R4. If you want to be able to vary the gain, simply replace the resistor R4 to 120K a 470K potentiometer in series with a resistance of 10K. The overall gain in this way can vary from 10 to 45 dB.

It is sufficient for a single power supply (not balanced), a single 9V battery work fine. To increase the independence of assembly, you can replace the NE5532 with less energy op amp. AC power can be used, but must be perfectly stable.

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Mic Preamplifier described here is designed for dynamic type microphones, the impedance between 200 ohms and 1 ohm. Its uniqueness lies in the low power consumption, no more than 30 uA in the “worst” case, and make it very portable for this, powered by 1.5 V battery which will allow for longer operating time. This scheme is based on records from the Texas Instruments application.

TLC251 is a Programmable Low-Power Operational Amplifiers. This is indeed a control input, called BIAS (pin 8), which determines the mode of operation. When the pin is worn on the positive potential of power supply, the consumption of the circuit is reduced to a minimum, which is 10 uA (ten micro-amps). When the pin is taken to the potential 0V (ground), the consumption of the circuit back to 30 uA, three times greater than in low power mode. Why you should choose the mode in which consumption is more important? Because of bandwidth. In low power mode, the latter reduced to about 5 KHz trickle to the upper limit, while it increased to more than 20 KHz in another mode. Consider the possibility of intermediate mode, when the terminal 8 (BIAS) increased to 0.75 V, half the supply voltage.

The two resistors R2 and R3 are used effectively to create a point of reference for the AF signals from the microphone, a reference point called virtual ground, which is to “place” AF signals on a median between the two poles of power , so they can move as much towards the positive to negative, without any awkward clipping. The coupling capacitor C3 is added to stop the continuous component created by the virtual ground and is reflected in the output.

Gain assembly
The gain is determined by the ratio between the value of the potentiometer RV1 (mounted variable resistor) and the value of the resistor R4. The report here is 100 maximum, which corresponds to a gain of 40 dB.

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