Typically, microphone pre-amplifiers for consumer electronics are designed in one of two ways. In Figure 1a, the microphone gain is set high to accommodate low-level signals and the output is attenuated as needed. It has an optimum transfer function (Fig. 2, "Optimum"), but it can be overloaded by loud signals. In Figure 1b, the microphone gain is adjusted to accommodate the actual signal level, which solves the signal-to-noise and headroom issues. The output, however, can't be completely turned off. Its transfer function is shown in Figure 2, "Gain trim only."

A "best of both worlds" solution can be accomplished using a dual log/antilog pot, such as the Panasonic EVJ-Y series, typically Digikey part number P2F0502-ND (www.digikey.com). The antilog portion serves as the gain trim, and the log portion is used as the output attenuator. In practice, the output attenuator only affects the lowest 20% of rotation. This effectively produces the output transfer curve of Figure 2, Optimum. Figure 3 shows a typical circuit based on the INA217 from Texas Instruments (www.ti.com).

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Reader Comments very good, i like it Bejo -April 04, 2005   (Article Rating: ) I absolutely loved this article -- it helped me immensely. I built the circuit and it works beautifully. HOWEVER, it didn't work the first time because of the obvious error that I overlooked: In schematic No. 3, the output of the IC was labeled pin "3" by mistake. (The non-inverting input is also labeled pin "3," which is correct.) The output should instead be labeled pin "6." Otherwise, it's an awesome article and IC. Thank you. Scott Morrison -February 27, 2005   (Article Rating: ) The article was technically correct but the Web page setup was a bit annoying, having to open another window to look at the schematic being referred to. A few minutes of HTML work to put it all on one page would have been nice. Bill Baka -September 20, 2003
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