Using the SA571/NE571 as a compressor can create a problem in some applications. Unlike most conventional compressors, which only compress above a threshold level, the SA571 compresses a 100-dB dynamic range to 50 dB. When viewed on a log-log plot, the compression curve is observed to be a straight line (Fig. 1).

The equation of the line shown in Figure 1 is:

20logV_O = (1/2)(20log V_IN) = 20log V_IN^½

This reduces to: V_O = V_IN^½

The graph in Figure 2 illustrates the gain plot using linear coordinates, along with a unity gain V_IN versus V_O for comparison.

For an input of 100 µV (−80 dB), the gain of the compressor can be seen either from Figure 1 as −40 dB/−80 dB = 40 dB or 100. Or from Figure 2, the gain is equal to V_O/V_IN = 1/V_IN^½, and for V_IN = 100 µV, the gain is 100. This high gain, with little or no signal, presents a big problem in some applications because it raises the noise floor by a factor of 40 dB. Therefore, if the noise floor were −105 dB referred to the input of the compressor, the output would have a noise floor of −65 dB (−105 dB + 40 dB) which is totally unacceptable in many audio applications.

By adding one resistor (denoted as R_N in Figure 3), the current added into the node of the rectifier “fools” the compressor into thinking it has an input signal. Normally, without R_N, a 1-V signal into the rectifier produces an input current of:

I_IN = 1 V / R1 = 100 µA

When resistor R_N is added to the compressor ciruit, the dc current injected into the rectifier node is:

I_IN = 5 V/500k = 10 µA

This is equivalent to the rectifier having an ac signal of 100 mV. The new gain is now given by: Gain= 1/V_IN^½ = 1/(0.1)^½= 3.16

Therefore, the starting gain has been reduced from more than 100 to approximately 3, lowering the noise floor in this example from −65 dB to −95 dB. The complete compressor circuit is shown in Figure 3.

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Reader Comments Adding that resistor is killing all the comprssion - what's that good for? The circuit as compressor 1/2 it is exactly how dbx was working - record that compressed signal with the noise floor at -65dB on a tape with -65dB noise factor and you'll have a S/N ratio of approx -62dB. At the play time, reverse expanding, and that -62dB will become -120dB (limited at 105 by IC performance, I guess) from an analog recording. Anonymous -August 19, 2005 Use this clever mod, together with Vin driving Pin 15 instead, to turn the SA571 into really useful audio limiter. Anonymous -May 12, 2005   (Article Rating: )
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