$$\frac{U}{U_{\text{pcz}}} = \left( f_{s} - f_{h} \right)\left\lbrack \text{dBμV} \right\rbrack - \left( f_{s} + f_{h} \right)\left\lbrack \text{dBμV} \right\rbrack = 65 - 57 = 8\left\lbrack \text{dB} \right\rbrack - m1\ as\ $$
$$\frac{U_{\text{wy}}}{U_{\text{we}}} = f_{s}\left\lbrack \text{dBμV} \right\rbrack - 94\left\lbrack \text{dBμV} \right\rbrack = 103 - 94 = 9\left\lbrack \text{dB} \right\rbrack - m1\ as\ $$
$$U_{\text{pcz}} = 10^{\frac{U\text{pcz}\left\lbrack \text{dBμV} \right\rbrack - 120}{20}} = \ 10^{\frac{39\ - 120}{20}} = 89,12 \bullet 10^{- 6}\text{\ V}$$
Ipcz = Upcz[V] • 10−3 = 89, 12 • 10−9[A]
$$g_{p} = \ \frac{I_{\text{pcz}}\lbrack A\rbrack}{U_{h}\lbrack mV\rbrack} = \ \frac{89,12\ \bullet 10^{- 9}}{2 \bullet 10^{- 3}} \bullet 10^{3} = 0,04\ \lbrack\frac{\text{mA}}{V}\rbrack$$