Diode and Transistor Noise

In active devices, aside from the thermal noise due to resistive elements, we have two additional sources of electronic noise: (1) shot noise in PN junctions, and (2) flicker noise in MOSFETs.

Shot Noise

Shot noise is the random movement of quantized charges flowing through a forward-biased PN junction. The shot noise power in a diode, shown in Fig. 1, is given by:

${\displaystyle {\overline {i_{n}^{2}}}=2qI_{D}B}$

(1)

Where ${\displaystyle q=1.602\times 10^{-19}\,\mathrm {C} }$, ${\displaystyle I_{D}}$ is the DC current flowing through the diode, and ${\displaystyle B}$ is the observation bandwidth. Shot noise has a white power spectral density similar to thermal noise, however, it is independent of temperature and instead, is proportional to the DC diode current. Since noise, in general, can be considered a "small signal", we normally include the noise generators in the diode small signal model.

In a bipolar junction transistor (BJT), both PN junctions produce shot noise, which we model as:

${\displaystyle {\overline {i_{bn}^{2}}}=2qI_{B}B}$

(2)

${\displaystyle {\overline {i_{cn}^{2}}}=2qI_{C}B}$

(3)