User:John R. Brews/Sample

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In electronics, the mode of an electrical device refers to its steady-state bias condition or operating point in the absence of signals. In analog circuits the so-called active mode of the device is chosen by the circuit designer to allow adequate signal amplitude and adequate voltage or current gain, along with acceptable signal distortion. In digital circuits, devices toggle between modes that are either in cutoff mode (off) or in ohmic mode (on), and visit the active mode only briefly during the transition between the on and off modes.

For historical reasons, some confusing nomenclature has arisen that is only slowly being replaced. For both bipolar and MOSFET devices, it is common to refer to the off mode as cutoff. However, the active mode of the bipolar transistor often is called the saturation mode of the MOSFET, while the on mode of the bipolar transistor often is called its saturation mode. This confusion of terminology does nothing to clarify the discussion of circuitry.

MOS transistor G-S
Bias
G-D
Bias
S-B
Bias
D-B
Bias
Mode
Channel at source end only ≥ VT(S) ≤ VT(D) Zero or Reverse More reverse than S-B Active (Saturation)
Channel at both ends ≥ VT(S) > VT(D) Zero or Reverse More reverse than S-B Ohmic
No channel < VT(S) ≤ VT(D) Zero or Reverse Zero or reverse Cutoff (Subthreshold)
Bipolar transistor B-E Junction
Bias
B-C Junction
Bias
Mode
E injects, C collects Forward Reverse Active
E and C inject Forward Forward Saturation
No injection Reverse Reverse Cut-off
C injects, E collects Reverse Forward Reverse-active

In the bipolar device, the emitter is designed for efficient injection, while the collector is designed to collect with low capacitance between collector and base. Thus, the bipolar device is inherently asymmetrical, and a distinction between forward and reverse modes of operation makes sense. In the MOSFET the source and drain are interchangeable, so reversing polarity simply exchanges the source for the drain. An exception is the power MOSFET, which like the bipolar transistor, has source and drain separately optimized for their particular function.