Common-mode signal

Common-mode signal is the component of an analog signal which is present with one sign on all considered conductors. In telecommunication, common-mode signal on a transmission line is known as longitudinal voltage.

In electronics where the signal is transferred by differential voltage, the common-mode signal is a half-sum of voltages

U_{cm} = \frac{U_1 + U_2}{2}

When referenced to the local common or ground, a common-mode signal appears on both lines of a two-wire cable, in-phase and with equal amplitudes. Technically, a common-mode voltage is one-half the vector sum of the voltages from each conductor of a balanced circuit to local ground or common. Such signals can arise from one or more of the following sources:

Noise induced into a cable, or transmitted from a cable usually occurs in the common mode; i.e. the same signal tends to be picked up by both conductors in a two wire cable. Likewise, RF noise transmitted from a cable tends to emanate from both conductors. Elimination of common mode signals on cables entering or leaving electronic equipment is important to ensure electromagnetic compatibility. Unless the intention is to transmit or receive radio signals, an electronic designer will generally design electronic circuits to minimise or eliminate common mode effects.

Methods of eliminating common mode signals

Common mode filtering may also be used to prevent egress of noise for electromagnetic compatibility purposes.

High frequency common mode signals, for example, RF noise from a computing circuit, may be blocked using a ferrite bead clamped to the outside of a cable. These are often observable on laptop computer power supplies near the jack socket, and good quality mouse or printer USB cables and HDMI cables.[3]

Switch mode power supplies include common and differential mode filtering inductors to block the switching signal noise returning into mains wiring.[4]

See also

References

 This article incorporates public domain material from the General Services Administration document "Federal Standard 1037C".