Alpha–beta transformation


In electrical engineering, the alpha-beta transformation is a mathematical transformation employed to simplify the analysis of three-phase circuits. Conceptually it is similar to the dq0 transformation. One very useful application of the transformation is the generation of the reference signal used for space vector modulation control of three-phase inverters.

Definition

The transform applied to three-phase currents, as used by Edith Clarke, is
where is a generic three-phase current sequence and is the corresponding current sequence given by the transformation.
The inverse transform is:
The above Clarke's transformation preserves the amplitude of the electrical variables which it is applied to. Indeed, consider a three-phase symmetric, direct, current sequence
where is the RMS of,, and is the generic time-varying angle that can also be set to without loss of generality. Then, by applying to the current sequence, it results
where the last equation holds since we have considered balanced currents. As it is shown in the above, the amplitudes of the currents in the reference frame are the same of that in the natural reference frame.

Power invariant transformation

The active and reactive powers computed in the Clarke's domain with the transformation shown above are not the same of those computed in the standard reference frame. This happens because is not unitary. In order to preserve the active and reactive powers one has, instead, to consider
which is a unitary matrix and the inverse coincides with its transpose.
In this case the amplitudes of the transformed currents are not the same of those in the standard reference frame, that is
Finally, the inverse transformation in this case is

Simplified transformation

Since in a balanced system and thus one can also consider the simplified transform
which is simply the original Clarke's transformation with the 3rd equation excluded, and

Geometric Interpretation

The transformation can be thought of as the projection of the three phase quantities onto two stationary axes, the alpha axis and the beta axis.

dq0 transform

The transform is conceptually similar to the transform. Whereas the transform is the projection of the phase quantities onto a rotating two-axis reference frame, the transform can be thought of as the projection of the phase quantities onto a stationary two-axis reference frame.