Editing Power inverter (section)

===Rectifier and inverter pulse numbers===
Rectifier circuits are often classified by the number of current pulses that flow to the DC side of the rectifier per cycle of AC input voltage. A [[half-wave rectification|single-phase half-wave rectifier]] is a one-pulse circuit and a [[full-wave rectifier|single-phase full-wave rectifier]] is a two-pulse circuit. A three-phase half-wave rectifier is a three-pulse circuit and a three-phase full-wave rectifier is a six-pulse circuit.<ref>{{cite book |editor=D. R. Grafham |editor2=J. C. Hey |title=SCR Manual |year=1972 |edition=Fifth |publisher=General Electric |location=Syracuse, N.Y. USA |pages=236–239}}</ref>

With three-phase rectifiers, two or more rectifiers are sometimes connected in series or parallel to obtain higher voltage or current ratings. The rectifier inputs are supplied from special transformers that provide phase shifted outputs. This has the effect of phase multiplication. Six phases are obtained from two transformers, twelve phases from three transformers, and so on. The associated rectifier circuits are 12-pulse rectifiers, 18-pulse rectifiers, and so on...

When controlled rectifier circuits are operated in the inversion mode, they would be classified by pulse number also. Rectifier circuits that have a higher pulse number have reduced harmonic content in the AC input current and reduced ripple in the DC output voltage. In the inversion mode, circuits that have a higher pulse number have lower harmonic content in the AC output voltage waveform.