Only three wires are needed , more phases => More wires

Three phase supply grids can be used to power single and two phase applications (electric lights and clothes dryers, etc.) while also supplying large motors in factories. Three phase systems supply convenient (and safe) voltages (110, 220 and 440 volts) for common applications. Transformers can step up or down these voltages for specific applications. The frequency (60 Hz) results from the number of poles on huge generators limiting rotating speeds (RPM) which are now standard. Providing more phases would complicate generating equipment and distribution systems without gaining efficiency. High tension cross-country grids require only three separate cables to transmit three phase power (often with an extra higher cable to arrest lightning). Transmission towers often carry cables in sets of three which require large insulators and minimum distances between cables to avoid arcing.

Three-phase electric power is a common method of alternating-current electric power transmission.[1] It is a type of polyphase system and is the most common method used by electric power distribution grids worldwide to distribute power. It is also used to power large motors and other large loads. A three-phase system is generally more economical than others because it uses less conductor material to transmit electric power than equivalent single-phase or two-phase systems at the same voltage.[2] The three-phase system was introduced and patented by Nikola Tesla in the years from 1887 to 1888.



In a three-phase system, three circuit conductors carry three alternating currents (of the same frequency) which reach their instantaneous peak values at different times. Taking one conductor as the reference, the other two currents are delayed in time by one-third and two-thirds of one cycle of the electric current. This delay between phases has the effect of giving constant power transfer over each cycle of the current and also makes it possible to produce a rotating magnetic field in an electric motor.



Three-phase systems may have a neutral wire. A neutral wire allows the three-phase system to use a higher voltage while still supporting lower-voltage single-phase appliances. In high-voltage distribution situations, it is common not to have a neutral wire as the loads can simply be connected between phases (phase-phase connection).



Three-phase has properties that make it very desirable in electric power systems:



* The phase currents tend to cancel out one another, summing to zero in the case of a linear balanced load. This makes it possible to eliminate or reduce the size of the neutral conductor; all the phase conductors carry the same current and so can be the same size, for a balanced load.

* Power transfer into a linear balanced load is constant, which helps to reduce generator and motor vibrations.

* Three-phase systems can produce a magnetic field that rotates in a specified direction, which simplifies the design of electric motors.



Three is the lowest phase order to exhibit all of these properties.



Most household loads are single-phase. In North America and some other countries, three-phase power generally does not enter homes. Even in areas where it does, it is typically split out at the main distribution board and the individual loads are fed from a single phase. Sometimes it is used to power electric stoves and electric clothes dryers.

3 section celeb equipment is used the place the flexibility lots on all stages are actually not balanced so there's a impartial cord which incorporates the unbalanced modern. 3 section delta equipment is used for balanced 3 section lots which includes a three section electric motor.