Balanced Three Phase Network

Balanced Three Phase Network:

The solution of a Balanced Three Phase Network under balanced conditions is easily carried out by solving the single-phase network corresponding to the reference phase. Figure 4.1 shows a Single Phase Solution of Balanced Three Phase Networks. The generator and load neutrals are therefore at the same potential, so that In = 0. Thus the neutral impedance Zn does not affect network behaviour. For the reference phase a

Balanced Three Phase Network

The currents and voltages in the other phases have the same magnitude but are progressively shifted in phase by 120°. Equation (4.1) corresponds to the single-phase network of Fig. 4.2 whose solution completely determines the solution of the three-phase network.

Balanced Three Phase Network

Balanced Three Phase Network

Consider now the case where a three-phase transformer forms part of a three-phase system. If the transformer is Y/Y connected as shown in Fig. 4.3a, in the single-phase equivalent of the three-phase circuit it can be obviously represented by a single-phase transformer (as in Fig. 4.3b) with primary and secondary pertaining to phase a of the three-phase transformer.

Balanced Three Phase Network

Balanced Three Phase Network

If the transformer is Y/Δ connected as in-Fig. 4.4a, the delta side has to be replaced by an equivalent star connection as shown dotted so as to obtain the single-phase equivalent of Fig. 4.4b. An important fact has, however, to be observed here. On the delta side the voltage to neutral VAN and line current IA have a certain phase angle shift from the star side values Van and Ia (90° for the phase labelling shown). In the single-phase equivalent (VAN, IA) are respectively in phase with (Van, Ia). Since both phase voltage and line current shift through the same phase angle from star to delta side, the transformer per phase impedance and power flow are preserved in the single-phase equivalent. In most analytical studies, we are merely interested in the magnitude of voltages and currents so that the single-phase equivalent of Fig. 4.4b is an acceptable proposition. Wherever proper phase angles of currents and voltages are needed, correction can be easily applier after obtaining the solution through a single-phase transformer equivalent.

Balanced Three Phase Network

Balanced Three Phase Network

It may be noted here that irrespective of the type of connection, the transformation ratio of the single-phase equivalent of a three-phase transformer is the same as the line-to-line transformation ratio.

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