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A general theory of phase transformation

A general theory of phase transformation

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A general theory of phase transformation by means of static pulsating-flux transformers is presented, i.e. m to n phases on a k-limbed transformer, m, n, and k being integers greater than unity. This is derived from the requirements of e.m.f. and m.m.f. balance. Except in the so-called 2-phase case, freedom of choice in selecting the winding elements in each phase always exists and it is always possible to produce a phase transformer for any required transformation ratio and phase shift. It is shown that the effective phase-turns are in general complex and that the ratio of voltage transformation is different from that for current transformation, both being complex and having equal and opposite phase-angles. Equality of primary and secondary power factors is thus established.In the examples given, the Scott and Leblanc connections for 2- to 3-phase transformation are shown to be duals. Two 3- to 4-phase connections are worked out in detail, and the symmetrical phase-transformers used with mercury-arc supplies are discussed briefly.

Inspec keywords: phase convertors; transformers

Subjects: Transformers and reactors; Inductors and transformers; Other analogue circuits

References

    1. 1)
      • L.B. Stillwell . Charles Felton Scott. Electrical Engineering
    2. 2)
      • F.T. Bennell . Rectifier Transformers. Electrical Times
    3. 3)
      • E.V. de Blieux . Characteristics, Design and Applications of Rectifier Transformers. General Electric Review
    4. 4)
      • C.P. Steinmetz . (1900) , Theory and Calculations of Alternating Current Phenomena.
    5. 5)
      • G.H. Rawcliffe . Principles of the Le Blanc 3/2 phase transformation. Bulletin of Electrical Engineering Education
    6. 6)
      • Arrangements patented by C.P. Steinmetz. Western Electrician (Chicago)
    7. 7)
      • L.F. Blume . (1938) , Transformer Engineering.
    8. 8)
      • W.B. Garrett . The Le Blanc system of three-phase to two-phase transformation. Beama Journal
    9. 9)
      • H. Rissik . (1935) , Mercury-arc Current Convertors.
    10. 10)
      • C.F. Scott . Polyphase Transmission. Electrician
    11. 11)
      • J.B. Gibbs . (1950) , Transformer Principles and Practice.
    12. 12)
      • M. Aliamet . Les Applications Industrielles des Transformateurs-Rédresseurs de M. Le Blanc. Bulletin de la Société Internationale des Électriciens
    13. 13)
      • S.A. Stigant , H.M. Lacey . (1941) , The J. and P. Transformer Book.
    14. 14)
      • H. de Pistoye . La Transformation des Courants Diphasésen Courants Triphasés; (1) Système Scott, (2) Système Le Blanc. La Lumière Électrique, 2e Serie
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