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electransformateur.py

Created by condouarthur

Created on December 19, 2023

1.04 KB

Transfo Monophasé de deux tensions electriques
U2/U1 = N2/N1 = m = I1/I2
S1=U1i1 S2= I2U2
si idéal S1 = S2 I1 = M i2 et U2 = mU1
Transfo ramené au primaire :
  Rp =R1 + R2/m2
  Xp = X1 + X2/m2
secondaire :
  Rs = m2R1 + R2
  Xs = m2X1+X2
U20 = U2 + (Rs+ jXs)I2
Delta U2 = U20 - U2 = Rscosphi2 + Xs sinphi2
l'essai à vide nous permet de calculer : 
  M
  La résistance ferromagnétique Rm = Rf
  la réatance magnétique du circuit Xf = Lmw
  
L'essai en court-circuit permet de calculer:
  La résistance ramenée au secondaire Rs
  La réactance ramenée au secondaire Xs = Lxw
Pf = U12/Rf

chute de tension = Delta Vn, nulle pour une charge à carctère capacitif, soit phi = arctg(-Rs/Xs)

Essai à vide :
  Q10 = U12/Xm soit Xm = U12/Q10 avec Q10 = SQRT (S102-P102)
  M = U20 / U1
Essai en court-circuit
P1cc = Pjcc +Pfcc or on néglige  ̈Pfcc soit Rs = P1cc/I2cc2
Calcul du circuit magnétique
U20 = U2 + (Rs+jxs)I2 or u2 = 0 en court circuit donc 
U20cc=(Rs+jxs)I2cc = m U1cc = I2ccsqrt (rs2+xs2)
Xs = sqrt ((Mu1cc/I2cc)2-Rs2)

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