Junior Member
Posted January 11, 2019
The reactance of a synchronous machine depends upon:
a. Applied voltage
b. Leakage flux
c. Degree of saturation of magnetic core
e. Power factor of supply current
f. Winding configuration
Member
Posted January 17, 2021
I believe its the degree of saturation of magnetic core. this can be tested with open/shorted circuit test.Originally Posted by kcorpuz
Junior Member
Posted January 18, 2021
Pro Subscriber
In case of machines that have reconfigurable windings, e.g 277/480, certainly the Winding Configuration would have a direct effect on the inductance, therefore the reactance seen by an AC supply.
Member
Posted January 18, 2021
I can see that because the impedance of the wye motor connection should be greater than in the delta connection, therefore the reactance change! But the voltages also change... how significant ?
Junior Member
Posted January 19, 2021
Pro Subscriber
considering the internal diagram of a synchronous machine, we can see a voltage
* (E^af) induce voltage in generator
* (Xs) synchronous reactance
* (Ra) armature resistance and
* (V) applied voltage
* (Ia) armature current
by simply applying the ohm law V^a=−RaIˆa−jXsIˆa+Eˆaf ==> (E^af - V^a) = RaI^a - jXsI^a
this looks a little bit as the formula S=P+jQ, with Q being a reactance, if we multiply both sides by I with I=I^a in series
I*(E^af - V^a) = I*(RaI^a - jXsI^a)
we know S=E*I so S = RaI^2-jXsI^2
we see that it will depend on the applied voltage and Internal resistance. Now, the total internal resistance will vary depending on the configuration Y or D.
I would go with the applied voltage, i mean that's how i try to understand that.
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