I asked the question 2 hours before but i didn't know the I had to upload by 3 -3 subparts so this is the rest of my previous question. PLEASE EXPLAIN THE d) sub part as soon as possible.Thanks in advance. The no-load and locked-rotor test results of a three-phase 10 HP, 220 V, 60 Hz, 6 poles star connected induction motor are; The no-load test: VNL=220 V, PNL=340 W, INL=6.2 A The locked-rotor test: VSC=54 V, PSC =430 W, ISC =15.2 A The voltage across the stator windings is 2 V when nominal DC current flows through it. Coefficient for DC resistance is 1,25. d) Slip value at the maximum (breakdown) torque,
I asked the question 2 hours before but i didn't know the I had to upload by 3 -3 subparts so this is the rest of my previous question. PLEASE EXPLAIN THE d) sub part as soon as possible.Thanks in advance. The no-load and locked-rotor test results of a three-phase 10 HP, 220 V, 60 Hz, 6 poles star connected induction motor are; The no-load test: VNL=220 V, PNL=340 W, INL=6.2 A The locked-rotor test: VSC=54 V, PSC =430 W, ISC =15.2 A The voltage across the stator windings is 2 V when nominal DC current flows through it. Coefficient for DC resistance is 1,25. d) Slip value at the maximum (breakdown) torque,
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Author:Robert L. Boylestad
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I asked the question 2 hours before but i didn't know the I had to upload by 3 -3 subparts so this is the rest of my previous question. PLEASE EXPLAIN THE d) sub part as soon as possible.Thanks in advance.
The no-load and locked-rotor test results of a three-phase 10 HP, 220 V, 60 Hz, 6 poles star connected induction motor are;
The no-load test: VNL=220 V, PNL=340 W, INL=6.2 A
The locked-rotor test: VSC=54 V, PSC =430 W, ISC =15.2 A
The voltage across the stator windings is 2 V when nominal DC current flows through it. Coefficient for DC resistance is 1,25.
d) Slip value at the maximum (breakdown) torque,
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