A three-phase synchronous motor with synchronous impedance of \(0.1 + j0.3\) per unit per phase has a static stability limit of 2.5 per unit. The corresponding excitation voltage in per unit is ................ (Round off to 2 decimal places).
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Solution and Explanation
Step 1: Formula for maximum power.
The steady-state power per phase is:
\[
P = \frac{EV}{|Z_s|}\sin\delta
\]
Maximum power transfer occurs at \(\delta = 90^\circ\):
\[
P_{max} = \frac{EV}{|Z_s|}
\]
Step 2: Static stability limit.
Given static stability limit:
\[
P_{max} = 2.5 \, \text{p.u.}
\]
Synchronous reactance magnitude:
\[
|Z_s| = \sqrt{(0.1)^2 + (0.3)^2} = \sqrt{0.01 + 0.09} = \sqrt{0.10} = 0.316
\]
Step 3: Solve for \(E\).
Assume terminal voltage \(V = 1 \, \text{p.u.}\):
\[
2.5 = \frac{E(1)}{0.316} \Rightarrow E = 2.5 \times 0.316 = 0.79
\]
Final Answer:
\[
\boxed{0.79}
\]
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