D2. When a generator's full-load output voltage is the same as its no-load output voltage it is said to be a) under-compounded b) flat-compounded c) over-compounded d) none of the above D3. The output of an overcompounded DC generator can be lowered by use of a a) rheostat connected in series with the series field b) rheostat connected in parallel with the series field c) rheostat connected in parallel with the shunt field d) none of the above D4. When might it be desirable to use an overcompounded generator? a) never b) always c) to compensate for line loss d) when you need a higher no-load voltage than your full-load voltage

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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D2. When a generator's full-load output voltage is the same as its no-load output voltage it is said to be
a) under-compounded b) flat-compounded c) over-compounded d) none of the above
D3. The output of an overcompounded DC generator can be lowered by use of a
a) rheostat connected in series with the series field b) rheostat connected in parallel with the series field c) rheostat connected in parallel with the shunt field d) none of the above
D4. When might it be desirable to use an overcompounded generator?
a) never b) always c) to compensate for line loss d) when you need a higher no-load voltage than your full-load voltage

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