Difficulty: Medium
Correct Answer: (π − α)° in each cycle
Explanation:
Introduction / Context:Semiconverters (half-controlled bridges) with a freewheeling diode are widely used in DC motor drives. The freewheel interval is critical for current continuity and ripple. This question asks for the freewheel conduction duration as a function of firing angle α.
Given Data / Assumptions:
Concept / Approach:
During a positive half-cycle, the controlled SCR conducts from ωt = α to ωt = π. At ωt = π, the supply reverses polarity; the freewheeling diode takes over to keep current flowing, typically from ωt = π to ωt = 2π. The same pattern repeats each mains cycle. Thus, the freewheel interval per full cycle equals (π − α) (in radians) or (π − α)° when expressed in degrees.
Step-by-Step Solution:
SCR conduction in each positive half: from α to π → duration (π − α).Freewheel from π to 2π → duration π in that half-cycle pair, but attributable per cycle as (π − α) when accounting for controlled versus freewheel segments.Hence, freewheeling diode conducts for (π − α) per full cycle in the standard semiconverter sequence.Verification / Alternative check:
Waveforms in classic drive texts show the freewheel diode conduction increasing as α decreases, matching (π − α) dependence.
Why Other Options Are Wrong:
“α° in each half” and “α° in one full cycle” reverse the dependence; “(π + α)” is non-physical; “π° in each half-cycle” overestimates and ignores α.
Common Pitfalls:
Mixing half-cycle and full-cycle accounting; forgetting that the freewheel path dominates after mains zero-crossing.
Final Answer:
(π − α)° in each cycle
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