Band-pass selectivity: In a series resonant band-pass filter, what happens to the bandwidth if the quality factor Q is reduced (lower Q)?
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Aa higher resonant frequency
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Ba smaller bandwidth
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Ca higher impedance
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Da larger bandwidth
Answer
Correct Answer: a larger bandwidth
Explanation
Introduction / Context:The quality factor Q of a resonant circuit quantifies selectivity. For a band-pass filter, Q links the center (resonant) frequency and the bandwidth. Designers adjust Q to control how narrow or broad the passband is.
Given Data / Assumptions:
- Series resonant band-pass network.
- Q is decreased (lower Q).
- Standard definitions: Q = f0 / BW.
Concept / Approach:The relationship BW = f0 / Q shows that, for a fixed resonant frequency f0, bandwidth is inversely proportional to Q. Therefore, lowering Q increases BW, which means the filter becomes less selective (broader passband).
Step-by-Step Reasoning:Given Q decreasesBW = f0 / Q ⇒ BW increasesHence, the passband widens and selectivity reduces
Verification / Alternative check:As Q → large, BW → small (very selective). As Q → small, BW → large (wide). This holds for both series and parallel tuned circuits (with topology-dependent impedance levels but the same proportionality).
Why Other Options Are Wrong:
- A higher resonant frequency: f0 is determined by L and C, not by Q directly.
- A smaller bandwidth: Opposite of the BW = f0 / Q relationship.
- A higher impedance: Not a general consequence of lowering Q in a series RLC; the key effect asked is bandwidth.
Common Pitfalls:Confusing Q with gain or with impedance level. Q is predominantly a measure of selectivity and energy storage relative to loss in resonant systems.
Final Answer:a larger bandwidth