Difficulty: Easy
Correct Answer: Varactor diode
Explanation:
Introduction:Negative-resistance devices can sustain oscillations or provide gain by exhibiting a region where current decreases as voltage increases. Identifying which devices exhibit negative resistance is foundational in microwave electronics.
Given Data / Assumptions:
Concept / Approach:Gunn and IMPATT diodes are classic negative-resistance sources for microwave oscillators and amplifiers. Tunnel diodes exhibit negative differential resistance due to quantum tunneling in their I–V curve. Varactors, by contrast, are voltage-dependent capacitors used for tuning and frequency multiplication; they do not operate via negative resistance in normal use.
Step-by-Step Reasoning:
1) Gunn diode: transferred-electron effect → negative resistance (true).2) Tunnel diode: tunneling peak and valley currents → negative differential resistance (true).3) IMPATT diode: impact ionization and transit-time effects → negative resistance at microwave frequencies (true).4) Varactor diode: provides nonlinear capacitance, not negative resistance (not a negative-resistance device).Verification / Alternative check:Small-signal models: varactor shows C(V) with series R but no negative-resistance region; others have negative differential resistance ranges.
Why Other Options Are Wrong:
Common Pitfalls:Equating nonlinearity with negative resistance; assuming all “special diodes” share the same property.
Final Answer:Varactor diode
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