Related MCQs

• If the equivalent impedance of the resonator at resonance is 12.5 Ω and the characteristic impedance of the feed line is 50 Ω, then the coupling coefficient is:
• If the reflection coefficient between the feed line and the resonator is -0.6, then the equivalent impedance of the resonator at resonance given that the characteristic impedance of the microstrip line is:
• It is desired to design a frequency oscillator at 2.4 GHz and the reflection coefficient desired is 0.6, then the coupling coefficient between the feed line and the dielectric resonator is:
• IF_THE_REFLECTION_COEFFICIENT_BETWEEN_THE_FEED_LINE_AND_THE_RESONATOR_IS_-0.6,_THEN_THE_EQUIVALENT_IMPEDANCE_OF_THE_RESONATOR_AT_RESONANCE_GIVEN_THAT_THE_CHARACTERISTIC_IMPEDANCE_OF_THE_MICROSTRIP_LINE_IS:?$
• If_the_equivalent_impedance_of_the_resonator_at_resonance_is_12.5_‚âà√≠¬¨¬©_and_the_characteristic_impedance_of_the_feed_line_is_50_‚âà√≠¬¨¬©,_then_the_coupling_coefficient_is:$#
• It is desired to design a frequency oscillator at 2.4 GHz and the reflection coefficient desired is 0.6, then the coupling coefficient between the feed line and the dielectric resonator is?
• A dielectric resonator can be incorporated into a circuit to provide _________ using either parallel or series arrangement.
• If the reflection coefficient seen on the terminated microstrip line looking towards the resonator is 0.5, then the coupling coefficient is:
• The coupling factor between the resonator and the microstrip line is the ratio of external Q to the unloaded Q.
• A dielectric resonator is modeled as __________ when it is used as a tuning circuit with a oscillator.