A series of resonant circuit has a Q of 120 and a resonant frequency of 60,000 rad/s. Determine the half-power frequencies and the bandwidth of the circuit.
Answer to relevant QuestionsGiven the series RLC circuit in fig 11.36 if R=10ohm , find the values of L and C such that the network will have a resonant frequency of 100 kHz and a bandwidth of 1kHz. In the network in fig 11.41 the inductor value is 30mH, and the circuit is driven by a variable frequency source. If the magnitude of the current at resonance is 12A, Wo=1000rad/s and L=10mH, find C, Q and the bandwidth of ...The source in the network in fig 11.48 is i(t) = cos1000t + cos1500t A.R=200ohm and C=500F. If Wo =1000rad/s, find L, Q, and the BW. Compute the o/p voltage Vo (t) and discuss the magnitude of the output voltage ...Determine what type of filter the network shown in fig 11.56 represents by determining the voltage transfer function. Prove that the circuit in figure p11.66 is a simulated inductor. Find the inductance in terms of C, gm1 and gm2.
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