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EC312 Lecture 11
... (c) Know the basic filter types and their characteristic frequency plots: bandpass, band-reject, low pass and high pass filters. (d) Be able to analyze the RLC series circuit as a tuned circuit and describe its equations for resonance, cutoff frequencies, BW and Q, and be able to analyze the AC circ ...
... (c) Know the basic filter types and their characteristic frequency plots: bandpass, band-reject, low pass and high pass filters. (d) Be able to analyze the RLC series circuit as a tuned circuit and describe its equations for resonance, cutoff frequencies, BW and Q, and be able to analyze the AC circ ...
494-148
... modeled using P-Q theory and simulation studies are performed using PSIM-SIMCAD software. Experimental results obtained from a prototype model are shown to verify the theory developed in this paper. Key – Words: - Hybrid filter, Resonance, Instantaneous reactive power theory ...
... modeled using P-Q theory and simulation studies are performed using PSIM-SIMCAD software. Experimental results obtained from a prototype model are shown to verify the theory developed in this paper. Key – Words: - Hybrid filter, Resonance, Instantaneous reactive power theory ...
Homework Assignments
... L = [ 0 ; 1], = 1, = 1/2, Rc = 1, and Qc = 1. a. Find the three coupled differential equations for the three elements of P. These equations describe the dynamics of the estimation error covariance of the continuous time Kalman filter. b. Is (F, L) controllable? Is (F, H) observable? What does th ...
... L = [ 0 ; 1], = 1, = 1/2, Rc = 1, and Qc = 1. a. Find the three coupled differential equations for the three elements of P. These equations describe the dynamics of the estimation error covariance of the continuous time Kalman filter. b. Is (F, L) controllable? Is (F, H) observable? What does th ...
Lec 04
... Any current will create a magnetic field, so in fact every current-carrying wire in a circuit acts as an inductor! All the loops' contribution to the magnetic field add together to make a stronger field. Unlike capacitors and resistors, practical inductors are easy to make by hand. One can for insta ...
... Any current will create a magnetic field, so in fact every current-carrying wire in a circuit acts as an inductor! All the loops' contribution to the magnetic field add together to make a stronger field. Unlike capacitors and resistors, practical inductors are easy to make by hand. One can for insta ...
OP-AMP Filter Examples
... High and low pass filters can be made by adding capacitors to inverting amplifiers as well. The first circuit is a low pass filter. At low frequencies the capacitors impedance is high, much higher than R2, and therefore doesn't affect the circuit (XC||R2 = R2). At high frequencies the capacitors im ...
... High and low pass filters can be made by adding capacitors to inverting amplifiers as well. The first circuit is a low pass filter. At low frequencies the capacitors impedance is high, much higher than R2, and therefore doesn't affect the circuit (XC||R2 = R2). At high frequencies the capacitors im ...