J(10 points) For the circuit below, derive an expression for volt) inerms o vr) 20 nF...
(10 points) For the circuit below, derive an expression for soln) in t wolt) in tore f -i f h-A 20 nF 200 mhl 200 Ω to(t) vr(t)
Question 4 (1 point) For the op-amp circuit shown below 20 Ω, CI :: 5 μF, C2 :: 25 nF The circuit is excited by a Triangular wave taveform t4in Table 5.4) with A·5 V, and To. 1 ms. Provide the following (a) An expression for H(w) -V.(w)/V,(w) b) Derive the Fourier series representation of the output v(t c) Calculate the first five terms of volt)
Question-20 5 points Capacitors Cz, C2 and Cz are connected as shown in the circuit below. The equivalent capacitance between points A and B is: C1 a. 16 nF b. 11 nF C. 0.77 nF d. 0.1 nF 1nF C2 10nF C3 InF Question-21 5 points The impedance, Z of a 10 mH inductor at a frequency of f = 1000 Hz, expressed as a complex number is a. –j 62.83W b. +j 62.83W C. –j 10W d. +j 10w...
Pre-Laboratory Task 4: Derive an expression for the magnitude of the transfer function, H(Go)Vout(jo)/Wn(j, and the phase of the transfer function LH (ja) for the LCR circuit in Figure 4. Plot H(ja)l and H(jo) vs. frequency (o) in the form of a Bode plot indicating the damping frequency and the value of |H(jo)| at the damping frequency. Also determine the 3dB frequency and the roll off rate for Ir(ja)1 when ω > ω3dB. Vounlius R 470Ω C 100 nF Figure...
4) Second Order Laplace (25 pts) S1 opens at t=0 + 512 nF 350 ohms Volt) 200 mH THIS PROBLEM MUST BE DONE BY LAPLACE specifically conversion of components into an s-domain circuit! 4.1: Find Vo(t) for using Laplace from the s-domain equivalent circut. Note: Vat voltage across RA ANDLL the
derive a differential equation for ??(?) (The current through the indcutor) for the circuit. Define state variables, to compute ??(?) and ??(?)(voltage across the inductor). t 0 C w 2 L 8 he circuit parameters in the circuit in Fig. P12.31 are R 1600 2; L 200 mH; and C 200 nF. If ,(t)-6 mA, find
Use the circuit below to complete the given MATLAB script to plot the three voltages Vr, Vc and VL. Run MATLAB then pick an answer from the choices below that matches the MATLAB plot. MATLAB uncomplete script clc; close all; clear all; Mvs= 10; Avs=30*pi/180; [Xvs Yvs]=pol2cart(Avs, Mvs); Vs=Xvs+j*Yvs; % Impedances values Zr=4; ZL=10j; Zc=-12j; % total equivalent impedance of series R, L and C Zeq = ; %complete % Calculate current It = ; %complete Vr= ; %complete Vc=...
Question 2 1 pts Given the voltage step function in the diagram below and the RL circuit find the following values if Vs-20 VR-100 Ω, and L-50 mH. i(t) → VR Vs (t-0) A [answer in the form of a fraction or integer] (t-o) A lanswer in the form of a fraction or integer] IL (t=00)- A [answer in the form of a fraction or integer] Vi lt-oo) A [answer in the form of a fraction or integer]
6) (a) Derive an expression for the transfer function H(s)- Vofs)Vi(s) of the circuit in Figure 4 10 marks Vi(t) 1 Figure 4 (b) If the inductor value is 100 ?? and the capacitor value is 1 ?F calculate the value of the resistor required to ensure that the response of the circuit is critically px. (5 marks)
2. For the following circuit, and given input signal, sketch the corresponding output volt) for t> 0. 200 (mH) m , (D) (V) 100.(2) W 1 + 10 - 30 tms) 20 40 v.t (V) I 10 20 30 40 - f(ms)