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10. Derive the transfer function for the circuit below, where Vs is the input, and vo...
1.show the relationship between input Vs and output Vo as a function and calculate the voltage gain and time constant 2.Experiment with the circuit in Matlab to find the Vo and time constant. 3.Experiment with the circuit in Pspice to find the Vo and time constant. P= 5012 R= 2012 + + Vs = 2 + 2cos(2000) + V L = 1 mH
Derive the transfer function of the circuit in Fig.P2.93(foranidealopamp)andshowthatitcanbewritten in the form Vo Vi = −R2/R1 [1+(ω1/jω)][1+j(ω/ω2)] whereω1=1/C1R1 andω2=1/C2R2.Assumingthatthecircuit is designed such that ω2 ω1, find approximate expressions for the transfer function in the following frequency regions: (a) ωω1 (b) ω1 ωω2 (c) ωω2 Vo FigureP2.93 Use these approximations to sketch a Bode plot for the magnitude response. Observe that the circuit performs as an amplifier whose gain rolls off at the low-frequency end in the manner of a high-pass...
For the given RC circuit shown below, ys the output, and ut) is the input. Values of the components are marked on schematic i) Derive the system differential equation and transfer function Y(s)/U(s) ii) Choose voltage across capacitors as states and derive the state equations and state matrices (A, B, C,and D). iii) Validate the states by deriving the transfer function from state matrices. iv) Choose a different set of states and derive a different state equation and state Matrix...
. Consider the circuit below. If Vs-Vincos(ot), show that 2 =-1+ jc0C, R, . Plot Vo, as in function of ω for 0<ω< 10 rad/s if Rs-1kQ, Rf-10 kQ, and CF-0.1 mF. What does this circuit do? CF Rf Vo Rs This is an example of an ACTIVE FILTER because this circuit can amplify as well as filter an input signal. . Consider the circuit below. If Vs-Vincos(ot), show that 2 =-1+ jc0C, R, . Plot Vo, as in function...
In the Circuit below find the phasor Vo of the output voltage vo-y when the input voltage us-f(t) Vs cos(ot) V. Plot 10log {lH(jo)l'3 function using the Bode Diagrams. Assume that all the Resistance units are in ΚΩ and all the Capacitance units are in μF. 0.25 0.4 In the Circuit below find the phasor Vo of the output voltage vo-y when the input voltage us-f(t) Vs cos(ot) V. Plot 10log {lH(jo)l'3 function using the Bode Diagrams. Assume that all...
Find the transfer function Av(S)-Vo(s)/Vs(s) for the following circuit KR, 1 KR
using mesh analysis method Whe Find the transfer function output for the electrical circuit below input 2H 2221F 0000 222 22 222 v(t) 232 + vo 21 VLt) 1F 2H WE 0000 llll VL(1) (a) (b)
Given the circuit below: R3 C1 Vout C2 R1 R3 Vin R2 ts 1 a) derive the transfer function between the input and the output in terms of R1,C1,R2,C2 b) For this and all other parts below, assume Izl<Ipl, i..e that D(s) is a lead-type compensator. The transfer function is written in the following format ts 1 Express quantities K, z, p using R1,C1,R2,C2 Also, express Κα, α, τ using K,z, p c) Observe the values of s-jw on the...
2. The input voltage in the circuit below is given by Vs-18+0.1cos(cot). We wish to remove the 1.8V from Vs then amplify the cos term, i.e., we wish to get Vo--22*(0.1cos(ot)). We can do the amplification using the two resistors shown below. Derive the response of Vo vs Vs. What is the value of Vref require to drive the 1.8 V offset to zero? 220 kΩ Vo 10 kQ Vref
Using () as the input and vo(t) as the output of the system, calculate the transfer function H(s), the impulse response h(t) vi Vo and the frequency response H(ia for the system shown in Figure 1 below. Plot (by hand or in Matlab) the asymptotic gain and phase of H(jw) Figure 1: Circuit for problem 1