Consider the following circuit. a) Using any method you want, calculate Vo(t) given Vi(t) = u(t)...
1. Consider the op-amp Circuit below 001uF 100Ω .1uF Vi Vo a. The Gain can be put in the form: what are the values for Ao, z1, 0z2, Op1, and ώρ27(Note that the resistors and capacitors of Zf and Zi are > order of magnitude apart. You can make approximations.) 0 Vi 1+ copi op2 b. Sketch a rough Bode plot (magnitude and Phase) Simulate the circuit using LTSPICE using an LT1001 op amp powered with+/-15V and plot the magnitude...
Please help me answer the question using the circuit. Any method is acceptable. Thank You. **HERE IS A SAMPLE TABLE f w |Vi| |VA| |VC| |VD| |VA|/|Vi| |VC|/|VA| |VD|/|VC| φA φC φC-φA φD φD-φC 10 100 1000 10000 R2 w P+15V R1 A R2 B 2 с C2 HE D 3 Vi C1 R3 Vo -15V 3. Let R1 = 2.7 k12, R2 = 51k, R3 = 15 k12, C1 = .1 uF, and C2 = .1 uF. Assume that...
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
1. Find the numerical expression for the transfer function from Vi(t) to V.(t), for each circuit below, and sketch the magnitude and phase of the transfer function, as functions of w. For these plots, show the w axis on a log 10 scale, and show the amplitude of the transfer function on a decibel scale. 0.1uF V(t) 0.1 uF 250mH V(t) 250mH 2k2 V(t) 10k2 0.25μF Vo(t) 1. Find the numerical expression for the transfer function from Vi(t) to V.(t),...
pts) Consider the following Op Amp Circuit, use Op Amp rules to calculate vo vi and vx vi . hint: you may need to introduce a variable Vx in your KCL equations. Use R1 = 1Ω, R2 = R3 = R4 = 2kΩ, Rf = 3kΩ. 1. (40 pts) Consider the following Op Amp Circuit, use Op Amp rules to calculated and hint: you may need to introduce a variable Vx in your KCL equations. Use R1 = 12, R2...
2. In the circuit below all resistors are 1-ohm and the value of the inductor is 1H a. Determine the transfer function 'e in the frequency domain. b. If Vi(t) = 3 n= 1-sin (nrt) determine vo(t) c. Determine the input normalized power 1 나 1 V. 2. In the circuit below all resistors are 1-ohm and the value of the inductor is 1H a. Determine the transfer function 'e in the frequency domain. b. If Vi(t) = 3 n=...
The circuit above has the following parameters: R=55 Ohm, C=1.5 uF ("u"=micro), L1=3 mH, L2=4 mH; Using MATLAB (or equivalent tool) generate the transfer function H = Vo/Vi magnitude MdB(f) and Phase(f) frequency dependencies in the frequency range from 100 Hz to 12000 Hz. Define the Magntude plot of the transfer function by entering f (Hz) and M (dB) points. Do not enter units.Define the Phase plot of the transfer function by entering f (Hz) and Phase (in degrees) points. Do not enter...
Please find What is NDsolve in Mathematica program. Thanks. Vdd 5V Vin キCL We want to find the output waveform of an inverter by solving the differential equation numerically using NDSolve for two different Vin(t) clock waveforms. Once the vo(t) waveform is obtained, we want to calculate τpLH and tpHL numerically from the vo t waveform using FindRoot The device/circuit parameters are: kn -1mA/V, vtn vtpl-1V, and CL- 1pF. (1) 10 pts Consider one cycle of an ideal clock with...
21 Vi Z2 Vo Figure 1 1. Ref: Figure 1. Let Z1 L (an inductor), Z2 - R (a resistor). Vi Calculate the magnitude and phase of the transfer function H(w) Figure 1 T 2. Repeat #1 with L = 100 mH, R 1kΩ. a) Plot the frequency response in dB* on a both on a linear scale and then a log scale from ω-1 to 100,000,000 rad/sec with points every decade (1 b) 1,000 etc). 10 100 Plot the...
Please find What is NDsolve in Mathematica program. Thanks. Vdd 5V Vin キCL We want to find the output waveform of an inverter by solving the differential equation numerically using NDSolve for two different Vin(t) clock waveforms. Once the vo(t) waveform is obtained, we want to calculate τpLH and tpHL numerically from the vo t waveform using FindRoot The device/circuit parameters are: kn -1mA/V, vtn vtpl-1V, and CL- 1pF. (1) 10 pts Consider one cycle of an ideal clock with...