A triangular waveform voltage (shown below to the right) is applied to the following circuit input terminals. The circuit’s value of C is 200 nano-farad and the value of R is 47 kilo-ohm. The output voltage is measured with a high impedance A-to-D converter. Recalling that such a passive element circuit is a linear-time invariant system which can be solved with superposition principles:
a) Determine eout at time = 1.5 milli-second.
b) Determine the time when there is no current through the resistor. ( ein = eout ).
c) Determine the difference between eout and ein at 3 milli-second.
d) Determine eout at time = 8 milli-seconds.
A triangular waveform voltage (shown below to the right) is applied to the following circuit input...
1. Consider the triangular voltage wave form applied to an electrical circuit shown below. /a I Derive the Fourier series for the above waveform Write down the amplitude of the fundamental, first harmonic and second harmonic componen ts Calculate the THD value for the above waveform
please provide detailed answers 4) For the passive circuit to the right, a) determine the transfer function for output voltage over input voltage using the standard analysis approximations including ( eout ) being measured by a high input impedance voltmeter. ein out b) Then determine the relationship between C, L and R values which create critically damped dynamics in this circuit c) Finally determine the output voltage as a function of time, given a step input voltage change from...
3. In the circuit below, the waveform at right is applied to the upper input. The output of the circuit is shown at right. 2 V OUT HOT1199 (a) (Multiple choice. 6pt.) Determine the value of R, required to produce the output shown. (Ohms) 1k 1.5k 2.5k 7k 11k 12k 13k 20k 24k 25k 28k 30k (b) (Multiple choice. 6pt.) Determine the value of the current 12 (with sign, "+" means "towards the right") required to flow through R2 to...
The input voltage waveform (Vin) t in is shown below along with the circuit. The voltage-controlled switch S1 closes when the output voltage Vc (t) goes positive at t=0 and opens when Vc (t) goes negative at t=5 µs. Assume that Vin(t) in has been at 10 V for t<0 for a very long time.. 3. (15 marks) The input voltage waveform Vin(t) is shown below along with the circuit. The voltage- controlled switch S, closes when the output voltage...
For the circuit below calculate and sketch waveform of the voltage v(t), both for t < 0 and t 0, if the switch "S" switches on at time t 0. I = 10MA R1 8 k2, R22 k2, C = 6.25 uF - R2 z (t) For the circuit below calculate and sketch waveform of the voltage v(t), both for t
7. A periodic triangular-wave voltage source (t)is applied to an RLC circuit (both are shown below). Estimate the average power delivered to the 20 kΩ resistor when the circuit is operating in steady-state. Hint: 200 Σ nz sin 4(t) = 25 + sin(na0t) n=1 n=odd 20 mH 50 pF 20 kΩ % (V) 50 r (As) 3
Consider the simple series RLC circuit shown in figure below, the circuit has the following parameters, R=12, L = 0.2 Henry, and C = 0.05 Farad, R 1000 Vs The system is governed by the following equations: V = VR + V + V VR = IR V = Vc S(t)dt Or I = CM Construct a Simulink model for this system such that the input is the supply voltage Vs and the output is the voltage across the resistor...
The circuit to the left is constructed with a 1kS2 resistor and a 1 mF capacitor. The input waveform is shown below. A) Sketch a graph of the output voltage for this graph, starting at t 0 and ending it once the capacitor has Rreturned to an apparent steady state. Be sure to label rtant points and values ts the value of output voltage at t-11 seconds? 12 seconds? C) Sketch a graph of the output current for this graph,...
this is a question from a review for a test. please help! An RC circuit with R = 10 Kilo-ohms and C = 40 nano-Farads is constructed to serve as an example of a first order system and as a filter. The capacitor is uncharged when the circuit is assembled. Two sources of input voltage to the circuit are possible, a DC power supply or a function generator. 1a) (6 points) • What input source would be used to determine...
Given the second-order transient response of a series RLC circuit (shown below), determine the attenuation constant 'α' using the plot. Express your answer in Volts/sec. Round your answer to the nearest integer. Given the second-order transient response of a series RLC circuit (shown below), determine the attenuation constant 'a' using the plot. Express your answer in Volts/sec. Round your answer to the nearest integer 5 4 Ae at cos(Bt + p) + C 3 ww 2 -2 The vertical scale...