Determine and graph the output voltage magnitude, and phase versus frequency for the circuit shown below....
Problem 2. Determine and graph the output voltage magnitude, and phase versus frequency for the circuit shown below. The voltage source V1 (t)-1 sin (? t) volts. 00 KHz to 250 KHz. In your numerical calculations, limit the frequency range from 1 out R1 20k 1000uH V1 1n L1
In the circuit below, the input voltage is Vin-Vinegakcos(wt), R-20 ΚΩandC15nFw l. in al Show that the output voltage is VotVcos (wt-), where V-V n peak/V1 + (RC) b) Show that this result justifies calling this circuit a high-pass filter+ c) Find an expression for the phase constant δ in terms of R,C and d) At what frequency is Vi (1/V2) Vin peak? That particular frequency is known as the 3dB frequency, or f3dB, of the circuit
In the circuit...
L1 s] CI ?2 s2 In the circuit, the amplitude and phase of the voltage source Vs1 are 120 V and 0.4 rad, those of the voltage source Vs2 are 230 V and 0.5 rad, the voltage frequency is 20 kHz; 36 mH, L2 20 mH, C1 2.5 nF R1-3 kOhm, R2 7 kOhm, R36 kOhm, L1 Find the impedance of inductor L1 Real part of impedance (Ohm) Submit Answer Tries 0/3 Impaginary part of impedance (Ohm): Submit Answer Tries...
2.2kn 10nF Fig. 1. Resistive-capacitive circuit for learning how to measure magnitude and phase shift. 1. Hand Calculations (in a manner suitable for submission) For the circuit in Fig. 1 with f = 7.2 kHz and a source t) = 1.0 cos (Zrf-t|v applied at the circuit input (between points A and D), calculate by hand the voltage vi(t) at the input and the voltage v2(t) at the output (between points B and D).
60 Lab Quiz circuit shown below, answer the following questions. (Show your calculations) R1 V1 L1 R2 Figare 3 lab Quir RL. Cirewir 1. Write the storage phase equations for V1,V2·Yu and IL and calculate each at time 4m NOTE: Use R-1k2 when calculating the time constant.) 2. Calculate Vi, V2. VL. Is, 12, and Iu at steady-state (after the storage phase has passed.) 3. Calculate the voltage across the inductor (VL) just after the switch is opened (just beginning...
3. Consider the AC circuit shown in the figure below, consisting
of an alternating voltage source—of voltage V (t) = V0 cos (ωt)—a
capacitor (of capacitance C), an inductor (of inductance L), and
two resistors (of resistances R1 and R2). Also, note the
highlighted points a and b in the circuit. (a) While explaining
your reasoning, determine the necessary condition that must be
satisfied between the circuit elements such that the potential
difference between points a and b is zero...
WIth the following two circuits (Circuit A and B), please derive
the equations for the magnitude and phase of the capacitor and
inductor voltage as a function of angular frequency ω, and plot the
values in MATLAB or Excel.
Both circuits have the voltage set to AC Amplitude 1 and an AC
Phase to 0 degrees.
Circuit A:
Circuit B:
Thanks.
R1 100 V1 L1 AC 1 0 10mH
The alternating signal with an amplitude of 0.9 V, a frequency of 1 KHz, and a phase of -22.5° is o.TV dc b.as. Try connecting this signal to a load resistance of 50 Q to test the waveform 1.Express circuit as CAD drawing 2.Show output graph through Transient analysis in PSPICE 3.Calculate the instantaneous value at 0.1 second and compare it with the result of 2 4.When connecting the signal to the A and B terminals of the voltage distribution...
(a) The figure below shows the small-signal equivalent circuit of a voltage amplifier. The open-circuit output of the supply v10 V (i) Determine the resistances if the regulation should be less than 5 % when 1 W is being delivered to a resistive load connected across vo in the mid frequency range. If the low frequency 3dB point is at 1 kHz and the high frequency 3 dB point is 100 kHz what are the capacitance values. Assume the circuit...
Problem: (1) For the single phase AC circuit shown below, calculate voltage phasor across the load showing amplitude and phase angle for a (reference) source voltage of 220 V and 0 degree. Also, attach your MultiSIM simulation showing the voltage amplitude across the load. Compare simulated and calculated values. Load Bus of an Industrial Facility (equivalent of Electrical Motors and power factor correction Cap in parallel). R1 L1 Vload-? 1 3.0ohm 2 10mH 3 4.7mH 4 20ohm R2 +220V, 60...