An input signal given by Vin(t) = 3 cos(150 nt+ 20°) + 3 cos(5000 at - 45°) [V] is applied to the low pass RL filter shown below. 160mH Vin Vout The output signal will have the form: Vout(t) = Vị cos(150 a t + D1) + V2 cos(5000 t t+ D2) [V] The inductor has a value of L=160 [mH] a) Calculate the break frequency fg in Hertz for this filter. Record your value on the answer sheet in the space marked la). b) Calculate the value of Vị in the output expression above. Record this value on the answer sheet in the space marked 1b) on the answer sheet. c) Calculate the value of d1 in the output expression above. Record this value on the answer sheet in the space marked 1c) on the answer sheet. d) Calculate the value of V2 in the output expression above. Record this value on the answer sheet in the space marked 1d) on the answer sheet. e) Calculate the value of D2 in the output expression above. Record this value on the answer sheet in the space marked 1le) on the answer sheet.

An input signal given by Vin(t) = 3 cos(150 nt+ 20°) + 3 cos(5000 at - 45°) [V] is applied to the low pass RL filter shown below. 160mH Vin Vout The output signal will have the form: Vout(t) = Vị cos(150 a t + D1) + V2 cos(5000 t t+ D2) [V] The inductor has a value of L=160 [mH] a) Calculate the break frequency fg in Hertz for this filter. Record your value on the answer sheet in the space marked la). b) Calculate the value of Vị in the output expression above. Record this value on the answer sheet in the space marked 1b) on the answer sheet. c) Calculate the value of d1 in the output expression above. Record this value on the answer sheet in the space marked 1c) on the answer sheet. d) Calculate the value of V2 in the output expression above. Record this value on the answer sheet in the space marked 1d) on the answer sheet. e) Calculate the value of D2 in the output expression above. Record this value on the answer sheet in the space marked 1le) on the answer sheet.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter23: Resistive-inductive-capacitive Series Circuits

Section: Chapter Questions

Problem 1PA: You are an electrician working in a plant. A series resonant circuit is to be used to produce a high...

See similar textbooks

Similar questions

The positive values of "K" and "a" so that the system shown in the figure below oscillates at a frequency of 2 rad/sec respectively are K(s+ 1) R (s)- C(s) (s + as? + 2s + 1) O 1,0.75 O 1,0.66 2,0.66 2,0.75
Find transfer function Eo(s)/Ei(s) Do it my complex impediance method and show diagram Give right answer do each steps
We will use magnitude comparator and a Quad 2-to-1 MUX. How ?
3- Analyze the system shown below to find the output waveform, Vout, assume the capacitor voltage value is -1.0 V at t-0 and RC-1 msec. -0.5 -1.0 V(1), V 1.0 0.5 R $ AAA f, msec
A low-pass filter consists of a 114 μF capacitor in series with a 158 resistor. The circuit is driven by an AC source with a peak voltage of 4.60 V. ▼ What is Vc when f = fc? Express your answer with the appropriate units. Vc = Submit Part C Vc = Submit What is Vc when f = fc? Express your answer with the appropriate units. ▾ Part D Value Vc = Request Answer Submit μÅ Value Request Answer What is Vc when f = 2fc? Express your answer with the appropriate units. HÅ Units Value Request Answer Units Units P ? ? ?
You are an electrician working in a plant. A series resonant circuit is to be used to produce a high voltage at a frequency of 400 Hz. The inductor has an inductance of 15 mH and a wire resistance of 2 . How much capacitance should be connected in series with the inductor to produce a resonant circuit? The voltage supplied to the circuit is 240 V at 400 Hz. What is the minimum voltage rating of the capacitor?
A coutimuous-time sinusoid has frequency 2 = 70r rads sec and is sampled at a sampling interval of T=0.01 sec. What is the frequency of the discrete-time sinusoid? %3D Oa =70z rads ses OL- 0.7z rada sec Oce= 7x rads sec Od0= 7000r ads see
36. An RLC series circuit has R= 42 2, XL = 80 2, and XC = 24 N. What is angle theta? a. 62.33° - b. 36.87° c. 53.13° d. 59.74°
An RC low-pass filter is shown in the figure. Its purpose is to attenuate higher frequencies while allowing lower frequencies to pass through. A 960-Hz sine-wave signal with rms amplitude of Vrms = 1.9 V is fed into the filter. The values of the components are R = 120 Ω and C = 0.64 μF and Vout-rms = 1.724 V. By what angle, in degrees, does the output voltage lag the input voltage?
The circuit shown in the given figure is an active filter. Assume C=120 pF. Ro-184 kohm. R₁33 kohm, and R2 = 60 kohm. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. 4-5 www 14 www R₂ 2 ww 644 Determine the cutoff frequencies. The cutoff frequencies w₁ and 2 are 896 106 rad/s and 5.55-105 red/s, respectively. HE -
10) What is the RC Time Constant for the following circuit?
The following is a band-rejection filter constructed from a series RLC circuit. ww R V C where Vi is the input voltage and Vo is the output voltage. Pass Band Gain 0.707 Reject Band Pass Band # TH Given R 2 Ohms, L=1H, and C-4F, what is the center frequency (f.) of this filter? 0.08 Hz 005 Hz O2 Hz O 0.68 Hz