Q5. Figure Q5 shows an RL filter circuit. R Vin Vout Figure Q5: RL filter (a) What is the frequency transfer function H(w) for this filter? (b) Is it a low-pass or a high-pass filter? (c) Taking the values R = 400 N and L = 2.0 mH, at what frequency v (in Hz) is the filter power transmission -3 dB of its maximum value? %3! (d) At what frequency v (in Hz) is the filter power transmission -40 dB of its maximum value? (e) Determine the impulse response function h(t) for this filter. (f) Hence, or otherwise, determine the output vout(t) for a rectangular pulse input Vin(1) = vorect(t/T) (g) Sketch the form of vout(t) with the values vo = 5 V and 7 = 5.0 us, inserting appropriate values on the time and voltage axes.

Q5. Figure Q5 shows an RL filter circuit. R Vin Vout Figure Q5: RL filter (a) What is the frequency transfer function H(w) for this filter? (b) Is it a low-pass or a high-pass filter? (c) Taking the values R = 400 N and L = 2.0 mH, at what frequency v (in Hz) is the filter power transmission -3 dB of its maximum value? %3! (d) At what frequency v (in Hz) is the filter power transmission -40 dB of its maximum value? (e) Determine the impulse response function h(t) for this filter. (f) Hence, or otherwise, determine the output vout(t) for a rectangular pulse input Vin(1) = vorect(t/T) (g) Sketch the form of vout(t) with the values vo = 5 V and 7 = 5.0 us, inserting appropriate values on the time and voltage axes.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

See similar textbooks

Related questions

Q: Q5. Figure Q5 shows an RL filter circuit. R Vin Vout Figure Q5: RL filter (a) What is the frequency…

Q: A high-pass filter is to be designed for speech signal processing. The cutoff frequency is 3.4kHz…

Q: Name four types of ideal filters and sketch their transfer functions.

A: Ideal Low Pass Filter: This filter allows passing only low frequencies and stops high frequencies.…

Q: a)Draw a simple, single resistor, single inductor low pass filter. What is the formula for the…

A: Low pass filter allow low frequency from 0 Hz to cut off frequency and block another high frequency.…

Q: 3. A band-reject filter may be designed by combining a low-pass filter and high-pass filter with a…

A: Consider all the given values.

Q: What is a criteria to identify low pass filter, high pass filter and bandpass filter for a pole zero…

A: In the given questions we need to classify different type of filter based on there pole zero…

Q: Consider the current-in, voltage-out active filter circuit below. Assume erational amplifier is…

Q: Cunsider: 250,000 H(s)= G.) what kind of filter i3 this? what is the center frequency of this…

Q: Write the transfer function for the RC high-pass filter of Figure 2. First write it in terms of jw…

A: The transfer function of RC high pass filter needs to be obtained and the cut off frequency of the…

Q: For R1=3k, C=0.1uF, and R2=12k, what is the type, passband gain and corner frequency of this filter?…

A: Filters are the device used to obtain the desired part of the signal or remove the unwanted part of…

Q: Draw a notch filter circuit?

Q: A three-term averaging filter is applied to the x[n] values in Table 1. Assume that prior to n = -2,…

A: Given:A three term averaging filter, in which prior to n=-2, x[n]=0, we need to write the equation…

Q: 2013 paper Q5. Figure Q5 shows an RL filter circuit. R Vin Vout Figure Q5: RL filter (a) What is the…

A: Note: As per our company guidelines we are supposed to answer ?️only 3️⃣ sub-parts. Kindly repost…

Q: 1. Design 6th order Butterworth band-pass filter with cut-off frequency is 5KHz and 8KHz and pass-…

Q: Design a series RLC bandpass filter with cutoff frequencies fc₁ = 1 KHz,fc2= 20 KHz, using a 100…

A: cutoff frequencies for bandpass filter are fc1 =1 kHz fc2 =20 kHz Series RLC circuit elements , R…

Q: Cunsider: 250,000S H(s)= a.) what kind of filter is this? what is the center frequency of this…

A: Part (a): Consider the given transfer function, Hs=250000ss2+100s+250000…

Concept explainers

Filter

A filter is a device or process which removes some of the unwanted features or components like frequencies from a signal in signal processing. The feature of filters is the complete or partial suppression of some part of the signal, and filtering is a class of signal processing. This most often means removing some frequency bands or some frequencies. In the frequency domain, the filters do not exclusively act, especially in the image processing field many other targets for filtering exist. Without having to act in the frequency domain, the correlations can be removed for certain frequency components and not for others. The filters are widely used in electronics and telecommunication, in television, radio, radar, audio recording, music synthesis, control systems, computer graphics, and image processing.

Question

Q5. Figure Q5 shows an RL filter circuit.
R
Vin
L.
Vout
Figure Q5: RL filter
(a) What is the frequency transfer function H(w) for this filter?
(b) Is it a low-pass or a high-pass filter?
(c) Taking the values R = 400 N and L = 2.0 mH, at what frequency v (in Hz) is the filter
power transmission -3 dB of its maximum value?
(d) At what frequency v (in Hz) is the filter power transmission -40 dB of its maximum
value?
(e) Determine the impulse response function h(t) for this filter.
(f) Hence, or otherwise, determine the output vout(t) for a rectangular pulse input
Vin(t) = vorect(t/T)
(g) Sketch the form of vout(t) with the values vo = 5 V and 7 = 5.0 µus, inserting appropriate
values on the time and voltage axes.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps with 3 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

a. Suppose a first order high pass filter has a cut-off frequency of 10 kHz and a capacitor of 2.5 nF. What is the value of the resistor? b. For the filter in (a), what is the gain of the filter at 100 Hz? Express you answer in decibels. (Hint: this requires hardly any calculation.)
Answer the following wuth illustration and solutions. 1.) A second-order band pass filter is to be constructed using RC components that will only allow a range of frequencies to pass above 500Hz and below 1.5kHz. Assuming that both the resistor have values of 1kohms, calculate the values of the two capacitors required. Find also the center frequency of the two frequencies. This is the example/guide that might help.
How did they get c) d) e) f) g)?
QUESTION 4 Q4.1 Show how can a series RLC can be used as a crude band-reject filter? Q4.2 How would you determine the centre frequency for this filter? Q4.3 Show how a graph of H(jo) versus oo for this filter will look like. Q4.4 In the graph, show the possible locations of the centre frequency, and the two cutoff frequencies. Justify why you chose these locations in the graph.