(a) Signals x1(1) = 10* rect (10*t) and x2(t)= 8(1) are applied at the inputs of the ideal filtersH1 (0) = rect (a/40,000T) and H2() = rect (o/20,000r) as in Figure 2(a). The outputsyı(t) and y2(t) of these filters are multiplied to obtain y(t) = yl (t).y2(t)x:(t)y:(t)Hi(w)y(t) = y:(t).y2(t)x2(t)Y2(t)H2(w)Figure 2aii.Sketch H1(o) and H2(@).

Answered: Image /qna-images/answer/91573d59-9571-4d65-909c-7e18609c2ec8.jpg

(a) Signals x1(1) = 10* rect (10t) and x2(t)= 8(1) are applied at the inputs of the ideal filters %3D H1 (m) = rect (o/40,000T) and H2() = rect (o/20,000r) as in Figure 2(a). The outputs yı(t) and y2(1) of these filters are multiplied to obtain y(t) = yl (t).y2(t) X:(t) y:(t) Hi(w) y(t) = y:(t).y2(t) x2{t) y:(t) H2(w) Figure 2a i. Sketch H1(@) and H2(@).

(a) Signals x1(1) = 10* rect (10t) and x2(t)= 8(1) are applied at the inputs of the ideal filters %3D H1 (m) = rect (o/40,000T) and H2() = rect (o/20,000r) as in Figure 2(a). The outputs yı(t) and y2(1) of these filters are multiplied to obtain y(t) = yl (t).y2(t) X:(t) y:(t) Hi(w) y(t) = y:(t).y2(t) x2{t) y:(t) H2(w) Figure 2a i. Sketch H1(@) and H2(@).

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

Similar questions

An op amp-based low-pass filter with a cutoff frequency of 250 Hz and a passband gain of 4 is shown in Figure. If the capacitor has a capacitance of 20 uF (micro Farad). What are the values of R1 and R2 in Ohms?
This is a practice question from my Introduction to Circuits course. What is the process for solving this? Thank you for your assistance.
digital signal processing
Please do not copy others' solutions. I really need this to learn more.
3. Active Analog Filter Topologies You already know from our class discussions that Circuit 1 is an active analog Low-Pass Filter For each of the remaining three circuits, state whether the circuit will function as a low-pass or high-pass filter. Each of your answers must be accompanied by a brief explanation and justification incorporating the frequency dependent characteristics of the reactive circuit elements. That is you should look at the asymptotic impedance of the L and C if the input signal the frequency is very low or very high. Sketch the expected Bode plot for 20 log(Vo/Vs) as a function of log (f) labeling the corner frequencies. No equations are required! R2 R2 R2 R2 R1 R1 R1 Vs Vs o W- Vs Vs Vo Vo Vo Vo Circuit 1 Citcuit 2 Circuit 3 Circuit 4
Please solve with work
Obtain the parameter Z12
Topic: SERIES FILTERS Find the values of Vr, Ic, Ir, C, & ZT. + VR - 35 ohms IR + 7V 12V/60HZ 1. Ic
help with all parts of the question thanks
I need the answer quickly
Asap plzz
The frequency response H(en) of a linear time -in variant system is giren - in e j22 1. H (ein) = e %3D e a) Ex press the in Aut/output relatkonshie with difference equations. b) Is the system casual ? -la -M