Please explain Refer to Figure 590. R1=3 Ohms R2=1/1 Ohms and C=4 Fd. Find the transfer function V2(s)/V1(s) = A/(s^2+Bs+D). Answers: A,B,D. ans:3
Please explain Refer to Figure 590. R1=3 Ohms R2=1/1 Ohms and C=4 Fd. Find the transfer...
Please do 765 Hamad Alrobayan 1dvn the system in Fig 765 with corresponding asymptotic Bode-gain plot. 3 gldB-9 nput amplitude at w2 is A and output amplitude is B. Find B Only one numerical answer is required. ans:3 dB, w1-4 rad/sec, w2-12 rad/sec, and A- 3 volts. The system 1 Hamad Alrobayan R4-6 (al1 ohms) and 577) Refer to Figure 577. R1-2 R2-5 R3-9 C1- Fd C2-9 Fd. Determine 9 the transfer function v2 (s)/v1 (s)As/(s 2+Bs+D). Answers: A, B,D....
1609) Refer to Figure 1609 with an ideal opamp. R1=2.9k ohms, R2=1.8k ohms, Power supply input voltages are V1=1.7 volts, V2=1.7 volts. Also note R3=1.7k ohms. Determine Vo. Only one answer is required. ans:5 Figure 1609
598) Refer to Figure 592. [R1,C1,S1,P1 ]- [16,13,0,1 [R2,C2,S2,P2]1 7, 8,1,0]. Determine ans:6 A,B,C, D, E,F. Figure 592 Z2 Z1 V1 (s) V2(s) R R1 I R2 or not present V2(s) DsEsF V1 (s) DsEsV2(s) V1 (s) AsBs C As +BsC A zero or one B& C- one [R1,C1,S1,P1]-[ohms, farads, series, parallel for Z1 R2,C2,S2,P2]-[ohms, farads, series, parallel] for Z2 zero means NO or NOT PRESENT or DOES NOT APPLY series or parallel- one means series or parallel combination if...
1. Derive the transfer function for the low pass filter shown in Figure 1. The general form is: H(s) w? W. s2 + +w? 2. Determine the component values by equating the derived transfer function to the general transfer function to meet the following specifications: a) fc = 2 kHz, and Q = 0.7071 for a Butterworth response. HH Vi R R C2 HHI Figure 1. Low-Pass Filter
Consider the circuit in Figure 7. Show that the transfer function T(s) = Vz(3)/V (s) has a low-pass gain characteristic. Select element values so the passband gain is 4 and the cut off frequency is 100 rad/s. os W R1 R2 Vis) V2(8) Figure 7
R2 R1 1,C2 C1 Vo vin + The figure shows the circuit diagram of an active filter using an ideal operational amplifier. The values of the circuit components are as follows, R1 - 960 ohms, R2 - 2600 ohms, C1 - 1.0 microfarads, C2-0.8 microfarads. The magnitude of the circuit gain vo/vin at a frequency of 200Hz is determined as nearest to which of the following answers:- 00 O 0.7 O 1.5 22 3.3
1. By using an analog filter with a Butterworth response of order 3, design a digital IIR low pass filter with 3-db cutoff frequency 2c 0.6TT a) b) c) Evaluate the transfer function of the analog filter (10marks) Skecth the block diagram of transfer function (5 marks) Plot the magnitude response of the filters. (5marks) 1. By using an analog filter with a Butterworth response of order 3, design a digital IIR low pass filter with 3-db cutoff frequency 2c...
Find the transfer function H(s) = Vo/Vs for the circuit in Fig. 1,2 and 3. Describe the filter characteristics. Fig. 1. An active filter Fig. 2. Another active filter. Fig. 3. Yet another active filter. R2 R1
please help ASAP with the quiz R1 3 R2 R3 Find Is (round to one decimal place) Vs= 2. R1= 36 R2=5 R3=14 M Gmail QueSLIUITO WO- "11" is a current Branch Mesh 1 pts Question 9 (Hint: Voltages in series can be added together if the voltages are aiding each other. The net voltage will be their sum. If the voltages are opposing then the net voltage is their difference) V1= 2 ohms V2= 7ohms R1= 18ohms R2= 20ohms...
the circuit shown, 1. Find the transfer function H(jw) 2. If R R2 12 and L1mH, plot the frequency response (both the gain and the phase shift) of the circuit; 3. Identify the type of filter the circuit is, and state the break (cut off) frequency. R1 v(t)Vcos(ut) L1 R2 Figure 1 the circuit shown, 1. Find the transfer function H(jw) 2. If R R2 12 and L1mH, plot the frequency response (both the gain and the phase shift) of...