For the circuit shown in the figure determine the transfer function Vo / Vi = H(s) → H(jw) and decide on the type of the filter by evaluating it at w = 0 and w = o a) State the type of this filter b) Find the cut-off frequency given R =2kn , L = 2 H, C= 1.5µF
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- The magnitude plot in the figure represents the transfer function of a preamplifier. Identify the correct H(s). Take C= 2282. H (dB) 40 20 5 Multiple Choice о H(s) = H (s)- H(s) = H(s) = 50 20 dB/decade 2282(8+500) (8+50)(+22820) 2282(8+50) (8+500)(a +22820) 22820(8+50) (8+500)(8+2282) 22820(8+500) (8+50)(8+2282) 500 20 dB/decadeGiven the series RLC circuit. If R=-10 ohm, find the values of L and C such that the network will have a center frequency of 100 kHz and a bandwidth of 1kHz. The output of the circuit is taken across series LC. Select one: O a. 1.59 mH and 1.59 nF O b. 1.59 mH and 1.59 uF Oc 1.59 uH and 1.59 uF O d. 1.59 H and 1.59 nFThe 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 -
- The below 4 figures are the angle of the transfer function of passive filters. Phase (deg) -45- Phase (deg) (Cep) sid 45 10 10 Frequency (radisec) 10² Frequency (rad/sec) Figure-1 shows the frequency response of Figure-2 shows the frequency response of Figure-3 shows the frequency response of Figure-4 shows the frequency response of 4) ( + 4 10 10" 10The below 4 figures are the angle of the transfer function of passive filters. 90 Phase (deg) 45 -45- 00 -90 10 -45 -90 Phase (deg) 10¹ 90 45 -45 -90L 10² 90 10 10² 10 10³ Frequency (rad/sec) 10¹ 10² Frequency (rad/sec) Figure-1 shows the frequency response of Figure-2 shows the frequency response of Figure-3 shows the frequency response of Figure-4 shows the frequency response of 10 10 10 104. Using the given waveform, designa filter circuit V/VỊ -20 dB/decade A, -40 dB/decade fOH
- HW: Determine Zin, Zo and the small-signal voltage gain. P type C₁ C₂ Vo D Vin Rs RD RL SINT 4k 2k 4k Zin -5V Zo +5V = kp 1mA/V2 Vr = -0.8V λ=0 Bobin painleido XL=SL = jwL Frequency Response Sm= 2 kp (VSG₂Q +VT) rd = 1 A IDQ ID= kp (VSC₂+V+) ² notion Xc = Copacite 1 (WC 345Given the series RLC circuit. If R=10 ohm, find the values of L and C such that the network will have a center frequency of 100 kHz and a bandwidth of 1kHz. The output of the circuit is taken across series LC. Select one: O a. 1.59 mH and 1.59 nF O b. 1.59 mH and 1.59 uF 1.59 H and 1.59 nF 1.59 uH and 1.59 uF O C. O d.How & Find the transfer function, Center frequency, and bandwidth in figure. what type of filter?, Q, H(jWo), H(jo), H(jas) How:- repeat the previous H-W in the figure below. R 7 Vi + REVO RL
- A tank circuit contains a capacitor and an inductor that produce 30 2 of reactance at the resonant frequency. The inductor has a Q of 15. The voltage of 277V is connected to the circuit. What is the total circuit current of the resonant frequency? Show your work. a) IT= 0.615 A b) IT= 0.423 A c) IT = 0.846 A d) IT= 0.321 AFor the given circuit below R =4.7kohm , L = 22 mH C =33nF Determine: a) Determine the upper cutoff frequency and the lower cutoff frequency in kHz. b) Determine the center frequency in kHz c) Does this circuit function as a band-pass or a band-stop filter?12) In a series resonant RLC circuit, what is the impedance at resonant frequency? 12) A) Determined solely by de resistance B) The maximum impedance value C) Zero D) Infinity