DISCUSSION: 1- Comment on your result. 2- Given the parallel network of Fig. (7)composed of "ideal" elements: a. Determine the resonant frequency fp. b. Find the total impedance at resonance. c. Calculate the quality factor, bandwidth, and cutoff frequencies fl and f2 of the system. RESONANT CIRE IL Ic L R, 310 ΚΩ 31 mH O antena de microfon μF Vc I = 10 mA Source Fig(7) "Tank circuit" P
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- P3 For the series RLC circuit given in Figure 4 for Vs=10sinot R=2.2 2, L=100 uH and C=1000 uF a) Obtain the resonant frequency and the half-power frequencies. b) Calculate the quality factor and bandwidth. c) Determine the amplitude of the current at 60, 6 and 02. d) Plot the current amplitude versus frequency e) Use LTSPICE to plot frequency response.The cutoff frequencies of a series resonant circuit are 5400 Hz and 6000 Hz. a) Find the bandwidth of the circuit. b) If Qs is 9.5, find the resonant frequency of the circuit. c) If the resistance of the circuit is 2 2 find the value of XL and XC at resonance. d) Find the value of L and C at resonance.b. Choose the suitable choice foL ping of the following sentences 18 Maces 1. In order to tune a parallel resonant circuit to a lewer frequency the capacitor must a. Be increase. b. Be decrease. . BeZero. Remain the same 2. Ina very low frequency a series resonance behaves as Imost purely .......... circuit a Resistive. b Capacitive. . Inductive. d. Inductive and capacitive 3. Real part of the total impedance at resonance for complicated AC circuit is a. Positive Value. b. Zero Value. Negative Value. d. Complex value 4. For admittance locus the maximum obtained power factor is depend on a Maximum current b. Maximum voltage . Minimum power d. Minimum angle 5 Any non sinusoidal symmetrical waves are basically composite from fundamental wave plas .. of harmonics waves. aodd b. even . odd even d odd of even 6. If we append an inductance in series to an RL series circuit the time constant will be a Increases b. Decreases. Increases and Decreases. Increases or Decreases 7. The double energy…
- 7. a. The bandwidth of a series resonant circuit is 200 Hz. If the resonant frequency is 2000 Hz, what is the value of Q. for the circuit? b. If R = 22, what is the value of X₂ at resonance? c. Find the value of L and C at resonance. d. Find the cutoff frequencies.BW mssege signai COTier. i) Draw the modulated signal in ii) find the bandwidth of the modulated signal ii) What is phase reversal and we could avoid it? frequency domain, (AM)QUESTION 3 a) As a student, you are required to design a parallel resonance circuit with a resistance of 3 kQ. Thus, several parameters such as bandwidth, resonant frequency, value of capacitor and inductor and quality factor must also be considered. Please show the parameters in order to obtain half power frequency at 94 kHz and 100 kHz for the designed circuit.
- of it H PAGE 29 EEI-ELECTI CKTI FINALCOVERAGE TOPIC AND ASSIGNMENT SERIES RESONANCE (R, L&C CKTS) WHERE: I= CURRENT IN AMPS V:IMPRESSED VOLTAGEN VOIS aL R= RESISTANCEE IN OH MS L= INDUCTANCE IN HENRY C CAPACITANCE IRLFARAD FIGURE RESONANT FREQUENCY FORMULA HZ ASSIENMENT PROBLEM: AN IMPEDANCE COIL HAVING ARESISTANCE AND INDUCTANCE OF 20 AND I.5 MILLLHENRY RESPECTIVELY CONNECTED IN SERIES WITH A CAPACITOR. CALCULATE THE VALUE OF CAPACITANCE IFTHE CKT WILL OPERATE AT RESONANCE.THE RESONANT EREQUENC(to 15 4.5 KHZ.A coil of inductance 15 mH and resistance 75 is connected in series with a 25 9 resistor and a variable capacitor. The combination is connected across a voltage supply of magnitude 80 V and frequency 800 Hz. Determine: a. The value of capacitance to tune the circuit to resonance b. The quality factor of the circuit c. The bandwidth of the circuit d. The exact values of the half power frequencies. e. The voltage across the coil at the upper and lower cut-off frequenciesHIGH VOLTAGE(Can you explain in detail? Thank you) Q1 : A 100 kVA, 50 Hz, 230/50 kV testing transformer has an 10% leakage reactance and a 2% winding resistance. A cable of capacitance 100 nF is to be tested at 300 kV using this transformer as part of the resonance circuit. Determine the value of the inductance (with a Q-factor of 20) required to obtain resonance and the value of the input voltage required to obtain the required voltage.
- Q.5: b. Choose the suitable choice for nine of the following sentences. 1. In order to lune a parallel resonant circuit to a lower frequency. the capacitor must........ > Be decrease. a. Be increase d. Remain the same. e. Be Zero. 2 In series as well as parallel resonance circuit, increase in resistance would cause the bandwidth is...... a. Increase in both circuits. (h. Decrease in series eircuit and increase in parallel circuit. d. lucrease in series circuit and decrease in parallel circuit. circuit. e Decrease in both circuits. 3. In a very low frequency a series resonance circuit behaves as almost purely a. Resistive. c. Inductive. d. Inductive and capacitive. b. Capacitive: 4. Real part of the total impedance at resonance for complicated AC circuit is a. Positive Value. b. Zero Value. 5. For admittance locus the maximum obtained power factor is depend on: a. Maximum current b. Maximum voltage c. Minimum power 4. Minimum angle 6. Any non-sinusoidal symmetrical waves are basically…where R = 4 Ohm, L 40 mH and C-30 nF. Figure Q1. Electrical circult of the given question a) Derive the impedance and admittance functions in terms of frequency. b) Calculate the numerical values of the resonant frequency, the dynamic impedance and the bandwidth.An impedance coil having a resistance of 20 ohms and connected in parallel with a 0.4-uf capacitor. Calculate the resonant frequency (a) taking the resistance into account, (b) neglecting the resistance. P 190 D. - on