Q5. Calculate the resonance frequency (w,) for the circuit shown. R3=500 N L=0.1 H R2=1 N C=0.1F* R1=500 Q Zljw )
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- R Vin Vout 1. Find H(w) = Vo/Vi. 2. Derive an expression for the cutoff frequency. 3. Calculate the output voltage at frequencies: 50 Hz, 100 Hz, 150 Hz, 200 Hz, 300 Hz and 1KHZ. Assume Vin=4 v (peak-to-peak), R=1.1 kN and C=1uF. 4. Calculate the cutoff frequency and the output voltage at this value.1. Derive the lower cut-off frequency for the basic RC high-pass circuit in Figure 1. R, Figure 1.An RLC series circuit is connected to a 20 V variable frequency supply as shown in Figure 2. Determine the following: O,SAF 202 20mH 20V Figure 2 Resonant frequency in Hertz. (b) Q-factor (c) Lower and upper half power frequencies in Hertz. (d) Bandwidth in Hertz and radians per second. (a)
- LAB 1 Questions R Vout Vin 1. Find H(w) = Vo/Vi. 2. Derive an expression for the cutoff frequency. 3. Calculate the output voltage at frequencies: 50 Hz, 100 Hz, 150 Hz, 200 Hz, 300 Hz and 1KHZ. Assume Vin=4 v (peak-to-peak), R=1.1 k and C=1uF. 4. Calculate the cutoff frequency and the output voltage at this value.Design (only the block diagram) an Armstrong indirectly FM modulator to generate an FM carrier with a carrier frequency of 98.1MHz and df (frequency deviation) =75kHz.A narrowband FM generator is available at a carrier frequency of 100 KHz and a (frequency deviation) df=10Hz.The stockroom has an oscillator with an adjustable frequency in the range of 10 to 11MHz.There are plenty of Frequency multipliers.Frequency bands: What are low and medium frequency bands? What are the difference of the 2 and what are they used for?
- At two distinct places, a signal is measured. At the first point, the power is P1, and at the second point, it is P2. The decibel level is zero. This denotesCan we obtain a plot of XL against frequency f experimentally?7. What is the frequency in resonance condition? a) Minimum b) Maximum c) Cannot be determined d) Zero
- 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.For the given circuit below, the RF generator is set to EXT MOD, 500kHz. RF GEN 500KHZ R1 2702 R2 10K ELECTRONIC VOM 0.0047pF a) What is this circuit? b) Is there an RF signal across R2? c) Draw the expected signal waveform across R1 d) Draw the expected signal waveform across R2 e) What is the expected frequency of the signal across R2?Identify all the TRUE statements below. A) At resonance, there is no voltage drop across the individual reactive elements of the circuit._ B) At resonance, there is no net voltage drop across all the reactive elements of the circuits. C) To minimize the impact of capacitance in an AC series circuit, set its value close to zero. D) To minimize the impact of inductance in an AC series circuit, set its value close to zero. E) At resonance, Xc and XL are always zero. F) At resonance, Xc = X_ and can be very large. G) Decibels on the magnitude axis of the Bode Plot represent voltage gain (or loss). H) Decibels always represent power gain (or loss) which is the square of the voltage gain (or loss)._