Draw the magnitude plot and phase plot for the following transfer function. jw + 10 H(w) = jw(jw + 5)2
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Q: Draw the magnitude plot and phase plot for the following transfer function. jw + 10 H(w) = jw(jw+…
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- 21) Looking at the following circuit, select the correct Transfer fucntion. Please recognize that the answers are expressed in rectangular coordinates and not in magnitude, making this an easy problem. 21). ww w For the circuit in the given figure, assume L = 0.5 H and R= 200 kohm. ele O Vout (jw) Vin (jw) 200 k Vin R Vout –200 k+jw0.5 Vout (jw) ju0.5 200 k- jw0.5 Vin (jw) O Vout (ju) Vin (jw) - jw0.5 200 k– jw0.5 Vout (jw) 200 k Vin (jw) 200 k+jw0.5Q9 Given that you have found the following transfer function for a circuit, H(jw), what is the magnitude at very high frequencies? (If your answer contains w, you may simply type "w" instead.) J (jw): 0 jwRC (1-w²LC)+jwRC Save Answer Las 010 Given that you have found the following transfer function for a circuit, H(jw), what is the phase (in radians) at very low frequencies? (If you answer contains π, you may simply type "pi" instead) pi/2-tan^-1(wRC/(1-(w^2)*LC) Save Answer LáRepresent (-99)10 in a) Sign Magnitude form and b) Sign 1’s Complement form. c) Sign 2’s Complement form.
- Find the Q of a circuit when the resonant frequency is 4.468 MHz, the inductance is 47 micro henrys and the resistance is 180 ohms in parallelHow many corner frequencies are in the following sinusoidal transfer function? 1 19 - G(ja) = (10 – jw)(100 + jw)(jw + 1) O A) There are not correct answers O B) four C) two O D) three O E) five1-Find the center frequency and the two cutoff frequencies by changing the frequency until Vo becomes 0 and 0.707Vi respectively. 2- graph vo/vi and Theta against frequency
- The inductance coil in a series resonant circuit is 0.2 H and the resistance coil is 50 Q. What is the capacitance value in the circuit that causes resonance at a frequency of 150 KHz? The source produces an emf of 100 V r.m.s.Plot both magnitude and phaseA resistance of 100 and a capacitance of 100 µF is connected in series to the parallel combination of a 20-0 resistor and a 15-mH inductor. The circuit is energized by a 120 Vac, variable frequency supply. Derive the formula for resonant frequency and use it to find the resonant frequency.
- H.W: A resistor of resistance R-1000 2 is maintained at 17 °C and it shunted by 100 uH inductor. Determine the rms noise voltage across the inductor over a frequency bandwidth of: i) 15.9 kHz Ans: 182 x109 volt ii) iii) Ans: 9.22 x10-8 volt Ans: 2.34 x10-6 volt 159 kHz 1590 kHzA resistance of 10 Q and a capacitance of 100 µF is connected in series to the parallel combination of a 20-2 resistor and a 15-mH inductor. The circuit is energized by a 120 Vac, variable frequency supply. Derive the formula for resonant frequency and use it to find the resonant frequency.A coutimuous-time sinusoid has frequency 2 = 70r rads sec and is sampled at a sampling interval of T=0.01 sec. What is the frequency of the discrete-time sinusoid? %3D Oa =70z rads ses OL- 0.7z rada sec Oce= 7x rads sec Od0= 7000r ads see