How many corner frequencies are in the following sinusoidal transfer function? 10(jw + 100) (jw + 1) 17 - G(jw) = O A) There are not correct answers B) four C) three O D) five E) two
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- IN A SERIES RLC CIRCUIT DRIVEN BY SINUSOIDAL INPUT SIGNAL, THE PHASE BETWEEN THE CURRENT AND THE INPUT VOLTAGE IS PLOTTED IN THE NEXT GRAPHAT FREQUENCY OF THE DRIVING (INPUT) VOLTAGE F= 1OKHZ THE PHASE BETWEEN THE CURRENT AND THE INPUT VOLTAGE IN RADIANS IS ABOUT: 1.6 1.2 0.8 0.4 -0.4 -0.8 -1.2 -1.6 1 10 100 1000 Frequency (f), kHz O g. 0.8 O b. 0.4 O c. 1.57 O d. 3.2 O e. zero pe. (0) aseyd21) 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+jw0.5Determine the critical frequency in this Figure. Please solve it step by step
- 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 kHz3. Find Idc, Vdc and the capacitance that will force the Vr(pp) to 3mV. Draw the output waveform across the capacitor. Fin=60HZ. DC output I DC without AC input DC with сарacitor сарacitor D Si RL 800 ohms 220Vrms a = 15:2 ww 00000Describe what happens to the current in this RC series circuit as the frequency increases. Explain in general terms why the observed change should occur.
- Square law circuit produces Standard AM without Harmonics O DSB-LC with harmonics DSB-SC with harmonics O DSB-LC without harmonicsShort Problem: A series RLC circuit consist of R= 2,6002, L= 91mH and C=18.7 pF. The applied voltage of the circuit is 100V. Find the resonant frequency in kHz. Note: Follow this reminder carefully. Compute to the nearest 4 decimal places. No Scientific notation. Do not round off in the middle of calculation. Use stored values. Write the numerical values only. No units in your final answer. Spaces are not allowed. Excessive number of decimals as compared to the required number of decimals may result to an incorrect answer.A resistor of resistance R=1000 2 is maintained at 17 °C and it shunted by 100 µH inductor. Determine the rms noise voltage across the inductor over a frequency bandwidth of: i) 15.9 kHz Ans: 182 x10-⁹ volt Ans: 9.22 x10-8 volt 11) 159 kHz iii) 1590 kHz Ans: 2.34 x10-6 volt
- What happens to the impedance for The frequencies between 1Hz-40KHz for RLC series parallel combination. Justify your answer.O c.2 VA Q= 2000 VAR, pf = 0.9 (leading). The power in complex form is: %3D Select one: O a. 2000+ j41.29.8 VA O b.4129.8- j2000 VA Oc. 2000- j4129.8 VA O d. 4129.8+ j2000 VAA 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