1 = 10 mA 10 kN Source | For the circuit above determine the resonant frequency, fp fp = %3D
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- H.W: A resistor of resistance R=1000 2is maintained at 17 °C and it shunted by 100 uH inductor. Determine the ms noise voltage across the inductor over a frequency bandwi dth of: Ans: 182 x10° volt Ans: 9.22 x10 volt Ans: 2.34 x10 volt i) 15.9 kHz ii) i) 159 kHz 1590 kHzH.W: 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: Ans: 182 x10-9 volt i) ii) iii) 15.9 kHz Ans: 9.22 x10-8 volt Ans: 2.34 x10-6 volt 159 kHz 1590 kHzA resistor of resistance R=1000 Q 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: Ans: 182 x109 volt i) ii) 15.9 kHz 159 kHz Ans: 9.22 x10-8 volt 111) 1590 kHz Ans: 2.34 x10-6 volt
- In the circuit of Figure, the magnitudes of V₁ and V at the resonance are twice L C that of VD. The inductance of the coil for R* 50 Hz is 520⁰ VR www. 502 Vc ell V₁Calculate the bandwidth in kHz Blank 1 and an inductor's Q Blank 2 at100MHz. It has an inductance of 6mH and a series resistance of 1.2k2.Calculate the resonant frequency of the median resonator. The value of D2= 6.05 cm, D1= 1.72 cm,Lreal= 1.89 cm and the temperature is 25°. Also obtain the value in units of the frequency ofresonance.
- 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 345H.W: A resistor of resistance R=1000 N 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: Ans: 182 x10-9 volt i) ii) iii) 15.9 kHz 159 kHz Ans: 9.22 x10-8 volt 1590 kHz Ans: 2.34 x10-6 voltEill in the blank with corect answers B Frequency Series Resonance - Impedance vs. Frequency. The graph of impedance against frequency for an RLC series resonance circuit is shown in the picture. At which point the current will be maximum At point A At point C At point B At point D The inner most layer of an optical fhotI Is cantu Impedance
- Calculate the resonant frequency of the circuit in below figure. Vm' cos wt 100 mH 0.5 mF www €2092Attempt All Five Questions 04) Derive the pulse transfer function C(z) / RC)of the figure below CG) HG)In a series RLC circuit, the applied voltage is 120V. At resonance, the frequency is 200rad/sec, and the circuit current is 6.26 A. What is the resistance of the circuit (in Ohms)? (Use 2 decimal places. Unit is not required.)