Q2. For the system shown in figure below; Given that: g1(t) 9:(t) = 10* I1 () G2(f) = 1 x(t) i. Sketch: G,(f), Y(f) and X(f) y(t) H1(f) ii. Find the Bandwidth of: X(f) g2(t) |H:(f)| f(kHz) -8 -2 2 8
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A: Solution- The RLC circuit is shown below, where, R=250ΩL=10mHC=1μF
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Q: 3. ( Consider again the system in Fig. 1. The plant transfer function in the frequency domain is 100…
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Q: A causal LTI system is modeled by the circuit below, where R = 10 and C = 1F. (a) Determine the…
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Q: ·R1 = 1 ko R, R, R2 =1.2 ko R R3 = 5.6 ko R, R4 = 1.5 ko Rs = 22 kN Re = 1.5 ko R, = 22 kn 1.1 Find…
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Q: Q2. For the system shown beside; given that: 9:(t) = 10*G0-) cos 27(20 000)t G2(f) = 1 g:(t) 1…
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Q: 5cos(2n x 10°t + sin(2 × 10*t)), is input to a square law An FM signal ofm(t) = nonlinear device…
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Q: Q2. Given that: G1(f) = 1 g:(t) y:(t) H:(f) 92(t) = 10* |G0- cos 27(20 000)t H,(f) = I (10000) i.…
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Q: EXAMPLE 1.4.1 The implications of these frequency relations can be fully appreciated by considering…
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Q: Problem 1: For the circuit shown below R = 40 ohms, determine the following: ( a. The undamped…
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Q: Q2. Given that: G(f) = 1 g1(t) yı(t) H1(f) 9:(t) = 10*||05)cos 27(20 000)t H;(f) = II (,000) i.…
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Q: In the figure shown below, AM modulator contains Nonlinear device followed by band pass filter tuned…
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Q: Problem 1: For the circuit shown below R = 40 ohms, determine the following: ( a. The undamped…
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Q: The question is in the picture below.
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Q: 25 Given h1(t) = 28(t); h2(t) =0.5 ej50xt u(t); h3(t) = 0.2e50xt u(t); h4(t) = 58(t); hs(t) = d(t-2)…
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- How many decades does the frequency span of 30 Hz to 15 000 Hz represents? (decades What upper frequency limit would one hove if they extended 2.5 decades from 30 Hz? (Hz) What is the low-frequency cut-off for a 2.5-decade span with an upper limit of 5000 Hz? (Hz) Find the multiplier to divide 1 Hz to 300 Hz into six equal logarithmic intervals (dimensionless):Q.4: Choose the suitable choice for the following sentences. 1. At any resonant circuit the input impedance is ....... a. XL. b. RT. c. XC. 2. The locus of inductive load is a vector in the …... quadrant. a. 4th. b. 2nd. c. 3rd. 3. For non-sinusoidal input signal, the power dissipated in a resistance is equal to ............ a. 2I2R. b. Iav2R. c. Ieff2R. 4. Applying Kirchhoff's laws to RL & RC transient circuits produces Equations of type:a. Time-Depend. b. Time-Variable. c. Differential. 5. The Differential Equations applied RL & RC transient circuits are:a. Third-order b. Second-order c. First-order 6. Electrical energy is stored in ........ a. Inductance. b. Capacitance. c. Both-of-them. 7. .......... is obtained in parallel resonance circuit. a. Vmax. b. Imax. c. Pmax. 8. The total impedance angle is ............ on the frequency of the harmonic.a. Dependent. b. Independent. c. Both-of-them. 9. In transient circuit, the capacitor behaves as ................ when the switch…а 5-657 0 1 2 3 4 5 6 7 5.657 Real part of (x(n)) -5.657 Zmaginary part of 2 (m) 0 1 2 3 4 5 6 7
- For the circui find the frequency (in radiansper second) at which the impedance Zab is purely resistive.2. Find the value of Zab at the frequency of (a)Find the magnitude of V2, |V2|, in units of [V ]. Find the magnitude of V1, |V1|, in units of [V ] Find the magnitude of I2, |I2|, in units of [mA] Find the magnitude of I1, |I1|, in units of [mA]For the input signal, which one is the output wave-form for the given circuit? Vmax Vin V in Vout RL Vma INPUT WAVEFORM Lütfen birini seçin: a. Vout -(Vmax-V) Time t Vout time -(Vmax+V Vout Vmax-V Time t Vmax O d. Vout Time t Vmax e. Volt Vmax Timet
- 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)A nonperiodic composite signal has a bandwidth of 170 kHz, with a middle frequency of 120 kHz and a peak amplitude of 20 V. The two extreme frequencies have an amplitude of 10 V. 1. The lowest frequency is KHz. 2. The highest frequency is KHz. Draw the frequency domain of the signal. (You don't need to submit the curve to the Canvas.)1:53:24 C RLC circuit with a sinusoidal input voltage, the amplitude of the current passing through the circuit (lo in mA) is plotted as a function of frequency for two cases Curve 1 with Ry, L1, and .Curve 2 with R, L2 as shown in the next figure The value of the capacitor used in the circuits is C=0.01 micro Farads :The quality factor (Q1) for curve 1 is about 7.5 5- 2.5 I to 1 10 I 10 I to Frequency (f), H
- O d. FM demodulator Choose the correct statement(s) that describe the diagram below. - x,(1) Bandpass filter Envelope detector Limiter Differentiator Select one or more: a. FM Demodulator b. Narrowband to wideband conversion OC. PM Demodulator Od. Linear PLL model e. FM Discriminator with bandpass limiter A third-order PLL can track a frequency-ramp with zero steady-state nhase errorFor a series RLC circuit with a sinusoidal input voltage, the amplitude of the current passing through the circuit (lo in mA) is plotted as a function of frequency for two cases: Curve 1 with R1, L1, and Curve 2 with R2. L2 as shown in the next figure. The value of the capacitor used in the circuits is C=0.01 micro Farads. The quality factor (Q1) for curve 1 is about: 7.5 5- 2.5 1-10 1-10 1-10 1-10 Frequency (f), Hz O a. 20000 Hz O b. 0.5 O c. 0.23 O d. 2 O e. 1.5% lI. H.W 1_1st.pdf 3rd Class Electronic Circuit Homework (1): Frequency Response Q) Draw and find the equivalent cct, low and high frequency responses, and overall gain (Av)? Hint: Use any value you want for the Rs and RL. Vcc +9 V Bpc = Bac = 125 Che = 25 pF Che = 10 pF Rc C3 220 2 Vout R1 12 ΚΩ C 1 µF R10 20 Ω 1 µF Ω R2 ►4.7 kN RE 100 N C2 10 μF V