Problem 5: For the following circuit find its transmission parameters:
Q: Consider a negative unity feedback control system KG (s) = - K(s + 1) s² +4 Apply the seven steps…
A:
Q: Given the input waveform, design a circuit that can generate the corresponding output waveform. Use…
A: We need to design the circuit for given input and output waveform .
Q: QUESTION 1 Find all unknown currents and their directions in the circuit below 11 = 12 = 20 A 11…
A:
Q: Compute the convolution x(t)* v(t) for -∞ <<∞o, where x(t) = u(t) + u(t-1)- 2u(1-2) and v(t) =…
A: Given: Signals x(t) and v(t) as, x(t)=u(t)+u(t-1)-2u(t-2),v(t)=2u(t+1)-u(t)-u(t-1), To compute:…
Q: For the bandreject in Fig. (a) woi (b) foi (c) Q; (d) ß in hertz; (e) wc₁; (f) fcli (g) we2; and (h)…
A: NOTE : As per our guidelines we are supposed to answer the first 3 sub-parts only. Kindly re-post…
Q: A certain transformer has a ratio of 8:1. The primary winding resistance is 0.00283 Ω and has 1,165…
A: In this question we need to find the resistance of the secondary winding.
Q: a. Transfer function (3 pts) b. What is the response of the system? (3 pts) Value of wo? (3 pts)…
A:
Q: 20 V 1 0 Write loop and node equations for each of the following: Μ 200 Ω (a) 500 Ω Μ 300 Ω 10 V 1…
A:
Q: Q2\ A continuous-time linear control system is described below, where u, x. and y are the input, the…
A:
Q: 7. An overhead 3- phase transmission line delivers 5000 KW at 22 kV at 0.8 p.f. lagging. The…
A: Power delivered is 5000KW Receiving voltage is 22KV power factor is 0.8
Q: The process of changing a half-wave or a full-wave rectified voltage to a constant dc voltage is…
A:
Q: 5. Find lo 41. 1 ΚΩ + V +6V V₁ 1 ΚΩ V2 1kΩ I ΚΑΛ 51 ΚΩ Το + 2V V3 (2 2 mA
A:
Q: The circuits below are in steady state. (a) Find the complex power received by the capacitor, in the…
A: Given data Resistance, R=2Ω Capacitance, C=10 mF Supply current, is=5cos100t+π3 A A voltmeter is…
Q: 1. Design CMOS circuit for F = (AB) + C + D using PUN and PDN. Do not simplify the function.
A: Since you have posted the multiple questions so we are supposed to answer 1st one.
Q: 2. Determine the total charge (a) on line 0<x<5m if p₁ = 10x³mC/m and (b) within the sphere r=3m if…
A: (a) line charge density ρL = 10x3 mC/m Find Q from 0 < x < 5. (b) Volume charge density…
Q: Determine whether each silicon diode in Figure is forward-biased or reverse-biased. Explain why. 5 V…
A: As per the guidelines of Bartleby we suppose to answer first three subpart only for solution of…
Q: State the of Rz purpose. in the Ohmmeter. Circuits E Rz Ited = form Pm=102
A: it is asked to state the purpose of RZ in given ohmmeter circuit
Q: 2. Use a Thevenin Equivalent Circuit to solve for the voltage, Vo. 292 6 A ↑ 8 Ω· M + Vo- M 10 22-…
A:
Q: Using iterative solution, find the first four output signal sample values for the following linear…
A: I have written this solution as handwritten solution. Hope you find the perfect solution.
Q: 1. Find Vo 1 ΚΩ 1 ΚΩ 12V(+ σν 1 ΚΩ ww 2 ΚΩ Vo
A:
Q: Length of a current carrying wire
A:
Q: A 230 V dc motor has an armature circuit resistance of 0.6 0. If the full load armature current is…
A: Given- Armature resistance, Ra = 0.6 Ω Full load Armature current, Iafl = 30 A No load Armature…
Q: 33nF 27 k www +1₁ 10 k www 10 k Vo Opamp is 741 with Vcc = 15V and VEE = -15V What is the frequency…
A: Answer : given that a astable multivibrator circuit with VCC = 15 V and VEE = -15 V resistance R2 =…
Q: Question 2 A supply voltage V (t) = 24 sin(4000mt) [V] is applied across a R-L-C circuit shown…
A:
Q: EOCP 1.7 Evaluate the following integrals using the sifting property of the delta function. 2 5. (en…
A: In these questions We need to determine the value of given signals. We are solving these problems…
Q: Use phasors and nodal analysis on the circuit below to find V1 and V2
A: Given:
Q: 74. Use the definition of the Laplace transform (7.4) to verify the following Laplace transforms: b…
A:
Q: The aggregated supply and demand for a particular hour of a day-ahead market of a two-sided auction…
A: Given: Supply: Cs=10+0.2V+0.3V2 Demand: Cd=100-0.3V-0.02V2
Q: The impulse response of a linear circuit is h(t)= u(t)-u(t-2). Use the convolution integral to find…
A: Given Data: A linear circuit having, Input xt=ut-ut-1 Impulse response ht=ut-ut-2 To Find:…
Q: ASAP Find the all-day efficiency of a transformer having maximum efficiency of 98% at 15-kVA at…
A:
Q: •• A 200 N resistor, 0.900 H inductor, and 6.00 uF capacitor are connected in series across a…
A:
Q: Determine T(s) = I₁(s)/V(s) if R1 = 1 ohm, R2 = 2 ohms, C1 C2 = 1F, and Vin = V(s). Vin ww R1 ww R2…
A: In this question we need to find the transfer function of the given circuit
Q: 2.29 Find the resistone at terminals A-B in the circuit. 8кл 3 экле 2кл ми А в 6кл чкл ми ли lkn²
A:
Q: Complete the truth table for the following Boolean functions: (a) XYZ + XYZ + XYZ (b)…
A:
Q: R_a 70 20 10 + V_x T 30 +1 440V +1 220V (V_x)/2
A:
Q: 4. A 132 kV, 60 Hz transmission line has the following generalized constants: A = 0.969620.49, B =…
A:
Q: 4. A. Find the y-parameters for the following two-port network: zix Port 1 ix Br M R₁ + m 252 452 B.…
A: Given Circuits (A) (B) To determine: Y-parameters for the circuit (A) Z-parameters for the…
Q: A certain load1 with an hourly daily demand as given in table 1 is connected to the same generating…
A: Given data: An hourly demand for load-1 and load-2 is given in the table. The capacity of the three…
Q: E = 100 V, R₂ = 19 kN, RB = 82 k, Capacitor = 77 μF. The capacitor starts fully discharged. The…
A: The required parameters can be obtained by analysing the circuit at t before 0 and after zero.…
Q: 3.) Find the frequency spectra of the signals below: x(t) a-) b.) -100 - 10 -50 -5 2 -5 X₂(t) 10 So…
A: Given Signals To determine: Fourier transform of each of the signal
Q: In a conventional AM modulation, the carrier signal is c(t)=10cos(2nfct), and the message signal…
A:
Q: 5. A 500-km, 500-kV, 60-Hz uncompensated three-phase line has a positive-sequence series impedance z…
A:
Q: 2. Estimate the gate capacitance of PMOS transistor (W = 0.36u, L = 0.18u). Gate oxide thickness is…
A:
Q: 1. Set up the equations and show how you would solve for the short circuit current between the two…
A: We need to determine the short circuit current between the two terminal using node voltage method.…
Q: Solve for the voltages across and currents through every resistor given that all of the resistors…
A:
Q: 90 degrees 2 A capacitor and a resistor are connected in parallel to a 120-V, 60-Hz line. The…
A:
Q: he customer has some very basic details found in a note in the motor terminal box and on the…
A: Given information is written below. Input stator voltage E1=400 Volts (line to line). Per phase…
Q: 12V 50 m m 20 375 3105 Solve The following mixed Circuit 1. Intensites of Resistances 2. Vottages of…
A:
Q: In the clamping circuit below, assume the diode has Von-0.7V and V₁ is a sinusoidal wave with a…
A: Clamper is a electronic circuit which shifts the input signal either above the reference or below…
Q: Consider the circuit shown in Figure P18.9. (R = 21.0 2.) 10.0 £2 (8 5.00 £2 10.0 22 W ww 5.00 £2…
A:
Step by step
Solved in 6 steps with 3 images
- Q1: The parameters of long three-phase transmission line 200 km with 50 Hz are l = 1.3 mH/km, c = 9 nF/km, and r = 0.2 1/km Find ABCD constants.The primary constants of a uniform line 67.19 meters long, have the following values at 171.31 MHz: R = 5215.2491 mΩ / m, L = 1017.7428 nH / m, C = 69.8857 pF / m and G = 43.2532 µS / m. Decide: a) How much the characteristic impedance and the attenuation coefficient are worth per unit length (in mdB / m) of the same, at said frequency.Transmission line with a load Zl = 100 + i80 ohm with characteristic impedance of Z0 = 5 ohm is designed. The transmission line operates at 100 MHz, where is matched with a shunt single- stub tuner. a)Calculate the stub positions. b)Calculate the stub length where open circuit stub is used. c) Calculate the stub length where short circuit stub is used.
- The total series impedance of a 350 km long transmission line is 14 + j105 ohms. The total shunt admittance for the said transmission line is 600x10-6 S. At the end of the line, 35 MW power is drawn with a power factor of 0.85 (end) under 154kV voltage. Find the line head voltage with long transmission line equations (hyperbp equations) (do not use Taylor Series)A single phase, 50Hz transmission line connected between two buses having line resistance of 3Ω, inductive reactance of 0.2 Henry. Both the ends of transmission lines are connected with series capacitors of 400microfarads each for series compensation. Then series impedance of the line is a.(3-j31) Ω b.(3-j59.6) Ω c.(3+j31)Ω d.(3+j59.6) Ω 2- Fast decoupled algorithm is not as accurate as the exact Newton Raphson algorithm for Variable number of iteration Fixed number of iteration Variable time per iteration Fixed time per iterationUsing admittance parameters determine I0 for the circuit shown below
- A medium transmission line has a total series impedance of Z = (4 + j12) Ω and a shunt admittance of Y = j0.0075 S. Determine the following transmission line constants for a T network: a) A b) B c) C d) DThe total series impedance of a 350 km long transmission line is 14 + j105 ohms. The total shunt admittance for the said transmission line is 600x10^-6 S. At the end of the line, 35 MW power is drawn with a power factor of 0.85 (end) under 154kV voltage. Find the line head voltage with long transmission line equations, choose right one? (hyperbolic equations) (do not use Taylor Series).please help solve part c , d and e A 350-km 450-kV, 60-Hz three-phase uncompensated line has a series reactance x=0.34 Ω/km and shunt admittance y=j 6.5 x 10 -6 S/km (positive-sequence). Calculate,(a) Characteristic impedance Zc(b) (γl)(c) The exact ABCD parameters of the line. (d) The wavelength λ in km.(e) The SIL in MW.
- Calculate the equivalent impedance of the network Zin the given circuit, convert the norton parameters to thevenin parameters given IN =3A and RN = 10 ohmsThe A and C constants of a medium length transmission line is 0.936 + j0.016 ohms and (-5.18 + j914) x 10-6 mho, respectively. If the load at the receiving end is 50 MW at 220 kV with a power factor of 0.90 lagging, determine the magnitude of the sending end voltage, voltage regulation and transmission efficiency.