Q5a. A 3-phase overhead transmission line is supported on 4-disc suspension insulators. The voltage across the first and second dises are 15 kV and 18 kV respectively. Calculate the line voltage and mention the nearest standard voltage.
Q: . Find the current i(t) across the inductor, for all time, where the switch closes at t = 0.…
A: The Circuit and Finding i(t)* Before the switch closes (t < 0):* The circuit is in steady state.*…
Q: ✓ Q1) i. Distinguish between thyristor and TRAIC in the following a) Construction b) Characteristics…
A: Step 1:Q1(i) Distinguish between Thyristor and TRIACa) ConstructionThyristor: A thyristor, or SCR…
Q: Solve for the mesh currents: 10 V + I1 || = 12 = 13 = = 15 Ohm w 12V 1 Ohm w ww 50 Ohm w 4 Ohm 17 V…
A: I hope this is helpful.
Q: 2. Using source transformation, determine the current i through the resistor R4 shown in the circuit…
A: Thank you Concepts | References :
Q: If you were to program a device that had a 4-bit ADC converter to read an input signal, and then…
A:
Q: Problem 2 (20 pts). For any integer no and N, prove the following result: no+N-1 Σ e-jmwonejkwon (0,…
A: Detailed explanation:To solve this problem, we need to analyze the sum:…
Q: Using mesh analysis, find i1,i2,i3,i4,i5. Only expert should solve it please
A: Step 1: Step 2: Step 3: Step 4:
Q: 4.7 For the circuit in Fig. P4.7: (a) Use the op-amp equivalent-circuit model to develop an…
A:
Q: pls solve this fully
A: Step 1: Step 2: Step 3: Step 4:
Q: Find direct form-I direct form - II difference equazion лов and 10 the following y(n) = 2 x (n) +0.3…
A: Step 1:To find the Direct Form-I and Direct Form-II representations of the given difference…
Q: What are the active components of three-phase Induction Motor? b) Derive an expression for the…
A: Step 1: Step 2: Step 3: Step 4:
Q: First, calculate the value of f, for each filter. set the cursor to the center frequency and…
A: Step 1:
Q: Given the state table below, calculate the state equations if JK Flip Flops are used to implement…
A:
Q: can you proof these 2 questions handwritten(I dont want to book proofs or internet proof I don't…
A:
Q: 2. Find the Fourier transform of the pulse train, also known as the comb function, shown below (i is…
A:
Q: A freewheel diode is connected across a single-phase fully-controlled, full-wave, bridge rectifier…
A: Step 1: Each half cycle is 180 degree long, so before the next cycle begins, if the current…
Q: An overhead line conductor having a parabolic configuration weighs 1.925 kg/m of length. The cross…
A: The total weight per unit length (w) is the sum of the weight of the conductor and the weight of the…
Q: Problem 2. For the circuit below, find v(t) for t > 0. 582 2 A 12 Ω w 602 t = 0 w 20 Ω. ww + ± 20 V…
A: Step 1: Step 2: Step 3: Step 4:
Q: Memory Interfacing: Q2. (a) For a 64 Kbit symmetric memory IC, determine the number of transistors…
A: Certainly, let's break down the solution to the memory interfacing problems you've presented.Problem…
Q: Find the values of ID and V. in the circuits shown in Fig. 1-13. (a) -10V Ge Si +10V +16V Si D₁ Si…
A:
Q: 69. In the circuit of Fig. 8.94, find UR(t) for (a) t 0. Now assume that the switch has been closed…
A: Step 1:Step 2:
Q: I need expert solved solution for this question under 20minutes it really pressing
A: Thank you Shortcut | Alternative solution
Q: 39. The source values in the -120u(t+1) V, and ic === circuit of Fig. 8.70 are v₁ = 300u (1) V. vp =…
A:
Q: Can you please complete the table
A:
Q: 33.2 A single-phase half-wave controlled rectifier supplied from 230 V, 50 Hz a.c. supply is…
A: Step 1: Step 2:
Q: 2. Express the unilateral z-transforms of the following functions as rational functions. Tables may…
A: Definition of the Unilateral z-Transform:For a sequence x[n], the unilateral z-transform is defined…
Q: Solve for iv) and V) section only handwritten step by step solution thank you
A: Step 1: Step 2: Step 3: Step 4:
Q: MAT188-WRITTEN-HOMEWORK 2, Oct 12th, 11:59 PM 2 Problem 1. Remember the Japanese puzzle from…
A: andF(cx)=cF(x) from mpl_toolkits.mplot3d.art3d import Poly3DCollection # Function to plot…
Q: please answer step by step with no ai
A: Step 1:Step 2:
Q: Electromagnetic fields
A: Step 1: Given-The given point charge at the origin is Q=60 μC=60×10−6 C.The total electric flux…
Q: Can you draw by Plotting Points Ina equation? How draw On 0 or 180°, (since there is no imaginary…
A:
Q: Can you help me with this problem by determining the propagation and contamination delays of the…
A:
Q: 5.11 Suppose the waveform shown in Fig. P5.10 is the current i(t) through a 0.2 mF capacitor (rather…
A: Step 1:Step 2:Step 3: Step 4:
Q: examples of application of transformers in power supply circuits
A: A transformer is a passive electrical device that transfers electrical energy from one electrical…
Q: ABP 4.3.7 Compare the power delivered to the 20-k₁ resistor in the buffered circuit in Fig. ABP4.3.7…
A: I hope this is helpful.
Q: Problem 4 (10 points) (Chap 4) (Learning objective: divergence operation and divergence theorem) Let…
A: Here is the step-by-step explanation:Verify the divergence theorem for the vector…
Q: Can you please answer all parts of the question with step by step working and can you please include…
A:
Q: Is it correct: in a voltage divider, the currents through the resistors behave like the ratio of the…
A: A voltage divider is a simple circuit which turns a large voltage into a smaller one. It consists of…
Q: A- Discuss why rotor slots of three-phase induction motor are skewed? B- Draw torque-speed…
A:
Q: This is a review question from an old exam:A 50-MHz generator with Zg =50Ω is connected to a load…
A: Step 1:Step 2:Step 3: Step 4:
Q: A- Prove that the torque of three phase induction motor is T = W. R₁ 312 R₂ R 12 S +(x, Derive the…
A: Step 1: Step 2: Step 3: Step 4:
Q: 4- If the input signal is 100KHz, can we make sampling for this signal when it applied to the…
A: Step 1: According to the question, If the input signal is 100KHz, can we make sampling for this…
Q: describe in detail what is illustrated in this photo. photo is one image, could not fit the whole…
A: Step 1: Step 2: Step 3: Step 4:
Q: final answer is 21.3141 volts so work towards that answer
A: Step 1:Step 2:Step 3:
Q: EXAMPLE (2): The van der Waals equation of state is given by (p+(v-b)=RT In this equation, v = (V/n)…
A:
Q: 3.21 я A three-phase half-wave controlled rectifier is connected to a star supply and a resistive…
A: Step 1: Given, The firing angle is, α=60∘Supply voltage per phase is, Vph=120VPeak supply voltage…
Q: Problem 2: Consider a DSB-SC system: modulating signal: m(t)= 2 cos4000 πt +5 cos 6000 Jit carrier…
A:
Q: 3 A B C X ABC D X DRAW THE OUTPUT TIMING DIAGRAM
A: Step 1:here the truth table is given for output x. If all the variables are 0 then result is 1 else…
Q: 8.6 Calculate the current in the resistor in Fig. P8.6 if the voltage input is (a) vi(t) 10 cos…
A: Step 1: Step 2: Step 3: Step 4:
Q: Using a value of SBASE = 100MVA, Using the Per Unit method and symmetrical components calculate…
A: Hey there! To calculate the expected fault current at the load bus for a Line-to-Ground (LG) fault…
Step by step
Solved in 2 steps
- Three zones of a single-phase circuit are identified in the figure. The zones are connected by transformers T₁ and T2, whose ratings are also shown. Using base values of 100 kVA and 240 volts in zone 1, draw the per-unit circuit and determine the per-unit impedances and the per-unit source voltage. Then calculate the load current both in per-unit and in amperes. Transformer winding resistances and shunt admittance branches are neglected. Zone 1 Zone 2 Vs = 220/0° volts 3---38 T, 30 KVA 240/480 volts M 0.10 p.u. Xoa Xune = 2 fl T T₂ 20 kVA 460/115 volts Xeg = 0.10 p.u. Zone 3 ww Zload = 0.9 - 10.20Consider the oneline diagram shown in Figure 3.40. The three-phase transformer bank is made up of three identical single-phase transformers, each specified by X1=0.24 (on the low-voltage side), negligible resistance and magnetizing current, and turns ratio =N2/N1=10. The transformer bank is delivering 100 MW at 0.8 p.f. lagging to a substation bus whose voltage is 230 kV. (a) Determine the primary current magnitude, primary voltage (line-to-line) magnitude, and the three-phase complex power supplied by the generator. Choose the line-to-neutral voltage at the bus, Va as the reference Account for the phase shift, and assume positive-sequence operation. (b) Find the phase shift between the primary and secondary voltages.Consider three ideal single-phase transformers (with a voltage gain of ) put together as three-phase bank as shown in Figure 3.35. Assuming positive-sequence voltages for Va,Vb, and Vc find Va,Vb, and VC. in terms of Va,Vb, and Vc, respectively. (a) Would such relationships hold for the line voltages as well? (b) Looking into the current relationships, express IaIb and Ic in terms of IaIb and Ic respectively. (C) Let S and S be the per-phase complex power output and input. respectively. Find S in terms of S.
- Three single-phase two-winding transformers, each rated 25MVA,54.2/5.42kV, are connected to form a three-phase Y- bank with a balanced Y-connected resistive load of 0.6 per phase on the low-voltage side. By choosing a base of 75 MVA (three phase) and 94 kV (line-to-line) for the high-voltage side of the transformer bank, specify the base quantities for the low-voltage side. Determine the per-unit resistance of the load on the base for the low-voltage side. Then determine the load resistance RL in ohms referred to the high-voltage side and the per-unit value of this load resistance on the chosen base.The one-line diagram of a simple power system is shown in Figure below. The neutral of each generator is grounded through a current-limiting reactor of 0.25/3 per unit on a 100-MVA base. The system data expressed in per unit on a common 100-MVA base is tabulated below. The generators are running on no-load at their rated voltage and rated frequency with their emfs in phase. G Stark Item Base MVA Voltage Rating X' x² 20 kV 20 kV 20/220 kV 20/220 kV 100 0.05 0.15 0.15 0.10 0.10 220 kV 0.125 0.125 0.30 0.15 0.25 025 0.7125 0.15 100 100 0.15 0.05 0.10 0.10 0.10 100 0.10 100 100 Lu La 220 kV 0.15 220 kV 0.35 100 A balanced three-phase fault at bus 3 through a fault impedance Zf= jo.I per unit. The magnitude of the fault current in amperes in phase b for this fault is: Select one: A. 345.3 B. 820.1 C. 312500 3888888 产产1. How do you measure three phase line currents by using two current transformers? Draw the connection scheme.
- In a string of suspension insulator with three units, the line unit has 20kV and k=0.35. The voltage across tower unit is........ and across middle unit is.......b) A fault occurs at bus 3 of the network shown in Figure Q4. Pre-fault nodal voltages throughout the network are of 1 p.u. and the impedance of the electric arc is neglected. Sequence impedance parameters of the generator, transmission lines, transformer and load are given in Figure Q4. V₁ = 120° p.u. V₂ = 120° p.u. V₂ = 1/0° p.u. V₂= 120° p.u. jXj0.1 p.u. JX2) 0.1 p.u. jX0j0.15 p.u. jXn-j0.2 p.u. 1 JX(2)-j0.2 p.u. 2 jX)=j0.25 p.u. JX20-10.15 p.u. jXa(z)-j0.2 p.u. 4 jX2(0)=j0.2 p.u. jXT(1) j0.1 p.u. jXT(2)=j0.15 p.u. jXT(0)=j0.1 p.u. Figure Q4. Circuit for problem 4b). = jXj0.1 p.u. j0.1 p.u. - JX(2) JXL(0) 10.1 p.u. = (i) Assuming a balanced excitation, draw the positive, negative and zero sequence Thévenin equivalent circuits as seen from bus 3. (ii) Determine the positive sequence fault current for the case when a three- phase-to-ground fault occurs at bus 3 of the network. (iii) Determine the short-circuit fault current for the case when a one-phase- to-ground fault occurs at bus…A 10 MVA three phase load is to be served by a three phase transformer at aline voltage of 13.8 kV. The supply side voltage(line-line) is 138 kV. Varioussingle phase transformers are available in the warehouse but all havewindings with voltage ratings under 100 kV and current ratings under 250 A.Is it possible to serve the load using only three single phase transformers? Ifso, specify the three phase connections and the low and high voltage ratingsof the single phase transformers.
- Three zones of a single-phase circuit are identified in Figure. The zones are connected bytransformers T1 and T2, whose ratings are also shown.Using base values of 30 kVA and 240 volts in zone 1:a. draw the per-unit circuit and determine the per-unit impedances and the per-unitsource voltage.b. calculate the load current both in per-unit and in amperes. Transformer windingresistances and shunt admittance branches are neglected.400Ω A k=0.9 600Ω B k=0.8 66Ω 600ΩThree zones of a single-phase circuit are identified shown in Figure below. The zones are connected by transformers T1 and T2, whose ratings are also shown. Using base values of 33 kVA and 232 volts in zone 1, Find: 1- Draw the per-unit circuit including the per-unit impedances and the per-unit source voltage. 2- Calculate the load current both in per-unit and in amperes (actual or original value). Vs Zone 1 232.940° Vs G. 38 T₁ 30 KVA 240/480 volts Xeq = 0.10 p.u. Zone 2 Xiine = 4 Ω T₂ 20 KVA 460/115 volts Zload = Xea = 0.10 p.u. Zone 3 u 1+j2.2 Ω 2