a. For the circuit shown in Figure #2, derive the Norton equivalent network at terminals AB. b. Hence or otherwise, determine the apparent power supplied to the load 703 40 30 ww m ww ww B 2 www m 10 1502 LOAD g או www
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- What is load regulation?An AC voltage source delivers current to Load A and Load B which are connected in parallel. Current in Load A is 25 A and Current in Load B is 42.2. If the current in load B leads the current in load A by 45 degrees, calculate: a) Resultant or total current, b) Angle between the resultant current and Load current A if Load Current A is at reference or zero degrees.-write legibly-show the complete solutionFor the circuit given in Figure 1, a) Find the Thevenin equivalent circuit with respect to terminals a-b b) When a 5000 resistor is connected to terminal a-b, find the voltage on the resistor wwwwwwmm c) It will be connected to a-b terminals and its voltage on 5000 load will be 132 kV rms. What should be the capacitive reactance value that will increase it? wwwwwwwww d) What happens to the short-circuit current when the a-b terminals are short-circuited? 2+1202 000 m da 127/6 kV rms ob 1.5 +/902 000 w 12725 kV ms
- what are load values in this power flow systemAn AC voltage source delivers current to Load A and Load B which are connected in parallel. Current in Load A is 25 A and Current in Load B is 42.2. If the current in load B leads the current in load A by 45 degrees, calculate: a) Resultant or total current, b) Angle between the resultant current and Load current A if Load Current A is at reference or zero degrees.i can't figure out the configuration of this xfmr.
- briefly explain what are the other typical applications can be used below mentioned T1.2 Transformers.?For the circuit shown in Figure 2.24, compute the voltage across the load terminals.Consider two interconnected voltage sources connected by a line of impedance Z=jX, as shown in Figure 2.27. (a) Obtain expressions for P12 and Q12. (b) Determine the maximum power transfer and the condition for it to
- b DO NOT COPY FROM OTHER WEBSITESUsing Figure 1, Vs 50V-15 339 Hz R1 $1100 R2 100 www XL1 320 HH XC1 Figure 1 700 R3 600 13 R4 400 XL2 1902 XL3 450 XC2 650 a. Determine the total circuit impedance, ZT. b. Calculate current IT. c. Calculate currents I, and I3. State the value of these currents in both rectangular and polar form. d. For each of the currents determined in part c, answer the following: Is the current leading, lagging, or in phase with the source voltage. e. Use the voltage-divider rule to determine the voltages across XL1 and Xc2.The circuit diagram below shows a Buck converter. Vdc iL L VL #D D O 8 (V dc is S Ť The voltage and currents in the circuit can be separated into an average quantity and a ripple quantity such that x (t)=X+Ax (t), where x (t) is the signal, X is the average and Ax (1) is the ripple function. If the circuit is operated in continuous current mode with a duty ratio 6, the volt-seconds balance equation for L is given by: V)-(1-8) V =0 - dc OSV (1-8) V = 0 0 O 8(V-V)-SV = 0 dc ic O SV - (1-8) V = 0 1₂ C RL V