Develop a MATLAB program to simulate a medium-length transmission line and evaluate the receiving-end voltage, current, and power, along with the voltage regulation of the line. The transmission line specifications are provided below:
A 345 kV, three-phase transmission line is 400 km in length. The series impedance is Z = 0.036 + j 0.3 ohm per phase per km and the shunt admittance is Y = j 4.22 x 10-6 siemens per phase per km. The sending-end voltage is 345 kV, and the sending-end current is 400 A with a 0.95 lagging power factor.Develop a MATLAB program to simulate a medium-length transmission line and evaluate the receiving-end voltage, current, and power, along with the voltage regulation of the line. The transmission line specifications are provided below:
A 345 kV, three-phase transmission line is 400 km in length. The series impedance is Z = 0.036 + j 0.3 ohm per phase per km and the shunt admittance is Y = j 4.22 x 10-6 siemens per phase per km. The sending-end voltage is 345 kV, and the sending-end current is 400 A with a 0.95 lagging power factor. Develop a MATLAB program to simulate a medium-length transmission line and evaluate the receiving-end voltage, current, and power, along with the voltage regulation of the line. The transmission line specifications are provided below:
A 345 kV, three-phase transmission line is 400 km in length. The series impedance is Z = 0.036 + j 0.3 ohm per phase per km and the shunt admittance is Y = j 4.22 x 10-6 siemens per phase per km. The sending-end voltage is 345 kV, and the sending-end current is 400 A with a 0.95 lagging power factor. medium transmission lines, matlab, simulink MATLAB Answers — New Questions

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