@thesis{thesis, author={Pahiyanti Novi Gusti and RIDHA ERLANGGA KEVIN}, title ={ANALISIS DROP TEGANGAN PADA GI ULEE KARENG TERHADAP TRAFO DISTRIBUSI 20KV PENYULANG ABULYATAMA ULP SYIAH KUALA AREA UP3 BANDA ACEH}, year={2022}, url={http://156.67.221.169/5369/}, abstract={The distribution system is an electric power system that distributes electrical energy from the generator to PLN customers. During the process of distributing electrical energy, disturbances may occur. These disturbances can cause the loss of some of the voltage sent by the generator to the customer. This loss of voltage in the distribution of the electric power system is commonly referred to as a voltage drop. In this study, we will compare the input voltage and voltage drop from two substations, namely GI Ulee Kareng and GI Banda Aceh. The comparison in this study will be carried out by calculating the value of the voltage drop from the sending voltage of the substation to the receiving voltage on the Abulyatama feeder side. After calculating the value of the voltage drop at these two substations, different results are obtained. Where the Banda Aceh GI which has a transmit voltage of 20.1 kV experiences a voltage drop when the voltage reaches the receiving side of the abulyatama feeder, which is 19.05 kV. And the results of the calculation of the value of the voltage drop at the GI Ulee Kareng is that the sending voltage of 20.27 kV sent by the GI Ulee Kareng experiences a voltage drop of 103.3131072 Volts and has a voltage on the receiving side of 20.16 kV when the voltage reaches the receiving side which is on abuyatama feeder. This proves that the delivery voltage from GI Ulee Kareng is better than GI Banda Aceh. In the analysis of the incoming voltage of the Ulee Kareng GI to the abulyatama feeder, a calculation of the value of the voltage drop on the distribution transformer is also carried out on the abulyatama feeder. Where after calculating the value of this voltage drop, it can be seen that the voltage is still in a normal state and does not exceed the predetermined voltage drop standard.} }