SIMULASI KARAKTERISTIK MOTOR INDUKSI SEBAGAI GENERATOR PADA KONDISI LOSS OF GRID MENGGUNAKAN PSIM

Distributed generation (DG) is a generation system which is functioned as additional generating plants in addition to the main generating plants. Generally, DG uses induction motor operated as a generator (MISG). However, there might be a problem when the supply from the main power interrupted (loss of grid) or MISG supplys overload. This simulation aims to determine the characteristics of MISG (Induction Motor As Generator) and maintain MISG to keep supplying power under loss of grid condition. Simulations conducted in three conditions, i.e. : under loss of grid condition without dividing the value of load, under loss of grid condition with equal loads, and under loss of grid condition with load variations. Moreover, simulations performed to determine the critical point under loss of grid condition and variations of capacitors used for the voltage improvement. Load applied in the simulations is resitif load. As the results, when connected to grid, MISG operated in stable condition, both the voltage and frequency, since MISG received sufficient active power and reactive power. While under loss of grid condition, MISG does not receive reactive power, so it is necessary to add capacitor as a source of reactive power in order to operate the MISG. Voltage will drop due to overload when loss of grid occurs, therefore load shedding is necessary to prevent voltage drop. Sequence of load shedding affects the stability of the system. Capacitor value also affects the output voltage after loss of grid condition. There is maximum time limit in performing load shedding after loss of grid condition and if it is too long then MISG will fail to operate.