Use Of Inverter Off Grid 2000 Watt For Household With Battery Storage

Kusmantoro, Adhi (2019) Use Of Inverter Off Grid 2000 Watt For Household With Battery Storage. In: The 1st International Conference on Computer, Science, Engineering and Technology, 27–28 November 2018, Tasikmalaya, Indonesia.

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Abstract

Solar energy is an environmentally friendly energy and the source of energy is available continuously. In this paper, an electrical energy source for residential houses with 1500 watts of power is designed. In the design of this system, 80 AH battery storage and 2000 watt off-grid inverter are used. The off-grid system design in residential houses with 200 wp PV sources and battery storage systems can be used to meet residential electricity needs. In addition, the design of the off-grid system is very suitable for residential houses in areas not covered by the electricity network. In testing this off-grid system, the PV output current fluctuates against changes in the sun's intensity. To overcome changes in PV output, the control of the battery can quickly regulate the power flow to the load. The charge process and battery discharge are controlled with a voltage sensor. The test results of the off-grid model show that the voltage at the load is always stable, which is 220.8 V. The use of renewable energy in the country of Indonesia is currently being carried out and continues to experience improvement along with the increase in population. Renewable energy sources that are widely available in Indonesia are solar energy, wind energy, and energy from waste waste. Especially for solar energy in Indonesia is widely used as a renewable energy source. This solar energy source can be obtained easily, because Indonesia is a tropical country. Solar energy is an environmentally friendly energy and the source of energy is available continuously. In this paper, an electrical energy source for residential houses with 1500 watts of power is designed. In the design of this system, 80 AH battery storage and 2000 watt off-grid inverter are used. The off-grid system design in residential houses with 200 Wp PV sources and battery storage systems can be used to meet residential electricity needs. In addition, the design of the off-grid system is very suitable for residential houses in areas not covered by the electricity network. In testing this off-grid system, the PV output current fluctuates against changes in the sun's intensity. To overcome changes in PV output, the control of the battery can quickly regu late the power flow to the load. The charge process and battery discharge are controlled with a voltage sensor. The test results of the off-grid model show that the voltage at the load is always stable, which is 220.8 V.

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