Research Article
APPLICATION OF LEARNING TECHNOLOGY THROUGH THE EXPERIMENT OF TWO FASA INVERTER TO HELP THE HUMAN BODY AND DETERMINE THE INPUT AND OUTPUT POWER
@INPROCEEDINGS{10.4108/eai.23-4-2018.2277582, author={Puji Hariati Winigsih and Handoyo Saputro and Astuti Wijayanti and Ayu Fitri Amalia}, title={APPLICATION OF LEARNING TECHNOLOGY THROUGH THE EXPERIMENT OF TWO FASA INVERTER TO HELP THE HUMAN BODY AND DETERMINE THE INPUT AND OUTPUT POWER}, proceedings={Joint Workshop KO2PI and The 1st International Conference on Advance \& Scientific Innovation}, publisher={EAI}, proceedings_a={ICASI}, year={2018}, month={7}, keywords={experiments two phase inverter induction human body}, doi={10.4108/eai.23-4-2018.2277582} }- Puji Hariati Winigsih
Handoyo Saputro
Astuti Wijayanti
Ayu Fitri Amalia
Year: 2018
APPLICATION OF LEARNING TECHNOLOGY THROUGH THE EXPERIMENT OF TWO FASA INVERTER TO HELP THE HUMAN BODY AND DETERMINE THE INPUT AND OUTPUT POWER
ICASI
EAI
DOI: 10.4108/eai.23-4-2018.2277582
Abstract
Physical experiments have a very important role in the development of science. Due to achieve that, it could be started by increasing the creativity of educators in innovating with the methods, models and learning media used. Research has been conducted with the aim of making a two phase phase inverter media to induce the human body and determine its input and output power. Method in this research was experiment. Tools and materials used include 3 Volts of inverter circuit, powerbank and finger lights. Data collection techniques by determining input and output power. Data were analyzed by using Chi-Square. The results obtained in the form of a two phase inverter experiments. Average input power (3.00 ± 0.005) Watt, output power after induction (2,250 ± 0.005) Watt and Efficiency (9.16 ± 0.005). It appeares that there is an increase in output power up to 3 times of input power. This increase in output power can be enlarged as desired by adding windings to the transformer.