Lantai Piezoelektri Sebagai Penghasil Sumber Energi Listrik dengan Memanfaatkan Pijakan Kaki

Rohman, Muhammad Saifur and , Agus Supardi, S.T., M.T (2021) Lantai Piezoelektri Sebagai Penghasil Sumber Energi Listrik dengan Memanfaatkan Pijakan Kaki. Skripsi thesis, Universitas Muhammadiyah Surakarta.

[img] PDF (Naskah Publikasi)

Download (1MB)
[img] PDF (Pernyataan Publikasi Ilmiah)
Restricted to Repository staff only

Download (233kB) | Request a copy


One of the non-renewable fuels is fossil fuels. Which means that if the fuel is used it can no longer be used. The continuity of the use of fossil fuel energy sources is increasingly threatened, this is due to the increasing consumption of electricity in this technological era as a very dominant energy source. The development of technology in the digital era as it is today is growing faster in the future. Without realizing it, the use of this technology has increased sharply. On the other hand, with the rapid development of technology, infrastructure development is also getting more advanced. Many buildings, malls, offices, high-rise public places will certainly use a lot of electricity. Besides that, of course there is a lot of human mobility in it. Therefore, we thought of a solution by utilizing piezolectric sensors that are installed on the floor in these places where there must be a lot of human mobility. Piezoelectric sensor is a sensor that can generate electrical energy if there is pressure (mechanical energy) on the sensor. With the mechanical energy of a human footrest, a lot of electricity is generated. This research was conducted by making a floor prototype in which 6 piezoelectric sensors will be installed on the inside, in a series and parallel arrangement. After the piezoelectric sensor is installed, it is connected to other components such as capacitors, leds, and diodes. In the test using the method of stepping on the floor, the resulting voltage and current are measured. For testing using 5 different body weights, namely 45 kg, 50 kg, 55 kg, 61 kg, and 68 kg each series and parallel arrangements. The data obtained from this test shows the highest output power is 0.041 µW with a load of 68 kg in the series arrangement, while in the parallel arrangement it shows 240.59 µW with a load of 61 kg, the load here is a indication of the given pressure. From this data, the piezoelectric sensor arrangement in parallel has the greatest output power.

Item Type: Karya ilmiah (Skripsi)
Uncontrolled Keywords: Fisika, Listrik, Piezoelektrik
Subjects: T Technology > TK Electrical engineering. Electronics Nuclear engineering
Divisions: Fakultas Teknik > Teknik Elektro
Date Deposited: 18 Feb 2021 04:33
Last Modified: 18 Feb 2021 04:33

Actions (login required)

View Item View Item