Design and construction of photovoltaic panel power stabilizer /
Escanilla, Russell B.
Design and construction of photovoltaic panel power stabilizer / by Russell B. Escanilla and Jex Ysrael A. Juegas. - Indang, Cavite : Cavite State University- Main Campus, 2019. - xxiii, 184 pages : illustrations ; 28 cm.
Design Project (Bachelor of Science in Electrical Engineering) Cavite State University.
Includes bibliographical references.
College of Engineering and Information Technology (CEIT), Department of Computer and Electronics Engineering College of Engineering and Information Technology (CEIT), Department of Computer and Electronics Engineering
ESCANILLA, RUSSELL B. and JUEGOS. JEX YSRAEL A. Design and Construction of
Photovoltaic Panel Power Stabilizer. Undergraduate Design Project. Bachelor of Science
in Electrical Engineering. Cavite State University, Indang, Cavite. June 2019. Adviser:
Engr. Jonathan M. Calina.
A study of a Photovoltaic Panel Power Stabilizer (3PS) was conducted at Cavite State
University Indang, Cavite. It generally aimed to: (1) design and construct a Photovoltaic Panel
Power Stabilizer through integrating supercapacitors technology; (2) test and evaluate the
device' response; and (3) conduct a cost computation. The device were designed based on the
parameters of the existing photovoltaic panel system: the PV panel, solar charge controller, and
the battery.
The input side of the system contains a buck converter which steps down the open circuit
voltage (Voc) of the source, and the output side contains a boost converter which sets the
constant voltage and constant current of the unit delivering a constant power output. The
temporary storage device which consist of two supercapacitor bank were able to harness all the
generated current regardless of high or low generation of the PV panel during the operation of
the device starting from 6 a.m. and ends at 6 p.m..
The unit were tested in a PV panel with a rating of 100 W and 50 W PV panel for five
days. The actual generated output of the PV panel and the output of the 3PS unit was
compared. The study also calculated the total percentage addition of power to the load and the
total cost of the device. Generally, this study proved that the device is reliable and improved the
power output of the PV system. The total cost of the device was P20,000.
Electrical drafting
Bachelor of Science in Electrical Engineering
621.36 / Es1 2019
Design and construction of photovoltaic panel power stabilizer / by Russell B. Escanilla and Jex Ysrael A. Juegas. - Indang, Cavite : Cavite State University- Main Campus, 2019. - xxiii, 184 pages : illustrations ; 28 cm.
Design Project (Bachelor of Science in Electrical Engineering) Cavite State University.
Includes bibliographical references.
College of Engineering and Information Technology (CEIT), Department of Computer and Electronics Engineering College of Engineering and Information Technology (CEIT), Department of Computer and Electronics Engineering
ESCANILLA, RUSSELL B. and JUEGOS. JEX YSRAEL A. Design and Construction of
Photovoltaic Panel Power Stabilizer. Undergraduate Design Project. Bachelor of Science
in Electrical Engineering. Cavite State University, Indang, Cavite. June 2019. Adviser:
Engr. Jonathan M. Calina.
A study of a Photovoltaic Panel Power Stabilizer (3PS) was conducted at Cavite State
University Indang, Cavite. It generally aimed to: (1) design and construct a Photovoltaic Panel
Power Stabilizer through integrating supercapacitors technology; (2) test and evaluate the
device' response; and (3) conduct a cost computation. The device were designed based on the
parameters of the existing photovoltaic panel system: the PV panel, solar charge controller, and
the battery.
The input side of the system contains a buck converter which steps down the open circuit
voltage (Voc) of the source, and the output side contains a boost converter which sets the
constant voltage and constant current of the unit delivering a constant power output. The
temporary storage device which consist of two supercapacitor bank were able to harness all the
generated current regardless of high or low generation of the PV panel during the operation of
the device starting from 6 a.m. and ends at 6 p.m..
The unit were tested in a PV panel with a rating of 100 W and 50 W PV panel for five
days. The actual generated output of the PV panel and the output of the 3PS unit was
compared. The study also calculated the total percentage addition of power to the load and the
total cost of the device. Generally, this study proved that the device is reliable and improved the
power output of the PV system. The total cost of the device was P20,000.
Electrical drafting
Bachelor of Science in Electrical Engineering
621.36 / Es1 2019