Design and construction of a super capacitor powerbank / by Reyson B. Guinocor and Daniel T. Patosa.

By:

Guinocor, Reyson B [author]

Contributor(s):

Material type: Text

TextLanguage: English Publication details: Indang, Cavite : 2016. Cavite State University- Main Campus,Description: xvii, 82 pages : illustrations ; 28 cmContent type:

text

Media type:

unmediated

Carrier type:

volume

Subject(s):

DDC classification:

621.3028 G94 2016

Online resources:

Click here to view thesis abstract and table of contents

Production credits:

College of Engineering and Information Technology (CEIT)

Abstract: GUINOCOR, REYSON B. and PATOSA, DANIEL T. Design and Construction of Supercapacitor Powerbank. Undergraduate Design Project Bachelor of Science in Electrical Engineering. Cavite State University, Indang, Cavite. Adviser: Engr. Efren R. Rocillo. Supercapacitor is known in industry with a high capacitance and fast charge. Studying the information about supercapacitor leads on using it as a powerbank. Powerbank are used as a back-up source. The study was conducted from November 2015 to June 2016 at the Department of Information and Electrical Technology building, Cavite State University. The general objective of the study was to design and construct a supercapacitor powerbank. Specifically, this study aimed to: I. determine the number and specifications of supercapacitor with formula and computation; 2. design and construct control circuit of supercapacitor powerbank; 3. determine the specifications of battery to be used; 4. determine the number and specifications of solar panel to be used; 5. design and construct voltage regulator; 6. assemble dc-booster circuit for 19 V output; 7. design and construct voltage regulator for 5 V output; 8. assemble the system; 9. test and evaluate the system; and 10. conduct cost computation. The project was evaluated at Engineering Science (ES) building, CVSU, Indang, Cavite. The parameters such as input voltage, capacitance, ampere-hour, current, voltage, time and power output were measured. It was found that the theory about power input over power output must be considered to provide a well efficient source. A 5A input current of supercapacitor must considered to avoid infractions of the circuits before and after charging. The results of the evaluation met the requirement of the objectives to charge a battery and a laptop. It is evaluate by recording the charging time of a load which can charge the laptop about 8.08 percent and for SICK cellphone can charge about 196.97 percent; charging time of the supercapacitor powerbank which can charge about 2 hours and I minute. The results shows that the study was feasible because no other powerbank can charge a laptop than the supercapacitor do. Sooner and later, the community will benefit on this study when the project is developed and introduced. The total cost of the study amounted P 6,592.

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Holdings
Item type	Current library	Collection	Call number	Materials specified	URL	Status	Notes	Date due	Barcode
Theses / Manuscripts	Ladislao N. Diwa Memorial Library Theses Section	Non-fiction	621.3028 G94 2016 (Browse shelf(Opens below))		Link to resource	Room use only	T-6546		00010660

Thesis (BS Electrical Engineering) Cavite State University

Includes bibliographical references.

College of Engineering and Information Technology (CEIT)

GUINOCOR, REYSON B. and PATOSA, DANIEL T. Design and Construction of Supercapacitor Powerbank. Undergraduate Design Project Bachelor of Science in Electrical Engineering. Cavite State University, Indang, Cavite. Adviser: Engr. Efren R. Rocillo.
Supercapacitor is known in industry with a high capacitance and fast charge.
Studying the information about supercapacitor leads on using it as a powerbank.
Powerbank are used as a back-up source. The study was conducted from November 2015 to June 2016 at the Department of Information and Electrical Technology building, Cavite State University. The general objective of the study was to design and construct a supercapacitor powerbank. Specifically, this study aimed to: I. determine the number and
specifications of supercapacitor with formula and computation; 2. design and construct control circuit of supercapacitor powerbank; 3. determine the specifications of battery to be used; 4. determine the number and specifications of solar panel to be used; 5. design and construct voltage regulator; 6. assemble dc-booster circuit for 19 V output; 7. design
and construct voltage regulator for 5 V output; 8. assemble the system; 9. test and evaluate the system; and 10. conduct cost computation. The project was evaluated at Engineering Science (ES) building, CVSU, Indang, Cavite.
The parameters such as input voltage, capacitance, ampere-hour, current,
voltage, time and power output were measured. It was found that the theory about power input over power output must be considered to provide a well efficient source. A 5A
input current of supercapacitor must considered to avoid infractions of the circuits before and after charging. The results of the evaluation met the requirement of the objectives to charge a battery and a laptop. It is evaluate by recording the charging time of a load which can charge the laptop about 8.08 percent and for SICK cellphone can charge about 196.97 percent; charging time of the supercapacitor powerbank which can charge about 2 hours and I minute.
The results shows that the study was feasible because no other powerbank can charge a laptop than the supercapacitor do. Sooner and later, the community will benefit on this study when the project is developed and introduced. The total cost of the study amounted P 6,592.

Submitted copy to the University Library. 02/14/2017 T-6546

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