Development of a microcontroller-based fruit sorting machine / by Ronalyn Z. Alcaraz

By: Contributor(s): Material type: TextTextLanguage: English Publication details: Indang, Cavite : 2010. Cavite State University- Main Campus,Description: xix, 111 pages : illustrations ; 28 cmContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
Subject(s): DDC classification:
  • 629.89  D49 2010
Online resources: Production credits:
  • College of Engineering and Information Technology (CEIT)
Abstract: Alcaraz Ronalyn Z., Loyola Elaine D., Perefia Nariza M., Villanueva Mark Lyndon Q., Development of a Microcontroller-Based Fruit Sorting Machine of College of Engineering and Information Technology Cavite State University. Undergraduate Design Project Bachelor of Science in Computer Engineering, Cavite State University, Indang, Cavite October 2010. Adviser Mrs. Florence M. Banasihan. The study was conducted to develop a microcontroller-based fruit sorting machine and was proposed to the faculty of the Department of Computer and Electronics Engineering Faculty. The design project aimed to sort different kind of fruits according to weight. It was composed of two machines; the machine sorter and the input bin. Machine sorter was composed of 3 DC motors, load cell, 5 limit switches and the platforms are made of acrylic plastics. The input bin was mainly composed of a conveyor with 1 motor, 4 bearings, 4 rollers and 1 relay. The machine automatically operates once the fruit was present on the weighing scale and would be sorted whether small, medium or large. The program used for the microcontroller was assembly language because it was more human readable method of writing a program. The project was evaluated according to the proponents, adviser, and critic and panelist approval. these control signals. Also, these relays handle the high-voltage ringing signal that cannot be handled by the IC-based logic and switching circuitry. MJ2955 PNP transistor and 12V dc DPDT high-voltage capacity relay were used for the relay driver of the video module. A 14 inch T.V. monitor was used to display the output of the camera. UTP cables were used to interconnect all the peripherals and the Telephone Network Manager. The system was installed and evaluated at the Engineering Science Building. Sixteen phones were setup. The 16th phone was used to trigger the video module. It is tested for telephone company line functionality at Calumpang Cerca, Indang, Cavite. The system cost PHP 51, 945.00.
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Theses / Manuscripts Theses / Manuscripts Ladislao N. Diwa Memorial Library Theses Section Non-fiction 629.89 D49 2010 (Browse shelf(Opens below)) Link to resource Room use only DP-324 00007955

Design Project (BS Computer Engineering) Cavite State University

Includes bibliographical references.

College of Engineering and Information Technology (CEIT)

Alcaraz Ronalyn Z., Loyola Elaine D., Perefia Nariza M., Villanueva Mark Lyndon Q., Development of a Microcontroller-Based Fruit Sorting Machine of College of Engineering and Information Technology Cavite State University. Undergraduate Design Project Bachelor of Science in Computer Engineering, Cavite State University, Indang, Cavite October 2010. Adviser Mrs. Florence M. Banasihan.

The study was conducted to develop a microcontroller-based fruit sorting machine and was proposed to the faculty of the Department of Computer and Electronics Engineering Faculty. The design project aimed to sort different kind of fruits according to weight. It was composed of two machines; the machine sorter and the input bin. Machine sorter was composed of 3 DC motors, load cell, 5 limit switches and the platforms are made of acrylic plastics. The input bin was mainly composed of a conveyor with 1 motor, 4 bearings, 4 rollers and 1 relay. The machine automatically operates once the fruit was present on the weighing scale and would be sorted whether small, medium or large. The program used for the microcontroller was assembly language because it was more human readable method of writing a program. The project was evaluated according to the proponents, adviser, and critic and panelist approval. these control signals.

Also, these relays handle the high-voltage ringing signal that cannot be handled by the IC-based logic and switching circuitry. MJ2955 PNP transistor and 12V dc DPDT high-voltage capacity relay were used for the relay driver of the video module. A 14 inch T.V. monitor was used to display the output of the camera. UTP cables were used to interconnect all the peripherals and the Telephone Network Manager. The system was installed and evaluated at the Engineering Science Building. Sixteen phones were setup. The 16th phone was used to trigger the video module. It is tested for telephone company line functionality at Calumpang Cerca, Indang, Cavite. The system cost PHP 51, 945.00.

Submitted to the University Library 12/06/2010 DP-324

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