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Design and development of microcontroller-based cassava pulverizing machine / by Ralph P. Andam and Randy S. Magadaraog.

By:

Andam, Ralph P [author]

Contributor(s):

Material type: Text

TextLanguage: English Publication details: Indang, Cavite: Cavite State University- Main Campus, 2006.Description: xiv, 58 pages : illustrations ; 28 cmContent type:

text

Media type:

unmediated

Carrier type:

volume

Subject(s):

DDC classification:

620.0042 An2R 2006

Online resources:

Click here to view the abstract and table of contents

Production credits:

College of Engineering, and Information Technology (CEIT)

Abstract: ANDAM, RALPH P. and RANDY MAGDARAOG, Design and Development of Microcontroller-Based Cassava Pulverizing Machine. Undergraduate Design Project. Bachelor of Science in Computer Engineering. Cavite State University, Indang, Cavite. Adviser: Mrs. Aileen V. Rocillo. The study aimed to develop and evaluate a microcontroller-based cassava-pulverizing machine. The microcontroller-based cassava-pulverizing machine was designed to automate and enhance its operation. It specifically aimed to design and construct the microcontroller circuit system, develop software that will control the operation of the machine and evaluate the performance of the machine in terms of its capacity. The machine was composed of two main parts: the pulverizing machine and the microcontroller unit. The pulverizing machine was made up of grinding disc assembly and the metal sheet for the stand, body and grinding chamber, and the microcontroller which unit comprised of a PIC 16F877 microcontroller, a LCD, and an optical sensor that sensed the presence of cassava chips in the hopper. The microcontroller-based cassava-pulverizing machine is operated by placing dried cassava chips in the hopper. After placing the chips, the start button is push to start the operation. The buzzer automatically activate if all the chips in the hopper have entered the grinder chamber, and will have one minute time to place a new set of cassava chips in the hopper to continue the operation. The motor will automatically stop if the sensor did not sensed any chips in the hopper after one minute.

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Holdings ( 1 )
Title notes ( 5 )

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	620.0042 An2R 2006 (Browse shelf(Opens below))		Link to resource	Room use only	DP-220		00001291

Design Project (BS Computer Engineering) Cavite State University.

Includes bibliographical references.

College of Engineering, and Information Technology (CEIT)

ANDAM, RALPH P. and RANDY MAGDARAOG, Design and Development of Microcontroller-Based Cassava Pulverizing Machine. Undergraduate Design Project. Bachelor of Science in Computer Engineering. Cavite State University, Indang, Cavite. Adviser: Mrs. Aileen V. Rocillo.
The study aimed to develop and evaluate a microcontroller-based cassava-pulverizing machine. The microcontroller-based cassava-pulverizing machine was designed to automate and enhance its operation. It specifically aimed to design and construct the microcontroller circuit system, develop software that will control the operation of the machine and evaluate the performance of the machine in terms of its capacity. The machine was composed of two main parts: the pulverizing machine and the microcontroller unit. The pulverizing machine was made up of grinding disc assembly and the metal sheet for the stand, body and grinding chamber, and the microcontroller which unit comprised of a PIC 16F877 microcontroller, a LCD, and an optical sensor that sensed the presence of cassava chips in the hopper. The microcontroller-based cassava-pulverizing machine is operated by placing dried cassava chips in the hopper. After placing the chips, the start button is push to start the operation. The buzzer automatically activate if all the chips in the hopper have entered the grinder chamber, and will have one minute time to place a new set of cassava chips in the hopper to continue the operation. The motor will automatically stop if the sensor did not sensed any chips in the hopper after one minute.

09/27/2006 DP-220 Submitted to the University Library