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Design and development of a wireless solar powered acoustic wave soil moisture detector system for the Cavite State University (CvSU) main campus / by Christian B. Austria, Jonathan R. Crusem and Jeffery A. Gelvis.

By:

Austria, Christian B [author]

Contributor(s):

Material type: Text

TextLanguage: English Publication details: Indang, Cavite: Cavite State University - Main Campus, 2005.Description: xi, 155 pages : illustrations ; 28 cmContent type:

text

Media type:

unmediated

Carrier type:

volume

Subject(s):

DDC classification:

620.0042 Au7 2005

Online resources:

Click here to view thesis abstract and table of contents

Production credits:

College of Engineering and Information Technology (CEIT)

Summary: AUSTRIA, CHRISTIAN B., CRUSEM, JONATHAN R., GELVIS, JEFFREY A., Design and Development of a Wireless Solar Powered Acoustic Wave Soil Moisture Detector System for the Cavite State (CvSU) University Main Campus. Undergraduate Design Project. Bachelor of Science in Electronics and Communications Engineering. Cavite State University, Indang, Cavite. April 2005. Adviser: Engr. Michael T. Costa The design and development of the wireless solar powered acoustic wave soul moisture detector system was constructed at 148 Calumpang Cerca, Indang, Cavite. The main objective of the study was to design, develop and construct wireless solar powered acoustic wave soil moisture detector for the Cavite State University. The project was conducted to provide a wireless soil moisture detector system for the Cavite State University. The system was composed of four main units and two auxiliary units. The main units are: the SDU (Frequency Acoustic Source and Microphone pre-amp unit), RF module, receiver and data display. The auxiliary units are the microphone and the tweeter. The microphone and the tweeter was buried to the dry ten square meter soil area at 3-6 inches deep. Then the area was watered to test the device. A rechargeable battery that is charged by' the solar panel during daytime powered the SDU. A power supply was constructed to .supply the sufficient power needed by the receiver and display. The design was presented to the thesis adviser and the technical critic during the preliminary evaluation conducted at the Central Experimentation Station on February 22, 2005 The final evaluation of the design project took place at the Central Experimentation Station from February 25 — 28, 2005. The system was evaluated by monitoring of the data display.

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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 Au7 2005 (Browse shelf(Opens below))		Link to resource	Room use only	DP-146		00001220

Design Project (BS Electronics and Communication Engineering) Cavite State University.

Includes bibliographical references.

College of Engineering and Information Technology (CEIT)

AUSTRIA, CHRISTIAN B., CRUSEM, JONATHAN R., GELVIS, JEFFREY A., Design and Development of a Wireless Solar Powered Acoustic Wave Soil Moisture Detector System for the Cavite State (CvSU) University Main Campus. Undergraduate Design Project. Bachelor of Science in Electronics and Communications Engineering. Cavite State University, Indang, Cavite. April 2005. Adviser: Engr. Michael T. Costa
The design and development of the wireless solar powered acoustic wave soul moisture detector system was constructed at 148 Calumpang Cerca, Indang, Cavite. The main objective of the study was to design, develop and construct wireless solar powered acoustic wave soil moisture detector for the Cavite State University. The project was conducted to provide a wireless soil moisture detector system for the Cavite State University. The system was composed of four main units and two auxiliary units. The main units are: the SDU (Frequency Acoustic Source and Microphone pre-amp unit), RF module, receiver and data display. The auxiliary units are the microphone and the tweeter. The microphone and the tweeter was buried to the dry ten square meter soil area at 3-6 inches deep. Then the area was watered to test the device. A rechargeable battery that is charged by' the solar panel during daytime powered the SDU. A power supply was constructed to .supply the sufficient power needed by the receiver and display. The design was presented to the thesis adviser and the technical critic during the preliminary evaluation conducted at the Central Experimentation Station on February 22, 2005 The final evaluation of the design project took place at the Central Experimentation Station from February 25 — 28, 2005. The system was evaluated by monitoring of the data display.

Submitted to the University Library 04/12/2005 DP-146