ABSTRACT
Metal detectors are electronics sensors that indicate the presence of metallic object without making physical contact with object. They are effective and useful security tools employed in strategic places such as airport, bank, stadiums, government houses and also in production industries to detect presence of metallic object on person luaggages, consignments foods, drugs garments etc. The study present a metal detector comprising a radio frequency oscillator, demodulating unit, triggering unit and output unit. A transistor colpit oscillator is used with its inductor being a toroidal coil, this acting as a transducer converting magnetic variation to voltage level changes through director feedback mechanism. The bank circuit is set such that the feedback outage is just sufficient to maintain oscillation. Magnetic variation caused by metallic object distort the initial set position, automatically cutting of oscillation and hence the transistor due to the biasing techniques employed the trigger section switches to low level and higher level depending on the output of the demodulator, which switches ON and OFF the (Led) light emitting diode and cuases the buzzer to produce and an active toner. It detects both ferrous and metal at a range determined by the type of material and its relative size.
TABLE OF CONTENTS
Cover Page -- -- -- -- -- -- -- -- -- -- i
Title Page -- -- -- -- -- -- -- -- -- -- ii
Approval Page -- -- -- -- -- -- -- -- -- iii
Dedication -- -- -- -- -- -- -- -- -- -- iv
Acknowledgement -- -- -- -- -- -- -- -- v
Abstract -- -- -- -- -- -- -- -- -- -- vi
Table of contents -- -- -- -- -- -- -- -- -- vii
List of Figure -- -- -- -- -- -- -- -- -- ix
Metal detectors are electronics sensors that indicate the presence of metallic object without making physical contact with object. They are effective and useful security tools employed in strategic places such as airport, bank, stadiums, government houses and also in production industries to detect presence of metallic object on person luaggages, consignments foods, drugs garments etc. The study present a metal detector comprising a radio frequency oscillator, demodulating unit, triggering unit and output unit. A transistor colpit oscillator is used with its inductor being a toroidal coil, this acting as a transducer converting magnetic variation to voltage level changes through director feedback mechanism. The bank circuit is set such that the feedback outage is just sufficient to maintain oscillation. Magnetic variation caused by metallic object distort the initial set position, automatically cutting of oscillation and hence the transistor due to the biasing techniques employed the trigger section switches to low level and higher level depending on the output of the demodulator, which switches ON and OFF the (Led) light emitting diode and cuases the buzzer to produce and an active toner. It detects both ferrous and metal at a range determined by the type of material and its relative size.
TABLE OF CONTENTS
Cover Page -- -- -- -- -- -- -- -- -- -- i
Title Page -- -- -- -- -- -- -- -- -- -- ii
Approval Page -- -- -- -- -- -- -- -- -- iii
Dedication -- -- -- -- -- -- -- -- -- -- iv
Acknowledgement -- -- -- -- -- -- -- -- v
Abstract -- -- -- -- -- -- -- -- -- -- vi
Table of contents -- -- -- -- -- -- -- -- -- vii
List of Figure -- -- -- -- -- -- -- -- -- ix
Chapter one
1.1 Background of the Study -- -- -- -- -- -- 1
1.2 Purpose of the Project -- -- -- -- -- -- -- 7
1.3 Justification of the Project -- -- -- -- -- -- 7
1.4 Scope of the Project -- -- -- -- -- -- -- 8
1.5 Limitation/Constraints -- -- -- -- -- -- -- 8
1.6 System Block Diagram -- -- -- -- -- -- -- 9
1.7 Project Report Organization -- -- -- -- -- -- 10
1.1 Background of the Study -- -- -- -- -- -- 1
1.2 Purpose of the Project -- -- -- -- -- -- -- 7
1.3 Justification of the Project -- -- -- -- -- -- 7
1.4 Scope of the Project -- -- -- -- -- -- -- 8
1.5 Limitation/Constraints -- -- -- -- -- -- -- 8
1.6 System Block Diagram -- -- -- -- -- -- -- 9
1.7 Project Report Organization -- -- -- -- -- -- 10
Chapter Two
2.1 History and Development of Metal Detector -- -- -- 12
2.2 Types of Metal Detector -- -- -- -- -- -- 14
2.3 Uses and Application -- -- -- -- -- -- -- 16
2.3.1 Security Screening -- -- -- -- -- -- -- 16
2.3.2 Hobby Security -- -- -- -- -- -- -- -- 17
2.3.3 Industrial Application -- -- -- -- -- -- -- 17
2.4 Modes of Operation of Metal Detector -- -- -- -- 18
2.1 History and Development of Metal Detector -- -- -- 12
2.2 Types of Metal Detector -- -- -- -- -- -- 14
2.3 Uses and Application -- -- -- -- -- -- -- 16
2.3.1 Security Screening -- -- -- -- -- -- -- 16
2.3.2 Hobby Security -- -- -- -- -- -- -- -- 17
2.3.3 Industrial Application -- -- -- -- -- -- -- 17
2.4 Modes of Operation of Metal Detector -- -- -- -- 18
Chapter three
3.1 Circuit Diagram of a Metal -- -- -- -- -- -- 19
3.2 List of Components Used -- -- -- -- -- -- 19
3.3 Resistors -- -- -- -- -- -- -- -- -- 26
3.4 Operational Amplifier -- -- -- -- -- -- -- 29
3.5 Nand Gate -- -- -- -- -- -- -- -- -- 30
3.6 Design Analysis -- -- -- -- -- -- -- -- 31
3.1 Circuit Diagram of a Metal -- -- -- -- -- -- 19
3.2 List of Components Used -- -- -- -- -- -- 19
3.3 Resistors -- -- -- -- -- -- -- -- -- 26
3.4 Operational Amplifier -- -- -- -- -- -- -- 29
3.5 Nand Gate -- -- -- -- -- -- -- -- -- 30
3.6 Design Analysis -- -- -- -- -- -- -- -- 31
Chapter Four
4.1 Construction Steps -- -- -- -- -- -- -- 33
4.2 Packaging -- -- -- -- -- -- -- -- -- 35
4.3 Bill of Engineering and Means of Evaluation -- -- -- 37
Chapter Five
5.1 Conclusion -- -- -- -- -- -- -- -- -- 38
5.2 Result -- -- -- -- -- -- -- -- -- 39
5.3 Recommendation -- -- -- -- -- -- -- -- 39
References -- -- -- -- -- -- -- -- -- 41
4.1 Construction Steps -- -- -- -- -- -- -- 33
4.2 Packaging -- -- -- -- -- -- -- -- -- 35
4.3 Bill of Engineering and Means of Evaluation -- -- -- 37
Chapter Five
5.1 Conclusion -- -- -- -- -- -- -- -- -- 38
5.2 Result -- -- -- -- -- -- -- -- -- 39
5.3 Recommendation -- -- -- -- -- -- -- -- 39
References -- -- -- -- -- -- -- -- -- 41
Disclaimer: Note this academic material is intended as a guide for your academic research work. Do not copy word for word. Note: For Computer or Programming related works, some works might not contain source codes
CITE THIS WORK
(2016, 02). Construction Of Metal Detector.. ProjectStoc.com. Retrieved 02, 2016, from https://projectstoc.com/read/7200/construction-of-metal-detector-2040
"Construction Of Metal Detector." ProjectStoc.com. 02 2016. 2016. 02 2016 <https://projectstoc.com/read/7200/construction-of-metal-detector-2040>.
"Construction Of Metal Detector.." ProjectStoc.com. ProjectStoc.com, 02 2016. Web. 02 2016. <https://projectstoc.com/read/7200/construction-of-metal-detector-2040>.
"Construction Of Metal Detector.." ProjectStoc.com. 02, 2016. Accessed 02, 2016. https://projectstoc.com/read/7200/construction-of-metal-detector-2040.
- Related Works
- Design And Construction Of Automatic Phase Selector
- Design And Construction Of 1000va Power Inverter System
- The Design And Construction Of An Inverter
- Construction Of A 12v Battery Charger
- Construction Of Automatic Change Over Switch
- Construction Of Radio Frequency Gsm Signal Jammer
- Hydro Power Resources In Nigeria
- Micro Controller System For Multi Input Single Output (miso) System
- Home Control Switch Automation Using Gsm Communication
- The Design Of Four Pole Dc Motor With The Application Of Wheelchir