design and construction of a digital a.c/d.c...
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DESIGN AND CONSTRUCTION OF A
DIGITAL A.C/D.C VOLTMETER
RANGE (0 - 250V)
BY
EJIONYE ONYEKACHI CHRIS
(2005/23016EE)
A THESIS SUBMITTED TO THE DEPARTMENT OF
ELECTRICAL AND COMPUTER ENGINEERING,
FEDDERAL UNIVERSITY OF TECHNOLOGY MINNA.
NOVEMBER, 2010
DEDICATION
I dedicate this work to God Almighty for his grace, love, strength and inspiration and to my
mother Dr. (Mrs) T.N Ejionye for her unending love and care.
II
DECLARATION
I, Ejionye Onyekachi Chris, declare that this work was done by me and ha~ never been
presented elsewhere for the award of a degree. I also hereby relinquish the copyright to
"
the Federal University of Te'chnology, Minna.
Ejionye Chris Onyekachi (Name of stud t
Engr A. G Raj i e of Head of Department)
111
MR L.J Olatomiwa (Name of Supervisor)
~ . 0'1> I/-'uV(;Lo/O 19p.atu e and date)
er)
~::::::::::::::===~--J.J[ ( Jl/I 0 (Signature and date)
ACKNOWLEDGEMENT
I thank God almighty, who is merciful and faithful in all things and has done exceedingly more
than I can imagine. I thank him for his grace, provision, protection and sustenanCf through the
academic stress undergone throughout my stay in this institution.
Abundant appreciation goes to my supervisor, Mr L. J. Olatomiwa who has remained committed
in interest, advice and supervision that led to the successful completion of thi s work.
My ~i !lce re gratitude goes to all lecturers in the dep:lrtP.1c>n! of' FI.;:'rtrira\lcomputer engineering,
for having lectured me the best way they can throughout my stay in school and for their
contributions to the success of this project.
Much gratitude goes to my parent Mr and Mrs. Dick Thony Iherinwa for their parental support.
love, moral and financial support.l cannot forget my beloved brother Dr E.C. Ejionye, who has
really shown me, that love cannot only be felt but also can be seen.
My sincere gratitude also goes to those who have always inspired me and mentor me one way or
the other throughout my entire life up to this moment.
Much love and thanks goes to my dear sisters in person of Mrs chizzy, Miss Uzoma Iherinwa,
Miss Gladden Iherinwa, Chinyere Iwuajoku, Chioma Anichebe, Miss Ebere Nmaju. And to my
lovely friends whom have been beside me from the start in persons of Chimezie Nzom, Enemali
Okwoli , Ajiboye Wale (Walex), Vivian Moyo, Vicky, Aishatu, Femi, Fagbemi, Dayo, Murruf,
Paulinajekeli , Helen Nwachukwu, Nkechinyere Umegbo, Bukky, Worus, Dammy, Abey,
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ACKNOWLEDGEMENT
I thank God almighty, who is merciful and faithful in all things and has done exceedingly more
than I can imagine. I thank him for his grace, provision, protection and sustenanCf through the
academic stress undergone throughout my stay in this institution.
Abundant appreciation goes to my supervisor, Mr L. J. Olatomiwa who has remained committed
in interest, advice and supervision that led to the successful completion of thi s work.
My !' incere gmtitude goes to all lecturers in the dep3rtmr nt of F I ~rtri ca\!(,0mpt!te r engineering,
for having lectured me the best way they can throughout my stay in school and for their
contributions to the success of this project.
Much gratitude goes to my parent Mr and Mrs. Dick Thony Iherinwa for their parental support,
love, moral and financial support.! cannot forget my beloved brother Dr E.C. Ejionye, who has
really shown me, that love cannot only be felt but also can be seen.
My sincere gratitude also goes to those who have always inspired me and mentor me one way or
the other throughout my entire life up to this moment.
Much love and thanks goes to my dear sisters in person of Mrs chizzy, Miss Uzoma Iherinwa,
Miss Gladden Iherinwa, Chinyere Iwuajoku, Chioma Anichebe, Miss Ebere Nmaju. And to my
lovely friends whom have been beside me from the start in persons of Chimezie Nzom, Enemali
Okwoli, Ajiboye Wale (Walex), Vivian Moyo, Vicky, Aishatu, Femi , Fagbemi, Dayo, Murruf,
Paulinajekeli , Helen Nwachukwu, Nkechinyere Umegbo, Bukky, Worus, Dammy, Abey,
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Ikenna, Joseph, Chidera and Lukman. Also to those who ~ loved and supported me, your
cooperation can never be over emphasizes. Ca.nnot thank you all enough.
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ABSTRACT
The design and construction of a digital voltmeter is presented in this project work by applying
the appreciation of the technique used to convert an analogue voltage signal to a digital display
via successive approximation technique and the use of a miccrocontroller.
The AID converter (ADC0804) is a CMOS 8 bit successive approximation AID converter, which
translate the analogue voltage at the input into a 8 bit digital word at the output. An increase in
the analogue input voltage give a corresponding increase of a single binary count of the encoder
oftheADC.
The 8 bit digital word at the output of the encoder (ADC) is loaded into one of the four ports of
the microcontroller which is made of 8 data line, where they are computed and converted to the
decimal equivalent and sent to the liquid crystal display (LCD) where it dispays the decimal
value computed by the microcontroller, which indicates the value of the analogue ac/dc voltage
signal measured.
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TABLE OF CONTENT
Tittle page .............................................................................................................................. j
Declaration .............................................................................................................................. ii
Dedication ............................................................................................................................... .iii
Certification ............................................................................................................................. .iv
Acknowledgement .................................................................................................................... v
Abstract .................................................................................................................................... vii
Table of content ....................................................................................................................... viii
List of figures ............................................................................................................................ xi
List of tables .............................................................................................................................. xii
Chapter One : General Introduction ........................................................................................... 1
1.1 Introduction .................................................................................................................... 1
1.2 Project objective and Motivation ................................................................................... 2
1.3 Methododlogy ................................................................................................................ 2
1.4 Method used in measurement and instrumentation ....................................................... .3
1.4.1 Analogue methodltechnique .......................................................... ............ ......... 3
1.4.2 Comparison technique ............................................ ............................................ 4
1.4.3 Digital technique ................................................................................................. 4
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1.5 Voltage measurement ...................................................................................................... 4
1.6 Analogue to digital conversion ........................................................................................ 5
1.7 Project outline ................................................................................................................. 5
Chapter Two : Theoretical background ....................................................................................... 6
2.1 Literature review ............................................................................................................. 6
2.2 Successive approximation converter ............................................................................... 8
2.3 The analogue to digital converter ................................................................................... 11
2.4 The microcontrolIer ........................................................................................................ 14
2.5 The liquid crystal display (LCD) ..................................................................................... 16
Chapter Three : Design analysis and construction ...................................................................... 18
3.1 Construction .................................................................................................................... 18
3.2 Design analysis and methodology ................................................................................... 19
3.2.1 The probes ........................................................................................................... 20
3.2.2 The rectifier .......................................................................................................... 20
3.2.3 The shunt resistor ................................................................................................. 21
3.2.4 Potential dividers .................................................................................................. 22
3.2.5 The Diodes ........................................................................................................... 23
3.2.6 Analogue to digital coverters (ADC0804) ........................................................... .23
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3.2.7 The microcontroller ..... ...... ...... .... .. ......... ..... ..... ..... ... .... .... ............. .................... .. 25
3.2.8 The visual display unit.. ... .... .... ...... ........ ... ..... ..... ..... ...... ........... .... ...................... 26
3.2.9 The battery monitor .................. ...... .. ........... ...... ... ........ ......... .. ......... ....... ....... .... . 29
3.3 Programming a microcontroller ..... .. .......... ........... ........ .... ................ ..... .. ............ .......... .30
3.4 The programe flowchart ..................................................................................... ........ .... 31
Chapter Four: Testing and Result.. ................ ................ .. ... ....... ........ ... ...................... ...... ....... .33
4.1 Device packaging ................ .............. .... ..................... ........... .... .... ........ ...... .... ... ........... .33
4.2 Testing and Result ............................................................................ .............. ............... 33
4.3 Discussion of result ........ ....... .......... ....... ........ ................. .. .. ............ ...... ... ......... ....... .. ... . 34
Chapter Five: Conclusion and recommendatioll ......................................................... ............ ... 35
5.1 Conclusion ... .... ... ... ....... ...... ...... .. ...... ...... .................. .......... ... .. ...... ....... ........... ... ......... .. 36
5.2 problem encountered!challenges ....... .... .... ..... .... ..... ... .. .... ...... ... .. .. ... ........... .......... ......... 36
5.3 Recommendation ...... .... ................. ... ............... .... ........ .... .. ...... ................... ................... 37
5.4 Refference .................................................................................. ................................. ... 38
Appendix A:
Appendix B :
Appendix C :
Appendix D :
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LIST OF FIGURES
Fig 2.1 simplified block diagram of a successive approximation technique ................................ 10
Fig 2.2 Flowchart of the operation of the successive approximation ADC .............................. .11
Fig 2.3 Block diagram of ADC0804 architecture ...... ..................... ............................................. 13
Fig 2.4 Pin layout of 8951 ................... ........................................................................................ 15
Fig 2.5 Intel 8051 architecture ......................................... ...................................... ...................... 16
Fig 2.6 Diagram of a 2-by-16 character LCD format .................................................................. 18
Fig 3.1 Block diagram of a digital (ac/dc) voltmeter ........................................... ...................... 20
Fig 3.2 Diagram showing the connection between the rectifier, diode and the potential divider .....
.......................................... ........................................................................................................... 23
Fig 3.3 diagram of ADC at free running mode ........................................................................... 24
Fig 3.4 Diagram showing the ports and parts of a microcontroller .............................................. 25
Fig 3.5 Diagram of a 2-by-16 LCD .................................................... ........................................... 27
Fig 3.6 A diagram showing the pin connection ofLM 324 ................................. : ......................... 29
Fig 3. 7The programe flowchart .................................................................................................... 31
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