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Construction Of Automatic Phase Changer
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CHAPTER ONE
Raw power instability in developing countries creates a need for automation of electrical power generation or alternative sources of power to back up the utility supply.
This automation is required as the rate of power outage becomes predominantly high. Most industrial and commercial processes are dependent on power supply and if it processes of change-over are manual, serious time is not only wasted but also creates devices or machine damages from human error during the change-over connections,which could bring massive losses.The starting of the generator is done by a relay which switches the battery voltage to ignition coil of the generator while the main power relay switches the load to either public supply or generator.Fig 1 shows the generalized block diagram of the system.The approach used in this work is the moduler approach where the overall design was first broken into functional block diagrams,where each block in the diagram represents a section of the circuit that carries out a specific function.The functional block diagram fig 1 also shows the interconnection between these blocks.Each section of the block is analyzed below.A manual change-over switch consists of a manual change over switch box,switch gear box and cut out fuse or the connected fuse as describe by the by rocks and Mazur{1993}.This change-over switch box separate the sources between the generator and public supply when there is power supply outage from public supply,someone has t go and change the line to generator.Thus when power supply is restored,someone has to put off the generator and then change the source line from generator to public supply.
In view of the above manual change-over switch system that involves man power in starting the generator and switching over from public supply to generator and vice-versa when the supply is restored.
The important attached to cases of operation in hospitals and airport in order to save life from generator as fast as possible makes it important for the design construction of automatic change-over switch which would solve the problem of manpower and the danger likely to been countered changeover.
The electronic control monitors the incoming public supply voltage and detects when the voltage drops below a level that electrical or electronics gadgets can function depending on the utility.
Fig 1 Block diagram of an automatic change over switch
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ABSRACT - [ Total Page(s): 1 ]ABSTRACT WILL BE HERE SOON.... ... Continue reading---
TABLE OF CONTENTS - [ Total Page(s): 1 ]TABLE OF CONTENTCover pageDedicationCertificationAcknowledgementTable of contentCHAPTER ONE1.1Â Â Â Introduction1.2Â Â Â Block diagram of an automatic phase changer 1.3Â Â Â Component listCHAPTER TWO-Component description2.1Â Â Â comparator2.2Â Â Â Zener diode p.n junction,electron,avalanche diode,avalanche breakdown}2.3Â Â Â Rectifier2.4Â Â Â Relay2.5Â Â Â Transformer2.6Â Â Â Capacitor2.7Â Â Â FuseCHAPTER THREE3.1Â Â Â Comparator/voltage sensor stag.3.2Â Â Â Design calculator3.3Â Â ... Continue reading---
CHAPTER TWO - [ Total Page(s): 10 ]Fig 2; wiring up of a dual primary coil ,ains transformer in {a} series and {b} parallel.A main transeormer is specified by:{1} its secondary {output} voltages vs.{2} its maximum power pmax which the transformer can pass quoted in VA {volt - amp}. This determines the maximum output {secondary} current, Imax.   Where VS is the secondary voltage. If there are two give the maximum for each coil.{3} its construction – it may be PCB – mounting, chassis mounting {with solder tag cons ... Continue reading---
CHAPTER THREE - [ Total Page(s): 4 ]DESIGN CALCULATION From fig 2: R1 and R2 from a potential divider to reduce the unregulated voltage to a low voltage of less than 5v at 160v ac input let vr2=1.5vWhere VR2 is the drop across R2 and v+ is the unregulated voltage from table 1 it can be seen that v+ 11v at 160av inputLet R1 =100k-2R2=15.7k2Â Â Â Â =15k-2 preferred valueR3 and R4 from another potential divider for the reference letting a maximum adjustable reference of 3.5v and setting R3=1.5K-2=5kv present (preferred value)Â Â Â ... Continue reading---
CHAPTER FOUR - [ Total Page(s): 2 ]Table 1 shows the variation in D.C voltage against the input public supply voltage.   The normall open and close of the relay were identified with the and of a digital metre to avoid wrong connection of the relay contact.   Fig .5 is the detail circuit diagram of the system.The output of the power supply unit which powers the relays was tested by making the relays to change – over immediately the power supplied. With a generator, the system was tested with public supply source. ... Continue reading---
CHAPTER FIVE - [ Total Page(s): 1 ]CHAPTER FIVEThe various test carried out and the results obtained demonstrate that the automatic phase change. Change –over switch achieved it’s design and construction aim. The system worked accordingly to specification and quite satisfactory. The automatic phase change –over switch is relatively affordable and reliable. It is easy to operate, and it provides a high level of power supply when there are power outages. Finally, it reduces stress associated with `manual change ... Continue reading---
REFRENCES - [ Total Page(s): 1 ]REFERENCES 1.   Faissler, W.L 1991. An introduction to modern electronics, Willey, New York , NY, USA. 2.   Horowitz, P. and winfierld , H. 2002. The Art of electonics, 2nd ed. Cambridge University Press, camridge, UK. 3.   Owen, B. 1995. Begineer’s guide to electronics 4thed. A newness Technical Book , McGraw- Hill comapies Inc. New York, N.Y, USA. 4.   Rocks , G and Mazur, G 1993. electrical motor controls, Ameriacan technical Publ., New- York, N.Y U.S.A5.  ... Continue reading---
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ABSRACT - [ Total Page(s): 1 ]ABSTRACT WILL BE HERE SOON.... ... Continue reading---