At present many high costly commodities are stolen from several houses, Industrial institutes, commercial areas, and from Banks in Bangladesh. The criminals are into the cash room of the banks and then stole a lot of money . It is caused for want of proper security system.
Because of the want of proper security system and insufficient man power. The criminals are achieved their destiny to inter into the securable area of the houses, offices, Banks, and industries.
So, if we can improve our security system by the help of technical knowledge, then all of stolen are closed immediately. For this result damages and losses can be totally reduced from Bangladesh.
This project is aimed at designing and implementation of an electrical supply controller circuit. .
Origin and Definition of the system
The origin of the word security comes from secure. There are some valuable goods in our society which is limited. Basically we fall in the despair in the absence of authority or occupier of those security less resources. Which system is invented to prevent the wealth losses and stolen security system is called security system.
Types of security system:
- Manpower security system.
- Laser security system by using cellular technology.
- Alarm security system.
- CCTV security system, etc
Definition and applications.
Definition: A transformer is a static or stationary piece of apparatus by mean of which electric power in one circuit is transferred into electric power of the same frequency in another circuit . It produces neutrally induced emf according to Faraday,s Law of electromagnetic induction.
Diode means two electrode device. Di(two) and electrode are joined then make diode. Diode has two connecting terminal or lead. Actually diode is a one-way device when apply forward bias it acts Low resistance and allow to pass current but apply reverse bias then it shows high resistance that insulator and not allow to flow current. Diode is mostly used as rectifiers. That is for converting Alternating current to diode current.
Application of diode:
The main application of semiconductor diodes in modern electronic circuitry are as follows:
A). As Power or Rectifier diode. They convert AC current into DC current for DC power supplies of electronic circuits.
B) As signal diodes in communication circuits for modulation and demodulation of small signals.
C) As Zenar diodes in voltage stabilizing circuit.
D) As a narrator diodes for use in voltage controller tuning circuits as may be found in radio and television receivers.
E) In logic circuits used in computers. Also we use(In-4007) diode in the construction of Mobile laser security system.
Definition: A capacitor is a device that stores energy in an electrostatic field. A capacitor can draw energy relatively slowly from battery and it than can release the energy rapidly. Generally a capacitor consists two conducting plates which are totally isolated from their environment and exist in the vacuum.
Types of capacitor:
- Cylindrical capacitor.
- Parallel Plate capacitor.
Capacitance: The ability to store charge in a capacitor is called capacitance of that capacitor. When we charge a capacitor, we find the charge q that appears on the capacitor plates is always directly proportional to the potential difference between the plates
So q v.
=> q = c v.
We used a full wave Bridge Rectifier in our Project. It is the most frequently used circuit for electronic DC power supplies. It requires four diodes (IN-4007).
Working Procedure of a Rectifier:
During the positive input half cycle, terminal M of the secondary is positive and N is negative so diodes D1 & D3 becomes forward biased(ON) whereas D2 & D4 reverse biased(OFF). Hence, current flows along MEABCFN producing a drop across RL. During the negative input half-cycle, secondary terminal N becomes positive and M negative. Now D2&D3 are forward-biased. Circuit current flows along NFABCEM as shown in figure-2.5. Hence. We find
that current keeps flowing through load Resistance RL in the same direction AB during both half cycles of the AC input supply. Consequently point A of the Rectifier always acts as an anode an point C as cathode. The output voltage across RL is as shown in figure- Its frequency is twice that of the supply frequency.
The main function of a filter circuit is to minimize the ripple content in the rectifier. We know the output of rectifiers contain harmonics. Filters can be used to smooth out the DC output voltage of the rectifier and these are known as DC filters. The DC filters are usually of L,C, and LC type, as shown in fig:2.8 . Due toe rectification action, the output current of the rectifier contains harmonics also and an AC filter is used to filter out some of the harmonics from the supply system. The AC filter is normally of LC type.
Normally the filter design requires determining The magnitudes and frequencies of the harmonics.
Light emitting diode is a forward biased P-N junction which is emitting the visible light when energized. Two colure of the emitted light depends of the type of material used as giver below:
A) Ga, As—————————-infrared radiation(invisible).
B) Gap——————————-Red or green light.
C) Ga,As,P—————————Red or yellow( amber light).
LEDs emit no light when reverse biased. In fact, operating LEDs in reverse direction will quickly destroy them. LEDs are used as input power required, output power wave length of emitted , efficiency , turn on and turn off time, light intensity and brightness etc. We are used LED as a input power indicator.
LDR means light dependent Resistor. It is made by a single layer of photosensitive martial. It is also called a photo resistor of photo conductor, photo conductive cell.
Principle: It is based on the principle that the resistance of certain semiconductor materials decreases when they are exposed to radiations. In other words. Such materials nave high dark resistance and low irradiated resistance.
Construction: The four materials normally employed in photo conductive cells are cadmium sulphide(cds), cadmium selienide(edse), lead sulphide and thalamium sulphide(tis). The simplified two dimensional model of the commonly used cds cell is shown in fig: 2.10 and its circuit symbol in fig: 3.10