A Thyristor or SCR (silicon controlled rectifier) is bit like a transistor.
When a small current flows into the GATE,
this allows a larger current to flow from the ANODE
to the CATHODE.
Even when the current into the gate stops the thyristor continues to
 flow current from anode to cathode.
It needs only a small trigger to turn ON.
There are two methods to stops its conduction
1. diverge anode current to other circuit
2. apply negative voltage
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Monday, 4 February 2013
What is Thyristor?
Sunday, 3 February 2013
Input form User in C++
Today i'll teach you how to get input form user
cin>> means input form user, now this input should be store in some where after that we print that input or use some where else
if input is an integer type we can define as int
after that any variable where you save your input like i'll save in a
as int a;
; means end of command
\n means next line
#include<iostream.h>
void main()
{
int a;
cout<<"enter your input";
cin>>a;
cout<<"your entered\n";
cout<<a;
}
cin>> means input form user, now this input should be store in some where after that we print that input or use some where else
if input is an integer type we can define as int
after that any variable where you save your input like i'll save in a
as int a;
; means end of command
\n means next line
#include<iostream.h>
void main()
{
int a;
cout<<"enter your input";
cin>>a;
cout<<"your entered\n";
cout<<a;
}
Regulated Power Supply Circuit
Today i'll give you a circuit diagram for regulated power supply which will give regulated DC output
In this circuit we uses a LM317 and LM337 as regulators,LM317 is for regulating a +ive voltage and LM317 is for regulating -ive voltage, in the start of circuit there is a bridge rectifier for converting AC to DC and capacitors to remove ripples.
Here are the components that are used in this circuit:-
Capacitors:
C1, C2 (2200 uF 50V)
C3, C4, C5, C7 (2.2 uF 50V)
C6, C8 (100 uF 50V)
Resistors:
R1, R4 (5K Potentiometer)
R2, R3 (220 Ohms 1/4 W Resistor)
Active Components:
D1 to D4 IN 4007 Diodes
U1 LM317 U2 LM337
T1 (24-0-24 Center Tapped 2 Ampere Transformer)
S1 ( Switch)
If you have any query regarding this circuit comment below.
Best of Luck Engineers :D
In this circuit we uses a LM317 and LM337 as regulators,LM317 is for regulating a +ive voltage and LM317 is for regulating -ive voltage, in the start of circuit there is a bridge rectifier for converting AC to DC and capacitors to remove ripples.
Here are the components that are used in this circuit:-
Capacitors:
C1, C2 (2200 uF 50V)
C3, C4, C5, C7 (2.2 uF 50V)
C6, C8 (100 uF 50V)
Resistors:
R1, R4 (5K Potentiometer)
R2, R3 (220 Ohms 1/4 W Resistor)
Active Components:
D1 to D4 IN 4007 Diodes
U1 LM317 U2 LM337
T1 (24-0-24 Center Tapped 2 Ampere Transformer)
S1 ( Switch)
If you have any query regarding this circuit comment below.
Best of Luck Engineers :D
Power Distribution System
Today i'll give you complete diagram which will show you about the Power Distribution System.
From power plant there is a Step up transformer which convert generated voltage in to high voltage to reduce losses.
Power plant can be any form hydro,wind,coal,thermal.
After that it is converted into 230KV to supply substation after substation it is converted in to 69KV and then to 11KV, now some industries require 11KV so before further step down of voltage it is supplied to industries, after that 11kV is further step down to 220-240V for houses and other residential areas
From power plant there is a Step up transformer which convert generated voltage in to high voltage to reduce losses.
Power plant can be any form hydro,wind,coal,thermal.
After that it is converted into 230KV to supply substation after substation it is converted in to 69KV and then to 11KV, now some industries require 11KV so before further step down of voltage it is supplied to industries, after that 11kV is further step down to 220-240V for houses and other residential areas
Saturday, 2 February 2013
Fardays Law
Today i am going to give you intro about faraday's law.
Now what is faraday's law:
It states that rate of change of magnetic flux around a closed path produces emf (electromotive force) in other words voltage.
Now question is what is flux:
When magnetic field lines passed through any area, its called flux.
Changing magnetic flux means increasing or decreasing magnetic fields.
This can be achieved by moving a magnet in to and fro motion to the closed loop or path which causes emf in the coil.
EMF=-N*d(&)/dt
N: is the number of turns on the Coil
&: is the flux
- sign: is due to lenz law
Best example is Transformer
Now what is faraday's law:
It states that rate of change of magnetic flux around a closed path produces emf (electromotive force) in other words voltage.Now question is what is flux:
When magnetic field lines passed through any area, its called flux.
Changing magnetic flux means increasing or decreasing magnetic fields.
This can be achieved by moving a magnet in to and fro motion to the closed loop or path which causes emf in the coil.
EMF=-N*d(&)/dt
N: is the number of turns on the Coil
&: is the flux
- sign: is due to lenz law
Best example is Transformer
Solution Manual for B.P Lathi Book
Today i am going to upload a solution manual of Modern Analog and Digital Communication System by B.P Lathi.
I know many of electrical engineering student don't get solution manual from internet of i am gonna upload it.....
This is the best book for learning communication systems, because its in simple language that every one can understand.
So here is the solution manual:-
http://www.mediafire.com/view/?uj48zshvd31eua3
Best of Luck Engineers :D
I know many of electrical engineering student don't get solution manual from internet of i am gonna upload it.....
This is the best book for learning communication systems, because its in simple language that every one can understand.
So here is the solution manual:-
http://www.mediafire.com/view/?uj48zshvd31eua3
Best of Luck Engineers :D
Electricity from Bacteria !!!!!!
Most bacteria, like all animals, get their energy from the
cellular respiration process, which converts glucose and oxygen to carbon
dioxide and water. Oxygen accepts electrons as it combines with other chemicals
in reactions. But bacteria when underground have no oxygen to breathe. For that
they produce energy for their growth by transferring electrons to rust and
other surrounding metal oxides.
Bacteria at the,
converting plant and animal debris in the mud into electricity and carbon
dioxide. Electrons flow through wires to a cathode sitting in water above the
mud, where they combine with oxygen to complete the circuit. The bacteria are
highly efficient and can produce electricity continuously for many months or
even years.
Ohm's Law
Ohm law is any important law in Electrical Engineering
Ohms law states that
voltage across a resistance is equals top product of current passing through resistance;
Resistance R
Voltage V
current I
Formula:
V=IR
if we know any two values like current and voltage we can find other one like resistance........
Ohms law states that
voltage across a resistance is equals top product of current passing through resistance;
Resistance R
Voltage V
current I
Formula:
V=IR
if we know any two values like current and voltage we can find other one like resistance........
Light Dark Sensor
This is a light dark sensor, it uses BJT (bipolar junction transistor), LDR (Light dependent resistor), LED (Light emitting diode), and a resistor for biasing BJT, it uses 6V but you can use 9V too because i used a 9V battery.
care should be taken in determining base,emitter and collector for BJT.
In its working, at night resistance of LDR increases and BJT starts conducting but during day its resistance is almost negligible and BJT is in non-conducting state.
care should be taken in determining base,emitter and collector for BJT.
C++ a complete guide
Today i am going to upload all the stuff related to C++ including Slides, project that i made when i was in 3rd semester,small programs,a complete guide for beginners
Hope this will help you in your course, i you found any difficulty please feel free to comment, i will help you :)
here is a link
http://www.mediafire.com/download.php?o73nnaagxunlimy
Best of Luck Engineers
Hope this will help you in your course, i you found any difficulty please feel free to comment, i will help you :)
here is a link
http://www.mediafire.com/download.php?o73nnaagxunlimy
Best of Luck Engineers
Calculus harward Anton Bivens davis 8th edition
Today i am uploading Solution manual for Calculus by harward Anton Bivens davis 8th edition
If you wanna any help related to this course please feel free to comment :) i will try to help you.
here is a link for solution manual
http://www.mediafire.com/download.php?oi2tet9v1qykzsw
Best of luck engineers :D
If you wanna any help related to this course please feel free to comment :) i will try to help you.
here is a link for solution manual
http://www.mediafire.com/download.php?oi2tet9v1qykzsw
Best of luck engineers :D
Fundamentals of Physics by halliday Resnick 8ed solution manual
If you wanna learn Physics and its fundamentals, there is a book named Fundamentals of Physics 8th edition by Halliday Resnick ,This book is for all engineering students, i have completed this course in two semester as physics 1 and physics 2 in 1st and 2nd semester.This is a good book that clears all your concept, you can download from google, i am uploading its solution manual because many students cannot find its solution manual thats why i am uploading its solution manual.
If you cannot find its book comment below i will upload it, so here is a solutin manual link
http://www.mediafire.com/view/?xs13dw5accx7uit
Best of Luck Engineers
If you cannot find its book comment below i will upload it, so here is a solutin manual link
http://www.mediafire.com/view/?xs13dw5accx7uit
Best of Luck Engineers
Friday, 1 February 2013
Object oriented programming by Robert Lafore
If you wanna learn Object oriented programming in C++ you can download a book by Robert Lafore from a link given below
http://www.mediafire.com/view/?az91nvqu4wa166o
I learnt alot from this book thats why i prefer this book if you wanna learn Programming.This book clears all the concept of c++.
If you found some problem or stuck some where comment your query i will guide you, but you should know about basic in C++.
Transformer
Transformer:-
it is an electrical device which step up or step down AC voltage with no change in frequency.
In its construction it contain a core made of ferromagnetic sheets which may be in F, E and I shaped.
Insulated copper wire is used as its winding.
Core has two sides primary and secondary side.
If it is step down transformer its primary side has greater number of turns of winding then Secondary.
and if it step up transformer, number of turns on primary side is less then secondary.
In both side of transformer total power remains constant that is IV (current*voltage).
We have a formula to calculate number of turns
Vp/Vs =Np/Ns
Vp is primary voltage
Vs is secondary voltage
Ns is number of secondary turns
Np is number of primary turns
Example of Step up transformer:- Inverter which step up voltage form 12 V to 220V Ac which is used in UPS(uninterrupted power supply)
Example of Step down transformer:- 5V DC power supply, in this power supply we have to convert 220V ac to 5V ac by step down transformer then by using bridge rectifier we can convert it in to dc
it is an electrical device which step up or step down AC voltage with no change in frequency.
In its construction it contain a core made of ferromagnetic sheets which may be in F, E and I shaped.
Insulated copper wire is used as its winding.Core has two sides primary and secondary side.
If it is step down transformer its primary side has greater number of turns of winding then Secondary.
and if it step up transformer, number of turns on primary side is less then secondary.
In both side of transformer total power remains constant that is IV (current*voltage).
We have a formula to calculate number of turns
Vp/Vs =Np/Ns
Vp is primary voltage
Vs is secondary voltage
Ns is number of secondary turns
Np is number of primary turns
Example of Step up transformer:- Inverter which step up voltage form 12 V to 220V Ac which is used in UPS(uninterrupted power supply)
Example of Step down transformer:- 5V DC power supply, in this power supply we have to convert 220V ac to 5V ac by step down transformer then by using bridge rectifier we can convert it in to dc
What is Diode?
It has two parts anode and cathde, anode is positive side and cathode is negative side.
Diode is like a valve, it starts conducting when it is in forward biased and stops when it is in reverse biased
now what is forward and reverse biased
farward biased means when anode is at higher potential and cathode is at lover potential like +5V at anode and -ive5V ,0V or 1V any value less then +5V, in reverse biased anode is at lower potentential and cathode.
it has voltage drop of 0.7 volt.
Diode is like a valve, it starts conducting when it is in forward biased and stops when it is in reverse biased
now what is forward and reverse biased
it has voltage drop of 0.7 volt.
AC and DC
AC
this changing of polarity has fix rate that is know as frequency it may be 50Hz or 60hz
means Alternating current that is it changes its polarity from positive voltage to negative voltage like ifwe have 220V AC then it changes from +ive220 and -ive=220
this changing of polarity has fix rate that is know as frequency it may be 50Hz or 60hz
Ac may be three phase or single phase
DC
means direct current, has two fixed polarities +ive and -ive, cannot change its polarity thats why it has no frequency i.e f=0Hz
Simple Message in C++
Today i am going to teach you how to print a simple program in C++
before that i give you intro of some basic commands
- cout<< is used for output
- cin>> is used for input
- "your message" any string is placed in between commas
- main() its a main body to any program where code is written
- #include is a library should be added for input and output from the program
here a simple program to print Hello world as a message
#include<iostream.h>
void main()
{
cout<<"hello worls";
}
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