Wednesday, 30 July 2014

plz like this page in facebook,this page let world know about the problems faced by people of  Nalgonda due to excess fluorosis present in the water. So by viewing this page on facebook, government would come to know about problems faced by them and also these villages might get some funds to become free from that devil fluoride. https://www.facebook.com/pages/Fluoride-Nalgonda/344490329038536?ref=hl

Tuesday, 29 July 2014

Automatic bed light using NE555.(NI My Daq simulations are included)

This main components used in this circuit are Light dependent Resistor(LDR), NE555, and an LED.
The principle in this circuit is when the  light from tubelight falls on the LDR resistance of LDR is very less  and +Vcc  is appeared at the second pin of 555 which is operated in monostable mode. So as +Vcc appears at pin 2 then the output of the 555 is zero (Why output is zero?  for more information about 555 see this link).  When tubelight is switched off light does not fall on the LDR so  LDR offers high resistance so now at pin 2 it is grounded , so the output is one (in terms of Boolean).Note that this circuit is kept near tubelight where more light is falling on it and also more light due to daylight in the morning.

Output:When light is not falling on the LDR i.e.,LED is glowed .





Output of NI My Daq when light is not falling on the LDR.
Output:When light is falling on LDR.(LED is not glowing)
Output of NI My Daq during light is falling on LDR.

Wednesday, 23 July 2014

RPM Counter using 555 timer (Multisim and NI MyDaQ simulation Results included)


This circuit is an RPM counter. The main aim of this circuit is to count no.of rotations made in a minute by a simple wheel. This circuit is divided into 3 parts: 
1) Sensing of the rotations
2) generating the pulse signals
3) Display on the LCD


The circuit makes use of simple Monstable multivibrator[1] operation. It uses IC 555, capacitors, resistors and a battery. When the trigger input is low, then the output remains high. When the trigger is high, output remains low. The triggering is changed in this circuit by the help of a photo transistor. Let us consider a holed rotor all along its periphery. When the light falls on it, it acts as a short circuit and triggering is made low as it is grounded. Then the output is high. When the light is blocked by opaque part of rotor, the trigger is voltage divided from +VCC. Thus output remains low. Whenever hole comes, light falls on transistor and based upon this the output pulses are generated.
Again to make 5 pulses for 5 holes as one pulse, we use another similar multivibrator circuit by changing the width of the pulse by changing the resistance of second 555 multivibrator.

The display is done by Seven Segment display. To know about seven segment display, see this link[2].
Now we get number of cycles per second.We can calibrate it for Rotations Per Minute (RPM).Multiply the output from multivibrator-2 by a factor 60 by placing a multiplier (using an op-amp).After this give it to Seven Segment Display. 

Simulated circuit is below:

We can compare output of one multivibrator to output of the other.






Testing in myDAQ:

This circuit counts only single digit RPM. The same circuit can be further extended to count more RPM by making manipulations in seven segment display ( by increasing the number of seven segment displays) to know about how to increase the number of digits from one to two and more etc  see this link[3] .
References: