Hi Guys/Girls Electronics One of the Impotent Lessons . This is the easiest way to get a Lover Voltage From Higher Voltage.
Main Charastaristics!
After that Use Ohms law to Find the Voltage Across R2.That's Our Vout!
Lets Look at an Example.Lets Think We need 6V from 10V
OK.now We know Vin and Vout ,But we can't find R1 and R2 from one Equation.So lets Choos R1 For Our maximum current Need.
According toVoltage Divider Law ,Voltage Should Divide to Ratio R1:R2 4V:6V.In That case R1 will get 4V.Lets Think Maximum Current = 50mA From Ohms Law ,We will get 80Ohm for R1 .Picture 4
Now We can find R2 from Voltage Divider Equation Picture4
Weget R2 as 12Ohm.. Simple, Isn't it?
But,When We are drawing maximum current from Our divider ,what is the power dissipation in 80 Ohm Resistor
(R1), to do that ,use W=I^2R Now you can see its 0.20W in our R1,So that,s a waste,not good for the 1/4W resistor..In that case we cant draw that much current from a divider,so use large values as much as you can,this is not the Best solution ,when its comes to Impedance ,im not going to talk about that right now,
its good to use lower value resistors for a divider,but it needs much more power ,and large Power Risistors.So rule of thumb use 1K-100k
Lets calculate Power dissipation without a load, ,Total Resistance 80+12 =92ohm ,so according to W=V^2/R see Picture 5
This thing is pissing away about 1W !
So use Large values for R1 and R2

Another Example
Think we need to divide 12v to 6v, so just use 2 Equal Resistor For R1and R2.Now i need 2mA from my divider , Picture 6
I can't do the calculations in typing,so see the Picture
Now you can see the power consumption of the divider.
as a conclusion use Voltage Dividers for Low Current Applications.
But you can Experiment With It.
Last Question Why is this Voltage Divider Isn't Stable?.
Lets apply Our Voltage Divider Equation Ok now theVout Reduce to 6V to 4V, Thats the Diss advantage of the Voltage Divider.
FAINISH!
Voltage Divider's are finish.
,Good Bye!!
If you like My Blog Please Fallow.Ask me If you Don't Know Something,by comment .
Main Charastaristics!
- Output Voltage Is Lover Than Input Voltage.
- Output Voltage Changes with the Load.
In That Case This Is Non Stable.This Thing Happens Because,When we attach a Load ,The load will be parallel with One of the divider Resistor.Causing OutPut Voltage to Drop.
- What is the Output Voltage ?
After that Use Ohms law to Find the Voltage Across R2.That's Our Vout!
Lets Look at an Example.Lets Think We need 6V from 10V
OK.now We know Vin and Vout ,But we can't find R1 and R2 from one Equation.So lets Choos R1 For Our maximum current Need.
According toVoltage Divider Law ,Voltage Should Divide to Ratio R1:R2 4V:6V.In That case R1 will get 4V.Lets Think Maximum Current = 50mA From Ohms Law ,We will get 80Ohm for R1 .Picture 4
Now We can find R2 from Voltage Divider Equation Picture4
Weget R2 as 12Ohm.. Simple, Isn't it?
But,When We are drawing maximum current from Our divider ,what is the power dissipation in 80 Ohm Resistor
(R1), to do that ,use W=I^2R Now you can see its 0.20W in our R1,So that,s a waste,not good for the 1/4W resistor..In that case we cant draw that much current from a divider,so use large values as much as you can,this is not the Best solution ,when its comes to Impedance ,im not going to talk about that right now,its good to use lower value resistors for a divider,but it needs much more power ,and large Power Risistors.So rule of thumb use 1K-100k
This thing is pissing away about 1W !
So use Large values for R1 and R2

Another Example
Think we need to divide 12v to 6v, so just use 2 Equal Resistor For R1and R2.Now i need 2mA from my divider , Picture 6
I can't do the calculations in typing,so see the Picture
Now you can see the power consumption of the divider.as a conclusion use Voltage Dividers for Low Current Applications.
But you can Experiment With It.
Last Question Why is this Voltage Divider Isn't Stable?.
When We attach a Load Resistor (Load Circuit) to the Vout , Load
Resistor become parellel with R2 in that case Vout drops ,due to the reduce of total resistance of the R2 and Load,Lets take the Second Example,lets See what will happen when we attach a 1Kohm to the Vout.
According to the picture ,now you can see what is the total resistance Across the Load.it reduce 3Kohm to 0.75KohmLets apply Our Voltage Divider Equation Ok now theVout Reduce to 6V to 4V, Thats the Diss advantage of the Voltage Divider.
FAINISH!
Voltage Divider's are finish.
,Good Bye!!
If you like My Blog Please Fallow.Ask me If you Don't Know Something,by comment .





