Hi shayaan
I thought about it. And I am confused. Inductor blocks AC. Right?
the reason isn't this ! don't forget that inductor won't block AC ! it will has a reactance instead of AC signal. if the value of L be high , and XL be high , thus we can say that it blocks AC . but here another thing is the reason ! see below , please :
**broken link removed**
You understand ?
1) We have made Buck regulator. Why can't we use linear voltage regulators?
Sorry if my descriptions weren't as clear as enough . again :
I assume you want achieve 400 watts audio amplifier . it means Vout across the 2 ohms load should be around 40 volts . ok ?( (vpp^2)/8RL )
As you probably know , your audio signal , is not in constant amplitude . it has variations . so , if your regulator is linear it means if you need 40 or 45 volts at the out put , you have to use at least 60 or 65 volts as input DC voltage ( unregulated ) . and current for 400 w = 40/2=20A ok ? so , dissipated power across the regulator will be 20*25=500W . with this large value of dissipation as heat , you can bake cake and sweets for a big celebration !!!!! it is very fun that you want achieve 400w and then loss the power around 500W . isn't it ?
So , now if you consider that you have a Buck regulator , suppose that the input voltage is 100 volts and out put ( after filter ) is 40 volts . don't forget that the voltage before filter , is a square wave with amplitude , around 100 volts . suppose D.C is around 0.4 . consider your mosfet is IRFP450 . if Rdson is 0.5 ohms . dissipation will be D.C*(Rdson*Idmax^2) 0.5*20^2=200 =====>200*0.4=80W . is 80W reasonable or 500W ? is there any unclear thing in my explanations , available ? if yes , tell me , please i'll simplify that .
2) And when I was searching for this Buck regulator (Switched mode converter). I found that it was under the section of DC to DC converters. What is this? Will you please help me out of this?
Of course . it called DC/DC converter , because the input voltage is unregulated DC voltage and out put voltage is regulated DC voltage .
3) What is free-wheeling operation? What is free-wheeling diode?
Can you remember the diode that we have putted to prevent damages of mosfet and recovering the energy , to recharging the out put capacitor ? that diode called freewheeling diode or fly back diode . ok ?
4) Capacitors for switched regulators are chosen on the basis of effective series resistance (ESR).
I found this statement in the link which I provided you in the post#438. So will you please elaborate this? I have never heard about ESR.
ESR is derived from Equivalent Series Resistor . each capacitor in this world has ESR . it is a low value resistor , that created internally and it is unwanted ! it created because of rolling ! ( rolling the conductor ) . as you probably kno each conductor has a low value of resistance . ( R=p*(L/A) did you know this ? ) .
We should select capacitors with lowest value of ESR , but because these capacitors are a bit expensive , i usually using some capacitors in parallel . by the way , do you know about equivalent model of a real capacitor ? it is pretty important .
5) Most of the switched supplies needs a minimum load, in order to ensure that the inductor carries current always. If the current flow through the inductor is not continuous, regulation may become poorer.
Why is it necessary for current to be continuous? I also found this statement on the given link.
You can put each load in out put of your SMPS . i will talk about continuous and discontinuous mode of operation . be patience . it is not for this time .
By the way , it is very good , that you started to search about SMPS in the net . it can increase your knowledge . keep this action .
Best Wishes
Goldsmith