Smoothing Half Wave AC Voltage with Inductor - Any Ideas?

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SUMMARY

The discussion centers on the use of an inductor to smooth half wave AC voltage in a circuit. It is established that placing the inductor after the capacitor in line with the load, followed by another capacitor to ground, enhances smoothing. The inductor limits the AC component on the DC output but requires careful selection, specifically one with an air gap in the iron core to prevent saturation. While this method can improve voltage stability, voltage regulator ICs are typically preferred for optimal smoothing due to cost and efficiency considerations.

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  • Understanding of half wave rectification and its effects on voltage.
  • Familiarity with capacitor and inductor placement in electrical circuits.
  • Knowledge of voltage regulator ICs and their applications.
  • Basic principles of AC and DC current behavior in circuits.
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  • Research the design and implementation of voltage regulator ICs for smoothing applications.
  • Study the characteristics and selection criteria for inductors with air gaps in their cores.
  • Explore the effects of ripple voltage on circuit performance and methods to mitigate it.
  • Learn about advanced filtering techniques using capacitors and inductors in power supply design.
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Electrical engineers, hobbyists designing power supplies, and anyone interested in improving AC to DC voltage conversion efficiency.

ws0619
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Hi!
As what I have studied, to smoothen the half wave voltage produced by AC passing through a diode is placing a capacitor parallel to the resistor.If I want to add an inductor inside my circuit to smooth the half wave, where should the inductor place?
Does inductor help in smoothing the half wave?How is the working concept of the inductor in the circuit?
Any idea?Thanks!
 
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A simple power supply has this arrangement:

AC supply ... diode or diode bridge...capacitor ...ground. The load goes across the capacitor.

If you wanted to add an Inductor, it should go after the capacitor in line with the load and there should be another capacitor after it to ground. The load goes across the second capacitor.


The inductor ideally has no effect on DC current but it will help to limit the AC component on the DC.

The input capactor is important as the inductor can cause voltage spikes which might destroy the diodes if the capacitor wasn't there.
Also, the inductor should be a special one with an air gap in the iron core so that it does not saturate easily with DC passing through it.

An inductor is not normally used because voltage regulator ICs are used and these give almost perfect smoothing.
 
The topology vk mentions is correct, but in real life, you would need a very large (and therefore expensive) inductor to make a significant difference to the ripple, compared to just adding more capacitance.
 

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