What is a reservoir capacitor? (or) What is the need for large capacitance at the output of the power supply regulators?
Generally, in the fast switching or high frequency designs, we see that the frequency might rise suddenly based on the application need or another example is an additional load is switched on during a product operation. When we talk about frequency rise or load, it is basically the current that need to be sourced to them. The entire responsibility of sourcing the current is on power supply. So, in these cases, when we have these transitions on the power supply loads, the general observation must be that there must be a dip in the voltage but we don't see it. It is the high capacitance at the output of regulator, that helps to store energy during the normal operation and help tackle the sudden load changes without voltage drop.
Just adding few more pointers on this topic,
1. A high capacitance value at the output of regulator helps to
- Eliminate low frequency noise
- Act as reservoir
2. A low capacitance value at the output of regulator helps to
- Eliminate high frequency noise
- These are mostly ceramic which has low ESR and helps to reduce the power loss, output stability, noise
The term reservoir capacitor is used commonly in the smoothing circuit used in AC-DC conversion. But the same terminology applies (not used generally) to high capacitance used at the output of the regulators. Reservoir capacitors are generally electrolytic capacitors.
2 Comments
Should I choose the lower value capacitance immediately after a switcher? or should I put higher value first? Or anything is fine?
ReplyDeleteit always depends on the load current and rate at which the load draws the current. In most scenarios, you don't see a bulk capacitor like electrolytic at the output of regulator as they have high ESR and affects the overall performance of regulator (losses, transient response). If the load demands a sudden current draw like the case of modems, you always need a bulk capacitor.
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