Choosing capacitors for a linear voltage regulator

Question

I'm trying to use an LM1117 linear voltage regulator to convert to 3.3v (input voltage will be 9 or 5 volts; not yet decided). The datasheet suggests using 10uF tantalum capacitors on the input and output. While I could just go with the suggestion, I find most of the tantalum capacitors that are available are considerably more expensive than other capacitors, and in a SMT form factor (I'd prefer through-hole). I'm thinking of using aluminum or ceramic caps instead.

This excerpt from the datasheet specifies what ESR ranges are acceptable:

8.2.2.1.3 Output Capacitor
The output capacitor is critical in maintaining regulator stability, and must meet the required conditions for both minimum amount of capacitance and equivalent series resistance (ESR). The minimum output capacitance required by the LM1117 is 10 µF, if a tantalum capacitor is used. Any increase of the output capacitance will merely improve the loop stability and transient response. The ESR of the output capacitor should range between 0.3 Ω to 22 Ω. In the case of the adjustable regulator, when the CADJ is used, a larger output capacitance (22-µF tantalum) is required.

As I understand it, ceramic caps have a very low ESR. Could I just add a 0.3 Ω to 22 Ω resistor in series with a ceramic capacitor? I've read what ESR is and isn't, and I don't understand it one bit, so right now it's just a range of numbers I'm trying to match. However, ceramic caps tend to have smaller capacitance, so it might not be as easy to get 10uF ceramic caps.

If I recall correctly, aluminum caps have a much higher ESR (though exactly what "higher" means I'm not sure). Additionally, it can be difficult to get a datasheet for a capacitor simply because they're such common components (I'm in China and purchasing online, but don't read Chinese). So I'm not sure how to make sure I'm within the ESR range specified.

Finally I should note that I don't have any of these components yet, but I'll probably get an assortment of capacitors when I do order.

So my question: What capacitors can be used in this situation, and with what value resistors (if any)? Note that I'm interested in the theory, not just this single situation, but not being experienced with capacitors some specific examples could be helpful.

Related: ESR and CSR of Capacitor

Answer 1

Yes, you can simply put a resistor in series with a ceramic capacitor. The lower the better from the point of view of bypassing, so I would aim at 0.5 to 1 ohm. If you have lots of space, the electrolytic is fine (in fact you can parallel the two), and they are cheap. There are low ESR electrolytics and ones that are not-so-low, read the datasheet. If no datasheet, no buy.

You should be able to read the numbers on the datasheets even if some of it is in a foreign language. If you're going to the market and picking shiny parts off of vendors displays without looking at datasheets you will get bitten. I've always been able to get answers to questions such as the load capacitance of a crystal without being the most amazing linguist around.

The x1117-3.3 is extremely cheap and very available in China so I don't see any reason not to use it. If you don't need the power dissipation there are better choices in SOT-23.

Answer 2

Yes, you can add deliberate resistance to a low ESR cap to replace a tantalum cap in this case. However, a much better answer is to use a more modern regulator that is stable with a 0 ESR output cap. A LM1117 makes no sense here, since you don't need really low dropout. Even then there are plenty of modern LDOs available that are 0-ESR stable.

Use the right linear regulator, and this problem goes away.

If you are really going to use 9 V in, then even a 7805 would be fine here. They are very robust and tolerant of significant capacitance on their output without any resistance in series. After the next asteroid impact, the only thing left will be cockroaches and 7805 regulators.

Answer 3

Increasing capacitance value gives better transient response and allows use of a lower ESR capacitor while keeping the regulator stable.

For this kind of regulator, aluminium electrolytics work fine unless you use the low-ESR kind.

I usually use no-name 105°C 100µF 25V caps which cost 4 cents a piece. They have an ESR around 0.5 ohms.

Basically, for this 3V3 regulator, grab an aluminium electrolytic through-hole cap with the following charatceristics:

• small and convenient package (6.3mm diameter)
• largest capacitance value you can find for 6.3V rating (should be 200-400 µF)
• not specified for low ESR or low-Z
• brand name or 105°C if you care about service life.

It'll work.