Re: "Low Impedance" vs "Low ESR"


Look at table 2.

Re: "Low Impedance" vs "Low ESR"

According to that table, if I am reading it right, is that "low impedance" caps(Low Z) have lower ESR and higher ripple current tolerance. So that makes "low impedance" caps better than low ESR?

Edit: Or maybe the answer is: depends on the capacitor. A "low ESR" designation might not mean anything.

Re: "Low Impedance" vs "Low ESR"

An ideal capacitor (which only exists "in theory") has no resistive component. It is a perfect energy storage component; everything that goes in (can) eventually come back out.

In practice, a capacitor is an ideal capacitor with several other "parasitic" characteristics that alter its behavior from the ideal.

E.g., the fact that a capacitor can't hold a charge indefinitely implies that there is some "load" across the capacitor that is bleeding off (consuming) that charge.

Similarly, the fact that a capacitor can't absorb all of the charge pushed into it implies that there is something "consuming" some of the charge as it tries to get INTO the (ideal) capacitor -- i.e., in series with that ideal capacitor.

Both represent "losses". But, they have different consequences to the circuit in which they reside.

A high(er) ESR means the ideal capacitance is less coupled to the circuit node to which it is attached -- changes at it's input are NOT absorbed by the capacitance as well as they could be.

A low(er) parallel (leakage) capacitance means the cap holds its charge for less time than ideal.

This is why you will often see multiple capacitors "in parallel" instead of a single LARGER capacitor -- the behavior of the GROUP of smaller caps is better (in some regard) than that of a single larger cap.

[The ESRs of each of the small caps look like they are in parallel with each other so the EFFECTIVE resistance is much smaller]

Note that even these parasitic elements are dynamic, in nature. A cap can perform "well" at one frequency and poorly at another (caps a physical devices so how they are built has an impact on how they perform)