Aluminium electrolytic capacitors, the most common type for power supplies, experience shorter life expectancy at higher ripple currents.
22.
This very slow electrolyte drying-out depends on the temperature, the applied ripple current load, and the applied voltage.
23.
This very slow drying-out of the electrolyte depends on the series construction, ambient temperature, voltage and ripple current load.
24.
Referring to the endurance test, this specification does not include the capacitors'being loaded with the rated ripple current value.
25.
Because ESR is frequency dependent and rises in low-frequency range, the ripple current must be reduced at lower frequencies.
26.
All these variations are like those ripple currents that although centered around the stone, are in fact away from it.
27.
Related to the capacitor ESR is accountable for internal heat generation if a # ripple current flows over the capacitor.
28.
Related to the capacitorm " ESR " accounts for internal heat generation if a ripple current flows over the capacitor.
29.
Polymer electrolytic capacitors are characterized by particularly low internal equivalent series resistances ( ESR ) and high ripple current ratings.
30.
The rated ripple current of aluminum electrolytic capacitors with non-solid electrolyte corresponds with the specified lifetime of the capacitor series.
