| 1. | ESR influences the remaining superimposed AC ripple current flows over the capacitor.
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| 2. | Ripple currents higher than rated values are possible only with forced cooling.
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| 3. | Ripple current lower than specified or forced cooling lengthen the capacitor's lifetime.
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| 4. | This core temperature on the other hand depends on the ripple current load.
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| 5. | A test with an actual applied ripple current is affordable for any manufacturer.
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| 6. | Conductivity and a higher ripple current load than earlier types Al-e-caps with liquid electrolyte.
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| 7. | While this happens with normal aging, high temperatures and large ripple current exacerbate the problem.
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| 8. | In cases like this manufacturers specify correction factors for ripple current values at higher frequencies.
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| 9. | The ripple current can be increased at lower temperatures.
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| 10. | Ripple current generates heat within the capacitor body due to the ESR of the capacitor.
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