| 1. | Higher leakage current can be the result of longer storage times.
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| 2. | As circuit dimensions shrink, subthreshold leakage current becomes more prominent.
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| 3. | The difference in leakage current is several orders of magnitude.
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| 4. | The leakage current drops in the first minutes after applying DC voltage.
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| 5. | This dramatically reduced the leakage current of the finished capacitors.
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| 6. | It applies the necessary voltages to a device and monitors leakage current.
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| 7. | The leakage current depends on the applied voltage and the ambient temperature.
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| 8. | A higher threshold voltage also reduces the leakage current of a path.
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| 9. | This results in a significant leakage current from the power lines to ground.
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| 10. | RCDs are designed to disconnect the circuit if there is a leakage current.
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