Supercapacitor balancing method and system
First Claim
1. A supercapacitor balancing method including bypassing the current flowing in said supercapacitor from a predetermined threshold voltage at the terminals of said supercapacitor, the bypass current being a function of the voltage at the terminals of said supercapacitor and increasing continuously as a function of said voltage, characterized in that said bypass current increases between said threshold voltage, for which said bypass current constitutes a minimum bypass current, and a reference voltage, for which said bypass current constitutes a nominal bypass current, and in that the difference between said reference voltage and said threshold voltage is less than 200 mV and the ratio between said nominal bypass current and said minimum bypass current is greater than 100.
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Accused Products
Abstract
The present invention relates to a supercapacitor balancing method including bypassing the current flowing in the supercapacitor from a predetermined threshold voltage at the terminals of the supercapacitor, the bypass current being a function of the voltage at the terminals of the supercapacitor and increasing continuously as a function of the voltage.
The method is characterized in that the bypass current increases between the threshold voltage, for which the bypass current constitutes a minimum bypass current, and a reference voltage, for which the bypass current constitutes a nominal bypass current, and in that the difference between the reference voltage and the threshold voltage is less than 200 mV and the ratio between the nominal bypass current and the minimum bypass current is greater than 100.
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Citations
15 Claims
- 1. A supercapacitor balancing method including bypassing the current flowing in said supercapacitor from a predetermined threshold voltage at the terminals of said supercapacitor, the bypass current being a function of the voltage at the terminals of said supercapacitor and increasing continuously as a function of said voltage, characterized in that said bypass current increases between said threshold voltage, for which said bypass current constitutes a minimum bypass current, and a reference voltage, for which said bypass current constitutes a nominal bypass current, and in that the difference between said reference voltage and said threshold voltage is less than 200 mV and the ratio between said nominal bypass current and said minimum bypass current is greater than 100.
Specification