Charging regulator
First Claim
1. A regulator (4) with a shunt circuit (5) for regulating a charge current (I2) to an individual cell (1) in a battery (2) of cells, where the current (I2) constitutes the whole or a part of a trickle current (I1) applied to the battery, characterized in that the regulator includes a bridge connection having its inputs connected in parallel with the shunt circuit to the poles of the cell, one branch of the bridge coupling supplying a constant voltage, and the other branch supplying a voltage proportional to the cell pole voltage, the difference in these two voltages being utilized for continuously regulating the impedance of the shunt circuit, the result of which having a continuous smoothly varying regulation of the charging current (I2) as a function of the cell pole voltage, the regulator obtaining its driving voltage from the cell poles, thus the regulator together with the cell, constitute an autonomous unit, for keeping a constant voltage between the cell poles by means of the applied trickle current (I1).
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Accused Products
Abstract
An autonomous regulator for regulating the charging current to the individual cells in a battery. The regulator shunts the portion of the trickle current which constitutes an excess to the charging current. There is thus provided an optimum charge for each cell, independent of differences in self-discharge of the different cells. The size of the shunted current is determined by the difference between the cell pole voltage and a reference voltage generated in the regulator.
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Citations
7 Claims
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1. A regulator (4) with a shunt circuit (5) for regulating a charge current (I2) to an individual cell (1) in a battery (2) of cells, where the current (I2) constitutes the whole or a part of a trickle current (I1) applied to the battery, characterized in that the regulator includes a bridge connection having its inputs connected in parallel with the shunt circuit to the poles of the cell, one branch of the bridge coupling supplying a constant voltage, and the other branch supplying a voltage proportional to the cell pole voltage, the difference in these two voltages being utilized for continuously regulating the impedance of the shunt circuit, the result of which having a continuous smoothly varying regulation of the charging current (I2) as a function of the cell pole voltage, the regulator obtaining its driving voltage from the cell poles, thus the regulator together with the cell, constitute an autonomous unit, for keeping a constant voltage between the cell poles by means of the applied trickle current (I1).
- 2. A charging regulator for regulating the charging current fed via a pair of terminals to an individual cell of a battery comprising a first resistor and a transistor connected in series across the pair of terminals of the cell, said transistor having a control input for continuously varying the amplitude of the current passing through the transistor in response to a continuously variable control signal received by said control input, a difference amplifier means having an output connected to said control input and first and second difference inputs, first means for applying a fixed reference voltage to one of said difference inputs and second means for applying a voltage related to the voltage across said pair of terminals whereby a continuously varying difference voltage is applied across said difference inputs as the voltage across said pair of terminals continuously varies.
Specification