Method for charging nickel-cadmium batteries and circuit arrangement for carrying out the method
First Claim
1. A method for charging nickel-cadmium batteries comprising the steps of supplying said battery during charging periods of a predetermined first duration with a predetermined charging current, and loading said battery during discharging periods of a shorter predetermined second duration with a predetermined loading current, and alternatingly repeating said supplying and loading steps, wherein said supplying step includes superimposing on said charging current a charging current pulse of the same sense, at least at the beginnings of said charging periods, and wherein said loading step includes superimposing on said loading current a discharging pulse, at least at the beginning of said discharging periods, and providing thereby at the beginning of each of said periods a current charge in amperes which is in absolute magnitude at least seven times as high as one tenth of the numerical value of the storage capacity of said battery when expressed in ampere-hours, wherein in the respective periods a plurality of pulses are superimposed on the predetermined charging and/or discharging currents which have energy and amplitude values at most equal to the corresponding values of the pulse at the beginning of the period.
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Abstract
Method for charging Ni-Cd batteries with a repetitive and alternating sequence of direct current charging and discharging periods. Steep current pulses are superimposed on the respective direct currents which have a sense equal to that of the direct current and intensity exceeding respective predetermined levels. Owing to the effects of such alternating and repetitive current pulses the surface distribution of the electrodes will change after some time and the electrode surface gradually become homogeneous.
The periodically repetitive steep current pulses can be used during the whole charging process and they have beneficial effects for the charging of new batteries as well.
The current changes at the beginning of the respective periods should be at least seven times as high as one tenth of the ampere-hour capacity of the battery.
40 Citations
9 Claims
- 1. A method for charging nickel-cadmium batteries comprising the steps of supplying said battery during charging periods of a predetermined first duration with a predetermined charging current, and loading said battery during discharging periods of a shorter predetermined second duration with a predetermined loading current, and alternatingly repeating said supplying and loading steps, wherein said supplying step includes superimposing on said charging current a charging current pulse of the same sense, at least at the beginnings of said charging periods, and wherein said loading step includes superimposing on said loading current a discharging pulse, at least at the beginning of said discharging periods, and providing thereby at the beginning of each of said periods a current charge in amperes which is in absolute magnitude at least seven times as high as one tenth of the numerical value of the storage capacity of said battery when expressed in ampere-hours, wherein in the respective periods a plurality of pulses are superimposed on the predetermined charging and/or discharging currents which have energy and amplitude values at most equal to the corresponding values of the pulse at the beginning of the period.
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6. A method for charging nickel-cadmium batteries comprising the steps of supplying said battery during charging periods of a predetermined first duration with a predetermined charging current, and loading said battery during discharging periods of a shorter predetermined second duration with a predetermined loading current, and alternatingly repeating said supplying and loading steps, wherein said supplying step includes superimposing on said charging current a charging current pulse of the same sense, at least at the beginnings of said charging periods, and wherein said loading step includes superimposing on said loading current a discharging pulse at least at the beginning of said discharging periods, and providing thereby at the beginning of each of said periods a current change in amperes which is in absolute magnitude at least seven times as high as one tenth of the numerical value of the storage capacity of said battery when expressed in ampere-hours, wherein the loaded voltage (Um) of the battery is measured in the respective discharging periods following a predetermined delay counted from the beginning of the period, and the charging process is terminated if this measured voltage exceeds a predetermined threshold value.
- 7. A circuit arrangement for charging nickel-cadmium batteries comprising a charging and a loading circuit coupled to the terminals of a battery, a first current generator and a second current generator in said charging and loading circuits, respectively, which have respective start and stop inputs, a controlled switch having outputs connected to said start and stop inputs and a control input, a timing unit coupled to said control input for defining charging and discharging periods of the battery, wherein said charging and loading circuits comprise first and second pulse generators, respectively, started together with the associated one of said current generators and superimposing respective pulses with identical sense on the currents of said current generators.
Specification