Automatic battery charging system using lowest charge current detection
First Claim
1. An automatic battery charging system comprising:
- a power supply comprising a short-circuit protection device, a DC voltage output that provides a DC voltage at a constant level, and a control signal input;
a battery container having a first end connected to said DC voltage output and a second end connected to a current detector that detects a charge current flowing through at least one battery contained in said battery container;
a voltage detector coupled to said first end of said battery container to detect a voltage level in said battery, said voltage detector generating a voltage detector output signal when said voltage level in said battery is within a voltage range chosen by a user;
a current to voltage converter coupled to said current detector to convert said charge current to a voltage signal, said voltage signal is amplified by a voltage amplifier connected to said current to voltage converter, said amplifier generates an amplified voltage signal;
an analog to digital converter coupled to said voltage amplifier, said analog to digital converter converting said amplified voltage signal to a digital signal proportional to said charge current;
a microcomputer control means comprising a first input connected to said digital signal, a second input connected to said voltage detector output signal, an output connected to said control signal input of said power supply, and a plurality of peripheral outputs to receive display devices, said display devices comprising a time indicator, a full-charge indicator, and a charge capacity indicator;
whereinsaid microcomputer control means detects a lowest value of said charge current and deactivates said power supply when said lowest value of said charge current exceeds a cutoff level chosen by said user.
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Abstract
An automatic charging system for charging nickel-metal-hydride batteries is presented. The battery charging system uses a method of detecting the lowest charge current to control its charging process. The system has a constant voltage power supply including a short-circuit protection device, a battery voltage detector, a current detector, a current to voltage converter, a voltage amplifier, an analog to digital converter, a single chip microcomputer, a capacity indicator, a time indicator and a full-charge indicator. The system uses a constant voltage to charge batteries with a floating current according to the quantity of the active ions in the batteries. The battery charge current is converted to a voltage signal which is then amplified and digitized. The microcomputer detects the digitized signal to estimate the magnitude of the charge current. By detecting continuous increase in the charge current, the system determines if the charging process has reached its end and shuts down the power supply at appropriate time. It avoids providing too much input energy and generating extra heat. Therefore, the system has high charging efficiency and is less likely to damage the batteries.
14 Citations
3 Claims
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1. An automatic battery charging system comprising:
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a power supply comprising a short-circuit protection device, a DC voltage output that provides a DC voltage at a constant level, and a control signal input; a battery container having a first end connected to said DC voltage output and a second end connected to a current detector that detects a charge current flowing through at least one battery contained in said battery container; a voltage detector coupled to said first end of said battery container to detect a voltage level in said battery, said voltage detector generating a voltage detector output signal when said voltage level in said battery is within a voltage range chosen by a user; a current to voltage converter coupled to said current detector to convert said charge current to a voltage signal, said voltage signal is amplified by a voltage amplifier connected to said current to voltage converter, said amplifier generates an amplified voltage signal; an analog to digital converter coupled to said voltage amplifier, said analog to digital converter converting said amplified voltage signal to a digital signal proportional to said charge current; a microcomputer control means comprising a first input connected to said digital signal, a second input connected to said voltage detector output signal, an output connected to said control signal input of said power supply, and a plurality of peripheral outputs to receive display devices, said display devices comprising a time indicator, a full-charge indicator, and a charge capacity indicator;
whereinsaid microcomputer control means detects a lowest value of said charge current and deactivates said power supply when said lowest value of said charge current exceeds a cutoff level chosen by said user. - View Dependent Claims (2, 3)
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Specification
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- Resources
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Current AssigneeCheng-Chih Chu, Chun-Sheng Wang, Hing-Hin Kwan, Shu-Chin Chen, Yao-Ching Chen
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Original AssigneeCheng-Chih Chu, Chun-Sheng Wang, Hing-Hin Kwan, Shu-Chin Chen, Yao-Ching Chen
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InventorsChen, Yao-Ching, Chu, Cheng-Chih, Chen, Shu-Chin, Wang, Chun-Sheng, Kwan, Hing-Hin
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Primary Examiner(s)Tso, Edward H.
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Application NumberUS08/260,655Time in Patent Office1,629 DaysField of Search320/31, 320/22, 320/39, 320/48, 320/5, 363/73US Class Current320/123CPC Class CodesH01M 10/44 Methods for charging or dis...H01M 10/46 Accumulators structurally c...H02J 7/00302 Overcharge protectionH02J 7/00304 Overcurrent protectionH02J 7/00309 Overheat or overtemperature...H02J 7/0069 Charging or discharging for...H02J 7/00718 in response to charge curre...Y02B 40/00 Technologies aiming at impr...Y02E 60/10 Energy storage using batteriesY02E 60/13 Energy storage using capaci...
