Battery charge having a plurality of channels
First Claim
1. A battery charger for charging a plurality of rechargeable batteries, the battery charger comprising:
- (a) a casing defining a plurality of battery attachment channels, wherein each of the battery attachment channels is adapted to removably receive at least one of the rechargeable batteries;
(b) a plurality of temperature sensors for detection a temperature of the rechargeable batteries during a charging operation, wherein the number of temperature sensors is less than the number of the battery attachment channels;
(c) a plurality of battery detectors for detecting the presence and position of the rechargeable batteries in the battery attachment channels, respectively; and
(d) a control circuit for (1) adjusting the charging stop temperature in accordance with signals received from the battery detectors and (2) comparing temperatures detected by the temperature sensors with the charging stop temperature, and stopping a charging operation when the detected temperature becomes greater than the charging stop temperature.
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Accused Products
Abstract
A battery charger for charging a plurality of rechargeable batteries and is provided with temperature sensors for detecting battery temperature. The battery charger compares the battery temperature detected by the temperature sensors and charging stop temperature, and stops charging when the detected temperature becomes greater than the charging stop temperature. The battery charger has a plurality of attachment detecting portions for detecting attachment of the batteries respectively and independently. The number of temperature sensors is less than the maximum number of the batteries that can be attached. The battery charger varies the charging stop temperature for stopping charging in accordance with the battery-attached positions detected by the attachment detecting portions.
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Citations
13 Claims
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1. A battery charger for charging a plurality of rechargeable batteries, the battery charger comprising:
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(a) a casing defining a plurality of battery attachment channels, wherein each of the battery attachment channels is adapted to removably receive at least one of the rechargeable batteries;
(b) a plurality of temperature sensors for detection a temperature of the rechargeable batteries during a charging operation, wherein the number of temperature sensors is less than the number of the battery attachment channels;
(c) a plurality of battery detectors for detecting the presence and position of the rechargeable batteries in the battery attachment channels, respectively; and
(d) a control circuit for (1) adjusting the charging stop temperature in accordance with signals received from the battery detectors and (2) comparing temperatures detected by the temperature sensors with the charging stop temperature, and stopping a charging operation when the detected temperature becomes greater than the charging stop temperature. - View Dependent Claims (2, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
a plurality of switching devices for connecting an output side of a charging power source to the batteries; and
a charging/discharging control circuit for controlling the switching devices.
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5. A battery charger as claimed in claim 1, wherein the control circuit is operable to adjust the charging stop temperature in accordance with a temperature detected at the beginning of a charging operation.
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6. A battery charger as claimed in claim 1, wherein the control circuit is operable to determine the position of the rechargeable batteries in the battery attachment channels based on signals received from the battery attachment detectors, and the control circuit is operable to adjust the charging stop temperature based on the number and position of the batteries detected by the battery detectors.
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7. A battery charger as claimed in claim 4, wherein the control circuit is operable to switch off all of the switching devices in order to stop a charging operation when one of the temperature sensors detects a temperature that is greater than or equal to the charging stop temperature.
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8. A battery charger as recited in claim 4, wherein when one of the temperature sensors detects a temperature that is greater than the charging stop temperature, less than all of the switching devices are switched off by the charging/discharging control circuit.
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9. A battery charger as claimed in claim 1, wherein each temperature sensor is disposed between two adjacent batteries.
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10. A battery charger as claimed in claim 9, wherein the battery attachment channels form a projecting convex part between adjacent ones of the battery attachment channels, and the temperature sensors are disposed on the projecting convex parts, respectively.
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11. A battery charger as claimed in claim 1, wherein the battery attachment channels are arranged in three or more parallel rows, and the temperature sensors are disposed between the first and last rows.
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12. A battery charger as claimed in claim 1, wherein each of the battery attachment channels is associated with an output terminal on the battery casing, and the battery detectors are operable to detect the presence of the batteries by detecting a voltage change at the output terminals.
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13. A battery charger as claimed in claim 1, wherein each of the battery detectors comprises a semiconductor switching device capable of controlling the charging current supplied to each of the battery attachment channels.
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3. A battery charger for charging a plurality of rechargeable batteries the battery charger comprising;
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(a) a casing defining a plurality of battery attachment channels wherein each of the battery attachment channels is adapted to removably receive at least one of the rechargeable batteries;
(b) a plurality of temperature sensors for detecting a temperature of the rechargeable batteries during a charging operation wherein the number of temperature sensors is less than the number of the battery attachment channels (c) a plurality of battery detectors for detecting the presence and position of the rechargeable batteries in the battery attachment channels respectively; and
(d) a control circuit for (1) adjusting a charging stop temperature in accordance with signals received from the battery detectors and (2) comparing temperatures detected by the temperature sensors with the charging stop temperature, so that when the detected temperature equals the charging stop temperature, the control circuit operates to reduce the charging current to a trickle charging current.
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Specification