JPH0629044A - Battery charging device - Google Patents

Abstract

PURPOSE:To prevent the heat emitted by a battery charger device concerned, at the time of charging, from ill influencing a battery mounted device and eliminate effect of noises intruding into a temp. sensor externally. CONSTITUTION:A device in which a battery 4 is mounted, is equipped with an ambient temp. sensor 6 to sense the temp. inside of or in the neighborhood of the device. A battery charge control means 3 is equipped with a reference temp. retaining means 12 to retain the reference temp. for turning on and off a charge switch 2, a temp. comparing means 13 which is fed with the temp. sensed by the sensor 6 and compares it with the reference temp., a control signal output means 15 to perform on/off control of the charge switch on the basis of the result from comparison, and a charge end sensing means 14 which judges the end of battery 4 being charged. The constitution is such that the charge switch 2 is put off when the temp. sensed by the sensor 6 exceeds the reference temp. even though the charging is not ended.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery charger. Batteries are often used in portable electronic devices such as laptop computers. To determine the end of charging when charging a battery mounted on such an electronic device, the temperature rise value of the battery after the start of charging is detected, and when the temperature rise value exceeds a predetermined reference value, charging is terminated. There is a method to judge.

[0002]

2. Description of the Related Art FIG. 10 shows a conventional battery charger. In the figure, 100 is a charging power source and 101 is a charging switch, which is turned off by a control signal for ending charging. Reference numeral 102 is a battery, and 103 is a charge control means, which detects the battery rise temperature and detects the charge switch 10
A control signal for turning off 1 is generated. 104
Is a battery temperature sensor for detecting the battery temperature.

In the charging control means 103, 106 is a control signal output means for generating a control signal for turning off the charging switch based on the charging end notification output from the battery charging end detecting means 107. Reference numeral 107 denotes a charging end detecting means, which detects the end of charging of the battery 102 based on the temperature rise of the battery. In the charging end detection means 107, 110 is a temperature input means for inputting the temperature of the battery temperature sensor 104. 111 is a minimum battery temperature holding means for holding the minimum battery voltage after the charging of the battery 102 is started. Reference numeral 112 denotes a temperature rise calculating means for calculating the temperature rise of the battery 102 by comparing the temperature held by the minimum battery temperature holding means 111 with the temperature data input from the temperature input means 110. Reference numeral 113 denotes a charging end reference value holding means, which holds a temperature rise value serving as a reference for determining the end of charging. Reference numeral 114 denotes a charging end determination means, which compares the rising temperature calculated by the rising temperature calculation means 112 with a reference value held by the charging end reference value holding means 113 to judge the end of charging.

In the configuration shown in the figure, when the charging control means 103 detects that the battery voltage has dropped, it starts charging the battery (the control means for starting the battery charging is not shown).

The battery temperature detected by the battery temperature sensor 104 is input to the temperature input means 110, and the temperature input means 110 inputs the battery temperature data to the minimum battery temperature holding means 111 and the rising temperature calculation means 112. The minimum battery temperature holding unit 111 detects and holds the minimum voltage at the time of charging, which slightly drops immediately after the start of charging. The rising temperature calculation means 112 calculates the battery temperature sequentially input from the temperature input means 110 from the minimum battery temperature holding means 11
The temperature rise is calculated by comparing with the lowest battery temperature held at 1. The charging end determination means 114 compares the reference value held by the charging end reference value holding means 113 with the rising temperature, and when the rising temperature exceeds the reference value, notifies the control signal output means 106 of the end of charging. When the control signal output means 106 is notified of the end of charging, it outputs a control signal for turning off the charging switch to the charging switch 101. The charging switch 101 is turned off based on the control signal, and the charging is completed.

[0006]

The method for detecting the end of battery charging as described above has a battery temperature rise regardless of the ambient temperature in which a device such as a portable personal computer (hereinafter simply referred to as a device) is placed. It is judged only by the value.
Therefore, when using the device in a closed place such as inside a car (for example, charging using a car adapter)
Alternatively, if the battery is charged in a high temperature place, the device itself may become hot due to the heat generated during charging, which may adversely affect the floppy disk device and the like.

Further, a surge voltage due to lightning or noise of the AC adapter may enter the battery temperature sensor, and the charging device may erroneously determine that charging has ended, and may end charging. SUMMARY OF THE INVENTION It is an object of the present invention to provide a battery charging device that prevents the heat generated during charging from adversely affecting the battery-equipped device and that can reliably charge the battery without being affected by noise mixed into the temperature sensor from the outside. To do.

[0008]

SUMMARY OF THE INVENTION The present invention provides not only a sensor for detecting a battery temperature but also an ambient temperature sensor for detecting a temperature inside or near a device equipped with a battery (hereinafter referred to as ambient temperature). When the ambient temperature exceeds the maximum value allowed for the device, charging is temporarily stopped. Then, when the ambient temperature drops below the maximum value, charging is restarted.

Further, in order to prevent the end of charging from being determined by the noise of the temperature sensor, the sampling value of the time-series signal of the difference between the battery temperature and the ambient temperature or the time-series signal of the rate of change of the battery temperature with respect to time. The sampling value was calculated, the sampling value was compared with the reference value, the number of times exceeding the reference value was counted, and the charging was terminated when the count value exceeded a predetermined value.

FIG. 1 shows a basic configuration (1) of the present invention. In the figure, reference numeral 1 is a charging power source, 2 is a charging switch, and 3 is a battery charging control means for controlling ON / OFF of the charging switch 2. Reference numeral 4 is a battery, and 5 is a battery temperature sensor for detecting the ambient temperature of the battery 4. 6 is a ambient temperature sensor, which detects the temperature of the system with a battery (t _s). Reference numeral 7 is an input means for inputting a reference temperature.

In the battery charging control means 3, 10 is a temperature input means for inputting a temperature detection signal of an ambient temperature sensor. 11 is a temperature input means,
The temperature detected by the battery temperature sensor 5 is input. Reference numeral 12 is a reference temperature holding means for holding the reference temperature (t ₀ ) of the device temperature control. 13 is a temperature comparison means, the reference temperature (t ₀₎ and ambient temperature (t _s)
To compare. Reference numeral 14 denotes a charging end detecting means for detecting the end of charging of the battery. The end of charging is detected by the conventional method based on the rise in battery temperature (see FIG. 10), the battery temperature sensor 5 and the ambient temperature sensor 6.
The method is based on the temperature difference of the temperature detected by the above (see the embodiment), the method of detecting the rate of change of the battery temperature (see the embodiment), or the like. Reference numeral 15 is a control signal output means for inputting signals from the temperature comparison means 13 and the charging end detection means 14 and outputting a control signal for turning on or off the charging switch 2.

The control signal (1) turns off the charging switch when the charging is completed. (2) If the ambient temperature (ts)> reference temperature (t ₀ ), the charging switch is turned off even if charging is not completed. (3) in a state in which the charge has not been completed, after you turn off the charging switch 2 at t ₀ <t _s,
If accustomed to t _0> t _s, are those of the content to turn on the charging switch 2 again. Note that comparison means 13, the battery temperature with the ambient temperature (t _s) (t _B) is also input,
The charging switch 2 may be turned off when either t _s or t _B becomes higher than the reference temperature (t ₀ ).

Further, since the battery is difficult to operate at a low temperature, a lower limit value may be set to the reference temperature so that the battery is charged only at a temperature at which it can be charged well. That is, when the lower limit reference temperature is t _1, and t _s > t ₁ (or either t _s or t _B is larger than t ₁ ), the charging switch 2 is turned on, and t _s <t ₁ (t _When either _s or t _B is smaller than t ₁ , the charging switch 2 may be turned off so that charging is performed only between the upper limit value and the lower limit value.

[0014]

The operation of the configuration shown in the figure will be described. The charging switch 2 is turned on and charging is started. The temperature input unit 11 inputs the battery temperature detected by the battery temperature sensor 5 to the charging end detection unit 14 (the battery temperature may be input to the temperature comparison unit 13 as necessary).

The temperature input means 10 inputs the ambient temperature detected by the ambient temperature sensor 6 to the temperature comparison means 13. Temperature comparing means 13 compares the ambient temperature (t _s) and the reference temperature (t _0).

The control signal output means 15 inputs the detection result of the charging end detection means 14 and the comparison result of the temperature comparison means 13, and outputs a control signal for the charging switch 2 determined according to the comparison result.

The operation of the control signal output means 15 will be described with reference to FIG. FIG. 2 is a flow of the control signal output means 15 when the reference temperature has an upper limit value and a lower limit value (however, the charging end detecting means 14 determines that the charging is not ended).

A case will be described in which both the battery temperature and the ambient temperature are input to the temperature comparison means 13 and compared with the reference temperature. Temperature comparison means 13 inputs the ambient temperature (t _s) and the battery temperature (t _B), it compares the upper limit of the reference temperature (t _0). As a result, if either is lower than t ₀ , the process proceeds, and if it is higher, the process proceeds.

As a result of the determination, the lower limit value of the reference temperature (t
₁ ) with t _s and t _B. As a result, if either t _s or t _B is higher than t ₁ , proceed, and if not, proceed to.

If either t _s or t _B is higher than t _{1 as a} result of the determination, since both t _s and t _B are within the chargeable temperature range, the charging switch 2 (charging Sw) is turned on (O
N).

[0021] As a result of the determination of, since either t _s or t _B is not within the chargeable range, the charging switch 2 (charging Sw) is turned off (OFF). After that, the above flow is repeated until the charging end detecting means 14 detects the end of charging. When the charge detection end means 14 detects the end of charge, the control signal output means 14 outputs a control signal for turning off the charge switch 2 regardless of the output of the temperature comparison means 13.

[0022] Note that when entering the reference temperature (t ₀₎ only ambient temperature (t _s) to a temperature comparing means 13,
The process in the flow of FIG. 2 is unnecessary (comparing only t _s and t ₀ ).

FIG. 3 is a diagram for explaining the operation of the basic configuration of the present invention. The figure shows the battery charge rate, ambient temperature, and battery temperature over time. t ₀ is the upper limit value of the reference temperature, and t ₁ is the lower limit value of the reference temperature.

At point A on the time axis, the ambient temperature is the reference temperature t.
It is a point that exceeds ₀ . Point B on the time axis is the point at which the battery charge rate becomes 100%. In the present invention, 100% charging is not performed at point A, but charging is temporarily stopped. Then, when the ambient temperature falls below the upper limit value t ₀ , the charging switch is turned on again to start charging. The operation is repeated, and the charging switch is turned off at the point B when the charging ratio reaches 100%, and the charging is completed.

Although not shown in the figure, the charging switch is turned off when the ambient temperature becomes lower than the lower limit value,
When it becomes higher than the lower limit, turn on the charging switch again. This operation is repeated until charging is completed.

According to the present invention as described above, not only can the temperature of the device equipped with the battery be protected, but the battery temperature during charging can be suppressed within a substantially constant range (around the upper limit value). If charging control conditions are set for the available charging capacity, efficient charging is possible. Alternatively, since the maximum charging capacity of the battery is around 25 degrees Celsius, if the reference temperature is set in the vicinity thereof, the device can always be charged at the temperature in the vicinity, so that the battery can be efficiently charged.

[0027]

EXAMPLE FIG. 4 shows an example (1) of the present invention. The figure shows an embodiment in which the charging switch is turned on or off by comparing the battery temperature and the ambient temperature with the reference temperature.

In the figure, 40 is a battery, 40-1 is a + terminal of the battery, and 40-2 is a battery voltage output terminal for outputting the voltage of the battery terminal 40-1. 40-3 is a-terminal of the battery. 41 is a charging switch, 42 is a DC-DC converter, and AC
The DC voltage input from the adapter 43 is converted into a battery charging voltage. An AC adapter 43 changes an AC voltage into a DC voltage. Reference numeral 44 denotes a battery charge control unit (corresponding to the battery charge control means in FIG. 1), which is based on the ambient temperature and the battery temperature, and the charge switch 41 and the DC-DC converter 42.
Is to control. 45 is a battery temperature sensor, 4
6 is an ambient temperature sensor. Reference numeral 47 denotes an input means for inputting a temperature reference value, which is composed of a keyboard or the like. An input control unit 48 inputs the reference temperature input by the input means 47 to the reference temperature holding unit 54.

In the battery charge control unit 44, 50 is an A / D conversion unit for converting the analog detection value of the battery temperature sensor 45 into a digital value. Reference numeral 51 is an A / D converter that converts the analog detection value of the ambient temperature sensor 46 into a digital value. Reference numeral 52 denotes a charge end detection unit (corresponding to the charge end detection means in FIG. 1) that detects the end of charging (for example, FIG. 10).
(The same as the charging end detection means 107). Reference numeral 53 denotes a temperature comparison unit (corresponding to the temperature comparison unit 13 in FIG. 1) for comparing the ambient temperature and the battery temperature with the reference temperature (upper limit value and lower limit value).

Reference numeral 54 is a reference temperature holding unit (corresponding to the reference temperature holding means 12 in FIG. 1) which holds the upper limit value and the lower limit value of the reference temperature. As the upper limit value, for example, the maximum allowable temperature of the battery-equipped device is set. The lower limit value sets the minimum operating temperature of the battery. Alternatively, the upper limit value and the lower limit value may be set to a temperature at which charging can be efficiently performed according to the charging efficiency of the battery.

Reference numeral 55 denotes a control signal output section (corresponding to the control signal output means 15 in FIG. 1) for controlling on / off of the charging switch 41 and the DC-DC converter 42.

In the temperature comparing section 53, the counter 56
Is to count the number of times the ambient temperature or the battery temperature exceeds the reference temperature as a result of temperature comparison. When the count value exceeds a predetermined constant value, the temperature comparison unit 53 outputs to the control signal output unit 55 a signal indicating that the ambient temperature or the battery temperature exceeds the reference temperature.

In the configuration shown in the figure, the battery charge control unit 4
4 is equipped with a CPU that controls the overall operation, but is omitted. The battery charge control unit 44 also detects the battery voltage output from the battery terminal 40-2 and starts charging the battery 40 (however, the control means is not shown).

In the configuration shown in the figure, the A / D conversion section 50 converts the analog temperature signal of the battery temperature sensor 45 into a digital signal, and the charging end detection section 52 and the temperature comparison section 53.
To enter. Similarly, the A / D conversion unit 51 converts the analog temperature signal of the ambient temperature sensor 46 into a digital value and inputs it to the temperature comparison unit 53. The temperature comparison unit 53 outputs the sampling signals of the respective digital input values to the reference temperature holding unit 5.
4 is compared with the reference temperature held by 4, and each signal (battery temperature and ambient temperature) is compared with the reference temperature, and the number of times exceeding the reference value is counted. Then, when any of the count values exceeds a predetermined constant value, the comparison result is output.

Except for the operation of the temperature comparing section 53, the same operation as the basic construction of FIG. 1 is performed. FIG. 5 shows an embodiment of the present invention.
Indicates (2). The drawing shows an embodiment of the charge detection means 14 of FIG. 1 and the charge end detection unit 52 of FIG.

In the figure, 60 is a battery, 61 is a charge switch, 62 is a DC-DC converter, 63 is an AC adapter, 64 is a battery charge control unit, 65 is a battery temperature sensor, and 66 is an ambient temperature sensor.

In the battery charge control unit 64, 70,
Reference numeral 71 is an A / D converter, and 72 is a charge end detector. 7
An ambient temperature determination unit 3 compares the ambient temperature with a reference temperature (upper limit value or lower limit value) and outputs a comparison result (for example, the temperature input unit 10 and the temperature comparison unit 13 in FIG. 1). , Constituted by the reference temperature holding means 12 and the like). 74 is a control signal output unit.

In the charging end detection unit 72, reference numeral 80 is a temperature difference calculation unit which inputs the battery temperature and the ambient temperature to calculate the difference and compares it with the reference value of the temperature difference. 8
A reference temperature difference holding unit 4 holds a reference value of the temperature difference. A counter 82 counts the number of times the calculated temperature difference exceeds the reference temperature difference. When the count value reaches a predetermined constant value, the temperature difference calculation unit 80 outputs the temperature difference detection result to the control signal output unit 7.
4 is output.

The operation of the configuration shown in the figure will be described. The A / D conversion unit 70 converts the analog signal of the battery temperature into a digital value and inputs it to the temperature difference calculation unit 80. The A / D converter 71 converts the analog signal of the ambient temperature into a digital value and inputs it to the temperature difference calculator 80. The temperature difference calculation unit 80 calculates the difference between the battery temperature and the ambient temperature. Then, the time-series sampling data of the temperature difference is compared with the reference temperature difference, and the counter 82 is incremented by 1 each time the sampling data of the temperature difference exceeds the reference value. When the count value becomes equal to or larger than the predetermined count value, the temperature difference calculation unit 80 determines that the battery has been charged, and notifies the control signal output unit 74 of the end of charging. The control signal output unit 74 outputs a control signal for turning off the charging switch 61 and the DC-DC converter 62.

In the figure, input means for inputting the reference temperature difference to the reference temperature difference holding section 84 is omitted. Figure 6 shows
5 shows a flow of the charging end detection unit 72 and the control signal output unit 74 in FIG. 5 (the temperature difference reference value is 5, the count value reference value is 5).
Is the case).

The temperature difference calculator 80 calculates the difference t ₂ between the battery temperature and the ambient temperature. The temperature difference calculation unit 80 compares the calculated temperature difference with the temperature difference reference value 5 held by the temperature difference reference value holding unit 84. If the temperature difference exceeds 5, proceed to and if it does not exceed 5, proceed to.

The counter 82 increments the count value by 1. It is determined whether the count value exceeds 5. If the count value exceeds 5, the process proceeds to, and if not, the subsequent processes are repeated.

When the value of the counter exceeds 5, it means that the charging is completed, and therefore the charging completion detection unit 72 outputs a signal indicating the completion of charging to the control signal output unit 74. The control signal output unit 74 outputs a control signal for turning off the charging switch, and turns off the charging switch. At the same time, the control signal output unit 74 outputs a control signal for turning off the DC-DC converter 62, and stops the DC-DC converter.

FIG. 7 is a diagram for explaining the operation of the temperature difference calculating section according to the embodiment (2) of the present invention. The temperature difference calculation unit 80 (see FIG. 5) obtains the temperature difference (t ₂ ) between the battery temperature and the ambient temperature. Then, the number of times the temperature difference exceeds the reference temperature difference is counted. Count points A and B in the figure. As a result, when the count value exceeds a predetermined value, it is determined that charging is completed.

FIG. 8 shows an embodiment (3) of the present invention. The rate of change of the battery temperature rapidly increases after the charging is completed (see the graph of the battery temperature corresponding to point B in FIG. 3).

The figure shows a case in which a charge end detection unit for determining the end of charge based on the rate of change of the battery temperature with time is constructed. The configuration of the ambient temperature detector is the same as that of the embodiment (2).

In the figure, 85 is a battery, 86 is a charging switch, 87 is a DC-DC converter, 88 is an AC adapter, 89 is a battery temperature sensor, 90 is an ambient temperature sensor, and 91 is a battery charging control section.

In the battery charge control unit 91, reference numeral 92 is a control signal output unit and 93 is an ambient temperature detecting unit for determining whether or not the ambient temperature exceeds a reference temperature (compared with an upper limit value and a lower limit value). To). Ambient temperature determination unit 9
3 is the same as in Example (2). Reference numeral 94 is a charge end detection unit.

In the charging end detection unit 94, 95, 9
Reference numeral 5'denotes an A / D conversion unit, and 96 a change rate calculation unit for calculating the change rate of the battery temperature with respect to time. Reference numeral 97 is a reference change rate holding unit, which holds a change rate serving as a reference for termination of charging. A change rate comparison unit 98 compares the reference change rate with the change rate of the battery temperature, counts the number of times the time-series sampling data of the change rate of the battery temperature is larger than the reference change rate, and sets a predetermined count value. When it becomes larger, a signal indicating the end of charging is output. 98 'is a counter.

In the configuration shown in the figure, the ambient temperature detection unit 93 determines whether the ambient temperature is within the operation allowable range and notifies the control signal output unit 92 of the determination result. When the end-of-charge detection unit 94 detects the end of charge, the end-of-charge control signal output unit 92
To notify. The control signal output unit 92, when the charging is completed or when the ambient temperature detection unit 93 notifies that the ambient temperature (or the battery temperature) is out of the permissible range without the completion of charging, the charging switch 86 and the DC-DC converter. A signal for turning off 87 is output.

The operation of the charging end detection unit 94 will be described. A
The / D converter 95 converts the analog signal of the battery temperature into a digital value and inputs it to the change rate calculator 96. The change rate calculation unit 96 calculates the change rate of the battery temperature with respect to time. The change rate comparison unit 98 compares the time-series sampling data of the change rate of the battery temperature with the reference change rate. Then, every time the rate of change of the battery temperature becomes larger than the reference rate of change, the counter is incremented by one. When the count value becomes larger than the predetermined count value, the control signal output unit 92 is notified of the end of charging, as the charging has been completed.

FIG. 9 shows a flow of the charging end detection unit 94 and the control signal output unit of FIG. 8 (when the reference rate of change and the value of the counter for judging charging end are 2). The change rate calculation unit 96 calculates t ₃ (temperature change rate) = current temperature (current battery temperature sampling data) −previous temperature (previous battery temperature sampling data).
To calculate.

The change rate comparison unit 98 compares the reference change rate (2) with the temperature change rate (t ₃ ). If the temperature change rate (t _3)> reference change rate (2), the flow proceeds to. If the temperature change rate (t ₃ ) is not greater than the reference change rate (2), proceed to.

The counter 98 'is incremented by 1. It is determined whether the value of the counter is larger than the predetermined value 2. If the value of the counter is greater than 2, proceed to.
If the value of the counter is not larger than the predetermined value 2, the subsequent processing is repeated.

The control signal output unit 92 is the charging switch 8
A control signal for turning off 6 is output. The control signal output unit 92 also outputs a control signal for turning off the DC-DC converter 87.

[Brief description of drawings]

FIG. 1 is a diagram showing a basic configuration of the present invention.

FIG. 2 is a diagram showing a flow of control signal output means having a basic configuration of the present invention.

FIG. 3 is an operation explanatory diagram of the basic configuration of the present invention.

FIG. 4 is a diagram showing an embodiment (1) of the present invention.

FIG. 5 is a diagram showing an embodiment (2) of the present invention.

FIG. 6 is a diagram showing a flow of a charging end detection unit and a control signal output unit according to the embodiment (2) of the present invention.

FIG. 7 is an operation explanatory diagram of the temperature difference calculation unit according to the embodiment (2) of the present invention.

FIG. 8 is a diagram showing an embodiment (3) of the present invention.

FIG. 9 is a diagram showing a flow of a charge end detection unit and a control signal output unit according to the embodiment (3) of the present invention.

FIG. 10 is a diagram showing a conventional battery charger.

[Explanation of symbols]

 1: Charging power source 2: Charging switch 3: Battery charging control means 4: Battery 5: Battery temperature sensor 6: Ambient temperature sensor 7: Input means 10: Temperature input means 11: Temperature input means 12: Reference temperature holding means 13: Temperature Comparing means 14: Charge end detecting means 15: Control signal outputting means

Claims (6)

[Claims] 1. A battery (4), a charging switch (2),
In a battery charger equipped with a battery charge control means (3), a device equipped with a battery (4) is equipped with an ambient temperature sensor (6) for detecting the temperature inside or near the device, and the battery charge control means ( 3) is a reference temperature holding means (12) that holds the reference temperature for turning the charging switch (2) on or off, and a temperature comparison that inputs the detected temperature of the ambient temperature sensor (6) and compares it with the reference temperature. Means (13), a control signal output means (15) for controlling ON / OFF of the charging switch based on the comparison result of the temperature comparison means (13), and a charge end detection for judging the end of charging of the battery (4) And a means (14) for charging the switch even if charging is not completed when the temperature detected by the ambient temperature sensor (6) exceeds the reference temperature.
(2) A battery charging device characterized by turning off. 2. A battery temperature sensor (5) for detecting the temperature of a battery (4) according to claim 1, wherein the temperature comparison means (13) comprises a battery temperature sensor (5) and an ambient temperature sensor (6). A battery charging device characterized in that a detected temperature is input and compared with a reference temperature, and when any of the detected temperatures exceeds the reference temperature, the charging switch (2) is turned off even if charging is not completed. . 3. The charging end detection means (14) according to claim 1 or 2, wherein the temperature detected by the battery temperature sensor (5) is input, and the charging end is determined based on the temperature difference after the start of charging the battery. The temperature difference calculation unit that calculates the temperature difference by inputting the detected temperatures of the battery temperature sensor (5) and the ambient temperature sensor (6), and holds the temperature difference that is the reference for termination of charging. A battery charger, comprising: a reference temperature difference holding unit, which determines the end of charging when the temperature difference exceeds a predetermined value and turns off the charging switch (2). 4. The battery temperature sensor according to claim 3.
The counter is provided with temperature input means (11), (10) for converting the detection values of (5) and the ambient temperature sensor (6) into digital values, and a counter for counting the number of times the temperature difference exceeds the reference temperature difference. The battery charging device is characterized in that the end of charging is determined when the count value of is greater than a predetermined constant value. 5. The charging end detection means (14) according to claim 1 or 2, wherein a charging rate detecting unit (14) inputs a temperature detected by the battery temperature sensor (5) and calculates a rate of change of the battery temperature with respect to time, and charging. A reference change rate holding unit that holds a reference change rate that serves as a reference for termination and a change rate comparison unit that compares the change rate calculated by the change rate calculation unit with the reference change rate are provided, and the change rate of the battery temperature is set as a reference. A battery charging device characterized by determining the end of charging when the rate of change is exceeded. 6. The battery temperature sensor according to claim 5.
(5) and temperature input means (11), (10) for converting the detected value of the ambient temperature sensor (6) into a digital value, and a counter for counting the number of times the rate of change of the battery temperature exceeds the reference rate of change. , A battery charging device characterized by determining the end of charging when the count value of the counter exceeds a predetermined constant value.