JP2000156939A - Charge controller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize optimum charge control with satisfactory balance between a charging time and heat generation. SOLUTION: The temperature of a CPU 10 is measured by a temperature sensor 30 and the temperature of a battery 40 is measured by a thermistor 42. Furthermore, a charge controller 38 detects an overoll consumed current. Referring to a charge value table 38A, the charge controller decides a proper charging current corresponding to the CPU temperature, a proper charging current corresponding to the battery temperature and a proper charging current corresponding to the overall consumed current, and selects the smallest charging current from among the charging currents is set as an optimum charging current out the battery 40 is charged.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging control device for controlling charging of a secondary battery mounted in a device.

[0002]

2. Description of the Related Art In a portable device such as a portable personal computer (hereinafter, referred to as a notebook PC), a secondary battery (hereinafter, referred to as a battery) is used as an operation power source when the device is carried.

Conventionally, charging of the battery is performed according to the load of the system.
That is, when the load is light, the charging is performed at high speed with the maximum current, and when the load becomes heavy, the charging current is reduced and the charging time is delayed.

[0004]

SUMMARY OF THE INVENTION Like a notebook PC,
In a case where an AC power supply is used indoors and a battery is used when going out, there are two problems, that is, high power indoors and power saving when going out. In addition, charging a depleted battery indoors is also an important issue.

[0005] In a recent notebook PC equipped with a high-speed processor, the temperature inside the device has reached a maximum of + 85 ° C due to heat generated by the CPU, chipset, HDD and the like.

[0006] Simply applying the same charge control according to the load to such a device as in the prior art is directly affected by the heat generated by charging the battery, further increasing the temperature inside the device, and seriously affecting the system. Could bring about a crisis.

[0007] It is an object of the present invention to enable optimal charging control to balance charging time and heat generation.

[0008]

Means of the present invention are as follows. According to a first aspect of the present invention, there is provided a charge control device that controls charging of a secondary battery mounted in a device, and includes a temperature detection unit, a state detection unit, an optimum charge amount determination unit, a charge control unit, Is provided. The temperature detecting means detects a temperature inside the device. The state detecting means detects a state of a predetermined unit in the device. The optimum charge amount determination means determines an optimum charge amount based on a proper charge amount according to the temperature detected by the temperature detection means and a proper charge amount according to the state of the predetermined portion detected by the state detection means. The charge amount is determined. The charge control means charges the secondary battery with the optimum charge amount determined by the optimum charge amount determination means.

The operation of the means of the present invention is as follows. The optimal charge amount determination means is configured to calculate an appropriate charge amount according to the temperature in the device detected by the temperature detection device and an appropriate charge amount according to the state of a predetermined portion in the device detected by the state detection unit. Then, the optimum charge amount is determined, and the charge control means charges the secondary battery with the optimum charge amount determined by the optimum charge amount determination means. Therefore, optimal charging control that balances charging time and heat generation can be performed.

The means of the invention according to claim 4 is as follows.
According to a fourth aspect of the present invention, there is provided a charging control apparatus for controlling charging of a secondary battery mounted in a device, comprising: a detecting unit; a first appropriate charging amount determining unit; and a second appropriate charging amount determining unit. Means, a third appropriate charge amount determining means, and a charge control means. The detecting means detects the temperature inside the device, the temperature of the secondary battery, and the amount of current consumed by the operation of the device. The first appropriate charge amount determining means determines a first appropriate charge amount in which the charge amount is reduced in accordance with a rise in the temperature in the device detected by the detection means. The second appropriate charge amount determination means determines a second appropriate charge amount, which is reduced in charge according to a rise in the temperature of the secondary battery detected by the detection means. The third appropriate charge amount determining means determines a third appropriate charge amount in which the charge amount is reduced according to the increase in the consumed current amount detected by the detection means. The charge control means sets the smallest charge amount among the first to third proper charge amounts determined by the first to third proper charge amount determination means as an optimum charge amount, and determines the optimum charge amount. The secondary battery is charged according to the amount.

The operation of the means according to the fourth aspect of the invention is as follows. The first appropriate charge amount determining means determines a first appropriate charge amount whose charge amount has been reduced in accordance with a rise in the temperature inside the device detected by the detecting means, and the second appropriate charge amount determining means. A second appropriate charge amount, the charge amount of which is reduced according to a rise in the temperature of the secondary battery detected by the detection means, and a third appropriate charge amount determination means
A third appropriate charge amount is determined in which the charge amount is reduced in accordance with an increase in the amount of current consumed by the operation of the device detected by the detection means. Then, the charge control means sets the smallest charge amount among the first to third proper charge amounts determined by the first to third proper charge amount determination means as the optimum charge amount. The secondary battery is charged with an appropriate charge amount. Therefore, optimal charging control that balances charging time and heat generation can be performed.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIGS.

FIG. 1A is a diagram showing a configuration of a notebook PC to which a charge control device according to an embodiment of the present invention is applied, and reference numeral 10 in the figure denotes a control of the entire notebook PC. The CPU is a control unit that performs the operation.

An input device 14, a display device 16, an I / O unit 18,
The storage device 20, the RAM 22, and the I / O controller 24 are connected.

The input device 14 is a keyboard, a pointing device or the like, and the display device 16 is a liquid crystal display or the like. The I / O unit 18 is for connecting a printer, a communication device, and the like (not shown).

The storage device 20 is a hard disk, a ROM, or the like. The storage device 20 and the RAM 22 store the C
The processing programs and data of the notebook PC executed by the PU 10 are stored in advance. Of course, the programs and data stored in the storage device 20 and the RAM 22 are stored on a floppy disk or an optical (magnetic) disk. The data may be read from a storage medium 26 such as a disk, or may be received by the I / O unit 18 from another device connected via an external data transmission / reception communication line (wired or wireless). Then, these may be stored in these.

The I / O controller 24 includes a control bus 28
, Data communication between the CPU 10, the temperature sensor 30, and the power supply control unit 32.

Here, the temperature sensor 30 is provided near the CPU 10 and measures the ambient temperature of the CPU 10. The measured temperature is a predetermined monitoring temperature, for example, 7
When the temperature reaches 0 ° C. or higher, an interrupt signal is supplied to the CPU 10.

As shown in FIG. 1B, the power supply control unit 32 includes a DC-DC converter 36 connected to an AC adapter 34 via a resistor R1 and a diode D1.
A charging controller 38 connected to the AC adapter 34 via a diode D2;
And a battery 40 connected to the charge control controller 38 via the control unit 8.

Here, the DC-DC converter 36 is
When the C adapter 34 is connected, the AC adapter 34 is used as a power source, and when the AC adapter 34 is not connected, the battery 40 connected via the resistor R2 and the diode D3 is used as a power source, and each part of the notebook PC is used. Drive voltage V _CC _CPU, V _CC _I supplied to
_{/ 0, V CC _HDD, V} CC _AL, to generate ....

The charge controller 38 operates using the drive voltage V _CC _AL as an operating power source and controls the control bus 2.
The communication with the CPU 10 is performed via the CPU 8. The charge control controller 38 is provided at an entire current / voltage measurement terminal connected to both ends of the resistor R1, a battery current / voltage measurement terminal connected to both ends of the resistor R2, and at a position near the battery 40. Thermistor 42 and resistor R3
And a battery temperature measurement terminal connected to the battery temperature sensor, and a charge value table 38A as shown in FIG. 2A. Then, referring to the charge value table 38A, each charge current is determined based on each measurement value input to the measurement terminal and the measurement value of the temperature sensor 30 notified from the CPU 10, and a minimum value among them is determined. Battery 40 as the optimal charging current.
Charge. Here, “1C” in the charge value table 38A is a value at which the battery 40 is fully charged in one hour.

Next, the operation in such a configuration will be described. First, the CPU 10 previously sets, for example, 70 ° C. as a predetermined monitoring temperature in the temperature sensor 30 via the control bus 28 by the I / O controller 24. Then, when the temperature of the CPU 10 exceeds the monitored temperature, the temperature sensor 30 notifies the CPU 10 of an interrupt at regular intervals.

In response to the interrupt notification, the CPU 10 sends a signal from the temperature sensor 30 as shown in FIG.
The measured temperature is received via the I / O controller 24 (step S10), and the measured temperature is
The controller 24 notifies the charging controller 38 of the power supply controller 32 via the control bus 28 (step S12).

The charge control controller 38 includes a CPU
In response to the temperature notification from 10, the processing as shown in FIG. 3 is started.

That is, first, the voltage of the battery 40 is measured at the battery current voltage measuring terminal (step S20), and it is determined whether the battery 40 is already fully charged (step S22). If the battery is fully charged, the charging of the battery 40 is terminated (step S24), and this process is terminated.

On the other hand, when it is determined that the battery has not been fully charged, the battery 40 is measured by the battery temperature measuring terminal.
And the overall current consumption is measured at the overall current / voltage measurement terminal (step S26), and based on the measured data and the CPU temperature notified from the CPU 10, charging is performed using the charging value table 38A. The current is set (step S28).

The process for setting the charging current is shown in FIG.
This is performed as shown in FIG. That is, first, the charge current is determined from the current overall current consumption value, and the charge current is temporarily stored in a memory (not shown) provided in the charge control controller 38 (step S28A). Next, the charging current is determined from the current battery temperature and temporarily stored (step S28).
B) Further, the charging current is determined from the current CPU temperature and temporarily stored (step S28C). Then, among the three temporarily stored charging currents, the smallest charging current is set as the actual charging current value (step S28).
D).

After the charging current value has been set, it is next determined whether or not charging has just started (step S3).
0) If yes, the charging of the battery 40 is started with the set charging current value (step S32), and this process ends.

If it is not immediately after the start of charging, it is determined whether or not the measurement state has changed from the time of the previous processing (step S34), and if not, charging with the charging current value set at the previous processing is continued. Therefore, this processing ends without performing any operation. On the other hand, if there is a change in the measurement state, the new charge commutation value set in step S28 according to the changed measurement state will be used.
After the charging of 0 is continued (step S36),
This processing ends.

As described above, the charge controller 38
Indicates the load state of the CPU 10 based on the total current consumption, and C
The temperature of the PU 10 and the temperature of the battery 40 are measured, and the charging current is controlled to an optimum value (4 levels of 1C, 1 / 2C, 1 / 4C, and suspension).

In this case, even if the load on the CPU 10 increases,
Maximum (1C) below the monitoring temperature (for example, 70 ° C)
The charge control is continued, and when the monitored temperature is exceeded, the charge is controlled stepwise.

Therefore, although the control was considerably complicated by the conventional control method based on the load fluctuation of the CPU, by adding the control based on the temperature to this, the complexity due to the load fluctuation was released, and the control was efficiently performed. Becomes possible.

In the above-described embodiment, the monitoring temperature is set in advance, and the CPU temperature is set according to the operating temperature around the CPU.
Although 0 controls the charge controller 38, the load can be further reduced if the charge controller 38 directly reads the temperature of the temperature sensor 30.

Conversely, the function of the charge control controller 38 may be executed by the CPU 10 as software. In this case, the charge value table is provided in the RAM 22.

The amount of charge is not limited to the amount of current but may be voltage.

Further, a temperature sensor for measuring the temperature of the CPU 10 can be provided integrally inside the CPU.

Further, charging may be controlled in consideration of the temperature of an LSI for controlling individual devices such as a printer and a display as another detection condition.

Further, sensors may be provided at a plurality of positions in the equipment case, the temperatures of the plurality of sensors may be averaged, and the charging may be controlled based on the averaged temperature.

[0039]

According to the present invention, optimal charging control that balances charging time and heat generation can be performed by simply considering not only the load but also the temperature of the CPU (ambient temperature).

[Brief description of the drawings]

FIG. 1A is a diagram showing a configuration of a notebook PC to which a charge control device according to an embodiment of the present invention is applied;
FIG. 2B is a diagram illustrating a configuration of a power supply control unit in FIG.

FIG. 2A is a diagram showing stored contents of a charge value table provided in a charge control controller in FIG. 1B, and FIG. 2B is an operation of a CPU in FIG. It is a flowchart, (C) is a flowchart of the setting process of the charging current in FIG.

FIG. 3 is an operation flowchart of a charge control controller in FIG.

[Explanation of symbols]

 Reference Signs List 10 CPU 12 system bus 14 input device 16 display device 18 I / O unit 20 storage device 22 RAM 24 I / O controller 26 storage medium 28 control bus 30 temperature sensor 32 power supply control unit 34 AC adapter 36 DC-DC converter 38 charge control Controller 38A Charge value table 40 Battery 42 Thermistor

Claims (6)

[Claims] 1. A charging control device for controlling charging of a secondary battery mounted in a device, comprising: a temperature detecting means for detecting a temperature in the device; and a state detecting device for detecting a state of a predetermined portion in the device. Means for determining an optimal charge amount from an appropriate charge amount according to the temperature detected by the temperature detection means and an appropriate charge amount according to the state of the predetermined portion detected by the state detection means. A charge control unit for charging the secondary battery with the optimum charge amount determined by the optimum charge amount determination unit. 2. The state detection means detects the amount of current consumed by the operation of a device as the state of the predetermined portion, and the optimum charge amount determination means determines the state of the predetermined part according to the amount of current consumption. The charge control device according to claim 1, wherein the optimal charge amount is determined from an appropriate charge amount and an appropriate charge amount according to the temperature detected by the temperature detection unit. 3. The state detection means detects the temperature of the secondary battery as the state of the predetermined portion, and the optimum charge amount determination means determines an appropriate state of charge of the secondary battery in accordance with the temperature of the secondary battery. 2. The charge control device according to claim 1, wherein the optimal charge amount is determined from a charge amount and an appropriate charge amount according to the temperature detected by the temperature detection unit. 3. 4. A charge control device for controlling charging of a secondary battery mounted in a device, comprising: a temperature in the device, a temperature of the secondary battery, and an amount of current consumed by an operation of the device. Detecting means for detecting the first and second appropriate charge amounts, the charge amount being reduced in accordance with a rise in the temperature of the device detected by the detecting means, and a first appropriate charge amount determining means for determining a first appropriate charge amount. A second proper charge amount discriminating means for discriminating a second proper charge amount, wherein the charge amount is reduced in accordance with a rise in the temperature of the secondary battery detected by the detecting means; A third proper charge amount discriminating means for discriminating a third proper charge amount, the charge amount being reduced in accordance with the increase in the consumed current amount, and a first to third proper charge amount discriminating means. Of the determined first to third appropriate charge amounts, The smallest amount of charge to the optimum charge amount, the charge control device, characterized by comprising a charge control unit for charging the secondary battery by the optimum charge amount. 5. The charging control device according to claim 4, wherein the detecting means detects a temperature around a CPU of the device as the temperature inside the device. 6. The first suitable charge amount determining means starts operating when the temperature in the device becomes equal to or higher than a predetermined monitoring temperature. The charge control device according to claim 4, wherein the secondary battery is charged with the maximum charge amount until the operation of the appropriate charge amount determination unit starts.