JPH0984272A - Method for charging secondary cell - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to detect abnormality of a secondary cell without damaging the cell or a charge. SOLUTION: The method for charging a secondary cell B connected with a load 3 comprises the steps of preparatory pulse charging of the cell B by a charging current larger than the consumption current of the load 3, then judging whether the battery voltage of the cell B is higher than a predetermined voltage or not, and finishing the charging of the cell B when the battery voltage is judged to be lower than the predetermined voltage, or quickly charging the cell B when the battery voltage is judged to be higher than the predetermined voltage.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of charging a secondary battery to which a load is connected, and more particularly to a method of charging a secondary battery which detects an abnormality in the secondary battery and charges the secondary battery.

[0002]

2. Description of the Related Art In charging a secondary battery, a relatively high rapid charging current (for example, a charging current of 1C to 3C) is supplied to the secondary battery in order to finish the charging in a short time. Is usually done. In this case, if an abnormality such as an internal short circuit exists in the secondary battery, supplying the rapid charging current as described above causes not only catastrophic damage to the secondary battery but also damage to the charger. There is a risk that

Therefore, Japanese Patent Laid-Open No. 63-302734 discloses a technique of performing preliminary charging before performing rapid charging. According to the disclosed technique, when charging the secondary battery, first, a relatively low charging current is supplied to the secondary battery to perform preliminary charging. Then, when the battery voltage of the secondary battery does not increase at a certain rate, the charging operation is stopped, and it is displayed that the secondary battery is abnormal. On the other hand, when the battery voltage of the secondary battery increases at a constant rate in the preliminary charging, the rapid charging current is supplied to the secondary battery to continuously perform the rapid charging.

[0004]

As described above, by precharging the secondary battery, an abnormality such as an internal short circuit of the secondary battery can be detected.

By the way, when the secondary battery is used as a power source of a portable communication device such as a mobile phone or a transceiver, the secondary battery remains attached to the portable communication device, that is, the load is connected to the secondary battery. It is often charged in a charged state.
In a secondary battery to which a load is connected in this way, if the load is driven during the preliminary charging of the secondary battery as described above, the pre-charging current flowing in the secondary battery decreases due to the consumption current of the load. Alternatively, if the consumption current is larger than the pre-charging current, the current flows out from the secondary battery. As a result, the battery voltage of the secondary battery does not rise at all (see FIG. 4) or decreases on the contrary, even though the secondary battery is being precharged. Therefore, even if there is no abnormality in the secondary battery. , It is considered that the secondary battery is abnormal, and charging stops.

In order to solve this problem, when a rapid charging current is supplied to the secondary battery from the beginning of charging, if the secondary battery has an abnormality such as an internal short circuit, the secondary battery and the charger are damaged. Will be given.

Therefore, the present invention accurately detects an abnormality of the secondary battery when charging the secondary battery to which a load is connected.

[0008]

According to the present invention, in a charging method for charging a secondary battery to which a load is connected, the secondary battery is preliminarily pulse-charged with a charging current larger than the consumption current of the load. A step of determining whether or not the battery voltage of the secondary battery after the pulse charging is higher than a predetermined voltage, and ending the charging of the secondary battery when determining that the battery voltage is lower than the predetermined voltage, And rapidly charging the secondary battery when it is determined that the battery voltage is higher than the predetermined voltage.

[0009]

According to the present invention, in charging the secondary battery, first, the secondary battery is preliminarily pulse-charged with a charging current larger than the consumption current of the load. Then, it is determined whether the battery voltage of the secondary battery is higher than a predetermined voltage. The predetermined voltage is a voltage with which it can be determined whether or not the secondary battery is internally short-circuited, and is, for example, 1.1 V / cell.

When the battery voltage of the secondary battery after pulse charging is lower than the predetermined voltage, it is determined that the secondary battery is abnormal, and the subsequent charging operation is terminated.

On the other hand, when it is determined that the battery voltage of the secondary battery is higher than the predetermined voltage, it is determined that the secondary battery is normal, and the secondary battery is rapidly charged with the rapid charging current. Then, when full charge is detected, charging of the secondary battery is terminated.

[0012]

FIG. 1 is a circuit diagram showing an embodiment of the present invention. The DC power input from the DC input terminal 1 is DC-
After being converted into a predetermined DC voltage and a DC current by the DC converter 2, it is supplied to the secondary battery B via the charge control transistor Q1. The secondary battery B is in the shape of a battery pack and is connected to the telephone body 3 which is a load of the battery.

In parallel with the charge control transistor Q1, a trickle charge control transistor Q2 and a trickle current resistor R3 are provided.
And a series circuit composed of the backflow prevention diode D1 is connected. The charge control transistor Q1 and the trickle charge control transistor Q2 have base resistors R4 and R5, respectively.
Is connected to the microcomputer 4 via.

To the secondary battery B, voltage dividing resistors R1 and R2 for detecting the battery voltage are connected in parallel. The battery voltage detected by the voltage dividing resistors R1 and R2 is calculated by the microcomputer 4
Is input to The microcomputer 4 responds to such battery voltage by
The on / off operation of the charge control transistor Q1 and the trickle charge control transistor Q2 is controlled.

In the present embodiment, the trickle charge control transistor Q2 is used when the secondary battery B is charged.
It is always on.

Further, a display element LED for displaying a charging state is connected to the microcomputer 4 to display the charging state of the secondary battery B, charging abnormality and the like.

The charging operation according to the present invention will be described below with reference to FIGS. 2 and 3. First, in step S1, it is detected whether or not the secondary battery B to which the telephone body 3 as a load is connected is attached. Such detection is performed depending on whether or not the battery voltage is detected by the voltage dividing resistors R1 and R2, or by disposing a detection element (not shown) at the mounting position of the secondary battery B. Done.

When the mounting of the secondary battery B is detected, in step S2, the microcomputer 4 turns on the trickle charge control switch Q2, and the trickle charge current (the magnitude of the current is, for example, C / (Set to 10 to C / 30), the charging control switch Q1 is turned on and off at the same time, and the secondary battery B is preliminarily pulse-charged with a charging current larger than the current consumption of the telephone body 3. In the present embodiment, the charging current for pulse charging is the rapid charging current when the secondary battery B is rapidly charged later (for example,
1C to 3C), and the charge control switch Q1 is turned on for 1 second and turned off for 3 seconds five times.

When the preliminary pulse charging is completed, the charge control switch Q1 is turned off. At this time, since the trickle charge control transistor Q2 continues to be in the ON state as described above, the secondary battery B is trickle charged in step S3. Then, in step S4, the battery voltage of the secondary battery B after the above-mentioned pulse charging is changed to the short circuit determination voltage (1.1 V in this embodiment).
/ Cell).

If it is determined that the voltage is lower than the short-circuit determination voltage, it is determined in step S5 whether or not pulse charging has been performed 10 times (that is, the charging in step S2 is performed twice), and if not, step S2 Return to.
On the other hand, if pulse charging has been performed 10 times, in step S6, it is determined that the secondary battery B is abnormal, charging of the secondary battery B is terminated, and an abnormality is displayed on the display element LED.

If the secondary battery B is normal, step S
Due to the pulse charging in 2, the battery voltage of the secondary battery B increases stepwise as shown in FIG. 3 and exceeds the short circuit determination voltage. Therefore, in step S4, the battery voltage of the secondary battery B is determined to be higher than the short circuit determination voltage.

If it is determined to be high, in the present embodiment, the quick charge is not immediately started, and the trickle charge for 3 minutes is performed in step S7. The reason is as follows. That is, when the secondary battery B to be charged is just discharged, the secondary battery B may be in a high temperature state. If the secondary battery B immediately shifts to rapid charging in this state, the secondary battery B is charged. It may deteriorate. So 3
By performing trickle charging for a minute, a cooling period of the secondary battery B is provided.

When the trickle charge for 3 minutes is completed, the microcomputer 4 controls the charge control switch Q1 in step S8.
Is continuously turned on, and the rapid charging of the secondary battery B is started. When the rapid charging is started, the step S9 is performed thereafter.
In S11 to S11, it is determined every 5 minutes from the start whether or not the battery voltage of the secondary battery B is higher than the short circuit determination voltage, as in step S4. Such steps are
It is to determine whether or not there is any abnormality in the secondary battery B during rapid charging.

When an abnormality occurs in the secondary battery B, the charging of the secondary battery B is terminated in step S6, and the secondary battery B is terminated.
Display abnormalities. On the other hand, if no abnormality has occurred in the secondary battery B, it is determined in step S11 whether the secondary battery B has reached full charge, and if it has reached full charge, charging is terminated in step S12.

[0025]

According to the present invention, in a charging method for charging a secondary battery to which a load is connected, the secondary battery is preliminarily pulse-charged with a charging current larger than the consumption current of the load, and this pulse is used. Determining whether the battery voltage of the secondary battery after charging is higher than a predetermined voltage,
When it is determined that the battery voltage is lower than the predetermined voltage, the charging of the secondary battery is ended, and when the battery voltage is determined to be higher than the predetermined voltage, the secondary battery is rapidly charged. An abnormality of the secondary battery can be reliably detected without damaging the secondary battery or the charger.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing one embodiment of the present invention.

FIG. 2 is a flowchart showing an embodiment of the present invention.

FIG. 3 is a waveform diagram showing an embodiment of the present invention.

FIG. 4 is a waveform diagram showing a conventional example.

[Explanation of symbols] B secondary battery 3 telephone body 4 microcomputer Q1 charge control switch Q2 trickle charge control switch

Claims (2)

[Claims] 1. A charging method for charging a secondary battery to which a load is connected, the step of preliminarily pulse-charging the secondary battery with a charging current larger than the consumption current of the load, and the step after the pulse charging. A step of determining whether the battery voltage of the secondary battery is higher than a predetermined voltage, and ending the charging of the secondary battery when determining that the battery voltage is lower than the predetermined voltage, and the battery voltage is higher than the predetermined voltage. And a step of rapidly charging the secondary battery when it is determined to be large, the secondary battery charging method. 2. A step of determining whether the battery voltage of the secondary battery is higher than a predetermined voltage during the rapid charging, and charging the secondary battery if it is determined that the battery voltage is lower than the predetermined voltage. And a step of continuing rapid charging of the secondary battery when it is determined that the battery voltage is higher than the predetermined voltage, and the secondary battery charging method according to claim 1.