KR0155324B1 - Memory effect cancelling method of rechargeable battery - Google Patents

Abstract

The present invention relates to a method for removing the memory effect of a battery in a device and a device for supplying power using a battery, such as a mobile communication terminal, a notebook computer, a battery state detection unit for detecting a plurality of batteries and the state of the battery And a control unit for controlling charging and discharging of the storage battery according to the detection signal of the detecting unit, wherein the storage state detection unit detects a charging end voltage and a discharging end voltage state of a plurality of batteries. And a second step of controlling, by the controller, to charge the battery by switching the voltage state of the battery to a charging mode when the battery state detection unit detects that all of the batteries are discharge end voltage. In the step, the battery state detection unit has a predetermined end state of the battery When the control unit detects that any other battery is in the discharge end voltage state, the control unit converts the battery in the discharge end state into a charged state, and converts the battery in the charge end state into a discharge state to control charging and discharging of the batteries, respectively. In the step and the first step, when the battery state detection unit detects that any battery is discharged, the control unit discharges the battery to an end voltage state, and then controls the battery to alternately charge and discharge any battery that is being charged. Comprising four steps, using a plurality of batteries to alternate charge and discharge, accordingly there is an advantage that the battery can be recharged after using the discharge end voltage at all times to maintain the maximum life of the battery.

Description

How to remove memory effect of battery

1 is a block diagram of a charging device for removing the memory effect of the conventional storage battery.

2 is a block diagram of a charging device for removing the memory effect of the storage battery according to the present invention.

* Explanation of symbols for main parts of the drawings

10: storage battery A 20: storage battery B

40: battery state detection unit 50: charge control unit

60: discharge control unit

The present invention relates to a method for removing a memory effect of a battery, and more particularly, to a method for removing a memory effect of a battery in an apparatus and a device for supplying power using a battery such as a mobile communication terminal and a notebook computer.

In general, in a device using a battery as a power source, particularly a mobile terminal, a charger is used to charge a battery and then supply power to a load.

The battery is operated between the end-of-charge voltage and the end-of-discharge voltage, it is an ideal use method to use the battery up to the end-of-discharge voltage and then to charge up to the end-of-charge voltage again.

By the way, in general, the battery is usually recharged before it is used up to the discharge end voltage. In particular, in the case of a cordless telephone used at home, the battery is usually placed in a charger after being used again.

In this case, since the storage battery is charged again before the discharge end voltage is reached, the number of charge / discharge cycles is unnecessarily increased.

In addition, when the battery is charged again before reaching the discharge end voltage as described above, there is a problem that the discharge end voltage of the battery increases due to the memory effect of the battery, thereby shortening the life of the battery.

Therefore, conventionally, as shown in FIG. 1, the charging device 2 coupled to the apparatus 1 having a storage battery includes a charging unit 3, a battery state detection unit 4, and a forced discharge unit 5. As shown in FIG. Therefore, when the voltage of the battery is detected and the voltage is higher than the discharge end voltage, a method of eliminating the memory effect by forcibly discharging and recharging is used.

However, the method of removing the memory effect of the conventional battery as described above causes unnecessary power to be wasted by forcibly discharging the charge, and in addition, the terminal cannot be used in a state where the discharging to the discharge end voltage is forcibly performed. .

An object of the present invention for solving the above problems is to double the storage battery by alternating the charge and discharge state to eliminate the memory effect and at the same time to ensure the continuity in the use of the device and to extend the service life of the battery battery as possible To provide a method of removal.

A feature of the present invention for achieving the above object comprises a plurality of batteries and a battery state detection unit for detecting the state of the battery and a control unit for controlling the charge and discharge of the battery according to the detection signal of the detection unit A charging device comprising: a first step of detecting a charge end voltage and a discharge end voltage state of a plurality of batteries by the battery state detection unit; and in the first step, when the battery state detector detects that both of the batteries are discharge end voltage states. A second step of controlling by the controller to change the voltage state of the battery to the charging mode to charge the battery; and in the first step, the battery state detection unit has any end-of-charge battery, and any other battery When the discharge end voltage is detected, the control unit discharges the battery into the end state. In the third step of controlling the charging and discharging of the battery by switching to a discharged and end-of-charge battery, and in the first step, when the battery state detection unit detects that any battery is discharged, the controller And discharging the battery to a final voltage state, and then controlling a fourth battery to alternately charge and discharge any battery in charge.

Hereinafter, a memory effect removing method of a storage battery of the present invention will be described in detail with reference to the accompanying drawings.

First, the memory effect removing method of the storage battery of the present invention will be briefly described as follows.

It is common to use one battery that satisfies the above specification when the voltage of the battery required by a certain device is V volt and the current is I amp.

However, the present invention includes two storage batteries having the same voltage and a current capacity of 1/2, and selects any one of the two storage batteries in a discharge state for supplying power to a load, and leaves the remaining batteries in a charged state. .

When the battery in use is exhausted and the discharge end state is detected, the battery is switched to the charged state and the charged battery is switched to the discharged state to supply power to the load. The battery that has been converted to the charged state is switched to the charged state until the end voltage of charging and the charged battery is changed to the discharged state to supply power to the load.

Subsequently, the battery which has been switched to the state of charge is kept in the state of charge until the end of charge voltage is reached.

If both batteries are at the end-of-discharge voltage at the same time, the use of the appliance is suspended until both end of charge.

As described above, two storage batteries having a current capacity of 1/2 are provided. In the state of charge, the battery is charged until the end voltage is charged. In the discharge state, the battery is charged to the end state of discharge and then switched to the charged state. It is possible to eliminate the memory effect of the battery generated when the battery is recharged.

Next, a method of removing the memory effect of the storage battery of the present invention will be described with reference to FIG.

As shown in FIG. 2, the charging device according to the present invention includes two batteries A 10, B 20, a charger 30, and a battery state detector 40, a charge and discharge controller 50, 60. It consists of.

The operation of the charging device configured as described above, by first detecting the voltage of the battery A (10), B (20) by the battery state detection unit 10 to determine the state of each battery A (10), B (20) The state of the charge end voltage and the discharge end voltage is detected.

Subsequently, the charging and discharging controllers 50 and 60 control the charging and discharging controllers 50 and 60 to be in the charging mode when the voltages of the two batteries A 10 and B 20 are at the discharge end voltages according to the result of the battery state detector 10. If one of them is in the discharge end voltage state and the other is the end of charge state, the battery in discharge end state is switched to the state of charge and the other is left in the discharge state.

When the battery in the discharged state is consumed to the end voltage, the battery being charged is alternated with the charging and discharging.

The charge / discharge control state of each battery according to the battery memory effect removing method operating as described above is as follows.

As described above, the present invention alternates charging and discharging by using two batteries, and thus, the battery can be recharged after using the battery up to the discharge end voltage at all times, thereby maintaining the life of the battery to the maximum.

Claims (3)

A charging device comprising a plurality of batteries, a battery state detection unit for detecting a state of the battery and a control unit for controlling charging and discharging of the battery according to the detection signal of the detection unit, wherein the battery state detection unit includes: Detecting a charge end voltage and a discharge end voltage state; A second step of controlling, by the controller, to charge the battery by switching the voltage state of the battery to a charging mode when the battery state detection unit detects that all of the batteries are discharge end voltage; In the first step, when the battery state detection unit detects that any battery is in the end of charge voltage state, and any other battery is in the end of discharge voltage state, the control unit switches to the end state of charge, and the end of charge state is changed to the end of charge state. The phosphor battery may include a third step of switching to a discharge state to control charging and discharging of the battery, respectively; In the first step, when the battery state detection unit detects that any battery is in a discharged state, the control unit discharges the battery to a final voltage state, and then controls the control unit to alternate charging and discharging of any battery in charge. Memory effect removal method of a storage battery, characterized in that comprises a. The method of claim 1, wherein the memory effect of the storage battery is eliminated by alternating charging and discharging of the storage battery. 2. The method of claim 1, wherein the battery life can be maintained to the maximum by alternating charge and discharge according to the state of the battery so that the battery can be used between the charge end voltage and the discharge end voltage. .