KR100480022B1 - Charging Circuit and Method - Google Patents

Abstract

The present invention relates to a charging circuit and a method, and the conventional charging circuit and method is a problem that the portable device is damaged when the battery inserted into the portable device with the charger is a primary battery by charging regardless of the type of battery currently built-in In order to prevent this, there is a problem in that the use efficiency is decreased when the rechargeable battery is packaged, so the primary battery cannot be used. In view of such a problem, the present invention provides a microcomputer for controlling each element constituting a charging circuit according to a predetermined program; A charging unit to which the primary battery or the secondary battery is mounted; A charge / discharge switching switch configured to apply and control a voltage of a primary battery and a rechargeable battery mounted in the charging unit to a system of a portable device according to the control of the microcomputer through an adapter; A charging resistor for receiving a DC voltage through the charge / discharge switching switch to maintain a constant voltage value; Only when a secondary battery is mounted in the charging unit, a charging circuit is configured as a charging switch for controlling the voltage applied to the charging resistor under the control of the microcomputer to determine the type of battery to be charged currently. Only the rechargeable battery is charged to prevent an abnormality in the system of the portable device due to damage caused by charging of the primary battery.

Description

Charging Circuit and Method

The present invention relates to a charging circuit and a charging method, in particular, by measuring the voltage across the battery to be used to determine whether the battery used is a primary battery that can not be charged or a rechargeable battery, and then automatically in the case of a rechargeable battery The present invention relates to a charging circuit and a method suitable for charging to improve stability of use.

In general, the voltage between both ends of a primary battery whose life is limited to one time varies depending on the size and type thereof, but the voltage between both ends of the primary battery used in an individual portable device such as a pager or a small cassette player is used. Is 1.5V, and the voltage at both ends of the battery is 1.2V. In the conventional portable device charging method, after checking whether the user is a rechargeable battery or a primary battery, the battery is inserted into an individual charger, an adapter charger, or a charger included in the portable system. When described in detail with reference to the accompanying drawings as follows.

Fig. 1 is a block diagram of a charger and a portable device for use with a conventional adapter. As shown therein, an adapter 1 for receiving a commercial AC power and converting it into a DC power source used in a portable device, and the adapter 1 When a rechargeable battery is inserted, the battery pack includes a charging unit 2 for charging the DC power to the inserted rechargeable battery, and a portable device 3 operated by receiving an output voltage of the adapter 1. When commercial AC power is applied to the adapter 1, predetermined power is applied to both ends of the charging unit 2, and power is also applied to the power input unit of the portable device 3. As described above, in the case of charging the rechargeable battery using an adapter charger, the charger can be used to charge the rechargeable battery even while the portable device 3 is in use, but there is an inconvenience of carrying a bulky adapter charger when moving. .

In addition, Figure 2 is a block diagram of a portable device equipped with a conventional charger, as shown therein is applied to the commercial AC power supply via the adapter 1 to charge the rechargeable battery through the charging unit (2), It is composed of a portable device 3 that performs a predetermined operation. As described above, when the portable device 3 including the charging unit 2 is used, the rechargeable battery cannot be charged when the portable device 3 is used. If the battery inserted in (3) is mistaken for a rechargeable battery and charged, there is a fear of damage to the portable device 3 due to rupture of the primary battery.

As described above, the rechargeable battery charging method of the charging circuit built in the conventional portable device is charged when the battery inserted into the portable device in which the charger is a primary battery is charged regardless of the type of the battery. In order to prevent this, there is a problem in that the use efficiency is decreased when the rechargeable battery is packaged, so the primary battery cannot be used.

In view of the above problems, the present invention determines whether the type of battery to be charged currently is a primary battery or a secondary battery, and charges only when the rechargeable battery is a rechargeable secondary battery, which causes damage to the charging device according to charging of the primary battery. It is an object of the present invention to provide a charging circuit and a charging method for preventing the above.

The above object is a microcomputer for controlling each element constituting the charging circuit according to a predetermined program; A charging unit to which the primary battery or the secondary battery is mounted; A charge / discharge switch for applying and controlling a voltage of a primary battery and a rechargeable battery mounted in the charging unit to a system of a portable device according to the control of the microcomputer through an adapter; A charging resistor for receiving a DC voltage through the charge / discharge switching switch to maintain a constant voltage value; Only after the secondary battery is installed in the charging unit, the charging circuit is configured with a charging switching switch that controls the voltage applied to the charging resistor under the control of the microcomputer, and recognizes that the battery is mounted. A charging step of applying a voltage to the battery for a set time; A battery voltage detecting step of detecting a voltage value of the battery after a set time of the charging step elapses; A detection voltage comparison step of comparing a voltage value of the battery detected in the battery voltage detection step with a set voltage value; A detection counter increasing step of increasing a detection counter when the detected voltage of the battery is smaller than a set voltage value; A routine counter increasing step of increasing the routine counter and returning to the charging step when the voltage of the battery detected in the detection voltage comparing step is larger than a set voltage value or after performing the detection counter increasing step; If the routine repeat count counted in the routine counter increment step is the same as the set routine repeat count value, the number of times when the detected battery voltage counted in the detection counter increase step is smaller than the set voltage value is compared with the set count value. If it is greater than the set number of times, the battery is judged to be a rechargeable battery that is a secondary battery, and if it is small, the battery is installed using a charging method comprising a battery determination step of determining that the primary battery is not charged. After determining whether the rechargeable battery is a rechargeable battery or a primary battery, it is achieved by determining whether to charge the battery. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of the charging circuit of the present invention, and as shown therein, a microcomputer 10 for controlling each element constituting the charging circuit according to a predetermined program; A charging unit 20 to which the primary battery or the secondary battery is mounted; Charge / discharge switching switch 30 for controlling the voltage of the DC power source or primary battery and the rechargeable battery to convert the commercial AC power to the system of the portable device 3 through the adapter 1 under the control of the microcomputer 10. )Wow; A charging resistor 40 which receives a DC voltage through the charge / discharge switching switch 30 and maintains a constant voltage value; The charging switching switch 50 applies and controls the voltage applied to the charging resistor 20 under the control of the microcomputer 10 only when the secondary battery is mounted in the charging unit 20. It consists of.

4 is a detailed view of the microcomputer 10, the charging resistor 40, the charging switching switch 50, and the charging unit 20 in FIG. 3, as shown in FIG. It is configured to charge the battery mounted by applying the voltage applied to the charging resistor 40 to the charging unit 20 by conducting the charge switching switch 50 to detect the voltage of the battery mounted on the charging unit 20. .

Hereinafter, the operation of the charging circuit of the present invention configured as described above will be described.

First, FIG. 5 is a flowchart illustrating an operation of the charging circuit of the present invention. As shown in FIG. 5, the microcomputer 10 recognizes that the battery is mounted in the charging unit 20, and then switches the charging / discharging switching switch 30 to charge the battery. Applying the DC voltage converted from the commercial AC power supply through the adapter (1) to the molten resistor 40, and the charge switching switch 50 is turned on again for a predetermined set time to charge the battery mounted in the charging unit 20 do.

At this time, the microcomputer 10 counts the number of times the routine is performed, and when the count value reaches the set value, the microcomputer 10 determines the type of the battery currently installed in the charging unit 20.

Then, after a predetermined set time has passed, the charge switching switch 50 is turned off again, and the voltage value of the battery mounted in the charging unit 20 is detected, as shown in FIG. When the detected voltage value of the battery is greater than the set voltage (ha) compared to the set voltage (ha) of about 1.3 to 1.4 V, the charge switching switch 50 is turned on again to charge the battery. If the voltage value is smaller than the set voltage ha value, the counter is increased.

If the routine of this process is repeatedly performed and the number of repetitions of the routine becomes equal to the set value, the increased counter number and the set repeat count (hb) are compared when the voltage value of the battery is smaller than the set voltage ha. do.

Next, when the number of counters increased when the voltage value of the battery detected by the microcomputer 10 is smaller than the set voltage ha is greater than the set repeat frequency h b, the battery mounted in the charging unit 20 is replaced. Judging by the rechargeable battery, the charging / discharging switching switch 30 is switched to apply a voltage to the charging resistor 40, and the charging switching switch 50 is turned on to apply the charging resistor 20 to the charging resistor 40. When charging is performed by applying a voltage, and the number of the counters is smaller than the set repetition number hb, it is determined that the battery mounted in the charging unit 20 is the primary battery, and the charge / discharge switching switch 30 is switched. The voltage is not applied to the charging resistor 40 and the charging switch 50 is also turned off to protect the system of the portable device 3.

In this case, performing the repetition number of the routine by the set value in the microcomputer 10 is to reduce the error of determining the battery type, and the set voltage ha and the set repetition number hb are based on the experimental value. .

That is, the charging method of the present invention includes a charging step of applying a voltage to the battery for a set time after recognizing that the battery is mounted; A battery voltage detecting step of detecting a voltage value of the battery after a set time of the charging step elapses; A detection voltage comparison step of comparing a voltage value of the battery detected in the battery voltage detection step with a set voltage value; A detection counter increasing step of increasing a detection counter when the detected voltage of the battery is smaller than a set voltage value; A routine counter increasing step of increasing the routine counter and returning to the charging step when the voltage of the battery detected in the detection voltage comparing step is larger than a set voltage value or after performing the detection counter increasing step; If the routine repeat count counted in the routine counter increment step is the same as the set routine repeat count value, the number of times when the detected battery voltage counted in the detection counter increase step is smaller than the set voltage value is compared with the set count value. When the number of times is greater than the set number of times, the battery is judged to be a rechargeable battery that is a secondary battery and charged, and when it is small, the battery is determined as a primary battery.

As described above, the charging circuit and method of the present invention includes a microcomputer that operates according to a predetermined program to determine whether the type of battery to be charged is a primary battery or a secondary battery, and only when the type is a rechargeable battery that is a secondary battery. The charging prevents damage to the portable device system due to the rupture caused by the charging of the primary battery, and there is an effect of ease of use.

1 is a block diagram of a charger and a portable device for a conventional adapter.

2 is a block diagram of a portable device equipped with a conventional charger.

3 is a charging circuit diagram of the present invention.

4 is a detailed view of a microcomputer, a charging resistor, a charging switching switch, and a charging unit in FIG.

5 is a flowchart of the operation of FIG.

FIG. 6 is a graph of set voltage in FIG. 5; FIG.

* Description of the symbols for the main parts of the drawings *

1: Adapter 3: Portable Device System

10: microcomputer 20: charging unit

30: charge / discharge switch 40: charge resistance

50: Charge switch

Claims (2)

A microcomputer for controlling each element constituting the charging circuit according to a predetermined program; A charging unit to which the primary battery or the secondary battery is mounted; A charge / discharge switch for applying and controlling a voltage of a primary battery and a rechargeable battery mounted in the charging unit to a system of a portable device according to the control of the microcomputer through an adapter; A charging resistor for receiving a DC voltage through the charge / discharge switching switch to maintain a constant voltage value; And a charging switching switch configured to apply and control the voltage applied to the charging resistor under the control of the microcomputer only when the secondary battery is mounted in the charging unit. A charging step of applying a voltage to the battery for a set time after recognizing that the battery is mounted; A battery voltage detecting step of detecting a voltage value of the battery after a set time of the charging step elapses; A detection voltage comparison step of comparing a voltage value of the battery detected in the battery voltage detection step with a set voltage value; A detection counter increasing step of increasing a detection counter when the detected voltage of the battery is smaller than a set voltage value; A routine counter increasing step of increasing the routine counter and returning to the charging step when the voltage of the battery detected in the detection voltage comparing step is larger than a set voltage value or after performing the detection counter increasing step; If the routine repeat count counted in the routine counter increment step is the same as the set routine repeat count value, the number of times when the detected battery voltage counted in the detection counter increase step is smaller than the set voltage value is compared with the set count value. If the battery is greater than the set number of times, the battery is judged to be a rechargeable battery that is a secondary battery and charged.

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