KR0129033Y1 - Constant current charging circuit in wireless telephone - Google Patents

Abstract

The present invention relates to a constant current charging circuit of a wireless telephone for maintaining a stable charging current even when the input AC voltage fluctuates in a wireless telephone. In the related art, when the external AC voltage input to the adapter is changed, the DC voltage output from the adapter is also changed to change the charging current of the rechargeable battery, so that the voltage or current charged to the rechargeable battery is not constant, but also is charged. Problems also arise with the life of the battery. Thus, in the present invention, even if the input AC voltage is changed, the rechargeable battery 50 always maintains a constant charging current. Therefore, not only the life of the rechargeable battery 50 is extended, but the charging time is also constant.

Description

Constant Current Charging Circuit of Cordless Telephone

1 is a circuit diagram showing an embodiment of a constant current charging circuit of a wireless telephone according to the present invention.

* Explanation of symbols for main parts of the drawings

10: adapter 20: switching unit

30 control unit 40 multi-diode

50: rechargeable battery 100: constant current charging circuit

Q1, Q2: transistors D1 to D6: switching diodes

The present invention relates to a constant current charging circuit of a wireless telephone, and more particularly, to a constant current charging circuit of a wireless telephone to maintain a stable charging current even when the input AC voltage changes in the wireless telephone.

In general, a cordless phone uses a rechargeable battery. The rechargeable battery is electrically connected to an adapter that converts an external input AC voltage into a DC voltage, and is constant using a DC voltage output from the adapter. Charge voltage or current.

However, in such a conventional technology, when the external AC voltage input to the adapter changes, the DC voltage output from the adapter also changes, thereby changing the charging current of the rechargeable battery, so that the voltage or current charged in the rechargeable battery is not constant. Not only that, but also the life of the rechargeable battery.

That is, if the AC voltage input to the adapter is low, the charging time of the voltage or current charged to the rechargeable battery becomes long, and conversely, if the AC voltage input to the adapter is high, there is a drawback that may damage the rechargeable battery. .

The present invention has been devised to solve such drawbacks of the prior art, and the constant current charging of the cordless telephone to maintain a stable charging current even if the external AC voltage changes in the cordless telephone so that the charging battery always has a good charge. The purpose is to provide a circuit.

In order to achieve the above object, the present invention provides a constant current charging circuit in a cordless telephone for preventing damage to a rechargeable battery due to a change in an input AC voltage: by changing an input AC voltage to a DC voltage having a predetermined level and outputting the same. A switching unit composed of an adapter, a resistor and a PNP transistor to switch the DC voltage from the adapter, and a resistor and an NPN transistor configured to receive the DC voltage from the adapter through a diode. A control unit controlling negative switching; At least one diode is connected between the collector of the PNP transistor of the switching unit and the emitter of the NPN transistor of the control unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure is a circuit diagram showing an embodiment of a constant current charging circuit of a cordless telephone according to the present invention, in a constant current charging circuit in a cordless telephone for preventing damage to the rechargeable battery 50 due to a change in the input AC voltage: Switching to switch the DC voltage of the adapter 10 through a switching diode (D1) having an adapter (10) for changing the input AC voltage of the predetermined DC voltage, and a resistor (R1) and a PNP transistor (Q1) The controller 20 includes a resistor 20, resistors R2 and R3, and an NPN transistor Q2 to control a switching operation of the switching unit 20 by receiving a DC voltage of the adapter 10 through a switching diode D2. The control unit 30 includes a multiple diode 40 including a plurality of switching diodes between the switching unit 20 and the control unit 30.

The present invention made as described above is as follows.

As shown in the figure, a voltage drop between an emitter and a base of a transistor or a voltage drop between a collector and a base and the aforementioned switching diode (eg, D1-D6) are typically about 0.6V. Ramen will understand.

Therefore, if the reference voltage VBB (+ 5V) is applied to the base terminal of the NPN transistor Q2 in the controller 30, the emitter voltage of the transistor Q2 is about 0.6V dropping to about 4.4V. Since the voltage drop of each switching diode is about 0.6V as described above, the voltage of the collector of transistor Q1 is the number of switching diodes (eg, D3, D4, D5, D6) in the multiple diode 40. Determined by

As shown in the figure, if there are four switching diodes, the voltage of the multiple diode 40, in other words, the potential difference between the contact of the collector terminal of transistor Q1 and the contact of the emitter terminal of transistor Q2 is 0.6V. 4, that is, 2.4V.

As described above, since the voltage drop between the emitter and the base of the transistor Q2 is 0.6V, the voltage of the collector terminal of the transistor Q1 can be kept constant at about 4.4V + 2.4V = 6.8V, so the rechargeable battery The charging current provided to 50 is kept constant.

Meanwhile, as an embodiment of the present invention, the activation or turn-on condition of the transistor Q1 may be a voltage difference between the emitter base of the transistor Q1 is 0.6V or more (VE-VB0).

Since the resistor R1 connected to the emitter terminal of the transistor Q1 is a resistor having a low resistance value and the resistor R2 connected to the collector terminal of the transistor Q2 is a resistor having a high resistance value, the resistance of the transistor Q1 Transistor voltage is at least as large as the voltage of switching diode D2 (e.g., 0.6V) than the base voltage of transistor Q1, so transistor Q1 is turned on and the reference voltage VBB (+) is applied to the base of transistor Q2. Since 5V) is applied, transistor Q2 is also turned on.

First, in order to charge a current in the rechargeable battery 50 of the cordless telephone, the tolerance range of the predetermined DC voltage of the adapter 10 which changes the input AC voltage into a DC voltage and outputs it is usually about 10%. .

If the rated voltage output from the adapter 10 is, for example, 12V, if a changed DC voltage (for example, 15V) is output from the adapter 10 due to a change in the input AC voltage provided to the adapter 10. Since the voltage is absorbed by the resistor R1 and the transistor Q1 of the switching unit 20 and generated as heat by an increased voltage, the potential of the collector of the transistor Q1 is kept constant.

Therefore, since the alternating AC voltage is provided to the adapter 10 so that a constant current is provided to the rechargeable battery 50 even when the DC voltage output from the adapter 10 changes, the constant charging current is maintained in the rechargeable battery 50. .

As described above, according to the present invention, even when the input AC voltage is changed, the rechargeable battery 50 always maintains a constant charging current, so that the life of the rechargeable battery 50 is extended and the charging time is also constant.

Claims (3)

A constant current charging circuit in a cordless telephone for preventing damage to a rechargeable battery due to a change in an input AC voltage, the constant current charging circuit comprising: an adapter for changing an input AC voltage to a DC voltage having a predetermined level and outputting the same; A switching unit configured to include a resistor and a PNP transistor to switch a DC voltage from the adapter; A control unit configured to include a resistor and an NPN transistor to control a switching operation of the switching unit by receiving a DC voltage from the adapter through a diode; And at least one diode between the collector of the PNP transistor of the switching unit and the emitter of the NPN transistor of the control unit. The constant current charging circuit of a wireless telephone according to claim 1, wherein the base of the PNP transistor of the switching unit is connected together to a connection portion of a resistor of the control unit and a collector of the NPN transistor. The constant current charging circuit for a wireless telephone according to claim 1 or 2, wherein said rechargeable battery is connected to a collector of said PNP transistor and said at least one diode anode.