KR0115167Y1 - Charging equipment in wireless telephone - Google Patents

Abstract

The charging device includes a pair of voltage input terminals, a rechargeable storage battery connected between the pair of input terminals, and a wireless communication portable device for transmitting and receiving a signal to and from the body through a space using charging energy of the rechargeable storage battery and a separate device. A radiotelephone having a charging device comprising: AC / DC conversion means for generating the charging voltage connected to an external power source, a pair of charging voltage output terminals for outputting the charging voltage of the AC / DC conversion means, and And display means for displaying the charging state in response to the pair of charging voltage output terminals and the pair of charging voltage input terminals of the wireless communication portable device connected thereto, and for driving the display means with a constant current signal. By providing the display driving means, it is convenient for the design and production of the apparatus and can reduce the leakage current consumed.

Description

Cordless Phone Charging Device

1 is a circuit diagram of a charging device of a conventional radiotelephone.

2 is a circuit diagram of a charging device for a radiotelephone according to the present invention.

* Explanation of symbols for main parts of the drawings

10, 100: charging device 20. 200: portable device

11, 110: AC / DC converter 21, 210: rechargeable battery

R, R1, R2: resistor LED1. LED2: Light Emitting Diode

D1, D2: Diode TR: Transistor

a to c, a1 to c1, 101, 102, 201, 202: connection terminal

The present invention relates to a charging device in a wireless communication device, and more particularly, to a charging device connected to a wireless communication portable device and two connection terminals in a wireless telephone having a charging device separate from the main body.

In general, the field of power, which pursues small size, light weight, and long talk time in a wireless telephone, is the most basic and technically the most underdeveloped field.

In particular, digital cordless telephones have several portable devices (also called handsets) in one main body, and thus, a power charging device is required separately from the main body. For example, when a portable device is used in a home, a company, and the like, only one portable device can be charged, so it is necessary to use a separate charging device from the main body.

Conventionally, as shown in FIG. 1, when the portable device 20 is charged, three connection terminals a to c of the charging device 10 and three connection terminals a1 to c1 of the portable device 20 are charged. ) Is connected. That is, the connection terminal a connected to the output terminal of the AC / DC converter 11 is connected to the connection terminal a1 of the portable device 20 connected to the positive electrode of the battery 21, and the connection terminal b connected to the ground terminal. ) Is connected to a connection terminal (b1) which is a common ground terminal connected to the negative electrode of the storage battery (31) of the portable device 20, the connection terminal (c) connected to the cathode terminal of the light emitting diode (LED1) is a storage battery (21) It is connected to the connection terminal C1 of the portable device 20 connected to the cathode of and used to drive the light emitting diode LED1 indicating that it is being charged.

In this case, the AC / DC converter 11 of the charging device 10 converts commercial AC power into DC power.

The current supplied from the AC / DC converter 11 emits the light emitting diode LED1 through the resistor R to indicate that the portable device 20 is being charged.

However, the above-described conventional charging device requires three connection terminals, and when charging, the light emitting diode LED1, which is a charging indicator, is driven by inputting a charging voltage applied to both ends of the battery, so that the current changes as the charging voltage changes. There was a problem in that the illuminance of the light emitting diode (LED1) is changed and the consumption current leaks. In addition, the illuminance of the light emitting diode LED1 is changed according to the change of the external power source according to the change of the other load, and there is a case in which the light emission state is not visually recognized.

In order to overcome the above problems, it is an object of the present invention to provide a charging device for a wireless telephone having two connection terminals by removing one connection terminal used to drive a light emitting diode during charging.

Another object of the present invention is to provide a charging device for a wireless telephone, in which a light emitting diode used as a charging indicator is driven with a constant current to reduce leakage current while maintaining the illuminance of the light emitting diode is constant even with a change in external power.

In order to achieve the above objects, the present invention includes a pair of voltage input terminals, a rechargeable storage battery connected between the pair of input terminals, and a signal from the main body through a space using a charging voltage of the rechargeable storage battery. In the wireless telephone having a wireless communication portable device and a separate charging device for transmitting and receiving,

AC / DC conversion means connected to an external power source to generate the charging voltage;

A pair of charge voltage output terminals for outputting a charge voltage of the AC / DC conversion means;

Display means for displaying a charging state in response to the pair of charging voltage output terminals and the pair of charging voltage input terminals of the wireless communication portable device connected;

A switching transistor which is turned on when the pair of charging voltage output terminals and the pair of charging voltage input terminals of the wireless communication portable device are connected and supplies a constant current to the display means;

And current limiting means for constantly controlling the leakage current of the switching transistor and the display means.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the charging device of the radiotelephone according to the present invention.

2 is a circuit diagram of a charging device for a radiotelephone according to the present invention.

2, the commercial AC power supply inlet terminal 111 is coupled to the input terminal of the AC / DC converter 110.

The base terminal of the PNP transistor TR1 is connected to the cathode terminal of the diode D1 and the first connection terminal 101, and the collector terminal is connected to one end of the resistor R1 at the anode terminal of the light emitting diode LED2. have.

The cathode terminal of the light emitting diode LED2 is grounded, and the other end of the resistor R1 is connected to the output terminal of the AC / DC converter 110.

The anode terminal of the second diode D2 is connected to the output terminal of the AC / DC converter 110, and the cathode terminal is connected to the anode terminal of the first diode D1.

One end of the resistor R2 is connected to the anode terminal of the second diode D2, and the other end thereof is connected to the base terminal of the PNP transistor TR1.

The second connection terminal 102 is connected to the common ground terminal on the PCB substrate.

The AC / DC converter 110, the transistor TR1, the light emitting diode LED2, the first and second diodes D1 and D2, the resistors R1 and R2, and the first and second connection terminals 101 and 102. ) Corresponds to the charging device 100.

The first connection terminal 201 of the portable device 200 is connected to the positive electrode of the storage battery 210, and the second connection terminal 202 is connected to the negative electrode of the storage battery 210. In the charged state, the first and second connection terminals 201 and 202 of the portable apparatus 200 are connected to the first and second connection terminals 101 and 102 of the charging apparatus and are not connected to each other in the non-charged state.

Subsequently, referring to the operation of FIG. 2, when the portable apparatus 200 is in a non-charged state, that is, when the charging apparatus 100 and the portable apparatus 200 are separated from each other, the first and second connections of the charging apparatus 100 are performed. The transistor TR1 and the first and second diodes D1 and D2 are not operated because the load is not applied to both ends of the terminals 101 and 102.

Since no current flows through the light emitting diode LED2, no current flows through the light emitting diode LED2, so that the light emitting diode LED2 is turned off to indicate that the user is not currently charging.

When the portable device 200 is charged, that is, when the charging device 100 and the portable device 200 are connected, loads are applied to both ends of the first and second connection terminals 101 and 102 of the charging device 100. To conduct the first and second diodes D1 and D2 and to conduct the transistor TR1 that supplies a predetermined current to the light emitting diode LED2.

As the transistor TR1 becomes conductive, the AC / DC converter 110 draws an external commercial AC power, converts it into a DC power corresponding to the charging voltage of the storage battery 210, and then converts the resistance R1 to the DC power. The current flows through the transistor TR1 to emit light from the light emitting diode LED2, thereby indicating the current state of charge.

On the other hand, since the current flowing through the light emitting diode LED2 is given by [diode voltage-transistor voltage] / [resistance value of R1], the current always flows constantly regardless of the degree of charge. Here, since the amount of current flowing through the light emitting diode LED2 changes according to the resistance value of the resistor R1, the resistor R1 operates as a current limiter.

When in the charged state, the base terminal of the transistor TR1 conducts when the voltage across the emitter terminal of the transistor TR1 is 0.8V or more lower, so that both ends of the transistor TR1 are connected to the first and second diodes D1 and D2. The voltage drops by about 1.4V to 1.8V from the emitter voltage and is supplied to the base terminal to conduct the transistor TR1. Accordingly, the first and second diodes D1 and D2 allow a constant current to flow through the transistor TR1 by making the voltage difference between the base and the emitter of the transistor TR1 constant, and apply a current like the resistor R1. It has a limiting function. That is, even when the external power supply voltage changes, a constant current flows through the transistor TR1, so that a constant current flows through the light emitting diode LED2 to maintain a constant illuminance.

In addition, the first and second connection terminals 101 and 102 are connected to the first and second connection terminals 201 and 202 of the portable device to provide a path for supplying a charging voltage, and are connected to both ends through a resistor R2. The supplied voltage charges the storage battery 210 of the portable device 200. At this time, the storage battery 210 of the portable device 200 gradually increases the charging voltage as the charging time continues, but when the storage voltage reaches a predetermined voltage, the battery 210 maintains the current charging voltage.

On the other hand, the charging device according to the present invention, unlike the conventional charging device does not directly drive the light emitting diode from the charging voltage by using the connection terminal, but instead of the transistor (TR1) for driving the light emitting diode (LED2), the current limit Resistor R1 and diodes D1 and D2 are added so that a constant current is always supplied to the light emitting diode LED2.

As described above, the charging device according to the present invention reduces the number of connection terminals of the charging device to two for convenience of device design and productivity, and charges by maintaining a constant current flowing through the light emitting diode used as the charging indicator. When the indicator light is turned on, the leakage current consumed is reduced, and the illumination of the charging indicator can be kept constant even when the external power source is changed.

Claims (2)

A wireless communication portable device including a pair of voltage input terminals, a rechargeable storage battery connected between the pair of input terminals, and transmitting and receiving a signal to and from the main body through a space by using the charging voltage of the rechargeable storage battery. A cordless telephone having a charging device, AC / DC conversion means connected to an external power source to generate the charging voltage; A pair of charge voltage output terminals for outputting a charge voltage of the AC / DC conversion means; Display means for displaying a charging state in response to the pair of charging voltage output terminals and the pair of charging voltage input terminals of the wireless communication portable device connected; A switching transistor which is turned on when the pair of charging voltage output terminals and the pair of charging voltage input terminals of the wireless communication portable device are connected and supplies a constant current to the display means; And And a current limiting means for constantly controlling the leakage current of said switching transistor and said display means. In Figure 1, the current limiting means, A plurality of diodes connected in series in a forward direction between any one of the pair of charge voltage input terminals connected to an anode of the rechargeable battery and an AC / DC conversion means to supply a constant bias voltage when the switching transistor is turned on; And And a resistor connected between said AC / DC converting means and said switching transistor.