KR200244283Y1 - A phone battery charger using a 1.5V dry cell - Google Patents

Abstract

The present invention relates to a mobile phone charger using a 1.5 volt battery, so that the power of the battery is supplied to the input terminal of the DC-DC converter through the noise removing unit,

The power from the noise removing unit is supplied to the low power input terminal of the DC-DC converter at the contacts of two split resistors,

A Schottky diode is connected between the input terminal and the output terminal of the DC-DC converter, which enables fast switching, to be supplied to the positive terminal of the mobile phone battery.

In the reference terminal of the mobile phone battery with the negative terminal grounded, the division resistance is applied to the voltage comparison unit so that the power supplied through the Dc-DC converter is supplied to the return terminal of the DC-DC converter through the division resistance. and,

The output terminal connected to the battery terminal of the DC-DC converter is grounded through a resistor and a light emitting diode to control the power charged in the mobile phone battery while determining whether the mobile phone battery is low power.

Description

A phone battery charger using a 1.5V dry cell}

The present invention relates to a mobile phone charger using a 1.5 volt battery, in particular, when the battery is discharged while using the mobile phone, it can be used while charging the battery of the mobile phone while supplying power supplied from a single battery built in the portable charger The present invention relates to a mobile phone charger using a 1.5 volt battery to prevent the phenomenon caused by the discharge of the mobile phone.

With more than 15 million mobile phones (aka mobile phones) sold nationwide in recent years, mobile phones tend to be recognized as necessities instead of luxury goods, and workers and even students are carrying mobile phones.

As the explosive spread of mobile phones, the size, design, and function are changing in various ways. The nationwide communication network makes it possible to send and receive text messages and make calls at any time, and the use of Internet communication is more common. The trend is losing.

In addition, mobile phones need to be powered by batteries due to their mobility, and in most cases, small batteries are installed in order to be miniaturized.

However, the power consumed when sending or receiving calls or texts is too large compared to the power consumed when waiting for a call, so it is often impossible to predict the battery usage in advance. There was a problem blocking.

Therefore, according to Korean Patent Publication No. 2000-67647 (charger using a battery power source), the rear of the main body having a connector that is connected to the battery of the mobile phone in front is protruded to face each other while crossing the hook and the guide piece,

In the case detachably mounted by the hook and the guide piece of the main body forms a terminal for accommodating a plurality of batteries in a series connection state,

The board mounted to be connected to the connector in the main body of the main body is configured to charge the battery of the mobile phone by converting the power of the battery supplied through the spring into a switching waveform so that the charger is not carried while the portable phone is in use. In order to improve the convenience by allowing the battery to be charged without overcharging.

However, the conventional charger as described above requires a large number of batteries in the case, so that a user who uses a mobile phone is burdened to carry the charger, and a plurality of batteries must also be used to charge the battery after charging it once. There were disadvantages such as the inconvenience of keeping it.

Accordingly, the present invention, when the battery is discharged while using the mobile phone can be used while charging the battery of the mobile phone while supplying power supplied from a single battery built in the portable charger to suffer from the discharge of the mobile phone The aim is to provide a mobile phone charger using 1.5 volt batteries to prevent the phenomenon.

The present invention for achieving the above object is that the power of the battery is supplied to the input terminal of the DC-DC converter via a noise removing unit,

The power from the noise removing unit is supplied to the low power input terminal of the DC-DC converter at the contacts of two split resistors,

The Schottky diode is connected between the input terminal and the output terminal of the DC-DC converter, which enables fast switching, is stepped up to a voltage (5V) for charging the cellular phone battery and supplied to the positive terminal of the cellular phone battery. Let's do it,

In the reference terminal of the mobile phone battery with the negative terminal grounded, the division resistance is applied to the voltage comparison unit so that the power supplied through the DC-Dc converter is supplied to the return terminal of the DC-DC converter through the division resistance. and,

The output terminal connected to the battery terminal of the DC-DC converter is grounded through a resistor and a light emitting diode to determine whether the power source is a low power source.

1 is a circuit diagram showing the overall configuration of the present invention.

Explanation of symbols on the main parts of the drawings

1 battery 2 noise removal unit

3: DC-DC converter 4: mobile phone battery

5: voltage comparison unit 6: low voltage display unit

7: charge indicator

Hereinafter, the present invention will be described in detail with reference to Examples.

1 schematically shows the overall configuration of the present invention,

The power of the battery 1 is supplied to the input terminal IN of the DC-DC converter 3 via the noise removing unit 2 of the capacitor C1 and the inductance L1,

The power from the noise removing unit 2 is supplied to the low power input terminal L-IN of the DC-DC converter 3 at the contacts of the two split resistors R1 and R2,

The cell phone battery 4 is connected to the input terminal IN through the capacitor C2 and C3 at the output terminal OUT of the DC-DC converter 3 capable of fast switching by connecting a Schottky diode SD1. To the positive and negative terminals of (+) and (-),

The reference terminal Ref of the mobile phone battery 4 having the negative terminal (−) grounded is applied to the voltage comparator 5 through the division resistors R3 and R4 and is connected to the transistor through the Schottky diode SD2. The power supply supplied via the DC-DC converter 3 so as to be applied to the base of TR) via the emitter-collector of the transistor TR or via the resistor R5. R7) is supplied to the feedback terminal (FB) of the DC-DC converter 3 so that the output is controlled according to the magnitude of the voltage,

The output terminal OUT connected to the battery terminal Batt of the DC-DC converter 3 is configured to be grounded through the resistor R8 and the light emitting diode LED1 of the low voltage display unit 6 and thus the battery 1 To determine if the power source is low.

The output terminal OUT of the DC-DC converter 3 is connected to the base of the transistor TR2 having the light emitting diode LED2 connected to the collector terminal through the division resistors R9 and R10 of the charging display unit 7. It is configured to let you know whether it is charging or not.

In the mobile phone charger using the 1.5-volt battery of the present invention configured as described above, the power supply of the battery 1 is input to the input terminal (IN) of the DC-DC converter 3 via the noise removing unit 2 of the capacitor C1 and the inductance L1. To be supplied.

The power from the noise removing unit 2 is supplied to the low power input terminal L-IN of the DC-DC converter 3 at the contacts of the two split resistors R1 and R2 so that the power of the battery 1 is supplied. It is determined whether or not the minimum operating power of the DC-DC converter 3 is lower.

The DC-DC converter 3 which charges by fast switching by connecting the Schottky diode SD1 between the input terminal IN and the output terminal OUT can increase the applied DC power so that charging is possible. Output to DC power supply.

The output terminal OUT of the DC-DC converter 3 is supplied to the positive terminal (+) and the negative terminal (-) of the mobile phone battery 4 through the capacitors C2 and C3 to be charged. .

While the charging is being performed, the Schottky diode of the voltage comparing section 5 is supplied with a power supply that passes through the division resistors R3 and R4 at the reference terminal Ref of the mobile phone battery 4 having the negative terminal (-) grounded thereto. It is applied to the base of the transistor TR through the SD2 to maintain the on state when the voltage is lower than the predetermined voltage and to turn it off when the voltage is high.

In the state where the transistor TR1 of the voltage comparator 6 is turned on, the power supplied through the DC-DC converter 3 flows through the emitter-collector of the transistor TR1 while the voltage value is not lowered. It is supplied to the feedback terminal (FB) of the DC-DC converter (3) through the split resistor (R6) (R7) as 'H' to recognize that the mobile phone battery (5) is now being charged and must continue to be charged.

In the state where the transistor TR of the voltage comparator 5 is turned off, the power supplied through the DC-DC converter 3 flows through the resistor R5 while the voltage value is lowered. Is supplied to the feedback terminal (FB) of the DC-DC converter (3) as 'L', so that the battery terminal (Batt) of the DC-DC converter (3) falls below the chargeable voltage value (5V) At the same time, the LED 4 of the low voltage display unit 6, which is connected via the resistor R8, is turned on to stop the charging of the battery 4 and to indicate that the battery 1 is not reaching the minimum power required for charging. do.

When the mobile phone battery 4 is being charged, 'L' is output from the output terminal OUT of the DC-DC converter 3 to turn off the transistor TR2 so that the current is not flowing to the collector-emitter. The light emitting diode LED1 is turned on so that the mobile phone battery 4 is being charged to the outside.

When the charging of the cellular phone battery 4 is completed, 'H' is outputted from the output terminal OUT of the DC-DC converter 3 so that the transistor TR2 is turned on so that the current flows through the collector-emitter. The diode LED1 is turned off so that the mobile phone battery 4 is notified of the completion of charging.

Therefore, in the mobile phone charger using the 1.5 volt battery of the present invention, the power of the battery is supplied to the input terminal of the DC-DC converter through the noise removing unit,

The power from the noise removing unit is supplied to the low power input terminal of the DC-DC converter at the contacts of two split resistors,

The Schottky diode is connected between the input terminal and the output terminal of the DC-DC converter capable of fast switching to step up the charging voltage of the cellular phone battery to be supplied to the positive terminal of the cellular phone battery.

In the reference terminal of the mobile phone battery with the negative terminal grounded, the division resistance is applied to the voltage comparison unit so that the power supplied through the DC-DC converter is supplied to the return terminal of the DC-DC converter through the division resistance. and,

The output terminal connected to the battery terminal of the DC-DC converter is grounded through a resistor and a light emitting diode to determine whether or not the power source of the battery is low power.

The DC-DC converter is to inform the outside whether or not the charging of the mobile phone battery is finished.

Claims (1)

The battery 1 is connected to the input terminal IN of the DC-DC converter 3 via the capacitor C1 and the noise removing unit 2 of the inductance L1, The low power input terminal L-IN of the DC-DC converter 3 is connected at the contacts of two split resistors R1 and R2 connected from the noise removing unit 3, Positive terminal of the mobile phone battery 4 via the capacitor C2 and C3 to the output terminal OUT of the DC-DC converter 3 to which the Schottky diode SD1 is connected between the input terminal IN. Connect to (+), In the reference terminal Ref of the mobile phone battery 4 having the negative terminal (−) grounded, the transistor TR is connected via the Schottky diode SD2 of the voltage comparison unit 5 through the split resistors R3 and R4. To the base of the In the DC-DC converter 3, the feedback terminal FB of the DC-DC converter 3 is passed through the emitter-collector of the transistor TR1 or through the resistor R5 and the split resistor R6 and R7. ), The output terminal OUT connected to the battery terminal Bat of the DC-DC converter 3 is grounded through the resistor R8 and the low voltage display unit 6 of the light emitting diode LED1, 1.5-volt battery, characterized in that the output terminal (OUT) of the DC-DC converter (3) by connecting a transistor (TR2) connected to the light emitting diode (LED2) connected to the collector via a split resistor (R9) (R10) Mobile phone charger using.