KR100379616B1 - Backup Battery Power Circuit Of Mibile Telephone - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backup battery power supply circuit of a cordless phone in which a switch and a diode are added to a backup battery power supply circuit of a cordless phone so that a call using a backup battery can be maintained for a long time. There was a drawback that the charge capacity of the phone was limited and only a short time during a power outage was possible.

Accordingly, the present invention adds a switch implemented as a transistor to the backup battery power supply circuit, and connects a diode having a predetermined threshold voltage in parallel with the switch, thereby charging the backup battery during standby as well as during a call. At the same time, the charging capacity can be increased by the threshold voltage of the diode, which enables long-term communication during power failure.

In addition, when the charging power of the backup battery is discharged below a predetermined voltage, by disconnecting the switch connected to the backup battery, it is possible to extend the life of the backup battery.

Description

Backup Battery Power Circuit of MiBile Telephone

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backup battery power supply circuit of a wireless telephone, and more particularly, to a backup battery power supply circuit of a wireless telephone in which a switch and a diode are added so that a call using the backup battery can be maintained for a long time.

In general, cordless phones should be able to talk during power outages, but because they do not have an auxiliary power source, cordless phones cannot be used during power outages.

Therefore, conventionally, in order to solve the above-mentioned problems, a separate telephone circuit capable of operating by a power source supplied from a telephone line is provided in a fixing device of a cordless telephone, or a separate backup battery for temporary use in case of power failure of the cordless telephone is provided. It is used in addition.

Here, the power circuit configuration when the backup battery is used in addition to the cordless phone, as shown in the accompanying FIG. 1, the backup battery 13 is a switch 14 implemented with a transistor and the Schottky diode (D2) It is connected to the 'Vcc' terminal that supplies power (constant voltage) to the entire circuit through), and it charges during standby according to the connection / blocking of the corresponding switch 14, and charges power to the 'Vcc' terminal during power failure. Is authorized to make a call.

That is, during the standby, the switch 14 is cut off to disconnect the connection between the backup battery 13 and the 'Vcc' terminal, whereby the power supplied from the power supply 11 is charged to the backup battery 13 and at the same time the regulator It is connected to the 'Vcc' terminal (12), at this time, the diode (D1) is connected to the next stage of the regulator 12 to prevent the reverse voltage.

In addition, during the call, the switch 14 is connected to the backup battery 13 and the 'Vcc' terminal. Thus, even when a power failure occurs during the call, the call is enabled by the charging power of the backup battery 13.

In addition, during the power failure, the backup battery 13 and the 'Vcc' terminal are connected as in the case of the above-mentioned call, and thus the call can be made by the charging power of the backup battery 13.

Further, when the call is made by the charging power of the backup battery 13, when the charging power is discharged to '5V' or less, since further call is difficult, it is recognized by the voltage detector 15 and the switch 14 is recognized. By blocking, you end the call.

On the other hand, in the cordless telephone having the conventional backup battery power circuit, since the power supplied to the entire circuit through the 'Vcc' terminal is '5.3V', the backup battery 13 is '5.5V' by the Schottky diode D2. It can be charged only, and it has a disadvantage of being able to talk only for a short time since it can only use a '0.2V' capacity from '5.5V' which is fully charged during power failure to '5.3V' which is a circuit supply. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to add a switch implemented as a transistor to a backup battery power circuit, and to connect a diode having a predetermined threshold voltage in parallel with the switch, The backup battery can be charged not only during standby but also during a call, and the charging capacity is increased due to the threshold voltage of the diode, so that a long time call can be made even during a power failure.

In addition, another object of the present invention is to extend the life of the backup battery by disconnecting the switch connected to the backup battery when the charging power of the backup battery is discharged below a predetermined voltage.

1 is a diagram illustrating a backup battery power circuit of a conventional cordless telephone.

2 is a diagram illustrating a backup battery power circuit of a wireless telephone according to the present invention.

Explanation of symbols on the main parts of the drawings

21: power supply 22: regulator

23: backup battery 24: first switch

25 voltage detector 26 charge control unit

26-1: second switch D1 to D3: diode

A feature of the present invention for achieving the above object is a voltage detector for detecting the charging power of the backup battery to monitor whether discharged below a predetermined power; A first switch which cuts off the connection with the backup battery according to the control of the voltage detector to prevent over discharge of the backup battery; It is connected to the first switch and provides a call path between the backup battery and the circuit power supply terminal under the control of the CPU when a power failure occurs, and between the backup battery and the circuit power supply terminal when the phone is in a call or waiting for a call. The present invention provides a backup battery power circuit of a wireless telephone including a charging control unit providing a call and a charging path.

Here, the charging control unit is implemented as a transistor, in case of power failure, connects the charging power of the backup battery to the circuit power supply terminal under the control of the CPU to enable a call, and in case of a call or a call waiting, the CPU A second switch which cuts off the connection under the control of the second switch and enables charging of the call and the backup battery through a parallel connected path; And a diode connected in parallel with the second switch to provide a connection path between the backup battery and the circuit power supply terminal when the phone is in a call or waiting for a call.

In addition, the voltage detector detects the charging power of the backup battery and disconnects the first switch in order to prevent over discharge of the backup battery when the battery is discharged to a predetermined power.

In addition, the charging power of the backup battery is connected to a circuit power supply terminal through a first switch and a diode when in a call or waiting for a call, and is charged to a capacity obtained by adding a threshold voltage of the circuit power and the diode. It is done.

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

In the wireless telephone according to the present invention, the configuration of the backup battery power supply circuit for enabling a long time call during power failure is shown in FIG. 2. As shown in FIG. 2, the backup battery 23 includes two switches implemented as transistors ( 24, 26-1) and a 'Vcc' terminal (that is, a circuit power supply terminal) that supplies power (constant voltage) to the entire circuit through the diode D2.

At this time, the first switch 24 is connected or disconnected under the control of the voltage detector 25 to prevent overdischarge of the backup battery 23, and the second switch 26-1 connected in parallel with the diode D2. Is connected or disconnected under the control of the CPU (Central Processing Unit) to enable charging of the backup battery 23 not only during standby but also during a call, and during a power outage, a charging power is applied to the 'Vcc' terminal during a power failure. Do it.

That is, the diode D2 and the second switch 26-1 are the charging controller 26 added to control the charging of the backup battery 23 so that the charging of the backup battery 23 can be performed not only during the standby but also during a call. Provides a connection path between the backup battery 23 and the 'Vcc' terminal through the second switch 26-1 under the control of the CPU, and the backup battery (via the diode D2 in case of a call or waiting for a call). 23) and the connection path between 'Vcc' terminal.

The voltage detector 25 detects the charging power of the backup battery 23 and monitors whether the battery is discharged below a predetermined power (ie, minimum power required for a call), but connects the first switch 24 to a connected state. When the charging power of the backup battery 23 is discharged to a predetermined power, the first switch 24 is disconnected in order to prevent over discharge of the backup battery 23.

In the backup battery power circuit of the cordless phone configured as described above, the first switch 24 is connected and the second switch 26-1 is blocked while the backup battery 23 and the 'Vcc' terminal are connected to the diode D2 during standby. The power supplied from the power supply 21 is thereby charged to the backup battery 23 and connected to the 'Vcc' terminal through the regulator 22, and the 'Vcc' terminal and the diode D2 are connected to each other. The backup battery 23 is fully charged up to 6V. At this time, the diode D1 is connected to the next stage of the regulator 22 to prevent the reverse voltage.

In addition, the first switch 24 is connected during the call, and the second switch 26-1 is cut off so that the backup battery 23 and the 'Vcc' terminal are connected through the diode D2, and thus the power supply unit ( Power supplied from 21 is continuously charged in the backup battery 23 so that a call can be made.

At this time, in case of power failure, since the second switch 26-1 is connected under the control of the CPU, the charging power of the backup battery 23 is connected to the 'Vcc' terminal through the second switch 26-1. 0.7V from fully charged '6V' (ie, 'Vcc' terminal power supply (5.3V) and diode D2's threshold voltage (0.7V) plus circuit supply power supply '5.3V') The capacity will be available for calls even in the event of a power outage, extending the available talk time (for two hours of continuous talk time).

In addition, when talking by the charging power of the backup battery 23 during a power failure, if the corresponding charging power is discharged below '5V', since further calls are difficult, the voltage detector 25 recognizes the first switch ( By shutting off 24, it is possible to prevent the backup battery 23 from being discharged any longer and to extend the battery life.

As described above, in the present invention, the second switch 26-1, which is implemented as a transistor, is added to the backup battery power circuit of the wireless telephone, and a diode D2 having a threshold voltage of 0.7V is provided. By connecting in parallel with the second switch 26-1, the backup battery 23 can be charged not only during the standby but also during a call, and at the same time, the battery can be further charged by the threshold voltage of the diode D2. Even long time calls are possible.

In addition, when the charging power of the backup battery 23 is discharged to '5V' or less and the call is disconnected, the first switch 24 is disconnected to obtain an effect of extending the life of the backup battery 23. do.

In addition, the embodiment according to the present invention is not limited to the above, and can be implemented by various alternatives, modifications, and changes, as well as the above-mentioned cordless telephone, as well as other electronic products (for example, refrigerators, audio or rice cookers). Products can be used during power outages, and in the case of products with high power consumption, the backup battery can be used for a long time by using a large backup battery.

However, all backup battery power circuits implemented within the scope apparent to those skilled in the art according to various alternatives, modifications, and changes including the above-described examples may be included in the claims of the present invention. .

As described above, the present invention adds a switch implemented as a transistor to the backup battery power supply circuit, and connects a diode having a predetermined threshold voltage in parallel with the switch, thereby charging the backup battery during standby as well as during a call. At the same time, the charging capacity can be increased by the threshold voltage of the diode, which enables long-term communication during power failure.

In addition, when the charging power of the backup battery is discharged below a predetermined voltage, by disconnecting the switch connected to the backup battery, it is possible to extend the life of the backup battery.

Claims (4)

A voltage detector which detects charging power of the backup battery and monitors whether the battery is discharged below a predetermined power; A first switch which cuts off the connection with the backup battery according to the control of the voltage detector to prevent over discharge of the backup battery; It is connected to the first switch and provides a call path between the backup battery and the circuit power supply terminal under the control of the CPU when a power failure occurs, and between the backup battery and the circuit power supply terminal when the phone is in a call or waiting for a call. And a charging control unit for providing a call and charging path. The method of claim 1, The charging control unit is implemented as a transistor to connect the charging power of the backup battery to the circuit power supply terminal under the control of the CPU in the event of a power failure, the call is possible, the control of the CPU when the call or call waiting A second switch which disconnects the connection and enables charging of the call and the backup battery through a parallel connected path; And a diode connected in parallel with the second switch to provide a connection path between the backup battery and the circuit power supply terminal when the phone is in a call or waiting for a call. Backup battery power circuit. The method of claim 1, The voltage detector detects the charging power of the backup battery and disconnects the first switch in order to prevent over discharge of the backup battery when the battery is discharged to a predetermined power supply. . The method according to any one of claims 1 to 3, The charging power of the backup battery is connected to a circuit power supply terminal through a first switch and a diode when in a call or waiting for a call, and is charged to a capacity obtained by adding a threshold voltage of the circuit power and the diode. Backup battery power circuit for cordless phones.