KR100801052B1 - Emergency battery of mobile device - Google Patents

Abstract

 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to portable mobile communication devices such as cellular phones, PDAs, and the like and auxiliary batteries of portable mobile electronic devices.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an auxiliary battery for applying to a portable electronic device having a built-in charging circuit or having a limit voltage in a mobile device using a rechargeable battery capable of charging and discharging (including a portable battery). A mobile device having a built-in or limited voltage by configuring charging means for charging an internal battery using a supplied power supply voltage and boosting means for supplying a voltage to a mobile device connected by boosting the voltage of the internal battery. It supplies auxiliary battery voltage to the device and also provides auxiliary battery which can be connected to mobile electronic device to charge the discharged auxiliary battery by using the external power voltage by itself and through the same line (connector). It is intended to provide an auxiliary battery that enables this.

Auxiliary Battery, Emergency Battery

Description

External battery of mobile electronics {Emergency battery of mobile device}

1 is a block diagram showing the configuration of an external auxiliary battery of the present invention mobile electronic device.

Figure 2 is a block diagram showing another embodiment configuration (using a switch means) of the present invention.

3 is a block diagram showing another embodiment configuration (battery connected in series) of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an auxiliary battery of a portable mobile communication device such as a cellular phone, a PDA and the like, and more particularly to an emergency external auxiliary battery of a mobile electronic device with a built-in charging circuit.

With the development of electronic and communication technologies and the development of various multimedia technologies, various electronic devices including portable mobile communication devices have been manufactured and commercialized in miniaturized and mobile forms.

Batteries applied to these electronic devices are secondary batteries capable of charging and discharging. In batteries (batteries), primary batteries such as alkaline batteries and mercury batteries that we commonly use and dispose of, and Ni-Cd batteries that can be recharged and used And secondary batteries such as nickel-hydrogen batteries and lithium ion batteries.

In recent years, most mobile devices use lithium-ion batteries, depending on the battery's performance and application characteristics.

Due to the nature of these portable and portable electronic devices, the use time is limited depending on the degree of power supply necessary for operation.

Recently, in addition to an internal battery mounted on a mobile device, a secondary battery that can be connected through a connector is provided in various forms, and the use of the auxiliary battery may be limited according to the charging method of the internal secondary battery.

In general, a mobile electronic device using a secondary battery may be classified into the following types according to a charging method of an internal battery.

(a). A device having a built-in charging circuit and charging the secondary internal battery using the charging circuit;

(b). A device that charges a secondary internal battery inside the device using an external charger with built-in charging circuit,

Most mobile phones commercially available in Korea charge the internal secondary battery using an external charger with a built-in charging circuit, and general portable electronic devices also do not have a built-in charging circuit inside due to the characteristics of the device size and design. It is common to use a charger.

However, when the charging circuit is built in as needed, when the external power is supplied, the power supply must be supplied at a voltage higher than the maximum voltage of the internal battery. As described above, the auxiliary battery can be connected and used through the connector. none.

In addition, in order to use the corresponding charging voltage of the mobile device itself, even when the input / output of the voltage through the connector is limited, a voltage higher than the limited voltage is required. Can't.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an auxiliary battery for applying to a mobile electronic device having a built-in charging circuit or having a limited voltage in a mobile device using a secondary battery (including battery portable removal and mounting) capable of charging and discharging.

The present invention comprises a charging means for configuring a charging means for charging the internal battery using a power supply voltage supplied from an external power source, and a boosting means for supplying a voltage to a mobile device connected by boosting the voltage of the internal battery. It is intended to provide an auxiliary battery that supplies an auxiliary battery voltage to a mobile electronic device having a limiting voltage, and is also connected to the mobile electronic device so that an auxiliary battery discharged after use can be charged by using an external power supply voltage.

In addition, the present invention is to provide a secondary battery to enable this through the same line (connector) in order to charge the internal battery of the auxiliary battery from the auxiliary battery voltage supply or external power supply voltage to the mobile electronic device as described above.

Another object of the present invention is to provide an auxiliary battery capable of implementing an adaptive operation control mode by sensing input / output current of an interface means (connector) with a mobile device or an external power supply means and controlling charging means and boosting means.

The present invention provides a battery capable of charging and discharging for supplying an auxiliary power voltage to a mobile device, a connection interface means for connection with a mobile device and an external power supply means, and an external power supply voltage input through the connection interface means. Charging means for charging the battery to the battery, step-up means for boosting the voltage discharged from the battery to a voltage for supplying the auxiliary power voltage to the mobile device connected to the connection interface means, and monitoring the current flowing through the connection interface means. It is characterized in that it comprises a current sensing means for controlling the charging means and the boosting means to control the operation mode for supplying the auxiliary voltage to the mobile device and the battery therein.

The configuration of an external auxiliary battery of the mobile portable electronic device of the present invention having such a feature will be described with reference to the embodiment shown in the accompanying drawings.

The configuration of an embodiment of the present invention,

Battery 11 capable of charging and discharging to supply auxiliary power voltage to mobile device 20, connector 12 for connection with mobile device 20 and external power supply means 30, and connector The charging circuit 13 for charging the battery 11 with the external power voltage input through the battery 12 and the voltage discharged from the battery 11 are assisted to the mobile device 20 connected to the connector 12. The booster circuit 14 boosts to the voltage for supplying the power supply voltage, and the current flowing through the connector 12 is monitored to control the charging circuit 13 and the booster circuit 14 to the mobile device 20. And a current sensing circuit 15 for controlling an operation mode for supplying the auxiliary voltage and the internal battery 11.

Such a present invention,

When the battery installed in a mobile device such as a mobile phone is discharged, it is characterized in that it can be connected to a connector configured to supply power to the battery of the mobile device to supply emergency auxiliary power.

A connector 12 for connecting with the mobile device 20 and the external power supply means 30 is configured.

The connector 12 is connected to the connector 21 configured in the mobile device 20, and also connected to the connector 31 configured in the external power supply means 30 when the internal battery 11 of the auxiliary battery is discharged. It consists of the same line (connector).

The connector 12 is basically manufactured according to a standardized format so as to be compatible between devices, and may be configured according to the standard of the mobile device 20 as necessary.

The charging circuit 13 is a means for charging the battery 11 to a predetermined voltage by inputting the voltage of the external power supply means 30 supplied through the connector 12.

The booster circuit 14 is a means for converting (stepping up) the voltage higher than the internal battery voltage of the mobile device 20 as an input of the voltage charged in the battery 11 and supplying the auxiliary battery voltage.

The current sensing circuit 15 is a means for monitoring the current flowing through the connector 12 to control the operation mode of the charging circuit 13 and the boosting circuit 14.

The current sensing circuit 15 detects the voltage difference between the both ends, that is, the voltage difference between the step of the connector 12 and the step-up circuit 14 and the charging circuit 13, which are the previous ends, and according to the detected value. 13) and means for generating a control signal of the boost circuit 14.

The battery 11 configured in the auxiliary battery may be configured as a general lithium-ion battery.

 Referring to the operation of the present invention having such a configuration as follows.

According to the control of the current sensing circuit 15 of the present invention, it can be operated in the following three operation modes.

(a). An operation mode in which the voltage of the battery 11 is supplied to the mobile device 20 connected to the connector 12 through the boosting circuit 14,

(b). An operation mode in which the battery 11 is charged from the external power supply means 30 through the charging circuit 13,

(c). No means of connection to the connector 12, the operating mode without any flow of current,

The current sensing circuit 15 monitors the input / output state of the current flowing through the connector 12 to control the charging circuit 13 and the boosting circuit 14 to operate the auxiliary battery in the above operation control mode.

First, when the connector 12 of the mobile device 20 is connected to the connector 12, the current sensing circuit 15 controls the boost circuit 14 to boost the voltage of the battery 11 to increase the connector 12. Supply to the mobile device 20 through.

It is supplied to the battery of the mobile device 20 through the connector 21 of the mobile device (20).

This operation mode is a case where the user connects the auxiliary battery to the connector 21 due to the discharge of the internal battery of the mobile device 20.

Next, when the connector 31 of the external power supply means 30 is connected to the connector 12, the current sensing circuit 15 detects the current flowing through the connector 12 to determine this.

Therefore, the charging circuit 13 is controlled to charge the battery 11 with the power voltage supplied from the external power supply means 30.

Such an operation mode is a mode in which the operation of the auxiliary battery is completed or when the battery 11 of the auxiliary battery is completely discharged.

Finally, since no current flows without any means connected to the connector 12, the charging circuit 13 and the boosting circuit 14 are not operated.

Even though current flows from the previous stage to the connector 12 through the current sensing circuit 15, there is no voltage difference in the state in which no means is connected to the connector 12, but external devices such as the mobile device 20 When connected, a voltage difference occurs between both ends of the current sensing circuit 15.

Therefore, by using the voltage difference, the current sensing circuit 15 generates the control signals of the charging circuit 13 and the boosting circuit 14 to control the operation in the operation mode as described above.

Figure 2 shows another embodiment of the present invention, the same parts will be omitted by the same reference numerals will be omitted.

According to FIG. 2, the switch 16 may further include a switch 16 that is a switching means for determining whether the current sensing circuit 15 is operated.

According to this, the user can determine whether or not the current monitoring operation as necessary, to prevent the discharge of the battery 11 due to the current consumption of the boost circuit 14 in the standby state.

In addition, when the voltage boosted to the mobile device 20 is not necessary,

That is, as mentioned in the related art, it is to provide an operation mode necessary for the same state as when the internal battery of the mobile device 20 is charged by an external charger having a built-in charging circuit.

In order to detect a state in which the auxiliary battery and the external device are connected, the current should be prepared at all times. If the external device is not connected, the current consumed by the current sensing circuit 15 is extremely fine.

However, the current consumption by the booster circuit 14 is large (about 3mA per hour), which may occur when the battery 11 is discharged by the booster circuit 14 even in a standby state where no external device is connected, so that an auxiliary battery is not used. It may be inconvenient to periodically charge the battery even in the idle state.

In order to prevent this, instead of monitoring the current at all times, the switch 16 is configured to monitor only when necessary, i.e., when an external device is connected.

In addition, the voltage of the battery 11 is directly supplied to the mobile device 20 without the need for a boosted voltage. When the user switches the switch 16 on, the boosting circuit 14 does not operate.

This is designed in consideration of the operation efficiency by controlling the boost start operation as the current consumption of the boost circuit itself is large.

3 shows a configuration for supplying the boosted voltage to the mobile device 20 by connecting the batteries 11 in series as another embodiment of the present invention.

Accordingly, the voltage is supplied to the mobile device 20 using the voltage supplied from the battery 11 connected in series without configuring a separate boosting circuit.

Applying the present invention as described above, in consideration of the characteristics of the portable mobile device to provide an emergency auxiliary battery, in consideration of the limited size of the connection with the mobile device and the external power supply means using the same connector By enabling this, the number of unnecessary connectors can be minimized so that the design can be beautiful and miniaturized according to the characteristics of the portable device.

In addition, the present invention has a built-in charging circuit and boosting circuit therein to be able to charge the discharged auxiliary battery as an external power supply means, if necessary, a mobile type that can be applied a limited voltage, such as a mobile device with a built-in charging circuit It is possible to provide a spare battery that can be applied to the device. Unlike in the US and Europe, a charging circuit is built in mobile devices and an external charger acts as a DC adapter (external power supply). Applicable to the case.

Claims (3)

Battery 11 capable of charging and discharging to supply auxiliary power voltage to mobile device 20, and connection interface means 12 for connecting external devices such as mobile device 20 and external power supply means 30, etc. And a charging means 13 for charging the battery 11 with the power voltage of the external power supply means 30 input through the connection interface means 12, and a voltage discharged from the battery 11. A boosting means 14 for boosting to a voltage for supplying an auxiliary power supply voltage to the mobile device 20 connected to the means 12, the connecting interface means 12, the charging means 13, and the boosting means 14; Determining whether the external device is connected by detecting the voltage difference between the devices, and controlling the charging means 14 and the boosting means 13 to supply the auxiliary voltage to the mobile device 20 and charge the battery 11. Including a current sensing means 15 for controlling the mode External secondary battery of the portable electronic device characterized in that the. The external auxiliary battery of a mobile electronic device according to claim 1, further comprising a switch means (16) for setting by the user as necessary if the current sensing means (15) is operated. Battery 11 capable of charging and discharging to supply auxiliary power voltage to the mobile device 20, and connection interface means for connection with the mobile device 20 and external devices such as an external power supply means 30. (12), charging means (13) for charging the battery (11) with the power supply voltage of the external power supply means (30) input through the connection interface means (12), and the charging means (13) stage and the connection interface. Detects the voltage difference between the means 12 and determines the connection with the external device, and controls the operation mode for controlling the charging means 13 for supplying the auxiliary voltage to the mobile device 20 and charging the battery 11. It is configured to include a current sensing means 15 for The battery 11 is an external auxiliary battery of a mobile electronic device, characterized in that two or more batteries are connected in series.

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