KR20090024907A - Portable charger with battery and control method - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable charger with a built-in battery and a control method thereof. In particular, the present invention relates to detecting a charging current amount while charging an electrically connected portable device, and when the detected charging current amount is lower than a preset reference current amount. The present invention relates to a built-in portable charger and a control method for determining that the charging is completed and automatically controlling the power being supplied for charging to the portable device according to the determination of the completion of the charging of the portable device.

The present invention has the effect of increasing the convenience of the user by minimizing unnecessary consumption current as well as reducing unnecessary power consumption in the charger when the mobile device is not fully charged or fully charged.

In addition, the present invention provides a built-in battery so that it can be conveniently used in a place without an external power source, regardless of time and space, and requires a separate AC / DC converter by charging with an external DC power supply It is not bulky, it is small in size, easy to carry, and provides the effect of reducing production cost.

Description

Portable charger having battery, and control method of the same

The present invention relates to a portable charger with a built-in battery and a control method thereof, and more particularly, to a full charge state of a mobile device when a full charge time is elapsed after a predetermined charging time elapses while the mobile device is being charged. The present invention relates to a portable charger having a built-in battery and a method of controlling the same, which prevents the available capacity of the built-in battery from being reduced by reducing unnecessary self consumption current inside the charger by controlling the power being supplied to be automatically cut off for charging by detecting.

In addition, even when the mobile device is not charged, the internal current consumption is reduced to prevent the usable capacity of the internal battery from being reduced.

As is well known, in the trend that the use of mobile devices such as mobile phones, PDAs, PMPs, etc. are becoming more common, mobile devices have a problem of battery life and charging due to the inherent characteristics of the battery feeding method. In particular, in the case of long-distance travel or business trip, the battery charging problem is more serious because the charging of the mobile device is not easy.

1 is a block diagram showing a conventional portable charger built-in battery.

As shown in FIG. 1, the conventional built-in portable charger 100 includes a built-in battery 110 that is a power source for charging the portable device 10, a voltage raising unit 120 for maintaining a constant voltage, A mobile device charging control unit 130 for controlling the charging of the mobile device 10, and a switch 140 for generating an operation on / off signal.

In the conventional built-in portable charger, when the user operates the charging mode by pressing the switch 140, the power of the built-in battery 110 is applied to the voltage riser 120, the voltage riser 120 The voltage is supplied to the portable device charging control unit 130 by boosting the applied power to a constant voltage, thereby operating the charging of the electrically connected portable device 10.

The conventional portable charger with a built-in battery as described above should be turned on when the portable device 10 is charged by operating the switch 140, and the charging of the portable device 10 is completed or the portable device 10 is turned off. When not charging it must be off (Off) to reduce the power consumption of the internal battery 110 was able to reduce the capacity consumption.

Accordingly, the user has to take the hassle and inconvenience in using the mobile device 10 every time when the mobile device 10 is charged and when the mobile device 10 is fully charged.

If this check is neglected, even when the mobile device 10 that is fully charged is no longer charged, the current consumed by the portable charger 100 becomes large, and thus the usable capacity of the actual internal battery is increased. There was a problem of shrinking.

In addition, when the state mode of the unused charger is in the operating state, there is a problem that the usable capacity of the internal battery is reduced even when not connected to the mobile device to be charged.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, an object of the present invention is to place a mobile device requiring a charge in a state where a large number of users traveling a long distance travel or business trip is not supplied with external power The purpose of the present invention is to provide a portable charger with a built-in battery that can be used easily and conveniently without charge.

In addition, another object of the present invention is to automatically shut off the power supply for charging when the full charge of the mobile device is being charged portable battery built-in to efficiently manage the charge capacity of the built-in battery without wasting unnecessary consumption current The present invention provides a charger and a control method thereof.

In addition, another object of the present invention is to provide a portable charger with a built-in battery and its control method to minimize the cumbersome operation by the user, and increase the user's convenience.

According to a first aspect of the present invention, there is provided a portable charger with a built-in battery for charging a mobile device, wherein the portable charger senses a charging current amount while charging the electrically connected mobile device, A battery for determining the completion of charging of the mobile device when the amount of charged current is lower than a preset reference current amount, and automatically controlling the power being supplied for charging to the mobile device to be cut off according to the determination of the completion of charging of the mobile device; Disclosed is a built-in portable charger.

The portable charger may be configured to reduce unnecessary current consumption of the internal battery according to the driving of the internal circuit of the charger when charging is completed when the portable device is electrically connected or when the portable device is not connected. It is desirable to be driven in a power saving mode that minimizes driving of the circuit.

According to a second aspect of the present invention, there is provided a portable charger with a built-in battery for charging a mobile device, comprising: a built-in battery for supplying power for self and for charging the mobile device; A central controller which controls each component module of the power supply line in the charger as a whole; A current controller for controlling the power supplied under the control of the central controller; A voltage raising unit which maintains and supplies the power received from the current controller at a predetermined voltage suitable for charging the portable device; A portable device charging controller configured to perform a control operation of supplying and charging the voltage received from the voltage rising unit to the electrically connected portable device; A current sensing unit connected between the current control unit and the voltage raising unit to sense an amount of charging current supplied to the voltage raising unit and provide the amount of charging current to the central controller; And a multifunction switch configured to generate an operation signal for starting charging of the mobile device. At least one of the above, wherein the central control unit, by determining the amount of charge current received from the current sensing unit is less than the reference current amount, and transmits a power cut control signal to the current controller to cut off the power supplied to the voltage riser Disclosed is a portable charger with a built-in battery for controlling the battery.

The central controller may further detect a state of charge of the internal battery.

In addition, the present invention preferably further comprises a battery capacity display unit for dividing the battery charge remaining amount according to the current state of charge of the built-in battery detected by the central controller in a plurality of level steps.

The built-in battery may be configured of a lithium ion polymer which is charged by receiving an external DC power, and the multifunction switch may further generate a charge capacity confirmation signal for confirming a remaining charge of the built-in battery.

According to a third aspect of the present invention, there is provided a charging control method of a portable device using a portable charger including a battery, the method comprising: (a) initiating charging to a mobile device in an operation state of a charging mode; (b) detecting an amount of charging current being charged by the mobile device; (c) determining whether the detected charging current amount is equal to or less than a preset reference current amount; (d) continuing to perform charging in the step (a) when the determination result is greater than or equal to the reference current amount; And (e) a power saving mode step of reducing unnecessary power consumption by shutting off power being supplied to the portable device when the determination result is less than the reference current amount.

The present invention may further include (f) detecting a charging state of the built-in battery and dividing and displaying the remaining battery charge according to the detected current charging state of the built-in battery into a plurality of levels. .

The power saving mode may further include an unconnected state in which the portable device is not electrically connected.

As described above, according to the portable charger with a built-in battery according to the present invention and a method of controlling the same, a full charge state of the mobile device is performed when a full charge is made after a predetermined charging time has elapsed while charging the mobile device. By detecting the power supply to be automatically cut off for charging to reduce unnecessary current consumption inside the charger, there is an effect to increase the user's convenience by minimizing the cumbersome operation.

In addition, the present invention provides a function to change to a power saving mode that automatically cuts off the power supplied for charging when the charging of the mobile device is completed or not, the user has to check the completion of charging every day Has the effect of eliminating the box.

In addition, the present invention has an effect that can be conveniently used in a place without an external power source without having to worry about time and space by having a built-in battery.

In addition, the portable charger of the present invention does not need a separate AC / DC converter in a manner of charging by receiving an external DC power supply, there is an effect that the volume is small, easy to carry, and the production cost is reduced.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In the description of the present invention, terms defined are defined in consideration of functions in the present invention, which may vary according to the intention or custom of a person skilled in the art and the definitions are based on the contents throughout this specification. Will have to be lowered.

2 is a schematic block diagram showing a portable charger with a battery according to an embodiment of the present invention.

The portable charger 200 with a built-in battery according to an embodiment of the present invention is an auxiliary power supply device capable of easily and conveniently charging various portable devices 10 that require charging. It is a portable charger that can be used conveniently regardless of time or place for users who need it.

As shown in FIG. 2, the portable charger 200 detects a charging current amount while charging the mobile device 10 while being electrically connected and connected to the mobile device 10, and detects the detected charge. When the current amount is lowered below the preset reference current amount, after determining that the charging of the portable device 10 is completed, the power being supplied for charging to the portable device 10 is automatically controlled.

In addition, when the portable charger 200 is fully charged while the portable device 10 is electrically connected, or when the portable device 10 is not connected, the portable charger 200 may operate according to the driving of the internal circuit of the charger. In order to reduce unnecessary power consumption of the internal battery 210, the internal battery 210 is driven in a power saving mode that minimizes driving of the internal circuit.

Hereinafter, with reference to the accompanying drawings, a detailed configuration of a portable charger built-in battery according to an embodiment of the present invention will be described.

As shown in FIG. 2, the portable charger 200 includes a built-in battery 210, a central controller 220, a current controller 230, a voltage riser 240, a mobile device charging controller 250, and current sensing. At least one of the unit 260, the multifunction switch 270, and the battery capacity display unit 280 is configured.

The built-in battery 210 supplies its own power to the internal circuits of each component module of the portable charger 200 and serves to supply power for charging the portable device 10 that is electrically connected for charging. .

Here, the built-in battery 210 is charged by receiving a rectified direct current power (DC) from an external AC / DC adapter (not shown), it may be composed of a lithium ion polymer.

The central controller 220 controls the respective components including the power supply line inside the portable charger 200 and detects the current from the current detector 260 while charging the portable device 10. It is determined whether the amount of charging current is less than the preset reference current amount, and if the result is less than the reference current amount, the power supply control signal is transmitted to the current controller 230 so that the power supplied to the voltage raising unit 240 is cut off. Automatic control.

Through this, the current consumption of the portable charger 200 is reduced and the usable capacity of the internal battery 210 is reduced.

The central controller 220 detects a charging state of the internal battery 210.

The current controller 230 controls the power supplied under the control of the central controller 220 to supply the voltage riser 240, and the voltage riser 240 receives the power received from the current controller 230. It is maintained at a constant in a state of being boosted to a predetermined output voltage suitable for charging the portable device 10 and supplied to the portable device charging control unit 250.

In addition, the mobile device charging control unit 250 performs a control operation of supplying and charging the voltage received from the voltage rising unit 240 to the electrically connected mobile device 10, and the mobile device 10 The battery is charged while being electrically connected to the portable device charging control unit 250.

The current detector 260 is connected between the current controller 230 and the voltage riser 240 to detect the amount of charge current supplied to the voltage riser 240 and provide the current to the central controller 220. .

The multifunction switch 270 generates a key button signal according to a user's operation selection, and the key button signal includes an operation signal for starting charging of the mobile device 10 and a remaining charge of the internal battery 210. Generates a charge capacity check signal to check.

In addition, the battery capacity display unit 280 serves to display the battery charge remaining amount according to the current state of charge of the internal battery 210 in a plurality of levels.

Here, the battery capacity display unit 280 can be displayed by subdividing the battery charge amount to nine levels, the user can check the correct battery capacity through the battery capacity display unit 280 of the portable charger 200, and use Possible capacity can be estimated.

In addition, the portable charger 200 according to the present invention provides convenience for charging a variety of mobile devices directly through a connection jack (not shown), and also protects against overvoltage, overdischarge, overcharge, short, and overheating. It further includes a protection circuit (not shown) that provides a function to ensure the stability of the built-in battery 210. Here, since the protection circuit shown in the drawing corresponds to a known technique applied to most devices using a lithium ion battery, a detailed description thereof will be omitted.

3 is a flowchart illustrating a control method of a portable charger with a battery according to an embodiment of the present invention.

First, the user electrically connects the mobile device 10 that needs to be charged to the portable charger 200 using a connection port (not shown) (S101), and then presses the multifunction switch 270 to start charging. Generates.

Next, the central control unit 220 receiving the operation signal of the charging start is a power supply line inside the portable charger 200, that is, the internal battery 210, the current controller 230, the voltage riser ( 240, and the charging control unit 250 is controlled to start charging to the mobile device 10 (S102).

Next, during the charging operation to the mobile device 10, the current detector 260 detects the amount of charging current supplied to the voltage raising unit 240 (S103), and detects the detected amount of charging current by the central controller ( 220).

Next, the central controller 220 that receives the amount of charge current detected by the current sensor 260 determines whether the reference current amount is less than or equal to the preset reference current amount (S104).

As a result of the determination, when the charging current received from the current sensing unit 260 is greater than or equal to the reference current amount, the charging operation continues to be performed (S105). As a result of the determination, the charging current received from the current sensing unit 260 is equal to or less than the reference current amount. In this case, unnecessary power current is reduced by cutting off power being supplied to the portable device 10 (S106).

That is, the central controller 220 transmits a power cutoff control signal to the current controller 230 to automatically control the power supplied to the voltage riser 240 to be cut off.

On the other hand, when a user presses the multifunction switch 270 to generate a charge capacity confirmation signal, the central controller 220 detects a charging state of the built-in battery 210 and detects the built-in battery 210. The battery charge remaining amount according to the current state of charge is displayed by dividing the battery capacity display unit 280 into a plurality of levels so that the user can visually check the charge amount.

In addition, the portable charger 200 according to the present invention maintains a power saving mode to minimize internal self-consumption current even in an unconnected state in which the portable device 10 is not electrically connected.

Although the present invention has been described in more detail with reference to the embodiments, the present invention is not necessarily limited to these embodiments, and various modifications can be made without departing from the spirit of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 is a schematic configuration diagram showing a conventional portable charger with a built-in battery,

2 is a schematic configuration diagram showing a portable charger with a battery according to an embodiment of the present invention,

3 is a flowchart illustrating a control method of a portable charger with a battery according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: mobile device 100: portable charger

110: built-in battery 120: voltage rise

130: mobile device charging control unit 140: switch

200: portable charger 210: built-in battery

220: central control unit 230: current control unit

240: voltage rising unit 250: mobile device charging control unit

260: current sensing unit 270: multifunction switch

280: battery capacity display unit

Claims (10)

In the portable charger with a battery for charging a mobile device, The portable charger detects a charging current amount while charging the electrically connected portable device, and determines that the charging of the portable device is completed when the detected charging current amount is lower than a preset reference current amount. The portable charger with a built-in battery, characterized in that the automatic control to cut off the power being supplied for charging to the mobile device in accordance with the determination of the completion of the charging of the mobile device. The method of claim 1, The portable charger may be configured to reduce unnecessary current consumption of an internal battery according to the driving of the internal circuit of the charger when charging is completed when the portable device is electrically connected or when the portable device is not connected. A portable charger with a built-in battery, which is driven in a power saving mode which minimizes the driving of an internal circuit. In the portable charger with a battery for charging a mobile device, An internal battery supplying power to itself and supplying power for charging the mobile device; A central controller which controls each component module of the power supply line in the charger as a whole; A current controller for controlling the power supplied under the control of the central controller; A voltage raising unit which maintains and supplies the power received from the current controller at a predetermined voltage suitable for charging the portable device; A portable device charging controller configured to perform a control operation of supplying and charging the voltage received from the voltage rising unit to the electrically connected portable device; A current sensing unit connected between the current control unit and the voltage raising unit to sense an amount of charging current supplied to the voltage raising unit and provide the amount of charging current to the central controller; And A multifunction switch generating an operation signal for starting charging of the mobile device; At least one or more of The central controller is configured to determine the amount of charge current received from the current sensing unit, if less than the reference current amount, and transmits a power cutoff control signal to the current controller to control the power supplied to the voltage riser is cut off. Portable charger. The method of claim 3, wherein The central controller is a portable battery charger, characterized in that for further detecting the state of charge of the built-in battery. The method of claim 4, wherein And a battery capacity display unit for dividing the remaining amount of battery charge according to the current state of charge of the internal battery detected by the central controller into a plurality of level steps. The method according to any one of claims 1 to 5, The built-in battery is a built-in battery charger, characterized in that consisting of a lithium ion polymer that is charged by receiving an external DC power. The method according to any one of claims 1 to 5, The multifunction switch, the built-in battery charger, characterized in that for generating a charge capacity confirmation signal for confirming the remaining charge of the built-in battery. As a charging control method of a mobile device using a portable charger with a battery, (a) initiating charging to a mobile device in an operation state of a charging mode; (b) detecting an amount of charging current being charged by the mobile device; (c) determining whether the detected charging current amount is equal to or less than a preset reference current amount; (d) continuing to perform charging in the step (a) when the determination result is greater than or equal to the reference current amount; And (e) a power saving mode step of reducing unnecessary current consumption by shutting off power being supplied to the portable device when the determination result is less than the reference current amount; Control method of a battery built-in portable charger comprising a. The method of claim 8, (f) detecting a charging state of the built-in battery, and dividing and displaying the remaining amount of battery charge according to the detected current charging state of the built-in battery into a plurality of level steps; Control method. The method according to claim 8 or 9, The power saving mode may further include a non-connected state in which the portable device is not electrically connected.

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