KR20060111805A - Smart mobile charger and method of controlling the same - Google Patents

Abstract

A smart portable phone charger and a method for controlling the same are provided to freely charge a cellular phone regardless of a domestic product and a foreign product by detecting a charging current. In a smart portable phone charger, a power charging/discharging unit(200) outputs predetermined voltage and current by repeating charging and discharging operations by receiving DC power applied outside. A current detection unit(600) transmits the voltage and current outputted from the power charging/discharging unit(200) to a cell phone's battery and detects a current value flowing into the battery. A control unit(300) controls the power charging/discharging unit(200) for outputting voltage and current corresponding to the cell phone's battery which has various charging voltage and charging current values.

Description

Smart Mobile Charger and Method of Controlling the same

1 is a block diagram showing a conventional domestic mobile phone battery charger.

2 is a block diagram showing a conventional charger for a mobile phone battery abroad.

3 is a block diagram showing a smart phone charger according to an embodiment of the present invention.

4 is a flowchart illustrating a charging control method of a smart phone charger according to an exemplary embodiment of the present invention.

* Description of the main parts of the drawings *

100: adapter 200: power charging and discharging unit

210: charging unit 220: power unit

230: discharge unit 300: control unit (MICOM)

400: power protection unit 500: rectifier

600: current sensing unit

The present invention relates to a mobile phone charger, and more particularly, to a smart mobile phone charger capable of recharging both domestic and overseas by finding an optimal condition suitable for both domestic and foreign mobile phone batteries by detecting a charging current by itself.

Recently, mobile phones have become indispensable necessities such as daily life and work. As a result, cell phone manufacturers are investing heavily in developing cell phones that provide various designs and contents. This is true not only in Korea (Samsung, Pantech, LG, etc.) but also in overseas cell phone makers (Nokia, Motorola, etc.).

Mobile phones are more mobile and more popular as they become more popular. In this case, each user needs to charge a different charger according to the type of mobile phone. That is, domestic mobile phones and foreign mobile phones require different charging voltages and currents. Domestic mobile phones require about 4.2 [V] / 800 [mA] and overseas mobile phones, for example Nokia phones, require about 5.5 [V] / 400 [mA].

1 is a block diagram showing a conventional domestic mobile phone battery charger, Figure 2 is a block diagram showing a conventional foreign mobile phone battery charger.

Referring to FIG. 1, a conventional charger for a mobile phone battery in Korea is a charging / discharging unit 20 that receives a DC power from an adapter 10 and outputs a set charging voltage and charging current, and a controller for controlling the charging / discharging unit 20 ( 30) maintains a level voltage of a predetermined range under the control of the power protection unit 40 and the control unit 30 for switching the charging and discharging operation of the charging and discharging unit 20 under the control of the control unit 30. It is composed of a rectifying unit 50 to control to.

Therefore, the conventional domestic mobile phone battery charger outputs about 4.2 [V] / 800 [mA] for domestic mobile phone battery charging.

On the contrary, the conventional mobile phone battery charger is as follows.

2, the conventional mobile phone battery charger for a foreign cell is the same as the configuration of the conventional domestic mobile phone battery charger, and the other components are further provided with a current limiting unit (60). Accordingly, the conventional mobile phone battery charger outputs about 5.5 [V] / 400 [mA] for charging the mobile phone battery abroad.

As described above, there is a problem that design / mould cost and development time are doubled by manufacturing a charger separately from domestic and foreign directions.

Accordingly, there is a demand for the development of a smart mobile phone charger that can apply both domestic and foreign directions to expensive domestic chargers by changing circuits and algorithms.

The technical problem to be achieved by the present invention to solve the above problems is to provide a smart phone charger and its control method that can charge the battery according to the optimum charging conditions by distinguishing the domestic and foreign direction by sensing the charging current by itself. have.

In order to achieve the above object, the present invention is a power supply and discharge unit for outputting a predetermined voltage and current by repeating the charging and discharging operation by receiving a DC power applied from the outside; A current sensing unit for transferring a predetermined voltage and current output from the power charging / discharging unit to a mobile phone battery and detecting a current value flowing to the mobile phone battery; And a control unit for controlling the power charging / discharging unit to output a voltage and a current corresponding to the mobile phone battery having a charging voltage and a charging current value of various specifications.

In addition, the present invention for achieving the above object is a charging control method of a smart phone charger including a power charging and discharging unit, a current sensing unit and a control unit, the user connecting the mobile phone battery and the smart phone charger; Outputting current from the power charging and discharging unit; Recognizing a charging voltage and a charging current of the mobile phone battery in the controller; Outputting a charging voltage from the power charging / discharging unit under control of the controller; Detecting a current value output from the power charging / discharging unit in the current sensing unit; Comparing the output current value sensed by the controller with the recognized charging current value; And if the current value is different as a result of the comparison, the charging control method of the smart phone charger comprising the step of adjusting the output current value in the power charging and discharging unit under the control of the controller.

Therefore, by using the smart phone charger according to the present invention it is possible to freely charge the battery of the mobile phones produced domestically and abroad by detecting the charging current, and the cost and time required to develop or design domestic and overseas chargers respectively You can save.

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

3 is a block diagram showing a smart phone charger according to an embodiment of the present invention.

3, the smart phone charger according to an embodiment of the present invention is composed of a power charging and discharging unit 200, a control unit 300, a power protection unit 400, a rectifier 500 and a current sensing unit 600. .

The power charging and discharging unit 200 receives a DC power applied from the adapter 100 that converts AC power into a DC power of a predetermined voltage, and repeats charging and discharging operations to output a predetermined voltage and current. .

In detail, the power charging / discharging unit 200 receives a direct current power applied from the adapter 100 and converts the charging unit 210 into a constant voltage and a constant current, and a plurality of lithium-ions connected in parallel with each other. The battery unit includes a power supply unit 220 for charging power using the constant voltage and the constant current output from the charging unit 210 and a discharge unit 230 for discharging the power charged in the power supply unit 220 when necessary. It is composed.

Here, the lithium-ion battery mounted on the charging unit 210 is a battery that can be charged and discharged, and is used in notebook computers, video cameras, portable telephones, advanced military communication equipment, and the like. In addition, nickel hydrogen or a general battery may be used instead of the lithium ion battery.

In addition, the discharge unit 230 includes a DC / DC converter (not shown) therein, and when the voltage output from the power supply unit 220 is higher than the preset reference voltage, the output voltage is lowered, whereas the power supply unit 220 If the output voltage is lower than the set reference voltage, the output voltage is increased.

The current sensing unit 600 delivers a predetermined voltage and current output from the power charging and discharging unit 200 to a user's mobile phone battery, and detects a current value flowing through the mobile phone battery and outputs the current value to the control unit 300. Do it. Here, the current sensing unit 600 may be configured as a shunt resistor that can sense the output current output from the power charging and discharging unit 200.

The control unit 300 controls the power charging and discharging unit 200 to output a voltage and a current corresponding to the mobile phone battery having a charging voltage and a charging current value of various specifications. For example, a battery of a mobile phone produced in Korea has a charging voltage of 4.2 [V] and a charging current of 800 [mA], and a battery of a mobile phone produced in a foreign country has a charging voltage of various specifications and For example, a Nokia mobile phone battery requires a charging voltage of 5.5 [V] and a charging current of 400 [mA]. Therefore, the control unit 300 sets the specification of the charging voltage and the charging current of the mobile phone battery produced in the domestic or foreign country in the internal memory in advance and recognizes the specification when connecting the mobile phone to charge the power. The control signal is applied to the power charging and discharging unit 200 so as to output a voltage and a current corresponding to the spec.

The power protection unit 400 performs switching control of the charging or discharging operation of the power charging and discharging unit 40 under the control of the control unit 300. It is preferable that the lithium ion battery, which is a component of the power supply unit 220, is provided with a risk of fire or explosion compared to other types of batteries. That is, the power protection unit 400 controls by turning on / off the switches S1 and S2 under the control of the controller 300 when a short circuit occurs for overcharge, overdischarge, transient current, and discharge terminal.

The rectifier 500 controls the output voltage of the power supply unit 220 to maintain a level within a preset range.

The smart phone charger according to the embodiment of the present invention configured as described above charges by previously storing a specification of charging voltage / current of a domestic and foreign mobile phone in the controller 300 and recognizing a mobile phone battery to be charged. By recharging by changing the charging voltage and charging current suitable for a mobile phone, both domestic and foreign mobile phone batteries can be charged with a smart mobile phone charger of the present invention.

Therefore, the design / development cost and time consumed by manufacturing battery chargers of conventional domestic and foreign cellular phones can be reduced.

Hereinafter, a process of charging the smart phone charger according to an embodiment of the present invention to a domestic or foreign mobile phone battery will be described in detail with reference to FIG. 4.

4 is a flowchart illustrating a charging control method of a smart phone charger according to an exemplary embodiment of the present invention.

For reference, for the convenience of explanation, the charging voltage is 4.2 [V] and the charging current is 800 [mA] for domestic mobile phone batteries, and the charging voltage is 5.5 [V] and 400 [mA for charging mobile phones. It will be described as being limited to]. Of course, the battery charging voltage and the charging current of the mobile phone having a charging specification other than this can also be controlled and output by the present invention.

Referring to Figure 4, first, the user connects the mobile phone battery and the smart phone charger. (S1)

At this time, the power charging and discharging unit 200 outputs a preset current. (S2) In this case, the output current is a charging current (that is, 800 [mA]) that meets the specifications of the domestic mobile phone battery in advance. Output for a short time.

The controller 300 recognizes the charging voltage and the charging current of the mobile phone battery, finds a stored specification, and applies a control signal corresponding thereto to the power charging / discharging unit 200 (S3).

Under the control of the controller 300, the power charging and discharging unit 200 outputs a charging voltage. (S4)

The current sensing unit 600 detects the current value output from the power charging / discharging unit 200 and applies it to the control unit 300. (S5)

The control unit 200 compares whether the current value detected in the step S5 and the current value recognized in the step S3 is the same or different (S6).

Accordingly, the control unit 300 determines whether the two current values are the same or different as a result of the comparison in the step S6 (S7). That is, when the mobile phone battery of the connected user is a domestic mobile phone, a value equal to a preset output current is determined. As it is, charging starts as it is (S9).

However, if the mobile phone battery of the connected user is an overseas mobile phone (5.5 [V] / 400 [mA]), since the two current values are different as a result of the comparison, the control unit 300 controls the power charging and discharging unit 200. Apply a signal to adjust the output current value (S8).

The regulated output current value is fed back to the step S5 to detect the output current value again in the current sensing unit 600. (S5) In such an operation, the power charging / discharging unit 200 is oversea. Repeat until the required charging current value (800 [mA]) is reached in the mobile phone battery (S5 ~ S8).

Therefore, as a result of repeating steps S5 to S8, if the current values are the same, charging of the mobile phone battery is started.

The charging control method of the smart mobile phone charger according to the embodiment of the present invention as described above by adjusting the output current by comparing the output current and the charging current, suitable for the spec (spec.) The battery can be charged with voltage and current. Therefore, both domestic and foreign mobile phone batteries can be charged with a smart mobile phone charger of the present invention.

As a result, the design / development cost and time consumed by manufacturing the battery chargers of the conventional domestic and overseas mobile phones by the smart mobile phone charger of the present invention can be reduced.

According to the present invention by the configuration and method as described above, it is possible to freely charge the battery of the mobile phone produced in the domestic and overseas by detecting the charging current using a single smart phone charger.

As a result, it is possible to save cost and time for developing or designing domestic and foreign chargers respectively.

Claims (10)

A power charging and discharging unit for receiving a DC power applied from the outside and repeating the charging and discharging operations to output a predetermined voltage and current; A current sensing unit for transferring a predetermined voltage and current output from the power charging / discharging unit to a mobile phone battery and detecting a current value flowing to the mobile phone battery; And And a control unit for controlling the power charging and discharging unit to output a voltage and a current corresponding to the mobile phone battery having a charging voltage and a charging current value of various specifications. The method of claim 1, The control unit is a smart phone charger, characterized in that for controlling the output voltage value of the power charging and discharging unit to output a charging voltage value for charging the mobile phone battery. The method of claim 2, The control unit receives the output current value measured by the current sensing unit and compares the charging current value required for charging the mobile phone battery to control the output current value of the power charging and discharging unit until the two current values are the same. Smart phone charger, characterized in that. The method of claim 3, wherein The current sensing unit is a smart phone charger, characterized in that the shunt resistor (shunt resistor) that can sense the output current output from the power charging and discharging unit. The method of claim 1, The power charging and discharging unit, A charging unit for receiving a DC power applied from the outside and converting the same into a constant voltage and a constant current; A power supply unit having one or more batteries, the power supply unit charging the power using the constant voltage and the constant current output from the charging unit; And Smart phone charger comprising a discharge unit for discharging the power charged in the power supply if necessary. The method of claim 5, The discharge unit, And a DC-DC converter for lowering or increasing the output voltage when the voltage output from the power supply unit is higher or lower than a preset reference voltage. The method of claim 6, The smart phone charger, A power protection unit for switching and controlling the charging or discharging operation of the power supply unit under the control of the controller; And And a rectifier for controlling the output voltage of the power supply unit to maintain a level within a preset range under the control of the controller. In the charging control method of the smart phone charger comprising a power charging and discharging unit, a current sensing unit and a control unit, Connecting a mobile phone battery and the smart mobile phone charger by a user; Outputting current from the power charging and discharging unit; Recognizing, by the controller, the charging voltage and the charging current of the mobile phone battery; Outputting a charging voltage from the power charging / discharging unit under control of the controller; Detecting a current value output from the power charging / discharging unit in the current sensing unit; Comparing the output current value sensed by the controller with the recognized charging current value; And If the current value is different as a result of the comparison, the charging control method of the smart phone charger comprising the step of adjusting the output current value in the power charging and discharging unit under the control of the controller. The method of claim 8, And controlling the output current value until the current values are the same by comparing the regulated output current value with the recognized charging current value. The method of claim 9, If the current value is the result of the comparison, the charging control method of the smart phone charger further comprises the step of starting to charge the mobile phone battery.

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