KR101507954B1 - Method for high-speed charging using usb voltage modulation and apparatus thereof - Google Patents

Abstract

Disclosed are a method and a device for high-speed charging using voltage modulation of a universal serial bus (USB), which can adjust the voltage applied to a USB data cable of a mobile phone to its a maximum charging current. The present invention provides a method and a device for high-speed charging using voltage modulation of a USB, which can charge not a current limited to 500 mA but a maximum charging current through the USB.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a USB charging method, and more particularly,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-speed charging method and apparatus using voltage modulation of USB, and more particularly, to a charging method using a voltage applied to a data line of a USB (Universal Serial Bus) Speed charging method through voltage modulation of the USB to be controlled and a device thereof.

As is well known, USB (Universal Serial Bus) is a general-purpose interface widely used in recent portable devices. The USB includes a power line separate from a data line, so that data can be communicated via USB as well as power can be connected or charged .

Such USB was widely used in computers first. In case of using a current of 500 mA or more in a USB of a computer, a problem such as a computer shutdown occurred, and portable devices connected to a USB device were limited to a current of 500 mA.

On the other hand, portable devices are required to have a large capacity battery due to a high performance CPU, a large display device, a portable device, and various functions, The charge time is delayed until the battery is fully charged when the battery is charged up to 500 mA via the USB.

Initially, the portable device has a separate charging port in addition to the USB port, so charging the battery through a separate charging port is not a problem for charging a large capacity battery. However, the size of the portable device is minimized, As a separate charging port is integrated into a possible USB port, there is a problem of charge time delay through USB.

Encyclopedia of knowledge about USB http://terms.naver.com/entry.nhn?docId=74841&cid=388&categoryId=388 ; See the capture screen of FIG. 5

SUMMARY OF THE INVENTION It is an object of the present invention to provide a high-speed charging method by voltage modulation of a USB which enables a portable device to be charged with a maximum chargeable current rather than being charged with a current limited to 500 mA via USB, .

In order to achieve the above-mentioned object, the present invention provides a power supply control method comprising: a power cutoff step of controlling a power supply unit to supply power to a USB power supply line to cut off 5V supplied to a USB power supply line;

A voltage changing step of changing the voltage applied to the data line of the USB,

A power supply step of supplying power to the USB power line through the power unit after the voltage changing step,

A current measuring step of the control unit measuring a current of the USB power line,

The control unit sequentially repeats the power cutoff step, the voltage change step, the power supply step, and the current measurement step to find the voltage applied to the USB data line when the maximum current is supplied to the USB power line, And a charging step.

According to the present invention, it is possible to find the fast charging mode of each portable device that can be charged through the USB while changing the voltage applied to the data line of the USB by the controller, so that even if the charging characteristics of the connected portable device are different, So that the charging time can be minimized.

1 is a flow chart illustrating a specific flow of a fast charging method through voltage modulation of USB according to the present invention;
Figure 2 is a circuit diagram of a specific embodiment of a fast charge device through voltage modulation of USB according to the present invention;
3 is a circuit diagram of another embodiment of a fast charge device through voltage modulation of USB according to the present invention.
4 is a circuit diagram specifically illustrating a charging circuit of a portable device;
5 is an Internet content of the prior art document (non-patent document).

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It should be understood, however, that there is no intention to limit the invention to the form just described, and the spirit and scope of the present invention encompasses the ordinary variations, equivalents, and alternatives of the illustrated forms.

1 to 3 show the overall configuration of a fast charging method by voltage modulation of USB according to the present invention and a specific embodiment of the apparatus.

As shown in the figure, the present invention includes a control unit 10 for modulating and applying a voltage to a data line of a USB, a power unit 20 for supplying power to a USB power line under the control of the control unit 10, And a detecting unit 30 for detecting a current flowing through a USB power line according to a voltage applied to the data line of the USB by the control unit 10. In the fast charging apparatus, (S10) for turning off the 5V supplied to the power supply line of the USB by controlling the power supply unit (20)

A voltage changing step (S20) of changing the voltage applied to the data line of the USB by the controller (10)

A power supply step S30 for supplying power to the USB power supply line through the power supply unit 20 after the voltage changing step S20,

A current measuring step (S40) for the controller (10) to measure the current of the USB power line,

The control unit 10 sequentially repeats the power cutoff step S10, the voltage change step S20, the power supply step S30 and the current measurement step S40 to sequentially supply the maximum current to the USB power supply line And a fast charge step (S50) of finding a voltage applied to the USB data line and charging the voltage with the maximum current.

As USB is widely used as a universal interface in computers, mobile devices that can be recharged through USB are connected to the USB of the computer and USB through a dedicated charger due to the current limit of the computer. It is necessary to communicate the promised signal to a dedicated charger through a USB data line.

However, since the signals communicated through the data lines of the USB may be different for each portable device, when the other portable devices are charged with the dedicated charger, due to the difference of the communication signals through the data lines of the USB, It is necessary to prevent this.

In addition, in connection with communication through a USB data line, a complicated configuration unnecessary for the charging device must be added to the charging device in order to generate specific digital data in binary form from the charging device and to transmit and receive the charging device and the portable device via the USB data line. It is preferable that a specific voltage is applied to the data line of USB in the device and the portable device judges whether or not it is a dedicated charger according to the specific voltage applied to the data line of USB.

Therefore, as illustrated in FIG. 4, the portable device measures the voltage from the data line of the USB to determine whether it is a dedicated charger. As a result, if the dedicated charger is charged with the maximum current, Or to limit the charge current to 500mA otherwise.

In order to find the charging characteristics of each portable device and to be able to be recognized as a dedicated charger, the fast charging device according to the present invention, as illustrated in FIGS. 2 and 3, modulates and applies a voltage to a data line of USB A power supply unit 20 for supplying power to a USB power line under the control of the control unit 10 and a power supply unit 20 for supplying power to the USB power line according to the voltage applied to the data line of the USB, 2, the controller 10 includes a resistor R for changing the pulse width modulation waveform of the controller 10 to DC, and a detector 30 for detecting a current flowing in the controller 10, Or may be connected to a data line of the USB through a DC conversion unit 11 configurable as a capacitor C to modulate a voltage applied to the data line of the USB or as shown in Figure 3, From USB power line to resistor and transistor The control unit 10 may be connected to the data line of the USB through the configured frequency divider circuit 12 to change the voltage supplied to the USB data line while turning on and off the transistor of the frequency divider circuit 12. [

As shown in FIG. 2, the detection unit 30 may include a current sensing sensor. The current sensing resistor may be connected between the GND terminal of the USB power supply line and the GND terminal of the charging device, When the amplified voltage is transmitted to the control unit 10 by amplifying the voltage applied to the detection unit 30, the control unit 10 can recognize the current flowing through the USB power line by the voltage input from the detection unit 30 And the control unit 10 searches for and maintains a voltage applied to the data line of the USB which is changed so that the value of the current flowing through the power line of the USB becomes the maximum, so that the fast charging can be performed with the maximum current will be.

As shown in FIG. 1, the controller 10 controls a power supply unit 20 for supplying power to a USB power supply line, thereby supplying power to the USB power supply A power cutoff step (S10) for breaking 5V supplied to the line,

A voltage changing step (S20) of changing the voltage applied to the data line of the USB by the controller (10)

A power supply step S30 for supplying power to the USB power supply line through the power supply unit 20 after the voltage changing step S20,

A current measuring step (S40) for the controller (10) to measure the current of the USB power line,

The control unit 10 sequentially repeats the power cutoff step S10, the voltage change step S20, the power supply step S30 and the current measurement step S40 to sequentially supply the maximum current to the USB power supply line And a fast charge step (S50) of finding a voltage applied to the USB data line and charging the voltage with the maximum current.

In the voltage changing step S20, a frequency divider circuit 12 composed of a resistor and a transistor is formed from a power supply line of USB. When the controller 10 turns on and off a transistor of the frequency divider circuit 12, A DC conversion unit 11 for converting the pulse width modulation waveform of the control unit 10 into DC is configured between the control unit 10 and the data line of the USB and the pulse of the control unit 10 And to change the voltage supplied to the USB data line in accordance with the change in the width modulation waveform.

In addition, the fast charging step S50 is a step in which, when the voltage applied to the data line of the USB is changed according to the control of the controller 10, The power supply interruption step S10 is performed before step S20 and the power supply step S30 is performed after the voltage applied to the data line of the USB is changed in the voltage change step S20. When the voltage applied to the data line of the USB, which allows the maximum current to flow through the power line, is found, the detected voltage is applied to the data line of the USB to allow the maximum current to flow through the USB power line.

In addition, since the present invention detects the current flowing through the power line of the USB, it is possible to know the current through which the battery is charged, so that the buffer time according to the charging current and the capacity of the battery can be calculated. The charging current and the charging time can be displayed through the display unit so that the user of the present invention can know the state of his / her portable device, how much time is required until full charging, It is possible to instantaneously confirm the performance or the state of the portable device and to plan the charging time in advance when charging a plurality of portable devices. Manage and manage charging devices while minimizing damage to portable devices connected via USB It is facilitated.

In addition, according to the present invention, it is possible to find the fast charging mode of each portable device that can be charged through the USB while changing the voltage applied to the data line of the USB by the controller 10, The charging time can be minimized by making it possible to charge the battery with the maximum charging current according to the charging characteristics.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims. will be.

S10: Power-off step
S20: voltage change step
S30: power supply step
S40: current measurement step
S50: Fast charging step
10:
11: DC conversion section
12: Dividing circuit
20:
30:

Claims (6)

The control unit controls the power supply unit to supply power to the USB power supply line to cut off the 5V supplied to the USB power supply line,
A voltage changing step of changing the voltage applied to the data line of the USB,
A power supply step of supplying power to the USB power line through the power unit after the voltage changing step,
A current measuring step of the control unit measuring a current of the USB power line,
The control unit sequentially repeats the power cutoff step, the voltage change step, the power supply step, and the current measurement step to find the voltage applied to the USB data line when the maximum current is supplied to the USB power line, Charging step,
Wherein the voltage changing step comprises a DC converting unit for changing the pulse width modulation waveform of the control unit to DC between the control unit and the data line of the USB to change the voltage supplied to the USB data line in accordance with the change of the pulse width modulation waveform of the control unit Speed charging method through USB voltage modulation.
delete delete A control unit for modulating and applying a voltage to a data line of the USB,
A power supply unit for supplying power to a USB power line under the control of the control unit,
And a detector for detecting a current flowing through a power supply line of the USB according to a voltage applied to the data line of the USB,
Wherein the control unit is connected to a data line of the USB through a DC conversion unit that converts the pulse width modulation waveform of the control unit to DC to modulate a voltage applied to the data line of the USB. delete delete

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