KR20060033330A - Charging control device and method for mobile devices using notebook computer - Google Patents

Abstract

The present invention relates to a charging control apparatus and method for a portable device using a notebook computer capable of charging the portable device using a notebook power source. The apparatus and method for controlling charging of a portable device using a notebook computer according to the present invention is characterized by controlling charging of a battery of another portable device using a power source of the laptop computer. To this end, the present invention includes a USB port having a charging terminal in the system, and when the battery of the portable device is connected to the USB port, it is configured to control power charging with the battery of the portable device for a predetermined time through the USB port. . In this configuration, the present invention is configured to control the charging of other portable devices using the USB port provided in the notebook computer, thereby increasing the high utilization of the notebook computer and satisfaction with the product.

Laptops, mobile devices, batteries, charging, control,

Description

Charging control device and method of the mobile appliance using the notebook computer}             

1 is a block diagram of a charging control device of a notebook computer according to the prior art,

2 is a block diagram of a charging control device for a portable device using a notebook computer according to the present invention,

3 is an operation flowchart for charging control of a portable device using a notebook computer according to the present invention.

Explanation of symbols on the main parts of the drawings

101: system 107: USB charging circuit

103: embedded controller 105: battery

109: Mobile device battery

The present invention relates to a charging control device and a method of a portable device using a notebook computer, and more particularly to a charging control device and a method of a portable device using a notebook computer that can charge the portable device using a notebook power source. .

Portable electronic devices, such as PDAs, cell phones, MP3s, etc., are generally powered by batteries to provide the power needed by the system. Of course, an adapter is provided to charge the battery, and the adapter may receive power required by the system. However, most of the portable devices as described above, because the mobile is often used and portable, most of the use state is powered from the battery. Therefore, when the battery power is completely discharged or the battery needs to be charged, the portable devices perform the control of charging the battery by connecting to an external power source through the adapter.

However, most people do not carry an adapter power supply for a mobile device. In addition, even when carrying the adapter power, commercial power (110 volts or 220 volts) that can be input to the adapter power is required. Therefore, when the adapter power supply for the portable device is not carried or when the commercial power supply cannot be obtained, the portable device in which the battery is completely discharged cannot be used. Therefore, there is a need for a method of charging the battery of the mobile device anywhere.

Notebook computers are also one of the representative portable devices. Recently, the number of users of the notebook computer is increasing rapidly, and the most rapid development is the increase in the use time of the notebook computer battery. Recently, laptop computers can be used for a few hours up to several tens of hours, and users of laptop computers are increasing due to the increase in the use time of the laptop batteries.

Next, a charging control device of a notebook computer according to the prior art will be described with reference to FIG. 1.

Conventional notebook computers, as shown in the figure, transfers data between a microprocessor, which is a central processing unit that performs overall control over the overall functions of the system, the microprocessor, an embedded controller, and various peripheral devices described below. A system 1 including a chipset (system south bridge chipset) in charge of the control function is provided. That is, the system 1 is a control device for controlling a notebook computer.

The system 1 shares various necessary information with an input controller such as a keyboard and a mouse, various peripheral devices inside and outside a notebook computer, and an embedded controller 3 that controls power management and a battery interface.

The embedded controller 3 controls the charging of the battery 5. In particular, during the charging operation of the battery, a process of controlling the charging of the battery is performed by detecting a charging current and a charging voltage value charged in the battery. Therefore, the embedded controller 3 stores values for battery power management, ie, a battery charge voltage value and a battery charge current value, in an internal memory. Therefore, the embedded controller 3 receives the control information of the battery from a controller (not shown) inside the battery 5 to charge the battery 5. The control information of the battery includes control information such as current, voltage, temperature, etc. required for charge control.

The battery charge control of the conventional notebook computer having the above configuration is made through the following process.

In general, in order to charge the battery, a charge request operation is required from a controller (not shown) inside the battery 5. That is, when a user requests a charging operation from the controller inside the battery 5 while the user is connecting the adapter power to the notebook computer, the battery charging is performed under the control of the embedded controller 3.

The embedded controller 3 controls the charging of the battery 5 based on the battery charging voltage and the battery charging current. That is, when the battery is not in a full charge state (FC) by communication with a control unit inside the battery pack 5, charging is performed by a predetermined charging voltage and charging current. In the charging operation, when the voltage and the current charged in the battery reach the charging voltage and the charging current which are set in the battery mode, a full charge bit (FC bit) is set in the controller inside the battery pack 5 to be charged. Is complete.

The full charge state is terminated when the following two conditions are satisfied.

Taper current <set value (approx. 150 mA)

Battery voltage> Set voltage-Taper voltage (approx. 100 mV)

The taper current means a current value that is gradually reduced from the reference value by use of the battery when the fully charged current 2.8A detected when the battery is completely discharged and the battery is fully charged again. Therefore, the current control is performed according to the charging operation of the battery until the taper current detected when the battery is charged becomes smaller than the set value.

The taper voltage refers to a voltage value that is gradually reduced from the reference value by use of the battery when the battery is completely discharged and is based on the full charge voltage detected when the battery is fully charged again. Therefore, the voltage control according to the charging operation of the battery is performed until the battery voltage detected during the battery charging operation is greater than the set voltage value minus the taper voltage value.

In the conventional notebook computer operating as described above, only the battery 5 used in the notebook computer is configured to control the charging. Thus, the embedded controller 3 is also used only for charging the battery 5 used in the notebook computer.

Therefore, a notebook computer storing a battery that can be used for a long time is used only for a notebook computer, and a PDA, a mobile phone, an MP3 player, etc., which mainly use battery power, is provided with an adapter power supply of the mobile device and can obtain commercial power. Charging is allowed only where.

Therefore, the conventional mobile device has a problem that cannot be used if the battery is completely discharged in an environment where the above conditions are not satisfied.

Accordingly, an object of the present invention is to provide a charging control apparatus and method for a portable device using a notebook computer that can charge and control the battery of another portable device using the battery power of the notebook computer.

A charging control device for a portable device using a notebook computer according to the present invention for achieving the above object, the system comprising a USB port having a charging terminal; A power supply unit providing the system use power as a charging power of a portable device battery; And a controller for detecting a connection of the portable device battery to the USB port and controlling the charging of the portable device battery through the USB port with the system use power provided from the power supply unit.

The controller is characterized in that for controlling the charging of the mobile device for a set time.

The controller is characterized by using an embedded controller.

The power supply unit is an adapter power source of a notebook computer.

The power supply unit is a battery power source of the notebook computer.

And a charging control method for a portable device using a notebook computer according to the present invention, the first step of detecting the connection of the portable device battery to the system equipped with a USB port having a charging terminal; A second step of forming a power supply path for supplying system power to charging power of a portable device battery through the USB port; And a third step of controlling charging of the mobile device battery through the power supply path formed in the second step for a predetermined time.

Hereinafter, a charging control device and a control process of a portable device using a notebook computer according to the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, a path is configured to transfer the battery power of the notebook computer to the mobile device by using a USB port that is provided in the general notebook computer and other portable devices. In addition, the present invention is provided with a charge control circuit in the embedded controller to charge the battery of another portable device using the battery power of the notebook computer.

2 is a block diagram of a charging control device for a portable device using a notebook computer according to the present invention.

As shown, the present invention provides a data transfer and control function between a microprocessor, which is a central processing unit that performs overall control over the overall functions of the system, the microprocessor, an embedded controller, and various peripheral devices. It includes a system 101 including a chipset (system south bridge chipset) responsible for. In other words, the system 101 is a control device for controlling a notebook computer.

The system 101 shares various necessary information with an input controller such as a keyboard and a mouse, various peripheral devices inside and outside a notebook computer, and an embedded controller 103 that controls power management and a battery interface.

In addition, the system 101 is provided with a USB port 107 having a charging terminal for charging the battery of the portable device. The USB port 107 includes a Vcc terminal, a GND terminal, a Data + terminal, a Data- terminal, and a battery charging terminal of a portable device. And when the battery of the portable device is connected to the USB port 107, it is configured to detect this and transmit a signal to the system side. In addition, in the present invention, the mobile device that wants to be charged through the USB port 107 must also have a terminal connected to the USB port 107 to receive power.

The embedded controller 103 controls the charging of the notebook computer battery 105. In particular, during the charging operation of the battery, a process of controlling the charging of the battery is performed by detecting a charging current and a charging voltage value charged in the battery. Therefore, the embedded controller 103 stores values for battery power management, ie, a battery charge voltage value and a battery charge current value, in an internal memory. Accordingly, the embedded controller 103 receives battery control information from a controller (not shown) inside the battery 105 to charge the battery 105. The control information of the battery includes control information such as a current, a voltage, and a temperature required for charge control.

In addition, the embedded controller 103 is configured to control battery charging of another mobile device through the USB port 107. In the battery charging operation of the other mobile device, since the battery control information cannot be provided from the battery of the other mobile device, the charging control is performed according to a preset charging time. The set charging time is set so as not to overload the battery charging of other portable devices (PDAs, cellular phones, MP3 players) that can be used based on the experimental value. It is usually configured to set in the range of 8 hours to 16 hours.

In addition, the embedded controller 103 may form a power supply path or a notebook computer to use the discharge power of the notebook computer battery 5 as the charge power of the mobile device to provide source power when the battery of another mobile device is charged. Controlling the power supply path formation for using the adapter power of the mobile device as the battery charging power. This is done via the discharge path of the existing notebook computer, the adapter power supply path, and the embedded controller 103.

The embedded controller is a controller including functions of various peripheral devices (serial, timer, counter, interrupt controller, general purpose IO, etc.) in addition to the function of a processor. Since the embedded controller includes RAM or ROM, the embedded controller can make a system using only one chip. And in the embodiment of the present invention, the embedded controller is a device having the function as described above and performing the function of the controller. Therefore, if the processor having the function can be used in place of the embedded controller, of course.

Next, a description will be given of an operation process of the charging control device of the portable device using the notebook computer according to the present invention having the above configuration.

3 is an operation flowchart for controlling charging of a portable device using a notebook computer according to the present invention.

When the user wants to charge the battery of another mobile device using the power of the notebook computer, the other mobile device battery is connected to the charging terminal provided in the USB port 107 of the notebook computer. In this case, the portable device must also be provided with a terminal connected to the USB port 107 to receive power.

As described above, when the USB port 107 of the notebook computer 101 and the charging terminal provided in the battery 109 of the portable device are connected, the system 101 detects this and the battery of the portable device is connected to the embedded controller 103. A signal informing that it is connected to the USB port is output (step 200).

The embedded controller 103 recognizes the charge request of the portable device battery based on the signal input of the step 200 and starts charging the portable device battery 109 (step 203).

At this time, the embedded controller 103 controls the power supply path of the battery 105 of the notebook computer or the adapter power of the notebook computer in order to receive the charging power of the portable device battery 109, and the power supplied from the power supply path. To the USB port 107 side.

The embedded controller 103 is unable to communicate with the mobile device battery 109 during the charging process of the mobile device battery 109, and thus cannot receive battery control information of the mobile device battery 109. Therefore, the embedded controller 103 controls the charging time of the portable device battery 109 based on a preset charging time.

Therefore, after the mobile device battery 109 is connected to the USB port 107, and charging is performed for a predetermined charging time (8 to 16 hours) (step 206), the embedded controller 103 is connected to the mobile device battery ( 109) charging is stopped (step 209).

In addition, even when the charging terminal of the mobile device battery 109 is removed from the charging terminal of the USB port 107 of the system 101 before the preset charging time according to step 206 is reached. The control operation is stopped.

Meanwhile, when the general USB port is connected to the USB port of the system instead of the battery 109 of the portable device having the charging terminal, the general USB function is controlled (step 212).

Next, the battery charging of the notebook computer is performed in the same manner as in the prior art.

That is, in order to charge the battery, a charge request operation is required from a controller (not shown) inside the battery 105. That is, when a user requests a charging operation from the controller inside the battery 105 while the user is connecting the adapter power to the notebook computer, the battery charging is performed under the control of the embedded controller 103.

The embedded controller 103 controls the charging of the battery 105 based on the battery charging voltage and the battery charging current. That is, when the battery is not in a full charge state (FC) by communicating with a control unit inside the battery pack 105, charging is performed by a predetermined charging voltage and charging current. In the charging operation, when the voltage and the current charged in the battery reach the charging voltage and the charging current which are set in the battery mode, a full charge bit (FC bit) is set in the controller inside the battery pack 5 to be charged. Is complete.

The full charge state is terminated when the following two conditions are satisfied.                     

Taper current <set value (approx. 150 mA)

Battery voltage> Set voltage-Taper voltage (approx. 100 mV)

As described above, the charging control apparatus and method for a portable device using a notebook computer according to the present invention is characterized in that the charging of the battery of another portable device using the power of the notebook computer. To this end, the present invention includes a USB port having a charging terminal in the system, and when the battery of the portable device is connected to the USB port, it is configured to control power charging with the battery of the portable device for a predetermined time through the USB port. .

Although the charging control of the portable device battery using the USB port is shown in the embodiment of the present invention, in addition to the USB port, a charging terminal is further provided in another port that is commonly provided in a notebook computer and a portable device to control charging. It is also possible.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

The present invention described above can obtain the following effects.

The present invention enables a user who uses a laptop computer and other portable devices at the same time to charge the battery of the portable device using a power source of the laptop computer without having to carry several adapter devices. Therefore, the user does not have to carry several adapter devices.

In addition, the present invention is configured to control the charging of other portable devices using the USB port provided in the notebook computer, thereby increasing the high utilization of the notebook computer and satisfaction with the product.

Claims (6)

A system equipped with a USB port having a charging terminal; A power supply unit providing the system use power as a charging power of a portable device battery; A mobile device charging control device using a notebook computer configured to detect a connection of the mobile device battery to the USB port, and to control the charging of the mobile device battery through the USB port by the system using power provided from the power supply unit . The method of claim 1, The controller is a portable device charging control device using a notebook computer, characterized in that for controlling the charging of the mobile device for a set time. The method of claim 2, The controller is a portable device charging control device using a notebook computer, characterized in that using an embedded controller. The method of claim 1, The power supply unit is a portable device charging control device using a notebook computer, characterized in that the adapter power supply of the notebook computer. The method of claim 1, The power supply unit is a portable device charging control device using a notebook computer, characterized in that the battery power of the notebook computer. Detecting a connection of a mobile device battery to a system equipped with a USB port having a charging terminal; A second step of forming a power supply path for supplying system power to charging power of a portable device battery through the USB port; And a third step of controlling charging of the portable device battery through the power supply path formed in the second step for a predetermined time.

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