KR100721011B1 - Dockable computer system and control method for power supply in accidental docking event of the same - Google Patents

Abstract

The present invention relates to a dockable computer system comprising a docking station and a portable computer. The dockable computer system disclosed herein controls the power supply by determining the docking state according to a normal docking event or an accidental docking event. In other words, the computer system includes a central processing unit and a status register that stores information according to an accidental docking event state. The central processing unit reads the information stored in the status register to generate an accidental eject condition during hot docking or warm docking, and controls the power supply to shut off the portable computer. Therefore, it is possible to prevent a malfunction such as a system signal processing failure that may occur during an accidental docking event of the dockable computer system and to prevent physical damage of the system bus and components.

Description

DOCKABLE COMPUTER SYSTEM AND CONTROL METHOD FOR POWER SUPPLY IN ACCIDENTAL DOCKING EVENT OF THE SAME}

1 is a block diagram showing the configuration of a dockable computer system having a docking station and a portable computer according to an embodiment of the prior art;

2 is a block diagram showing the configuration of a dockable computer system having a docking station and a portable computer according to an embodiment of the present invention; And

3 is a flowchart illustrating a power control procedure during an accidental docking event of a dockable computer system of the present invention.

Explanation of symbols on the main parts of the drawings

100 dockable computer system 110 portable computer

112: central processing unit 116: status register

118: buffer 126: docking management program

128: power supply unit 130, 148: external connector

140: docking station 144: eject switch

152: communication link

The present invention relates to a computer system, and more particularly to a dockable computer system comprising a docking station and a portable computer and a method for controlling power in an accidental docking event thereof.

Dockable computer systems (Dockable computer system) is developed with a focus on the portability of the miniaturized, lightweight along with the functionality of the desktop computer. As a result, a dockable computer system generally includes a portable computer (eg, a sub notebook computer, etc.) and a docking station to add the functionality of various desktop computers. Therefore, the portable computer is electrically and physically connected to the docking station to add various functions (for example, expansion of auxiliary storage devices such as large capacity hard disk drives, CD-ROM drives, and floppy disk drives, and expansion of audio functions of speaker devices). can do.

A dockable computer system operates as a single system with a docking station in the docked state and operates independently of the docking station in the undocked state. Most dockable computer systems are capable of cold docking, hot docking and warm docking depending on the power supply state during a docking event. Cold docking is a docking event that occurs when the portable computer is turned off, causing inconvenience, such as requiring the user to restart the system, but is the safest method of electrical safety. Hot docking means docking when the portable computer or docking station is operating at full power, and warm docking means docking when the portable computer or docking station is in a power saving state. Therefore, hot docking requires a protection means to prevent electrical failures because the docking event is performed in a normal use state without the user shutting down the power of the portable computer or changing the power saving mode. In addition, since the docking event is performed by converting the worm docking to the power saving mode, additional work for recognizing the device provided in the docking station from the portable computer such as the BIOS is required before the operating system program or the like recognizes the new device.

Thus, a dockable system may be connected between a portable computer and a docking station when a docking event by hot or warm docking occurs, i.e., when the state changes from docked to undocked or to docked. There are problems such as system malfunctions and physical damage that may occur due to separation, such as signal processing failures, bus breaks or damage to internal components.

Referring to FIG. 1, dockable computer system 10 includes a portable computer 12 and a docking station 30. Portable computer 12 includes a central processing unit 14, a memory 16, a system bus 18, a storage device 24 and a peripheral device 22 and a buffer having a docking management program 26. And 20. And they are electrically connected to each other via the system bus 18. The portable computer 12 also includes an external connector 28 that is connected to the system bus 18.

When the docking is performed between the portable computer 12 and the docking station 30, the buffer 20 is activated under the control of the central processing unit 14 that recognizes the docking. The system bus 18 and the docking bus 40 are then electrically connected via external connectors 28, 38.

The docking management program 26 receives a communication link by a separate communication link 42 or an external connector 28 when the eject switch 34 for detaching the portable computer 12 from the docking station 30 is activated. And a signal indicating separation is provided to the central processing unit 14.

The system bus 18 is provided with, for example, a host bus connecting the central processing unit 14 and the memory 16, and a standard bus such as an input / output bus, PCI, or ISA. The external connector 28 is connected to the other external connector 38 of the docking station 30.

The docking station 30 is connected to the docking bus 40, which is connected to the system bus 18 via external connectors 28, 38, and to the docking bus 40 and the communication link 42, through which the portable computer 12 is connected. Eject switch 34 for outputting a signal according to the docking event to the docking management program 26 of) and a docking control unit 32 for controlling the overall operation of the docking station (30).

One of the major problems with prior art methods of associating and detaching portable computers from a docking station is that the user must manually intervene using a docking management program or the like before the joining or detaching process is performed.

Therefore, in the case of hot docking, the dockable computer system is not powered when the docking station is coupled, so the portable computer and the docking station may be connected after confirming the coupling. However, when the signal is to be separated in advance, the signal to be separated must be notified to the central processing unit through an eject switch or a docking management program. As a result, today's dockable computer systems, which are relatively simple to engage and disengage, can cause an inexperienced user to disconnect the portable computer from the docking station without performing special instructions, thereby causing the computer to malfunction or cause physical damage. do.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems, and to provide an apparatus and method for preventing a system malfunction during an accidental docking event of a dockable computer system and preventing physical damage.

According to an aspect of the present invention for achieving the above object, a dockable computer system comprising a docking station and a portable computer, comprising: a central processing unit; Connectors for electrically connecting the portable computer and the docking station to each other; A system bus coupled to the connector; A status register for storing information according to a docking state between the portable computer and the docking station via the system bus; A power supply for supplying power to the portable computer; The central processing unit reads the status register and controls the power supply to cut off power of the portable computer when the docking state is a docking event state due to accidental detachment.

In a preferred embodiment of this aspect, the microprocessor further comprises a microcontroller controlled by the central processing unit to control the power supply to supply and shut off the portable computer.

In a preferred embodiment of this aspect, the status register stores information about a docking event state due to accidental detachment of the docking state of the docking station and the portable computer upon initial power-on state.

In a preferred embodiment of this aspect, the status register stores information about the normal docking event state by the docking management program when a normal docking event occurs.

(Action)

Therefore, according to the present invention, when an accidental docking event occurs, the central processing unit reads out the status register, detects the state register, and controls the power supply unit to shut off the portable computer.

(Example)

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

2 is a block diagram illustrating a configuration of a dockable computer system according to an embodiment of the present invention.

Referring to the drawings, the dockable computer system 100 includes a novel portable computer 110 and a docking station 140.                     

The portable computer 110 includes a novel central processing unit 112 and a status register 116. The portable computer 110 includes a memory 114 including a BIOS ROM and a RAM, a storage device 124 including a system bus 120 and a docking management program 126. Peripherals 122 and buffer 118 and power supply 128. These components are electrically connected to each other via the system bus 120. The portable computer 110 also includes an external connector 130 connected to the system bus 120.

The status register 116 stores docking state information corresponding to a normal docking event or an accidental docking event. That is, the state register 116 stores state information corresponding to an accidental docking event in an initial power on default state. When the docking management program 126 or the eject switch 144 generates a normal / incidental docking event, the docking management program 126 may display the docking state information of the status register 116 in a normal / incidental state. Set to information corresponding to the docking event.

When the docking event occurs, the CPU 112 reads the status register 116 to determine whether the docking event is accidental. As a result of the determination, in the event of an accidental docking event, the power supply unit 128 is controlled (ON / OFF) to cut off the power of the portable computer 110. That is, when an accidental docking event occurs, a control signal (ON / OFF) is output to cut off power to a microcontroller (not shown) that controls the power supply unit 128. Therefore, the microcontroller outputs a power supply / disconnect signal (ON '/ OFF') to the power supply unit 128 in response to a control signal (ON / OFF).

The power supply unit 128 of the portable computer 110 is controlled by the central processing unit 112 or a power management microcontroller (not shown) under the control (ON / OFF) of the central processing unit 112. Supply or cut off the power supply (Vcc).

When the buffer 118 is docked between the portable computer 110 and the docking station 140, the system bus is controlled by the central processing unit 112 through the external connectors 130 and 148. Electrically connects the 120 and the docking bus 150.

The docking management program 126 is a separate communication link 152 or an external connector 130, 148 when the eject switch 144 for detaching the portable computer 110 from the docking station 140 is activated. Receives a signal indicating that the separation over a communication link (not shown) by the provided to the central processing unit (112).

In addition, when an accidental docking event occurs, the docking management program 126 sets the setting information of the status register 116 to an initial power-on state and informs the central processing unit 112 that an accidental docking event has occurred. to provide.

The system bus 120 is provided with, for example, a host bus connecting the central processing unit 112 and the memory 114, and a standard bus such as an input / output bus, PCI, or ISA. The external connector 130 is connected to another external connector 148 of the docking station 140.

The docking station 140 is connected to and through a docking bus 150 connected to the system bus 120 through external connectors 130 and 148, and to the docking bus 150 and the communication link 152. The docking management program 126 of the portable computer 110 includes an eject switch 144 for outputting a signal according to a docking event and a docking control unit 142 for controlling the overall operation of the docking station 140.

Accordingly, the dockable computer system 100 is the same as the docking method of the related art when performing the ejection by the eject switch 144 or the docking management program 126 during hot docking or warm docking. However, when a docking event, that is, an accidental ejection occurs without user intervention, the CPU 112 reads the status register 116 to determine an accidental docking event. When the determination result is an accidental docking event, the power supply 128 is immediately controlled to cut off the power Vcc of the portable computer 110.

Therefore, when the user physically disconnects the portable computer from the docking station without prior request or notification, i.e. without ejection or operation of the eject switch by the command of the docking management program, the system malfunctions or physically damages. Can be prevented from.

3 is a flowchart illustrating a power control procedure when an accidental docking event occurs in a dockable computer system according to an exemplary embodiment of the present invention. This procedure is performed by the central processing unit 112 of the portable computer 110.

Referring to the drawing, when the power of the portable computer 110 is supplied at step S170, the central processing unit 112 is then powered on at step S174, that is, by hot docking or warm docking. Determine if the docking station 140 has been separated. If the determination result has been separated, the procedure proceeds to step S174 where the central processing unit 112 reads out the information in the status register 116. This is to determine whether the docking event is normal or accidental in the powered up state, that is, in a hot or warm docking state. In operation S176, the central processing unit 112 determines whether the separated docking event is an accidental docking event through the information of the read state register 116. If the determination resulted in an accidental docking event, the procedure proceeds to step S178 in which the control of the portable computer 110 is cut off. If it is not the accidental docking event in step S176, the procedure goes to step S180 to perform an operation corresponding to the normal docking event of the existing system.

As described above, the present invention can prevent a malfunction such as a system signal processing failure that may occur during an accidental docking event of a dockable computer system, and prevent physical damage of a system bus or a component.

Claims (4)

A dockable computer system comprising a docking station and a portable computer: Central processing unit; Connectors for electrically connecting the portable computer and the docking station to each other; A system bus coupled to the connector; A docking management program that determines information regarding a docking state according to a docking event; A status register for storing information relating to the docking state via the system bus; And A power supply for supplying power to the portable computer; And the central processing unit reads out the status register and controls the power supply to cut off power of the portable computer when the docking state is a docking event state due to accidental detachment. The method of claim 1, And a microcontroller controlled by the central processing unit to control the power supply to supply and shut off the portable computer. The method of claim 1, And the status register stores information about a docking event state due to an accidental detachment of the docking state of the docking station and the portable computer at an initial power-on state. The method according to claim 1 or 3, And the status register stores information about a normal docking event state by the docking management program when a normal docking event occurs.

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