KR100523417B1 - Power managing in a system having internal usb hub - Google Patents

Abstract

A method and system for managing power of a computer system is disclosed. Computer system 100 includes a host 102. The method and system include a means having a universal serial bus (USB) hub 106, at least one USB connector 104, 108, 110 and detachment detection logic 120. At least one USB connector is connected to a USB hub. Detachment detection logic is connected to a USB hub. Detachment detection logic determines whether a USB device is connected to at least one connector, logically separates the USB hub from the host if the USB device is not connected to at least one USB connector, and the USB device is connected to at least one USB connector. If so, logically connect the USB hub to the host.

Description

Power management of a system with a built-in USB hub {POWER MANAGING IN A SYSTEM HAVING INTERNAL USB HUB}

The present invention relates to a computer system, and more particularly, to a method and system for managing power in a system having a built-in USB hub.

The use of Universal Serial Bus (USB) connections in computer systems is increasing. 1 shows a conventional computer system 10 with a USB connector. Conventional computer system 10 may be a number of computer systems, including, for example, notebook computers or desktop computers. The conventional computer system 10 includes a host 12, a first USB connector 14, a USB hub 16, USB connectors 18 and 20, and a power supply 22. Host 12 includes a processor (not shown) that operates an operating system (not shown) for integrated circuit and computer system 10. For example, host 12 may include four INTEL ^™ integrated circuits. Thus, host 12 may include an INTEL ^™ processor that runs a MICROSOFT ^™ operating system. The conventional computer system 10 may also include other USB connectors (not shown) and operate as desired. Due to the widespread use of USB connections, conventional computer systems 10 are required to have multiple USB connectors. As a result, a USB hub 16 is provided which connects the host 12 to the USB connectors 18 and 20. Therefore, additional USB connectors 18 and 20 may be included in the computer system 10 by the USB hub 16. The USB hub is connected to the power supply 22 to operate and can be powered from the power supply. Generally, conventional computer system 10 includes components 12, 14, 16, 18, 20, and 22 included in a housing.

Although the conventional computer system 10 also functions, those skilled in the art can readily appreciate that the conventional computer system 10 consumes more power than necessary. For certain operating systems and processors, such as the MICROSOFT ^™ operating system and certain INTEL ^™ processors, using a USB device attached to a USB connector prevents the processor from entering a lower power state, also known as the C3 state. That is, for certain USB host implementations, if the operating system for the host 12 detects the presence of a USB device, the processor may not enter a high power state. In a conventional computer system 10, as required by the USB specification, the operating system of the host 12 recognizes the USB hub 16 included in the conventional computer system 10 as a USB device. Therefore, even when an external USB device is not used, the USB device is always detected. As a result, the processor of the host 12 cannot enter a high power state. Therefore, conventional computer system 10 may consume more power than necessary. This is particularly problematic if the conventional computer system 10 is a computer system such as a notebook, which may be in a moving state. In the case of such a computer system, the power supply 22 includes a battery for powering the conventional computer system 10 while in motion. In the moving state, for example, if the host 12 is not actively used, it is desirable to allow the host 12 to enter a high power state to save battery power. Since the processor of the host 12 cannot enter a high power state, the battery will discharge more rapidly. Because the battery is discharged, the user cannot use the system when he wants to use the conventional computer system 10.

Accordingly, what is needed is a system and method for providing a system that allows a computer system with a USB hub to manage power.

1 is a block diagram of a conventional computer system with a USB hub.

2 is a block diagram of a first embodiment of a computer system according to the present invention with a USB hub;

3 is a block diagram of a second embodiment of a computer system according to the present invention with a USB hub;

4 is a more detailed block diagram of a second embodiment of a computer system according to the present invention with a USB hub.

The present invention provides a method and system for managing power in a computer system. The computer system includes a host. The method and system include having a universal serial bus (USB) hub, at least one USB connector and attach / removal detection logic. At least one USB connector is connected to a USB hub. Detachment detection logic is connected to a USB hub. Detachment detection logic determines whether a USB device is connected to at least one connector, logically separates the USB hub from the host if the USB device is not connected to at least one USB connector, and the USB device is connected to at least one USB connector. If so, logically connect the USB hub to the host.

In accordance with the systems and methods disclosed herein, the present invention allows the power of the computer system to be managed by causing the host's processor to enter a power saving state.

The present invention relates to improvements in computer systems. The following description is presented to enable one of ordinary skill in the art to make and use the invention and is provided under the patent application and its requirements. Various modifications of the preferred embodiments are easy for those skilled in the art, and the general principles herein may be applied to other embodiments. Therefore, the present invention is not limited to the described embodiments, but should be construed broadly in accordance with the principles and features described herein.

Conventional computer systems may include a host, a USB hub, and multiple USB connectors contained in a single unit. In general, a host includes one or more integrated circuits, including at least one processor running an operating system (OS) for a conventional computer system. As the use for USB devices is increasing, USB hubs are connected to the host. Many USB connectors that allow USB devices to be connected to conventional computer systems are connected to a USB hub. Even in such conventional computer systems, although many USB devices may be used with conventional computer systems, those skilled in the art will appreciate that conventional computer systems may not adequately manage power. In particular, as required by the USB specification, conventional computer systems recognize a USB hub as a USB device connected to a conventional computer system. Thus, the processor of the host of a conventional computer system cannot enter a particular power state. As a result, conventional computer systems can consume more power than necessary.

The present invention provides a method and system for managing power in a computer system. The computer system includes a host. The method and system include a means having a universal serial bus (USB) hub, at least one USB connector and detachable detection logic. At least one USB connector is connected to a USB hub. Detachment detection logic is connected to a USB hub. Detachment detection logic determines if a USB device is connected to at least one connector, logically separates the USB hub from the host if the USB device is not connected to at least one USB connector, and connects the USB device to at least one USB connector. If so, logically connect the USB hub to the host.

The invention will be described in terms of specific components, operating systems, and many specific components. However, one of ordinary skill in the art appreciates that the present method and system will be effectively applied to other components, other OSs, and many other components. Also, for simplicity of description, many parts of the computer system according to the present invention are omitted.

To describe the method and system according to the invention in more detail, reference is made to FIG. 2. 2 is a high dimensional block diagram illustrating one embodiment of a computer system 100 in accordance with the present invention. Computer system 100 includes a host 102, a first USB connector 104, a USB hub 106, a USB connector 108 and 110 connected to a USB hub, and a power supply 112 connected to a USB hub 106. , Detachment detection logic 120 and connector 122. Preferably, the host 102, the first USB connector 104, the USB hub 106, the USB connectors 108 and 110 and the power supply 112 are substantially the conventional computer system 10 shown in FIG. 1. Are identical to the host 12, the first USB connector 14, the USB hub 16, the USB connectors 18 and 20, and the power supply 22.

Referring to FIG. 2, the detachment detection logic 120 is connected to the USB connectors 108 and 110 and is connected to the power supply 112 and the USB hub 106 through the connector 122. The detachment detection logic 120 detects whether a USB device (not shown) is connected to either of the USB connectors 108 and 110. The detachment detection logic 120 functions to logically separate the USB hub 106 from the host 102 if the USB device is not connected to any of the USB connectors 108 and 110. The detachment detection logic 120 also logically connects the USB hub to the host 102 when the USB device is connected to either of the USB connectors 108 and 110. Desorption detection logic 120 performs this function by controlling connector 122. In particular, the detachment detection logic 120 controls the connector 122 such that when the USB device is connected to either of the USB connectors 108 and 110, the connector 122 supplies the USB hub 106 to the power supply 112. If the USB device is not connected to either of the USB connectors 108 and 110, the connector 122 does not connect the USB hub 106 to the power supply 112. Therefore, power is supplied to the USB hub 106 only when one or more USB connectors 108 and 110 provided through the USB hub 106 are in use.

Using the detachment detection logic 120, the computer system 100 can better manage power. The operating system of the host 102 can recognize the USB hub 106 only when the USB hub 106 is powered up. Since the detachment detection logic 120 and the connector 122 ensure that the power supply 112 is connected to the USB hub 106 only when the USB device is connected to one or more USB connectors 108 and 110, the operating system is The USB hub 106 can only be recognized when the USB device is connected to one or more USB connectors 108 and 110. That is, if the USB device is not connected to either of the USB connectors 108 and 110, the USB hub 106 is logically separated from the host 102. Similarly, when a USB device is connected to one or more USB connectors 108 and 110, the USB hub 106 is logically connected to the host. This is true even if the USB hub 106 is still physically connected to the host 102. Therefore, the operating system of the host 102 recognizes the USB hub 106 as a USB device connected to the host 102 only when one or more USB connectors 108 and 110 are in use. If these connectors are not in use, the processor of the host 102 may enter a high power state. Therefore, the presence of the USB hub 106 will not unnecessarily consume power. Thus, the power of computer system 100 can be better managed.

3 is a block diagram of a second embodiment of a computer system 100 'in accordance with the present invention having a USB hub. Computer system 100 ′ includes components similar to those of computer system 100. Thus, these components are similarly labeled. However, for clarity, some components are not shown. Computer system 100 'includes a host 102', a USB connector 104 'connected to host 102', a USB hub 106 'and a USB connector 108' and 110 'connected to USB hub 106'. ). Computer system 100 'also includes detachment detection logic 120' and connector 122 '. However, in computer system 100 ', connector 122' is connected between host 102 'and USB hub 106'. If the USB device is not connected to any of the USB connectors 108 'and 110', the detachment detection logic 120 'still logically separates the USB hub 106' from the host 102 '. Also, when the USB device is connected to any of the USB connectors 108 'and 110', the detachment detection logic 120 'logically connects the USB hub 106' to the host 102 '. Desorption detection logic 120 ′ performs this function by controlling connector 122 ′. In particular, the detachment detection logic 120 'controls the connector 122' such that the connector 122 'hosts the USB hub 106' when the USB device is connected to the USB connector 108 'and 110'. '). In addition, the detachment detection logic 120 'controls the connector 122' so that the connector 122 'can connect the USB hub 106' when the USB device is not connected to the USB connector 108 'and 110'. Do not connect to host 102 '.

Using detachable detection logic 120 ', computer system 100' can better manage power. The operating system of the host 102 'can only recognize the USB hub 106' when the host 102 'is connected to the USB hub 106'. The detachable detection logic 120 'and the connector 122' connect the USB hub 106 'to the host 102' only when the USB device is connected to one or more USB connectors 108 'and 110'. The operating system can recognize the USB hub 106 'only when the USB device is connected to one or more USB connectors 108' and 110 '. That is, the USB hub 106 'is logically separated from the host unless the USB device is connected to either of the USB connectors 108' and 110. Similarly, USB hub 106 'is logically connected to a host when a USB device is connected to one or more USB connectors 108' and 110 '. Therefore, the operating system of the host 102 'recognizes the USB hub 106' as a USB device connected to the host 102 'only when one or more USB connectors 108' and 110 'are in use. When these connectors are not in use, the processor of the host 102 'may enter a high power state. Therefore, the presence of the USB hub 106 'will not unnecessarily consume power. Thus, the power of computer system 100 'can be better managed.

4 is a more detailed block diagram of a second embodiment of a computer system 100 "in accordance with the present invention with a USB hub 106". Computer system 100 "includes components similar to those of computer system 100. Thus, these components are similarly labeled with reference numerals. However, for clarity, certain components are shown. The computer system 100 "includes a processor 102", a USB hub 106 ", a USB connector 108" and 110 "at a host of the computer system 100". Computer system 100 &Quot;) also includes detachment detection logic 120 " and connector 122 ". The computer system 100 "also includes a transient suppressor 124. The transient voltage suppressor 124 allows a USB device (not shown) to be connected to one or more connectors 106" and 108 ". It is used to prevent damage due to electrostatic discharge when the film is connected. Detachable detection logic includes integrated circuits 126 and 128 and logic gates 130, 132 and 134. Connector 122 " is a FET. Therefore, the connector 122 "is not a connector in the traditional sense in that it does not physically separate the USB hub 106" from the processor 102 ". Instead, the connector 122" is a USB hub 106 ". Is a connector in the sense that it is to be logically connected to or disconnected from the processor 102 ". When a USB device is connected to the USB connector 108 "or 110", the detachment detection logic 120 "generates a signal H8USBON that is" on ". When this signal is" on ", the FET 122" Is "on". Therefore, the line 121 between the processor 102 "and the USB hub 106" is driven "high" when the USB device is connected to either connector 108 "or 110". As a result, the USB hub 106 "is connected to the processor 102" only when the USB connector 108 "or 110" is in use. Therefore, processor 102 "recognizes USB hub 106" as a USB device only when USB connector 108 "or 110" is in use. At other times, the processor 102 "operates as if the USB hub 106" does not exist in the computer system 100 ". Therefore, the processor 102" does not allow the USB connectors 108 "and 110 to be in use. Can go into a high power saving state. Thus, the power of the computer system 100 "can be better managed.

A method and system for managing power in a system with a built-in USB hub is disclosed. While the invention has been described in accordance with the illustrated embodiments, those skilled in the art will readily appreciate that there may be variations to the embodiments and the variations are within the spirit and scope of the invention. Accordingly, those skilled in the art may make various changes without departing from the spirit and scope of the appended claims.

The present invention can be used to manage requirements regarding the power of a telecommunications electrical system.

Claims (12)

A system for managing power in a computer system including a host, Universal Serial Bus (USB) hub, At least one USB connector connected to the USB hub; Attach / removal detection logic coupled to the USB hub-the detachment detection logic determines whether a USB device is connected to the at least one USB connector, and the USB device is connected to the at least one USB connector. Logically disconnect the USB hub from the host if not, and logically connect the USB hub to the host if the USB device is connected to the at least one USB connector. Power management system of a computer system comprising a. The power management of the computer system of claim 1, wherein the detachment detection logic is connected to the host, and disconnects the USB hub from the host if the USB device is not connected to the at least one USB connector. system. The apparatus of claim 2, further comprising a connector connected to the host, the detachment detecting logic, and the USB hub. The detachment detection logic generates a first signal if the USB device is not connected to the at least one USB connector, and generates a second signal if the USB device is connected to the at least one USB connector, And the connector connects the USB hub to the host in response to the first signal and separates the USB hub from the host in response to the second signal. The computer system of claim 1, wherein the computer system further comprises a power supply connected to the USB hub, and the detachment detection logic is configured to connect the USB hub from the power supply if the USB device is not connected to the at least one USB connector. Power management system of a computer system, characterized in that the separation. The apparatus of claim 4, further comprising a connector connected to the power supply, the detachment detecting logic, and the USB hub, The detachment detection logic generates a first signal if the USB device is not connected to the at least one USB connector, and generates a second signal if the USB device is connected to the at least one USB connector, And the connector connects the USB hub to the power supply in response to the first signal and separates the USB hub from the power supply in response to the second signal. 2. The power management system of claim 1, wherein the computer system can enter a high power saving state if the USB device is not connected to the at least one USB connector. A method of controlling a power source of a computer system including a host, a universal serial bus (USB) hub connected to the host, and at least one USB connector connected to the USB hub, (a) determining whether a USB device is connected to the at least one USB connector; (b) logically detaching the USB hub from the host if the USB device is not connected to the at least one USB connector; (c) logically connecting the USB hub to the host if the USB device is connected to the at least one USB connector Power control method of a computer system comprising a. 8. The computer system of claim 7, wherein said determining (a), said logically separating (b) and said logically connecting (c) are performed using detachable detection logic. Control method. The method of claim 8, wherein the logical separation step (b) (b1) disconnecting the USB hub from the host if the USB device is not connected to the at least one USB connector The power control method of a computer system further comprising. The method of claim 9, wherein the separating step (b1) (b1) (iii) If the USB device is not connected to the at least one USB connector using the detachable detection logic, a first signal is generated, and if the USB device is connected to the at least one USB connector, a second signal is generated. Generating a signal, wherein the detachment detection logic is connected to the host and the at least one connector; (b1) (ii) connecting the USB hub to the power supply in response to the first signal using a connector connected to the host, the detachment detection logic and the USB hub, and in response to the second signal; Separating the power supply from the power supply. 10. The method of claim 8, wherein the computer system further comprises a power supply connected to the USB hub, wherein logically separating (b) (b1) disconnecting the USB hub from the power supply if the USB device is not connected to the at least one USB connector The power control method of a computer system further comprising. The method of claim 11, wherein the separating step (b1) (b1 ') The first detection signal is generated when the USB device is not connected to the at least one USB connector using the detachable detection logic, and the second signal is generated when the USB device is connected to the at least one USB connector. Causing the detachment detection logic to be coupled to the power supply and the at least one connector; (b1) (ii) connecting the USB hub to the power supply in response to the first signal, using a connector connected to the power supply, the detachment detection logic and the USB hub, and the USB in response to the second signal. And disconnecting a hub from the power supply.