KR20070079782A - Potable computer and control method of express module temperature therefor - Google Patents

Abstract

A potable computer and a method for controlling temperature of an extension module are provided to keep stability and reliability of a system by controlling the temperature of the extension module when an express card or an external device transfers data with a CPU. A temperature sensor(THS) detects the temperature of the extension module(260) while the data is transferred between the express card(264) or the external device(268) connected to the extension module and the CPU(202). A temperature controller controls a data transfer rate by restricting a maximum transfer bandwidth between the CPU and the extension module if the detected temperature of the extension module is higher than the predetermined limit temperature. The extension module is an express card slot(262) connecting to the express card and a USB(Universal Serial Bus) port(266) connecting to an external device.

Description

Portable Computer and Control Method of Express Module Temperature therefor

1 is a flowchart illustrating a step-by-step method for controlling the expansion module temperature of a portable computer according to an embodiment of the present invention.

FIG. 2 is a diagram illustrating a portable computer for performing the expansion module temperature control method of the portable computer of FIG. 1.

3 is a flowchart illustrating a step-by-step method for controlling the expansion module temperature of a portable computer according to another embodiment of the present invention.

`` Explanation of symbols for main parts of drawings ''

200: control module 202: CPU

204: Graphic memory control hub 206: I / O control hub

208: firmware hub 210: display unit

220: memory 250: microprocessor

262: Express card slot 266: USB port

THS: Temperature Sensor SW1, SW2: FET Switch

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable computer, and more particularly, to a portable computer for controlling the temperature of an expansion module and a method for controlling the expansion module temperature thereof when data is transferred between the central processing unit and the expansion module.

A portable computer is intended to be easy to carry while maintaining the functions of a personal computer. Such a portable computer is designed to integrate and install devices provided in a personal computer as much as possible inside the portable computer, and to selectively connect and use devices that are less necessary. Accordingly, portable terminals or external devices are typically connected by USB (Universal Serial Bus), and additional devices with additional functions are PC Cards (PCMCIA Cards) of the International Personal Computer Memory Card Association (PCMCIA), and It is connected in the form of a recent express card. The PC card is an IC memory card of a credit card size (54 * 85.6mm) designed to be connected to a standard slot of PCMCIA. Class PC cards are 3.3mm thick and are mainly used as memory-related peripheral devices (RAM, ROM, EEPROM). Class II cards are 5mm thick and accommodate devices such as modems and fax machines. A type III card is an IC memory card having a thickness of 10.5 mm and accommodating a rotating memory device such as a wireless communication device or a hard disk. The advanced Express card in this PC card was developed in the form of a card so that the functions such as auxiliary storage device, TV receiver, wireless communication device, and high speed communication device can be selectively added without placing in the limited space of the portable computer. . In addition, the Express Card is used in the PCI-Express bus method developed to handle the existing PCI bus interface up to 16 times the speed.

In such a conventional portable computer, the temperature of each device is increased as data communication between the ExpressCard or USB having a high data transfer bandwidth and the central processing unit proceeds. At this time, the temperature of the central processing unit can be controlled by power management, such as driving a cooling fan and limiting the power consumption of the central processing unit itself or controlling a clock signal. There is no way to control. Accordingly, in the conventional portable computer, the overall stability and reliability of the system due to the temperature rise of the express card or the USB is problematic.

Accordingly, an object of the present invention is to provide an expansion module temperature control method of a portable computer that can control the temperature of the expansion module when an express card or an external device is connected to the expansion module to transmit data with the central processing unit.

Another object of the present invention is to provide a portable computer capable of controlling the temperature of an expansion module when an express card or an external device is connected to the expansion module to transmit data with the central processing unit.

Still another object of the present invention is to provide a portable computer capable of maintaining the stability and reliability of a system by controlling the temperature of an expansion module to which an express card or an external device is connected.

An expansion module temperature control method of a portable computer according to an embodiment of the present invention for achieving the above object comprises the steps of: sensing the temperature of the expansion module during the data communication with the central processing unit; If the detected temperature of the expansion module is higher than a preset limit temperature, controlling a data transmission amount by limiting a maximum transmission bandwidth between the central processing unit and the expansion module; And if the detected temperature of the expansion module is higher than the predetermined limit temperature, it characterized in that it comprises a step of blocking the driving voltage supplied to the expansion module.

According to another aspect of the present invention, there is provided an expansion module temperature control method of a portable computer, the method including: sensing a temperature of an express card slot during data communication with a central processing unit; Limiting data transmission between the central processing unit and the express card slot when the detected temperature of the express card slot is higher than a preset limit temperature; And if the detected temperature of the express card slot is higher than a preset limit temperature, cutting off the driving voltage supplied to the express card slot.

The data transmission limiting step controls the data transmission amount by limiting the maximum transmission bandwidth between the central processing unit and the express card slot, or the data transmission for a predetermined time in the link state between the central processing unit and the express card slot. It is desirable to switch to a limiting low voltage mode.

Portable computer according to an embodiment of the present invention for achieving the above object is a central processing unit; A temperature sensor for sensing a temperature of the expansion module during data communication between the express card or the external device and the central processing unit connected to the expansion module; And a temperature controller configured to control a data transmission amount by limiting a maximum transmission bandwidth between the central processing unit and the expansion module when the temperature of the expansion module detected by the temperature sensor is higher than a preset limit temperature. It is a technical feature.

The expansion module includes an express card slot to which an express card is connected; And a USB port to which an external device is connected.

The temperature control unit includes a control switch for switching the drive voltage supplied to the express card or the external device connected to the expansion module; And when the temperature of the expansion module sensed by the temperature sensor is higher than a predetermined limit temperature, it includes a switching control unit for applying a switching control signal to the control switch to cut off the drive voltage supplied to the expansion module desirable.

Portable computer according to another embodiment of the present invention for achieving the above object is a central processing unit; A temperature sensor for sensing a temperature of the express card slot during data transmission with the central processing unit; And when the temperature of the express card slot detected by the temperature sensor is higher than a preset limit temperature, limit the maximum transmission bandwidth between the central processing unit and the express card slot, or set a link state between the two devices. Technical features include a temperature control unit for switching to a low voltage mode to block data transmission for a period of time.

The temperature control unit includes a control switch for switching the driving voltage supplied to the express card; And when the temperature of the express card slot detected from the temperature sensor is higher than the predetermined limit temperature, and the switching control unit for applying a switching control signal to the control switch to cut the drive voltage supplied to the express card desirable.

Hereinafter, the portable computer and the expansion module temperature control method of the portable computer according to the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the "expansion module" refers to a port to which an express card slot to which an express card is connected and devices for expansion of additional functions, such as a USB port to which an external device is connected, are connected.

“PCI-Express Ｂus” (Peripheral Component Interconnect Bus, hereinafter referred to as 'PCI-E') is an I / O bus that introduces the concept of network, breaking away from the conventional bus method. Capable of speeds of 2.5 Gbps, using full duplex, the aggregate bandwidth is 5 Gbps per line, so PCI-E is 2.5 Gbps per line and up to 32 per link Up to four lines (lanes) can be connected, which is called 32x PCI-E, which means that PCI-E is up to 32 times the speed of the existing PCI bus and up to four times the speed of the accelerated graphics port (AGP).

The “limit temperature” is the temperature at which the temperature of each device raised due to data communication between the CPU and the ExpressCard or CPU and external devices affects the entire system. Accordingly, when the temperature of the express card slot to which the express card is connected or the USB port to which the external device is connected is higher than the limit temperature, the portable computer according to the present invention controls the amount of data transmitted via PCI-E or USB. Or, switch the link state of PCI-E to low voltage mode where data transmission is stopped.

“Limit temperature” is the temperature at which the temperature of each device raised due to data communication between the CPU and the ExpressCard or CPU and external devices causes a fatal problem for the entire system. Accordingly, when the temperature of the express card slot to which the express card is connected or the USB port to which the external device is connected is higher than the limit temperature, the portable computer according to the present invention may provide a driving voltage supplied to the express card slot or the USB port. To protect the system.

1 is a flowchart illustrating a step-by-step method for controlling the expansion module temperature of a portable computer according to an embodiment of the present invention. The expansion module temperature control method of the portable computer is performed by the control module 200 shown in FIG. 2 is a diagram illustrating a portable computer according to an embodiment of the present invention.

Referring to the portable computer illustrated in FIG. 2, the control module 200 controls a communication module 240 that can communicate with a hard disk 230 in which data is stored and a public telephone network or a local area network.

The expansion module 260 to which the external device 268 or the express card 264 is connected is connected to the control module 200. The expansion module 260 is a universal serial bus (USB) connected to a portable terminal such as a portable telephone, a personal digital assistant, and a digital camera or an external device 268 such as a memory stick, a flash memory, and an external hard disk. Serial connection) port 266 and the PCI-E is provided with an express card slot 262 to which the express card 264 is connected.

The PCI bus is a local bus that connects the Central Processing Unit (CPU) 202 directly with a peripheral device to provide a data path for data transfer at high speed. It is superior to the popular VL bus (VESA Local Bus) and is adopted in most personal computers equipped with Pentium. Since PCI buses have a bridge circuit between the CPU and the bus, they do not depend on the type of CPU, such as the VL bus, so they correspond to the bridge circuits that correspond to the different types of CPUs (ie, the old north bridge and the south bridge). Instead, the graphics memory control hub and I / O control hub are used recently.) Any CPU can be connected. Another feature of the PCI bus is support for bus mastering, which allows a PCI expansion card or board to process tasks independently of the CPU. This is to enable high-speed transfer of multimedia data such as moving pictures when a plurality of peripheral devices having different data transfer rates are connected to the bus. The PCI bus is a 32-bit or 64-bit bus and the operating frequency is the same as the CPU's operating frequency. It is recommended that 10 devices be connected.

The PCI-E supports 1, 2, 4, 16, and 32 lanes of a scalable link in a serial structure different from the conventional parallel PCI bus. PCI-E's power management, along with the existing PCI-PM software architecture, adds a direct hardware control method. In addition, PCI-E supports various form factors such as hot-plug function that can be connected or disconnected while the power is supplied, express cards, mini cards of portable computers, wireless LAN cards, and I / O modules for servers. Supported functions, error detection (End-to-end Cyclic Redundancy Check, Cyclic Redundancy Check), and existing PCI or bridge can be used. The PCI-E is used as a bus connected with a video controller (not shown) of the display unit 210 and an external express card 264.

The microprocessor 250 is connected to the control module 200, and transmits data or commands input through the keyboard 252, the mouse 254, the diskette drive 256, or the like to the control module 200, The control command of the control module 200 is transmitted to the keyboard 252, the mouse 254, and the diskette drive 256. In addition, the microprocessor 250 controls the driving voltage supplied to each device under the control of the control module 200. Accordingly, the microprocessor 250 corresponds to the voltage level of the temperature sensing signal Vth applied from the temperature sensing sensor THS for sensing the temperature T of the express card slot 262 or the USB port 266. Detect the temperature. When the detected temperature T is higher than the preset threshold temperature T1, the microprocessor 250 switches the driving power VCC supplied to the express card slot 262 or the USB port 266. And a switching control signal CS is applied to the second FETs (Field Effect Transistors) Q1 and Q2. As a result, the microprocessor 250 turns the first and second FETs Q1 and Q2 to turn-on or turn-off to express the card 264 or the external device 268. To switch the driving power supply (VCC) supplied to.

The first FET Q1 includes an N-channel MOS (metal oxide semiconductor) FET connected between the input / output control hub 206 and the express card slot 262, and is switched from the microprocessor 250. The switching operation is performed in response to the control signal CS. As shown, when the voltage is applied to the gate G, the first FET Q1, in other words, when the 'high' logic signal is applied from the microprocessor 250, the source S is drained from the drain D. A current path is formed toward the side so that a current applied to the drain D flows toward the source S. That is, when the voltage level of the switching control signal CS applied from the microprocessor 250 is a 'high' logical value, the first FET Q1 is turned on, so that the express card slot ( A driving power source (three voltages of 3.3V, 1.5V, and 3.3Vaux are used) supplied to 262 is applied. Accordingly, when the temperature T corresponding to the voltage level of the temperature detection signal Vth applied from the temperature detection sensor THS is higher than the threshold temperature T1, the first FET Q1 may be configured to generate the microprocessor 250. In response to the switching control signal CS ('low' logic value), a driving power source supplied from the input / output control hub 206 to the express card slot 262 by interrupting the current path between the drain D and the source S. By blocking the VCC, the temperature of the express card slot 262 can be controlled. In the same manner, the microprocessor 250 may control the temperature of the USB port 266 by controlling the second FET Q2.

In the exemplary embodiment of the present invention, the first and second FETs Q1 and Q2 have been described as using N-channel MOS FETs for convenience. Can be.

The control module 200 includes a CPU 202, a graphic memory control hub 204, an input / output control hub 206, and a firmware hub 208. The CPU 202 controls and manages the entire system of the portable computer and performs data operation and logic operation. The CPU 202 includes an arithmetic logic unit (ALU), a control unit, a register, a storage interface, and the like.

 The graphic memory control hub 204 is connected to the system bus of the CPU 202 and the front side bus (FSB), the display unit 210 connected to the PCI-E, and the memory 220 connected to the memory bus of the FSB. It is connected to a device that requires a high processing speed, such as to process graphics and data communication at high speed. The graphic memory control hub 204 may also include a function of limiting the amount of data transfer by adjusting the maximum data transfer bandwidth between the express card 264 and the CPU 202 connected to both ends of the PCI-E. In other words, when the temperature T of the express card slot 262 or the USB port 266 detected using the temperature sensor THS rises higher than the preset limit temperature T0, the graphic memory control hub ( 204 adjusts the maximum transmission bandwidth transmitted via PCI-E or USB. For example, the graphic memory control hub 204 controls the data transfer amount by adjusting the maximum transfer bandwidth in the steady state to 4 Mbps to 2 Mbps, thereby controlling the temperature of the express card slot 262 or the USB port 266. . In addition, the graphic memory control hub 204 performs an Advanced Configuration and Power Interface (ACPI) function. ACPI is a method of reducing power consumption by pre-programming operation modes of devices consuming power according to the use state of the portable computer, and switching to the programmed operation mode according to the operation state of each device. Accordingly, the graphic memory control hub 204 switches the operation mode of the devices according to the state of the CPU 202, the state of the graphic display device, the state of the graphic display adapter, and the link state of the PCI-E (LSPM, Link State). Power Feature). Among these, the LSPM according to the link state of the PCI-E is an active state in which only the movement of data transmitted through the link is maintained while maintaining the normal L0 and the power and clock supplied to the two devices. L0s and L1, which are Power Management, and L2 and L3, which removes the power and clock. In the present invention, the graphic memory control hub 204 uses the ASPM, that is, the link state of the L0s mode and the L1 mode, so that the temperature T of the express card slot 262 detected from the temperature sensor THS is limited to the limit temperature ( If higher than T0), the PCI-E link between the CPU 202 and the ExpressCard 264 is periodically switched to the low voltage mode of the L0s mode or the L1 mode, and then to a predetermined time (a random time of several tens to hundreds of micros). Is set.), And return to the normal state of L0 mode. At this time, the rotation delay time (Latency Time) of the L0s mode is less than 1μs, the rotation delay time of the L1 mode is less than 2 to 4μs. Accordingly, the L0s mode has a shorter rotation delay time than the L1 mode, and thus shorts the time for staying in the low voltage mode.

The input / output control hub 206 is connected between the graphic memory control hub 204 and the firmware hub 208 and transfers data transmitted between the connected devices 208, 230 to 260, and the CPU 202. do.

The firmware hub 208 transfers data transmitted between a BIOS (Basic Input / Output System), an OS (Operating System), and firmware and an input / output control hub 206 to process the data at high speed. It allows you to.

Hereinafter, the expansion module temperature control method of the portable computer according to the present invention having the configuration as described above in detail.

In the tenth step S10 of FIG. 1, the control module 200 checks whether the express card 264 or the external device 268 is connected to the express card slot 262 or the USB port 266. When the express card 264 or the external device 268 is connected, the control module 200 transmits data between the connected express card 264 or the external device 268 and the CPU 202 in response to a user's command. Perform (S12). Subsequently, the control module 200 detects the temperature T of the express card slot 262 or the USB port 266 using the temperature sensor THS (S14). Accordingly, in the sixteenth step S16, the control module 200 detects a temperature corresponding to the voltage level of the temperature detection signal Vth applied from the temperature detection sensor THS, and the detected temperature is the limit temperature T0. Check if it is higher than). When the detected temperature T is lower than the limit temperature T0, the control module 200 continues to transmit data, and when the detected temperature T is higher than the limit temperature T0, the CPU 202 And the maximum transmission bandwidth between the express card 264 or the external device 268 to limit the amount of data transmission. At this time, the control module 200 counts the time using a timer inside its own, and waits for a predetermined time (for example, 100 μs) (S20). Subsequently, when a predetermined time elapses, the control module 200 compares the detected temperature T of the express card slot 262 or the USB port 266 with the threshold temperature T1 in step 22. When the temperature T of the express card slot 262 or the USB port 266 is lower than the limit temperature T1, the control module 200 may be configured between the CPU 202 and the express card 264 or the external device 268. By canceling the maximum transmission bandwidth restriction of, performs normal data transmission. When the temperature T of the express card slot 262 or the USB port 266 is higher than the preset threshold temperature T1, the control module 200 notifies the microprocessor 250, so that the first FET Q1 or The switching control signal CS having a low logic value is applied to the second FET Q2. For example, the limit temperature T0 may be 50 ° C, and the limit temperature T1 may be 80 ° C. Accordingly, the first FET Q1 or the second FET Q2 blocks the current path formed from the drain D toward the source S, so that the express card slot 262 or the USB port 266 from the input / output control hub 204 is blocked. The system can be protected by cutting off the driving power (VCC) supplied to the system.

Through the above process, the expansion module temperature control method of a portable computer according to an embodiment of the present invention, when the graphics memory control hub 204 has a function to limit the data transmission bandwidth, the express card 264 or an external device By controlling the data transfer amount by limiting the maximum transfer bandwidth between the CPU 202 and the CPU 202, the temperature of the express card 264 or the external device 268 can be controlled.

3 is a flowchart illustrating a step-by-step method for controlling the expansion module temperature of a portable computer according to another embodiment of the present invention. The expansion module temperature control method of the portable computer is performed by the control module 200 shown in FIG.

In step 100 of FIG. 3, the control module 200 checks whether the express card 264 is connected to the express card slot 262. When the express card 264 is connected, the control module 200 performs data transfer between the CPU 202 and the express card 264 in step 102 (S102). In other words, through the data transmission between the control module 200 and the express card 264, additional functions such as a high speed LAN or a wireless LAN device, a TV receiving device, or an auxiliary memory device may be used.

In step 104, the control module 200 detects the temperature T of the express card slot 262 by using the temperature sensor THS installed at the lower side or the side of the express card slot 262. Subsequently, in step 106, the control module 200 detects a temperature corresponding to the voltage level of the temperature detection signal Vth applied from the temperature sensor THS, and the detected temperature T is the limit temperature. Check if it is higher than (T0). If the detected temperature T is higher than the limit temperature T0, the control module 200 changes the LSPM to establish a PCI-E link state between the CPU 202 and the express card 264. ) Is switched to the low voltage mode in which the power is supplied but there is no data movement (L0s, L1) (S108). As a result, data transmission between the two devices 202 and 264 is stopped, and the temperature T of the express card slot 262 is lowered. At this time, the control module 200 counts the time using a timer in its own interior, and waits for a predetermined time elapsed so that the temperature T of the express card slot 262 may be lowered (S110). .

In step 112, the control module 200 checks whether the detected temperature T of the express card slot 262 is higher than the threshold temperature T1. When the detected temperature T of the express card slot 262 is higher than the threshold temperature T1, the control module 200 notifies the microprocessor 250, and the first FET Q1 of the 'low' logic value. The switching control signal CS is applied. Accordingly, the first FET Q1 blocks the current path formed from the drain D toward the source S to block the driving power VCC supplied from the input / output control hub 204 to the express card slot 262. Can protect.

When the temperature T of the express card slot 262 detected in the 112 th step S112 is lower than the threshold temperature T1, the control module 200 releases the low voltage mode in step 113 S2. Perform data transfer between devices 202 and 264.

Through the above process, the expansion module temperature control method of a portable computer according to another embodiment of the present invention is a low-voltage mode to the state of the link between the two devices the temperature of the elevated express card due to the data transfer between the CPU and the express card The system can be protected by switching to and controlling the power supply, or by cutting off the driving power supplied to the express card.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, and a person of ordinary skill in the art without departing from the spirit and scope of the present invention. It will be apparent that various modifications, changes, and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, the portable computer and the expansion module temperature control method according to an embodiment of the present invention, when the detected temperature is higher than the preset limit temperature by using a temperature sensor installed in the ExpressCard slot or USB port, CPU Control the temperature of the ExpressCard or external devices by limiting or blocking the amount of data transferred between and. In addition, the present invention cuts off the driving power supplied to the express card or the external device when the sensed temperature is higher than the preset limit temperature. Accordingly, the present invention has the advantage of ensuring the stability and reliability of the system that is disturbed by the heat of the express card or external device.

Claims (8)

A portable computer having an expansion module such as an express card slot to which an express card is connected and a USB port to which an external device is connected; Sensing a temperature of the expansion module during data communication with a central processing unit; If the detected temperature of the expansion module is higher than a preset limit temperature, controlling a data transmission amount by limiting a maximum transmission bandwidth between the central processing unit and the expansion module; And And blocking the driving voltage supplied to the expansion module when the sensed temperature of the expansion module is higher than a preset limit temperature. A portable computer having an express card slot to which an express card is connected, Sensing a temperature of the express card slot during data communication with a central processing unit; Limiting data transmission between the central processing unit and the express card slot when the detected temperature of the express card slot is higher than a preset limit temperature; And And cutting off a driving voltage supplied to the express card slot when the detected temperature of the express card slot is higher than a preset limit temperature. The method of claim 2, wherein the data transmission restriction step Limit the maximum transmission bandwidth between the central processing unit and the express card slot to control the amount of data transfer, or switch the link state between the central processing unit and the express card slot to a low voltage mode that limits data transmission for a period of time. Extended module temperature control method of a portable computer, characterized in that. In a portable computer having an expansion module such as an express card slot to which an express card is connected or a USB port to which an external device is connected, A central processing unit; A temperature sensor for sensing a temperature of the expansion module during data communication between the express card or the external device and the central processing unit connected to the expansion module; And When the temperature of the expansion module detected from the temperature sensor is higher than the preset limit temperature, characterized in that it comprises a temperature control unit for controlling the data transmission amount by limiting the maximum transmission bandwidth between the central processing unit and the expansion module Portable computer. The method of claim 4, wherein the expansion module An express card slot to which an express card is connected; And A portable computer comprising a USB port to which an external device is connected. The method of claim 4, wherein the temperature control unit A control switch for switching a driving voltage supplied to the express card or the external device connected to the expansion module; And When the temperature of the expansion module sensed by the temperature sensor is higher than a predetermined limit temperature, it comprises a switching control unit for applying a switching control signal to the control switch to cut off the driving voltage supplied to the expansion module Portable computer. A portable computer having an express card slot to which an express card is connected, A central processing unit; A temperature sensor for sensing a temperature of the express card slot during data transmission with the central processing unit; And When the temperature of the express card slot detected by the temperature sensor is higher than a preset limit temperature, the maximum transmission bandwidth between the central processing unit and the express card slot is limited, or the link state between the two devices is fixed for a predetermined time. And a temperature control unit for switching to a low voltage mode that blocks data transmission during the period of time. The method of claim 7, wherein the temperature control unit A control switch for switching a driving voltage supplied to the express card; And And a switching control unit which cuts a driving voltage supplied to the express card by applying a switching control signal to the control switch when the temperature of the express card slot detected by the temperature sensor is higher than a preset limit temperature. Portable computer.

Images