JP2012164325A - Wireless internet connection repeater - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a repeater for using a wireless LAN protocol to connect a terminal to the wireless Internet.SOLUTION: A wireless Internet connection repeater is a repeater including a wireless LAN module and a Wibro communication module, and includes: a power supply part for supplying electrifiable battery power to a system; a main control part for determining a Wibro communication shadow region, setting one of many power supply modes according to a determination result and controlling an electric supply source of each part in a selective manner, according to the set mode; and a power management part for managing a power supply path for supply to each part through the control by the main control part. The wireless Internet connection repeater can prevent waste of electric power that is consumed by unnecessarily activating the wireless LAN module in an environment where a repeater cannot executes functions, and it also minimizes standby power by blocking power of part of the Wibro communication module at a time excluding a time point required for periodically collecting channel state information of Wibro network.

Description

  The present invention relates to a wireless Internet connection repeater, and more particularly, to a repeater capable of connecting a terminal capable of communication using a wireless LAN protocol to a wireless Internet through a WiBro network.

  As communication technology and mobile terminal related technology develop, various communication methods are introduced. Among them, the wireless LAN (wireless LAN) method is a short-range communication method using a radio wave or infrared transmission method, and has a merit that the cost is relatively low because wireless data can be transmitted and received. It has the disadvantage of being restricted by distance.

  One communication method developed to overcome these disadvantages is the Wibro service. The WiBro service is a service based on the IEEE 802.16e technology, and enables high-speed Internet connection even while moving at a maximum speed of 60 km using a frequency band of 2.3 GHz band. For reference, a terminal equipped with a WiBro module communicates wirelessly to a base station, and then is connected to the Internet network by wire.

  Compared to wireless LAN systems, the WiBro service is said to be more useful because it is relatively fast and is not restricted by distance, but it can be used normally through terminals that support only wireless LAN. Can not do it. Here, a wireless Internet connection device or a repeater that can be connected to the WiBro service network through a wireless LAN terminal has been developed.

  However, in general wireless Internet connection devices or repeaters, it is necessary to keep track of the channel state in order to use the WiBro service. In such a case, since the modem must always be activated in order to grasp the channel state, power consumption is caused thereby, so a more efficient power management method is required. Furthermore, in the case of a portable wireless Internet connection device, it is more urgently required to efficiently manage the power consumption of the battery.

An object of the present invention is to provide a portable wireless Internet connection repeater including a power supply unit that supports a terminal that can communicate using a wireless LAN protocol to connect to a wireless Internet through a WiBro network but can be charged anytime and anywhere. There is to
Another object of the present invention is to provide a portable wireless Internet connection repeater that can minimize power consumption during standby.

  Another object of the present invention is to efficiently shut down the power supplied to the wireless LAN module in a communication shade area where WiBro communication is impossible and efficiently manage the power consumption of the power supply unit. An object of the present invention is to provide a portable wireless Internet connection repeater that can be used.

  To achieve the above object, a portable wireless Internet connection repeater according to an embodiment of the present invention is a repeater including a wireless LAN module and a WiBro communication module, and includes a rechargeable battery. A power supply unit for supplying to each part of the device and a Wibro communication shade area are determined, one of a number of power supply modes is set according to the determination result, and the system power supply is selected and controlled by the setting mode The main control unit, and a power supply control unit for controlling a power supply path supplied to each part of the system under the control of the main control unit.

  More specifically, the main control unit sets a maximum power saving mode in a Wibro communication shaded area, and completely controls the power supplied to the wireless LAN module.

  That is, according to the present invention, unnecessary power consumption can be prevented by completely shutting off the power supplied to the wireless LAN module in a shaded area where WiBro communication is impossible.

  In addition, the main control unit intermittently controls the operation power of the WiBro communication module in the maximum power saving mode. However, the main control unit excludes the time required for periodically collecting the channel state information of the WiBro network. It is characterized in that the interruption control is performed in between.

  This also minimizes the power consumption in the standby mode because the operation power is supplied to the WiBro communication module only for the time necessary to collect the channel state information.

  Further, the main control unit sets a power saving mode in an area where WiBro communication is possible, and intermittently controls the operation power of the WiBro communication module, but periodically collects channel state information of the WiBro network. It is characterized in that the shut-off control is performed during a time excluding a necessary time point. This is also a useful method for minimizing power consumption in the standby mode.

  In addition, the main control unit minimizes power consumption in the standby mode by supplying power only to the signal receiving unit necessary for receiving packets transmitted from the mobile terminal in the wireless LAN module in the power saving mode. Can be

  According to the problem-solving means of the present invention as described above, the present invention can perform the function of the repeater in order to completely shut off the power supplied to the wireless LAN module in the Wibro communication shaded area. There is an advantage that it is possible to basically prevent wasteful use of power consumed by activating a wireless LAN module unnecessarily in an environment where it is impossible.

  Furthermore, the present invention intermittently controls the operation power of the WiBro communication module in the maximum power saving mode set in an area where WiBro communication is not possible, but is necessary for periodically collecting the channel status information of the WiBro network. The power consumption in the standby mode can be minimized by controlling to cut off the power supply of a part of the WiBro communication module during the time except for a certain time.

  In addition, the present invention intermittently controls the operation power of the WiBro communication module even in the power saving mode set in an area where WiBro communication is possible, but is necessary for periodically collecting the channel state information of the WiBro network. Since the power supply of a part of the WiBro communication module is controlled to be cut off during the time excluding the time point, the power consumption in the standby mode can be minimized.

  In some cases, the power consumption in the standby mode is reduced by supplying only a part of the power to the signal receiving unit necessary for receiving packets transmitted from the mobile terminal in the wireless LAN module in the power saving mode. This is a useful invention.

1 is a peripheral configuration diagram of a portable wireless Internet connection repeater 200 according to an embodiment of the present invention. FIG. 1 is a block diagram illustrating a portable wireless Internet connection repeater 200 according to an embodiment of the present invention. FIG. 3 is a block diagram illustrating a wireless LAN module 210 in FIG. FIG. 3 is a block diagram illustrating a WiBro communication module 230 in FIG. 2. 4 is a diagram illustrating a power management system of a portable wireless Internet connection repeater 200 according to an embodiment of the present invention.

  Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce the present invention through preferred embodiments described below.

First, FIG. 1 illustrates a peripheral configuration diagram of a portable wireless Internet connection repeater 200 according to an embodiment of the present invention. As shown in FIG. 1, a portable wireless Internet connection repeater 200 is equipped with a wireless LAN module according to any one of IEEE802.11a, IEEE802.11b, and IEEE802.11g, and is a portable terminal. 100 and 110, which are different from the wireless LAN protocol, for example, can be connected to a wireless Internet network by mounting a Wibro communication module based on IEEE 802.16e technology. That is, the portable wireless Internet connection repeater 200 according to the embodiment of the present invention takes the role of a repeater that supports the wireless LAN-connectable terminals 100 and 110 to connect to the wireless Internet through the Wibro network. The configuration of such a portable wireless Internet connection repeater 200 will be described with reference to FIGS.
2 illustrates a block configuration diagram of a portable wireless Internet connection repeater 200 according to an embodiment of the present invention. FIG. 3 illustrates a block configuration diagram of a wireless LAN module 210 in FIG. 4 is a block diagram of the Wibro communication module 230 in FIG.

  As shown in FIG. 2, a portable wireless Internet connection repeater 200 according to an embodiment of the present invention basically communicates with portable terminals 100 and 110 equipped with a wireless LAN module based on a wireless LAN protocol method. A wireless LAN module 210 for executing and a Wibro communication module 230 for executing communication with the Wibro base station 300 are included. In addition to these different types of communication modules, the wireless Internet connection repeater 200 includes a battery that can be charged by a power source supplied by down-converting an AC utility power source, and supplies the battery power source to each part of the system. Main control for discriminating the power supply unit 250 and the Wibro communication shade area, setting one of a number of power supply modes according to the discrimination result, and selectively controlling the power supply of each part of the system according to the setting mode And a power supply control unit 240 for controlling a power supply path supplied to each part of the system under the control of the main control unit 220.

  For reference, FIG. 2 illustrates only the minimum configuration necessary for power management of the system. In addition to these configurations, the wireless LAN packet received through the wireless LAN module 210 is converted into a Wibro packet or vice versa. It is obvious that a packet processing unit for processing a packet transmitted to the mobile phone must also be included as a component of the portable wireless Internet connection repeater 200.

  In addition, the multiple power supply modes referred to in the present invention are concepts including a maximum power saving mode and a power saving mode. The maximum power saving mode is a mode for driving a system with a minimum drive power supply, and the power saving mode. Is defined as a mode that drives the system with higher power consumption than the maximum power saving mode. A method in which the main control unit 220 discriminates the WiBro communication shade area, sets one of the many power supply modes according to the discrimination result, and efficiently manages the power supply will be specifically described with reference to FIG.

Hereinafter, the configuration of the wireless LAN module 210 will be described with reference to FIG.
The wireless LAN module 210 includes a duplexer 211 for separating an RF signal wirelessly transmitted and received with the terminals 100 and 110 into a transmission signal and a reception signal, a transmission unit 213 and a reception unit 215 for transmitting and receiving the RF signal, and A modem 217 for modifying and demodulating signals transmitted and received by the transmission unit 213 and the reception unit 215 according to a predetermined wireless communication standard, and a protocol processing unit 219 for processing a protocol for wireless LAN connection through the modem 217 Including. For reference, the protocol processing unit 219 controls input / output of wireless LAN packets by a wireless MAC protocol such as IEEE802.11a / b / g of the wireless LAN standard. The wireless LAN packet processed by the protocol processing unit 219 is transmitted to the packet processing unit for processing with a WiBro packet thereafter.

  The wireless LAN module 210 having the above-described configuration is necessary for receiving the wireless LAN packet transmitted from the terminals 100 and 110 in the power saving mode in which the operating power is completely cut off under the control of the main control unit 220. Power is supplied only to the signal reception units such as the duplexer 211, the reception unit 215, and the signal reception processing end of the modem 217 to save power consumption in the standby mode.

On the other hand, referring to FIG. 4, the configuration of the WiBro communication module 230 will be described.
The WiBro communication module 230 also has an antenna for transmitting and receiving radio signals to and from the WiBro base station 300, and a duplexer 231 for separating a transmission signal and a reception signal from a signal transmitted and received through the antenna, and a reception signal separated by the duplexer 231. A receiving unit 235 for transmitting to the modem 237, a transmitting unit 233 for transmitting the transmission signal transmitted by the modem 237 through the duplexer 231, and a protocol processing unit 239 for executing the mobile Internet connection with the Wibro base station 300 Including. In addition, a memory for buffering transmission / reception packets is further included.

  The WiBro communication module 230 is intermittently supplied with operation power in the maximum power saving mode and the power saving mode under the control of the main controller 220. More specifically, the WiBro communication module 230 is supplied with the operating power only when it is necessary to periodically collect the channel state information of the WiBro network, and the operating power is cut off during other time intervals.

  Hereinafter, with reference to FIG. 5, the power management control operation of the main control unit 220 will be described more specifically. In the following, it is assumed that the battery included in the power supply unit 250 is buffered and the system operation power is supplied from the battery.

  FIG. 5 is a diagram illustrating a power management system of a portable wireless Internet connection repeater 200 according to an embodiment of the present invention.

  Referring to FIG. 5, first, the main controller 220 requests the Wibro communication module 230 to collect channel state information (step S1). The WiBro communication module 230 that is requested to collect channel state information, such as received field strength (RSSI) and signal-to-interference and noise ratio (CINR), is transmitted through signals transmitted to and received from the WiBro base station 300. Obtain channel state information (step S2). Then, the WiBro communication module 230 transmits a response to the acquisition / non-acquisition of the channel state information to the main control unit 220.

  The main control unit 220 determines that the WiBro communication possible area is obtained if the channel state information is normally acquired. If not, the main control unit 220 determines that the WiBro communication shadow area is obtained. If it is determined in step S3 that the channel state information cannot be collected, the repeater function cannot be executed, and the main controller 220 sets the system power mode to the maximum power saving mode ( Step S4). In the maximum power saving mode, the main control unit 220 controls the power supply control unit 240 to completely cut off the power supplied to the wireless LAN module 210 (step S5). As a result, in the area where the Wibro communication is shaded, the power supply itself supplied to the wireless LAN module is cut off, so that the power consumed by the wireless LAN module can be reduced so much.

  On the other hand, the main controller 220 that cuts off the power supply of the wireless LAN module 210 supplies the operation power only when it is necessary to periodically collect the channel state information of the WiBro network, and operates in the remaining time interval. Shut off the power supply (steps S6 and S7). In other words, power is supplied at the time of requesting collection of channel state information, and the power supply is cut off when a response is received. During this process, if the channel status information is acquired and it is determined that the WiBro communication is possible (step S8), the process proceeds to step S10 to set the power mode of the system to the power saving mode. If it is found, steps S6 to S8 are repeatedly executed. That is, the present invention supplies the operating power to the WiBro communication module 230 only at a time point for determining whether or not the WiBro communication is possible even in the maximum power saving mode, and cuts off the power in other time intervals. Maximum power saving effect is obtained. For reference, in the power saving mode, power is supplied only to the signal receiving unit necessary for the wireless LAN module 210 to receive packets transmitted from the mobile terminals 100 and 110. This is to respond to events from the mobile terminals 100 and 110.

  If it is determined that the communicable area is in the maximum power saving mode and the process proceeds to step S10, the main control unit 220 determines whether an event such as an Internet call request is transmitted from the Wibro network (step S11). To do. If there is no event as a result of the determination, the wireless LAN module 210 supplies power only to a part of the power supply, for example, a signal receiving unit necessary for receiving packets transmitted from the mobile terminals 100 and 110 (step S12). In order to reduce power consumption even in such a power saving mode, the process proceeds to step S6 and the process up to step S12 is repeatedly executed.

  On the other hand, if an event signal is generated in the power saving mode, the main control unit 220 sets the power mode to the active mode (step S13) and supplies the wireless LAN module 210 and the WiBro communication module 230 with normal system operating power. Supply (step S14). Here, the portable wireless Internet connection repeater 200 exchanges wireless LAN packets and Wibro packets transmitted / received between the portable terminals 100 and 110 and the WiBro network, thereby transmitting the wireless LAN packet and the WiBro packet. A wireless connection to the Internet network can be made through 200.

  As described in the above embodiments, the present invention is unnecessary in an environment where the function of the repeater cannot be performed in order to completely shut off the power supplied to the wireless LAN module in the area where the WiBro communication is shaded. In other words, it is possible to basically prevent the wasteful use of power consumed by activating the wireless LAN module and to extend the battery usable time.

  Further, the present invention intermittently controls the operation power of the WiBro communication module in the maximum power saving mode set in an area where WiBro communication is not possible, but is necessary for periodically collecting the channel status information of the WiBro network. The power consumption in the standby mode can be minimized by controlling to cut off the power supply of a part of the WiBro communication module during the time except for a certain time.

  And even in the power saving mode set in the area where WiBro communication is possible, the operation power supply of the WiBro communication module is intermittently controlled to be cut off, except for the time required to periodically collect the channel status information of the WiBro network. This also minimizes the power consumption in the standby mode in order to control to cut off the power of a part of the WiBro communication module during the time. That is, the present invention can be said to be a useful invention that can reduce power consumption in the standby mode.

  As described above, the present invention has been described with reference to the embodiments illustrated in the drawings. However, the present invention is merely exemplary, and those skilled in the art will recognize that various modifications and equivalent other implementations are possible. It will be understood that the form is possible. Therefore, the true technical protection scope of the present invention should be determined by the claims.

  The present invention is applicable to a technical field related to a wireless Internet connection repeater.

100: PDA 110: Mobile phone 200: Wireless Internet connection repeater 300: Wibro base station 210: Wireless LAN module 220: Main control unit 230: Wibro communication module 240: Power supply control unit 250: Power supply unit 211, 231: Duplexer 213 233: transmission unit 215, 235: reception unit 217, 237: modem 219, 239: protocol processing unit

Claims (6)

In a portable wireless Internet connection repeater including a wireless LAN module and a Wibro communication module,
Including a rechargeable battery, and a power supply for supplying the battery power to each part of the system;
A main control unit for determining a Wibro communication shade area, setting one of a number of power supply modes according to the determination result, and selectively controlling the power supply of each part of the system according to the setting mode,
A portable wireless Internet connection repeater comprising: a power supply control unit for controlling a power supply path supplied to each part of the system under the control of the main control unit. The main control unit
2. The portable wireless Internet connection repeater according to claim 1, wherein a maximum power saving mode is set in a Wibro communication shaded area, and the power supplied to the wireless LAN module is completely cut off. The main control unit
The operation power supply of the WiBro communication module is intermittently cut off in the maximum power saving mode, but the cut off control is performed during the time except for the time necessary for periodically collecting the channel state information of the WiBro network. The portable wireless Internet connection repeater according to claim 2. The main control unit
The power saving mode is set in the area where WiBro communication is possible, and the operation power of the WiBro communication module is intermittently controlled. However, the time except for the time required to periodically collect the channel status information of the WiBro network is excluded. The portable wireless Internet connection repeater according to claim 1, wherein shut-off control is performed in between. The main control unit
5. The portable wireless Internet connection according to claim 4, wherein power supply is controlled only to a signal receiving unit necessary for receiving a packet transmitted from a portable terminal in the wireless LAN module in a power saving mode. Repeater. The main control unit
6. The portable wireless Internet connection repeater according to claim 4 or 5, wherein an active mode is set when a packet is received in the power saving mode, and normal power supply is controlled to the WiBro communication module and the wireless LAN module. .

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