KR20110092938A - Dual band dual mode modem and method for performing handover of dual band dual mode modem - Google Patents

Abstract

PURPOSE: A method for performing a handover of the dual band dual mode modem is provided to perform handover between two modems without using a USB hub which needs a power supply. CONSTITUTION: A UICC(Universal Integrated Circuit Card)(170) comprises a subscriber identification module. The UICC is connected to a first modem. The UICC is initialized through the first modem. A USB switch(110) offers an interface with an external device. The USB switch switches a USB connection between the external device and a modem based on the control of the external device.

Description

DUAL BAND DUAL MODE MODEM AND METHOD FOR PERFORMING HANDOVER OF DUAL BAND DUAL MODE MODEM}

The present invention relates to a dual band dual mode modem, and more particularly, a dual band dual mode modem and a dual band dual mode modem which can be applied to an external dual band dual mode modem capable of switching between two modems without a separate battery. It relates to a handover method of.

As the mobile communication technology develops, communication of multiple access networks including various access networks, such as code division multiple access 2000 (CDMA2000), wideband CDMA (WCDMA), high-speed packet access (HSPA), and wireless broadband (WIBRO) As the environment is established, mobile communication terminals supporting multiple communication modes, such as terminals having dual band dual mode (hereinafter, abbreviated as 'DBDM') functions, are commercialized and users are using these terminals. The variety of mobile communication services that can be selected has been diversified.

In addition, as the use of portable computing devices such as notebooks, netbooks, and personal digital assistants (PDAs) increases, modems supporting the above-mentioned multiple communication modes are embedded in the portable computing device or a separate external modem is mounted on the portable computing device. Wireless data services such as wireless internet or mobile internet can be used regardless of whether or not you are traveling.

For example, if an external DBDM modem with two modems capable of connecting to HSDPA and WIBRO networks is attached to a portable computing device such as a netbook or a PDA, the user can use the wireless Internet (or the portable Internet) anytime, anywhere.

However, the conventional DBDM modem has a structure in which power that is not currently used among two modems corresponding to each communication mode is cut off, so switching between the two modems is impossible and thus continuity of data service cannot be guaranteed. There is this.

Or, if you use a USB hub to enable switching between two modems, the external device that powers the USB hub because of the power consumed by the USB hub (for example, a laptop with an external DBDM modem) Or a netbook) may cause an error due to power instability, and in order to prevent such an external device from failing, a battery capable of separately providing power consumed by the USB hub must be installed in the external DBDM modem. In addition, when a battery is installed in an external DBDM modem, a power supply circuit for charging the battery is additionally required, and the overall size of the external DBDM modem is increased due to the battery and the power supply circuit of the battery. There is a disadvantage that the lowering, the manufacturing cost is increased due to the additionally installed electronic device.

Accordingly, it is an object of the present invention to provide a dual band dual mode modem capable of handover between two modems and ensuring continuity of data service without having a USB hub requiring a battery.

Another object of the present invention is to provide a handover method of a dual band dual mode modem which is not provided with a USB hub.

A dual band dual mode modem according to an aspect of the present invention for achieving the above object of the present invention, the first modem to connect to the first network, the second modem to connect to the second network, subscriber authentication module And provide an interface with a universal intergrated circuit card (UICC) and an external device connected to the first modem and initialized through the first modem, and based on the control of the external device, the first modem and the second modem And a USB switch for switching a USB connection between any one of the modems and the external device. When the handover is performed from the second modem to which the USB connection is established with the external device, the first modem may be executed. Transmits and receives data with the external device through the second modem. The first modem and the second modem may transmit and receive data through a secure digital input output (SDIO) interface. When the power level of the signal received from the second network is smaller than the first threshold value, the second modem is connected to the first modem according to the control of the external device when a data connection with the second network is established. An over request message can be provided. The second modem has a power level of a signal received from the second network in a state in which a data connection with the second network is established, and the power consumption of the first modem predicted by the external device is smaller than the first threshold value. If it is smaller than a second preset threshold, a handover request message may be provided to the first modem according to the control of the external device. The power consumption of the first modem may be estimated by referring to a power consumption table corresponding to the current consumption of each transmission power of the first modem. After transmitting the handover request message to the first modem, the second modem receives a location registration success message from the first modem and provides the received location registration success message to the external device through the USB connection. Can be. When the first modem receives a handover request message from the second modem in a low power mode state, the first modem performs a location registration procedure and a data connection procedure in a first network after the state transitions to an active mode, and the result is determined by the second modem. It can be provided to the external device through a modem.

In addition, the handover method of the dual-band dual-mode modem in accordance with an aspect of the present invention for achieving the above object of the present invention comprises the steps of determining the handover conditions of the second modem and the data connection is established with the second network; Providing a handover request message from the second modem to the first modem when the handover condition of the second modem is satisfied; and corresponding to the handover request message, the first modem connects to the first network. Performing a location registration and data connection procedure; when the first modem has successfully registered the location and data connection, the second modem releasing data connection with the second network; And providing the data received from the first network to the external device through the second modem. The determining of a handover condition of a second modem in which a data connection is established with the second network may include: comparing, by the external device, a power level of a signal received from the second network with a preset first threshold value; Estimating power consumption of the first modem when the level is less than the first threshold value and comparing the predicted power consumption of the first modem with a second preset threshold value. When the power level is smaller than the first threshold, estimating power consumption of the first modem may include referring to a power consumption table in which the external device corresponds to the current consumption of each transmission power of the first modem. The power consumption of the first modem may be estimated. Providing a handover request message from the second modem to the first modem when the handover condition of the second modem is satisfied, wherein the second modem receives the handover request message from the external device. And providing the handover request message provided by the second modem to the first modem through an SDIO interface. In response to the handover request message, the first modem performing a location registration and data connection procedure with the first network may include: entering the first modem from the low power mode to the activation mode according to the handover request message; Transitioning, the first modem performing location registration with the first network; if the location registration is successful, the first modem performing a data connection procedure with the first network; And providing a handover complete message to the external device through the second modem when the modem successfully connects to the data. The providing of the data received from the first network by the first modem to the external device through the second modem may include: receiving the data from the first network by the first modem; Providing the data provided from the first network to the second modem via an SDIO interface and the second modem providing the data provided from the first modem to the external device via a USB connection. have.

According to the handover method of the dual-band dual-mode modem and dual-band dual-mode modem as described above, the signal strength from the WIBRO network is greater than the first threshold value while the data connection is established with the WIBRO network to provide data service. Small and the estimated power consumption of the HSPA modem is less than the second threshold, the HSPA modem establishes a location registration and data connection to the HSPA network to perform a handover, and when the handover is complete, the HSPA modem and the WIBRO modem The connection management unit of the WIBRO modem and the external device is connected via a USB connection to provide HSPA data service to the external device via the WIBRO modem. Thus, handover between two modems is possible without a USB hub requiring a battery, and continuity of data service can be guaranteed.

1 is a block diagram showing the configuration of a DBDM modem according to an embodiment of the present invention.
2 is a flowchart illustrating a handover method of a DBDM modem according to an embodiment of the present invention.
3 is a flowchart illustrating a handover method of a DBDM modem according to an embodiment of the present invention.

As the present invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description.

However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be interpreted in an ideal or overly formal sense unless explicitly defined in the present application Do not.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention. In the following description of the present invention, the same reference numerals are used for the same elements in the drawings and redundant descriptions of the same elements will be omitted.

Hereinafter, the DBDM modem according to an embodiment of the present invention will be described as an external modem that can be connected to an external device such as a netbook, notebook, PDA, etc. through a universal serial bus (USB) interface.

1 is a block diagram illustrating a configuration of a DBDM modem according to an embodiment of the present invention, and shows a state in which a data connection is established with a second network in an active mode of a second modem.

1, a DBDM modem 100 according to an embodiment of the present invention may include a USB switch 110, a first modem 130, a second modem 150, and a UICC (Universal Integrated Circuit Card; 170). It may include, and may be controlled by the connection management unit 11 provided in the external device (10).

The connection manager 11 may be installed in the form of a software program on the external device 10 to control network connection of each of the first modem 130 and the second modem 150, and the connection priority. It provides a function that allows the user to select.

In addition, the connection manager 11 controls the initialization of the UICC 170 through the first modem 130, and the state transition (activation mode or low power mode) condition of the first modem 130 and the second modem 150 Determine and control the state transition of each modem and the switching operation of the USB switch 110 according to the determination result. Here, the low power mode (LPM) refers to a state in which power is supplied to the modem, but most of the electric elements constituting the modem become inactive and consume substantially no power, and the activation mode is low power. This means that all the electrical components that make up the modem in a non-mode state are activated and the modem is in an operational state or operating state.

The connection manager 11 compares the received signal power of the modem which is currently in the activation mode and is providing the data service with a preset first threshold value, and when the power level of the received signal is less than the first threshold value, the connection manager 11 is formed in advance. After estimating the power consumption of the other modem currently in the low power mode based on the power consumption table and determining that the power consumption of the other modem is less than the second preset threshold, the modem in the currently active mode is placed in the low power mode. Transition the state and transition the state of the modem that is in the low power mode to active mode. Here, the power consumption table refers to a table that corresponds to the current consumption corresponding to each transmission power of the HSPA modem, the transmission power of the HSPA modem 130 is provided from the currently connected network (for example, WIBRO network) Can be obtained through system information.

In addition, the connection manager 11 switches a USB connction according to whether the first modem 130 and the second modem 150 are handed over, so that the first modem 130 or the second modem 150 is switched. And a data path between the external device 10. For example, when the DBDM modem is connected to an external device and powered on for the first time, the connection manager 11 switches the USB connection to the first modem 130 to perform initialization of the UICC 170 and then the first modem. When handover is performed from 130 to the second modem 150, the USB connection may be switched from the first modem 130 to the second modem 150. However, when the handover is performed from the second modem 150 to the first modem 130, the connection manager 11 does not switch the USB connection, but the first connection through the second modem 150 with the USB connection established. The data connection service of the modem 130 may be provided.

The USB switch 110 performs an interface function of providing a data connection and a power supply path between the external device 10 and the DBDM modem 100, and controls the control signal provided from the connection manager 11 of the external device 10. Correspondingly, switching the USB connection between the connection management unit 11 and the first modem 130 or the second modem 150, from the external device 10 to the first modem 130 and the second modem 150 Switch the power supply.

The first modem 130 may be configured as, for example, an HSPA modem. When the power is applied to the DBDM modem 100, the first modem 130 receives power from the external device 10 through the USB switch 110. Here, when the DBDM modem 100 is connected to the external device 10 to receive power for the first time from the external device 10, the power is supplied only to the first modem 130 without supplying power to the second modem 150. In response to the control of the connection manager 11, the USB switch 110 switches between the first modem 130 and the connection manager 11 of the external device 10 by switching the USB connection to the first modem 130. A data path is formed.

After the power is applied, the first modem 130 initializes the UICC 170 according to the control of the connection manager 11, and when the initialization of the UICC 170 is completed, the external device 10 through the USB connection. The connection management unit 11 of the notification.

In order to initialize the UICC 170 as described above, the first modem 130 may include a UICC interface 135 for interfacing with the UICC 170. The UICC interface 135 may include a universal asynchronous receiver (UART). / Transmitter) or USB interface.

In addition, the first modem 130 performs location registration with the first network (for example, HSPA network) under the control of the connection manager 11, and the second modem 150 has an activation mode. When the data connection is established, the state may be changed to the low power mode under the control of the connection manager 11. To this end, the first modem 130 may include a first modem control unit 131, and the first modem control unit 131 may correspond to a control signal provided from the connection management unit 11 of the first modem 130. If a function (eg, location registration, data connection / disconnection) is controlled and data is read and recorded from the UICC 170, a corresponding command may be provided to the UICC interface 135.

In addition, the first modem 130 may include a first state control unit 133, and the first state control unit 133 may include the second state control unit 153 of the second modem 150 and Secure Digital (SDIO). Input Output) interface can send and receive data. For example, when the first modem 130 receives the handover request message from the second modem 150 when the first modem 130 is in the low power mode state, the first state controller 133 may change the state of the first modem 130 to low power. Mode to the activation mode, and when the handover is performed from the second modem 150 to the first modem 130, data received from the first network is provided to the second state controller 153 through the SDIO interface. do. Also, the first state controller 153 may provide the first modem controller 131 with control commands provided from the connection manager 11 through the second modem 153.

The second modem 150 may be configured, for example, as a WIBRO modem. When power is first applied to the DBDM modem 100, power may be supplied only when the second modem 150 satisfies a condition for the second modem 150 to transition to the active mode without power. . Here, the connection manager 11 may determine whether the condition for the state transition of the second modem 150 is satisfied, and the connection manager 11 may access the first network (eg, through the first modem 130). A specific field (eg, Cell_ID) of system information (eg, SIB 3) received from the HSPA network) includes second network information (eg, WIBRO_Indication) corresponding to the second modem 150. In this case, as shown in FIG. 1, power is also supplied to the second modem 150. In addition, when the signal strength of the second network (eg, the WIBRO network) to which the second modem 150 is connected exceeds the preset threshold, the connection controller 11 controls the USB switch 110 to control the USB. Switching the connection from the first modem 130 to the second modem 150 forms a data path between the external device 10 and the second modem 150.

In addition, the second modem 150 controls the second modem controller 151 for controlling the functions (eg, data connection / release setting) of the second modem 150 according to the control of the connection manager 11. It may include a second state control unit 153 for transmitting and receiving state information and data through the SDIO interface and the first state control unit 133 of the first modem 130.

For example, when the handover is performed from the second modem 150 to the first modem 130 and the USB connection is established to the second modem 150, the second state controller 153 may use the first modem 130. After receiving the data provided from the SDIO interface via the second modem control unit 151 may be provided to the connection management unit 11, the data provided from the connection management unit 11 through the second modem control unit 151 SDIO The first modem 130 may be provided through an interface.

The UICC 170 may include a subscriber authentication module such as a subscriber identity module (SIM), a universal SIM (USIM), a WiBRO SIM (WSIM), and network connection related information, and is initialized through the first modem 130. .

2 is a flowchart illustrating a handover method of a DBDM modem according to an embodiment of the present invention, and FIG. 3 is a flowchart illustrating a handover method of a DBDM modem according to an embodiment of the present invention. In FIGS. 2 and 3, for convenience of description, the first modem 130 is an HSPA modem connected to an HSPA network, and the second modem 150 is a WIBRO modem connected to a WIBRO network. The operation of the DBDM modem is shown when the handover is performed from the network to the HSPA network and after the handover is performed.

2 and 3, while a data connection is established between the WIBRO modem 150 and the WIBRO network to provide a WIBRO data service (step 210), the connection manager 11 transmits power of a signal received from the WIBRO network. The level is compared with a preset first threshold value TH1 (step 220). The power level of the received signal may be obtained based on a carrier to noise and interference ratio (CNIR) or a received signal strength indication (RSSI).

In step 210, both the WIBRO modem 150 and the HSPA modem 130 are powered, but the WIBRO modem 150 is in an active mode and the HSPA modem 130 is in a full power mode. In addition, the USB connection via the USB switch 110 is established between the WIBRO modem 150 and the connection manager 11 of the external device 10.

If it is determined in step 220 that the power level of the signal received from the WIBRO network is less than the first threshold value TH1, the connection manager 11 predicts the power consumption of the HSPA modem 130 with reference to a previously stored power consumption table. (Step 230), and compares the predicted power consumption of the HSPA modem 130 with the second preset threshold TH2 (step 240).

If it is determined in step 220 that the power consumption of the HSPA modem 130 predicted is smaller than the second threshold value TH2, the connection manager 11 requests a handover from the WIBRO to the HSPA (step 250).

Specifically, the connection manager 11 provides a handover request signal to the WIBRO modem 150 through the established USB connection (step 251), and the WIBRO modem 150 sends a handover request signal to the HSPA modem through the SDIO interface. Provide (step 253).

Upon receiving the handover request signal from the WIBRO modem 150, the HSPA modem 130 performs location registration with the HSPA network (step 260). In detail, the HSPA modem 130 first performs a location registration with the HSPA network after the state transition from the low power mode to the activation mode after the handover request signal is provided (step 261).

The HSPA modem 130 then establishes a data connection with the HSPA network (step 270). Here, the HSPA modem 130 receives the data connection request signal provided from the connection manager 11 through the SDIO interface connected with the WIBRO modem 150, transmits an Activate PDP Context Request message to the HSPA network, and activates the HSPA network from the HSPA network. By receiving the PDP Context Accept message, you can establish a data connection with the HSPA network.

When the data connection is established with the HSPA network as described above, the HSPA modem 130 provides a handover complete message to the WIBRO modem via the SDIO interface (step 271), and the WIBRO modem 150 connects it via a USB connection. Provided to the management unit 11 (step 273).

Thereafter, the WIBRO modem 150 releases the data connection with the WIBRO network under the control of the connection manager 11 (step 280). Here, the WIBRO modem 150 may release a data connection with the WIBRO network by transmitting a Deactivate PDP context request to the WIBRO network and receiving a Deactivate PDP Context Accept message from the WIBRO network.

As described above, when the handover from the WIBRO modem 150 to the HSPA modem 130 is completed, the connection management unit 11 of the HSPA modem 130 and the external device 10 is connected through the WIBRO modem 150 to provide HSPA data. Provide a service (step 290). For example, when the HSPA modem 130 receives data from the HSPA network (step 291), the HSPA modem 130 provides the received data to the WIBRO modem 150 via the SDIO interface (step 293), and the WIBRO The modem 150 provides the external device 10 via a USB connection (step 295). Alternatively, when data is transmitted from the external device 10 to the HSPA network, first, when the external device 10 provides data to be transmitted to the WIBRO modem 150 through a USB connection (step 295), the WIBRO modem 150 Data to be transmitted to the HSPA modem 130 is transmitted through the SDIO interface (step 293), and the HSPA modem 130 transmits the received data to the HSPA network (step 291).

2 and 3, in the DBDM modem handover method according to an embodiment of the present invention, the signal strength from the WIBRO network is preset while the data connection is established with the WIBRO network. If the threshold is less than 1 and the estimated power consumption of the HSPA modem is less than the second threshold, the HSPA modem establishes a location registration and data connection to the HSPA network to perform a handover, and when the handover is complete, the HSPA modem and the WIBRO modem Is connected via the SDIO interface and the connection management unit of the WIBRO modem and the external device is connected via a USB connection to provide HSPA data service to the external device via the WIBRO modem.

Although described with reference to the embodiments above, those skilled in the art will understand that the present invention can be variously modified and changed without departing from the spirit and scope of the invention as set forth in the claims below. Could be.

10: external device 11: connection management unit
100: DBDM modem 110: USB switch
130: first modem 131: first modem control unit
133: first state control unit 135: UICC interface
150: second modem 151: second modem control unit
153: second state control unit 170: UICC

Claims (13)

A first modem connecting to the first network;
A second modem connecting to a second network;
A Universal Intergrated Circuit Card (UICC) including a subscriber authentication module and connected to the first modem and initialized through the first modem; And
A USB switch providing an interface with an external device, the USB switch switching a USB connection between one of the first modem and the second modem and the external device based on control of the external device;
Dual handset dual mode characterized in that when the handover is performed from the second modem to the first modem to establish a USB connection with the external device, the first modem transmits and receives data with the external device through the second modem. modem. The method of claim 1,
And the first modem and the second modem transmit and receive data through a secure digital input output (SDIO) interface. The method of claim 1,
When the power level of the signal received from the second network is smaller than the first threshold value, the second modem is connected to the first modem according to the control of the external device when a data connection with the second network is established. A dual band dual mode modem, characterized by providing an over request message. The method of claim 3,
The second modem has a power level of a signal received from the second network in a state in which a data connection with the second network is established, and the power consumption of the first modem predicted by the external device is smaller than the first threshold value. And providing a handover request message to the first modem in response to the control of the external device when smaller than a second preset threshold. The method of claim 4, wherein
The power consumption of the first modem is a dual-band dual mode modem, characterized in that predicted by referring to the power consumption table corresponding to the current consumption for each transmission power of the first modem. The method of claim 4, wherein
The second modem transmits a handover request message to the first modem, and then receives a location registration success message from the first modem and provides the received location registration success message to the external device through the USB connection. Dual band dual mode modem, characterized in that. The method of claim 1,
When the first modem receives a handover request message from the second modem in a low power mode state, the first modem performs a location registration procedure and a data connection procedure in a first network after the state transitions to an active mode, and the result is determined by the second modem. Dual-band dual-mode modem, characterized in that provided to the external device via a modem. In the handover method of a dual band dual mode modem including a first modem and a second modem,
Determining a handover condition of a second modem in which data connection with the second network is established;
Providing a handover request message from the second modem to the first modem when the handover condition of the second modem is satisfied;
Performing, by the first modem, a location registration and data connection procedure on a first network in response to the handover request message;
Disconnecting, by the second modem, the data connection with the second network when the first modem has successfully registered the location and data connection; And
And providing, by the first modem, data received from the first network to the external device through the second modem. The method of claim 8, wherein the determining of the handover condition of the second modem in which the data connection is established with the second network comprises:
Comparing, by the external device, a power level of a signal received from the second network with a preset first threshold value;
Estimating power consumption of the first modem when the power level is less than the first threshold; And
And comparing the predicted power consumption of the first modem with a second predetermined threshold value. 10. The method of claim 9, wherein estimating power consumption of the first modem when the power level is less than the first threshold,
And an external device predicts the power consumption of the first modem by referring to a power consumption table corresponding to the current consumption of each transmission power of the first modem. The method of claim 8, wherein when the handover condition of the second modem is satisfied, providing a handover request message from the second modem to the first modem may include:
Receiving, by the second modem, the handover request message from the external device; And
And providing the handover request message provided by the second modem to the first modem through an SDIO interface. The method of claim 8, wherein the first modem performs a location registration and data connection procedure on a first network in response to the handover request message.
Transitioning a state from the low power mode to the activation mode in response to the handover request message;
The first modem performing location registration with the first network;
The first modem performing a data connection procedure with the first network when the location registration is successful; And
And providing a handover complete message to the external device through the second modem when the first modem succeeds in data connection. The method of claim 8, wherein the first modem provides data received from the first network to the external device through the second modem.
The first modem receiving data from the first network;
Providing, by the first modem, data provided from the first network to the second modem via an SDIO interface; And
And providing, by the second modem, data provided from the first modem to the external device through a USB connection.

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