KR20060102674A - Improved SIM card access device and method for reducing handoff time of mobile communication terminal - Google Patents

Abstract

The present invention provides an improved SIM card access apparatus and method for reducing the handoff time of a mobile communication terminal. To this end, the present invention provides at least two modem chips for providing different network services, a data bus capable of exchanging authentication data stored in a SIM card between the modem chips, and switching of the modem chips. And a control unit for controlling providing authentication data to the modem chips. The controller checks whether a connection is possible to a network according to a main mode set by a user through the base station according to a signal received from a base station to be handed over, and requires modem chip switching according to the check result. In this case, the authentication data stored in the SIM card can be provided to another modem chip from the modem chip currently being used. Accordingly, the present invention can reduce the hand-off time that occurs when switching the modem chip in the mobile communication terminal.

Dual mode mobile communication terminal, modem chip switching

Description

IMPROVED SUBSCRIBER IDENTIFICATION MODULE CARD ACCESS APPARATUS AND METHOD FOR REDUCING HAND OFF TIMING IN MOBILE TERMINAL

1 is a block diagram of an apparatus for accessing a SIM card of a conventional dual mode mobile communication terminal;

2 is an exemplary diagram of a base station providing a current CDMA service and a base station providing a WCDMA service;

3 is a block diagram of an SIM card access device according to an embodiment of the present invention;

4 is a flowchart illustrating a process of a modem chip switching operation in an SIM card access device according to an embodiment of the present invention;

5 is a flowchart illustrating an operation of switching to a CDMA modem chip according to whether a base station supports WCDMA service in a SIM card access device according to an embodiment of the present invention;

6 is a flowchart illustrating an operation of switching to a WCDMA modem chip according to whether a base station supports WCDMA service in a SIM card access device according to an embodiment of the present invention.

The present invention relates to an apparatus for accessing a subscriber identification module (SIM) card, and more particularly, to an apparatus for accessing a SIM card in a mobile communication terminal using two or more modem chips.

Here, the SIM card is used in a mobile communication terminal of a Global System for Mobile communication (GSM) type, and includes various information generally called subscriber information. These SIM cards allow authentication such as IMSI (International Mobile Subscription ID), key authentication data, and phone number information to limit the use of users who are not registered on the network by checking whether the user is registered on the network or not. Data is stored, and the authentication data is used in a location registration process that allows a user to use a mobile communication terminal by registering a location of the user's mobile communication terminal at a base station. Accordingly, the SIM card is an essential component of a GSM mobile communication terminal or a mobile communication terminal of a wideband code division multiple access (WCDMA) system developed in such a GSM method.

In general, the WCDMA scheme provides a much wider bandwidth than the conventional CDMA scheme by using a wideband frequency. Accordingly, the WCDMA scheme enables the provision of high speed data communication or video telephony services. However, despite the advantages of the WCDMA scheme, there is currently no nationwide WCDMA network. Accordingly, the WCDMA mobile communication terminal has a large number of shaded areas and does not guarantee the call quality. Also, when the mobile terminal moves from one base station to another base station, the base station to hand over to Because of the lack of WCDMA network services, users could not even make voice calls.

Therefore, the CDMA modem chip using the CDMA method and the WCDMA modem using the WCDMA method can be used in a place where the WCDMA service is not supported, so that the CDMA service can be used to compensate for the disadvantages of the WCDMA mobile communication terminal. A mobile communication terminal (hereinafter referred to as a dual mode mobile communication terminal) including both modem chips, such as a chip, and switching and using each modem chip as necessary, is now emerging. In the dual mode mobile communication terminal, in order for a modem chip to be connected to a network for communication, a location registration process for registering a location of the current mobile communication terminal in the network is required. The location registration process can be performed by the modem chip receiving authentication data from the SIM card and providing it to the base station through the corresponding network. Therefore, in a dual mode mobile communication terminal having two or more modem chips, the authentication data stored in the SIM card is provided to any one modem chip selected through modem chip switching.

FIG. 1 is a block diagram illustrating a SIM card access device for providing authentication data provided from a SIM card to a modem chip in a conventional dual mode mobile communication terminal. Referring to FIG. 1, the SIM card access apparatus of a conventional dual mode mobile communication terminal includes a modem unit 102, a switch unit 108, and a SIM card interface 110 including a control unit 100 of a dual mode mobile communication terminal. Is connected to. Here, the control unit 100 controls each component of the mobile communication terminal, performs an operation according to a user's key input, and controls the modem unit 102 to control the first modem chip 104 and the second modem. Any modem chip among the chips 102 is selected as necessary. The controller 108 controls the switch unit 108 to provide authentication data of the SIM card input from the SIM card interface 110 to the selected modem chip to perform location registration with the base station through the currently selected modem chip. .

Therefore, in the SIM card access apparatus of the conventional dual mode mobile communication terminal, the control unit 100 allows the authentication data to be input to the selected modem chip under the control of the switch unit 108. Accordingly, in the conventional dual mode mobile communication terminal, when the switching of the modem chip occurs, the authentication data is no longer provided to the modem chip connected before the modem chip switching occurs. Therefore, the modem chip is no longer able to transmit the location registration signal to the base station, and thus is disconnected from the network according to the modem chip and cannot communicate.

FIG. 2 is a diagram illustrating an example in which the dual mode mobile communication terminal 208 having the conventional SIM card access device shown in FIG. 1 moves from a cell that supports WCDMA service to a cell that does not support WCDMA. Referring to FIG. 2, if the mobile communication terminal 208 moves from the cell 206 of the base station 204 capable of WCDMA service to the cell 202 of the base station 200 disabled of the WCDMA network service, If the terminal 208 is connected to the WCDMA network, the mobile communication terminal 208 receives a signal from the base station 200 to move to, in the inter-cell overlapping region 210, indicating that WCDMA service is unavailable.

Then, the control unit 100 of the mobile communication terminal 208 switches the authentication data providing path provided to the WCDMA modem chip in order to connect from the WCDMA network to the CDMA network, so that the authentication data stored in the SIM card is transferred to the CDMA modem chip. To be provided. In this case, since the authentication data of the SIM card is stopped in the WCDMA modem chip as described above, the WCDMA network is disconnected from the connected WCDMA network. The control unit 100 of the mobile communication terminal 208 provides the CDMA modem chip with the authentication data stored in the SIM card to register the location in the CDMA network. Accordingly, the mobile communication terminal 208 is connected to the CDMA network. .

Therefore, in the conventional dual-mode mobile communication terminal, when the modem chip switching is performed at the time of handover, the modem chip according to the available network is first selected from the base station to be handed over, and the authentication data stored in the SIM card in the selected modem chip. The authentication data is provided to either modem chip by switching the path of providing. Therefore, in the conventional dual-mode mobile communication terminal, when the modem chip switching occurs, the location registration of the mobile communication terminal is performed again with the new network after the connection with the currently connected network is lost. There is a problem in that a hand-off time occurs until a location registration is completed in a new network.

In addition, as described above, the conventional dual-mode mobile communication terminal, so that the authentication data can be provided only to any one of the modem chip, in order to check whether it is possible to connect to other networks in addition to the network currently connected at the time of handover. Modem chip switching was the only way to disconnect from the currently connected network and then try to connect to the new network. Therefore, such a conventional dual-mode mobile communication terminal requires more time to reconnect to the network connected before the modem chip switching, unless the new network is connected through the newly switched modem chip. There is a problem.

It is therefore an object of the present invention to provide an improved SIM card access apparatus and method for reducing hand-off time that occurs when switching a modem chip in a dual-mode mobile communication terminal during handover.

An apparatus of the present invention for achieving the above object, at least two modem chips for providing a different network connection, and at least one connected between the modem chips to exchange authentication data stored in the SIM card In the first network to which the data bus and the mobile communication terminal are currently connected, when a handover occurs to the second network, the first modem chip for the first network to the second modem chip. A control unit configured to control the authentication data to be transmitted, perform location registration to the second network using the second modem chip, and switch the first modem chip to the second modem chip if the location registration is successful. It includes a control unit characterized in that it comprises a.

In addition, if the mobile communication terminal needs handover, the method checks the network service supported by the base station from the base station to be handed over, and determines whether to switch between modem chips according to the check result. And providing authentication data to a second modem chip not currently in use, through the first modem chip currently used by the mobile terminal, according to the modem chip switching determination result. A location registration step of performing location registration on a network capable of being supported by the base station through the second modem chip using authentication data; and after completion of the location registration, a modem that switches the first modem chip to the second modem chip. Chip switching step.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are denoted by the same reference numerals wherever possible. In the following description and the annexed drawings, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

First of all, in order to help a full understanding of the present invention, the basic principles of the present invention will be described. In the present invention, at least two modem chips for providing at least different network services and authentication data of a SIM card between the modem chips are provided. And a control bus controlling switching of the modem chips and providing the authentication data to the modem chips. In response to the signal received from the base station to be handed over, the controller checks whether the base station to be handed over can be connected to the network according to the main mode set by the user. The authentication data from the modem chip being used is provided to the modem chip to be switched in the future.

And it is possible to connect to the network according to the modem chip by checking whether it is currently connectable to the network according to the modem chip to be switched, and if the connection is possible by performing a location registration process to the network service according to the modem chip. When the location registration process is completed, the modem chip switching operation is performed and the authentication data can be directly input to the currently switched modem chip. Therefore, in the present invention, when the modem chip is switched by completing the process of registering the location in the network of the modem chip to be switched before the modem chip switching operation is performed, the mobile communication terminal immediately performs a handover without a hand-off time. Allows you to connect to a new network.

3 is a block diagram illustrating a SIM card access device according to an embodiment of the present invention. Referring to FIG. 3, the SIM card access device according to an embodiment of the present invention serves as an interface between the modem unit 302 and the SIM card 112 including at least two modem chips. SIM card interface 110, which provides authentication data to the modem unit 302, and switching of modem chips provided in the modem unit 302, and providing authentication data of the SIM card to the modem chips. It is provided with a control unit for controlling the thing. Here, the modem unit 302 includes a first modem chip 304 and a second modem chip 306, where the first modem chip 304 and the second modem chip 306 are different networks. This is a modem chip to be connected to. For convenience, in the following description, it is assumed that the first modem chip 304 is a CDMA modem chip, and the second modem chip 306 is assumed to be a WCDMA modem chip.

The control unit 300 determines whether it is currently located in a cell area of one base station or an area in which cell areas of different base stations overlap each other according to a signal received from a base station. If in the overlapping area, the control unit 300 checks whether handover is necessary, and if handover is required, a signal received from the base station to which the mobile communication terminal is currently connected and another base station where the cell area overlaps. Check for supported network services. The first modem chip 304 (hereinafter referred to as CDMA modem chip) and the second modem chip 306 (hereinafter referred to as WCDMA modem chip) provided in the modem unit 302 according to the check result and the main mode set by the user. Determine the switching. Referring to FIG. 2, it is assumed that the mobile communication terminal 208 of FIG. 2 includes a SIM card access device according to an embodiment of the present invention. The base station 204 is connected to a WCDMA network. When the mobile communication terminal 208 moves from the cell 206 to the cell 202, the control unit 300 receives a signal received from the base station 200 in which the cell region overlaps in the inter-cell overlapping region 210. Check whether the base station 200 provides WCDMA service. If the base station 200 does not provide the WCDMA service as a result of the check, the controller 300 transfers the CDMA data from the WCDMA modem chip 306 according to the WCDMA network to which it is currently connected through the data bus 308. The modem chip 302 is provided.

Therefore, in such a case, the SIM card access device according to the embodiment of the present invention provides authentication data of the SIM card input from the SIM card 112 to both the CDMA modem chip 304 and the WCDMA modem chip 306 during handover. do. The CDMA modem chip 304 registers the location with the CDMA network through the base station 200 by using the received authentication data. Accordingly, the mobile communication terminal, while maintaining the connection with the WCDMA network, maintains the CDMA network. Location registration will be performed. When the process of registering the location of the mobile communication terminal in the CDMA network is completed and the WCDMA network can no longer be used in accordance with the movement of the location of the mobile communication terminal, the control unit 300 switches the modem chip to the WCDMA network. Disconnect and connect to the CDMA network.

The above process assumes that the main mode set by the user is the WCDMA mode. Therefore, if the user is currently connected to the CDMA network even though the main mode is the WCDMA mode, and the signal received from the base station to be handed over indicates that the WCDMA service can be provided, that is, in FIG. 2, the base station 200 If the mobile communication terminal 208 that is connected to the CDMA network through the mobile station 208 is moving from the cell 202 to the cell 206, the control unit 300 from the CDMA modem chip 304 currently used data bus 308 ) Provides authentication data of the SIM card to the WCDMA modem chip 306.

Then, the mobile communication terminal having the SIM card access device according to the embodiment of the present invention performs location registration with the WCDMA network while maintaining the connection of the CDMA network during handover. When the process of registering the location of the mobile communication terminal in the WCDMA network is completed and the WCDMA network can no longer be used in accordance with the movement of the location of the mobile communication terminal, the control unit 300 performs modem chip switching to perform a CDMA network and the like. Disconnect from and connect to the WCDMA network. Therefore, in the present invention, when modem chip switching is required, a modem according to handover between base stations providing different network services by performing location registration on another network while maintaining the connection with the current network. Hand-off time that occurs during chip switching can be reduced.

As described above, the modem unit 302 includes at least two modem chips 304 and 306 for using different networks. And a data bus 308 connected to exchange the authentication data of the SIM card between each of the modem chips 304 and 306. The data bus 308 may use a universal serial bus (USB), a universal asynchronous receiver transmitter (UART), a dual-port RAM (DPRAM), or the like. Each of the modem chips 304 and 306 provides the authentication data to another modem chip through the data bus 308 under the control of the controller 300. Therefore, the SIM card access device of the present invention performs a location registration to another network while connected to any one network at the time of handover, and performs a modem chip switching operation after the location registration is completed, thus providing different network services. The hand-off time of the mobile communication terminal can be minimized when the mobile communication terminal hands over to a cell providing a. Here, the controller 300 of the SIM card access device according to the embodiment of the present invention shown in FIG. 3 may be included in the controller of the dual mode mobile communication terminal.

FIG. 4 is a diagram illustrating a process of performing modem chip switching according to a main mode set by a user and a type of a currently connected network in a SIM card access device according to an exemplary embodiment of the present invention. Referring to FIG. 4, when the power is turned on, the controller 300 of the SIM card access apparatus according to an embodiment of the present invention checks the main mode set by the user in step 400. If the main mode set by the user is the CDMA mode in step 402, the process proceeds to step 420 to register the location in the CDMA network and connect to the CDMA network. The controller 300 proceeds to step 422 to check whether the user has changed the main mode. If the user changes the main mode, the controller 300 proceeds to step 402 and proceeds according to the main mode changed by the user. However, if the user has not changed the main mode, the control unit 300 proceeds to step 420 again to maintain the state of being connected to the current CDMA network.

However, if the main mode set by the user in step 402 is the WCDMA mode, the control unit 300 proceeds to step 406 to check whether the current base station provides WCDMA service or not. If the base station can support the WCDMA service, the control unit 300 proceeds to step 408 and performs location registration to the WCDMA network using the WCDMA modem chip 306 through the base station. In step 410, the user checks whether the main mode has been changed. If the user changes the main mode, the process proceeds to step 402 and the user changes the main mode. However, if the user does not change the main mode in step 402, the controller 300 proceeds to step 412, when the handover occurs, the base station is a WCDMA network according to a signal received from the base station to be handed over. The service is checked for availability, and the modem chip is switched to the CDMA modem chip 304 according to the check result. Here, step 412 will be described in more detail with reference to FIG. 5. When the modem chip is switched to the CDMA modem chip 304, the controller 300 proceeds to step 414 to perform location registration on the CDMA network through the switched CDMA modem chip 304 and to connect the CDMA network.

However, if the currently connectable base station does not support the WCDMA network service in step 406, the control unit 300 proceeds to step 414 to register the location in the CDMA network through the CDMA modem chip 304 to the CDMA network. Connect. In step 416, it is checked whether the user has changed the main mode setting. If the user changes the main mode in step 416, the controller 300 proceeds to step 402 and proceeds according to the main mode selected by the user. However, if the user does not change the main mode in step 416, the controller 300 proceeds to step 418, and when the handover occurs, the base station determines the WCDMA network according to the signal received from the base station to be handed over. The service is checked for availability, and the modem chip is switched to the WCDMA modem chip 306 according to the check result. Wherein step 418 will be shown in more detail in FIG. When the modem chip is switched to the WCDMA modem chip 306, the controller 300 proceeds to step 408 to perform location registration on the WCDMA network through the switched WCDMA modem chip 306 and connect to the WCDMA network.

FIG. 5 is a view illustrating a process of switching a currently used WCDMA modem chip 306 to a CDMA modem chip 304 according to whether a base station to hand over supports at step 412. Referring to FIG. 5, the controller 300 proceeds to step 500 and checks whether a handover is necessary. If handover is required, the controller 300 proceeds to step 501 and receives a signal received from a base station to which the handover is to be received. Check the network services supported from the signal. The controller 300 proceeds to step 502 and checks whether the current WCDMA network service can be provided from the signal of the currently received base station. If the WCDMA network service can be provided, the process proceeds to step 500 again while checking the current network service supported by the received base station signal while maintaining the current WCDMA network connection.

However, if the base station cannot provide WCDMA network service as a result of checking the signal received from the base station to be handed over in step 502, that is, the cell 206 in which the mobile communication terminal can provide WCDMA network service in FIG. 2. In step 504, the controller 300 proceeds to step 504, where the authentication data can be provided to the CDMA modem chip 304 through the WCDMA modem chip 306. Make sure In this case, therefore, the authentication data of the SIM card is provided not only in the currently used WCDMA modem chip 306 but also in the CDMA modem chip 304. Accordingly, the CDMA modem chip 304 can be connected to the CDMA network by using the authentication data, although not currently in use.

If the authentication data stored in the SIM card is provided to both the WCDMA modem chip 306 and the CDMA modem chip 304 in step 504, the control unit 300 proceeds to step 506 and the CDMA modem is in the state of maintaining the WCDMA network. The chip 304 is used to perform location registration with the CDMA network. The controller 300 proceeds to step 508 to check whether location registration is successful in the CDMA network. If location registration fails in the CDMA network in step 508, the process proceeds to step 506 again to attempt location registration in the CDMA network. In this case, the location registration attempt in step 508 may be repeated for more than a preset number of times or for a predetermined time, and if the location registration fails for a preset number of times or for a predetermined time, it may be attempted again after a predetermined time. .

If the location registration is successful in the CDMA network in step 508, the controller 300 proceeds to step 509 to check whether the connection to the current WCDMA network is possible or not. If it is possible to connect to the WCDMA network, that is, the user-configured main mode, it maintains the current connection. However, if it is impossible to use the network according to the main mode set by the user at step 509, the controller 300 proceeds to step 510 to connect to the CDMA network. In step 512, the controller 300 switches the currently used WCDMA modem chip 306 to the CDMA modem chip 304. The modem chip switching process is performed through a switching process of switching the path provided with the authentication data from the WCDMA modem chip 306 to the CDMA modem chip 304. In this case, however, the authentication data is not provided to the CDMA modem chip 304 through the WCDMA modem chip 306. Accordingly, when the 512 modem chip switching process is completed, the authentication data is directly input to the CDMA modem chip 304. Therefore, the mobile communication terminal having the SIM card access device according to the embodiment of the present invention is connected to one CDMA network. Will only be connected.

FIG. 6 is a view illustrating a process of switching a currently used CDMA modem chip 304 to a WCDMA modem chip 306 according to whether a base station to hand over supports at step 418. Referring to FIG. 6, the control unit 300 proceeds to step 600 to check whether a handover is necessary, and if a handover is required, proceeds to step 601 to receive a signal received from a base station to be handed over and receives the received signal. Check the network services supported from the signal. The controller 300 proceeds to step 602 and checks whether the current WCDMA network service can be provided from the signal of the currently received base station. If the WCDMA network service cannot be provided, the process proceeds to step 600 again while checking the current CDMA network connection state, and checks the network service supported from the signal of the received base station.

However, if the signal received from the base station is checked in step 602, the base station can provide the WCDMA network service, that is, the WCDMA network in the cell 202 in which the mobile communication terminal is unable to provide the WCDMA network service in FIG. If the overlapped area 210 is being moved to the cell 206 capable of providing the service, the control unit 300 proceeds to step 604 in which the authentication data of the SIM card is transferred to the WCDMA modem chip 306 through the CDMA modem chip 304. To be provided. In this case, therefore, the authentication data is provided not only to the CDMA modem chip 304 currently used, but also to the WCDMA modem chip 306. Accordingly, the WCDMA modem chip 306 can be connected to the WCDMA network using the authentication data, although not currently in use.

When the authentication data is provided to both the CDMA modem chip 304 and the WCDMA modem chip 306 in step 604, the control unit 300 proceeds to step 606 and the WCDMA modem chip 306 maintains the CDMA network. Location registration in the WCDMA network. The controller 300 proceeds to step 608 to check whether the location registration is successful in the WCDMA network. If the location registration fails in the WCDMA network in step 608, the process proceeds to step 606 to try to register the location in the WCDMA network. Here, the location registration attempt in step 608 is repeated as described above in step 508 of FIG. 5 for a preset number of times or a preset time, and when a location registration fails for a preset number or preset time, a predetermined time has passed. Of course, you can try again later.

If location registration is successful in the WCDMA network in step 608, the controller 300 proceeds to step 610 to connect to the WCDMA network. In operation 612, the controller 300 switches the CDMA modem chip 304 currently being used to the WCDMA modem chip 306. The modem chip switching process is performed through a switching process of switching the path provided with the authentication data from the CDMA modem chip 304 to the WCDMA modem chip 306. In this case, however, the authentication data is not provided to the WCDMA modem chip 306 through the CDMA modem chip 304. Accordingly, when the modem chip switching process of step 612 is completed, the authentication data is directly input to the WCDMA modem chip 306, so that a mobile communication terminal having a SIM card access device according to an embodiment of the present invention is connected to one WCDMA network. Will only be connected. Therefore, in the embodiment of the present invention, the location registration is performed in another network while being connected to one network, and the modem chip switching operation is performed after the location registration is completed. Accordingly, in the embodiment of the present invention, the hand_off time occurring when the modem chip is switched can be reduced.

Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. In particular, the embodiment of the present invention has been described assuming that the first modem chip and the second modem chip is a CDMA chip and WCDMA chip, respectively, this is only an embodiment of the invention and the rights of the present invention are not limited thereto. In addition, in the embodiment of the present invention, it is assumed that the modem unit includes two modem chips and one data bus connected to the two modem chips. However, the modem unit may include two or more modem chips. It is, of course, provided with a data bus for the authentication data exchange of the SIM card between each of the provided modem chips. In addition, in the description of the embodiment of the present invention, in step 509 of FIG. 5, when the handover occurs as the user sets the WCDMA network to the main mode, the connection state of the WCDMA network is maintained as much as an example. It may vary depending on the main mode set by the user. Therefore, the scope of the invention should not be defined by the described embodiments, but should be determined by the equivalent of claims and claims.

The present invention is connected to any one network at the time of handover. Perform location registration on another network and perform modem chip switching operation after location registration is completed. Accordingly, the present invention provides a mobile communication terminal to a new network without a handoff time of the mobile communication terminal when switching the modem chip caused by the handover that occurs as the mobile terminal moves to a cell providing different network services. To be connected.

Claims (15)

A mobile communication terminal using a subscriber identification module (SIM) card, At least two modem chips to provide different network connections, At least one data bus connected between the modem chips so as to exchange authentication data stored in the SIM card; When the mobile communication terminal performs a handover from the currently connected first network to the second network, the SIM card is transferred from the first modem chip for the first network to the second modem chip. A control unit for controlling to transmit authentication data and performing location registration to the second network by using the second modem chip, and when the location registration is successful, switching the first modem chip to the second modem chip. And an improved SIM card access device for reducing hand off time of a mobile communication terminal. The method of claim 1, wherein the control unit, When the mobile terminal performs the handover, the network services supported by the base station are checked from the signal received at the base station to be handed over, and the modem chips are determined according to the check result and the main mode set by the user. An improved SIM card access device for reducing hand off time of a mobile communication terminal, characterized in that for performing switching between the devices. The method of claim 2, wherein the control unit, If the first network is not the network according to the main mode, the handset of the mobile communication terminal performs switching between the modem chips when the base station can support the network according to the main mode. Improved SIM card access device for reducing off time. The method of claim 2, wherein the control unit, If the first network is a network according to the main mode, when the base station cannot support the network according to the main mode, switching between the modem chips reduces handoff time of the mobile communication terminal. Improved SIM card access device for. The method of claim 1, wherein the control unit, When the location registration is completed in the second network, the handoff of the mobile communication terminal is switched to a path provided to the SIM card provided to the first modem chip to a path provided to the second modem chip. Improved SIM card access device for reducing time. The method of claim 1, wherein the control unit, If the first network is a network according to a main mode set by a user, after performing location registration with the second network, the first network cannot be connected to the first network by checking a connection state with the first network. Improved SIM card access device for reducing the hand off time of the mobile terminal characterized in that switching between the modem chips in the case. The method of claim 1, wherein the control unit, If the location registration has failed, retrying the location registration for a preset number of times or a predetermined time, or retrying the location registration after a predetermined time, reducing the handoff time of the mobile communication terminal Improved SIM card access device for. The method of claim 1, wherein the first modem chip and the second modem chip, An improved SIM card for reducing handoff time of a mobile communication terminal, each characterized by a CDMA modem chip for connecting to a Code Division Multiple Access (CDMA) network and a WCDMA modem chip for connecting to a wideband CDMA (WCDMA) network. Access device. The method of claim 1, wherein the data bus, An improved SIM card access device for reducing handoff time of a mobile communication terminal, characterized by Universal Serial Bus (USB), Universal Asynchronous Receiver Transmitter (UART), or Dual-Port RAM (DPRAM). A subscriber identification module (SIM) card, each having at least two modem chips for receiving different network services, and at least one data bus for exchanging authentication data stored in the SIM card between the modem chips. In the mobile communication terminal, Determining, by the base station to be handed over, a network service that the base station can support and determining whether to switch between modem chips according to the check result, when the mobile communication terminal requires handover; Providing the authentication data to the second modem chip not currently in use, through the first modem chip currently used by the mobile terminal according to the modem chip switching determination result; A location registration step of performing location registration on a network capable of being supported by the base station through the second modem chip using the authentication data; And a modem chip switching step of switching the first modem chip to the second modem chip after completion of the location registration. The method of claim 10, The determining step, A network service checking step of checking whether a first base station currently connected to the mobile communication terminal is providing a network service according to a main mode set by a user; And a modem chip switching determining step of determining whether to switch between modem chips according to the network service check result and the network service provided by the base station. SIM card access method. The method of claim 10, wherein the location registration step, And retrying the location registration for a preset number of times or for a preset time when the second modem chip fails to register the location. Improved SIM card access method. The method of claim 12, wherein the location registration retry step, And a retry step of retrying the location registration again after a certain period of time has elapsed. The method of claim 10, wherein the modem chip switching step, And switching a path of the authentication data provided to the first modem chip to a path provided to the second modem chip. The method of claim 10, wherein the modem chip switching step, A connection check step of checking whether the first network to which the mobile communication terminal is currently connected is the network connection according to the main mode; And a modem chip switching step of switching the first modem chip to the second modem chip if it is determined that it is no longer possible to connect to the first network. Improved SIM card access method to reduce time.

Images