KR101077481B1 - Method for Operating MM-MB Terminal at Both WCDMA Mode and CDMA Mode Simultaneously and MM-MB Terminal Therefor - Google Patents

Abstract

The present invention relates to a method of operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, and an MM-MB terminal for the same.

The present invention provides a method for providing a mobile communication service by simultaneously operating a multimode-multiband (MM-MB) terminal in a CDMA mode and a WCDMA mode in a mobile communication network including a CDMA network and a WCDMA network. When the power is supplied to the MB terminal, the WCDMA modem and the CDMA modem are initialized by driving the WCDMA modem and the CDMA modem of the MM-MB terminal, respectively, to idle the WCDMA modem and the CDMA modem. Switching to; (b) simultaneously performing location registration on the WCDMA network and the CDMA network using a single mobile identification number (MIN) using the WCDMA modem and the CDMA modem, respectively; (c) setting a specific condition in an application processor (AP) of the MM-MB terminal and causing the MM-MB terminal to be in a traffic state in one of the WCDMA mode and the CDMA mode according to the specific condition; Controlling the WCDMA modem and / or the CDMA modem; And (d) controlling the WCDMA modem and / or the CDMA modem so that the MM-MB terminal is in a traffic state when the operation mode of the MM-MB terminal is switched by the specific condition. The present invention provides a method of operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, and an MM-MB terminal for the same.                 

According to the present invention, the MM-MB terminal can operate simultaneously in the WCDMA mode and the CDMA mode, there is an effect that can select and use the operation mode according to the call characteristics according to the mobile communication environment.

MM-MB terminal, WCDMA, CDMA, location registration, call processing

Description

Method for Operating MM-MB terminal in both CDMA mode and CDMA mode, and MM-MB terminal for it {Method for Operating MM-MB terminal at Both WCDMA Mode and CDMA Mode

1 is a block diagram schematically illustrating a mobile communication network for providing a WCDMA service in a communication environment in which a CDMA-2000 network is basically constructed.

2 is a block diagram showing an internal configuration of an MM-MB terminal operating simultaneously in a WCDMA mode and a CDMA mode according to a preferred embodiment of the present invention;

3 is a block diagram showing a mobile communication system for providing both WCDMA and CDMA mobile communication services according to an embodiment of the present invention;

4 is a flowchart illustrating a method of simultaneously operating an MM-MB terminal in a WCDMA mode and a CDMA mode according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

200: MM-MB terminal 210: RF antenna

220: diplexer 230: WCDMA RF module

240: CDMA RF module 250: WCDMA modem

260: CDMA modem 270: DPRAM

280: application processor 290: memory

The present invention relates to a method of operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, and an MM-MB terminal for the same. More specifically, the MM-MB terminal operates both a WCDMA modem and a CDMA modem to simultaneously perform location registration with the WCDMA network and the CDMA network using a single terminal identification number, and simultaneously transmit and receive data through the WCDMA network and the CDMA network. The present invention relates to a method of operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, and to an MM-MB terminal for the same, enabling the operation to be performed immediately in a selected mode.

As computer, electronic, and communication technologies have made rapid progress, various wireless communication services using wireless networks have been provided. The most basic wireless communication service is a wireless voice call service that provides a voice call to a mobile terminal user wirelessly, which can provide a service regardless of time and place. In addition, while providing a text message service to complement the voice call service, a wireless Internet service has recently emerged to provide an Internet communication service to a user of a mobile communication terminal through a wireless communication network.

As a result of the development of mobile communication technology, the service provided by the mobile communication system is developing not only a voice service but also a multimedia communication service for transmitting circuit data, packet data, and the like.                         

To provide such service, mobile communication service is continuously started from the low-quality voice call-oriented first generation mobile communication service provided by analog cellular Advanced Mobile Phone System (AMPS), which has been in service since the late 1980s. It is developing. Second-generation mobile communication services enable enhanced voice calls and low-speed (14.4 Kbps) data services provided by digital cellular Global System for Mobile (GSM), Code Division Multiple Access (CDMA), and Time Division Multiple Access (TDMA). It was. In addition, in the 2.5 generation mobile communication service, the PCS (Personal Communication Service), which can be used around the world as well as securing the frequency in the GHz band, has been developed to enable an enhanced voice call and a data service having a transmission rate of 144 Kbps.

Recently, IMT-2000 (International Mobile Telecommunication 2000), which is a third generation mobile communication system established by ITU-R as a standard, has been commercialized. IMT-2000 is aimed at high-speed multimedia services such as worldwide roaming, including personal mobility and service mobility, the same level of call quality as landline telephones, high-speed packet data services, and the implementation of various application services by combining wired and wireless networks. Mobile communication system.

IMT-2000 is proposed by 3GGP (Generation Partnership Project), which is asynchronous WCDMA (Wideband CDMA) system and 3GGP2 is proposed by synchronous CDMA-2000 (e.g. CDMA 2000 1X, 3X, EV-DO, etc.). The system is classified and provided.                         

In the CDMA-2000 system, a wireless access technology and a mobile communication technology are based on the CDMA method. Therefore, since it has backward compatibility with the existing second generation IS-95 network, it is possible to provide a mobile communication service using both second and third generation communication networks. In addition, a mobile Internet Protocol (IP) function similar to a handoff of a voice call may be supported, and a roaming service using a removable user identity module (R-UIM) card may be provided.

WCDMA system uses the CDMA method for wireless access technology, but the technology related to mobile communication network is based on GSM network technology. The WCDMA communication system adopts Adaptive Multi Rate Vocoder (AMR), which has a transmission rate of 4.75 Kbps to 12.2 Kbps for voice coding, and supports high mobility enough to make a call even if the user moves at a speed of about 100 Km / h. In addition, since the frequency bandwidth is widened to 5 MHz and has a data transmission speed of 2 Mbps, it is suitable for high-speed data transmission, and diversity according to reverse call quality that cannot be provided by the IS-95 and GSM methods. Provides good call and data transmission performance even in poor communication environments.

As WCDMA communication is adopted by most countries and continues to develop technical specifications for WCDMA in 3GPP, WCDMA is also available in countries such as Korea, the United States, and China, which basically provide CDMA-2000 services. The network began to provide WCDMA services.

1 is a block diagram schematically illustrating a mobile communication network for providing a WCDMA service in a communication environment in which a CDMA-2000 network is basically constructed.

In CDMA-2000 region 120 providing CDMA-2000 services, WCDMA services are provided in some regions within CDMA-2000 region 120. Regions providing WCDMA service within the CDMA-2000 region 120 are referred to as overlay regions 130 and 140. That is, in the overlay region, the user may selectively receive one of the desired services among the CDMA-2000 service and the WCDMA service. Of course, to use the CDMA-2000 service and the WCDMA service, a multimode-multiband terminal is required.

Multimode-Multiband (MM-MB) The terminals 100 and 110 are terminals supporting multimode and multiband. Here, the multimode includes a synchronous mode and an asynchronous mode, and the multiband includes a second generation mobile communication service using a frequency band of 800 MHz, a second generation mobile communication service using a frequency band of 1.8 GHz, and a frequency of approximately 2 GHz. A third generation mobile communication service using the band and a fourth generation mobile communication service to be serviced in the future.

The MM-MB terminals 100 and 110 operate by switching to the CDMA 2000 mode or the WCDMA mode according to the type of communication service provided in the region where they are located. That is, in FIG. 1, the MM-MB terminal 100 moves from the overlay region 130 to the CDMA-2000 region 120, or the MM-MB terminal 110 moves from the CDMA-2000 region 120 to the overlay region 140. In the case of moving to a C), it is necessary to switch between the WCDMA mode and the CDMA-2000 mode. When the MM-MB terminal operates in WCDMA mode, the WCDMA service is operated by using the WCDMA modem built into the MM-MB terminal. When the MM-MB terminal operates in the CDMA-2000 mode, the CDMA-2000 modem is operated by operating the CDMA-2000 modem. You will use the service.

In the conventional MM-MB terminal, location registration is possible only through one mobile communication network using one terminal identification number. That is, when the MM-MB terminal operates in the WCDMA mode, the WCDMA service can be used by performing a location registration to the WCDMA network. No service is available.

Therefore, when switching from WCDMA mode to CDMA-2000 mode, the operating WCDMA modem must be stopped and the CDMA-2000 modem is started. When switching from CDMA-2000 mode to WCDMA mode, the CDMA-2000 modem is operated. You need to stop and start the WCDMA modem, which will require a transition time between modems. In addition, since the acquisition of the synchronization and the call connection procedure must be performed for the switched network when switching between the WCDMA mode and the CDMA-2000 mode, time for synchronization acquisition and call connection is additionally required.

As a result, in order to receive the mobile communication service in the switched mode by switching the service mode in the MM-MB terminal, the MM-MB terminal must wait for the above-described time, so it is inconvenient for the immediate operation desired by the user. There was a problem.

In order to solve this problem, the present invention drives both the WCDMA modem and the CDMA modem in the MM-MB terminal to simultaneously perform location registration with the WCDMA network and the CDMA network using a single terminal identification number, and then implements the WCDMA network and the CDMA network. It is an object of the present invention to provide a method for operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, and an MM-MB terminal for the same, enabling simultaneous transmission and reception of data through the selected mode.

According to a first object of the present invention, in a mobile communication network including a CDMA network and a WCDMA network, a method of providing a mobile communication service by simultaneously operating a multimode-multiband (MM-MB) terminal in a CDMA mode and a WCDMA mode, a) When power is supplied to the MM-MB terminal, the WCDMA modem and the CDMA modem are initialized by driving the WCDMA modem and the CDMA modem of the MM-MB terminal, respectively, to perform the WCDMA modem and the CDMA modem. Transitioning to an idle state; (b) simultaneously performing location registration on the WCDMA network and the CDMA network using a single mobile identification number (MIN) using the WCDMA modem and the CDMA modem, respectively; (c) setting a specific condition in an application processor (AP) of the MM-MB terminal and causing the MM-MB terminal to be in a traffic state in one of the WCDMA mode and the CDMA mode according to the specific condition; Controlling the WCDMA modem and / or the CDMA modem; And (d) controlling the WCDMA modem and / or the CDMA modem so that the MM-MB terminal is in a traffic state when the operation mode of the MM-MB terminal is switched by the specific condition. The present invention provides a method for operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode.

According to a second object of the present invention, a CDMA service and a WCDMA service can be used through a mobile communication network including a CDMA network and a WCDMA network, and in a MM-MB terminal operating simultaneously in a CDMA mode and a WCDMA mode, a CDMA signal and RF antenna for transmitting and receiving WCDMA signals; A diplexer for separating the CDMA signal and the WCDMA signal by frequency; A CDMA RF module receiving and demodulating the CDMA signal from the diplexer, modulating transmission data, and transmitting the demodulated data through the RF antenna; A WCDMA RF module receiving and demodulating the WCDMA signal from the diplexer and modulating the transmission data and transmitting the demodulated data through the RF antenna; A CDMA modem which processes the CDMA signal received from the CDMA RF module and performs call processing according to a protocol defined in a CDMA standard; A WCDMA modem which processes the WCDMA signal received from the WCDMA RF module and performs call processing according to a protocol defined in the WCDMA standard; When power is supplied to the MM-MB terminal, the WCDMA modem and the CDMA modem are respectively driven to perform initialization operations on the WCDMA network and the CDMA network, and the WCDMA modem and the CDMA modem simultaneously operate with one terminal identification number. Perform location registration to the WCDMA network and the CDMA network, so that the MM-MB terminal is in a traffic state in one of the WCDMA mode and the CDMA mode according to a specific condition set in the MM-MB terminal. And an AP controlling the WCDMA modem and / or the CDMA modem so that the MM-MB terminal is in a traffic state when the operation mode of the MM-MB terminal is switched by the specific condition; Dual-Port RAM (DPRAM) for transmitting and receiving data between the CDMA modem and the AP and the WCDMA modem and the AP; And a memory storing an operating system (OS) software for operating the MM-MB terminal, a call processing software, and a memory for storing program variables and state information generated by driving the software. Provided are MM-MB terminals operating simultaneously in WCDMA mode.

According to a third object of the present invention, there is provided a mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service, comprising: a CDMA network for providing the CDMA mobile communication service; A WCDMA network providing the WCDMA mobile communication service; It can operate in the WCDMA mode and the CDMA mode, and performs the initialization operation by accessing the WCDMA network and the CDMA network, and performs location registration to the WCDMA network and the CDMA network with one terminal identification number, Call forwarding / receiving is performed in the traffic state with respect to one of the WCDMA network or the CDMA network according to a specific condition, and when the operation mode is switched according to the specific condition, call origination / An MM-MB terminal for performing an incoming call; And location registration information of the MM-MB terminal to the WCDMA network and the CDMA network, and is located in the WCDMA network and the CDMA network with the one terminal identification number for identifying the MM-MB terminal. The present invention provides a mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service, including a home location register (HLR) that manages all registration information.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 is a block diagram showing an internal configuration of an MM-MB terminal according to a preferred embodiment of the present invention.

As shown in FIG. 2, the MM-MB terminal 200 according to the preferred embodiment of the present invention includes an RF antenna 210, a diplexer 220, a WCDMA RF module 230, and a CDMA RF module. And a 240, a WCDMA modem 250, a CDMA modem 260, a dual-port RAM (DPRAM) 270, an application processor (AP) 280, a memory 290, and the like.

The RF antenna 210 receives an RF signal transmitted from a neighboring wireless base station and transmits the RF signal to the diplexer 220 or transmits an RF signal received from the diplexer 220 to transmit a CDMA signal and / or a WCDMA signal. Send and receive

The diplexer 220 separates the RF signal received from the RF antenna 210 into a CDMA signal and a WCDMA signal for each frequency, and transmits the WCDMA signal to the WCDMA RF module 230 and the CDMA signal to the CDMA RF module 240. To pass. Here, the diplexer is composed of a high pass filter (HPF) and a low pass filter (LPF) to separate the received signal by frequency.

The WCDMA RF module 230 demodulates and transmits the WCDMA signal received from the diplexer 220 to the WCDMA modem 250. The WCDMA RF module 230 modulates the transmission data received from the WCDMA modem 250 and modulates the transmitted data through the RF antenna 210. Send it out. The CDMA RF module 240 demodulates the CDMA signal received from the diplexer 220 and transmits the demodulated CDMA signal to the CDMA modem 260. The CDMA RF module 240 modulates the transmission data received from the CDMA modem 260 through the RF antenna 210. Send it out.

The WCDMA modem 250 processes the WCDMA signal received from the WCDMA RF module 230 and performs call processing in accordance with the protocol defined in the WCDMA standard. When the MM-MB terminal 200 operates in the WCDMA mode under the control of the AP 280, after the initialization operation of the WCDMA modem 250 to the WCDMA network, the MM-MB terminal 200 switches to the WCDMA idle state, After authentication, location registration procedure is performed, and WCDMA service is used through call origination / reception procedure.

The CDMA modem 260 processes the CDMA signal received from the CDMA RF module 240 and performs call processing in accordance with the protocol defined in the CDMA standard. When the MM-MB terminal 200 operates in the CDMA mode under the control of the AP 280, the CMM modem 260 performs the initialization operation to the CDMA network and then switches to the WCDMA idle state, It performs the location registration procedure after authentication and uses the CDMA service through the call origination / reception procedure.

Here, the initialization operation refers to creating an environment for setting the necessary information for the terminal and then transitioning to an idle state, and performing initialization operations from the WCDMA modem 250 and the CDMA modem 260 to the WCDMA network or the CDMA network, respectively. Done. The initialization operation consists of a system decision substate, a pilot channel acquisition substate, and a sync channel acquisition substate. Since the terminal initialization operation is well known to those skilled in the art, a detailed description thereof will be omitted.

The WCDMA modem 250 and the CDMA modem 260 operate independently under the control of the AP 280 without being affected by the setting state of each modem. For example, when the MM-MB terminal 200 operates in the WCDMA mode and the WCDMA modem 250 is in a traffic state, the CDMA modem 260 is driven to register and call a location on the CDMA network. You can also do In addition, when handover is required from the WCDMA mode to the CDMA mode, the system parameter message is received without additional work for driving the CDMA modem 260 and the network conversion is performed in the MM-MB terminal 200. can do.

Meanwhile, in FIG. 2, the WCDMA RF module 230, the CDMA RF module 240, and the WCDMA modem 230 and the CDMA modem 240 are illustrated as separate components, but the WCDMA RF module 230 and the CDMA RF module are illustrated as separate components. It is also possible to implement 240 as one RF module chip and implement the WCDMA modem 230 and the CDMA modem 240 as one modem chip.

The DPRAM 270 provides a path for transmitting and receiving data between the WCDMA modem 250 and the AP 280 and the CDMA modem 260 and the AP 280. Since the DPRAM 270 has two address lines, it can smoothly transmit and receive data.                     

The AP 280 controls the overall operation of the MM-MB terminal 200, and the MM-MB terminal 200 determines whether the MM-MB terminal 200 is in WCDMA mode or according to the type of RF signal (WCDMA signal or CDMA signal) received or the type of the call. The operation of the modem is controlled by transmitting a control signal to the WCDMA modem 250 or the CDMA modem 260 to operate in the CDMA mode.

When the power is supplied to the MM-MB terminal 200, the AP 280 drives the WCDMA modem 250 and the CDMA modem 260, respectively, and performs initialization to the WCDMA network and the CDMA network, and the WCDMA modem 250 And the CDMA modem 260 registers the location to the WCDMA network and the CDMA network using one terminal identification number rather than using a separate terminal identification number for each network to identify the MM-MB terminal 200 in the mobile communication network. Control to perform.

In addition, the AP 280 sets a specific condition for the operation of the MM-MB terminal 200, and enters a traffic state in one of the WCDMA mode or the CDMA mode according to a preset specific condition, thereby providing a mobile communication service of the corresponding mode. To control the WCDMA modem 250 and / or CDMA modem 260 to use, and to switch the operation mode according to a specific condition, the traffic state in the switched mode to use the mobile communication service of the switched mode Control the WCDMA modem 250 and / or the CDMA modem 260.

Here, the specific condition is to set a mode that basically operates in the AP 280 according to the environment of the mobile communication network, the voice call in the overlay area where both the WCDMA network and the CDMA network is installed, a wider coverage (Coverage) than the WCDMA network (CDMA) mode and Image call and PS (Packet Service) call can be set to operate in WCDMA mode which guarantees Quality of Service (QoS). Further, in an area where no WCDMA network is installed, specific conditions can be set to process all voice calls, video calls, and PS calls in the CDMA mode. Meanwhile, the specific condition set by the AP 280 is not limited to the above-described case, and specific conditions may be adjusted according to the environment of the mobile communication network as needed.

Since the AP 280 controls the WCDMA modem 250 and the CDMA modem 260 to operate independently without being affected by the setting state of each modem, the MM-MB terminal 200 calls in the WCDMA mode. Even when performing the outgoing / incoming call, the CDMA modem 260 can be controlled to perform a call setup to the CDMA network, even when the MM-MB terminal 200 performs the outgoing / incoming call in the CDMA mode. Call control to the WCDMA network can be performed by controlling 250. In addition, when the MM-MB terminal 200 makes a call, the AP 280 transmits a paging message to the MM-MB terminal 200 between the WCDMA network and the CDMA network. The WCDMA modem 250 and / or the CDMA modem 260 may be controlled to operate the 200.

The AP 280 has built-in software for modem control so that the MM-MB terminal 200 can operate smoothly by accessing the WCDMA network and the CDMA network, and the WCDMA modem 250 and the CDMA using the built-in software. The setting state of the modem 260 may be checked and a control signal may be transmitted.

Meanwhile, the AP 280 may include a modem control unit and may set the above-described specific conditions in the modem control unit and control the WCDMA modem 250 and the CDMA modem 260, and the modem control unit may not use the WCDMA modem instead of the AP 280. It may be included in either the 250 or the CDMA modem 260.

The memory 290 may store an operating system (OS) software having a real time processing function for the operation of the MM-MB terminal 200 and call processing software for processing a function related to call processing, and the like. Program variables and status information generated by the driving of various software are stored. The memory 290 may be implemented as a flash memory that is a non-volatile memory having a high data processing speed.

In addition, the memory 290 may be connected to the AP 280, the WCDMA modem 250, and the CDMA modem 260, respectively, to store data generated by the corresponding device, and the AP 280, the WCDMA modem 250, and the CDMA. Each modem or the like may have a separate memory so that data generated from the corresponding device may be stored in a memory connected to the corresponding device.

Meanwhile, the MM-MB terminal 200 of the present invention may include a power management module (PMM) (not shown) to control power of the MM-MB terminal 200.

3 is a block diagram illustrating a mobile communication system providing both a WCDMA and a CDMA mobile communication service according to an exemplary embodiment of the present invention.

As shown in FIG. 3, a mobile communication system providing both a WCDMA and a CDMA mobile communication service according to a preferred embodiment of the present invention includes an MM-MB terminal 200, a WCDMA network 310, and a CDMA network ( 320) and a home location register (HLR) 330.                     

As described above, the MM-MB terminal 200 may operate simultaneously in the WCDMA mode and the CDMA mode, and may access the WCDMA network 310 or the CDMA network 320 and use a mobile communication service provided by the corresponding network.

The WCDMA network 310 is a mobile communication network which is connected to the MM-MB terminal 200 and provides a mobile communication service of the WCDMA type. The WCDMA network 310 includes a base station (Node B) and a base station controller (RNC: Radio Network Controller). ), A Mobile Switching Center (MSC), a Serving GPRS Support Node (SGSN) for connecting to the Internet network, a Gateway GPRS Support Node (GGSN), and the like.

The CDMA network 320 is a mobile communication network which is connected to the MM-MB terminal 200 and provides a CDMA mobile communication service. The CDMA network 320 includes a base transceiver station (BTS) and a base station controller (BSC). It may include a PDSN (Packet Data Serving Node) for connection with a wireless access network, a mobile switching center, and an Internet network. Here, the CDMA network 320 may include a CDMA-2000 1X, a CDMA-2000 3X, and a CDMA-2000 Evolution-Data Only (EV-DO) network.

Meanwhile, since the configurations of the WCDMA network and the CDMA network are well known to those skilled in the art, detailed descriptions thereof will be omitted.

The HLR 330 is a database that stores service profiles related to subscriber information of the user of the MM-MB terminal 200, and includes a terminal identification number, a terminal unique number (ESN: Electronic Serial Number) of the MM-MB terminal 200, and the like. It has information on the type of mobile communication service, and stores the subscriber information including location registration information of the MM-MB terminal 200 to the WCDMA network 310 and the CDMA network 320.

In order to identify the MM-MB terminal 200 in the mobile communication network, the HLR 330 transmits location registration information to the WCDMA network 310 and the CDMA network 320 using one terminal identification number regardless of the type of the network. All will be in control. Accordingly, the HLR 330 may select one of the WCDMA network 310 and the CDMA network 320 when the call is received, and provide location registration information of the MM-MB terminal 200 to the corresponding network.

4 is a flowchart illustrating a method of simultaneously operating an MM-MB terminal in a WCDMA mode and a CDMA mode according to an exemplary embodiment of the present invention.

As shown in FIG. 4, when the power of the MM-MB terminal 200 is applied (S400), the AP 280 transmits a control signal for requesting modem initialization to the WCDMA modem 250 and the CDMA modem 260. (S402). Upon receiving the modem initialization request, the WCDMA modem 250 and the CDMA modem 260 perform an initialization operation on the WCDMA network 310 and the CDMA network 320, respectively, to switch to an idle state (S404 and S406). .

On the other hand, when the MM-MB terminal 200 is switched to the idle state, the MM-MB terminal 200 periodically monitors the calling channel to retrieve a paging channel message. In general, all status information of the mobile communication network and information for the terminal to access the mobile communication network are transmitted from the mobile communication network to the terminal every 1.28 seconds.

The MM-MB terminal 200 analyzes a system parameter message included in a call channel message transmitted from a mobile communication network. Here, the system parameter message is the most important message for transmitting information of the mobile communication system, system information such as pseudo noise (PN) code, system identification (SID), network identification (NID), and base ID, registration related information, and hand. Off information, power control information, and the like. The MM-MB terminal 200 checks a system parameter message or detects the signal level for each mode in the WCDMA modem 250 and the CDMA modem 260 to determine whether the MM-MB terminal 200 is within the coverage of the corresponding mode. Therefore, it may be determined whether the area where the MM-MB terminal 200 is located is an overlay area.

When the MM-MB terminal 200 is in the idle state, the AP 280 sends the WCDMA modem 250 and the CDMA modem 260 to perform location registration on the location registration area where the MM-MB terminal 200 is located. The control signal for requesting location registration is transmitted (S408). The WCDMA modem 250 and the CDMA modem 260, which have received the location registration request, perform location registration to the WCDMA network 310 and the CDMA network 320 using one terminal identification number (S410 and S412). .

Here, the location registration refers to registering information such as the current location, operation status, identifier, slot period, etc. of each terminal in the mobile communication network so that the terminal can efficiently process the incoming call. The region in which the WCDMA network 310 and / or the CDMA network 320 is installed is divided by location registration area and consists of a set of cells, and includes a location where the MM-MB terminal 200 is currently located. Location registration is performed by selecting a registration area.

When the location registration is performed to the WCDMA network 310 and the CDMA network 320, the AP 280 may select one of the WCDMA mode and the CDMA mode according to a specific condition preset in the MM-MB terminal 200. Select to control the WCDMA modem 250 and / or CDMA modem 260 to use the mode mobile communication service in the traffic state.

For example, if the voice call is handled in the CDMA mode and the video call and the PS call are processed in the WCDMA mode in the overlay region under certain conditions, the AP is required to use the video call service in the MM-MB terminal 200. In step 280, the WCDMA mode is selected (S414). When the WCDMA mode is selected, the WCDMA modem 250 receives a control signal from the AP 280 to perform a call processing procedure (S416), switches to a traffic state, receives video call service data, and receives the MM-MB terminal 200. Will be delivered to (S418).

When the MM-MB terminal 200 attempts to use the voice call service during the WCDMA operation or when the MM-MB terminal 200 leaves the overlay area, the MM-MB terminal at the AP 280 according to a predetermined specific condition. In step S420, the control unit 200 uses the CDMA mode. In this case, the CDMA modem 260 receives a control signal from the AP 280 to perform a call processing procedure (S422), switches to a traffic state, receives CDMA mobile communication service data, and transmits it to the MM-MB terminal 200. It is made (S424).

In this case, since the WCDMA modem 250 and the CDMA modem 260 of the MM-MB terminal 200 operate independently, additional mode for driving the modem when the other mode is used while using the WCDMA mode or the CDMA mode is used. It performs network switching without any work, performs call processing procedure to another mode, and switches to traffic state to use the changed mode mobile communication service.                     

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Accordingly, the embodiments disclosed herein are intended to be illustrative rather than limiting, and the spirit and scope of the present invention are not limited by these embodiments. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of the present invention should be construed as being included in the scope of the present invention.

As described above, in the present invention, since both the WCDMA modem and the CDMA modem are driven by the MM-MB terminal, data can be simultaneously transmitted and received through the WCDMA network and the CDMA network, and thus, an operation mode suitable for call characteristics according to a mobile communication environment. There is an effect available by selecting.

In addition, paging loss can be significantly reduced by enabling immediate call origination / reception in WCDMA mode and CDMA mode, and it is easy to switch between WCDMA service and CDMA service, reducing user inconvenience and providing fast mobile communication service. The advantage is that it can be provided.

Claims (31)

A method of providing a mobile communication service by simultaneously operating a multimode multiband (MM-MB) terminal in a CDMA mode and a WCDMA mode in a mobile communication network including a CDMA network and a WCDMA network, (a) When power is supplied to the MM-MB terminal, the WCDMA modem and the CDMA modem are initialized by driving the WCDMA modem and the CDMA modem of the MM-MB terminal, respectively, to perform the WCDMA modem and the CDMA modem. Transitioning to an idle state; (b) simultaneously performing location registration on the WCDMA network and the CDMA network using a single mobile identification number (MIN) using the WCDMA modem and the CDMA modem, respectively; (c) a specific condition in an application processor (AP) of the MM-MB terminal (wherein 'specific condition' means a condition of setting a mode in which the MM-MB terminal operates according to the environment of the mobile communication network); Setting and controlling the WCDMA modem or the CDMA modem such that the MM-MB terminal is in a traffic state in one of the WCDMA mode and the CDMA mode according to the specific condition; And (d) controlling the WCDMA modem and / or the CDMA modem so that the MM-MB terminal is in a traffic state when the operation mode of the MM-MB terminal is switched by the specific condition; Method for operating the MM-MB terminal at the same time in the WCDMA mode and CDMA mode comprising a. The method of claim 1, The specific condition is set by the modem control unit included in the AP, or by the modem control unit included in one of the WCDMA modem and the CDMA modem. The MM-MB terminal is simultaneously operated in the WCDMA mode and the CDMA mode. How to operate. The method of claim 1, Areas in which the WCDMA network and the CDMA network are installed are divided by location registration areas, and a location registration area including a location where the MM-MB terminal is located is selected to perform location registration between the WCDMA network and the CDMA network. A method for operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, characterized in that. The method of claim 1, Location registration information of the MM-MB terminal to the WCDMA network and the CDMA network is stored in a home location register (HLR) of the mobile communication network, and the HLR is configured to identify the MM-MB terminal in the mobile communication network. A method for operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, characterized in that both the WCDMA network and the location registration information of the CDMA network are managed by one terminal identification number. The method of claim 1, And the WCDMA modem and the CDMA modem operate independently under the control of the AP without being affected by the setting state of each modem. The method of claim 5, The AP may control the CDMA modem to set up a call to the CDMA network even when the MM-MB terminal performs call origination / reception in the WCDMA mode, and the MM-MB terminal may perform the call setup to the CDMA mode. A method for operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, wherein the WCDMA mode can be controlled by controlling the WCDMA modem even when performing a call origination / reception. The method of claim 1, In the overlay region where both the WCDMA network and the CDMA network are installed, the voice call is processed in the CDMA mode, and the image and PS service are processed in the WCDMA mode. A method for operating an MM-MB terminal simultaneously in a WCDMA mode and a CDMA mode, characterized in that. The method of claim 7, wherein The MM-MB terminal checks a system parameter message received from the mobile communication network, or detects a signal level for each mode in the WCDMA modem and the CDMA modem, so that the MM-MB terminal covers coverage of each mode. Determining whether the MM-MB terminal is located in the overlay area by checking whether the information is in a coverage, and simultaneously operating the MM-MB terminal in the WCDMA mode and the CDMA mode. The method of claim 1, In the region where the WCDMA network is not installed, the MM-MB is simultaneously used in the WCDMA mode and the CDMA mode, wherein the specific condition is set to process all voice calls, video calls, and PS (Packet Service) calls in the CDMA mode. How to operate a terminal. The method of claim 1, When the MM-MB terminal calls, the AP transmits the paging message to the MM-MB terminal between the WCDMA network and the CDMA network so that the MM-MB terminal operates. And / or controlling the CDMA modem to switch the operation mode of the MM-MB terminal. In a MM-MB (Multimode-Multiband) terminal which can use a CDMA service and a WCDMA service through a mobile communication network including a CDMA network and a WCDMA network and operates simultaneously in a CDMA mode and a WCDMA mode, An RF antenna for transmitting and receiving a CDMA signal and / or a WCDMA signal; A diplexer for separating the CDMA signal and the WCDMA signal by frequency; A CDMA RF module receiving and demodulating the CDMA signal from the diplexer, modulating transmission data, and transmitting the demodulated data through the RF antenna; A WCDMA RF module receiving and demodulating the WCDMA signal from the diplexer and modulating the transmission data and transmitting the demodulated data through the RF antenna; A CDMA modem which processes the CDMA signal received from the CDMA RF module and performs call processing according to a protocol defined in a CDMA standard; A WCDMA modem which processes the WCDMA signal received from the WCDMA RF module and performs call processing according to a protocol defined in the WCDMA standard; When the power is supplied to the MM-MB terminal, the WCDMA modem and the CDMA modem are respectively driven to initialize the WCDMA network and the CDMA network, and the WCDMA modem and the CDMA modem have one terminal identification number (MIN). A mobile terminal is used to control location registration to the WCDMA network and the CDMA network simultaneously with a Mobile Identification Number, wherein a specific condition set in the MM-MB terminal (where 'specific condition' is defined according to the environment of the mobile communication network). Means that the MM-MB terminal is in a traffic state in one of the WCDMA mode and the CDMA mode according to the specific condition. When the operating mode of the -MB terminal is switched, the WCDMA modem to bring the MM-MB terminal in the traffic state in the switched mode / Or (Application Processor) AP controlling the CDMA modems; Dual-Port RAM (DPRAM) for transmitting and receiving data between the CDMA modem and the AP and the WCDMA modem and the AP; And Operating system (OS) software, call processing software for operating the MM-MB terminal, and memory for storing program variables and state information generated by driving the operating system software and the call processing software. MM-MB terminal operating simultaneously in the CDMA mode and WCDMA mode comprising a. The method of claim 11, The CDMA RF module and the WCDMA RF module may be implemented by one RF module chip, and the CDMA modem and the WCDMA modem may be implemented by one modem chip. MM-MB terminal running at the same time. The method of claim 11, The MM-MB terminal further operates in the CDMA mode and WCDMA mode, characterized in that further comprises a PMM (Power Management Module) for controlling the power of the MM-MB terminal. The method of claim 11, The specific condition is set by the modem control unit included in the AP or by the modem control unit included in one of the WCDMA modem and the CDMA modem. The MM-MB operating simultaneously in the CDMA mode and the WCDMA mode. terminal. The method of claim 11, Areas in which the WCDMA network and the CDMA network are installed are divided by location registration areas, and a location registration area including a location where the MM-MB terminal is located is selected to perform location registration between the WCDMA network and the CDMA network. MM-MB terminal operating simultaneously in the CDMA mode and WCDMA mode, characterized in that. The method of claim 11, Location registration information of the MM-MB terminal to the WCDMA network and the CDMA network is stored in a home location register (HLR) of the mobile communication network, and the HLR is configured to identify the MM-MB terminal in the mobile communication network. An MM-MB terminal operating simultaneously in the CDMA mode and the WCDMA mode, characterized in that both the WCDMA network and the location registration information to the CDMA network is managed by one terminal identification number. The method of claim 11, And the WCDMA modem and the CDMA modem operate independently under the control of the AP without being affected by the setting state of each modem. The method of claim 17, The AP may control the CDMA modem to set up a call to the CDMA network even when the MM-MB terminal performs call origination / reception in the WCDMA mode, and the MM-MB terminal may perform the call setup to the CDMA mode. MM-MB terminal operating simultaneously in the CDMA mode and WCDMA mode, characterized in that even when performing a call origination / incoming call in the WCDMA network by controlling the WCDMA modem. The method of claim 11, In the overlay region where both the WCDMA network and the CDMA network are installed, the voice call is processed in the CDMA mode, and the image and PS service are processed in the WCDMA mode. MM-MB terminal operating simultaneously in the CDMA mode and WCDMA mode, characterized in that. The method of claim 19, The MM-MB terminal checks a system parameter message received from the mobile communication network, or detects a signal level for each mode in the WCDMA modem and the CDMA modem, so that the MM-MB terminal covers coverage of each mode. MM-MB terminal operating simultaneously in the CDMA mode and WCDMA mode, characterized in that it is determined to be in (Coverage) to determine whether the MM-MB terminal is located in the overlay area. The method of claim 11, MM operating simultaneously in the CDMA mode and the WCDMA mode, characterized in that the specific condition is set to process all voice calls, video calls, and PS (Packet Service) calls in the CDMA mode in the region where the WCDMA network is not installed. -MB terminal. The method of claim 11, When the MM-MB terminal calls, the AP transmits the paging message to the MM-MB terminal between the WCDMA network and the CDMA network so that the MM-MB terminal operates. And / or controlling the CDMA modem to switch the operation mode of the MM-MB terminal. The MM-MB terminal simultaneously operating in the CDMA mode and the WCDMA mode. In a mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service, A CDMA network providing the CDMA mobile communication service; A WCDMA network providing the WCDMA mobile communication service; It can operate in the WCDMA mode and the CDMA mode, access the WCDMA network and the CDMA network to perform the initialization operation and register the location to the WCDMA network and the CDMA network with a mobile identification number (MIN) The WCDMA network or the CDMA according to a predetermined condition (herein, 'specific condition' means a condition in which a mode in which the MM-MB terminal operates according to the environment of the mobile communication network) is set. MM-MB which performs call origination / reception in the traffic state of one of the networks, and performs call origination / reception in the traffic state of the switched network when the operation mode is switched by the specific condition. Multimode-Multiband) terminal; And Storing location registration information of the MM-MB terminal for the WCDMA network and the CDMA network, and registering the location with the WCDMA network and the CDMA network with the one terminal identification number for identifying the MM-MB terminal. Home Location Register (HLR) to manage all information A mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service, including. The method of claim 23, wherein The specific condition may be set by a modem control unit included in an AP (Application Processor) of the MM-MB terminal or by a modem control unit included in one of the WCDMA modem and the CDMA modem of the MM-MB terminal. A mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service. The method of claim 23, wherein Areas in which the WCDMA network and the CDMA network are installed are divided by location registration areas, and a location registration area including a location where the MM-MB terminal is located is selected to perform location registration between the WCDMA network and the CDMA network. A mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service. The method of claim 23, wherein The MM-MB terminal may perform call setup to the CDMA network even when performing call origination / reception in the WCDMA mode, and may perform call establishment / reception in the CDMA mode. A mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service, which can perform call setup. The method of claim 23, wherein In the overlay region where both the WCDMA network and the CDMA network are installed, the voice call is processed in the CDMA mode, and the image and PS service are processed in the WCDMA mode. A mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service. 28. The method of claim 27, The MM-MB terminal checks a system parameter message received from the mobile communication network, or detects a signal level for each mode in the WCDMA modem and the CDMA modem, so that the MM-MB terminal covers coverage of each mode. And determining whether the MM-MB terminal is located in the overlay area by checking whether the information is in a coverage, and providing both a CDMA mobile communication service and a WCDMA mobile communication service. The method of claim 23, wherein In the region where the WCDMA network is not installed, the specific condition is set to process all voice calls, video calls, and PS (Packet Service) calls in the CDMA mode. A mobile communication system capable of providing all mobile communication services. The method of claim 23, wherein When the MM-MB terminal makes a call, the MM-MB terminal operates the MM-MB terminal in a network for transmitting a paging message to the MM-MB terminal among the WCDMA network and the CDMA network. A mobile communication system capable of providing both a CDMA mobile communication service and a WCDMA mobile communication service, characterized by switching an operation mode of a terminal. The method of claim 23, wherein The CDMA network includes both CDMA-2000 1X, CDMA-2000 3X, and CDMA-2000 EV-DO (Evolution-Data Only) networks. Mobile communication system that can provide.

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