Title of Invention	MULTI-MODE MULTI-BAND MOBILE COMMUNICATION TERMINAL AND MODE SWITCHING METHOD THEREOF
Abstract	Disclosed is a multi-mode multi-band mobile communication terminal and a mode switching method thereof wherein a mode switching can be performed between an asynchronous network and a synchronous network by minimizing interruption in communication. According to the switching method of a multi-mode multi-band mobile communication terminal, the power of a signal received from an asynchronous network or a synchronous network is measured and the measured power of the received signal drives a modem portion, thereby switching the mode of the mobile communication terminal.

Title of Invention

MULTI-MODE MULTI-BAND MOBILE COMMUNICATION TERMINAL AND MODE SWITCHING METHOD THEREOF

Abstract

Disclosed is a multi-mode multi-band mobile communication terminal and a mode switching method thereof wherein a mode switching can be performed between an asynchronous network and a synchronous network by minimizing interruption in communication. According to the switching method of a multi-mode multi-band mobile communication terminal, the power of a signal received from an asynchronous network or a synchronous network is measured and the measured power of the received signal drives a modem portion, thereby switching the mode of the mobile communication terminal.

Full Text	FORM 2 THE PATENTS ACT, 1970 (39 of 1970) & THE PATENTS RULES, 2003 COMPLETE SPECIFICATION (See section 10, rule 13) "MULTI-MODE MULTI-BAND MOBILE COMMUNICATION TERMINAL AND MODE SWITCHING METHOD THEREOF'1 SK Telecom Co., Ltd. a Korean company of 99, Seorin-dong, Jongno- gu, Seoul, 110-110 Republic of Korea. The following specification particularly describes the invention the manner in which it is to be performed. / pfTJKR2005/000600 yyO 2005/086378 -• [ Invention Title 1 ... MULTI-MODE MULTI-BAND MOBILE COMMUNICATION TERMINAL , SWITCHING METHOD THEREOF [Technical Field] The present invention relates to a multi-mode multi-band mobile communication terminal for supporting both an asynchronous communication network and a synchronous communication network, and more particularly to a multi-mode multi-band mobile 10 communication terminal and a mode switching method thereof, which can perform a mode switching between an asynchronous mobile communication network and a synchronous mobile communication network while minimizing interruption in the communication. [Background Art] 15 The mobile communication service has continuously developed from the first generation (1G) mobile communication service mainly for voice communication of a low quality as was provided by an analogue cellular type Advanced Mobile Phone System (hereinafter, referred to as "AMPS") which started its service late in the 1980's. The second generation (2G) mobile communication service enabled an improved voice communication 20 and a data service at a low speed (14.4 Kbps) by employing a digital cellular type Global System for Mobile (GSM) scheme, a Code Division Multiple Access (CDMA) scheme, a Time Division Multiple Access (CDMA) scheme, etc. In the 2.5th generation (2.5G) mobile communication service, the frequency of GHz band was secured and the Personal Communication Service (PCS) available worldwide was developed, so that the 2.5G 25 mobile communication service achieved an improved voice communication service together with a data communication service at an improved speed (144 Kbps) still low as it is. Each of the mobile communication networks for the mobile communication services up to the 2.5th generation includes various communication apparatuses such as a 30 user terminal, a base station transmitter, a base station controller, a mobile switching center, a Home Location Register (HLR) and a Visitor Location Register (VLR). WO 2005/086378 PCT/KR2005/000600 X The third generation (3G) mobile communication service is provided by two different kinds of systems including a Wideband CDMA (WCDMA) system and a CDMA-2000 system. The WCDMA system is an asynchronous mobile communication system proposed mainly by the 3rd Generation Partnership Project (3GPP) and the 5 CDMA-2000 system is a synchronous mobile communication system proposed mainly by the 3GPP2. Especially for the WCDMA system, many communication service providers all over the world are providing or preparing to provide services by employing wireless protocols recommended by the International Mobile Telecommunications-2000 (IMT-2000). 10 The WCDMA system achieves a high communication quality and employs the spread spectrum scheme, so it is proper for transmission of even a large quantity of data. The WCDMA communication system uses an Adaptive Multi-Rate (AMR) codec having a transmit rate of 12.2 Kbps ~ 4.75 Kbps for voice coding and supports a high mobility enough to allow even a user moving at a speed of 100 Km per hour to perform 15 communication. Many nations are now adopting the WCDMA communication scheme, and the 3GPP constructed by organs of. many countries including the United States, Europe, Republic of Korea, Japan, the People's Republic of China, etc. is now continuously developing technology specifications for the WCDMA communication. Recently, due to the advantages of the asynchronous WCDMA system as described 20 above, countries basically employing the synchronous CDMA-2000 network, such as the United States, Republic of Korea and the People's Republic of China, have started to construct a WCDMA network in order to provide a WCDMA service. As a result, a mobile communication terminal capable of supporting both the synchronous communication network and the asynchronous communication network has 25 become necessary and a Multi-Mode Multi-Band (MMMB) mobile communication terminal has appeared to meet such a necessity. The Multi-Mode includes both a synchronous mode and an asynchronous mode, and the Multi-Band includes the frequency band of 800 MHz of the 2G mobile communication service, the frequency band of 800 MHz or 1.8 GHz of the 2.5G mobile 30 communication service, the frequency band of about 2 GHz of the 3G mobile communication service, and a frequency band of the 4G mobile communication service to be provided in the future. WO 2005/086378 PCT/KR2005/000600 K A mode switching between the asynchronous mode and the synchronous mode is necessary when the MMMB mobile communication terminal moves into an area of a synchronous communication network from an overlap area between areas of synchronous and asynchronous communication networks. According to the conventional method for 5 mode switching, a modem for call connection with the synchronous communication network is operated after the mobile communication terminal completely escapes from the overlap area and the call connection with the asynchronous communication network is interrupted. Therefore, the mode switching according to the conventional method requires an interruption interval of at least approximately 20 seconds during which the 10 communication is interrupted. [Disclosure] [Technical Problem] Therefore, the present invention has been made in view of the above-mentioned 15 problems, and it is an object of the present invention to provide a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can perform a mode switching between an asynchronous mobile communication network and a synchronous mobile communication network while minimizing interruption in the communication. 20 It is another object of the present invention to provide a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can minimize a ping-pong phenomenon when the mobile communication terminal performs mode switching between a WCDMA mode and a CDMA mode. 25 [Technical Solution] According to an aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode in an idle state, the multi-mode multi-band mobile communication terminal including an asynchronous modem for communication 30 with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method including PCT/KR200S/000600 WO 2005/086378 the steps of: (1) measuring a power of a received signal from the asynchronous mobile communication network; (2) determining if the measured power of the received signal has a value lower than a preset threshold value; (3) determining if a state in which the measured power of the received signal has a value lower than a preset threshold value is 5 maintained during a predetermined time interval; (4) operating the synchronous modem when the state has been maintained during a predetermined time interval; and (5) converting a current communication mode into a synchronous mode and then entering into a synchronous mode idle state. According to another aspect of the present invention, there is provided a method 10 for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode in a traffic state, the multi-mode multi-band mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the 15 method including the steps of: (1) measuring a power of a received signal from the asynchronous mobile communication network; (2) determining if the. measured power of the received signal has a value lower than a preset threshold value; (3) determining if a state in which the measured power of the received signal has a value lower than a preset threshold value is maintained during a predetermined time interval; (4) operating the 20 synchronous modem when the state has been maintained during a predetermined time interval; (5) determining if a traffic state of an asynchronous mode call has ended or not; (6) determining if a radio link with the asynchronous mobile communication network has been released or not when it is determined that the traffic state of the asynchronous mode call has not ended yet; and (7) converting a current communication mode into a 25 synchronous mode and processing a synchronous mode call with the synchronous mobile communication network through the synchronous modem when it is determined that the radio link with the asynchronous mobile communication network has been released. According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between 30 an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous WO 2005/086378 k mobile communication network, the method including the steps of: (1) monitoring system information from the asynchronous mobile communication network; (2) checking preset parameter values in the monitored system information in order to determine whether to perform mode switching; (3) operating the synchronous modem when it is determined that 5 the preset parameter values require mode switching; and (4) switching into the synchronous mode after operating the synchronous modem. According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal 10 including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method including the steps of: (1) searching overhead message information from the synchronous mobile communication network; (2) determining if the overhead message information includes a mode switch parameter preset 15 for mode switching; (3) operating the asynchronous modem when it is determined that the overhead message information includes a preset mode switch parameter; and (4) switching a communication mode of the mobile communication terminal into the asynchronous mode after operating the asynchronous modem. According to another aspect of the present invention, there is provided a 20 multi-mode multi-band mobile communication terminal including: an asynchronous modem for communication with an asynchronous mobile communication network; a synchronous modem for communication with a synchronous mobile communication network; and a mode switch controller for managing current state of the asynchronous modem and the synchronous modem and controlling activation and deactivation of the 25 asynchronous modem and the synchronous modem based on a communication mode corresponding to a mobile communication network to which the mobile communication terminal currently belongs, wherein: when it is determined to perform mode switching, the mode switch controller operates a corresponding modem for connection with a target mobile communication network so that the corresponding modem acquires a network sync 30 and performs registration of location; and after performing the registration of location, the mode switch controller performs communication with the target mobile communication network through the corresponding modem and deactivates another modem having been WO 2005/086378 PCT/KR2005/000600 communicating with another mobile communication network. According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal 5 including modems for communication with an asynchronous mobile communication network and a synchronous mobile communication network, the method including the steps of: (1) operating a corresponding modem for connection with a target mobile communication network which is a target of mode switching, when it is determined to perform the mode switching; (2) acquiring a network sync with the target mobile 10 communication network by the corresponding modem; (3) performing registration of location to the target mobile communication network; and (4) performing communication with the target mobile communication network through the corresponding modem and deactivating another modem having been communicating with another mobile communication network. 15 According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous 20 mobile communication network, the method including the steps of: (1) switching a current mode of the mobile communication terminal into an asynchronous mode and searching for an asynchronous signal, when the mobile communication terminal receives a system message from the synchronous mobile communication network while being located within an overlap area between the asynchronous mobile communication network and the 25 synchronous mobile communication network, the system message indicating mode switching from the synchronous mobile communication network to the asynchronous mobile communication network; (2) determining if an asynchronous signal is detected and if registration of location has been performed; and (3) when no asynchronous signal is detected or when the registration of location has not been performed yet, switching a 30 current mode of the mobile communication terminal into a synchronous mode, waiting during a counting interval and counting a number of times for the searching, and then feedbacking to step (1). WO 2005/086378 PCT/KR2005/000600 According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile 5 communication network and a synchronous modem for communication with a synchronous mobile communication network, the method including the steps of: (1) searching for an asynchronous signal by the mobile communication terminal in the asynchronous mode and sending a request for registration of a location of the mobile communication terminal to a corresponding asynchronous communication network when an asynchronous signal is 10 detected; and (2) when the request for the registration of the location is rejected, switching a current communication mode of the mobile communication terminal into a synchronous mode, detecting a synchronous signal, and registering the location of the mobile communication terminal in the synchronous communication network. 15 [Advantageous Effects 1 As can be seen from the foregoing, the present invention provides a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can minimize interruption in the communication when the mobile communication terminal moves from an asynchronous mobile communication network area to a synchronous 20 mobile communication network area. Also, the present invention provides a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can minimize a ping-pong phenomenon when the mobile communication terminal automatically performs mode switching between a WCDMA mode and a CDMA mode. 25 (Description of Drawings] The foregoing and other objects, features and advantages of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings in which: 30 FIG. 1 is a block diagram illustrating communication networks to which an MMMB mobile communication terminal according to the present invention connects; WO 2005/086378 PCT/KR2005/000600 XFIG. 2 is a block diagram illustrating a construction of an MMMB mobile communication terminal according to the present invention; FIG 3 is a block diagram illustrating a construction of a common module of an MMMB mobile communication terminal in detail; 5 FIG. 4 is a view for illustrating the concept of mode switching of a MMMB mobile communication terminal according to the present invention; FIG 5 is a graph for illustrating a mode switching based on a signal intensity in a method for mode switching according to the first embodiment of the present invention; FIG. 6 is a flowchart of the method for mode switching according to the first 10 embodiment of the present invention; FIG. 7 is a flowchart of a method for mode switching according to the second embodiment of the present invention; FIG. 8 is a flowchart of a method for mode switching according to the third embodiment of the present invention; 15 FIG. 9 is a flowchart of a method for mode switching according to the fourth embodiment of the present invention; FIG 10 is a flowchart of a method for mode switching according to the fifth embodiment of the present invention; FIG. 11 is a flowchart of a method for mode switching according to the sixth 20 embodiment of the present invention; FIG 12 is a view for illustrating the concept of mode switching according to the seventh embodiment of the present invention; and FIG 13 is a flowchart of a method for mode switching according to the seventh embodiment of the present invention. 25 [Best Mode] Hereinafter, a mobile communication terminal according to the present invention will be described in detail with reference to FIGs. 1 through 3. First, FIG 1 is a block diagram illustrating communication networks to which an 30 MMMB mobile communication terminal according to the present invention connects. Referring to FIG 1, the WCDMA network 100, which is an asynchronous WO 2005/086378 PCT/KR2005/000600 #\0 communication network, includes a radio station 101 performing radio communication with a mobile communication terminal 400, a Radio Network Controller (hereinafter, referred to as "RNC") 102 for controlling the radio station 101, a Serving GPRS Service Node (hereinafter, referred to as "SGSN") 103 connected to the RNC 102 to control the 5 mobility of the mobile communication terminal 400, and a Gateway GPRS Supporting Node (hereinafter, referred to as "GGSN") 106 for asynchronous communication network data service,, which is a relay apparatus for performing the packet service control and packet data transfer through the GPRS network 105. The RNC 102 is connected to a Mobile Switching Center (hereinafter, referred to 10 as "MSC") 104 for performing call switching and the MSC 104 is connected to a No. 7 signal network 107 for signal switching. The No. 7 signal network 107 is connected to both a Short Message Service Center (hereinafter, referred to as "SMSC") 108 for providing a short message service and a Home Location Register (hereinafter, referred to as "HLR") 109 for managing the location information of subscribers. 15 Meanwhile, the CDMA2000 network 200, which is a synchronous communication network, includes a Base Transceiver Station (hereinafter, referred to as "BTS") 201 performing radio communication with the mobile communication terminal 400, a Base Station Controller (hereinafter, referred to as "BSC") 202 for controlling the BTS 201, a Packet Data Service Node (hereinafter, referred to as "PDSN") 204 connected to the BSC 20 202 to provide packet data, a Data Core Network (hereinafter, referred to as "DCN") 208 connected to the PDSN 204 to provide an Internet connection service, and an MSC 203 connected to the BSC 202 to perform the signal switching. The MSC 203 is connected to a No. 7 signal network 205 for signal switching. The No. 7 signal network 205 is connected to both an SMSC 206 for providing a short message 25 service and an HLR 207 for managing the location information of subscribers. In the present embodiment, each of the synchronous communication network 200 and the asynchronous communication network 100 includes a separate HLR 109 or 207 for managing the subscriber information and location information. However, the synchronous communication network 200 and the asynchronous communication network 100 may share 30 the subscriber information and location information by using only one HLR (dual-stack home location register) in the two kinds of networks. FIG 2 is a block diagram illustrating a construction of an MMMB mobile WO 2005/086378 -ten PCT/KR2005/000600 communication terminal according to the present invention. Referring to FIG. 2, an MMMB mobile communication terminal 400 according to the present invention, which supports both the synchronous mobile communication and the asynchronous mobile communication, has protocol stacks of both the synchronous mobile 5 communication and the asynchronous mobile communication. The MMMB mobile communication terminal 400 according to the present invention includes, in brief, an antenna 410 for transmitting/receiving radio waves to/from the synchronous communication network 200 and the asynchronous communication network 100, a synchronous radio apparatus 430 for synchronous communication, an 10 asynchronous radio apparatus 420 for asynchronous communication, and a common module 440 for providing common resources for both the synchronous communication and the asynchronous communication. The synchronous radio apparatus 430 includes a synchronous radio transmitter 432 for radio transmission, a synchronous radio receiver 433 for radio reception, and a 15 synchronous modem 434. One side of each of the synchronous radio transmitter 432 and the synchronous radio receiver 433 is connected to the antenna 410 through a duplexer 431 and the other side thereof is connected to the synchronous modem 434. The asynchronous radio apparatus 420 also includes an asynchronous radio transmitter 422 for radio transmission, an asynchronous radio receiver 423 for radio 20 reception, and an asynchronous modem 424. One side of each of the asynchronous radio transmitter 422 and the asynchronous radio receiver 423 is connected to the antenna 410 through a duplexer 421 and the other side thereof is connected to the asynchronous modem 424. FIG 3 is a block diagram illustrating a construction of a common module of an 25 MMMB mobile communication terminal in detail. Referring to FIG 3, the common module 440 of the MMMB mobile communication terminal according to the present invention includes a plurality of Dual Port RAMs (hereinafter, referred to as "DPRAMs") 441 and 442 connected to the modems 424 and 434 of the asynchronous radio apparatus 420 and the synchronous radio apparatus 30 430, respectively, and a main processor 443 connected to the DPRAMs 441 and 442, which performs general control of the synchronous and asynchronous communication of the mobile communication terminal 400 and execution of applications. The main processor WO 2005/086378 PCT/KR2005/000600 12 443 is connected to a memory 444 for storing data, an I/O device 445 for connection with peripheral devices, and a power control module (hereinafter, referred to as "PWM") 446 for power control. Further, the common module 440 includes a mode switch controller (call manager 5 for roaming) 447 for minimizing call interruption due to time delay during the mode switching. The mode switch controller 447 is connected to the synchronous modem 434 and the asynchronous modem 424 to perform the mode switching control. Although the present embodiment employs a separate mode switch controller 447, the mode switch controller may be embedded in the synchronous modem 434 and the asynchronous modem 10 424. Therefore, the mobile communication terminal having the construction as described above can perform communication in both the asynchronous network and the synchronous network. Also, the mobile communication terminal 400 having the construction as described above may have four kinds of modes selectable by a user, which 15 includes a dedicated asynchronous mode (WCDMA only), a preferred asynchronous mode (WCDMA preferred), a preferred synchronous mode (CDMA preferred), and a dedicated synchronous mode (CDMA only). In the dedicated asynchronous mode, the mobile communication terminal 400 performs communication only through the asynchronous communication network. In the preferred asynchronous mode, the mobile communication 20 terminal 400 performs communication basically through the asynchronous communication network and performs mode switching in order to enable communication through the synchronous communication network when it escapes out of the area of the asynchronous communication network. In the preferred synchronous mode, the mobile communication terminal 400 performs communication basically through the synchronous communication 25 network and performs mode switching in order to enable communication through the asynchronous communication network when it goes into the area of the asynchronous communication network. In the dedicated synchronous mode, the mobile communication terminal 400 performs communication only through the synchronous communication network. 30 Hereinafter, a method for mode switching of an MMMB mobile communication terminal according to a first embodiment of the present invention will be described with reference to FIGs. 4 through 6. According to the first embodiment of the present invention, WO 2005/086378 PCT/KR2005/000600 the MMMB mobile communication terminal shifts from the asynchronous mode to the synchronous mode based on the intensity of signals received from the asynchronous communication network. FIG 4 is a view for illustrating the concept of mode switching of a MMMB mobile 5 communication terminal according to the present invention. As the mobile communication terminal 400 moves from an area A of the asynchronous communication network to a boundary area B between the asynchronous communication network and the synchronous communication network, the mobile communication terminal 400 receives a signal from the asynchronous network radio station 10 10.1 with a reduced intensity. Here, the mobile communication terminal 400 determines based on the measured intensity of the signal from the asynchronous network whether to perform mode switching between the asynchronous mode and the synchronous mode. The intensity of the signal from the asynchronous network can be obtained based on a ratio (expressed as Ec/Io; Energy of Carrier/Interference of Others) of the signal 15 intensity of the pilot channel to the magnitude of all received noise, a receive (Rx) power expressed as RSSI (Received Signal Strength Indicator), a Received Signal Code Power (RSCP), etc. From among those parameters, Ec/Io excessively changes according to the surrounding radio environments. In contrast, RSSI and RSCP have a nearly constant 20 threshold value because RSSI is a receive power of the mobile communication terminal and RSCP is a value obtained through the decoding of the signal received by the mobile communication terminal. Therefore, the present invention employs RSSI or RSCP instead of Ec/Io in measuring the signal intensity. Hereinafter, a method using RSCP will be described, 25 although the same method can be applied to RSSI also. FIG 5 is a graph for illustrating a mode switching based on a signal intensity in a method for mode switching according to the first embodiment of the present invention. Here, the signal intensity will be described based on RSCP. As noted from FIG 5, when the signal intensity lowers below a preset threshold 30 value TH, the mobile communication terminal 400 recognizes that it is currently escaping from the area of the asynchronous communication network and determines if such a state continues during a predetermined time interval T. When such a state continues during a WO 2005/086378 predetermined time interval T, the mobile communication terminal 400 prepares mode switching from the asynchronous mode to the synchronous mode by operating the synchronous modem. In the state where the synchronous modem is operated, when the signal from the radio station of the asynchronous communication network is released, the 5 mobile communication terminal 400 determines that it has escaped from the area A of the asynchronous communication network and entered the area C of the asynchronous communication network. Then, the mobile communication terminal 400 instantly connects with the synchronous communication network through the synchronous modem, thereby completing the mode switching. 10 FIG 6 is a flowchart of the method for mode switching according to the first embodiment of the present invention. The method for mode switching according to the first embodiment of the present invention is a method performed when the MMMB mobile communication terminal is in an idle state. Referring to FIG 6, when the mobile communication terminal 400 is in an idle 15 state in the area of the asynchronous communication network 100 (step S10), the main processor 443 determines if RSCP has a value lower than the preset threshold value TH (step S20). When it is determined in step S20 that RSCP has a value lower than the preset threshold value TH, the main processor 443 determines if the state in which RSCP has a 20 value lower than the preset threshold value TH is maintained during a predetermined time interval T(step S30). When it is determined in step S30 that the state in which RSCP has a value lower than the preset threshold value TH is maintained during a predetermined time interval T, the main processor 443 operates the synchronous modem 434 for communication with the 25 synchronous communication network 200 (step S40). Then, the main processor 443 converts the current communication mode into the synchronous mode (step S50) and then goes into a synchronous mode idle state (step S60). Next, a method for mode switching of an MMMB mobile communication terminal according to the second embodiment of the present invention will be described in detail 30 with reference to FIG 7. The second embodiment of the present invention is different from the first embodiment in that the method for mode switching according to the second embodiment of the present invention is performed when the MMMB mobile PCT/KR2005/000600 y\5 communication terminal is in a traffic state. FIG 7 is a flowchart of a method for mode switching according to the second embodiment of the present invention. Referring to FIG. 7, when the mobile communication terminal 400 is in a traffic 5 state in the area of the asynchronous communication network 100 (step SI 10), the main processor 443 determines if RSCP has a value lower than the preset threshold value TH (step S120). When it is determined in step SI20 that RSCP has a value lower than the preset threshold value TH, the main processor 443 determines if the state in which RSCP has a 10 value lower than the preset threshold value TH is maintained during a predetermined time interval T(step SI30). When it is determined in step SI30 that the state in which RSCP has a value lower than the preset threshold value TH is maintained during a predetermined time interval T, the main processor 443 monitors a BLock Error Rate (BLER) which indicates the rate of 15 defective blocks per second received at the radio end (step S140). Then, when it is determined in step SI50 that the BLER monitored in step SI40 exceeds a preset threshold value (e.g. about 10%), the main processor 443 operates the synchronous modem 434 in order to prepare communication with the synchronous communication network 200 (step SI60). 20 Here, steps SI40 and SI50 may be omissible because they are necessary only to compensate for and are not indispensable in the second embodiment of the present invention. In the case where steps SI40 and SI50 are omitted, when it is determined in step SI30 that the state in which RSCP has a value lower than the preset threshold value TH is maintained during a predetermined time interval T, the main processor 443 operates the 25 synchronous modem 434 in order to prepare communication with the synchronous communication network 200 (step SI60). In this case, even after operating the synchronous modem 434, the main processor 443 does not attempt registration of the synchronous communication network 200. Further, the main processor 443 determines if the asynchronous mode call currently in a traffic state 30 has ended or not (step S170). When it is determined in step SI 70 that the traffic state of the asynchronous mode call has been ended, the main processor 443 determines if the mobile communication WO 2005/086378 PCT/KR2005/000600 L terminal 400 is located within the area of the asynchronous communication network 100 in order to go into an idle state (step SI80). When it is determined in step SI80 that the mobile communication terminal 400 is located within the area of the asynchronous communication network 100, the main 5 processor goes into the asynchronous mode idle state (step SI90) in which the synchronous modem 434 operated in step SI60 is inactivated. However, when it is determined in step SI80 that the mobile communication terminal 400 is not located within the area of the asynchronous communication network 100, which means that the mobile communication terminal 400 is located within the area 10 of the synchronous communication network, the main processor 443 goes into the synchronous mode idle state (step SI81) in which the asynchronous modem 424 is inactivated. Meanwhile, when it is determined in step SI70 that the traffic state of the asynchronous mode call has not ended yet, the main processor 443 determines if the radio 15 link with the asynchronous communication network 100 has been released or not (step SI71). Specifically, the main processor 443 determines whether the mobile communication terminal 400 has escaped from the area of the asynchronous communication network 100, and performs mode switching into the synchronous mode through the synchronous modem 434 started its operation in step SI60 when it is determined that the mobile communication 20 terminal 400 has escaped from the area of the asynchronous communication network 100 (step SI72). Then, the main processor 443 determines if the call has been ended or not (step SI73). When it is determined in step SI73 that the call has been ended, the main processor 443 performs step SI80 and determines if the mobile communication terminal 400 is 25 currently located within the area of the asynchronous communication network 100 in order to go into the idle state. When it is determined in step SI80 that the mobile communication terminal 400 is located within the area of the asynchronous communication network 100, the main processor goes into the asynchronous mode idle state (step SI90) in which the synchronous modem 434 started its operation in step SI60 is inactive. 30 However, when it is determined in step SI80 that the mobile communication terminal 400 is not located within the area of the asynchronous communication network 100, which means that the mobile communication terminal 400 is located within the area WO 2005/086378 J8l-f of the synchronous communication network, the main processor 443 goes into the synchronous mode idle state (step SI81) in which the asynchronous modem 424 is inactivated. Then, when it is determined in step SI71 that the radio link with the asynchronous 5 communication network 100 has not been released, the main processor 443 determines if the RSCP has a value exceeding a preset threshold value TH or not in order to determine if the mobile communication terminal 400 is currently located within the area of the asynchronous communication network 100 or not (step SI74). When it is determined in step SI74 that the RSCP has a value exceeding the preset 10 threshold value TH, the main processor 443 determines that the mobile communication terminal 400 is currently located within the area of the asynchronous communication network 100 and turns off the currently operating synchronous modem 434 (step SI75), and then proceeds to step S170. Although the previous embodiment has been described by using the parameter 15 RSCP of the received signal code power as an example, the same can be said in steps S20, SI20 and SI74 by using the power value RSSI of the received signal itself instead of the RSCP. Further, it is possible to realize the present invention by using both of the parameters RSCP and RSSI, specifically, by measuring the received signal code power and 20 the power value RSSI of the received signal itself and then comparing them with preset reference values in steps S20, SI20 and SI74. Hereinafter, a method for mode switching of an MMMB mobile communication terminal according to the third embodiment of the present invention will be described in detail with reference to FIG. 8. According to the third embodiment of the present invention, 25 the mode switching from the asynchronous mode to the synchronous mode is performed based on the system information block transmitted from the asynchronous communication network. FIG 8 is a flowchart of a method for mode switching according to the third embodiment of the present invention. 30 Referring to FIG 8, the mobile communication terminal monitors system information blocks of each cell transmitted from a radio station of the asynchronous communication network while performing cell selection (step S210). Further, the mobile WO 2005/086378 PCT/KR2005/000600 4- &\V communication terminal determines if a parameter in the monitored system information block has been preset to indicate mode switching into the synchronous communication network (step S220). When it is determined in step S220 that a parameter in the monitored system 5 information block has been preset to indicate mode switching into the synchronous communication network, the mobile communication terminal determines if the terminal mode is currently set as the preferred asynchronous mode (step S230). In the preferred asynchronous mode, the mobile communication terminal first connects with the asynchronous communication network and then connects with the synchronous 10 communication network when it fails to connect with the asynchronous communication network. When it is determined in step S230 that the terminal mode is currently set as the preferred asynchronous mode, the mobile communication terminal determines if a Mobile Country Code (MCC) contained in the system information block is a preset country code 15 (1st parameter; for example, a parameter having a value of 450 (MCC=450) for Republic of Korea) and if a Mobile Network Code (MNC) is a preset network code (2nd parameter; for example, a parameter having a value of 05 (MNC=05) for SK Telecom Co., Ltd.) in step S240. When it is determined in step S240 that the MCC is preset as the first parameter 20 and the MNC is preset as the second parameter, the mobile communication terminal determines that it is necessary to shift into the synchronous mode and operates the synchronous modem (step S250). After operating the synchronous modem, the mobile communication terminal switches the current communication mode (asynchronous mode) to the synchronous mode (step S260). 25 When it is determined in step S230 that the current terminal mode is not the preferred asynchronous mode, for example, when the currently set terminal mode is the dedicated asynchronous mode, the mobile communication terminal does not perform the mode switching and maintains the current asynchronous mode even though the system information block satisfies conditions for the mode switching (step S231). 30 Also, when it is determined in step S240 that the MCC is not preset as the first parameter or the MNC is not preset as the second parameter, the mobile communication terminal does not perform the mode switching and maintains the current asynchronous WO 2005/086378 PCT/KR2005/000600 X mode even though the system information block satisfies conditions for mode switching (stepS231). Next, a method for mode switching of an MMMB mobile communication terminal according to the fourth embodiment of the present invention will be described in detail 5 with reference to FIG 9. According to the fourth embodiment of the present invention, the mobile communication terminal performs the mode switching from the asynchronous mode to the synchronous mode based on overhead message information (e.g. base ID information) transmitted from the synchronous communication network. FIG. 9 is a flowchart of a method for mode switching according to the fourth 10 embodiment of the present invention. Referring to FIG. 9, the mobile communication terminal in communication through the synchronous communication network checks overhead message information of the BSC 202 of the synchronous communication network 200 (step S310). Then, the MCT determines if the base ID information found in step S310 includes a preset mode switch 15 parameter (step S320). Here, the mode switch parameter is set at a bit at a predetermined ordinal position (the second bit in the present embodiment) from the Most Significant Bit (MSB) in the base ID and is a parameter for notifying the overlap area between the asynchronous communication network and the synchronous communication network. When it is determined in step S320 that the base ID information found in step 20 S310 includes a preset mode switch parameter, the mobile communication terminal determines if the terminal mode is currently set as one of the preferred asynchronous mode and the preferred synchronous mode or not (step S330). In the preferred asynchronous mode, the mobile communication terminal first connects with the asynchronous communication network and then connects with the synchronous communication network 25 when it fails to connect with the asynchronous communication network. In the preferred synchronous mode, the mobile communication terminal first connects with the synchronous communication network and then connects with the asynchronous communication network when it fails to connect with the synchronous communication network. 30 When it is determined in step S330 that the terminal mode is currently set as one of the preferred asynchronous mode and the preferred synchronous mode, the mobile communication terminal determines the mode switching into the asynchronous mode and WO 2005/086378 PCT/KR2005/000600 >3 W) operates the asynchronous modem (step S340). Then, the mobile communication terminal switches the current communication mode (synchronous mode) to the asynchronous mode (step S350). When it is determined in step S330 that the current terminal mode is neither the 5 preferred asynchronous mode nor the preferred synchronous mode but is the dedicated synchronous mode, the mobile communication terminal does not perform the mode switching and maintains the current synchronous mode (step S331). Next, a method for mode switching of an MMMB mobile communication terminal according to the fifth embodiment of the present invention will be described in detail with 10 reference to FIG 10. The method according to the fifth embodiment of the present invention is a specific method in which the mode switching from the asynchronous mode to the synchronous mode is first determined and the synchronous modem is then inactivated and the asynchronous modem is activated in the mobile communication terminal, so that the mobile communication terminal operates in the asynchronous mode. 15 FIG 10 is a flowchart of a method for mode switching according to the fifth embodiment of the present invention. Referring to FIG 10, the mobile communication terminal 400 in communication through the synchronous communication network operates in the synchronous mode through the synchronous modem (step S410). Then, when the mode switching from the 20 asynchronous mode to the synchronous mode is determined as described above (step S420), the mode switch controller 447 requests mode switching to the asynchronous modem 434 (step S430). Then, the asynchronous modem 434 operates to detect a signal from the asynchronous communication network (step S440) and determines if there is a normally detected signal (step S450). 25 When it is determined in step S450 that there is no WCDMA signal, the asynchronous modem 434 transmits a sync acquisition failure message to the mode switch controller 447 (step S451) and goes into an off state or a sleep state (step S452). Upon receiving the sync acquisition failure message in step S451, the mode switch controller 447 recognizes the failure in acquisition of sync of the asynchronous 30 communication network and transmits an operation maintenance message to the synchronous modem 424 to maintain the current state (step S453). Then, the synchronous modem 424 maintains the current state (step S454) and the mobile communication terminal WO 2005/086378 -4. 400 continues to operate in the synchronous mode. Meanwhile, when it is determined in step S450 that a WCDMA signal has been detected and the sync has been acquired, the asynchronous modem 434 requests registration of location to the asynchronous communication network (step S461). When the 5 location information of the mobile communication terminal 400 in the asynchronous communication network is registered in the HLR 207 in response to the request (step S462), the HLR 207 transmits a response reporting the location registration (step S463). Further, the asynchronous communication network transmits the response reporting the location registration to the synchronous modem 434 (step S464). 10 After receiving the response in step 464, the synchronous modem 434 transmits to the mode switch controller 447 a message reporting the current state, that is, a message reporting that the location registration to the asynchronous communication network has been completed (step S470). Then, the asynchronous modem 424 is activated and the mobile communication terminal 400 operates in the asynchronous mode (step S480). 15 Here, upon receiving the location registration completion message from the asynchronous modem 434, the mode switch controller 447 recognizes a success in mode switching into the asynchronous communication network. Then, the mode switch controller 447 transmits to the synchronous modem 424 a message in order to deactivate the synchronous modem 424 into the off state or sleep state (step S471). Then, the 20 synchronous modem 424 is deactivated (step S472) and the mode switching is completed. Next, a method for mode switching of an MMMB mobile communication terminal according to the sixth embodiment of the present invention will be described in detail with reference to FIG. 11. The method according to the sixth embodiment of the present invention is a method performed when the synchronous communication network is 25 defective or has such a weak electric field that it is impossible to register the location in the course of the mode switching from the asynchronous mode to the synchronous mode. Specifically, when the asynchronous communication network is defective or has such a weak electric field that it is impossible to register the location, the mode transition may be repeatedly tried alternately into the synchronous communication network and the 30 asynchronous communication network, thereby causing a ping-pong phenomenon in which the mobile communication terminal continuously stays in a communication disabled state. Therefore, when the mobile communication terminal receives a mode switch command WO 2005/086378 PCT/KR2005/000600 &7> i from the synchronous communication network, the mobile communication terminal tries registration of location by detecting an asynchronous signal in the asynchronous mode. When there is a problem in the switching, the mobile communication terminal returns to the synchronous mode and periodically tries detection of asynchronous signal in order to 5 perform the mode switching into the asynchronous mode. FIG 11 is a flowchart of a method for mode switching according to the sixth embodiment of the present invention. Referring to FIG 11, when the mobile communication terminal 400 receives a switching command signal from the synchronous communication network 200 and 10 determines to perform the switching from the synchronous communication network 200 to the asynchronous communication network 100 (step S510), the mobile communication terminal 400 switches its current communication mode from the synchronous mode to the asynchronous mode (step S520) and determines if an asynchronous signal is detected (step S530). 15 When an asynchronous signal is detected, the mobile communication terminal 400 determines if the registration of location to the asynchronous communication network is completed (step S540). When the registration of location is completed, the mobile communication terminal 400 performs communication through the asynchronous communication network. Here, the registration of location to the asynchronous 20 communication network refers to registration of location to a Circuit Network (CS) or a Packet Service (PS) network. Further, when an asynchronous signal is not detected in step S530 or when it is impossible to perform communication in the asynchronous mode due to failure in the registration of location by some problems in the asynchronous communication network, 25 the mobile communication terminal 400 switches back to the synchronous mode (step S550). Next, the mobile communication terminal 400 waits a predetermined time interval and counts the number of times of the waiting (step S560) and then switches back to the asynchronous mode (step S520) and determines if an asynchronous signal is detected (step 30 S530). This feedback process is repeated until the location is registered. Here, it is preferable to gradually increase the counting interval (which corresponds to a time interval of detecting the asynchronous signal) according to a WO 2005/086378 PCT/KR2005/000600 -i predetermined basis reflecting the number of times by which the asynchronous signal has been detected. A counting parameter for determining the counting interval is included in the system parameter transmitted from the radio station of the asynchronous communication network to the mobile communication terminal 400. 5 Therefore, upon receiving a mode switch command, the mobile communication terminal 400 determines the counting interval for detecting the asynchronous signal based on the counting parameter, waits the counting interval and counts the number of times, and then searches an asynchronous signal. It is preferred that a basic parameter capable of replacing the counting parameter is 10 preset and stored in the mobile communication terminal, so that the mobile communication terminal 400 can determine the counting interval based oh the stored basic parameter when it fails to receive the counting parameter. The parameter used for the counting may contain information of, for example, a unit interval T for searching the asynchronous signal, a modulus A for determining the time 15 interval of asynchronous signal searching, and a maximum threshold N max for the number of times for searching the asynchronous signal. When the number of times by which the mobile communication terminal 400 performed searching for the asynchronous signal is put as 'n' the mobile communication terminal 400 determines the counting interval by Equation (1) below. 20 t=AnT (1) In Equation (1), 'n' (the number of times of searching for the asynchronous signal) has a value increasing by one each time from 1 to "Nmax' In other words, by Equation (1), 25 the initial counting interval during which the mobile communication terminal 400 waits after failing the registration of location first time is calculated as 'AnT the counting interval during which the mobile communication terminal 400 waits after failing the registration of location first time twice is calculated as 'A2T' and the counting interval during which the mobile communication terminal 400 waits after failing the registration of 30 location first time twice is calculated as 'A3TWhen the number of times of searching the asynchronous signal exceeds the threshold value 'Nmax' due to repeated failure in detecting the asynchronous signal, the WO 2005/086378 PCT/KR2005/000600 i counting interval is fixed to a value ,ANmaxT from then. Instead of the above parameter and equation (1), various parameters and equations may be used in order to determine the counting interval, and 'n' may have a value between 1 and 'Nmax'. 5 The present invention is applied to only the cases where the communication mode of the mobile communication terminal 400 is set as the preferred asynchronous mode or the preferred synchronous mode and is not applied to the cases where the communication mode of the mobile communication terminal 400 is set as the dedicated asynchronous mode or the dedicated synchronous mode. Therefore, upon receiving the mode switch 10 command from the synchronous communication network, the mobile communication terminal 400 checks the current communication mode and preferably searches an asynchronous signal when the current communication mode is one of the preferred asynchronous mode and the preferred synchronous mode. Next, a method for mode switching of an MMMB mobile communication terminal 15 according to the seventh embodiment of the present invention will be described in detail with reference to FIGs. 12 and 13. FIG 12 is a view for illustrating the concept of mode switching according to the seventh embodiment of the present invention. Referring to FIG 12, the synchronous communication network area of company A 20 includes a portion, of an asynchronous communication network area of company A and a portion of an asynchronous communication network area of company B. In a case where the mobile communication terminal 400 is a subscriber terminal of company A and its current communication mode is the preferred asynchronous mode, the mobile communication terminal 400 performs communication through the asynchronous 25 communication network of company A in an overlap area between the asynchronous communication network area of company A and the synchronous communication network area of company A. In the sole synchronous communication network area of company A, the mobile communication terminal 400 switches into the synchronous mode and performs communication through the synchronous communication network of company A. 30 When the mobile communication terminal 400 in the preferred asynchronous mode escapes from the asynchronous communication network area of company A and tries registration of location in an overlap area between the asynchronous communication WO 2005/086378 network area of company B and the synchronous communication network area of company A, the mobile communication terminal 400 first searches for an asynchronous signal from the asynchronous communication network of company B instead of the synchronous communication network of company A and requests registration of location to the 5 asynchronous communication network of company B. Then,. the asynchronous communication network of company B refers to subscriber information of the mobile communication terminal 400 having requested the registration of its location. When the mobile communication terminal 400 having requested the registration of location is not a subscriber of company B, the asynchronous 10 communication network of company B denies the registration of location. Then, the mobile communication terminal 400 having failed in the registration of location switches into an emergency communication state in which the mobile communication terminal 400 can process only an emergency call through the asynchronous communication network of company B. 15 Further, the registration of location may also be denied when the mobile communication terminal 400 is located within the asynchronous communication network area of company A. In this case also, the mobile communication terminal 400 switches into an emergency communication state. In the present embodiment, when the mobile communication terminal 400 20 switches into an emergency communication state due to denial of registration of location by the asynchronous communication network, the mobile communication terminal 400 switches its communication mode into a synchronous mode so that all service can be provided to the mobile communication terminal 400 through the synchronous communication network of company A. 25 FIG. 13 is a flowchart of a method for mode switching according to the seventh embodiment of the present invention. As shown in FIG. 13, when the mobile communication terminal 400 tries registration of location (step S610), the mobile communication terminal 400 first determines if an asynchronous signal is detected (step S620). 30 Here, searching of the synchronous signal is performed when the mobile communication terminal 400 is a terminal of the preferred asynchronous mode and is currently in the asynchronous mode. The registration of location includes that of all cases, WO 2005/086378 PCT/KR2005/000600 including registration when the power is on, periodical registration, registration according to movement between cells, etc. As a result of the determination, when an asynchronous signal is detected, the mobile communication terminal 400 requests registration of location to a corresponding 5 asynchronous communication network (step S630). When the mobile communication terminal 400 receives a location registration reject message in response to the request (step S640), the mobile communication terminal 400 switches into an emergency communication state in which the mobile communication terminal 400 can process only an emergency call (step S650). 10 The location registration reject message may be a message transmitted by the corresponding asynchronous communication network when the corresponding asynchronous communication network cannot find subscriber information through reference to the information stored in the asynchronous communication network or a message due to some problems in the asynchronous communication network. 15 Then, the mobile communication terminal 400 switches its communication mode into a synchronous mode (step S660) and detects a synchronous signal and registers its location to the synchronous communication network (step S670), so that the mobile communication terminal 400 can perform the communication through the synchronous communication network. 20 Further, when an asynchronous signal is not detected in step S620, the mobile communication terminal 400 switches its communication mode into the synchronous mode (step S660) and detects a synchronous signal and registers its location to the synchronous communication network (step S670). The present invention is applied to only the cases where the communication mode 25 of the mobile communication terminal 400 is set as the preferred asynchronous mode or the preferred synchronous mode and is not applied to the cases where the communication mode of the mobile communication terminal 400 is set as the dedicated asynchronous mode or the dedicated synchronous mode. Therefore, it is preferred that, in trying to register location, the mobile 30 communication terminal 400 checks the current communication mode and searches an asynchronous signal when the current communication mode is the preferred asynchronous mode. WO 2005/086378 In the above description, the mobile communication terminal switches its communication mode into a synchronous mode after switching into an emergency communication state. However, according to the present invention, the mobile communication terminal may switch its communication mode into a synchronous mode 5 upon receiving the location registration reject message from the asynchronous, communication network before entering an emergency communication state, because it is meaningless for the mobile communication terminal to actually enter the emergency communication state. 10 [Industrial Applicability] As can be seen from the foregoing, the present invention provides a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can minimize interruption in the communication when the mobile communication terminal moves from an asynchronous mobile communication network area to a synchronous 15 mobile communication network area. Also, the present invention provides a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can minimize a ping-pong phenomenon when the mobile communication terminal automatically performs mode switching between a WCDMA mode and a CDMA mode. 20 While this invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiment and the drawings, but, on the contrary, it is intended to cover various modifications and variations within the spirit and scope of the appended claims. 25 PCT/KR2005/000600 WO 2005/086378 A. [CLAIMS] [Claim 11 A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode in an idle state, the 5 multi-mode multi-band mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of: (1) measuring a power of a received signal from the asynchronous mobile 10 communication network; (2) determining if the measured power of the received signal has a value lower than a preset threshold value; (3) determining if a state in which the rrieasured power of the received signal has a value lower than a preset threshold value is maintained during a predetermined time 15 interval; (4) operating the synchronous modem when the state has been maintained during a predetermined time interval; and (5) converting a current communication mode into a synchronous mode and then entering into a synchronous mode idle state. 20 [Claim 2] The method as claimed in claim 1, wherein the power measured in step (1) is a Received Signal Code Power (RSCP) which is a power of a decoded signal obtained through decoding of the received signal from the asynchronous mobile communication network by the mobile communication terminal. 25 [Claim 3] The method as claimed in claim 1, wherein the power measured in step (1) includes a power of the received signal itself from the asynchronous mobile communication network and an RSCP which is a power of a decoded signal obtained through decoding of the received signal by the mobile communication terminal, and each 30 of the power of the received signal itself and the RSCP is compared with the preset threshold value in step (2). WO 2005/086378 W2A [Claim 4] A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode in a traffic state, the multi-mode multi-band mobile communication terminal including an asynchronous modem 5 for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of: (1) measuring a power of a received signal from the asynchronous mobile communication network; 10 (2) determining if the measured power of the received signal has a value lower than a preset threshold value; (3) determining if a state in which the measured power of the received signal has a value lower than a preset threshold value is maintained during a predetermined time interval; 15 (4) operating the synchronous modem when the state has been maintained during a predetermined time interval; (5) determining if a traffic state of an asynchronous mode call has ended or not; (6) determining if a radio link with the asynchronous mobile communication network has been released or not when it is determined that the traffic state of the 20 asynchronous mode call has not ended yet; and (7) converting a current communication mode into a synchronous mode and processing a synchronous mode call with the synchronous mobile communication network through the synchronous modem when it is determined that the radio link with the asynchronous mobile communication network has been released. 25 [Claim 5] The method as claimed in claim 4, wherein the power measured in step (1) is an RSCP which is a power of a decoded signal obtained through decoding of the received signal from the asynchronous mobile communication network by the mobile communication terminal. 30 [Claim 6] The method as claimed in claim 4, wherein the power measured in step (1) WO 2005/086378 PCT/KR2005/000600 V m 30 includes a power of the received signal itself from the asynchronous mobile communication network and an RSCP which is a power of a decoded signal obtained through decoding of the received signal by the mobile communication terminal, and each of the power of the received signal itself and the RSCP is compared with the preset 5 threshold value in step (2). [Claim 7] The method as claimed in claim 4, wherein, when it is determined in step (5) that the traffic state of the asynchronous mode call has ended, the method further comprises the steps of: 10 determining if the mobile communication terminal is currently located within an area of the asynchronous mobile communication network; and deactivating the synchronous modem when the mobile communication terminal is located within the area of the asynchronous mobile communication network and entering into an asynchronous mode idle state, and deactivating the asynchronous modem when the 15 mobile communication terminal is not located within the area of the synchronous mobile communication network and entering into a synchronous mode idle state. [Claim 8] The method as claimed in claim 4, wherein, when it is determined in step (6) that the radio link with the asynchronous mobile communication network has not been released 20 yet, the method further comprises the steps of: measuring the power of the received signal from the asynchronous mobile communication network; determining if the power of the received signal has a value exceeding a preset threshold value; and 25 deactivating the synchronous modem and returning to step (5) when it is determined that the power of the received signal has a value exceeding the preset threshold value. [Claim 9] The method as claimed in claim 8, wherein, when it is determined that the power 30 of the received signal has a value exceeding the preset threshold value, step (5) is re-executed in a state where the synchronous modem is operated. WO 2005/086378 [Claim 10] The method as claimed in claim 4, wherein, after step (7), the method further comprises the steps of: determining if the synchronous mode call with the synchronous mobile 5 communication network through the synchronous modem has been ended or not; determining if the mobile communication terminal is currently located within the area of the asynchronous mobile communication network when it is determined that the synchronous mode call has been ended; and deactivating the synchronous modem when the mobile communication terminal is 10 located within the area of the asynchronous mobile communication network and entering into an asynchronous mode idle state, and deactivating the asynchronous modem when the mobile communication terminal is not located within the area of the synchronous mobile communication network and entering into a synchronous mode idle state. [Claim 111 15 The method as claimed in claim 4, wherein step (4) comprises the steps of: monitoring a Block Error Rate (BLER) when it is determined in step (3) that the state in which the measured power of the received signal has a value lower than a preset threshold value is maintained during the predetermined time interval, the BLER indicating a rate of defective blocks per second received at a radio end; 20 comparing the BLER with a preset threshold value; and operating the synchronous modem when it is determined that the BLER exceeds the preset threshold value. [Claim 12] A method for mode switching of a multi-mode multi-band mobile communication 25 terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of: 30 (1) monitoring system information from the asynchronous mobile communication network; WO 2005/086378 PCT/KR2005/000600 (2) checking preset parameter values in the monitored system information in order to determine whether to perform mode switching; (3) operating the synchronous modem when it is determined that the preset parameter values require mode switching; and 5 (4) switching into the synchronous mode after operating the synchronous modem. [Claim 13] The method as claimed in claim 12, wherein step (3) comprises the steps of: checking a current communication mode of the mobile communication terminal; and 10 operating the synchronous modem when the current communication mode of the mobile communication terminal is a preferred asynchronous mode. [Claim 14] The method as claimed in claim 13, wherein step (3) comprises the steps of: when the current communication mode of the mobile communication terminal is a 15 preferred asynchronous mode, determining if a Mobile Country Code (MCC) and a Mobile Network Code (MNC) contained in the system information correspond to a first parameter indicating a preset country code and a second parameter indicating a preset network code, respectively; and operating the synchronous modem when the MCC and the MNC in the system 20 information correspond to the first parameter and the second parameter, respectively. [Claim 15] A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an 25 asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of: (1) searching overhead message information from the synchronous mobile communication network; 30 (2) determining if the overhead message information includes a preset mode switch parameter for mode switching; WO 2005/086378 PCT/KR2005/000600 (3) operating the asynchronous modem when it is determined that the overhead message information includes a preset mode switch parameter; and (4) switching a communication mode of the mobile communication terminal into the asynchronous mode after operating the asynchronous modem. 5 [Claiml6] The method as claimed in claim 15, wherein the mode switch parameter is set at a bit at a predetermined ordinal position from the Most Significant Bit (MSB) in the overhead message and is a parameter for notifying an overlap area between the asynchronous mobile communication network and the synchronous mobile communication 10 network. [Claim 17] The method as claimed in claim 15, wherein step (3) comprises the steps of: checking a current communication mode of the mobile communication terminal; and 15 operating the synchronous modem when the current communication mode of the mobile communication terminal is a preferred asynchronous mode or preferred synchronous mode. [Claim 18] A multi-mode multi-band mobile communication terminal comprising: 20 an asynchronous modem -for communication with an asynchronous mobile communication network; a synchronous modem for communication with a synchronous mobile communication network; and a mode switch controller for managing current state of the asynchronous modem 25 and the synchronous modem and controlling activation and deactivation of the asynchronous modem and the synchronous modem based on a communication mode corresponding to a mobile communication network to which the mobile communication terminal currently belongs, wherein: when it is determined to perform mode switching, the mode switch controller 30 operates a corresponding modem for connection with a target mobile communication network so that the corresponding modem acquires a network sync and performs WO 2005/086378 PCT/KR2005/000600 registration of location; and after performing the registration of location, the mode switch controller performs communication with the target mobile communication network through the corresponding modem and deactivates another modem having been communicating with another mobile 5 communication network. [Claim 19] A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including modems for communication with an asynchronous 10 mobile communication network and a synchronous mobile communication network, the method comprising the steps of: (1) operating a corresponding modem for connection with a target mobile communication network which is a target of mode switching, when it is determined to perform the mode switching; 15 (2) acquiring a network sync with the target mobile communication network by the corresponding modem; (3) performing registration of location to the target mobile communication network; and (4) performing communication with the target mobile communication network 20 through the corresponding modem and deactivating another modem having been communicating with another mobile communication network. [Claim 20] The method as claimed in claim 19, wherein, before step (1), it is determined to perform the mode switching when the mobile communication terminal receives a mode 25 switch parameter from a base station of the synchronous mobile communication network while moving into an area of the asynchronous mobile communication network from an area of the synchronous mobile communication network, the base station being located within an overlap area between the asynchronous mobile communication network and the synchronous mobile communication network. 30 [Claim 21] The method as claimed in claim 19, wherein, before step (1), when the mobile WO 2005/086378 M1G * communication terminal moves into the area of the asynchronous mobile communication network from the area of the synchronous mobile communication network, the mobile communication terminal monitors system information from the asynchronous mobile communication network and determines to perform the mode switching if a preset 5 parameter value for the mode switching are included in the monitored system information. [Claim 22] The method as claimed in claim 19, wherein, before step (1), whether to perform the mode switching is determined based on a result of comparison between a signal intensity of the asynchronous mobile communication network and a preset signal intensity. 10 [Claim 23] The method as claimed in claim 19, wherein it is determined to perform the mode switching when a current communication mode of the mobile communication terminal is a preferred asynchronous mode or preferred synchronous mode. [Claim 24] 15 A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method 20 comprising the steps of: (1) switching a current mode of the mobile communication terminal into an asynchronous mode and searching for an asynchronous signal, when the mobile communication terminal receives a system message from the synchronous mobile communication network while being located within an overlap area between the 25 asynchronous mobile communication network and the synchronous mobile communication network, the system message indicating mode switching from the synchronous mobile communication network to the asynchronous mobile communication network; (2) determining if an asynchronous signal is detected and if registration of location has been performed; and 30 (3) when no asynchronous signal is detected or when the registration of location has not been performed yet, switching a current mode of the mobile communication WO 2005/086378 PCT/KR2005/000600 ^5 36 terminal into a synchronous mode, waiting during a counting interval and counting a number of times for the searching, and then feedbacking to step (1). [Claim 25] The method as claimed in claim 24, wherein step (1) comprises the steps of: 5 checking a current communication mode by the mobile communication terminal; and searching for the asynchronous signal by the mobile communication terminal when the current communication mode is one of a preferred asynchronous mode and a preferred synchronous mode. 10 [Claim 26] The method as claimed in claim 24, wherein, in step (3), the counting interval increases as the number of times for the searching increases. [Claim 27] The method as claimed in claim 26, wherein the mobile communication receives a 15 system parameter from the asynchronous mobile communication network for searching the asynchronous signal and the counting interval is determined based on the system parameter in step (3). [Claim 28] The method as claimed in claim 27, wherein the. system parameter contains 20 information of a unit interval T for searching the asynchronous signal, a modulus A for determining the time interval of asynchronous signal searching, and a maximum threshold Nmax for the number of times for searching the asynchronous signal, and the counting interval is determined by an equation, t=AnT, 25 where n denotes a number of times by which the mobile communication terminal has performed searching for the asynchronous signal and n has a value increasing by one each time from 1 to 'Nmax. [Claim 29] The method as claimed in claim 28, wherein, when the number of times of 30 searching the asynchronous signal exceeds the threshold value "Nmax' the counting interval is fixed to a value ANmax*T regardless of the number of times of searching thereafter. WO 2005/086378 PCT/KR2005/000600 [Claim 30] The method as claimed in claim 27, wherein, the system parameter is one of a system parameter received by the mobile communication terminal from the asynchronous mobile communication network and a system parameter set and stored in advance in the 5 mobile communication terminal. [Claim 31] A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an 10 asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of: (1) searching for an asynchronous signal by the mobile communication terminal in the asynchronous mode and sending a request for registration of a location of the mobile 15 communication terminal to a corresponding asynchronous communication network when an asynchronous signal is detected; and (2) when the request for the registration of the location is rejected, switching a current communication mode of the mobile communication terminal into a synchronous mode, detecting a synchronous signal, and registering the location of the mobile 20 communication terminal in the synchronous communication network. [Claim 32] The method as claimed in claim 31, wherein step (1) comprises the steps of: checking a current communication mode by the mobile communication terminal; and 25 searching for the asynchronous signal by the mobile communication tenninal when the current communication mode is a preferred asynchronous. [Claim 33] The method as claimed in claim 31, wherein, when no asynchronous signal is detected through the searching by the mobile communication terminal in step (1), the 30 mobile communication terminal performs step (2) by switching a current communication mode of the mobile communication terminal into a synchronous mode, detecting a WO 2005/086378 A PCT/KR2005/000600 synchronous signal, and registering the location of the mobile communication terminal in the synchronous communication network. [Claim 34] The method as claimed in claim 32, wherein, when no asynchronous signal is 5 detected through the searching by the mobile communication terminal in step (1), the mobile communication terminal performs step (2) by switching a current communication mode of the mobile communication terminal into a synchronous mode, detecting a synchronous signal, and registering the location of the mobile communication terminal in the synchronous communication network. 10 [Claim 35 J The method as claimed in claim 31, wherein step (2) comprises the steps of: when the request for the registration of the location to a corresponding asynchronous communication network is rejected, switching the mobile communication terminal into an emergency communication state in which the mobile communication 15 terminal can process only an emergency call; and switching the current communication mode of the mobile communication terminal into a synchronous mode after the switching into the emergency communication state. [Claim 36] A multi-mode multi-band mobile communication terminal and a method for mode switching of a multi-mode multi-band mobile communication terminal substantially as herein described with reference to the accompanying drawings. Dated this 1s' day of September, 2006 OMAN A RAMAKRISHNAN OF K & S PARTNERS AGENT FOR THE APPLICANT^)

Full Text

FORM 2
THE PATENTS ACT, 1970
(39 of 1970)
&
THE PATENTS RULES, 2003
COMPLETE SPECIFICATION
(See section 10, rule 13)
"MULTI-MODE MULTI-BAND MOBILE COMMUNICATION TERMINAL AND MODE SWITCHING METHOD THEREOF'1
SK Telecom Co., Ltd.
a Korean company of 99, Seorin-dong, Jongno- gu, Seoul, 110-110 Republic of Korea.
The following specification particularly describes the invention the manner in which it is to be performed.

/

pfTJKR2005/000600 yyO 2005/086378
*-*•

[ Invention Title 1 ...
MULTI-MODE MULTI-BAND MOBILE COMMUNICATION TERMINAL , SWITCHING METHOD THEREOF
[Technical Field]
The present invention relates to a multi-mode multi-band mobile communication terminal for supporting both an asynchronous communication network and a synchronous communication network, and more particularly to a multi-mode multi-band mobile 10 communication terminal and a mode switching method thereof, which can perform a mode switching between an asynchronous mobile communication network and a synchronous mobile communication network while minimizing interruption in the communication.
[Background Art]
15 The mobile communication service has continuously developed from the first
generation (1G) mobile communication service mainly for voice communication of a low quality as was provided by an analogue cellular type Advanced Mobile Phone System (hereinafter, referred to as "AMPS") which started its service late in the 1980's. The second generation (2G) mobile communication service enabled an improved voice communication
20 and a data service at a low speed (14.4 Kbps) by employing a digital cellular type Global System for Mobile (GSM) scheme, a Code Division Multiple Access (CDMA) scheme, a Time Division Multiple Access (CDMA) scheme, etc. In the 2.5th generation (2.5G) mobile communication service, the frequency of GHz band was secured and the Personal Communication Service (PCS) available worldwide was developed, so that the 2.5G
25 mobile communication service achieved an improved voice communication service together with a data communication service at an improved speed (144 Kbps) still low as it is.
Each of the mobile communication networks for the mobile communication services up to the 2.5th generation includes various communication apparatuses such as a
30 user terminal, a base station transmitter, a base station controller, a mobile switching center, a Home Location Register (HLR) and a Visitor Location Register (VLR).

WO 2005/086378

PCT/KR2005/000600

X
The third generation (3G) mobile communication service is provided by two different kinds of systems including a Wideband CDMA (WCDMA) system and a CDMA-2000 system. The WCDMA system is an asynchronous mobile communication system proposed mainly by the 3rd Generation Partnership Project (3GPP) and the 5 CDMA-2000 system is a synchronous mobile communication system proposed mainly by the 3GPP2. Especially for the WCDMA system, many communication service providers all over the world are providing or preparing to provide services by employing wireless protocols recommended by the International Mobile Telecommunications-2000 (IMT-2000).
10 The WCDMA system achieves a high communication quality and employs the
spread spectrum scheme, so it is proper for transmission of even a large quantity of data. The WCDMA communication system uses an Adaptive Multi-Rate (AMR) codec having a transmit rate of 12.2 Kbps ~ 4.75 Kbps for voice coding and supports a high mobility enough to allow even a user moving at a speed of 100 Km per hour to perform
15 communication. Many nations are now adopting the WCDMA communication scheme, and the 3GPP constructed by organs of. many countries including the United States, Europe, Republic of Korea, Japan, the People's Republic of China, etc. is now continuously developing technology specifications for the WCDMA communication.
Recently, due to the advantages of the asynchronous WCDMA system as described
20 above, countries basically employing the synchronous CDMA-2000 network, such as the United States, Republic of Korea and the People's Republic of China, have started to construct a WCDMA network in order to provide a WCDMA service.
As a result, a mobile communication terminal capable of supporting both the synchronous communication network and the asynchronous communication network has
25 become necessary and a Multi-Mode Multi-Band (MMMB) mobile communication terminal has appeared to meet such a necessity.
The Multi-Mode includes both a synchronous mode and an asynchronous mode, and the Multi-Band includes the frequency band of 800 MHz of the 2G mobile communication service, the frequency band of 800 MHz or 1.8 GHz of the 2.5G mobile
30 communication service, the frequency band of about 2 GHz of the 3G mobile communication service, and a frequency band of the 4G mobile communication service to be provided in the future.

WO 2005/086378 PCT/KR2005/000600
K
A mode switching between the asynchronous mode and the synchronous mode is necessary when the MMMB mobile communication terminal moves into an area of a synchronous communication network from an overlap area between areas of synchronous and asynchronous communication networks. According to the conventional method for 5 mode switching, a modem for call connection with the synchronous communication network is operated after the mobile communication terminal completely escapes from the overlap area and the call connection with the asynchronous communication network is interrupted. Therefore, the mode switching according to the conventional method requires an interruption interval of at least approximately 20 seconds during which the
10 communication is interrupted.
[Disclosure] [Technical Problem]
Therefore, the present invention has been made in view of the above-mentioned
15 problems, and it is an object of the present invention to provide a multi-mode multi-band
mobile communication terminal and a mode switching method thereof, which can perform
a mode switching between an asynchronous mobile communication network and a
synchronous mobile communication network while minimizing interruption in the
communication.
20 It is another object of the present invention to provide a multi-mode multi-band
mobile communication terminal and a mode switching method thereof, which can minimize a ping-pong phenomenon when the mobile communication terminal performs mode switching between a WCDMA mode and a CDMA mode.
25 [Technical Solution]
According to an aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode in an idle state, the multi-mode multi-band mobile communication terminal including an asynchronous modem for communication
30 with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method including

PCT/KR200S/000600
WO 2005/086378
the steps of: (1) measuring a power of a received signal from the asynchronous mobile communication network; (2) determining if the measured power of the received signal has a value lower than a preset threshold value; (3) determining if a state in which the measured power of the received signal has a value lower than a preset threshold value is 5 maintained during a predetermined time interval; (4) operating the synchronous modem when the state has been maintained during a predetermined time interval; and (5) converting a current communication mode into a synchronous mode and then entering into a synchronous mode idle state.
According to another aspect of the present invention, there is provided a method
10 for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode in a traffic state, the multi-mode multi-band mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the
15 method including the steps of: (1) measuring a power of a received signal from the asynchronous mobile communication network; (2) determining if the. measured power of the received signal has a value lower than a preset threshold value; (3) determining if a state in which the measured power of the received signal has a value lower than a preset threshold value is maintained during a predetermined time interval; (4) operating the
20 synchronous modem when the state has been maintained during a predetermined time interval; (5) determining if a traffic state of an asynchronous mode call has ended or not; (6) determining if a radio link with the asynchronous mobile communication network has been released or not when it is determined that the traffic state of the asynchronous mode call has not ended yet; and (7) converting a current communication mode into a
25 synchronous mode and processing a synchronous mode call with the synchronous mobile communication network through the synchronous modem when it is determined that the radio link with the asynchronous mobile communication network has been released.
According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between
30 an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous

WO 2005/086378
k
mobile communication network, the method including the steps of: (1) monitoring system information from the asynchronous mobile communication network; (2) checking preset parameter values in the monitored system information in order to determine whether to perform mode switching; (3) operating the synchronous modem when it is determined that 5 the preset parameter values require mode switching; and (4) switching into the synchronous mode after operating the synchronous modem.
According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal
10 including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method including the steps of: (1) searching overhead message information from the synchronous mobile communication network; (2) determining if the overhead message information includes a mode switch parameter preset
15 for mode switching; (3) operating the asynchronous modem when it is determined that the overhead message information includes a preset mode switch parameter; and (4) switching a communication mode of the mobile communication terminal into the asynchronous mode after operating the asynchronous modem.
According to another aspect of the present invention, there is provided a
20 multi-mode multi-band mobile communication terminal including: an asynchronous modem for communication with an asynchronous mobile communication network; a synchronous modem for communication with a synchronous mobile communication network; and a mode switch controller for managing current state of the asynchronous modem and the synchronous modem and controlling activation and deactivation of the
25 asynchronous modem and the synchronous modem based on a communication mode corresponding to a mobile communication network to which the mobile communication terminal currently belongs, wherein: when it is determined to perform mode switching, the mode switch controller operates a corresponding modem for connection with a target mobile communication network so that the corresponding modem acquires a network sync
30 and performs registration of location; and after performing the registration of location, the mode switch controller performs communication with the target mobile communication network through the corresponding modem and deactivates another modem having been

WO 2005/086378
PCT/KR2005/000600
communicating with another mobile communication network.
According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal 5 including modems for communication with an asynchronous mobile communication network and a synchronous mobile communication network, the method including the steps of: (1) operating a corresponding modem for connection with a target mobile communication network which is a target of mode switching, when it is determined to perform the mode switching; (2) acquiring a network sync with the target mobile
10 communication network by the corresponding modem; (3) performing registration of location to the target mobile communication network; and (4) performing communication with the target mobile communication network through the corresponding modem and deactivating another modem having been communicating with another mobile communication network.
15 According to another aspect of the present invention, there is provided a method
for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous
20 mobile communication network, the method including the steps of: (1) switching a current mode of the mobile communication terminal into an asynchronous mode and searching for an asynchronous signal, when the mobile communication terminal receives a system message from the synchronous mobile communication network while being located within an overlap area between the asynchronous mobile communication network and the
25 synchronous mobile communication network, the system message indicating mode switching from the synchronous mobile communication network to the asynchronous mobile communication network; (2) determining if an asynchronous signal is detected and if registration of location has been performed; and (3) when no asynchronous signal is detected or when the registration of location has not been performed yet, switching a
30 current mode of the mobile communication terminal into a synchronous mode, waiting during a counting interval and counting a number of times for the searching, and then feedbacking to step (1).

WO 2005/086378 PCT/KR2005/000600
According to another aspect of the present invention, there is provided a method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile 5 communication network and a synchronous modem for communication with a synchronous mobile communication network, the method including the steps of: (1) searching for an asynchronous signal by the mobile communication terminal in the asynchronous mode and sending a request for registration of a location of the mobile communication terminal to a corresponding asynchronous communication network when an asynchronous signal is 10 detected; and (2) when the request for the registration of the location is rejected, switching a current communication mode of the mobile communication terminal into a synchronous mode, detecting a synchronous signal, and registering the location of the mobile communication terminal in the synchronous communication network.
15 [Advantageous Effects 1
As can be seen from the foregoing, the present invention provides a multi-mode
multi-band mobile communication terminal and a mode switching method thereof, which
can minimize interruption in the communication when the mobile communication terminal
moves from an asynchronous mobile communication network area to a synchronous
20 mobile communication network area.
Also, the present invention provides a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can minimize a ping-pong phenomenon when the mobile communication terminal automatically performs mode switching between a WCDMA mode and a CDMA mode. 25
(Description of Drawings]
The foregoing and other objects, features and advantages of the present invention
will become more apparent from the following detailed description when taken in
conjunction with the accompanying drawings in which:
30 FIG. 1 is a block diagram illustrating communication networks to which an
MMMB mobile communication terminal according to the present invention connects;

WO 2005/086378
PCT/KR2005/000600 XFIG. 2 is a block diagram illustrating a construction of an MMMB mobile communication terminal according to the present invention;
FIG 3 is a block diagram illustrating a construction of a common module of an
MMMB mobile communication terminal in detail;
5 FIG. 4 is a view for illustrating the concept of mode switching of a MMMB mobile
communication terminal according to the present invention;
FIG 5 is a graph for illustrating a mode switching based on a signal intensity in a method for mode switching according to the first embodiment of the present invention;
FIG. 6 is a flowchart of the method for mode switching according to the first 10 embodiment of the present invention;
FIG. 7 is a flowchart of a method for mode switching according to the second embodiment of the present invention;
FIG. 8 is a flowchart of a method for mode switching according to the third
embodiment of the present invention;
15 FIG. 9 is a flowchart of a method for mode switching according to the fourth
embodiment of the present invention;
FIG 10 is a flowchart of a method for mode switching according to the fifth embodiment of the present invention;
FIG. 11 is a flowchart of a method for mode switching according to the sixth 20 embodiment of the present invention;
FIG 12 is a view for illustrating the concept of mode switching according to the seventh embodiment of the present invention; and
FIG 13 is a flowchart of a method for mode switching according to the seventh embodiment of the present invention. 25
[Best Mode]
Hereinafter, a mobile communication terminal according to the present invention will be described in detail with reference to FIGs. 1 through 3.
First, FIG 1 is a block diagram illustrating communication networks to which an 30 MMMB mobile communication terminal according to the present invention connects.
Referring to FIG 1, the WCDMA network 100, which is an asynchronous

WO 2005/086378

PCT/KR2005/000600

#\0
communication network, includes a radio station 101 performing radio communication with a mobile communication terminal 400, a Radio Network Controller (hereinafter, referred to as "RNC") 102 for controlling the radio station 101, a Serving GPRS Service Node (hereinafter, referred to as "SGSN") 103 connected to the RNC 102 to control the 5 mobility of the mobile communication terminal 400, and a Gateway GPRS Supporting Node (hereinafter, referred to as "GGSN") 106 for asynchronous communication network data service,, which is a relay apparatus for performing the packet service control and packet data transfer through the GPRS network 105.
The RNC 102 is connected to a Mobile Switching Center (hereinafter, referred to
10 as "MSC") 104 for performing call switching and the MSC 104 is connected to a No. 7 signal network 107 for signal switching. The No. 7 signal network 107 is connected to both a Short Message Service Center (hereinafter, referred to as "SMSC") 108 for providing a short message service and a Home Location Register (hereinafter, referred to as "HLR") 109 for managing the location information of subscribers.
15 Meanwhile, the CDMA2000 network 200, which is a synchronous communication
network, includes a Base Transceiver Station (hereinafter, referred to as "BTS") 201 performing radio communication with the mobile communication terminal 400, a Base Station Controller (hereinafter, referred to as "BSC") 202 for controlling the BTS 201, a Packet Data Service Node (hereinafter, referred to as "PDSN") 204 connected to the BSC
20 202 to provide packet data, a Data Core Network (hereinafter, referred to as "DCN") 208 connected to the PDSN 204 to provide an Internet connection service, and an MSC 203 connected to the BSC 202 to perform the signal switching.
The MSC 203 is connected to a No. 7 signal network 205 for signal switching. The No. 7 signal network 205 is connected to both an SMSC 206 for providing a short message
25 service and an HLR 207 for managing the location information of subscribers.
In the present embodiment, each of the synchronous communication network 200 and the asynchronous communication network 100 includes a separate HLR 109 or 207 for managing the subscriber information and location information. However, the synchronous communication network 200 and the asynchronous communication network 100 may share
30 the subscriber information and location information by using only one HLR (dual-stack home location register) in the two kinds of networks.
FIG 2 is a block diagram illustrating a construction of an MMMB mobile

WO 2005/086378
-ten

PCT/KR2005/000600

communication terminal according to the present invention.
Referring to FIG. 2, an MMMB mobile communication terminal 400 according to the present invention, which supports both the synchronous mobile communication and the asynchronous mobile communication, has protocol stacks of both the synchronous mobile 5 communication and the asynchronous mobile communication.
The MMMB mobile communication terminal 400 according to the present invention includes, in brief, an antenna 410 for transmitting/receiving radio waves to/from the synchronous communication network 200 and the asynchronous communication network 100, a synchronous radio apparatus 430 for synchronous communication, an 10 asynchronous radio apparatus 420 for asynchronous communication, and a common module 440 for providing common resources for both the synchronous communication and the asynchronous communication.
The synchronous radio apparatus 430 includes a synchronous radio transmitter 432
for radio transmission, a synchronous radio receiver 433 for radio reception, and a
15 synchronous modem 434. One side of each of the synchronous radio transmitter 432 and
the synchronous radio receiver 433 is connected to the antenna 410 through a duplexer 431
and the other side thereof is connected to the synchronous modem 434.
The asynchronous radio apparatus 420 also includes an asynchronous radio transmitter 422 for radio transmission, an asynchronous radio receiver 423 for radio 20 reception, and an asynchronous modem 424. One side of each of the asynchronous radio transmitter 422 and the asynchronous radio receiver 423 is connected to the antenna 410 through a duplexer 421 and the other side thereof is connected to the asynchronous modem 424.
FIG 3 is a block diagram illustrating a construction of a common module of an 25 MMMB mobile communication terminal in detail.
Referring to FIG 3, the common module 440 of the MMMB mobile communication terminal according to the present invention includes a plurality of Dual Port RAMs (hereinafter, referred to as "DPRAMs") 441 and 442 connected to the modems 424 and 434 of the asynchronous radio apparatus 420 and the synchronous radio apparatus 30 430, respectively, and a main processor 443 connected to the DPRAMs 441 and 442, which performs general control of the synchronous and asynchronous communication of the mobile communication terminal 400 and execution of applications. The main processor

WO 2005/086378
PCT/KR2005/000600
12
443 is connected to a memory 444 for storing data, an I/O device 445 for connection with peripheral devices, and a power control module (hereinafter, referred to as "PWM") 446 for power control.
Further, the common module 440 includes a mode switch controller (call manager 5 for roaming) 447 for minimizing call interruption due to time delay during the mode switching. The mode switch controller 447 is connected to the synchronous modem 434 and the asynchronous modem 424 to perform the mode switching control. Although the present embodiment employs a separate mode switch controller 447, the mode switch controller may be embedded in the synchronous modem 434 and the asynchronous modem
10 424.
Therefore, the mobile communication terminal having the construction as described above can perform communication in both the asynchronous network and the synchronous network. Also, the mobile communication terminal 400 having the construction as described above may have four kinds of modes selectable by a user, which
15 includes a dedicated asynchronous mode (WCDMA only), a preferred asynchronous mode (WCDMA preferred), a preferred synchronous mode (CDMA preferred), and a dedicated synchronous mode (CDMA only). In the dedicated asynchronous mode, the mobile communication terminal 400 performs communication only through the asynchronous communication network. In the preferred asynchronous mode, the mobile communication
20 terminal 400 performs communication basically through the asynchronous communication network and performs mode switching in order to enable communication through the synchronous communication network when it escapes out of the area of the asynchronous communication network. In the preferred synchronous mode, the mobile communication terminal 400 performs communication basically through the synchronous communication
25 network and performs mode switching in order to enable communication through the asynchronous communication network when it goes into the area of the asynchronous communication network. In the dedicated synchronous mode, the mobile communication terminal 400 performs communication only through the synchronous communication network.
30 Hereinafter, a method for mode switching of an MMMB mobile communication
terminal according to a first embodiment of the present invention will be described with reference to FIGs. 4 through 6. According to the first embodiment of the present invention,

WO 2005/086378

PCT/KR2005/000600

the MMMB mobile communication terminal shifts from the asynchronous mode to the synchronous mode based on the intensity of signals received from the asynchronous communication network.
FIG 4 is a view for illustrating the concept of mode switching of a MMMB mobile 5 communication terminal according to the present invention.
As the mobile communication terminal 400 moves from an area A of the asynchronous communication network to a boundary area B between the asynchronous communication network and the synchronous communication network, the mobile communication terminal 400 receives a signal from the asynchronous network radio station 10 10.1 with a reduced intensity. Here, the mobile communication terminal 400 determines based on the measured intensity of the signal from the asynchronous network whether to perform mode switching between the asynchronous mode and the synchronous mode.
The intensity of the signal from the asynchronous network can be obtained based
on a ratio (expressed as Ec/Io; Energy of Carrier/Interference of Others) of the signal
15 intensity of the pilot channel to the magnitude of all received noise, a receive (Rx) power
expressed as RSSI (Received Signal Strength Indicator), a Received Signal Code Power
(RSCP), etc.
From among those parameters, Ec/Io excessively changes according to the
surrounding radio environments. In contrast, RSSI and RSCP have a nearly constant
20 threshold value because RSSI is a receive power of the mobile communication terminal
and RSCP is a value obtained through the decoding of the signal received by the mobile
communication terminal.
Therefore, the present invention employs RSSI or RSCP instead of Ec/Io in measuring the signal intensity. Hereinafter, a method using RSCP will be described, 25 although the same method can be applied to RSSI also.
FIG 5 is a graph for illustrating a mode switching based on a signal intensity in a method for mode switching according to the first embodiment of the present invention. Here, the signal intensity will be described based on RSCP.
As noted from FIG 5, when the signal intensity lowers below a preset threshold
30 value TH, the mobile communication terminal 400 recognizes that it is currently escaping
from the area of the asynchronous communication network and determines if such a state
continues during a predetermined time interval T. When such a state continues during a

WO 2005/086378
predetermined time interval T, the mobile communication terminal 400 prepares mode switching from the asynchronous mode to the synchronous mode by operating the synchronous modem. In the state where the synchronous modem is operated, when the signal from the radio station of the asynchronous communication network is released, the 5 mobile communication terminal 400 determines that it has escaped from the area A of the asynchronous communication network and entered the area C of the asynchronous communication network. Then, the mobile communication terminal 400 instantly connects with the synchronous communication network through the synchronous modem, thereby completing the mode switching.
10 FIG 6 is a flowchart of the method for mode switching according to the first
embodiment of the present invention. The method for mode switching according to the first embodiment of the present invention is a method performed when the MMMB mobile communication terminal is in an idle state.
Referring to FIG 6, when the mobile communication terminal 400 is in an idle
15 state in the area of the asynchronous communication network 100 (step S10), the main processor 443 determines if RSCP has a value lower than the preset threshold value TH (step S20).
When it is determined in step S20 that RSCP has a value lower than the preset threshold value TH, the main processor 443 determines if the state in which RSCP has a
20 value lower than the preset threshold value TH is maintained during a predetermined time interval T(step S30).
When it is determined in step S30 that the state in which RSCP has a value lower than the preset threshold value TH is maintained during a predetermined time interval T, the main processor 443 operates the synchronous modem 434 for communication with the
25 synchronous communication network 200 (step S40). Then, the main processor 443 converts the current communication mode into the synchronous mode (step S50) and then goes into a synchronous mode idle state (step S60).
Next, a method for mode switching of an MMMB mobile communication terminal according to the second embodiment of the present invention will be described in detail
30 with reference to FIG 7. The second embodiment of the present invention is different from the first embodiment in that the method for mode switching according to the second embodiment of the present invention is performed when the MMMB mobile

PCT/KR2005/000600
y\5
communication terminal is in a traffic state.
FIG 7 is a flowchart of a method for mode switching according to the second embodiment of the present invention.
Referring to FIG. 7, when the mobile communication terminal 400 is in a traffic 5 state in the area of the asynchronous communication network 100 (step SI 10), the main processor 443 determines if RSCP has a value lower than the preset threshold value TH (step S120).
When it is determined in step SI20 that RSCP has a value lower than the preset threshold value TH, the main processor 443 determines if the state in which RSCP has a 10 value lower than the preset threshold value TH is maintained during a predetermined time interval T(step SI30).
When it is determined in step SI30 that the state in which RSCP has a value lower than the preset threshold value TH is maintained during a predetermined time interval T, the main processor 443 monitors a BLock Error Rate (BLER) which indicates the rate of 15 defective blocks per second received at the radio end (step S140).
Then, when it is determined in step SI50 that the BLER monitored in step SI40
exceeds a preset threshold value (e.g. about 10%), the main processor 443 operates the
synchronous modem 434 in order to prepare communication with the synchronous
communication network 200 (step SI60).
20 Here, steps SI40 and SI50 may be omissible because they are necessary only to
compensate for and are not indispensable in the second embodiment of the present invention. In the case where steps SI40 and SI50 are omitted, when it is determined in step SI30 that the state in which RSCP has a value lower than the preset threshold value TH is maintained during a predetermined time interval T, the main processor 443 operates the 25 synchronous modem 434 in order to prepare communication with the synchronous communication network 200 (step SI60).
In this case, even after operating the synchronous modem 434, the main processor 443 does not attempt registration of the synchronous communication network 200. Further, the main processor 443 determines if the asynchronous mode call currently in a traffic state 30 has ended or not (step S170).
When it is determined in step SI 70 that the traffic state of the asynchronous mode call has been ended, the main processor 443 determines if the mobile communication

WO 2005/086378

PCT/KR2005/000600

L
terminal 400 is located within the area of the asynchronous communication network 100 in order to go into an idle state (step SI80).
When it is determined in step SI80 that the mobile communication terminal 400 is located within the area of the asynchronous communication network 100, the main 5 processor goes into the asynchronous mode idle state (step SI90) in which the synchronous modem 434 operated in step SI60 is inactivated.
However, when it is determined in step SI80 that the mobile communication terminal 400 is not located within the area of the asynchronous communication network 100, which means that the mobile communication terminal 400 is located within the area
10 of the synchronous communication network, the main processor 443 goes into the synchronous mode idle state (step SI81) in which the asynchronous modem 424 is inactivated.
Meanwhile, when it is determined in step SI70 that the traffic state of the asynchronous mode call has not ended yet, the main processor 443 determines if the radio
15 link with the asynchronous communication network 100 has been released or not (step SI71). Specifically, the main processor 443 determines whether the mobile communication terminal 400 has escaped from the area of the asynchronous communication network 100, and performs mode switching into the synchronous mode through the synchronous modem 434 started its operation in step SI60 when it is determined that the mobile communication
20 terminal 400 has escaped from the area of the asynchronous communication network 100 (step SI72).
Then, the main processor 443 determines if the call has been ended or not (step SI73). When it is determined in step SI73 that the call has been ended, the main processor 443 performs step SI80 and determines if the mobile communication terminal 400 is
25 currently located within the area of the asynchronous communication network 100 in order to go into the idle state. When it is determined in step SI80 that the mobile communication terminal 400 is located within the area of the asynchronous communication network 100, the main processor goes into the asynchronous mode idle state (step SI90) in which the synchronous modem 434 started its operation in step SI60 is inactive.
30 However, when it is determined in step SI80 that the mobile communication
terminal 400 is not located within the area of the asynchronous communication network 100, which means that the mobile communication terminal 400 is located within the area

WO 2005/086378
J8l-f
of the synchronous communication network, the main processor 443 goes into the synchronous mode idle state (step SI81) in which the asynchronous modem 424 is inactivated.
Then, when it is determined in step SI71 that the radio link with the asynchronous
5 communication network 100 has not been released, the main processor 443 determines if
the RSCP has a value exceeding a preset threshold value TH or not in order to determine if
the mobile communication terminal 400 is currently located within the area of the
asynchronous communication network 100 or not (step SI74).
When it is determined in step SI74 that the RSCP has a value exceeding the preset
10 threshold value TH, the main processor 443 determines that the mobile communication
terminal 400 is currently located within the area of the asynchronous communication
network 100 and turns off the currently operating synchronous modem 434 (step SI75),
and then proceeds to step S170.
Although the previous embodiment has been described by using the parameter 15 RSCP of the received signal code power as an example, the same can be said in steps S20, SI20 and SI74 by using the power value RSSI of the received signal itself instead of the RSCP.
Further, it is possible to realize the present invention by using both of the parameters RSCP and RSSI, specifically, by measuring the received signal code power and 20 the power value RSSI of the received signal itself and then comparing them with preset reference values in steps S20, SI20 and SI74.
Hereinafter, a method for mode switching of an MMMB mobile communication terminal according to the third embodiment of the present invention will be described in detail with reference to FIG. 8. According to the third embodiment of the present invention, 25 the mode switching from the asynchronous mode to the synchronous mode is performed based on the system information block transmitted from the asynchronous communication network.
FIG 8 is a flowchart of a method for mode switching according to the third
embodiment of the present invention.
30 Referring to FIG 8, the mobile communication terminal monitors system
information blocks of each cell transmitted from a radio station of the asynchronous
communication network while performing cell selection (step S210). Further, the mobile

WO 2005/086378

PCT/KR2005/000600

4-

&\V

communication terminal determines if a parameter in the monitored system information block has been preset to indicate mode switching into the synchronous communication network (step S220).
When it is determined in step S220 that a parameter in the monitored system 5 information block has been preset to indicate mode switching into the synchronous communication network, the mobile communication terminal determines if the terminal mode is currently set as the preferred asynchronous mode (step S230). In the preferred asynchronous mode, the mobile communication terminal first connects with the asynchronous communication network and then connects with the synchronous
10 communication network when it fails to connect with the asynchronous communication network.
When it is determined in step S230 that the terminal mode is currently set as the preferred asynchronous mode, the mobile communication terminal determines if a Mobile Country Code (MCC) contained in the system information block is a preset country code
15 (1st parameter; for example, a parameter having a value of 450 (MCC=450) for Republic of Korea) and if a Mobile Network Code (MNC) is a preset network code (2nd parameter; for example, a parameter having a value of 05 (MNC=05) for SK Telecom Co., Ltd.) in step S240.
When it is determined in step S240 that the MCC is preset as the first parameter
20 and the MNC is preset as the second parameter, the mobile communication terminal determines that it is necessary to shift into the synchronous mode and operates the synchronous modem (step S250). After operating the synchronous modem, the mobile communication terminal switches the current communication mode (asynchronous mode) to the synchronous mode (step S260).
25 When it is determined in step S230 that the current terminal mode is not the
preferred asynchronous mode, for example, when the currently set terminal mode is the dedicated asynchronous mode, the mobile communication terminal does not perform the mode switching and maintains the current asynchronous mode even though the system information block satisfies conditions for the mode switching (step S231).
30 Also, when it is determined in step S240 that the MCC is not preset as the first
parameter or the MNC is not preset as the second parameter, the mobile communication terminal does not perform the mode switching and maintains the current asynchronous

WO 2005/086378 PCT/KR2005/000600
X
mode even though the system information block satisfies conditions for mode switching (stepS231).
Next, a method for mode switching of an MMMB mobile communication terminal according to the fourth embodiment of the present invention will be described in detail 5 with reference to FIG 9. According to the fourth embodiment of the present invention, the mobile communication terminal performs the mode switching from the asynchronous mode to the synchronous mode based on overhead message information (e.g. base ID information) transmitted from the synchronous communication network.
FIG. 9 is a flowchart of a method for mode switching according to the fourth 10 embodiment of the present invention.
Referring to FIG. 9, the mobile communication terminal in communication through the synchronous communication network checks overhead message information of the BSC 202 of the synchronous communication network 200 (step S310). Then, the MCT determines if the base ID information found in step S310 includes a preset mode switch 15 parameter (step S320). Here, the mode switch parameter is set at a bit at a predetermined ordinal position (the second bit in the present embodiment) from the Most Significant Bit (MSB) in the base ID and is a parameter for notifying the overlap area between the asynchronous communication network and the synchronous communication network.
When it is determined in step S320 that the base ID information found in step
20 S310 includes a preset mode switch parameter, the mobile communication terminal
determines if the terminal mode is currently set as one of the preferred asynchronous mode
and the preferred synchronous mode or not (step S330). In the preferred asynchronous
mode, the mobile communication terminal first connects with the asynchronous
communication network and then connects with the synchronous communication network
25 when it fails to connect with the asynchronous communication network. In the preferred
synchronous mode, the mobile communication terminal first connects with the
synchronous communication network and then connects with the asynchronous
communication network when it fails to connect with the synchronous communication
network.
30 When it is determined in step S330 that the terminal mode is currently set as one
of the preferred asynchronous mode and the preferred synchronous mode, the mobile
communication terminal determines the mode switching into the asynchronous mode and

WO 2005/086378

PCT/KR2005/000600

>3 W)
operates the asynchronous modem (step S340). Then, the mobile communication terminal switches the current communication mode (synchronous mode) to the asynchronous mode (step S350).
When it is determined in step S330 that the current terminal mode is neither the 5 preferred asynchronous mode nor the preferred synchronous mode but is the dedicated synchronous mode, the mobile communication terminal does not perform the mode switching and maintains the current synchronous mode (step S331).
Next, a method for mode switching of an MMMB mobile communication terminal according to the fifth embodiment of the present invention will be described in detail with
10 reference to FIG 10. The method according to the fifth embodiment of the present invention is a specific method in which the mode switching from the asynchronous mode to the synchronous mode is first determined and the synchronous modem is then inactivated and the asynchronous modem is activated in the mobile communication terminal, so that the mobile communication terminal operates in the asynchronous mode.
15 FIG 10 is a flowchart of a method for mode switching according to the fifth
embodiment of the present invention.
Referring to FIG 10, the mobile communication terminal 400 in communication through the synchronous communication network operates in the synchronous mode through the synchronous modem (step S410). Then, when the mode switching from the
20 asynchronous mode to the synchronous mode is determined as described above (step S420), the mode switch controller 447 requests mode switching to the asynchronous modem 434 (step S430). Then, the asynchronous modem 434 operates to detect a signal from the asynchronous communication network (step S440) and determines if there is a normally detected signal (step S450).
25 When it is determined in step S450 that there is no WCDMA signal, the
asynchronous modem 434 transmits a sync acquisition failure message to the mode switch controller 447 (step S451) and goes into an off state or a sleep state (step S452).
Upon receiving the sync acquisition failure message in step S451, the mode switch controller 447 recognizes the failure in acquisition of sync of the asynchronous
30 communication network and transmits an operation maintenance message to the synchronous modem 424 to maintain the current state (step S453). Then, the synchronous modem 424 maintains the current state (step S454) and the mobile communication terminal

WO 2005/086378
-4.
400 continues to operate in the synchronous mode.
Meanwhile, when it is determined in step S450 that a WCDMA signal has been detected and the sync has been acquired, the asynchronous modem 434 requests registration of location to the asynchronous communication network (step S461). When the 5 location information of the mobile communication terminal 400 in the asynchronous communication network is registered in the HLR 207 in response to the request (step S462), the HLR 207 transmits a response reporting the location registration (step S463). Further, the asynchronous communication network transmits the response reporting the location registration to the synchronous modem 434 (step S464).
10 After receiving the response in step 464, the synchronous modem 434 transmits to
the mode switch controller 447 a message reporting the current state, that is, a message reporting that the location registration to the asynchronous communication network has been completed (step S470). Then, the asynchronous modem 424 is activated and the mobile communication terminal 400 operates in the asynchronous mode (step S480).
15 Here, upon receiving the location registration completion message from the
asynchronous modem 434, the mode switch controller 447 recognizes a success in mode switching into the asynchronous communication network. Then, the mode switch controller 447 transmits to the synchronous modem 424 a message in order to deactivate the synchronous modem 424 into the off state or sleep state (step S471). Then, the
20 synchronous modem 424 is deactivated (step S472) and the mode switching is completed.
Next, a method for mode switching of an MMMB mobile communication terminal
according to the sixth embodiment of the present invention will be described in detail with
reference to FIG. 11. The method according to the sixth embodiment of the present
invention is a method performed when the synchronous communication network is
25 defective or has such a weak electric field that it is impossible to register the location in the course of the mode switching from the asynchronous mode to the synchronous mode.
Specifically, when the asynchronous communication network is defective or has such a weak electric field that it is impossible to register the location, the mode transition may be repeatedly tried alternately into the synchronous communication network and the
30 asynchronous communication network, thereby causing a ping-pong phenomenon in which the mobile communication terminal continuously stays in a communication disabled state. Therefore, when the mobile communication terminal receives a mode switch command

WO 2005/086378

PCT/KR2005/000600

&7>
i
from the synchronous communication network, the mobile communication terminal tries registration of location by detecting an asynchronous signal in the asynchronous mode. When there is a problem in the switching, the mobile communication terminal returns to the synchronous mode and periodically tries detection of asynchronous signal in order to 5 perform the mode switching into the asynchronous mode.
FIG 11 is a flowchart of a method for mode switching according to the sixth embodiment of the present invention.
Referring to FIG 11, when the mobile communication terminal 400 receives a
switching command signal from the synchronous communication network 200 and
10 determines to perform the switching from the synchronous communication network 200 to
the asynchronous communication network 100 (step S510), the mobile communication
terminal 400 switches its current communication mode from the synchronous mode to the
asynchronous mode (step S520) and determines if an asynchronous signal is detected (step
S530).
15 When an asynchronous signal is detected, the mobile communication terminal 400
determines if the registration of location to the asynchronous communication network is
completed (step S540). When the registration of location is completed, the mobile
communication terminal 400 performs communication through the asynchronous
communication network. Here, the registration of location to the asynchronous
20 communication network refers to registration of location to a Circuit Network (CS) or a
Packet Service (PS) network.
Further, when an asynchronous signal is not detected in step S530 or when it is
impossible to perform communication in the asynchronous mode due to failure in the
registration of location by some problems in the asynchronous communication network,
25 the mobile communication terminal 400 switches back to the synchronous mode (step
S550).
Next, the mobile communication terminal 400 waits a predetermined time interval and counts the number of times of the waiting (step S560) and then switches back to the asynchronous mode (step S520) and determines if an asynchronous signal is detected (step 30 S530). This feedback process is repeated until the location is registered.
Here, it is preferable to gradually increase the counting interval (which corresponds to a time interval of detecting the asynchronous signal) according to a

WO 2005/086378 PCT/KR2005/000600
-i
predetermined basis reflecting the number of times by which the asynchronous signal has
been detected. A counting parameter for determining the counting interval is included in
the system parameter transmitted from the radio station of the asynchronous
communication network to the mobile communication terminal 400.
5 Therefore, upon receiving a mode switch command, the mobile communication
terminal 400 determines the counting interval for detecting the asynchronous signal based on the counting parameter, waits the counting interval and counts the number of times, and then searches an asynchronous signal.
It is preferred that a basic parameter capable of replacing the counting parameter is
10 preset and stored in the mobile communication terminal, so that the mobile communication terminal 400 can determine the counting interval based oh the stored basic parameter when it fails to receive the counting parameter.
The parameter used for the counting may contain information of, for example, a unit interval T for searching the asynchronous signal, a modulus A for determining the time
15 interval of asynchronous signal searching, and a maximum threshold N max for the number of times for searching the asynchronous signal. When the number of times by which the mobile communication terminal 400 performed searching for the asynchronous signal is put as 'n' the mobile communication terminal 400 determines the counting interval by Equation (1) below.
20
t=An*T (1)
In Equation (1), 'n' (the number of times of searching for the asynchronous signal) has a value increasing by one each time from 1 to "Nmax' In other words, by Equation (1),
25 the initial counting interval during which the mobile communication terminal 400 waits after failing the registration of location first time is calculated as 'An*T the counting interval during which the mobile communication terminal 400 waits after failing the registration of location first time twice is calculated as 'A2*T' and the counting interval during which the mobile communication terminal 400 waits after failing the registration of
30 location first time twice is calculated as 'A3*TWhen the number of times of searching the asynchronous signal exceeds the threshold value 'Nmax' due to repeated failure in detecting the asynchronous signal, the

WO 2005/086378 PCT/KR2005/000600
i
counting interval is fixed to a value ,ANmax*T from then.
Instead of the above parameter and equation (1), various parameters and equations
may be used in order to determine the counting interval, and 'n' may have a value between
1 and 'Nmax'.
5 The present invention is applied to only the cases where the communication mode
of the mobile communication terminal 400 is set as the preferred asynchronous mode or the preferred synchronous mode and is not applied to the cases where the communication mode of the mobile communication terminal 400 is set as the dedicated asynchronous mode or the dedicated synchronous mode. Therefore, upon receiving the mode switch
10 command from the synchronous communication network, the mobile communication terminal 400 checks the current communication mode and preferably searches an asynchronous signal when the current communication mode is one of the preferred asynchronous mode and the preferred synchronous mode.
Next, a method for mode switching of an MMMB mobile communication terminal
15 according to the seventh embodiment of the present invention will be described in detail with reference to FIGs. 12 and 13.
FIG 12 is a view for illustrating the concept of mode switching according to the seventh embodiment of the present invention.
Referring to FIG 12, the synchronous communication network area of company A
20 includes a portion, of an asynchronous communication network area of company A and a portion of an asynchronous communication network area of company B. In a case where the mobile communication terminal 400 is a subscriber terminal of company A and its current communication mode is the preferred asynchronous mode, the mobile communication terminal 400 performs communication through the asynchronous
25 communication network of company A in an overlap area between the asynchronous communication network area of company A and the synchronous communication network area of company A. In the sole synchronous communication network area of company A, the mobile communication terminal 400 switches into the synchronous mode and performs communication through the synchronous communication network of company A.
30 When the mobile communication terminal 400 in the preferred asynchronous
mode escapes from the asynchronous communication network area of company A and tries registration of location in an overlap area between the asynchronous communication

WO 2005/086378
network area of company B and the synchronous communication network area of company A, the mobile communication terminal 400 first searches for an asynchronous signal from the asynchronous communication network of company B instead of the synchronous communication network of company A and requests registration of location to the 5 asynchronous communication network of company B.
Then,. the asynchronous communication network of company B refers to subscriber information of the mobile communication terminal 400 having requested the registration of its location. When the mobile communication terminal 400 having requested the registration of location is not a subscriber of company B, the asynchronous
10 communication network of company B denies the registration of location. Then, the mobile communication terminal 400 having failed in the registration of location switches into an emergency communication state in which the mobile communication terminal 400 can process only an emergency call through the asynchronous communication network of company B.
15 Further, the registration of location may also be denied when the mobile
communication terminal 400 is located within the asynchronous communication network area of company A. In this case also, the mobile communication terminal 400 switches into an emergency communication state.
In the present embodiment, when the mobile communication terminal 400
20 switches into an emergency communication state due to denial of registration of location by the asynchronous communication network, the mobile communication terminal 400 switches its communication mode into a synchronous mode so that all service can be provided to the mobile communication terminal 400 through the synchronous communication network of company A.
25 FIG. 13 is a flowchart of a method for mode switching according to the seventh
embodiment of the present invention.
As shown in FIG. 13, when the mobile communication terminal 400 tries registration of location (step S610), the mobile communication terminal 400 first determines if an asynchronous signal is detected (step S620).
30 Here, searching of the synchronous signal is performed when the mobile
communication terminal 400 is a terminal of the preferred asynchronous mode and is currently in the asynchronous mode. The registration of location includes that of all cases,

WO 2005/086378 PCT/KR2005/000600
including registration when the power is on, periodical registration, registration according to movement between cells, etc.
As a result of the determination, when an asynchronous signal is detected, the mobile communication terminal 400 requests registration of location to a corresponding 5 asynchronous communication network (step S630). When the mobile communication terminal 400 receives a location registration reject message in response to the request (step S640), the mobile communication terminal 400 switches into an emergency communication state in which the mobile communication terminal 400 can process only an emergency call (step S650).
10 The location registration reject message may be a message transmitted by the
corresponding asynchronous communication network when the corresponding asynchronous communication network cannot find subscriber information through reference to the information stored in the asynchronous communication network or a message due to some problems in the asynchronous communication network.
15 Then, the mobile communication terminal 400 switches its communication mode
into a synchronous mode (step S660) and detects a synchronous signal and registers its location to the synchronous communication network (step S670), so that the mobile communication terminal 400 can perform the communication through the synchronous communication network.
20 Further, when an asynchronous signal is not detected in step S620, the mobile
communication terminal 400 switches its communication mode into the synchronous mode (step S660) and detects a synchronous signal and registers its location to the synchronous communication network (step S670).
The present invention is applied to only the cases where the communication mode
25 of the mobile communication terminal 400 is set as the preferred asynchronous mode or the preferred synchronous mode and is not applied to the cases where the communication mode of the mobile communication terminal 400 is set as the dedicated asynchronous mode or the dedicated synchronous mode.
Therefore, it is preferred that, in trying to register location, the mobile
30 communication terminal 400 checks the current communication mode and searches an asynchronous signal when the current communication mode is the preferred asynchronous mode.

WO 2005/086378
In the above description, the mobile communication terminal switches its communication mode into a synchronous mode after switching into an emergency communication state. However, according to the present invention, the mobile communication terminal may switch its communication mode into a synchronous mode 5 upon receiving the location registration reject message from the asynchronous, communication network before entering an emergency communication state, because it is meaningless for the mobile communication terminal to actually enter the emergency communication state.
10 [Industrial Applicability]
As can be seen from the foregoing, the present invention provides a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can minimize interruption in the communication when the mobile communication terminal moves from an asynchronous mobile communication network area to a synchronous
15 mobile communication network area.
Also, the present invention provides a multi-mode multi-band mobile communication terminal and a mode switching method thereof, which can minimize a ping-pong phenomenon when the mobile communication terminal automatically performs mode switching between a WCDMA mode and a CDMA mode.
20 While this invention has been described in connection with what is presently
considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiment and the drawings, but, on the contrary, it is intended to cover various modifications and variations within the spirit and scope of the appended claims.
25

PCT/KR2005/000600
WO 2005/086378
A.
[CLAIMS] [Claim 11
A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode in an idle state, the 5 multi-mode multi-band mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of:
(1) measuring a power of a received signal from the asynchronous mobile
10 communication network;
(2) determining if the measured power of the received signal has a value lower than a preset threshold value;
(3) determining if a state in which the rrieasured power of the received signal has a value lower than a preset threshold value is maintained during a predetermined time
15 interval;
(4) operating the synchronous modem when the state has been maintained during a predetermined time interval; and
(5) converting a current communication mode into a synchronous mode and then entering into a synchronous mode idle state.
20 [Claim 2]
The method as claimed in claim 1, wherein the power measured in step (1) is a Received Signal Code Power (RSCP) which is a power of a decoded signal obtained through decoding of the received signal from the asynchronous mobile communication network by the mobile communication terminal.
25 [Claim 3]
The method as claimed in claim 1, wherein the power measured in step (1) includes a power of the received signal itself from the asynchronous mobile communication network and an RSCP which is a power of a decoded signal obtained through decoding of the received signal by the mobile communication terminal, and each
30 of the power of the received signal itself and the RSCP is compared with the preset threshold value in step (2).

WO 2005/086378
W2A
[Claim 4]
A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode in a traffic state, the multi-mode multi-band mobile communication terminal including an asynchronous modem 5 for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of:
(1) measuring a power of a received signal from the asynchronous mobile
communication network;
10 (2) determining if the measured power of the received signal has a value lower
than a preset threshold value;
(3) determining if a state in which the measured power of the received signal has a
value lower than a preset threshold value is maintained during a predetermined time
interval;
15 (4) operating the synchronous modem when the state has been maintained during a
predetermined time interval;
(5) determining if a traffic state of an asynchronous mode call has ended or not;
(6) determining if a radio link with the asynchronous mobile communication
network has been released or not when it is determined that the traffic state of the
20 asynchronous mode call has not ended yet; and
(7) converting a current communication mode into a synchronous mode and
processing a synchronous mode call with the synchronous mobile communication network
through the synchronous modem when it is determined that the radio link with the
asynchronous mobile communication network has been released.
25 [Claim 5]
The method as claimed in claim 4, wherein the power measured in step (1) is an RSCP which is a power of a decoded signal obtained through decoding of the received signal from the asynchronous mobile communication network by the mobile communication terminal. 30 [Claim 6]
The method as claimed in claim 4, wherein the power measured in step (1)

WO 2005/086378

PCT/KR2005/000600

V

m 30

includes a power of the received signal itself from the asynchronous mobile communication network and an RSCP which is a power of a decoded signal obtained through decoding of the received signal by the mobile communication terminal, and each of the power of the received signal itself and the RSCP is compared with the preset 5 threshold value in step (2). [Claim 7]
The method as claimed in claim 4, wherein, when it is determined in step (5) that
the traffic state of the asynchronous mode call has ended, the method further comprises the
steps of:
10 determining if the mobile communication terminal is currently located within an
area of the asynchronous mobile communication network; and
deactivating the synchronous modem when the mobile communication terminal is
located within the area of the asynchronous mobile communication network and entering
into an asynchronous mode idle state, and deactivating the asynchronous modem when the
15 mobile communication terminal is not located within the area of the synchronous mobile
communication network and entering into a synchronous mode idle state.
[Claim 8]
The method as claimed in claim 4, wherein, when it is determined in step (6) that the radio link with the asynchronous mobile communication network has not been released 20 yet, the method further comprises the steps of:
measuring the power of the received signal from the asynchronous mobile communication network;
determining if the power of the received signal has a value exceeding a preset
threshold value; and
25 deactivating the synchronous modem and returning to step (5) when it is
determined that the power of the received signal has a value exceeding the preset threshold value. [Claim 9]
The method as claimed in claim 8, wherein, when it is determined that the power 30 of the received signal has a value exceeding the preset threshold value, step (5) is re-executed in a state where the synchronous modem is operated.

WO 2005/086378
[Claim 10]
The method as claimed in claim 4, wherein, after step (7), the method further comprises the steps of:
determining if the synchronous mode call with the synchronous mobile 5 communication network through the synchronous modem has been ended or not;
determining if the mobile communication terminal is currently located within the area of the asynchronous mobile communication network when it is determined that the synchronous mode call has been ended; and
deactivating the synchronous modem when the mobile communication terminal is
10 located within the area of the asynchronous mobile communication network and entering
into an asynchronous mode idle state, and deactivating the asynchronous modem when the
mobile communication terminal is not located within the area of the synchronous mobile
communication network and entering into a synchronous mode idle state.
[Claim 111
15 The method as claimed in claim 4, wherein step (4) comprises the steps of:
monitoring a Block Error Rate (BLER) when it is determined in step (3) that the
state in which the measured power of the received signal has a value lower than a preset
threshold value is maintained during the predetermined time interval, the BLER indicating
a rate of defective blocks per second received at a radio end;
20 comparing the BLER with a preset threshold value; and
operating the synchronous modem when it is determined that the BLER exceeds the preset threshold value. [Claim 12]
A method for mode switching of a multi-mode multi-band mobile communication
25 terminal between an asynchronous mode and a synchronous mode, the mobile
communication terminal including an asynchronous modem for communication with an
asynchronous mobile communication network and a synchronous modem for
communication with a synchronous mobile communication network, the method
comprising the steps of:
30 (1) monitoring system information from the asynchronous mobile communication
network;

WO 2005/086378 PCT/KR2005/000600
(2) checking preset parameter values in the monitored system information in order
to determine whether to perform mode switching;
(3) operating the synchronous modem when it is determined that the preset
parameter values require mode switching; and
5 (4) switching into the synchronous mode after operating the synchronous modem.
[Claim 13]
The method as claimed in claim 12, wherein step (3) comprises the steps of:
checking a current communication mode of the mobile communication terminal;
and
10 operating the synchronous modem when the current communication mode of the
mobile communication terminal is a preferred asynchronous mode. [Claim 14]
The method as claimed in claim 13, wherein step (3) comprises the steps of:
when the current communication mode of the mobile communication terminal is a
15 preferred asynchronous mode, determining if a Mobile Country Code (MCC) and a Mobile
Network Code (MNC) contained in the system information correspond to a first parameter
indicating a preset country code and a second parameter indicating a preset network code,
respectively; and
operating the synchronous modem when the MCC and the MNC in the system 20 information correspond to the first parameter and the second parameter, respectively. [Claim 15]
A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an 25 asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of:
(1) searching overhead message information from the synchronous mobile
communication network;
30 (2) determining if the overhead message information includes a preset mode
switch parameter for mode switching;

WO 2005/086378 PCT/KR2005/000600
(3) operating the asynchronous modem when it is determined that the overhead message information includes a preset mode switch parameter; and
(4) switching a communication mode of the mobile communication terminal into the asynchronous mode after operating the asynchronous modem.
5 [Claiml6]
The method as claimed in claim 15, wherein the mode switch parameter is set at a
bit at a predetermined ordinal position from the Most Significant Bit (MSB) in the
overhead message and is a parameter for notifying an overlap area between the
asynchronous mobile communication network and the synchronous mobile communication
10 network.
[Claim 17]
The method as claimed in claim 15, wherein step (3) comprises the steps of:
checking a current communication mode of the mobile communication terminal;
and
15 operating the synchronous modem when the current communication mode of the
mobile communication terminal is a preferred asynchronous mode or preferred synchronous mode. [Claim 18]
A multi-mode multi-band mobile communication terminal comprising:
20 an asynchronous modem -for communication with an asynchronous mobile
communication network;
a synchronous modem for communication with a synchronous mobile communication network; and
a mode switch controller for managing current state of the asynchronous modem
25 and the synchronous modem and controlling activation and deactivation of the
asynchronous modem and the synchronous modem based on a communication mode
corresponding to a mobile communication network to which the mobile communication
terminal currently belongs, wherein:
when it is determined to perform mode switching, the mode switch controller
30 operates a corresponding modem for connection with a target mobile communication
network so that the corresponding modem acquires a network sync and performs

WO 2005/086378 PCT/KR2005/000600
*
registration of location; and
after performing the registration of location, the mode switch controller performs communication with the target mobile communication network through the corresponding modem and deactivates another modem having been communicating with another mobile 5 communication network. [Claim 19]
A method for mode switching of a multi-mode multi-band mobile communication
terminal between an asynchronous mode and a synchronous mode, the mobile
communication terminal including modems for communication with an asynchronous
10 mobile communication network and a synchronous mobile communication network, the
method comprising the steps of:
(1) operating a corresponding modem for connection with a target mobile
communication network which is a target of mode switching, when it is determined to
perform the mode switching;
15 (2) acquiring a network sync with the target mobile communication network by the
corresponding modem;
(3) performing registration of location to the target mobile communication
network; and
(4) performing communication with the target mobile communication network
20 through the corresponding modem and deactivating another modem having been
communicating with another mobile communication network. [Claim 20]
The method as claimed in claim 19, wherein, before step (1), it is determined to perform the mode switching when the mobile communication terminal receives a mode 25 switch parameter from a base station of the synchronous mobile communication network while moving into an area of the asynchronous mobile communication network from an area of the synchronous mobile communication network, the base station being located within an overlap area between the asynchronous mobile communication network and the synchronous mobile communication network. 30 [Claim 21]
The method as claimed in claim 19, wherein, before step (1), when the mobile

WO 2005/086378
M1G
*
communication terminal moves into the area of the asynchronous mobile communication network from the area of the synchronous mobile communication network, the mobile communication terminal monitors system information from the asynchronous mobile communication network and determines to perform the mode switching if a preset 5 parameter value for the mode switching are included in the monitored system information. [Claim 22]
The method as claimed in claim 19, wherein, before step (1), whether to perform the mode switching is determined based on a result of comparison between a signal intensity of the asynchronous mobile communication network and a preset signal intensity. 10 [Claim 23]
The method as claimed in claim 19, wherein it is determined to perform the mode
switching when a current communication mode of the mobile communication terminal is a
preferred asynchronous mode or preferred synchronous mode.
[Claim 24]
15 A method for mode switching of a multi-mode multi-band mobile communication
terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method 20 comprising the steps of:
(1) switching a current mode of the mobile communication terminal into an
asynchronous mode and searching for an asynchronous signal, when the mobile
communication terminal receives a system message from the synchronous mobile
communication network while being located within an overlap area between the
25 asynchronous mobile communication network and the synchronous mobile communication network, the system message indicating mode switching from the synchronous mobile communication network to the asynchronous mobile communication network;
(2) determining if an asynchronous signal is detected and if registration of location
has been performed; and
30 (3) when no asynchronous signal is detected or when the registration of location
has not been performed yet, switching a current mode of the mobile communication

WO 2005/086378

PCT/KR2005/000600

^5 36
terminal into a synchronous mode, waiting during a counting interval and counting a number of times for the searching, and then feedbacking to step (1). [Claim 25]
The method as claimed in claim 24, wherein step (1) comprises the steps of:
5 checking a current communication mode by the mobile communication terminal;
and
searching for the asynchronous signal by the mobile communication terminal when the current communication mode is one of a preferred asynchronous mode and a preferred synchronous mode. 10 [Claim 26]
The method as claimed in claim 24, wherein, in step (3), the counting interval increases as the number of times for the searching increases. [Claim 27]
The method as claimed in claim 26, wherein the mobile communication receives a 15 system parameter from the asynchronous mobile communication network for searching the asynchronous signal and the counting interval is determined based on the system parameter in step (3). [Claim 28]
The method as claimed in claim 27, wherein the. system parameter contains 20 information of a unit interval T for searching the asynchronous signal, a modulus A for determining the time interval of asynchronous signal searching, and
a maximum threshold Nmax for the number of times for searching the
asynchronous signal, and the counting interval is determined by an equation,
t=An*T,
25 where n denotes a number of times by which the mobile communication terminal
has performed searching for the asynchronous signal and n has a value increasing by one each time from 1 to 'Nmax*. [Claim 29]
The method as claimed in claim 28, wherein, when the number of times of 30 searching the asynchronous signal exceeds the threshold value "Nmax' the counting interval is fixed to a value ANmax*T regardless of the number of times of searching thereafter.

WO 2005/086378 PCT/KR2005/000600
[Claim 30]
The method as claimed in claim 27, wherein, the system parameter is one of a system parameter received by the mobile communication terminal from the asynchronous mobile communication network and a system parameter set and stored in advance in the 5 mobile communication terminal. [Claim 31]
A method for mode switching of a multi-mode multi-band mobile communication terminal between an asynchronous mode and a synchronous mode, the mobile communication terminal including an asynchronous modem for communication with an 10 asynchronous mobile communication network and a synchronous modem for communication with a synchronous mobile communication network, the method comprising the steps of:
(1) searching for an asynchronous signal by the mobile communication terminal in
the asynchronous mode and sending a request for registration of a location of the mobile
15 communication terminal to a corresponding asynchronous communication network when an asynchronous signal is detected; and
(2) when the request for the registration of the location is rejected, switching a
current communication mode of the mobile communication terminal into a synchronous
mode, detecting a synchronous signal, and registering the location of the mobile
20 communication terminal in the synchronous communication network. [Claim 32]
The method as claimed in claim 31, wherein step (1) comprises the steps of:
checking a current communication mode by the mobile communication terminal;
and
25 searching for the asynchronous signal by the mobile communication tenninal
when the current communication mode is a preferred asynchronous. [Claim 33]
The method as claimed in claim 31, wherein, when no asynchronous signal is
detected through the searching by the mobile communication terminal in step (1), the
30 mobile communication terminal performs step (2) by switching a current communication
mode of the mobile communication terminal into a synchronous mode, detecting a

WO 2005/086378
A
PCT/KR2005/000600
synchronous signal, and registering the location of the mobile communication terminal in the synchronous communication network. [Claim 34]
The method as claimed in claim 32, wherein, when no asynchronous signal is 5 detected through the searching by the mobile communication terminal in step (1), the mobile communication terminal performs step (2) by switching a current communication mode of the mobile communication terminal into a synchronous mode, detecting a synchronous signal, and registering the location of the mobile communication terminal in the synchronous communication network. 10 [Claim 35 J
The method as claimed in claim 31, wherein step (2) comprises the steps of: when the request for the registration of the location to a corresponding asynchronous communication network is rejected, switching the mobile communication terminal into an emergency communication state in which the mobile communication 15 terminal can process only an emergency call; and
switching the current communication mode of the mobile communication terminal into a synchronous mode after the switching into the emergency communication state.
[Claim 36]
A multi-mode multi-band mobile communication terminal and a method
for mode switching of a multi-mode multi-band mobile communication terminal
substantially as herein described with reference to the accompanying drawings.

Dated this 1s' day of September, 2006
OMAN A RAMAKRISHNAN
OF K & S PARTNERS
AGENT FOR THE APPLICANT^)

Documents:

1060-MUMNP-2006-CHINA DOCUMENT(12-7-2012).pdf

1060-MUMNP-2006-CLAIMS(AMENDED)-(12-7-2012).pdf

1060-MUMNP-2006-CLAIMS(AMENDED)-(16-1-2013).pdf

1060-MUMNP-2006-CLAIMS(MARKED COPY)-(12-7-2012).pdf

1060-MUMNP-2006-CLAIMS(MARKED COPY)-(16-1-2013).pdf

1060-mumnp-2006-claims.doc

1060-mumnp-2006-claims.pdf

1060-MUMNP-2006-CORRESPONDENCE(13-7-2012).pdf

1060-MUMNP-2006-CORRESPONDENCE(4-10-2012).pdf

1060-mumnp-2006-correspondence(4-3-2008).pdf

1060-mumnp-2006-description (complete).pdf

1060-MUMNP-2006-DRAWING(12-7-2012).pdf

1060-MUMNP-2006-FORM 1(4-10-2012).pdf

1060-mumnp-2006-form 1(8-12-2006).pdf

1060-MUMNP-2006-FORM 13(4-10-2012).pdf

1060-mumnp-2006-form 18(4-3-2008).pdf

1060-mumnp-2006-form 26(8-12-2006).pdf

1060-MUMNP-2006-FORM 3(12-7-2012).pdf

1060-mumnp-2006-form 3(4-9-2006).pdf

1060-mumnp-2006-form 5(4-9-2006).pdf

1060-mumnp-2006-form-1.pdf

1060-mumnp-2006-form-2.doc

1060-mumnp-2006-form-2.pdf

1060-MUMNP-2006-JAPANESE DOCUMENT(12-7-2012).pdf

1060-MUMNP-2006-PETITON UNDER RULE-137(13-7-2012).pdf

1060-MUMNP-2006-REPLY TO EXAMINATION REPORT(12-7-2012).pdf

1060-MUMNP-2006-REPLY TO HEARING(16-1-2013).pdf

1060-MUMNP-2006-US DOCUMENT(12-7-2012).pdf

1060-mumnp-2006-wo international publication report(4-9-2006).pdf

abstract1.jpg

« Previous Patent

Next Patent »

Patent Number

256223

Indian Patent Application Number

1060/MUMNP/2006

PG Journal Number

21/2013

Publication Date

24-May-2013

Grant Date

17-May-2013

Date of Filing

04-Sep-2006

Name of Patentee

SK TELECOM CO., LTD.

Applicant Address

11, EULJIRO-2GA, JUNG-GU, SEOUL 100-999.

Inventors:

#	Inventor's Name	Inventor's Address
1	NAM-GUN KIM	1469-19, SEOCHO 3-DONG, SEOCHO-GU, SEOUL 137-073.
2	YOUNG-LAK KIM	104-1306, SIMIL APT., EONNAM-RI, GUSEONG-EUP, YONGIN-SI, GYEONGGI-DO 449-915.
3	HYUN-WOOK, KIM	701-702, JEONGDEUNNMAEUL HANJIN APT., 194 JEONGJA-DONG, BUNDANG-GU, SEONGNAM-SI, GYEONGGI-DO 463-757.
4	CHANG-MOON, HAN	108-506 GWANAK HYUNDAI APT., 407, SANGDO 5-DONG, DONGJAK-GU, SEOUL 156-781.

PCT International Classification Number

H04B7/26

PCT International Application Number

PCT/KR2005/000600

PCT International Filing date

2005-03-04

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	10-2004-0014700	2004-03-04	Republic of Korea
2	10-2004-0022949	2004-04-02	Republic of Korea
3	10-2004-0022954	2004-04-02	Republic of Korea
4	10-2004-0033866	2004-05-13	Republic of Korea