TW200901737A - Method for mobile phone with CDMA and PHS modes to control two CDMA subscriber identify modules - Google Patents

Abstract

A method for a mobile phone with CDMA and PHS modes to control two CDMA subscriber identity modules (SIMs) is provided. Without changing the hardware of the mobile phone, the method is utilized that a CDMA control module is used to operate a first CDMA SIM, or a PHS UART driving module and a SIM and USIM driving module connected with each other are built in the PHS control module. The PHS UART driving module is connected to a CDMA device driving layer of the CDMA control module through UART standards, so that the CDMA control module is able to control a second CDMA SIM connected with the SIM and USIM driving module. Therefore, the mobile phone with CDMA and PHS modes is able to control two CDMA SIMs, so as to satisfy needs and demands for businessmen and lovers in personal style.

Description

200901737 IX. Description of the Invention: [Technical Field] The present invention relates to a method for controlling a dual CDMA subscriber identity module, and more particularly to a method for controlling a dual CDMA subscriber identity module for a CDMA and PHS dual mode handset . [Prior Art] At present, wireless communication technology has developed many normative standards. Common wireless communication systems include GSM (Global System for Mobile Communication), CDMA (Code Division Multiple Access), PHS (Personal Handy-phone System 'personal hand-held telephone system', etc., in order to meet the needs of users' mobile phones that need to be able to switch to different standard systems, mobile communication companies have developed mobile phones with dual-mode systems, such as in a mobile phone. The existence of CDMA and PHS systems is one of the representatives. Please refer to Figure 1 for the prior art CDMA and PHS dual mode system architecture. In the operation mode of the architecture, the CDMA control module 11 can control the CDMA subscriber identity module 130, and the CDMA subscriber identity module 13 can be electrically connected to a UIM (User Identity Model). card. In addition, the CDMA control module 110 can also control the PHS subscriber identity module 140 via the PHS control module 120. It transmits a control command using the CDMA Application Layer 111, and the control command is transmitted to the CDMA Device Driver Layer 113 through the CDMA Protocol Stack 112 6 200901737. The CDMA device driver layer 113 further transmits a control command to the PHS Device Driver Layer 123 of the PHS control module 120 through a Universal Asynchronous Receiver/Transmitter (UART) specification, and finally passes the PHS protocol stack (PHS). The Protocol Stack)/PIM protocol 122 passes this control command to the PHS Application Layer 121 of the PHS control module 120. The PHS application layer 121 further analyzes whether the control command is valid. When determining that the control command is a valid command, the PHS protocol stack/PIM protocol 122 is used as an intermediary to transmit the control command to the Phs device driver layer 123 and read the PHS user identification mode. Raw data of the group 140 (RawData), the PHS user identification module 140 is electrically connected to a piM (Personal Identity Module) card. The original data of the PHs subscriber identity module 140 is then passed back to the PHS application layer 121 via the pIM protocol (ΠΜ Protocol) of the PHS control module 12, thereby acting as a response to this control command. Finally, the PHS application layer 121 calls the PHS device driver layer to transmit the original data to the cDma device driver layer 113 through the asynchronous transceiver (UART) specification, and transmits the original data back to the cDMA application layer 111 through the CDMA protocol stack 112, by the CDMA application layer. Lu processes the raw data returned. However, the prior art system has an inevitable deficiency, that is, such a CDMA and PHS dual-mode mobile phone cannot be applied to a user having a dual CDMA subscriber identity module 7 200901737, that is, a user who has a dual UIM card. For the dual-mode function of CDMA and PHS dual-mode mobile phones, the user must have one UIM card and PIM card (including the chip or 1C built in the mobile phone) with the corresponding CDMA number and PHS number. If the user wants to use two UIM cards corresponding to the CDMA number, they still need to buy an additional mobile phone with a UIM card. Therefore, the user's demand for a dual CDMA number that does not apply for a PHS number cannot be met, thereby reducing the utility of the CDMA and PHS dual-mode handset. SUMMARY OF THE INVENTION In view of the above, in order to solve the above problems, the present invention proposes a CDMA (Code Division Multiple Access) and PHS (Personal Handy-phone System 'personal hand-held telephone system) dual-mode mobile phone control. The dual CDMA subscriber identity module method enables CDMA and PHS dual-mode handsets to use dual CDMA subscriber identity modules of two different numbers without changing the hardware. The invention discloses a method for controlling a dual CDMA subscriber identity module by a CDMA and PHS dual mode handset. The CDMA and PHS dual mode handset has a CDMA control module and a PHS control module. After the CDMA and PHS dual-mode handsets are initialized, it is determined whether one of the second CDMA subscriber identity modules connected by the PHS control module is on standby. If the judgment result is yes, the CDMA user identification module is standby, and the dual-mode mobile phone establishes a mutual connection in a VSs device driver layer (2008). The 200901737 PHS asynchronous transceiver driver module (PHS Universal Asynchronous) Receiver/Transmitter Driver, PHS UART Driver) and a UIM and PIM driver module, and the PHS asynchronous transceiver driver module communicates with the CDMA device driver layer of the CDMA control module by the asynchronous transceiver (UART) specification to control and UIM. The second CDMA user identification module connected to the PIM driver module. If the result of the determination is no, then a first CDMA subscriber identity module stands by, and the dual mode handset controls the connection of the first CDMA subscriber identity module by using the CDMA control module. In addition, when the CDMA and PHS dual-mode mobile phones are in the standby mode of the first CDMA subscriber identity module or the second CDMA subscriber identity module, the CDMA subscriber identity module can be acquired and recorded or identified by the second CDMA subscriber identity module. Control commands or setting information for module standby. Then reset the system to perform the system initialization steps. The first CDMA subscriber identity module or the second CDMA subscriber identity module is stored by using a flash memory,

C, EEPROM or an EPROM for storage. However, the first CDMA subscriber identity module is coupled to a first UIM (User Identity Mode) card for reading data of the first UIM card. The second CDMA user identification group is electrically coupled to a second UIM card for reading data of the second UIM card. The invention has the efficiencies that cannot be achieved by the prior art, that is, the CDMA user identification module 9 200901737 which can configure two different numbers on the CDMA and PHS dual-mode mobile phones, that is, two _ cards corresponding to the CDMA number. In addition to the control and data transmission of the first-UIM card of the first-cm (10) households, the C-A control module can also transmit and receive the driver module and the deletion and simple drive module through the mail asynchronous In conjunction with the control, data transmission is performed on the second brain card that is electrically connected to the second CDMA user. Therefore, for users with dual UIM cards, it is easy to control the dual CDMA number and freely choose to use different cdma user identification modules to stand by, without major hardware architecture changes. In addition, the pHs control module is only equivalent to the function of transferring data, and does not require the intervention of the pHS protocol stack and piM protocol 4, so it can reduce the complexity of the control program and indirectly improve its efficiency. Not only does it reduce the development time and cost of mobile phone manufacturers, but it also meets the psychology of modern people seeking new changes. It can also meet the needs of business people and personalized lovers. [Embodiment] The features and implementations of the present invention are described in conjunction with the drawings as a preferred embodiment. Please refer to FIG. 2, which is a system architecture diagram of an embodiment of controlling the first and second CDMA subscriber identity modules of the present invention. The system includes a CDMA (Code Division Multiple Access) control module 210, a PHS (Personal Handy-phone System) control module 220, and a first CDMA user identification module. 230 and a second CDMA subscriber identity module 240. The CDMA control module 10 200901737 group 210 includes a CDMA application layer 211, a CDMA protocol stack 212 and a CDMA device driver layer 213, and the PHS control module. The 220 includes a PHS Application Layer 221, a PHS Protocol Stack/PIM protocol 222, and a PHS Device Driver Layer 223' and is established in the PHS device driver layer 223. PHS Universal Asynchronous Receiver/Transmitter Driver 'PHS UART Driver 2231 and a UIM (User Identity Model 'User Identification Module) card and PIm (Personal Identity Module) Group 2232. The CDMA device driver layer 213 is electrically coupled to the first CdmA subscriber identity module 230; the PHS asynchronous transceiver driver module 2231 is interconnected with the UIM and PIM driver module 2232 and communicates with the CDMA device driver layer 213, and the first brother The CDMA subscriber identity module 240 is electrically coupled to the PIM driver module 2232. The system is based on the first CDMA user identification module 230 stored in the dual-mode mobile phone or the setting information of the first CDMA user identification module 240, so that the CDMA application layer 211 of the CDMA control module 210 sends the corresponding information. The control command controls the actuation and data transfer of the first CDMA subscriber identity module 230 via the CDMA device driver layer 213. Alternatively, the CDMA control core group 210 transmits the control command to the UIM and PIM driver module 2232 via the CDMA device driver layer 213 and the pjiS asynchronous 200901737 transceiver module 2231 to control the operation of the second CDMA subscriber identity module 240. Data transfer. When the CDMA control module 210 controls the second CDMA subscriber identity module 240, the PHS asynchronous transceiver driver module 2231 controls the UIM and the PIM driver module 2232 to perform a simplex serial port operation. Therefore, the PHS asynchronous transceiver driver module 2231 It can replace some functions of the PHS application layer 221 and the PHS protocol stack/PIM protocol 222, so it is not necessary to utilize the PHS application layer 221 and the PHS protocol stack/PIM protocol 222. In this example, the first CDMA subscriber identity module 230 is electrically coupled to a first UIM card (not shown). The second CDMA user identification module 240 is electrically connected to a second UIM card (not shown). Next, the transmission message between the CDMA device driver layer 213 and the PHS asynchronous transceiver driver module 2231 is used to perform control commands and data aggregation and transmission through a Universal Asynchronous Receiver/Transmitter (UART) specification. Please refer to FIG. 3, which is a system flowchart of the present invention. Please refer to FIG. 2 for understanding. The flow of the control method includes the following steps: Perform system initialization (step S310), and perform initialization of the system when the CDMA and PHS dual-mode mobile phones are powered on or reset. It is determined whether a second CDMA subscriber identity module 240 connected by a PHS control module 220 is on standby (step S320). The system retrieves the setting information for standby to determine whether the second CDMA user identification module 240 12 200901737 performs standby operation. The standby setting information is stored in the existing memory (not shown) of the CDMA and PHS dual-mode mobile phones, and refers to the setting information of the memory stored by the CDMA user identification module. The memory itself can be a Flash Memory or an Erasable Erasable Pr〇grammable Read_〇nly

Memory ' EEPROM ) or erasable programmable read only memory (ErasaMe

Programmable Read- Only Memory, EPROM). If the result of the determination is no, then a first CDMA subscriber identity module standby 230 is used to control the first CDMA subscriber identity module 230 to which it is connected using a CDMA control module 210 (step S330). On the other hand, if the result of the determination in step S320 is YES, the second CDMA subscriber identity module 240 stands by, and a PHS device driver layer 223 establishes a PHS asynchronous transceiver driver module 2231 and a UIM. The PIM driver module 2232, and the PHS asynchronous transceiver driver module 2231 communicates with the CDMA device driver layer 213 of the CDMA control module 210 by an asynchronous transceiver (UART) specification to control the second connection with the UIM and the PIM driver module 2232. The CDMA subscriber identity module 240 (step S340). Please refer to FIG. 4, which is a detailed flowchart of the standby of the first CDMA subscriber identity module in FIG. The system outputs a control command to the CDMA device driver layer 213 via the CDMA Application Layer 211 of the CDMA control module 210 (step S331). When the CDMA control module 210 transmits a control command via the CDMA application layer 211, the control command is processed by the 13 200901737 CDMA Protocol Stack (212) and the processed control command is output to the CDMA device driver layer 213. According to the control command, the raw data (Raw Data) of the first CDMA subscriber identity module 230 is obtained by the CDMA device driver layer 213 (step S332). Thereafter, the CDMA device driver layer 213 returns the original data to the CDMA protocol stack 212 and processes the original data via the CDMA protocol stack 212 (step S333). Finally, the processed raw data is returned to the CDMA application layer 211 (step S334). Thereby, the control and data reading of the first CDMA subscriber identity module 230 by the CDMA control module 210 is completed, and the standby mode in which the first CDMA subscriber identity module 230 is dominant is entered. Please refer to FIG. 5, which is a detailed flowchart of the standby of the second CDMA subscriber identity module in FIG. The system outputs a control command to the PHS asynchronous transceiving drive module 2231 via the CDMA application layer 211 of the CDMA control module 210 (step S341). When the system outputs a control command via the CDMA application layer 211 of the CDMA control module 210, the control command is processed and output by the CDMA protocol stack 212 of the CDMA control module 210, and the control command is transferred to the PHS asynchronous by the CDMA device driver layer 213. Transceiver drive module 2231. When the control command is output from the CDMA device driver layer 213, the control command is transmitted via the asynchronous transceiver (UART) specification. Then, the PHS asynchronous transceiver driver module 2231 is used to parse the control command and determine whether the control command is a valid command. If it is determined to be a valid command, the UIM and PIM driver module 2232 are used to control and obtain the second CDMA user identification 14 200901737 core group. The original data of 240 is transmitted back to the CDMA protocol stack 212 of the CDMA control module 210 through the PHS asynchronous transceiver driver module 2231 and the CDMA split driver layer 213 (step S342). Prior to this, the PHS control module 220 configures its operating clock and operating voltage to conform to the electrical characteristic specification of the second CDMA subscriber identity module 240 according to the control command, and initializes the second cdmA subscriber identity module 240. In order to control the second CDMA subscriber identity module 240 and perform data transmission. However, since the PHS protocol stack/PIM protocol 222 operates the second subscriber identity module 240 to be a simplex serial port operation, the phs asynchronous transceiver driver module 2231 can partially replace the PHS protocol stack/PIM protocol 222 and the PHS application layer 221. The second user identification module 240 is controlled by the UIM and PIM driver module 2232. In the process of returning the original data, the UIM and PIM driver module 2232 first transmits the original data to the PHS asynchronous transceiver driver module 2231. The PHS asynchronous transceiver driver module 2231 passes a certain wave via the asynchronous transceiver (UART) specification. The special rate transmits the original data to the CDMA device driver layer 213'. At this time, the action of the PHS control module 220 functions as a relay data. The CDMA device driver layer 213 then transmits the raw data to the CDMA protocol stack 212. Finally, the original data is processed via the CDMA protocol stack 212 and the processed original data is returned to the CDMA application layer 211 (step S343), and the CDMA application layer 211 processes the returned original data, thereby completing the CDMA application layer 211 to the second. The preliminary 15 200901737 control of the CDMA subscriber identity module 240 simultaneously enters a standby mode based on the second CDMA subscriber identity module 240. The user can control the second CDMA subscriber identity module 240 through the CDMA application layer 211 and transmit data. Please refer to FIG. 6 , which is a flowchart of selecting and recording a standby embodiment of a first or second CDMA subscriber identity module according to an embodiment of the present invention, and includes the following processes: acquiring and recording a first CDMA subscriber identity module. The group 230 is either in standby with the second CDMA subscriber identity module 240 (step S410). This step has a number of different practices. The most common practice is to record flag data and store standby settings. When the user uses the CDMA and PHS dual-mode mobile phone to make a handover or select a control command to wait for the first CDMA subscriber identity module 230 or the second CDMA subscriber identity module 240, the system will retrieve the control command and according to the control command. The information is included to write a flag data or store the standby setting information of the first CDMA subscriber identity module or the second CDMA subscriber identity module that the user wants to use in the memory. Reset the system (step S420) 'When the system is reset (or (3) 馗8 and PHS dual-mode mobile phone re-boot) 'will read the flag data stored in the memory or standby setting information' to judge and drive The CDMA control module reads the original data of the first CDMA subscriber identity module 230 or the second CDMA subscriber identity module 240 to enter the standby mode of the first CDMA subscriber identity module 23 or the second CDMA subscriber identity module 240. . 16 200901737 In summary, the system and method for controlling dual CDMA subscriber identity module using CDMA and PHS dual-mode mobile phones provided by the present invention can be implemented by transmitting CDMA control module and PHS asynchronously without changing the hardware. The cooperation between the transceiver driver module and the UIM and the PIM driver module controls the second CDMA subscriber identity module. Therefore, the user can control and switch the standby mode of the UIM card of two different CDMA numbers to provide the CDMA. The utility of a dual-mode phone with phs. While the present invention has been described above in terms of the preferred embodiments thereof, it is not intended to limit the scope of the present invention, and the equivalents of the modification and retouching are still possible without departing from the spirit and scope of the invention. It is within the scope of patent protection of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a system architecture diagram of a prior art CDMA and PHS dual-mode mobile phone; FIG. 2 is a system architecture diagram of an embodiment of the present invention for controlling first and second CDMA subscriber identity modules. Figure 3 is a flow chart showing the standby embodiment of the first and second CDMA subscriber identity modules of the present invention; and Figure 4 is a flow chart showing the details of the standby of the first CDMA subscriber identity module of Figure 3; 5 is a flow chart showing the standby of the second CDMA subscriber identity module in FIG. 3; and 17 200901737 FIG. 6 is a flow chart showing the selection and recording of the standby embodiment of the first or second CDMA subscriber identity module according to the present invention. Figure. [Major component symbol description] 110 CDMA control module 111 CDMA application layer 112 CDMA protocol stack 113 CDMA device driver layer 120 PHS control module 121 PHS application layer 122 PHS protocol stack / PIM protocol 123 PHS device driver layer 130 CDMA user identification mode Group 140 PHS subscriber identity module 210 CDMA control module \ 211 CDMA application layer 212 CDMA protocol stack 213 CDMA device driver layer 220 PHS control module 221 PHS application layer 222 PHS protocol stack / PIM protocol 223 PHS device driver layer 2231 PHS asynchronous Transceiver driver module 18 200901737 2232 UIM and PIM driver module 230 First CDMA subscriber identity module 240 Zhuoyi CDMA subscriber identity module step S310 Perform system initialization step S320 to determine whether one of the PHS control modules is connected The second CDMA subscriber identity module standby step S330 \ uses a CDMA control module to control the connected first CDMA subscriber identity module step S331 to output a control command to the CDMA device driver layer via the CDMA application layer of the CDMA control module. Step S332: Using the CDMA device driver layer to obtain the original data of the first cdma subscriber identity module, step S333, returning the original data to the CD· protocol stack, and processing the original data via the CDMa protocol stack (step S334, step S340, returning and processing) The original data is connected to the CDMa application layer, and the PHS device driver layer is connected to each other. The 收发^昱step transceiver driver module and a piM driver module are connected, and the PHS asynchronous transceiver driver module is asynchronously transceived and the CDMA control module is used. - the CDMA device driver layer is connected to control the second CDMA subscriber identity module connected to the UIM and the PIM drive pure group. Step S341 is rotated through the CDMA application layer of the CDMA control module. 19 200901737 Step S342 Step S343 Step S410 Step S420 Control Command to the PHS asynchronous transceiver driver module. Use the PHS asynchronous transceiver driver module to parse the control command and determine whether the control command is a valid command. If it is determined to be a valid command, the UIM and PIM driver module are used to control and obtain the second CDMA user. Identifying the original data of the module, and transmitting the original data through the PHS asynchronous transceiver driver module and the CDMA device driver layer to The CDMA protocol stack of the CDMA control module processes the original data via the CDMA protocol stack and transmits the processed original data back to the CDMA application layer for acquisition and recording with the first CDMA subscriber identity module or with the second CDMA subscriber identity module. Reset system 20

Claims (1)

200901737 X. Patent application scope: - A method for controlling dual CDMa user identification modules for CDMA and PHS dual-mode mobile phones, the method comprising at least the following steps: performing system initialization; and determining whether a PHS control module is connected - CDMA subscriber identity module standby, if otherwise by a first CDMA / k The subscriber identity module is in standby mode, and the first CDMA subscriber identity module is controlled by the CDMA control module. If yes, the second CDMA subscriber identity module is standby, and is established in a device driver layer. One PHS asynchronous transceiver driver module and one uim and PIM driver module are interconnected, and the PHS asynchronous transceiver driver module communicates with the CDMA device driver layer of the CDMA control module by asynchronous asynchronous transmission and reception to control and The second CDMA user identification module is connected to the UIM and the PIM driver module. 2. The method for controlling a dual cdma subscriber identity module as described in the scope of the patent application, further comprising: acquiring and recording the first CDMA subscriber identity module or the second CDMA subscriber identity module standby; And reset the system. 3. The method of controlling a dual CDMA subscriber identity module as described in claim 2, wherein the storing the first CDMA subscriber identity module or the second CDMA subscriber identity module utilizes a flash memory, 21 200901737 An EEPROM or an EPROM is stored. 4. The method for controlling a dual cdmA subscriber identity module according to claim 1, wherein the first CDMA subscriber identity module standby step further comprises the following steps: CDMA application via one of the CDMA control modules Layer output - control command to the CDMA device driver layer; using the CDMA device driver layer to obtain the original data of the first CDMA subscriber identity module; returning the original data to the CDMA protocol stack of the CDMA control module, and via The CDMA protocol stack processes the raw data; and returns the processed raw data to the CDMA application layer. 5. The method of controlling a dual CDMA subscriber identity module as described in claim 4, wherein the step of rotating the control command to the CDMA device driver layer via the application layer of the CDMA control module further comprises utilizing the The CDMA protocol stack processes the control command and rotates the processed control command to the CDMA device driver layer. 6. The method for controlling a dual CDMA subscriber identity module according to claim 1, wherein the second CDMA subscriber identity module standby step further comprises the following steps: CDMA application layer output via one of the CDMA control modules - Control command to the PHS asynchronous transceiver driver module; 22 200901737 The PHS asynchronous transceiver driver module is used to parse the control command and determine whether the control command is a valid command. If it is determined to be valid, the UIM and the UI driver module are utilized. Controlling and obtaining the original data of the second CDMA subscriber identity module and transmitting the original data to the CDMA protocol stack of the cDMa control module through the PHS asynchronous transceiver driver module and the CDMA device driver layer; The CDMA protocol stack processes the raw data and passes the processed raw data back to the CDMA application layer. 7. The method for controlling a dual CDMA subscriber identity module as described in claim 6 wherein the step of outputting the control command to the PHS asynchronous transceiver driver module via the CDMA application layer of the CDMA control module comprises at least the following Step: outputting the control command via a CDMA application layer of the CDMA control module; processing the control command by the CDMA protocol stack of the CDMA control module and outputting; and using the CDMA device driver layer to retrieve and forward the control command to The PHS asynchronous transceiver driver module. 8. The method of controlling a dual CDMA subscriber identity module according to claim 1, wherein the first CDMA subscriber identity module is coupled to a first UIM card for reading the first UIM. Card data. The method of controlling a dual CDMA subscriber identity module according to claim 1, wherein the second CDMA subscriber identity module is electrically coupled to a second UIM card for reading the The data of the second UIM card. twenty four