TW201004294A - Dual mode phone and method for connecting WLAN terminals with the internet thereof - Google Patents

Abstract

A dual mode phone includes a Wireless Wide Area Network (WWAN) antenna, a WWAN module, a Wireless Local Area Network (WLAN) antenna, a WLAN module, and a processor. The WLAN module includes a client mode sub-module, an Access Point (AP) mode sub-module, and a switch sub-module. When the client mode sub-module is enabled, the dual mode phone is in a client mod. When the AP mode sub-module is enabled, the dual mode phone is in an AP mode, which makes WLAN terminals communicate via the dual mode phone. The switch sub-module is used for selectively enabling the client mode sub-module and the AP mode sub-module according to users' instructions.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dual mode mobile phone, and more particularly to a dual mode mobile phone having a wireless network base station function and a method for connecting the wireless local area network terminal and the internet-network. - [Prior Art] Wireless network technology ranges from global voice and data networks (distant wireless connections) to optimized infrared and wireless frequency technologies (short-range wireless connections). Terminals that use wireless networks include portable computers, desktop computers, laptop computers, personal digital assistants, and mobile phones. Wireless technology gives users a lot of convenience, such as users can use their mobile phones to access e-mail. Wireless network types can be divided into different types based on the distance that data can be transmitted, including wireless wide area networks, wireless metropolitan area networks, wireless local area networks, and wireless personal networks. Among them, the wireless local area network allows users to set up wireless secrets in small areas, and the connection is more convenient than (4). An important device in the wireless local area network is a wireless network base station (AP), which is connected to the Internet, and the wireless local area network terminal can communicate with each other or connect to the Internet via a. . However, when the AP cannot continue to service, or the wireless LAN terminal moves to an point where the AP is inaccessible, the wireless local area network terminal cannot continue to connect to the Internet. [Invention] The wireless local area network can be connected. In this case, a dual-mode mobile phone and a road terminal are required. 201004294 In addition, it is also necessary to provide a dual-cell mobile phone as a wireless access point-type dual-mode mobile phone, including pure wide area network antenna, (line module, wireless area network antenna, at ', 3, segment module And a wireless local area network module. The wireless local area network module includes a terminal mode sub-module group and a switching sub-module. When the terminal mode sub-module is enabled, the dual-mode is in a wireless local area network terminal mode. When the access point mode sub-module is enabled, the dual-mode mobile phone is in the access point mode, so that the wireless area network material end can communicate via the dual-mode mobile phone. (4) The sub-module is used according to the user's finger; The application of the terminal mode sub-module and the access point mode sub-module-type dual-mode mobile phone as a wireless access point includes the following steps: receiving a user selection instruction of the access point mode through the user interface; Capable of bridging the module; and if the bridging module is enabled, enabling the wireless wide area network module, entering the first access point mode, connecting the wireless local area network terminal and the internet; or failing to enable the bridging module Then enter The second access point mode is connected to a plurality of wireless local area network terminals. Embodiments Referring to Fig. 1, an application environment diagram of a dual mode mobile phone 10 according to the present invention is shown. In this embodiment, the dual mode mobile phone 10 has a wireless area. The network access point function (Access Point, AP), when the dual mode mobile phone 1 is in the access point mode, the wireless local area network (Wireless L〇cal Ν__, 'WLAN) terminal 40 can be via the dual mode mobile phone 1 And a Wireless Wide Area Network (WWAN) 20 is connected to the Internet 30. When the dual mode handset 10 is in a mobile phone mode, it can be connected to the Internet 30 via the wireless 201004294 wide area network 20, or via a wireless wide area network. The way 20 communicates with a mobile phone (not shown). When the dual mode mobile phone 10 is in the WLAN terminal mode, it can be connected to the Internet 30 via the AP 50 or communicate with the wireless local area network terminal 40. In this embodiment Medium, wireless wide area network 20 is Global System for Mobile (Communication, GSM), General Packet Radio Service (GPRS), third generation One of Digital Generation (3G), Wideband CDMA (Wideband CDMA) and Worldwide Interoperability for Microwave Access (WiMAX). FIG. 2 shows an embodiment of the present invention. In the present embodiment, the dual-mode mobile phone 10 includes a wireless wide area network antenna 100, a wireless wide area network module 110, a bridge module 120, a wireless area network module 130, and a wireless area. The network antenna 140, the processing module 150, and the user interface (Host Interface) 160. The wireless wide area network antenna 1 is used to transmit and receive wireless wide area network RF signals. The wireless wide area network module 110 is configured to process the wireless wide area network radio frequency signals received by the wireless wide area network antenna 100 and to generate wireless wide area network radio frequency signals transmitted by the wireless wide area network antenna 100. Wireless Area Network Antenna 140 is used to send and receive wireless area network RF signals. The wireless area network module 130 is configured to process the wireless area network RF signal that is connected to the wireless area network antenna 140, and generate the wireless area network RF signal sent by the wireless area network antenna 140. The processing module 150 is configured to perform signal processing and control signal flow. The user interface 160 is used to provide an operating program for the dual model 7 201004294 machine. In this embodiment, the wireless local area network module 130 includes a terminal mode sub-module 1300, an access point mode sub-module 1310, and a switching sub-module 1320. When the terminal mode sub-module 1300 is enabled, the dual mode handset 10 is in WLAN terminal mode, which can communicate via the access point 50 to the wireless local area network terminal 40 or the Internet 30. When the access point mode sub-module 1310 is enabled, the dual mode handset 10 is in the pick-up mode, and the wireless local area network terminal 40 can be connected to each other or to the Internet 30 via the dual mode handset 10. The switching sub-module 1320 is configured to selectively enable the terminal mode sub-module 1300 and the access point mode sub-module 1310 according to a user instruction. In the present embodiment, the switching sub-module 1320 is implemented by software, and in other embodiments, it may be implemented by a hardware circuit. The bridging module 1320 is used for bridging the wireless wide area network module 110 and the wireless local area network module 130. The bridging module 1320 is configured to exchange data between the wireless WAN module 110 and the wireless local area network module 130 when the access point mode sub-module 1310 is enabled and the dual-mode mobile phone 10 is in the access point mode. The data to be transmitted by the wireless WAN module 110 to the wireless local area network module 130 is converted into the data of the wireless local area network format, and the data to be transmitted by the wireless local area network 130 to the wireless wide area network module 110 is converted into Information in the wireless WAN format. The user interface 160 is further configured to receive a user selection command for the access point mode, and then, through the processing module 150, the switching sub-module 1320 enables the point mode sub-module 1310 to be accessed. In this embodiment, the user can select the pick-up point mode by means of menu selection. The user interface 160 also uses 8 201004294 == to enable the selection command of the bridge module 12G, and via the processing == bridge module 120. The user interface 16 is further configured to receive a user-selectable command to the wireless wide area network module 11 and enable the wireless wide area network module 11 via the management module 150. In the mode of the present invention, the wireless wide area network module 110 can also be automatically enabled by the processing module 150 after the access point 120. The coffee and bridge amount 120 is enabled without the user having to select. - Sister In the present embodiment, the access point mode of the dual mode mobile phone 10 includes the 1310th:: and the second access point mode. When the access point mode sub-module main bridge module 120 and the wireless wide area network module 11 are both financed: for example, the dual-mode mobile phone K) enters the first access point mode, and the wireless area network material=40 can pass the dual mode. When the mobile phone 1 is connected to the Internet point = sub =: ° is enabled, the dual mode mobile phone 10 enters the second = regional network terminal 40 via the dual mode mobile phone 1. Intercommunication, but not connected to the Internet 3〇. ® 3 is a flow chart of the application of the dual mode "point in the embodiment of the invention. In the step sense, = : 1310 is enabled, so that the dual mode mobile phone is in the access point mode?:; The WAN module 110 and the wireless local area network module 2 receive the first radio frequency minus from the corresponding antenna, and process the first shot 120. The frequency signal is transmitted to the bridge module & The WAN module 110 and the surplus line s: network;;: 13 of them also determine the first - RF signal = ground. In the step just the 'bridge module 120 converts the processed first radio: 9 201004294 to The second RF signal is sent to the other of the domain network module 110 and the wireless area network module 13. The wireless wide area network module 11 and the wireless local area network are in step S306. The module: the other handles the second RF signal, and sends the processed second RF signal through the corresponding antenna. Thus, even if the access point 5 in the wireless local area network cannot provide the service, the wireless local area network terminal 4 〇You can also connect to the drop network 30. Figure 4 below shows another implementation of the present invention. In the way

Flow chart for the application of the line access point. First, in step 嶋, U receives the user's selection command for the pick-up point mode, enabling access to the point mode two-way:: 1310. In this embodiment, the user can actively select the access point mode by means of menu selection. In another implementation of the present invention, when the dual-mode mobile phone 10 is in the terminal mode, if the access module 5 is not found, the wireless local area network module 13 transmits the message % ® 160 via the processing module 15 'Let the user interface 16〇 prompt the user to select the access point mode. In step S·, the user interface (10) determines whether to enable bridging. In the present embodiment, the user interface 160 prompts the user whether to select the enabling bridge module, and determines whether to cause the bridge module 160 according to the user's selection command. If the bridge module 16 is not enabled, in step s4 〇 4, the modulo handset K) enters the second access point mode, and the plurality of wireless zones 40 can communicate with each other via the dual mode handset 10. If the bridging module 160 is enabled, in step S4()6, the wireless wide_group 110 is enabled, the dual mode mobile phone 10 enters the first access point mode, and the wireless 201004294 regional network terminal 4G can be connected via the dual mode mobile phone 1G. Connect to the Internet 30. In the present embodiment, the user interface 16G receives the user's enabling selection command for the wireless wide area network module U, and enables the wireless wide area network module 11 via the processing module 150. In other embodiments of the present invention, the wireless WAN module 11G can also be automatically enabled by the processing module 15 () in the access point mode sub-module disk bridge module 120 without the user's invention. The dual-mode mobile phone 1G can be used as an access point, so that the wireless local area network terminal 40 can communicate with each other or connect to the Internet 30 when the access point of the wireless area cannot be provided. In summary, the present invention complies with the requirements of the invention patents, and the above is only a preferred embodiment of the present invention. The above-mentioned ones are merely preferred embodiments of the present invention, and those skilled in the art are equivalently modified in the spirit of the invention. Or the changes shall be included in the scope of the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an application environment diagram of a dual mode mobile phone according to the present invention. 2 is a block diagram of a dual mode mobile phone according to an embodiment of the present invention. Point 3 is a flow chart of a dual mode mobile phone as a wireless access application in the embodiment of the present invention. Figure 4 is a flow chart of another application of the present invention. In the embodiment, the dual-mode mobile phone is used as the wireless access point. [Main component symbol description] Dual-mode mobile phone wireless wide area network antenna 100 11 201004294 Wireless wide area network module 110 Bridge module 120 Wireless area network module 130 Terminal mode sub-module 1300 Access Point Mode Sub-module 1310 Switching Sub-Module 1320 Wireless Area Network Antenna 140 Processing Module 150 User Interface 160 Wireless Wide Area Network 20 Internet 30 Wireless Area Network Terminal 40 Access Point 50 12

Claims (1)

201004294 X. Patent application for dual-mode mobile phones, including wireless wide area network antennas, wireless wide area networks, wireless local area network antennas, wireless local area network modules and processing modules, wherein the wireless local area network module Including: , ^ mode sub-module, the poem enables the dual-mode mobile phone to be in the domain network terminal mode; ", , , , ' £ Ξ = ^ sub-module, used to enable the dual-mode The mobile phone is in the receiving communication=, so that the wireless local area network terminal can switch the sub-module through the dual-mode mobile phone, and is used for selecting the sub-module and the access point mode sub-module according to the user's instruction. And the dual-mode mobile phone described in claim 1 further includes a bridge mode 7 when the stomach-to-four (four)-type sub-module is enabled and the data line mode transmitted between the wireless local area network module includes: Dual-mode mobile phone, where the access point is 4. For example: the access point mode and the second access point mode. The dual-mode mobile phone described in the three items, wherein when the access is enabled: the temple bridge module and The wireless WAN module is entered by the network terminal = model phone - Access point mode, wireless area 5. If the application: = is connected to the Internet by the dual-mode mobile phone. π patent dry circumference of the dual-mode mobile phone described in item 3, when the 1 point mode sub-module is enabled, The dual-mode hand: enters two:: only the ones communicate with each other. The two-mode mobile phone described in the dual-mode mobile phone 13 201004294 n patent item can be used to receive the user pair. The selection of the access point mode refers to the person, = 2 processing module, so that the switching sub-module can be used to receive the _ type = '7 · such as the patented sixth rhyme dual-mode mobile phone, Receiving the user (10) of the bridging module to enable the bridging module via the processing module. a 7 & if applying for a special (4) (four) 7 item of the dual-shot machine, the side also receives the user to the wireless wide area network, The user orders and enables the domain selection via the processing module == the dual-mode mobile phone described in item 7 == group is used to automatically enable in the access point mode sub-module and the module The wireless WAN module.", the two-mode mobile phone as a wireless access point H _ + Μ includes the following steps: line The s-domain network module and the processing module provide the access point mode sub-module and the terminal mode sub-module. The modulo 2 user docks the point mode selection command, and enables the access point mode to determine whether the bridge mode is enabled. The group and the module enable the wireless WAN module to enter the bridge if it is not possible to connect to the bridge: the end: the Internet; or the number of wireless local area network terminals. Access point mode 'connection complex 14 201004294 11. If you apply for the special (4) around the 1G item of the dual-caliber machine as a wireless access point application', the steps to enable the wireless WAN module include steps: r connect m The user enables the selection of the wireless wide area network module and enables the wireless wide area network module via the processing module. ' u: Shen: The dual-mode mobile phone described in the first paragraph of the patent is used as a wireless access. The steps of enabling the wireless wide area network module include the following steps. The processing module automatically enables the wireless wide area network module. . 13^之申=^=The first two (2) items are used for wireless access. The application includes the following steps: The wireless WAN module and the wireless local area network module receive and Processing the first RF signal, and transmitting the first RF signal to the bridge module; (4) The RF signal breaking converts the processed first RF signal into the second RF signal value of $$-ώ& The other of the regional network modules;: the line wide area network module and the wireless: the second RF signal 'and send the processed second RF signal U stomach! 7^ special · circumference 13th item The dual-mode mobile phone is used as an application for the line access point, and further includes the following H-line... the line access network module and one of the wireless local area network modules. . 15