TWI334722B - Method of adjusting standby states for multimode handset - Google Patents

Description

1334722 IX. Description of the Invention: [Technical Field] The present invention relates to a method for adjusting a standby state of a mobile phone, and more particularly to a method for automatically adjusting a standby state according to a radiation size of a communication network in a multimode mobile phone . [Prior Art] Due to the wide variety of mobile communication systems today, such as Global System for Mobile Communication (GSM), Personal Handy-phone System (PHS), and wireless metropolitan area network (Worldwide) Interoperability for Microwave Access 'WiMAX), etc., the mobile phone must use the same communication protocol as a mobile communication system to send and receive voice or data tributaries through the mobile communication system. Therefore, in order to provide more convenient communication services, dual-mode or multi-mode mobile phones have been born. However, as the communication network that mobile phones can receive increases, its power consumption will also increase, and the overall electromagnetic wave radiation will increase. It not only consumes the power consumption of mobile phones quickly, but also its integrated electromagnetic radiation. Relatively affect people's health. Therefore, it is necessary to propose a method of automatically adjusting the standby state according to the radiation level of the communication network, thereby saving power consumption of the mobile phone and reducing the influence of electromagnetic wave radiation on the human body. SUMMARY OF THE INVENTION 5 1334722 According to an embodiment of the present invention, a method for automatically adjusting a standby state according to a radiation level of a communication network in a multimode mobile phone is proposed. The method comprises receiving a plurality of communication networks; sorting the communication network list according to the radiation size of the communication network, wherein the communication network includes one of the first communication networks having the least radiation; and notifying the communication network other than the first communication network The way of turning on the call forwarding function is to transfer the incoming call signal to the first communication network, wherein the first communication network is in a standby state; and the communication network outside the first communication network is notified to be closed. In accordance with another embodiment of the present invention, a method of automatically adjusting a standby state in accordance with the radiation level of a communication network in a dual mode handset is presented. The method comprises receiving a low-radiation communication network and a high-radiation communication network; notifying the high-radiation communication network to activate the call transfer function, thereby transferring the call signal of the high-radiation communication network to the low-radiation communication network, wherein the low The radiant communication network is in a standby state; and the high-radiation communication network is notified to be turned off. As can be seen from the above embodiments of the present invention, the application of the method allows the mobile phone to be in a state of minimum power consumption to extend its standby time and reduce the electromagnetic radiation of the mobile phone to protect the user from high electromagnetic radiation. [Embodiment] Referring to Figure 1, there is shown a flow chart of a main method for automatically adjusting a standby state according to the radiation size of a communication network in a multimode mobile phone according to an embodiment of the present invention. First, a plurality of communication networks are received by a multi-mode handset (step 100). Then, all the communication networks are sorted according to the radiation size of the received communication network (step 102), wherein in column 6, it is known that the received communication network $ contains one of the smallest radiations. The 鳇 # #者' informs the communication network outside the first communication network to open the function (step 104), so that the call signal is completely transferred to the bear/network, where the first communication network is at this time The standby mode then notifies the communication network outside the first communication network to be turned off (step 106), and uses the [communication network as a transceiving signal (such as voice or data resources).

In addition, if the communication network other than the first communication network is turned off, and the first L,. cycle cannot be received, then the communication network other than the first communication network can be notified that the lightest is the smallest - The second communication network is turned on, so that the second communication network is in a standby state for use as a transceiver signal. If the second overnight network cannot open the text, the second communication network may be re-not notified after a preset time, or the communication network and the communication network other than the second communication network may be separately notified to radiate. The smallest communication network is turned on for use as a transceiver signal. After the second communication network is turned on and is in the standby state, the communication network other than the second communication network is notified to enable the call forwarding function, so as to connect the first communication network and the communication network other than the second communication network. The incoming call signal is forwarded to the second communication network. In addition, if a third communication network in the communication network cannot turn on the call forwarding function to transfer the incoming call signal to the first communication network, the third communication network can be re-not notified after the preset time. The way to turn on call forwarding is enabled. If the communication network fails to turn off the fourth communication network, then the fourth communication network can be re-not notified after the preset time, so that the multimode mobile phone transmits and receives signals with the first communication network with the least radiation. 1334722 H : Guang Wan will explain the explanation, taking the dual-mode mobile phone as an example. Referring to Figure 2, there is shown one of the embodiments of the present invention.

A flow chart of a method for automatically adjusting a standby state in a model phone. First, the handset receives the low-radiation communication network and the high-radiation communication network (200). The low-radiation communication network can be a postal communication network, and the high-radiation communication network can be a GSM communication. network. Next, it is judged whether or not the low-emission communication network and the high-radiation communication network are smoothly received (step 2〇2). At this time, if the two communication networks are not successfully received, then it is determined that the low-radiation communication network or the high-radiation communication network is received (step 2〇4, if only the low-radiation communication network is received, the low-radiation communication is directly The network sends and receives signals; otherwise, if only the high-radiation communication network is received, the high-radiation communication network transmits and receives signals (step 206)' and waits for a preset time before attempting to re-receive the low-emission communication network. When the communication network and the high-radiation communication network are successfully received, the high-radiation communication network is notified to turn on the call forwarding function (step 208), thereby transferring the incoming signal of the south-radiation communication network to the low-radiation communication network. The low-radiation communication network is in a standby state at this time. Next, it is determined whether the call forwarding function of the high-radiation communication network is successfully turned on (step 210). When the high-radiation communication network cannot turn on the call forwarding function, When the incoming call signal of the high-radiation communication network is transferred to the low-radiation communication network, the preset time is waited for (step 212), and then returns to step 208 to re-notify the high. The call communication function is enabled on the radio communication network. When the call transfer function of the radiant communication network is turned on, the high-radiation communication network is then notified to be turned off (step 214), and then the high-radiation communication 1337422 is judged. Is the network smooth? The ground is turned off (step 216). If the high-radiation communication network cannot be turned off, then the preset time is also waited (step 218), and then the process returns to step 214 to re-notify the high-radiation communication network to be turned off. When the ground is turned off, the dual-mode mobile phone can only keep the low-radiation communication network standby' and use it as a transceiver signal. Please refer to Figure 3, which shows the high-radiation communication network is turned off and low-radiation communication is shown in Figure 2. A flow chart of the method for automatically adjusting the φ standby state of the dual-mode mobile phone when the network cannot be received. First, the high-radiation communication network is notified to be turned on (step 300). Next, it is determined whether the high-radiation communication network is successfully turned on (step 302). If the high-radiation communication network cannot be turned on, wait for the preset time (step 304), then return to step 3〇〇 to re-notify the high-radiation communication network. If the high-radiation communication network is successfully turned on, notify the inter-radiation communication network to turn off the call forwarding function (steps 3〇6), thereby stopping the transfer of the incoming signal of the high-radiation communication network to the low-emission communication network. Furthermore, it is determined whether the high-radiation communication network does not turn off the call forwarding function (step 308). If the high-radiation communication network cannot turn off the call forwarding function, the call to stop the high-radiation communication network is stopped. The signal is sent to the low-distribution communication network, and the same time is waited for (step 31〇), and then back to step 3〇6, heavy: inform the high-radiation communication network to turn off the call forwarding function. If the high-radiation L The network does not turn off the call forwarding function, so that the high-light communication network is in a standby state for use as a transceiving signal. As can be seen from the above embodiments of the present invention, the method is applicable not only to various 1 systems but also to the mobile phone. When used, it is in the state of minimum power consumption and its standby time, and can reduce the electromagnetic radiation of the mobile phone, so that 9 1334722 users are protected from high electromagnetic radiation. Although the present invention has been disclosed in the above embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can make various changes and modifications without departing from the spirit and scope of the invention. The scope of the present invention is defined by the scope of the appended claims. The above and other objects, features, advantages and embodiments of the present invention will become more apparent. The detailed description is as follows: FIG. 1 is a flow chart showing a main method for automatically adjusting a standby state according to the radiation size of a communication network in a multimode mobile phone according to an embodiment of the present invention. 2 is a flow chart showing a method of automatically adjusting a standby state in a dual mode mobile phone according to an embodiment of the present invention. Figure 3 is a flow chart showing the method of automatically adjusting the standby state of the dual mode handset when the high radiating communication network is turned off and the low light radio communication network cannot be received in Fig. 2. [Main component symbol description] 100~106 '200~218, 300~310: Step

Claims (1)

1334722 X. Patent application scope: 1. A method for self-adjusting standby state according to the radiation size of a communication network in a multi-mode mobile phone, the method comprising: receiving a plurality of communication networks in a face; according to the radiation size of the communication networks Sorting the communication network lists, wherein the communication networks include one of the least radiated first communication networks, and notifying the communication networks other than the first communication network to enable the call forwarding function, so as to turn Receiving an incoming call signal to the first communication network, wherein the first communication network is in a standby state; and notifying the communication networks other than the first communication network to be turned off. 2. The method of claim 1, further comprising: notifying the first communication network that the communication networks other than the first communication network are closed and the first communication network cannot be received The second communication network is turned on, and the second communication network is in a standby state. 3. The method of claim 2, further comprising: re-notifying the second communication network to be turned on after a predetermined time when the second communication network cannot be turned on. 4. The method of claim 3, further comprising: notifying the communication networks other than the second communication network to turn on the call forwarding 11 1334722 function "to transfer the first communication network and the second communication The incoming call signals of the communication networks other than the network to the second communication network. 5) The method of claim 1, further comprising: when the third communication network in the communication networks cannot turn on the call forwarding function to transfer the incoming call signal to the first communication network, After the preset time, the third communication network is re-notified to enable the call forwarding function. 6. The method of claim 1, further comprising: re-notifying the fourth communication network to be turned off after a predetermined time when one of the communication networks cannot be turned off. 7. A method for automatically adjusting a standby state according to a radiation level of a communication network in a dual mode mobile phone, the method comprising: receiving a low radiation communication network and a high radiation communication network; notifying the high radiation communication network Turning on the call forwarding function to transfer the incoming signal of the high-radiation communication network to the low-emissivity communication network, wherein the low-emissivity communication network is in a standby state; and notifying the high-radiation communication network to be turned off. 8. The method of claim 7, further comprising: when the high-radiation communication network is unable to turn on the call forwarding function to transfer the incoming signal of the high-radiation communication network to the low-radiation communication network, Re-notifying the high-radiation communication network to turn on the call transfer function 12 1334722 after the preset time. 9. The method of claim 7, further comprising: when the high-radiation communication network cannot be turned off, after the preset time Re-notify that the high-radiation communication network is down. The method of claim 7, further comprising: • notifying the high-radiation communication network to turn on when the high-radiation communication network is turned off and the low-emissivity communication network cannot be received, so that the high-radiation The communication network is in standby. 11. The method of claim 10, further comprising: notifying the interfering communication communication network to turn off the call forwarding function, thereby stopping the transfer of the incoming call signal of the high-radiation communication network to the low-light communication network. 12. The method of claim 11, further comprising: when the high-radiation communication network does not turn off the power transfer function to stop the call signal of the high-light communication network to the low-light shot During the communication network, the high-light communication network is re-notified to turn off the call forwarding function after the pre-time. 13. The method of claim 7, wherein the high-emissivity communication network is a GSM communication network. 15. The method of claim 7, wherein the low-emissivity communication network is a PHS communication network.