JP2012170071A - Mobile terminal controlling method in consideration of communication environment and mobile terminal supporting the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile terminal controlling method in consideration of a communication environment and a mobile terminal supporting the same.SOLUTION: A mobile terminal according to the present invention includes: a grip sensor unit for generating sensor signals corresponding to user's grip; a control unit which identifies a grip sensor pattern on the basis of the sensor signals provided by the grip sensor unit and extracts control information on communication means that corresponds to the identified grip sensor pattern to apply at least one of power supply control and antenna module tuning control to the communication means; and the communication means to which the power supply control or/and the antenna module tuning control are applied by the control unit.

Description

  The present invention relates to device control according to a communication environment of a mobile terminal, and more particularly, to a terminal using a communication environment that supports so as to ensure appropriate communication performance while reducing SAR due to the use environment of the mobile terminal. The present invention relates to a control method and a portable terminal supporting the same.

  In recent years, a mobile terminal can provide various user functions such as a mobile communication function, a game function, a scheduling function, and the like while maintaining portability, thereby securing a large number of users. However, since such a portable terminal must basically provide portability, its form must be miniaturized, and various forms of designs can be designed to meet the diverse needs of users. Must be digested. In addition, recent portable terminals have to provide a great variety of functions, and thus a plurality of parts must be arranged. Accordingly, the conventional mobile terminal needs to be designed to make the most of the limited space.

  In particular, in a mobile terminal, an antenna must ensure appropriate mobile communication performance, so there is a limit to reducing the size thereof, and it must have a grounding structure that is appropriate in terms of design and arrangement. In addition, since conventional mobile terminals support communication functions, it is necessary to comply with the SAR (Specific Absorption Rate) international standard. Therefore, there is a limit to increase the transmission power and guarantee the communication performance. was there. The SAR is a numerical value indicating how much the human body absorbs the electromagnetic wave emitted from the mobile phone terminal, which is expressed as energy by the amount of the electromagnetic wave per unit mass of the living body absorbed by the human biological tissue. The human body protection standard for electromagnetic waves of the terminal is based on the amount of electromagnetic waves that are not harmful to the human body through biological experiments. For example, Korea, the United States, Australia, and Canada are based on 1.6 W / kg [1 g average], and Japan and Europe are based on 2.0 W / kg [10 g average]. Accordingly, there is a demand for a proposal of a new technique that can ensure appropriate communication performance while complying with the SAR standard.

  Accordingly, an object of the present invention is to provide a method of controlling a terminal in a communication environment that supports power control for reducing SAR according to a gripping environment of the portable terminal, and a portable terminal that supports the same. There is.

  In addition, an object of the present invention is to provide a method for controlling a terminal in a communication environment that supports the SAR reduction according to the gripping state of the user's terminal while ensuring appropriate communication performance, and supports the same. It is to provide a portable terminal.

  The terminal control method according to the communication environment of the present invention for achieving the above-described object includes a process of generating a sensor signal by gripping a portable terminal and detecting a grip sensor pattern from the generated sensor signal. A process of performing at least one of a process, a process of detecting control information of the communication means corresponding to the detected grip sensor pattern, and a power supply control supplied to the communication means and an antenna module tuning control of the communication means It is characterized by including these.

  In addition, the mobile terminal controlled by the communication environment of the present invention detects a grip sensor pattern based on a grip sensor unit that generates a sensor signal by gripping a user, and a sensor signal supplied from the grip sensor unit, A control unit that detects control information of the communication unit corresponding to the detected grip sensor pattern, and performs at least one of power control supplied to the communication unit and antenna module tuning control of the communication unit; And communication means for performing power supply control and antenna module tuning by the control.

  According to a method of controlling a terminal in a communication environment according to an embodiment of the present invention and a mobile terminal supporting the terminal, the present invention performs control for SAR reduction according to the gripping state of the terminal, Support the use of safe terminals and support to ensure appropriate communication performance by antenna tuning.

1 is a diagram schematically illustrating an appearance of a mobile terminal according to an embodiment of the present invention. 1 is a diagram illustrating a configuration of a mobile terminal according to an embodiment of the present invention in more detail. FIG. 3 is a diagram illustrating a configuration of a control unit of a mobile terminal according to an embodiment of the present invention in more detail. 5 is a flowchart illustrating a method for controlling a terminal in a communication environment according to an exemplary embodiment of the present invention. 1 is a diagram illustrating an antenna-related configuration of a mobile terminal according to an embodiment of the present invention.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only portions necessary for understanding the operation according to the embodiment of the present invention will be described, and descriptions of other portions will be omitted so as not to obscure the gist of the present invention. It should be noted.

  The terms and words used in the specification and claims to be described below should not be construed as limited to ordinary or lexical meaning, and the inventor best describes the invention. Therefore, it must be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be appropriately defined as a concept of term. Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention. It should be understood that there may be various equivalents and variations that can be substituted at this time.

  FIG. 1 is a diagram illustrating an appearance of a mobile terminal according to an embodiment of the present invention, and FIG. 2 is a block diagram illustrating in more detail the configuration of the mobile terminal according to the embodiment of the present invention.

  1 and 2, the mobile terminal 100 according to the present invention includes a communication unit 110, an input unit 120, an audio processing unit 130, a display unit 140, a storage unit 150, a control unit 160, a grip sensor unit 170, and The configuration of the antenna module 200 is included. Here, the communication unit 110 and the antenna module 200 are configured to support the communication function of the mobile terminal 100 and are operated as communication means of the mobile terminal 100.

  The mobile terminal 100 of the present invention having such a configuration controls the size of the power supplied to the antenna module 200 according to the grip sensor pattern of the sensor signal collected from the grip sensor unit 170. That is, the mobile terminal 100 performs control so as to adjust the magnitude of the transmission output of the antenna module 200. Accordingly, the mobile terminal 100 of the present invention can adaptively reduce the power supply for reducing the SAR according to the usage environment of the user's mobile terminal 100. In addition, the mobile terminal 100 of the present invention can provide more appropriate antenna communication performance based on the same antenna module 200 by tuning the antenna module 200 using the grip sensor pattern, that is, adjusting the frequency band. Can help. Here, the mobile terminal 100 of the present invention may support the frequency characteristic adjustment of the antenna module 200 at the same time as the power reduction for reducing the SAR. Hereinafter, functions and roles of each component of the mobile terminal 100 that supports SAR reduction and performance improvement of the antenna module 200 according to an embodiment of the present invention will be described in more detail.

  The communication unit 110 supports transmission and reception of a voice signal necessary for a call function and a data signal necessary for data communication under the control of the control unit 160. For such signal transmission / reception, the communication unit 110 includes a radio frequency transmission unit that performs up-conversion and amplification of the frequency of a signal to be transmitted, and a radio frequency that performs low-noise amplification and down-conversion of the received signal. A receiving part etc. may be included. In particular, in the communication unit 110 of the present invention, the size of the supplied power varies depending on the grip sensor pattern collected from the grip sensor unit 170. For example, when the grip sensor pattern received from the grip sensor unit 170 is a pattern for the communication function operation of the communication unit 110, the size of the transmission output of the communication unit 110 is reduced and the communication unit 110 is supplied. The size of the power supply is reduced. Such a decrease in power is performed to reduce SAR generated by signal transmission transmitted to the antenna module 200 through the communication unit 110. On the other hand, if the grip sensor pattern is changed while the communication function is being performed in a state where the power supply is reduced by the grip sensor pattern, the reduced power supply is increased again. In effect, the user of the mobile terminal 100 is placed close to the ear located on the side of the face while holding the side of the terminal with one hand when using the terminal, particularly when using the call function. . Accordingly, when the grip sensor pattern is a pattern corresponding to a specific state gripped with one hand, the mobile terminal 100 transmits a transmission output transmitted by the communication unit 110 to reduce the SAR and a power supplied to the communication unit 110. Control to reduce the size of. In addition, when the gripping of the side surface of the terminal is released or the gripping mode is changed by releasing the communication function, the transmission output transmitted by the communication unit 110 and the size of the power supplied to the communication unit 110 are initialized. Adjust to a value or control to increase a certain part. On the other hand, when using the message creation function when using the communication function of the mobile terminal 100, the user changes the gripping form of the terminal, thereby re-creating a specific grip sensor pattern. Accordingly, when the grip sensor pattern is changed to the specific pattern that has already been set, the mobile terminal 100 performs control to change the size of the power supply, and performs power supply control for appropriately reducing the SAR. Can do.

  The input unit 120 is configured to support generation of various input signals necessary for controlling the mobile terminal 100. The input unit 120 includes a plurality of input keys and function keys for receiving various numbers or character information and setting various functions. The function keys may include direction keys, side keys, shortcut keys, and the like that are set to perform a specific function. When the mobile terminal 100 is provided as a full touch type, the input unit 120 is formed only with side keys and the like, and functions for inputting numbers and characters are configured by a key map and output on the display unit 140. Configured. Such an input unit 120 can generate an input signal for controlling the setting of the grip sensor pattern according to the embodiment of the present invention under the control of the user. In particular, the input unit 120 may generate an input signal that adjusts a right-handed grip sensor pattern and a left-handed grip sensor pattern according to a user's request. The holding of the right-handed mobile terminal 100 and the holding of the left-handed mobile terminal 100 differ depending on the usage environment of the terminal, for example, a voice call function, an image call function, a data transmission function, and the like. Accordingly, the mobile terminal 100 according to the present invention provides a user interface capable of setting a grip sensor pattern based on a voice call function, a grip sensor pattern based on an image call function, and a grip sensor pattern based on a data transmission function. Pattern setting can be controlled by an input signal input as a base.

  The audio processing unit 130 includes a speaker (SPK) for reproducing audio data transmitted and received during the call, and a microphone (MIC) for collecting the user's voice or other audio signals during the call. In particular, the audio processing unit 130 of the present invention outputs a guidance message regarding power supply reduction or a sound effect informing the power supply reduction when a grip sensor pattern is collected due to the operation of the call function to guide SAR reduction. In addition, when the power supply state is reduced and the power supply state or the transmission output state is restored to the original state by changing the grip sensor pattern, the audio processing unit 130 outputs a sound effect or a guidance message. Can help. The output of the guidance message or sound effect may be omitted depending on the user setting or the presence / absence of terminal support.

  The display unit 140 outputs a screen activated by a function of the mobile terminal and supports a function of collecting a touch event activated by the control unit 160. Such a display unit 140 outputs a boot screen, a standby screen, a menu screen, a call screen, and the like. For the display unit 140 described above, thin film transistor-based flat panel display technology such as OLED and LCD (Liquid Crystal Display) is applied, and when the LCD is applied, the display unit 140 can store the LCD control unit and data. A memory, an LCD display element, and the like are provided. In particular, the display unit 140 of the present invention outputs a user interface for setting a grip sensor pattern. Further, the display unit 140 of the present invention outputs information corresponding to the gripped state by setting the grip sensor pattern. For example, when the mobile terminal 100 is held with the left hand or when the mobile terminal 100 is held with the right hand, the display unit 140 outputs information on the sensor signal pattern collected by the grip sensor unit 170. Alternatively, the display unit 140 outputs information on the pattern forms collected by the grip sensor unit 170 when the portable terminal 100 is held with both hands. In addition, the display unit 140 of the present invention outputs a control table 151 composed of the above-described grip sensor pattern upon user request. By checking the control table 151, the user can check which grip sensor pattern causes a power reduction for SAR reduction. Further, the portable terminal 100 according to the present invention can set the tuning value of the antenna module 200 by the grip sensor pattern, and such a setting value is stored together in the control table 151. Therefore, the display unit 140 can support the output of the control table 151 including information regarding the tuning value of the antenna module 200 and the power reduction environment for reducing the SAR and information regarding the relationship between the grip sensor patterns. .

  The storage unit 150 stores an application for touch operation, an application for operation of the grip sensor unit 170, and the like as well as an application necessary for the functional operation according to the embodiment of the present invention. The storage unit 150 may include a program area and a data area.

  The program area includes an operating system (OS) that activates the mobile terminal 100, an application for operating the grip sensor unit, other options functions of the mobile terminal 100, such as a sound playback function, an image, and the like. Alternatively, an application necessary for a movie playback function is stored. In particular, the program area of the present invention stores a communication environment control program. The communication environment control program integrates sensor signals loaded into the control unit 160 and collected from the grip sensor unit 170 when the mobile terminal 100 is activated, and stores a routine for determining which pattern is included The control table 151 stored in the unit 150 is checked, a routine for checking the power supply reduction value and the tuning value of the antenna module 200 corresponding to the corresponding pattern, and the confirmed values are supplied to the communication unit 110 and the antenna module 200. And a routine for reducing the transmission output of the power supply or antenna module 200 and a routine for tuning the antenna module 200 may be included.

  The data area is an area in which data generated by using the mobile terminal 100 is stored, and user data related to various optional functions provided by the mobile terminal 100, for example, video, phonebook data, Audio data, corresponding content, or information corresponding to user data can be stored. In particular, the data area of the present invention can store the control table 151 in order to reduce the SAR and improve the performance of the antenna module 200 due to the communication environment. The control table 151 includes power control information supplied to at least one of the communication unit 110 and the antenna module 200 in order to reduce the SAR based on the reference grip sensor pattern information and each reference grip sensor pattern information, and each reference grip sensor pattern. The tuning information of the antenna module 200 for improving the performance of the antenna module 200 can be stored by at least one of the information and the power supply reduction information. Such a control table 151 is called by loading the control unit 160 of the communication environment control program, and is used for power supply and tuning control of the antenna module 200. Here, the reference grip sensor pattern information may be adjusted or changed through a user interface. For example, the user interface by adjusting the reference grip sensor pattern information outputs a guidance message instructing “right hand grip”, “left hand grip”, “two-hand grip”, etc. By holding the corresponding terminal in between, the reference grip sensor pattern information can be generated, adjusted, or changed. Also, the user can adjust the hand used primarily, i.e. right-handed or left-handed settings.

  The grip sensor unit 170 includes at least one grip sensor disposed on one side of the case of the mobile terminal 100, generates a sensor signal when the user grips the terminal, and transmits the generated sensor signal to the controller 160. . For example, as illustrated in FIG. 1, the grip sensor unit 170 includes a plurality of sensors provided on the left and right side surfaces of the lower end of the mobile terminal 100, such as a finger that is in contact with the user while holding the terminal. A sensor signal according to the contact form is generated and transmitted to the controller 160. Meanwhile, at least one grip sensor unit 170 is disposed not only on the side surface of the mobile terminal 100 but also on the back surface of the mobile terminal 100 with reference to the display unit 140. In addition, at least one sensor is disposed on at least one side of the front surface of the mobile terminal 100. The grip sensor unit 170 arranged in this way generates different sensor signals according to the user's gripping form and transmits them to the control unit 160 to determine in which form the user grips the terminal. Provide a detection signal that can.

  The antenna module 200 is connected to the communication unit 110 and radiates a signal transmitted from the communication unit 110 to the air, or transmits a signal received from the air to the communication unit 110, and an antenna. An antenna control module 220 that controls tuning of the unit 210 may be included. Here, the antenna unit 210 is manufactured with an antenna having a P-type or F-type pattern and is placed inside the case of the mobile terminal 100. The antenna control module 220 may be configured to include various circuit elements in order to tune the frequency band of the antenna unit 210 connected to the antenna unit 210. In particular, the antenna control module 220 may include at least one variable resistor, a variable inductor, and a variable capacitor connected to the antenna unit 210. In addition, the antenna control module 220 adjusts the variable characteristics of the corresponding circuit element according to the antenna tuning information transmitted from the control unit 160 and performs control so as to adjust the frequency band of the antenna unit 210. Accordingly, the antenna module 200 of the present invention supports antenna characteristics that can be tuned. In particular, the antenna module 200 of the present invention can improve the degradation of antenna performance that is affected by the gripping of the user by controlling the frequency characteristics to be tuned based on the antenna tuning information based on the grip sensor pattern. Meanwhile, the antenna unit 210 can be supplied with power by reducing the power supplied by the grip sensor pattern. At this time, the antenna unit 210 may include an antenna pattern and an amplifier connected to the antenna pattern, and the reduction of the power supply is generated from the power supplied to the amplifier. On the other hand, when the antenna unit 210 is manufactured as a configuration including only an antenna pattern and the communication unit 110 is manufactured as a configuration including an amplifier, a modulator, and a filter connected to the antenna pattern, the power supply is reduced by the communication unit. 110 may be generated from a power source supplied to 110. Therefore, it can be understood that the control of the power source for reducing the SAR of the present invention is generated from the power source supplied to the internal circuit element of the communication means provided in the portable terminal 100.

  The controller 160 controls the power supply of the mobile terminal 100, the activation of each device, and the flow of signals transmitted and received between the devices. In particular, the control unit 160 according to the present invention performs power control for reducing SAR due to a communication environment and various signal controls necessary for tuning control for supporting performance improvement of the antenna module 200. Here, an I2C interface is provided between the control unit 160 and the antenna module 200 in order to communicate data for control, and other communication interfaces can be substituted by the selection of the system designer. Such a control unit 160 may include a configuration as shown in FIG.

  FIG. 3 is a diagram illustrating in more detail the configuration of the controller 160 of the mobile terminal 100 according to the embodiment of the present invention.

  Referring to FIG. 3, the control unit 160 of the present invention includes a sensor signal collection unit 161, a pattern confirmation unit 163, and an antenna control unit 165. The antenna control unit 165 includes the antenna band adjustment unit 164 and the antenna power adjustment. Part 166.

  The sensor signal collecting unit 161 is configured to collect various sensor signals generated from the grip sensor unit 170 according to the gripping state of the mobile terminal 100. For this purpose, the sensor signal collection unit 161 checks which sensor signal is generated by which sensor by monitoring at least one sensor included in the grip sensor unit 170. Accordingly, the sensor signal collection unit 161 transmits the position information of the grip sensor where the signal is generated and the magnitude of the sensor signal value transmitted from the corresponding sensor to the pattern confirmation unit 163. For example, when a plurality of sensors included in the grip sensor unit 170 are disposed on the side surface of the case of the mobile terminal 100, the sensor signal collection unit 161 assigns an identification factor according to the position of the grip sensor, The identification factor and sensor signal value are transmitted to the pattern confirmation unit 163.

  The pattern confirmation unit 163 confirms which magnitude of the sensor signal is generated from the grip sensor arranged at which position based on the sensor signal value transmitted by the sensor signal collection unit 161 and sets the corresponding sensor signal to 1. Integrate into one pattern. The grip sensor pattern integrated in this way is used to detect the reference grip sensor pattern having the most similar value as compared with the reference grip sensor pattern stored in the control table 151 called from the storage unit 150 in advance. Used. At this time, the pattern confirming unit 163 can apply a constant error rate, and thereby detects a reference grip sensor pattern that is matched to the current grip sensor pattern within a certain error rate. Alternatively, the pattern confirmation unit 163 determines to detect the reference grip sensor pattern having the highest matching rate with the currently collected grip sensor pattern among the entire reference grip sensor patterns included in the control table 151. You can also. If the reference grip sensor pattern is detected, the pattern confirmation unit 163 confirms the antenna tuning information and power supply control information corresponding to the corresponding reference grip sensor pattern. Also, antenna tuning information and power supply control information are transmitted to the antenna control unit 165.

  Meanwhile, the pattern confirmation unit 163 may detect a grip sensor pattern by applying a timer to the sensor signal received from the grip sensor unit 170. That is, when the user of the mobile terminal 100 grips the mobile terminal 100, the gripping pattern is changed in various forms and often, so when the grip sensor pattern is detected, the corresponding pattern is detected in real time. , Power waste and unnecessary computation occur. Accordingly, the pattern confirmation unit 163 activates a timer when a grip sensor signal is generated, and detects the reference grip sensor pattern for the corresponding grip sensor pattern when the same grip sensor pattern is generated for a predetermined time. Control is performed so as to transmit the control information of the communication means corresponding to the grip sensor pattern to the antenna control unit 165. For this, the controller 160 may further include a timer configuration for a grip sensor pattern.

  The antenna control unit 165 receives the antenna tuning information and the power supply control information from the pattern confirmation unit 163, and can control the necessary configuration based on the corresponding value. More specifically, when receiving the antenna tuning information from the pattern confirmation unit 163, the antenna control unit 165 transmits the antenna tuning information to the antenna band adjustment unit 164. Then, the antenna band adjusting unit 164 transmits the adjustment value of the circuit element corresponding to the corresponding antenna tuning information to the antenna control module 220 so that the circuit element included in the antenna control module 220 has an element value based on the adjustment value. To control. Accordingly, the antenna band adjustment unit 164 assists so that the natural frequency characteristic of the antenna unit 210 can be compensated for being changed by a user's grip. On the other hand, if the antenna control unit 165 receives the power supply control information from the pattern confirmation unit 163, the antenna control unit 165 transmits this to the antenna power adjustment unit 166. Then, the antenna power adjustment unit 166 performs control so as to reduce the size of the power supplied to the antenna unit 210 or the communication unit 110 according to the transmitted power control information or increase the reduced power. To do.

  As described above, the mobile terminal that controls the terminal according to the communication environment according to the embodiment of the present invention controls the power reduction for SAR reduction according to the gripping form of the user's terminal or the antenna unit 210 by gripping. Assistance in performing control to improve performance. Accordingly, the portable terminal of the present invention can support the use of a safer terminal and can provide good communication performance.

  In the above, each structure of the portable terminal which performs control of the terminal by the communication environment according to the embodiment of the present invention and the role of the structure have been described. Hereinafter, the terminal control method according to the communication environment of the present invention will be described in more detail with reference to the drawings.

  FIG. 4 is a flowchart illustrating a method for controlling a terminal in a communication environment according to an embodiment of the present invention.

  Referring to FIG. 4, according to the terminal control method of the present invention, first, when power is supplied to the mobile terminal 100, the controller 160 may control each of the mobile terminals 100 based on the supplied power. When the configuration is initialized and the initialization is completed, control is performed to output a standby screen to the display unit 140 as in step 401.

  Next, in step 403, the controller 160 checks whether a grip sensor signal has been received. For this, the control unit 160 controls power supply to the grip sensor unit 170 and monitors whether a grip sensor signal is generated from the grip sensor unit 170. On the other hand, although the previous step of the grip sensor receiving step has been described as the standby screen display step, the present invention is not limited to this. That is, the previous step of the grip sensor receiving step may be a user function performing step by starting another user application, for example, an audio file playback program, and switching a slip mode for power saving. It may be in a state.

  If another grip sensor signal is not received in step 403, the control unit 160 of the mobile terminal 100 branches to step 405 to control the antenna module 200 according to default settings and perform the corresponding user function. Can help. For example, the control unit 160 controls the power supplied to the communication unit including the communication unit 110 and the antenna module 200 and the transmission output of the communication unit so as not to perform another power reduction or tuning of the antenna unit 210. be able to. In addition, the control unit 160 can assist to perform a user function, for example, a file reproduction function, by an input signal input from the input unit 120 or the display unit 140 of the touch screen function.

On the other hand, if a grip sensor signal is generated from the grip sensor unit 170 in step 403, the control unit 160 may branch to step 407 and check the pattern of the grip sensor signal. For this, the grip sensor unit 170 may be configured in a form in which a plurality of grip sensors are arranged on one side of the case of the mobile terminal 100, and a sensor type capable of detecting a pattern with respect to a user's gripping form. May be formed. For example, in the grip sensor unit 170, a plurality of grip sensors may be disposed in at least one of the left and right side surfaces, the upper and lower side surfaces of the mobile terminal 100, and the back surface of the display unit 140. Depending on the situation, the display unit 140 may be arranged in the region of the edge of the front surface. The position and area of the grip sensor are adjusted according to the designer's intention. The controller 160 uses the at least one of the position value of the sensor information and the magnitude of the sensor value for the sensor information received from the grip sensor described above, and the grip sensor for the currently received grip sensor signal. Detect patterns. Further, the control unit 160 can perform control so as to detect a reference grip sensor pattern corresponding to the current grip sensor pattern by calling the control table 151 stored in the storage unit 150. At this time, the controller 160 detects a reference grip sensor pattern having a matching rate within a certain error rate, or detects a reference grip sensor pattern having the highest matching rate with the current grip sensor pattern among the reference grip sensor patterns. To do. Meanwhile, the controller 160 operates a timer in the process of detecting the grip sensor pattern, and determines the grip sensor pattern as an effective pattern when the grip sensor pattern is maintained during the timer completion period. If the grip sensor pattern is changed before the timer completion period, it is determined that the current grip sensor pattern, i.e., the previous grip sensor pattern is invalid, and the timer operation for the new grip sensor pattern, i.e., after the timer reset, The start can be controlled again. Accordingly, the portable terminal 100 according to the present invention can prevent unnecessary power consumption by preventing the calculation of the reference grip sensor pattern that is calculated indiscriminately by the change of the gripping operation.

  Next, the control unit 160 determines from the control table 151 at least one of the antenna adjustment value corresponding to the reference grip sensor pattern detected by branching to step 409, that is, the power supply reduction information and the tuning information of the antenna module 200. To detect. Further, the control unit 160 branches to 411 steps to control the radiation performance and the SAR reduction by the antenna adjustment value. That is, the control unit 160 can control the antenna module 200 to be tuned to improve the radiation performance, and at least one of the power supply and the transmission output supplied to the communication means for reducing the SAR is constant. It is possible to control so as to reduce the size. At this time, the size of the reduced power source may vary depending on the size of the mobile terminal 100 and the form of the communication chip applied to the corresponding terminal, so that the corresponding value is determined experimentally. . Since the tuning information of the antenna module 200 can also change depending on the gripping form of the user, such a part also changes depending on the model such as the size and form of the mobile terminal 100, and as a result, is experimentally derived for a specific model. It is preferable.

  Next, the control unit 160 branches to step 413 to check whether the reception of the sensor signal is completed. At this time, if the sensor signal reception is continued, the process branches to the previous step of 407 so that optimal antenna performance support and SAR reduction can be achieved while maintaining or re-executing the following process. To help. On the other hand, when the reception of the sensor signal is completed in step 413, the control unit 160 branches to the previous step of step 401 and performs control to repeat the following process.

  As described above, the control of the terminal according to the communication environment according to the embodiment of the present invention can be performed according to the gripping state of various mobile terminals 100, thereby supporting more appropriate operation of the terminal. For example, when using the mobile terminal 100, the user performs holding for communication function operation and holding for user function operation excluding the communication function. Explaining this in more detail, the user of the portable terminal 100 holds the left and right side portions of the portable terminal 100 with both hands for message creation and transmission, or holds only one side portion with one hand. . At this time, if the grip sensor unit 170 is configured in such a form that the grip sensors are respectively disposed on the left and right side surfaces and the back surface of the mobile terminal 100, the control unit 160 may hold the grip sensor pattern by two-hand grip, or A grip sensor pattern having a form in which only one side surface portion is gripped is detected. If it does so, the control part 160 will judge that it is preparation of the message which the applicable grip sensor pattern generate | occur | produces, and will control not to perform the power supply reduction for another SAR reduction. Meanwhile, in order to transmit a message, the designer of the mobile terminal 100 experimentally confirms a decrease in antenna radiation performance caused by the grip sensor pattern, and tunes the antenna module 200 in which the corresponding decrease in radiation performance is reinforced. Generate information. For example, when the designer of the portable terminal 100 generates a tuning information of the antenna module 200 that can compensate for the change when the communication frequency characteristics change due to the gripping of both hands, control is performed so as to configure the control table 151. May be. Then, the mobile terminal 100 can perform normal message transmission even in a gripping environment by message transmission.

  As a similar form, when performing a web search based on the mobile terminal 100 and performing an Internet search, the user holds the side part of the mobile terminal 100 with both hands according to the size and model of the mobile terminal 100, Hold only one side. Alternatively, when the portable terminal 100 supports switching between the horizontal mode and the vertical mode of the display unit 140, the specific side surface portion is gripped with both hands, or only the specific side surface portion is gripped with one hand. At this time, at least a part of the back surface may selectively come into contact with the user's hand by the user's grip. Then, the control unit 160 tunes the antenna module 200 only for improving the radiation performance by grasping with both hands so as to be similar to the case of creating a message, and does not perform power source reduction for another SAR reduction. Control. In the case of the web connection function and the message creation, since the mobile terminal 100 has a certain distance from the user, the control unit 160 does not perform SAR reduction and is normal for better communication performance support. Control to perform proper power supply.

  On the other hand, when operating the voice call function among the call functions, the mobile terminal 100 is arranged in a specific part of the user, for example, an area adjacent to the face. At least one of the reductions is required. Therefore, when the grip sensor pattern received from the grip sensor unit 170 is detected as a pattern corresponding to the operation of the voice call function, the control unit 160 reduces the supply power and the transmission output to reduce the SAR. At least one of them. The user comes to surround the side surface of the mobile terminal 100 with one hand for the operation of the voice call function. In particular, the user uses the finger to partly use the first side surface and the remaining fingers The second side surface portion is gripped. Thereby, the control part 160 determines the holding | grip for operating a voice call with the sensor signal pattern received from the several grip sensor provided in a side part. If the operation of the voice call is determined, the control unit 160 may tune the antenna module 200 for improving the radiation performance by holding one hand together with at least one of the reduction of the power supply and the transmission output. it can.

  In the case of an image call in the call function operation, unlike the voice call, even if the portable terminal 100 is held with both hands or the portable terminal 100 is held with one hand, the plane of the hand is placed on the back of the portable terminal 100. Grip to touch. Therefore, the control unit 160 performs control so as to control the same communication means as the message creation or web connection function as described above when gripping with both hands, and touches the plane of the hand when gripping with one hand. Control is made so as to control the communication means depending on whether or not.

  On the other hand, in the above description, it is described that at least one of antenna module tuning and transmission output reduction is performed by arranging four grip sensors and holding a specific grip sensor, but the present invention is limited to this. is not. That is, the mobile terminal 100 may include a larger number of grip sensors, or various forms of grip sensing collected from a large number of grip sensors, for example, dozens of grip patterns, for example, tens of grip sensors. It can be predefined as a gripping pattern. Accordingly, the mobile terminal 100 compares the sensor signal pattern collected by the sensor unit with a variety of predefined patterns by the user's grip, and then at least of antenna module tuning and power reduction defined in the corresponding pattern. One can be supported. For this purpose, the antenna module tuning value, power reduction value, and simultaneous performance value of antenna module tuning and power reduction corresponding to various gripping patterns by grip sensing are experimentally determined according to the manufacturing specification and frequency characteristics of each terminal. Obtained and provided to the terminal.

  FIG. 5 is a diagram showing in more detail only the antenna-related structure according to the embodiment of the present invention.

  Referring to FIG. 5, the mobile terminal 100 of the present invention includes an antenna unit 210, a TMN 220, a duplexer 111, an LNA 112, a PA 113, a VSWR (Voltage Standing Wave Ratio) detection unit 201 and a control unit 160. Here, the TMN 220 corresponds to the antenna control module 220 described above. Further, the duplexer 111, the LNA 112, the PA 113, and the like correspond to the configuration of the communication unit 110 among the configurations described above.

  In the portable terminal 100 of the present invention having such a configuration, if the signal flowing through the antenna unit 210 is detected by the VSWR detection unit 201 and transmitted to the control unit 160, the control unit 160 transmits the signal transmitted by the VSWR detection unit 201. Thus, the TMN 220 can be controlled. The TMN 220 is configured to support frequency tuning of the antenna unit 210, and can adjust the characteristics of the antenna unit 210 under the control of the control unit 160. The duplexer 111 is configured to support signal switching in the signal transmission / reception process, the LNA 112 is configured to perform low noise amplification, and the PA 113 is configured to perform power amplification.

  As described above, the portable terminal 100 according to the present invention supports the control unit 160 to control the characteristics of the antenna unit 210 and reduce the SAR according to the detection result detected by the VSWR detection unit 201. In particular, the control unit 160 of the present invention can support optimal SAR reduction by performing various antenna tunings through the control of the TMN 220 according to a gripping form for gripping the mobile terminal 100. In addition, the controller 160 of the present invention controls the power control type according to the gripping form of the mobile terminal 100, thereby assisting in achieving SAR reduction while optimizing power reduction. In this process, the VSWR detection unit 201 notifies the control unit 160 that the antenna radiation characteristic has changed according to the form in which the user holds the mobile terminal 100. The controller 160 assists the user to predefine changes in antenna radiation characteristics according to the state in which the user is holding the mobile terminal 100 in various patterns and to compare with the current antenna radiation characteristics transmitted by the VSWR detector 201. For this purpose, the portable terminal 100 stores the predefined multiple patterns, the transmission output control values of the communication means defined in the multiple patterns, and the antenna module tuning values of the communication means. A part may be further included.

  For example, the controller 160 predefines antenna radiation characteristic patterns for each A-O type described below, and performs antenna frequency tuning and transmission according to a pattern corresponding to the antenna radiation characteristics in the process of gripping the mobile terminal 100 by the user. At least one of the output tunings can be controlled. More specifically, the “A-O” type is a value that must be tuned by the TMN 220 and is a frequency tuning value that is predefined according to the gripping form of the user's mobile terminal 100. Also good. That is, the “A-O” value may be a value for tuning the TMN 220 so that the antenna radiation characteristics are optimized according to various gripping forms of the user after the mobile terminal 100 is manufactured. Since this value varies depending on the frequency band supported by the mobile terminal 100, the value is experimentally acquired according to the support frequency band of each mobile terminal 100.

  Hereinafter, the various types provided for each gripping pattern or each antenna radiation characteristic change will be described in more detail. That is, various patterns described below are applied according to the above-described gripping patterns or antenna radiation characteristic changes.

  First, based on the arrangement of the four grip sensors described above, parameter values for frequency tuning of the AO type TMN 220 according to the grip patterns corresponding to 15 cases as a whole are shown as a classification for confirming the grip pattern of the user. It was shown in 3.

  The element values shown in Table 1 are just examples, and the definition of the parameter value for each A-O type varies depending on the manufacturing characteristics of the mobile terminal 100, the frequency characteristics of transmission and reception, and the like. In addition, the A-O type is expanded to a larger number or reduced to a smaller number of types depending on an increase or decrease in the number of grip sensors, a sensing form of the grip sensors, or the like.

  For example, based on the first to fourth grip sensors (Touch 1, Touch 2, Touch 3, Touch 4) in FIG. 1, the A type is gripped with a first grip sensor (Touch 1) above a certain value, This corresponds to the antenna module tuning value corresponding to the case where the other grip sensor is gripped or not gripped below a certain value. The B type is gripped by the second grip sensor (Touch 2), the C type is gripped by the third grip sensor (Touch 3), and the D type is gripped by the fourth grip sensor (Touch 4). This corresponds to the antenna module tuning value corresponding to the selected state.

  The E type corresponds to a state in which the first grip sensor and the second grip sensor (Touch 1, Touch 2) are gripped at a certain pressure value or higher and the other grip sensors are not gripped or gripped at a certain value or less. It may be a tuning value. In the F type, the first grip sensor and the third grip sensor (Touch 1, Touch 3) are gripped. In the G type, the first grip sensor and the fourth grip sensor (Touch 1, Touch 4) are gripped. State, the H type is gripped by the second grip sensor and the third grip sensor (Touch 2, Touch 3), and the I type is gripped by the second grip sensor and the fourth grip sensor (Touch 2, Touch 4) The J type may be an antenna module tuning value corresponding to a state in which the third grip sensor and the fourth grip sensor (Touch 3, Touch 4) are gripped.

  In the K type, whether the first grip sensor, the second grip sensor, and the third grip sensor (Touch 1, Touch 2, Touch 3) are gripped at a certain pressure value or more, and the fourth grip sensor (Touch 4) is not gripped. It may be an antenna module tuning value corresponding to a case gripped below a certain pressure value. The L type is a state where the first grip sensor, the second grip sensor, and the fourth grip sensor (Touch 1, Touch 2, and Touch 4) are gripped, and the M type is the first grip sensor, the third grip sensor, and the fourth. Grip sensor (Touch 1, Touch 3, Touch 4) is gripped, N type is gripped by second grip sensor, third grip sensor and fourth grip sensor (Touch 2, Touch 3, Touch 4) It may be an antenna module tuning value corresponding to the state.

  The O type may be an antenna module tuning value corresponding to a state in which the first to fourth grip sensors (Touch 1 to Touch 4) are gripped.

  Meanwhile, the mobile terminal 100 according to the embodiment of the present invention can adjust the transmission output according to the holding state of the terminal in order to reduce the SAR. For example, the portable terminal 100 divides the grip type of the terminal into 15 steps for each ao type, and supports the adjustment by changing the transmission output for each type. That is, when four grip sensors are arranged, at least one of the grip sensors is classified according to a form in which the grip sensor is gripped at a certain pressure or more, and the respective grip types are classified. Therefore, it is possible to support by changing the transmission output adjustment for each gripping type.

  On the other hand, if a specific product, for example, GSM (registered trademark) 850 is described as a reference, the transmission output adjustment for each type of GSM (registered trademark) 850 is as shown in Tables 2 to 16 below. It is.

  As described above, the mobile terminal 100 of the present invention can be defined by changing the size of the transmission output for each grip pattern of the terminal as described above. The magnitude of the transmission output in Tables 2 to 16 is a setting value of the transmission output, and is a parameter value related to the magnitude of the output that the transmitter must output. As a result, the output value actually output varies depending on the basic output of the transmitter to which the setting value of the transmission output described in the corresponding table is applied.

  The tx2g [0] to tx2g [5] are register values arranged in the transmitter, and each of the four registers is used to adjust the transmission output of the transmitter. Here, the fifth tx2g [5] may be a spare register. Thereby, a fixed value or a dummy value may be written in the corresponding register.

  On the other hand, in the above description, the case where the present invention is applied to the GSM (registered trademark) 850 product has been described. However, the present invention is not limited to this, and the present invention is not limited to the EDGE 850, WCDMA 850, or GSM (registered trademark). It is applied to various products such as 1900, EDGE1900, or WCDMA1900. For example, the specific type of transmit power applied to GSM® 850 is applied in other products as shown in the table below.

  In the above description, the maximum power setting value of the grip sensors of GSM (registered trademark) 1900 and EDGE 1900 is 248, and the maximum power setting value of the grip sensors of GSM (registered trademark) 850 and EDGE 850 is set to 264.

  As described above, the size of the transmission output is adjusted to be different for reducing the SAR in accordance with the product manufacturing characteristics and the communication characteristics in which the products are operated for each product. For each product described above, the transmission output adjustment is performed for each gripping pattern as in the GSM (registered trademark) 850 product described above.

上述した表２０において、横軸はタイプであり、縦軸はグリップセンサである。
以上で説明したように、アンテナチューニング及び電力制御のうち少なくとも１つにより、本発明のＳＡＲ低減は、表２１のように達成される。

Table 20 below summarizes the above-described grip sensor pattern for antenna module tuning or grip sensor pattern for transmission output adjustment.

In Table 20 described above, the horizontal axis indicates the type, and the vertical axis indicates the grip sensor.
As described above, the SAR reduction of the present invention is achieved as shown in Table 21 by at least one of antenna tuning and power control.

  On the other hand, in the above description, the antenna tuning step and the transmission output adjustment step are described as being divided into 15 steps by AO type or ao type, but the present invention is limited to this. Instead, it may be operated by dividing into more types, for example, 20 or more types. That is, the mobile terminal 100 according to the embodiment of the present invention divides into a plurality of predefined types according to the gripping form, performs antenna tuning optimized for a specific gripping form according to the divided type, SAR reduction can be achieved by adjusting the transmit power and adjusting both antenna tuning and transmit power.

  That is, when the user grips the terminal with a specific type, the controller 160 performs at least one of antenna tuning and transmission output adjustment corresponding to the gripped type, and the SAR according to the gripping mode. It can help to optimize the reduction. For this, the antenna tuning value and the transmission power adjustment value according to a specific gripping pattern can be defined in advance. As described above, the antenna tuning value and the transmission output adjustment value vary depending on the manufacturing characteristics of each product or the communication operation characteristics of the product.

The mobile terminal 100 described above is provided with a short-range communication module for short-range communication, a camera module for capturing a still image / moving picture of a subject as described above, and wired communication of the mobile terminal 100 according to the form of provision. Not mentioned above, such as an interface for data transmission / reception using a communication system or a wireless communication system, an Internet communication module that performs an Internet function by communicating with an Internet network, and a digital broadcast module that performs a digital broadcast reception and playback function A configuration may further be included. Such components may vary greatly due to the convergence tendency of digital equipment, and cannot be enumerated, but the device further includes components at a level equivalent to the components mentioned above. May be configured. In addition, the mobile terminal 100 according to the present invention may be excluded from the above configuration or may be replaced with another configuration depending on the form of provision. This will be easily understood by those having ordinary knowledge in the art.
In addition, the mobile terminal 100 according to an embodiment of the present invention is an apparatus including a grip sensor and an antenna tuning module, and all mobile devices that operate based on communication protocols corresponding to various communication systems. In addition to mobile communication terminals (mobile communication terminals), PMP (Portable Multimedia Player), digital broadcast players, PDAs (Personal Digital Assistants), music players (for example, MP3 players), portable game terminals, smartphones (Smart Phones) All information communication devices and multimedia devices such as notebooks and handheld PCs And it may include an application equipment for it.

  Although the present invention has been described using several preferred embodiments, these embodiments are illustrative and not limiting. Thus, those who have ordinary knowledge in the technical field to which the present invention pertains will not depart from the scope of the rights presented in the spirit of the present invention and the appended claims, and various changes and modifications will be made based on the doctrine of equivalents. You will understand that it is possible to add.

DESCRIPTION OF SYMBOLS 100: Portable terminal 110: Communication part 120: Input part 130: Audio processing part 140: Display part 150: Storage part 151: Control table 160: Control part 161: Sensor signal collection part 163: Pattern confirmation part 164: Antenna band adjustment Unit 165: Antenna control unit 166: Antenna power adjustment unit

Claims (18)

A grip sensor unit that generates a sensor signal by a user's grip;
A grip sensor pattern is detected based on a sensor signal supplied from the grip sensor unit, control information of a communication unit corresponding to the detected grip sensor pattern is detected, power control of the communication unit, and an antenna module of the communication unit A control unit that performs at least one of the tuning controls;
Communication means for performing power supply control and antenna module tuning under the control of the control unit,
A portable terminal controlled by a communication environment. At least one reference grip sensor pattern corresponding to the grip sensor pattern;
A storage unit storing a control table having at least one of power control information and antenna module tuning control information corresponding to each of the reference grip sensor patterns;
The mobile terminal controlled by the communication environment according to claim 1, further comprising: The controller is
A sensor signal collecting unit for collecting the grip sensor signal;
A pattern confirmation unit for detecting a grip sensor pattern from the collected sensor signals and detecting a reference grip sensor pattern corresponding to the grip sensor pattern;
Antenna control for receiving at least one of power control information and antenna module tuning control information corresponding to a reference grip sensor pattern from the pattern confirmation unit and performing at least one of power control and antenna module tuning control of the communication means And
The mobile terminal controlled by the communication environment according to claim 2. The controller is
The mobile terminal controlled by the communication environment according to claim 3, further comprising a timer for detecting the grip sensor pattern that is maintained for a predetermined time. The antenna controller is
An antenna power adjusting unit that reduces at least one of the supply power supplied to the communication unit and the transmission output of the communication unit according to the power control information, or increases the reduced supply power;
An antenna band adjusting unit for controlling the antenna module tuning control information to compensate for the natural frequency characteristic of the antenna unit of the communication means;
The mobile terminal controlled by the communication environment according to claim 3. The communication means includes
A communication unit for amplifying and modulating signals to be transmitted and received;
An antenna unit for emitting and receiving the transmitted and received signals;
An antenna control module that includes at least one circuit element coupled to the antenna unit and compensates for the natural frequency characteristics of the antenna unit;
The mobile terminal controlled by the communication environment according to claim 1. The grip sensor part is
The mobile terminal controlled by a communication environment according to claim 1, further comprising a plurality of grip sensors disposed at least in two of the upper, lower, left and right side portions of the case of the mobile terminal. The controller is
According to the grip sensor pattern received from the grip sensor unit, one of the two-handed grip, the one-handed grip, and the one-handed grip of one of the side surfaces is determined. The portable terminal controlled by the communication environment according to claim 7, wherein at least one of the antenna module tuning control is performed. The controller is
The voice communication function operation of the communication means is determined by the finger grip pattern contacting both side surfaces of the portable terminal, and control is performed so as to reduce at least one of the power supply and the transmission output supplied to the communication means, and the grip 9. The portable terminal controlled by a communication environment according to claim 8, wherein the antenna module is tuned for antenna radiation performance compensation by the communication environment. The grip sensor part is
The mobile terminal controlled by a communication environment according to claim 7, further comprising at least one grip sensor disposed on a back surface of a case of the mobile terminal. The controller is
Antenna module tuning for determining the image call function operation of the communication means based on the finger grip pattern contacting both side surfaces of the portable terminal and the palm contact pattern contacting the back surface, and compensating for antenna radiation performance by gripping The mobile terminal controlled by the communication environment according to claim 10, wherein the mobile terminal is controlled to perform the following. A process of generating a sensor signal by gripping the mobile terminal;
Detecting a grip sensor pattern from the generated sensor signal;
Detecting the control information of the communication means corresponding to the detected grip sensor pattern;
Performing at least one of power control of the communication means and antenna module tuning control of the communication means;
A method for controlling a terminal using a communication environment. The process of detecting the control information of the communication means includes
Calling from the storage unit at least one reference grip sensor pattern corresponding to the grip sensor pattern and a control table having at least one of power control information and antenna module tuning control information corresponding to the reference grip sensor pattern, respectively. The process of
A step of detecting a reference grip sensor pattern having the highest marching rate among the reference grip sensor pattern and a marching rate within a certain error rate or an overall reference grip sensor pattern included in the control table;
Detecting at least one of power control information and antenna module tuning control information corresponding to the detected reference grip sensor pattern;
The method according to claim 12, wherein the terminal controls the communication environment. The process of detecting the grip sensor pattern includes:
The process of running the timer,
When the grip sensor pattern is maintained during the timer completion period, determining the grip sensor pattern as an effective pattern;
The method according to claim 12, wherein the terminal controls the communication environment. The execution process includes:
A step of reducing at least one of the supply power supplied to the communication unit and the transmission output of the communication unit according to the power control information, or increasing at least one of the reduced supply power and transmission output When,
A process of controlling the antenna module tuning control information to compensate for the natural frequency characteristics of the antenna unit of the communication means;
The method of claim 12, further comprising at least one process. The execution process includes:
Determining the voice call function operation of the communication means according to the pattern of finger grip contacting both sides of the mobile terminal;
Controlling to reduce at least one of the power supply and transmission output supplied to the communication means by the determination, and performing antenna module tuning for compensation of antenna radiation performance by gripping; and
The method according to claim 12, wherein the terminal controls the communication environment. The execution process includes:
According to at least one of a finger grip pattern that contacts both sides of the portable terminal and a palm contact pattern that contacts the back surface, the current state of image communication function operation, message creation function operation, web connection function of communication means The process of deciding on one of the operations,
Maintaining the power supply of the antenna unit by gripping by the determination, and controlling to perform antenna module tuning for compensation of antenna radiation performance;
The method according to claim 12, wherein the terminal controls the communication environment. A detector that collects antenna radiation characteristics by a user's grip;
The radiation characteristic pattern detected by the detection unit is compared with a number of predefined patterns, and at least of the transmission output control of the communication means and the antenna module tuning control of the communication means defined in the pattern corresponding to the radiation characteristic pattern A control unit that performs one;
Communication means for performing power supply control and antenna module tuning under the control of the control unit;
A storage unit for storing the plurality of predefined patterns, a transmission output control value of the communication means defined in the multiple patterns, and an antenna module tuning value of the communication means;
A portable terminal controlled by a communication environment.

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