TW200949630A - Electronic device and method for controlling program thereof - Google Patents

Abstract

Provide are an electronic device and a method for controlling a program of the electronic device. A plurality of input control signals are generated by combining a movement signal output response to a movement of an actuating member and a click signal output in response to a clicking action on a dome switch. The program is controlled using the input control signals so that the size and manufacturing costs of an input unit of the electronic device can be reduced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to an electronic device and a method of controlling a program of the electronic device, and more particularly to a method of controlling the operation of a program of an electronic device, The electronic device includes an input unit 'this input unit has a magnetic sensor that can move on a two-dimensional plane. [Prior Art] Recent electronic devices have become small and have various functions. For example, recent cellular phones provide a photographing function as well as a music-replay function in addition to providing a calling function. The various input units are listened to (4) the program of the near_f sub-device. In the previous technology, such as the mouse device (mGusedeviee) _ pad (touch pad), button hit button (click butt〇n) and = and other devices to make the input device ^ and touch ^ fine run, called not ^^, when the key 丄: pressed == to give multiple lines. However, in this case, the number of _ operation actions must be increased, so it is necessary to control the input of the control program to control the operation of the u-click on the electronic device. For example, if you want 4 keystrokes, and if you need 4 input signals, you need 7 input signals, you need 7 200949630 31318pif.doc. From ❿, (4) increased the county's press to increase the manufacturing cost of the electronic device... so the target is also keystroke = front 诸 round key (d_switch) usually key smash press red. However, _mlf is required to (4) (4) β 乍 it is difficult to reduce the size of the _ _ _ _ I 置 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而a movable member that can be rotated on the plane of the plane ~ secret (four) (4) 'and provides - this method is controlled by the picker to control the electronic device, 2 functions 'by the pick in response to the movement of the actuating member This input control signal is generated by rotating the second movement. The method of mobile communication = the exemplary embodiment of the present invention provides a method of controlling an electronic device η. The electronic device has an index control unit capable of moving up the womensional movement (up/d movement) (p〇iming c she The method i receives at least one movement _ generated by the two-dimensional movement of the indicator control element and generates an input control signal by the signal received by the combination 6 by the up/down movement of the indicator control element. The operation of the program is controlled by the input control signal. The electronic device also includes the output of the device on the X-axis and the y-axis, respectively, and the output is changed according to the movement of the index control unit. The mobile signal may include an axial movement signal 200949630 31318pif.doc (axial direction movement signal) generated by the indicator control unit, ', and almear movement, and a curved movement by the indicator control unit. Generated rotation signal. During each signal input, the mobile signal is successfully applied, wherein if the same movement is applied during at least 4 to 6 signal inputs No., each mobile signal is recognized as the axial movement signal, and if the mobile signals applied during no more than 4 to 1 signal input are different, each mobile signal is recognized as Rotating signal. The axial movement signal can include +x axis movement signal, _axis movement signal, +y axis movement signal and _y axis movement signal, and rotation signal can include clockwise rotation signal (cl〇ckwise rotati〇nsignal) And a counterclockwise rotation signal. If only a keystroke signal (Clicksignal) is received, a first input control signal is generated; if the same +x axis movement is successfully received during at least 4 to 6 signal input periods The signal, the _x axis movement signal, the +y axis movement signal or the -y axis movement signal generate a second input control signal, a third input control signal, a fourth input control signal or a fifth according to the motion signal corresponding to each axis. Input control signal; if receiving button after receiving +χ axis movement signal, axis movement signal, +y axis movement signal or axis movement signal The signal generates a sixth input control signal, a seventh input control signal, an eighth input control signal or a ninth input control signal according to the motion signal corresponding to each axis; if the key is received continuously (c〇ntinu〇usly) Receiving the +x axis movement signal, the _axis movement signal, the 吋 axis movement signal or the -y axis movement signal in the state of the strobe signal, the tenth input control signal and the eleventh input control are generated according to the movement signals corresponding to the respective axes. Signal, 10th 200949630 31318pif.doc Two input control signal or thirteenth input control signal; if no more than 4 to 10 signal input, +x axis movement signal, _ axis movement signal, +y axis movement signal or axis The mobile signal continuously changes, and the fourteenth input control signal or the fifteenth input control signal can be generated according to the vector value of the changed mobile signal; if the keystroke signal is continuously received, it is no more than 4 to 1 During the input of the signal, the +x axis movement signal, the -X axis movement signal, the +y axis movement signal or the 7-axis movement signal continuously change to 'based on The vector value of the changed mobile signal can generate a sixteenth input control signal or a seventeenth input control signal; if no more than 4 to 1 signal input period, the +x axis moves the signal, the x axis moves the signal, and the +y After the axis movement signal or the -y axis movement signal continuously changes, the receiving keystroke signal 'can generate the eighteenth input control signal or the nineteenth input control signal according to the vector value of the changed mobile signal; if it is up to 3〇 During the input of a signal, 'only receive the keystroke signal, then the twentieth input control signal can be generated; if after receiving the keystroke signal, during the 4 to 1〇 signal input_ period, the '+x axis movement signal, _x axis movement The signal, the +y-axis movement signal or the -y-axis movement signal continuously changes, and according to the corresponding axial movement signal - the twenty-first input control signal, the twenty-second input control signal, the number twenty-third can be generated. Input control signal or 24th input control signal; if after receiving the keystroke signal, during the period of no more than 4 to 10 signal input, +X axis movement signal, · axis movement signal The +y-axis movement signal or the -y-axis movement signal continuously changes, and the twenty-fifth input control signal or the twenty-sixth input control signal can be generated according to the value of the changed mobile signal to 1; and if not greater than During the 4 to 10 signal input period, if the 200949630 31318pif.doc function does not receive at least two keystroke signals, the twenty-seventh signal can be generated. The indicator control unit may include: a magnet part; an actuating member 'configured to actuate the magnet portion according to a user's manipulation; an intermediate member' configured to magnet The part and the actuating member are returned (the coffee is provided according to the embodiment of the present invention, by replaying, stopping (qing ping), volume adjustment jvolu trace adjustment), music selection (mail is also (10) The electronic device includes an indicator control unit, and the user operates to perform a two-plus output signal on the plane. The method includes: determining whether to apply the up/down movement of the application unit; Yes, if the ϋ replay function or the stop function is in the unit's rotation direction control unit control unit, it is determined whether the finger strobe signal is applied; if the second keystroke signal is applied 20094963α

J lj» 1 opix-d〇C Move direction to execute the music selection function 匕 is applied', then the “in/rewind function” is performed according to the moving direction, and the sensor signal can be output during each signal input period. And if the signals output from the sensor during the 5 to 1G signal wheel are different, then the indicator can be determined to be scaled; if the signal is input in 5 〇 〇, the signal is input (4) _ signal Then, the indicator control unit is moved. Φ 感 During each-signal input, the sensor can output the signal, and if after the decision-making, the second keystroke is not applied during the 5 to signal input. Shouting, shooting the silk to apply the second fresh signal; and if in the decision (4) direction money, during the 5 to signal input period, a second keystroke signal 'shooting is applied to determine the second keystroke signal is applied. According to the present invention In another example, the electronic device includes an index control unit for performing two-dimensional plane movement and up/down movement, and the indicator control unit 70 is configured to output a keystroke signal according to the up/down movement and according to the two-dimensional Move to generate a mobile signal; The p〇imer control module is configured to generate an input control signal by combining the keystroke signal and the mobile signal; and the control module is configured to control the program according to the wheeled control signal. The fl number may include an axial movement signal generated according to the sensing signal output when the operation unit is linearly moved, and a rotation signal generated according to the sensing signal output when the operation unit moves along the curve, and during each signal input period, Successfully receiving the mobile signal, wherein if the same mobile signal is applied during at least 4 to 6 signal input, the mobile signal is recognized as money by 9 200949630 ^l^i^pit.doc if the mobile signal is not applied According to another exemplary embodiment of the present invention, the recording medium (the timidity is: by combining the movement of the unit (4) and the keystroke signal to generate the wheeling control signal, which is controlled by the indicator The unit can perform two-dimensional plane movement and up/down movement' and control the operation of the program by inputting control signals. In another exemplary embodiment, a control method is provided, the electronic device comprising: by a user operation: a dome switch located at a bottom end of the actuating member, the receiving is generated in response to movement of the actuating member The keystroke signal or the = key hitting generated by the keystroke action on the top switch, from the township Jane prison selection #作 mode; and in the selected, the choice of the suit towel 'according to the sense of shouting tons Program operation. According to whether the keystroke signal or double-click signal is received, the operation mode is selected. If the 疋〇=keystroke signal and the double-click signal are not received, you can select the mode; if the keystroke signal is received , the second key m can be selected, and if the double keystroke signal is received, the operation of the third operation program can be selected to include: if the selected operation-insertion mode, generating multiple numbers according to the sensing signal— Move = ^ If the selected operating mode is the second operating mode, the root: sensing 10 200949630 JUi5pif.doc signal generates a plurality of second mobile control signals; and if the selected operating mode is the third In the operation mode, a plurality of third movement control signals are generated according to the sensing signals. According to another exemplary embodiment of the present invention, a method for controlling a program for editing an image displayed on a screen of an electronic device, the electronic device including being configured to move according to a user's operation is provided An actuating member, a dome switch located at a bottom end of the actuating member, and a sensor configured to output a sensing signal according to the movement of the actuating member, the method comprising: a root dome closing signal (four) signal, a rotating shaft Mode and one of zoom-in/out (Z〇〇m-in/out) modes; if you select the move mode, the image is based on the image from (4) H (four); if you select =/minus mode, then according to the output from the sensor The sense signal is placed, the shadow f, and the H-small is terminated according to the signal output from the dome switch. If the signal is not output from the dome switch, you can select and if you want to open the keystroke signal from the dome, _ select the zoom ^= If you select the move mode, the actuator will be activated in multiple areas, and the image can be in the corresponding paste. Move in the direction 'or the image can be moved at the actuating member, zone, if the zoom in/out mode is selected, and the direction of the job moves. And according to the heart of the actuating member == This method may also include selecting 200949630 according to the signal from the dome and the close of the circle. όΐόΐ «pif.doc Selecting the menu generating mode, the menu of the agricultural hits is generated. In the case of a mode: /, in the execution of the generation menu; according to one of the generated menus activated from the sensor output; and 匕孓 start after executing the activated menu, or according to the circle The signal does not execute the activated menu, terminating the menu generation mode phase output. If the double keystroke signal is output from the dome switch, the menu generation mode is executed. According to another exemplary embodiment of the present invention, the electronic device is configured to control the control unit according to the plurality of motion control signals, configured as a wheel. The key of the dome switch and the double-click signal, as well as the control signal number according to the _ off, the signal output by the keystroke and the double-keystroke S = control = indicator, not = keystroke money μ double The keystroke can choose to move the sensing signal of the second]= by the program, the indicator control unit rotates the image displayed by the key', and if the image is to enlarge or reduce the keystroke signal, the next two can be output. The keystroke signal and the dual engine signal M can terminate the zoom in/out mode. 200949630 j丄jiopif.doc [Effect of the Invention] As described above, according to an exemplary embodiment of the present invention, a program can be controlled by inputting a control signal by moving the dome switch = and the movement signal according to the movement of the actuating member The input control signal is performed, and the actuation unit can be scheduled. Further, according to an exemplary embodiment of the present invention, the moving dome switch and the actuating member that can be moved in the cycle can be configured to input a plurality of control signals, so that the electronic split can have + and the manufacturing cost of the electronic device can be reduced. In addition, according to an exemplary embodiment of the present invention, an operation mode can be selected by using only a single dome switch, a movable magnet portion, and a sensor configured to sense a magnetic field (mag-c fleid), And in the selected mode of operation, the sensing signal can be used for different purposes. Further, according to an exemplary embodiment of the present invention, it is possible to reduce the required number of domes, the size of the small magnet portion, and the size of the hall. & In the case of 疋η, the input unit of the scorpion device can have a small size and a slip shape ′ so that the manufacturing cost of the electronic device can be reduced. The above described features and advantages of the present invention will become more apparent from the description of the appended claims. [Embodiment] Exemplary embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The present invention is disclosed in the following examples, which are not intended to limit the invention to the ordinary skill of the art, and may be modified and practiced without departing from the spirit and scope of the invention. 13 200949630 3I3I8pif The scope of protection of the present invention is defined by the scope of the appended patent application. In the drawings, like reference numerals refer to the like. 1 is a block diagram of an electronic device in accordance with an exemplary embodiment of the present invention. 2 is a job diagram (_ ― ―) of an electronic device according to the present invention. 3 is a cross-sectional view (SeCtl_l view) of an index control unit according to an exemplary embodiment of the present invention, and FIG. 4 is a schematic plan view of an arrow Μ direction in FIG. Fig. 5 is a schematic diagram of a keystroke of a dome switch and movement of an intermediate member, according to an exemplary embodiment of the present invention. Figure 6 is a flow chart of a method of controlling a program in accordance with an exemplary embodiment of the present invention. Figure 7 is a flow diagram of a method of controlling a music player in accordance with an embodiment of the present invention. Referring to FIG. 1 to FIG. 5, the electronic device of the present invention includes a display unit 3000' configured to display an indicator (p〇imer) and an image; the input sheet is configured to be generated according to a user's operation - a mobile signal (= sense The test signal), as well as other signals (for example, the button/button signal is signaled) and the main unit (mainb〇dy her), are used to perform or control the transmission according to the mobile signal, and output the signal to the display. To display an image on the display unit 3_. - As shown in Figure 2, the electronic farm also includes: the shell side, configured as the input unit, the main unit 诵 and the unit 3000 ' and the power unit (p〇 riding the dam) (Figure The edge is configured to supply power to each unit. The display unit 细 receives the image signal from the main unit to display the image on the screen. That is to say, the display unit 3 can display the program window (p=0 14496496 window) executed by the main unit 2_. In Figure 2, the music player window is displayed. The indicator can be displayed on the display unit 3000' and the indicator can be moved based on the control signal generated by the body unit 2〇〇〇. The display unit 3〇〇〇 may be a liquid crystal display (LCD), a plasma display panel (PDP), a cathode-my tube (CRT), or an organic light-emitting diode (〇rganic) Light emitting diode, OLED ). The input unit 1000 generates a mobile signal according to the user's operation, and transmits the mobile signal to the main unit 2000. As shown in Figs. 1 and 2, the input unit 1000 includes an index control unit 11A and a button/button control unit 1200. The index control unit 1100 outputs a mobile signal which is generated based on the movement of the intermediate member caused by the user's operation. According to the user's operation, the button/button control unit U(8) outputs the button signal or presses the signal number. As shown in Fig. 1, the tongue and body 2200, the driving body unit 2000 includes an indicator control module 21,

The moving input control signal number of the piece 'and the corresponding corresponds to the intermediate structure. Memory 2200 stores various information (with

15 200949630 31ol8pit.doc Video signal) and audio signals received from speakers, earphones or microphones. The wired/wireless communication control module 2500 processes data that is received or to be transmitted via a wired, /wireless communication method. The main unit 2000 may further include a modem configured to convert the analog signal into a digital signal or to convert the digital signal into an analog signal. Although not shown, the body unit 2000 can be fabricated in the form of a wafer in which the modules are integrated onto the printed circuit board. That is to say, for example, the main unit 2000 can be manufactured in the form of a microprocessor or a digital signal processor (DSP). In other words, each module in the main body unit 2000 can be manufactured in the form of a wafer, or the modules in the main body unit 2000 can be integrated in a single electronic device of the present invention to provide various types (for example, About movie or music display, photography (ph0t0graphing) or video-shooting, wired/wireless communication, website roaming (~piral surfing), programs such as data processing, games or navigation that affect data processing And the program can be executed or controlled by using signals and data stored in the main unit such as 〇〇 and the signal input via the input unit 〇〇〇. However, the invention is not limited thereto. The electronic device can be used to execute other programs. For example, the electronic device may be a bee with a telephone H (4) and is limited thereto. For example, the 'electronic device can be a digital camera, a camcorder, an MP3 player, a PMp 'pDA, a Gps, a laptop computer, an electronic game machine (electr〇nicgame 200949630 juiapif. Doc machine), remote (four) device (mn〇tec 〇 ( (4) (10) electronic word blood (electronic dictionary) ', (4) ί in the invention 'when the user operates the input unit 1000, refers to the two 100 output mobile signal to the indicator control module 2100. The second f2 (10) can be used in response to the embodiment of FIG. 2 and in conjunction with the closed mode to describe the indicator control unit 1100 mounted on the electronic device of the figure & 3 and FIG. 4 'In accordance with an exemplary embodiment of the present invention, a finger moving magnet portion Fen (n) ^ intermediate member 1140 is configured to move, rotate to = 〇 the = portion (10) and the actuating member ι ΐ 3 〇; sensor The knives are configured to be affixed to the cover portion 1150 by a plurality of movement signals (i.e., sensing: and = in the case of a reference). The Ph 1150 is fixed to the substrate 111 〇. θ ^(10) may be a printed circuit board. For example, the substrate 1110 may be a printed circuit board (for example, a main substrate). As shown in Fig. 3, when the actuator member (10) is pressed in the direction of the x-axis, the dome switch lm is pressed. "Component (10) control unit _ wheeled Wei dome switch 1111 is pressed, the indicator prepares a keystroke signal to the main unit 2000. As shown in Figure 3, the lubrication pad 1112 is at least 17 200949630 3UI8pif.doc The dome switch iii J of the substrate 1110. The lubrication 塾 ii 12 reduces the friction between the dome closing 1111 and the intermediate member 1140. The magnet portion 1120 is located at the center of the intermediate member 1140 and the actuating member 113〇. According to the movement of the actuating member 1130, to move the magnet portion 1120, and by the intermediate member 114, the magnet portion 112 is moved to its original position. The actuating member 1130 is located at the top end of the magnet portion 112A. The actuating member 1130 can be moved by the user's operation. The actuating member 1130 includes a rod portion and a separation preventing part. At a central portion of the bottom end of the rod portion, and the separation preventing portion extends from the rod portion 410. The upper portion of the magnet portion 112 is embedded and fixed to the lower portion of the rod portion. The separation preventing portion prevents the actuation member 丨 13 〇 from coming off the cover portion 115 located at the upper end of the actuation member 1130. The actuating member 1130 is configured to be moved and rotated by an external force (i.e., user's operation) and the movement or rotation of the actuating member 1130 is transmitted to the magnet portion 1120. That is, since the magnet portion 112 is fixed to the actuating member 1130, the magnet portion 1120 moves and rotates together with the actuating member 1130. If the external force applied to the actuating member 1130 is removed, the actuating member 1130 and the magnet portion 1120 are returned to their original positions by the intermediate member 1140'. In the present invention, the intermediate member 1140 is configured to fix the magnet portion 1120 to the actuating member 1130 and to apply a resilient force. 18 200949630, J 丄: Η 6pu.doc As shown in FIG. 4, the intermediate member 1140 includes a central portion 1141, a plurality of pattern portions 1142 extending from the central portion 1141, and a plurality of fixed portions 1143 located at end portions of the pattern portion 1142, and A fixed protruding portion (flicking like (10) 丨 (10) part 彡 1144 protruding from the central portion 1141 for supporting and positioning the magnet portion 1120. As shown in Fig. 4, the central portion 1141 includes the bottom portion from the center portion mi The keystroke protruding portion 1145 protrudes downward. The intermediate member 1140 is made of a high-strength plastic (for example, polyoxymethylene (POM) or poly by injection molding method. Carbonate (p〇iyCarb〇nate, PC)). In this case, since the intermediate member 1140 can be manufactured through a simple process, mass production of the intermediate member ι14〇 can be easily performed. In one piece, a central portion 1141 of the intermediate member 1140, a pattern portion 1142, a fixed portion 1143, and a fixed protrusion may be formed. Portion 1144. However, the invention is not limited thereto. The intermediate member 1140 may be composed of a metal. In this case 10, the intermediate member 1140 may be formed via a metal etching or cutting process. 1140 may be composed of a lubricating material, an abrasion-resistant material, and an elastic material. • The central portion 1141 has a circular plate shape. The central portion 1141 is located at a central position of the fixed portion 1143. In this embodiment, As shown in Fig. 4, three fixed portions 1143 are located around the center of the central portion 1141. More specifically, the center of the central portion 1141 is located at the center of a triangle composed of three fixed portions 1143. 19 200949630 313I8pif.doc 3 and the 'central portion 1141' shown in Fig. 4 may be smaller than the magnet portion at the top end of the central portion 1141. In the present embodiment, each pattern is formed in a curved strip shape extending between the central portion 1U1 and the fixed portion 1143. Part η" In the present embodiment 'the intermediate member 1140 may further include a pattern portion 1 Μ〗 Above the bottom surface of the deflection plurality prevented, approximately 1142 s each part of the pattern shape (i.e., a sinusoidal shape) projecting portion (deflecti〇n preventing protrusion part) 1146 ° shown in Fig. As shown in FIG. 4, each pattern portion includes: a first connection portion 'connected to the center portion 1141; a first extension band portion (frst extension strip part), in a circular shape (circuiar arc shape), from the first connection Partially extending; the second extension band portion, in the arc shape, bent and extended from the first extension band portion; and the second connection portion extending from the second extension band portion and connected to the fixed portion 1143. The first extension strip portion and the second extension strap portion are curved in different directions. The end of the pattern portion 1142 is connected to the fixed portion 1143. The fixing portion is 1143 fixed to the covering portion 115A. Therefore, the falling of the pattern portion 1142 can be prevented. Furthermore, the fixed end of the pattern portion 1142 can be used as a reference point for the resilience of the beta piece intermediate member 1140. Due to the above structure of the pattern splitting 1142, in the case where an external force is applied to the central portion 1141, the central portion 1141 can be moved two-dimensionally in a range from about G 6 rnm to about 3 〇. The central portion 丨 141 can be moved in a straight line, curve or circular pattern. When the external force is removed from the central portion 1141, the central portion 1141 of the pattern portion 1142' can smoothly return (e.g., brain) 20 200949630. jiispu-doc to the center position of the fixed portion 1143. The center portion 1141 is supported by the pattern portion 1142 in the case where the center portion 1141 is moved or rotated by an external force. In the case where the external force is removed (i.e., without moving or rotating the center portion 丨 141), the pattern portion 1142 moves the center portion Π 41 to its original position. The shape of the pattern portion 1142 is not limited to the above shape. That is, the pattern portion 1142 can have various shapes. For example, for the portion 1142, a spiral strip part (e.g., a spiral shape) may be located around the central portion 1141 and between the central portion 丨 and the fixed portion 1143. In another exemplary embodiment, an oblique strip part may be used as the pattern portion 1142. In the present embodiment, the fixed portion U43 is fixed to the covering portion 1150. The fixing portion 1143 is fitted into the notch of the covering portion. The fixing portion 1143 can be fixed to the covering portion 1150. In the present embodiment, the fixed portion 1143 is provided in the form of dots. However, the invention is not limited thereto. For example, the fixed portion 1143 can be provided in the form of a band of 带.乂 As indicated above, the intermediate member 1140 of the present embodiment includes the fixing protruding part 1144. In order to stably transmit the power and the elastic force to the magnet portion 1120, the fixed projecting portion 114 = extends from the center portion 1141 and supports the magnet portion U2 〇. The fixing projection portion 1144 supports the bottom end portion of the magnet portion 1120 and the portion of the side end portion. The fixed protruding portion 1M4 is swelled and fixed between the magnet portion 1120 and the actuating member 1130. Knife 21 200949630 313i8pit.doc The magnet portion can be fixed by the above structure '. Further, by the central portion 1141, the movement of the actuating member 1130 can be transmitted to the pattern portion 1142' and the elastic force of the pattern portion 1142 can be transmitted to the actuating member 1130 and the magnet portion 1120. In the present embodiment, the magnet portion 1120 is fixed to the actuating member η% by the fixed protruding portion 1144' of the intermediate member 1140, and is fixed to the covering portion H50 by the fixing portion 1143 of the intermediate member 1140, the actuating member 1130 And the magnet portion 1120 is fixed to the cover portion 1150. The covering portion 1 150 includes: a receiving body portion (aCC〇mm〇dati〇n body part) 'This receiving body portion includes a side wall part and an upper plate through which a through hole can be formed (penetrati) a plurality of fixing recess portions formed in a lower end of the side wall portion; a plurality of fixing hook portions extending from a lower end of the side wall portion; and a plurality of fixing pin parts Extending from the lower end of the side wall portion. In the case of the above configuration, the rod portion of the actuating member 1130 is protruded through the through hole. The diameter of the through hole may be larger than the diameter of the rod portion. In this case, a gap is formed between the rod portion and the through hole to allow two-dimensional movement of the magnet portion 1120. That is, the magnet portion 1120 moves in the circular through hole of the covering portion 1150. As described above, the magnet portion 1120, the actuating member 113A, the intermediate member 1140, and the covering portion 1150 are located on the substrate 1110, and the sensor portion 1160 is located on the bottom end of the substrate 1110 as shown in FIG. By means of 200949630 j 丄 spif.doc, the magnet part 1120 at the top end of the 板 plate causes the sensor part 譲 output __. The sensor part detects the movement of the magnet part mo, the direction (one-dimensional movement). The sensing 芎 portion 1160 includes a plurality of magnetic sensors configured to be magnetically sensitive and outputted according to the movement of the magnet portion Φ^, Ϊ±Λ 1 knife 1120 in the parent axis direction ( Ti X axis (four) value) 蕻 斑 翊 翊 η eight η. ), and is configured to be based on

A plurality of magnetic sensors that change the magnetic field caused by the movement in the 7-axis direction to output a y-axis sensing, that is, a ±y-axis coordinate value. The two-dimensional control unit (not shown) amplifies the output signal of the sensor portion 1160, and detects the entire magnetic field change by using the amplified output signal. In the present invention, in the detector wafer, the magnetic sensor of the sensor portion 116 is modulated. However, the present invention is not limited thereto. That is, the magnetic sensors can be arranged around the magnet portion 1 120 at four positions (i.e., up, down, and left and right directions) instead of modulating the magnetic sensor. In this case, the magnetic sensor can be symmetrical with the central portion of the magnet portion 1120. ~ In the present embodiment, the magnetic sensor of the sensor portion Π 60 may be a hole device, a semiconductor magnetic resistive device, or a magneto magnetic resistive device or Giant magneto resistive (GMR). The electrical characteristics of the magnetic sensor can vary depending on the change in the magnetic field applied to the magnetic sensor. In the present embodiment, the magnetic sensor is a hole device, 23 200949630 31318pif.doc The voltage of its output varies in proportion to the density of the magnetic flux. In the present invention, the sensing signal output from the sensor portion 1160 includes coordinate data (moving data) of the magnet portion H2 被 moved by the user. That is, the sensing signal is a signal (moving signal) that provides movement about the magnet portion 112 (i.e., the intermediate member 1140). Thus, in the present embodiment, a plurality of movement signals generated in response to the movement of the magnet portion 丨 and the intermediate member 114 以及 and a keystroke signal generated in response to the keystroke of the dome switch 1111 can be generated. The input control signal ' controls the operation of the program by using an input control signal. Please refer to Figure 6 below for a description of how to control the program. Whether or not a mobile signal and/or a keystroke signal is applied (S10) is determined based on the user's operation. If it is decided that no mobile signal and/or keystroke signal is applied, it is determined that the user has not operated 'and the action has not been performed. If it is decided to apply a mobile signal and/or a keystroke signal, the input control signal is generated by combining the mobile signal and the keystroke signal (S11). Various input control signals can be generated by combining the mobile signal and the keystroke signal, which will be described later in detail, by using an input control signal to control the program (S12). The method of controlling the operation of the program will be described hereinafter, mainly with respect to the operations of the index control unit 11A and the index control module 21A. In the present embodiment, the "actuating member 1130, the magnet portion 1120, and the intermediate member 1" are moved two-dimensionally on a plane, and a movement signal is generated in response to the movement thereof. If the dome switch 1111 is pressed while the actuating member 1130, the magnet portion 1120, and the intermediate member 114 are moved downward, then the keystroke signal is generated by the 2009 20093030 31318 pif.doc. The actuation member 1130 will be described in detail below. The actuating member 1130, the magnet portion 1120, and the intermediate member 114 are moved together. In the following description, 'movement' of the actuation member 1130 means movement of the center point of the actuation member 1130, and the displacement range of the actuation member 113〇 means the center point of the actuation member 113〇 Displacement range. In the present embodiment, in the case where the user operates the actuating member 113, the actuating member 1130 moves in a circular two-dimensional plane defined by the covering portion 1150, and uses the X-axis and the y-axis to represent two-dimensional. The position of the plane. Additionally, the actuation member 1130 can be moved downward from a two dimensional plane. In the case where there is no external force acting on the member 1130, the actuating member 113 is located at the center point of its displacement range by the intermediate member 1140. If the user applies an external force to the actuating member 113, the actuating member 1130 can move in the up, down, left, and right directions (the x-axis and the gentry axis direction). At this time, the actuating member 1130 can move in the region ^ of the wire between the shaft and the _. In the present invention, please refer to item 5, based on the ff±45 degree reference line from the X-axis and the y-axis, the displacement of the actuator member (10) is divided into 4. The displacement direction (refer to FIG. 5(a) A, B, C and D). In other words, the displacement range of the S ° is divided into the X-axis displacement range areas A and C, and the y-unit shift range areas B and D. If the actuating member 113 is in the axis = shifting mode _ domain A (four) moving 'grade shifting member is deleted in the + χ axis 2 movement, the fruit actuating member 1130 is moved inside the yaw axis displacement range 则 to determine the actuating member Move in the direction of the x-axis. If the actuation mechanism 130 moves within the -X axis displacement range region c, then the actuation member 25 is determined. 200949630 31318pif.doc iUU. Perimeter region D (four) mandrel position (4) In addition, according to the user's operation, 0f [axis direction bar The :=::: plane moves down. 2 = external force in =, the mobile component to its original position 1130, such as the two directions or ways to move the actuating member

f ^ Measured Sense of Motion Measured In the present embodiment, these various signal values are used to generate an input control signal for controlling a program that has executed τ. Referring to Figure 5 below, the signals generated in accordance with the movement of the actuators 13 are described in detail. Ο Referring to (a) of FIG. 5, a keystroke signal can be generated in the case where the member 113 is actuated. That is, in the case of the keystroke dome switch iiu, the index control unit A 1100 outputs a keystroke signal to the index control module 2100. The index control module 2100 generates a first input control signal by using a keystroke signal received from the indicator control unit 11A. Then, one of the plurality of functions of the program can be executed according to the first input control §fl number. Referring to FIG. 5(b), when the actuation member 113 moves in a two-dimensional plane, a +x axis movement signal (right movement signal), a _axis movement signal (left movement signal), and a +y axis movement can be generated. Signal (up mobile signal) and _y axis mobile signal (lower mobile signal). When the actuating member 113 is moved on the two-dimensional plane, the sensing portion 1160 can output a sensing signal having various levels 26 200949630 3131 «pit.doc ^axis^moving signal" to the index control module 2. By using the axial movement signal, the index control module 21 〇〇 & determines one of the direction of the actuation member 1130 from the center 疋 ± χ axis and ± y axis direction. Then, ί 二疋!! As a result, the indicator control mode, group 2100 outputs one of the second input control signal to the fifth round control signal. The 控制^' indicator control module 2100 (at a predetermined signal input frequency) receives the axial movement signal. In the present embodiment, the control signal is controlled at a predetermined interval ^ Λ 私 private control 1100 receives the axial movement signal. For example, the interval (during signal input period), the indicator control unit hires: 2: to move the signal. However, the input period of the 'axial movement signal is molded. According to the sensitivity of the sensor part _ and the index control = change group The response sensitivity can increase or decrease the signal input period. During the input of the signal to the 疋, according to the movement of the actuating member n3G, the indicator controls the sputum of the sputum, so as to touch the actuation member 1130. In this fortune, by sensing the signal according to the actuation structure, it is possible to determine the axial movement of the L', the brother's control, and the control 1100 includes four sensings configured to generate more And the two sensors along the X-axis and the other two detectors along the y-axis = according to the position of the magnet part (10): change ===113:;, move. For example, if The moving member (1) 〇η moves the sensing signal of the sensor on the +X axis 27 200949630 31318pxi.doc The position is greatly increased, and the level of the sensing signal of the sensor located on the _x axis Significantly reduced. In addition, the sensors on the +y and _7 axes The level of the test signal is greatly reduced. In this manner, according to the movement of the actuating member 1130, the level of the sensing signal output from the index control unit 110 is changed, and the sensing signal is generated according to the change of the sensing signal. +x axis movement signal, -X axis movement signal, +y ^ movement signal by moving signal and _ y axis. That is, + χ axis movement signal is the case where the actuation member 1130 is in the + χ axis movement area Α The generated signal 'and the _x axis movement signal are signals generated by the actuation member 1130 in the -X axis movement region c 。. The +y axis movement signal is the actuation member 113 〇 in the +y axis movement region b The signal generated in the case, and the _y-axis movement signal are generated by the actuation member 1130 in the _y-axis movement region D. As described above, the indicator control module 2100 of the present invention inputs each signal. The signal is received during the period (eg, 'about 20 msec). Therefore, for example, if the indicator control module 2100 receives the same axis of motion signal during at least 4 to 6 signal input's, the indicator control module 2 "0" determines that the signal is Axial movement signal. When the actuation member 1130 moves in the +x axis movement area A, the indicator control unit (10) outputs a +X axis movement signal during each signal input. At this time, if the +x axis moves the signal at about five. The input period is successfully input to the indicator control module 2100, and the guard control module 2100 generates a second input control signal in response to the +x U · motion signal. 7 For determining the actuation member 1130 for the following reasons The minimum number of axially shifted signal rounds is set to the above range. If the minimum number of inputs during signal 28 200949630 i 1316pif.doc is too small to respond to very small movements. Move the signal in the axial direction to (cut the Qiu, operate. Thus kind: unexpected to be set to the above range m. The minimum number of Wei people can be 1130 large number. However, the maximum number can be reduced by 5 At the bottom of the input period, the pole of the electronic event 4 is set to 1000. In this case, during the rr., , and set #, it is possible to prevent the generation of the φ (infinite) axial movement signal of the limit. = See Fig. 5) "By actuating member u = to actuate member 113 键 to key the dome switch two ΐ + Χ. Move keystrokes, χ axis move keystrokes, force axis shifts, and -y axis move keystrokes. In this case, the indicator control f module 2100 determines the +x axis direction, the -X axis direction, the +y axis direction, and the second direction of the direction - 'the actuation mechanism 1130 before the keystroke dome switch un Along the determined direction axis, then, based on the determined knot, the 'standard control pure group 21GG generates one of the sixth input control signal to the ninth input' control signal. • That is, if an axial movement signal is generated in response to the axial movement of the actuation member 1130, a keystroke signal is generated in response to the keystroke of the dome switch 1111, and the sequence signal (seCjUentiai (4)) is recognized. Moves the keystroke signal, the -X axis movement keystroke signal, the +y axis movement keystroke signal, and the -y axis movement keystroke signal for the +X axis, and generates the corresponding input control signal. At this time, the axial movement signal is determined based on the above sensing signal, and the keystroke signal is determined based on the state of the dome switch 1111. For example, as shown in (b) of FIG. 5 29 200949630 31318pif.doc ' If the actuating member 1130 is moved in the +x axis in the area a, the index control unit 11 generates a +x axis shift signal. Therefore, if the keystroke signal ' is not generated for a predetermined time (for example, 1 to 100 signal input periods), the index control module 2100 recognizes that the +X axis movement signal is the +x axis movement signal and generates the second input control signal. However, if a keystroke signal is generated during a predetermined time after the +x axis is transmitted, the indicator control module 2100 recognizes that the sequence signal is a + axis movement keystroke signal and generates a sixth input control signal. Referring to FIG. 5(d), by pressing the actuating member 1130 to hit the dome switch 1111, a +x axis keystroke signal, an -X axis keystroke signal, a +y axis keystroke signal, and _y can be generated. The axis keystrokes the signal and causes the actuation member 113 to move in a two dimensional plane. At this time, the index control module 2100 determines one of the +x axis direction, the -X axis direction, the +y axis direction, and the -y axis direction, and the actuation member 1130 moves in the determined direction to generate the tenth input. Control signal to one of the thirteenth input control signals. For example, as shown in (a) of FIG. 5, if the dome switch 1111 is clicked, a keystroke signal is generated. Therefore, if an axial movement signal is not generated for a predetermined time (for example, 3 to 100 signal input periods), the indicator control module 2100 recognizes the keystroke signal as a keystroke signal and generates a first input control signal. However, if an axial movement signal is generated during a predetermined time after the keystroke signal is generated, the indicator control module 2100 recognizes the sequence signal as an axial keystroke signal and generates a corresponding input control signal. That is, for example, if a +x axis movement signal is generated after the keystroke signal is generated, the sequence signal is recognized as a +x axis keystroke signal, and a tenth input control signal is generated. 30 200949630 31318pif.doc Referring to FIG. 5(e)', a clockwise rotation signal and a counterclockwise rotation signal can be generated by rotating the actuation member 1130' on a two-dimensional plane. The indicator control module 210 0 can generate the fourteenth and fifteenth rounds of incoming control signals in response to the rotation signals. As described above, in the present embodiment, the index control module 2100 successfully receives the mobile signal during each signal input. Therefore, it is possible to determine whether or not the actuating member 1130 is rotated based on the signal output from the index control unit 1100 during the predetermined signal input period. More specifically, in the case of moving the actuating member 1130, the level of the g-number output from the sensors located on the respective axes has changed. At this time, if the moving flap b is successfully generated during no more than 4 to (7) input, the actuating member ^^30 is rotated. Next, based on the vector value of the mobile signal, it is determined that the actuation member 113 is = rotated clockwise or counterclockwise. The maximum ' during the signal input period for determining the rotation of the actuating member 113A can be set to the above range for the following reason. If the maximum number of signal input periods = stated, then an unexpected operation can be performed. The minimum number may be that the maximum number may be smaller or larger than the above range. For example, 5 or less, or greater than 10. According to the length of the signal, the number of dare can vary. Thus, if a different time is generated in the time range of c to about 2 sec, the actuating member 1130 has been rotated. The hole U determines that the actuating member 1130 is moved during the three signal input periods, and if the output sensing signal indicates that the actuating member u = 〇.5), and the order of (0, 1) changes, then (1, 〇), (〇·5, (1) 榇 control module 21 〇〇 200949630 31318pif.doc is rotated counterclockwise, and generate fifteenth input control 感 sensing signal (signal output from the sensor In addition, during the axial movement signal input generated by the grouping, the actuating member (10) moves in the corresponding axial direction in the axial movement member 1, and if the actuation member 1130 is in the predetermined infeed period, When the axial movement area is disengaged, it can be determined that the actuation member 1130 has been rotated. Ο = see Fig. 5 (7) 'by pressing the actuation member ιΐ3〇 with a keystroke =, a clockwise rotation keystroke signal can be generated and counterclockwise (4) The keystroke signal, and the rotation of the actuation member (10) on a two-dimensional plane. The standard control signal can generate the sixteenth and seventeenth input control signals in response to the rotary keystroke signal. In the case where the dome switch i i i i is in the state (i.e., in the case where the keystroke signal is continuously output), if the axial movement signal is changed, the sixteenth signal is generated.彳Needle Input Control As described above, in the present embodiment, according to the actuation member ιΐ3 and the keystroke of the dome switch nn, about 17 inputs = signal ' can be generated and the input control signal can be used as the control program. The binary control signal. In other words, 'by combining mobile messaging and key two can increase the input control shouting, but not to increase the size of the door ^ = and thus the side switch and the smaller dome open = 1 broken Control the operation of the program. Thereby, the frame (manufacturing cost) can be reduced, and the electronic device can have the shape of a small ruler 'and two 32 200949630 31iUSpif.doc. In addition, in the case of receiving the rotary keystroke signal according to the rotation of the actuating member 1130 and the keystroke of the dome switch 111 i, the index control module 2100 can generate the eighteenth input control signal and the nineteenth input control signal. In addition, if only a keystroke signal is input to the index control module 2100' during a long period of time (e.g., 30 to 300 signal input), the index control module 2100 can generate a twentieth input control signal. In addition, if the axial movement signal is applied to the indicator control module 2100 after a predetermined time (for example, 1 to 100 signal input periods) after the keystroke signal is input to the indicator control module 2100, The keystroke signal and the axial movement signal, the indicator control module 2100 can generate the twenty-first to twenty-fourth input control signals. As described above, the tenth input control signal to the thirteenth input control signal are signals generated when an axial movement signal is applied in the case of a keystroke signal (i.e., in the case where a keystroke signal is continuously applied). However, the twenty-first input control signal to the twenty-fourth input control signal is a signal generated when an axial movement signal is applied in a short time after the application of the keystroke signal. In addition, if a rotation signal is applied within a predetermined time (for example, during a 1-100 signal input period) after the keystroke signal is applied, the indicator control module 2100 is determined according to the rotation direction detected from the rotation signal. The twenty-fifth and twenty-sixth input control signals can be generated. Further, in the case where a double-click signal is applied, the index control module 21 can generate the twenty-seventh input control signal. That is, if at least two keystroke signals are applied within a predetermined time interval, a twenty-seventh input control signal can be generated. However, in the case where the keystroke signal is continuously applied, 33 200949630 313I8pii.doc may not generate the twenty-seventh input control signal. . . Then, referring to the flowchart of Fig. 6, the method of controlling the play program in Fig. 2 by the index control unit 1100 and the index control module 2100 will be described in detail. The following is a detailed description based on the operation 2 of the indicator control module 2100. Referring to FIG. 7, it is determined whether to output a keystroke signal (S100). More specifically, if the dome switch 11n outputs a keystroke signal and does not input a signal for a predetermined time, an action corresponding to the keystroke signal is performed. For example, regeneration or stop can be performed (S110). At this Q, the level of the input control signal generated by the indicator control module 2100 in response to the signal received from the indicator control unit 11A is performed to perform a current operation such as regeneration or stop. That is to say, the operating rule of the program prepared according to the level of the wheeled control signal has been previously stored in the memory block 22GGt, and in the execution material (4), the operation rule is carried out. If it is decided that the keystroke signal is not output, it is decided whether or not to move the actuating member 1130 (S120). If the actuating member is said to be moved, it is decided to move or rotate the actuating member (10) (between s. More specifically, if 5 to 10 signal inputs are rotated during the sensing signal (ie, axial shift) The signal has a different value depending on the actuation member (10) being rotated, and - if the sensing signal has the same value on the real f (in the county range of about ±iq%), the actuation member (10) is determined When the magnetic a moving member 113 is rotated, the actuating member mo is rotated clockwise according to the rotational direction of the actuating member 1130 by adjusting the capacity of the program (ν〇ι·) (S140), for example, % , increase the capacity of the 200949630 31318pif.doc program and reduce the capacity of the program if the actuation member ιΐ3〇 is rotated counterclockwise. In the case where the "Hang actuation member 1130 is moved, the direction of movement is determined (S150 More specifically, based on the axial movement signal, the sense direction of the actuating member 1130 is determined in the +χ axis direction - the X axis direction, the +y axis direction, and the axis direction. Thus, the decision is to read the human keystroke signal ( S160). More specifically, if After the mobile signal is transmitted, during the period of about $ to 300 signal input, if there is no keystroke signal, it is decided that the keystroke signal is not input, and if the mobile signal is generated, the contact is received in about 5 to 3 signals. If there is a keystroke, it is determined that the keystroke signal is input. 〇❹ In the case where the keystroke signal is input, the previous music or the next music is selected according to the direction information of the mobile signal. (S170). More specifically, in the case of inputting the + axis movement signal and then inputting the keystroke signal, selecting the next music, and in the case of inputting the -X axis movement signal and then inputting the keystroke signal, Select the previous music. In the case of deciding that there is no keystroke signal, perform fast fast (fast_f〇rwarding) or rewinding function (S18〇) according to the direction of the mobile signal. More specifically, if Applying only τ + χ axis movement signal ' performs the fast forward function, and if only the axis movement signal is applied, the rewind function is performed. In the above embodiment, it has been described An electronic device including an input unit, a main unit, and a display unit. In other embodiments, portions of the wheel-in unit and portions of the body unit may be combined to form a control panel for 35 200949630 31318pif.doc An indicator device of the indicator, which can provide some parts of the input unit and some parts of the main unit in the form of a phantom:: In addition, in the above embodiment, the control slab (integrated body) included in the main unit can be The image of the program stored in the recording medium is provided by the chip. The indicator control module is provided. Of course, the pure control group can be provided in the form of a program recorded in the indicator control. Here, the programs stored in the recording and media are computer readable. In the embodiment, the input control signal is generated by using the target control module generated in response to the movement of the actuating member, the axis signal to actuate the component seam, and the control signal, the indicator Control module control = the number of ___ required for the operation of the control program. ..., and the present invention is not limited thereto. The generated mobile signal, the indicator control module can: shift: to two =, according to the label applied to the indicator control module, the keystroke _ off, can be executed and (4) ^ and f on the 'by moving Actuate components, magnetic, and private. For example, by moving the indicator on the screen to the x-vehicle or σ2 and the intermediate member', the indicator can be placed in an area where the desired position can be used. Then, you can press the circle;:^ The function of the program at the current position of the executed program. And 幵1 to perform the operation of the present invention in accordance with the present invention and to listen to the above-mentioned examples, according to the present invention, by the operation of various programs of 200949630 31318pit.doc (d). In the following description, the waste 2, 41, is a detailed description of the method of performing an image control and a pipe handle (4) according to other examples. In the following description of the current embodiment, the same description as the above-described embodiments will not be repeated. The current practical technique is used for the above-described implementation. The above-described techniques of the embodiments are also applicable to the current embodiment. Figure 8 is a front elevational view of an electronic device in accordance with another exemplary embodiment of the present invention. Figure 4, the electronic device of this embodiment includes: the display unit ίππο is not configured as a display indicator (P〇inter) and image; the input unit system W axis is placed according to the (4) (4) fine and other alkali The sense of generation, and the body unit 2〇〇〇, are configured to execute the control program 'and the output signal to the display unit 3_ according to the sensing signal to display the image on the display 3000. ^ The input unit includes indicators (4) unit 11G0 and button / = ugly, system unit 譲. The indicator control unit_ includes a substrate ιιι, a knives 1120, an actuating member 1130, an intermediate member 1140, a sensor, and a cover portion (10). The main unit surface includes an indicator control phase 且 and 2100, & memory 2200, drive control module 2300, audio/video device group 400, and wired/wireless communication control module 25A. The display unit is delayed by 1 to display the image on the screen by the image signal received from the main unit 2000. That is to say, the program of the order (start) by the line unit 2_ is displayed on the display unit 3_JL. In Figure 8 'map search* (or image editing $) program view * in the display unit 37 200949630 31318pif.doc curtain '^ according to the indicator received from the main unit 2 mobile control: = ^. The early element 3_ can be displayed on the screen and as in the camp calendar. The above description of the above embodiment has already been inserted into the same component, so the input unit surface and the main unit 2_ are not described in detail. ^ In the description, based on the configuration of generating the sensing signal and/or the module 2100 and the indicator control unit _ = = 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种 一种After that, the image of the selected image is downloaded and displayed as a single object. The image can be downloaded to . in response to the signal (sensing signal, keystroke signal) output from the indicator control unit 1100. The stream outputted by υ is the operation of the image control program according to an exemplary embodiment of the present invention. Referring to Fig. 9 'by deciding whether to input a keystroke selection, the equation (s_). According to the keystroke signal = 5~, secret In addition, you can select the menu generation mode. JΛ If the keystroke signal or the double-click signal is not input, the motion mode generated in response to the movement of the actuation member 1130 is selected in the mobile mode. Sense signal, map Image) Perform multiple ϊ (_0) on the screen. At this time, based on the information contained in the sensing signal ς movement direction, the indicator control module generates a mobile control signal. 38 ❹ ❹ 200949630 31318pif.doc Move to the display list on the 0. Move up. The moving component is measured in the 2D plane (4) axis and the y axis). The area such as the member 113_ is divided into 4 areas (k control signal. That is, "Group" Fine generation should be based on the sensing signal, and the indicator controls the analog signal. Then, the right, left, and right = χ axis into two; through the two axes and the y-axis (straight line and degree), you can decide 4 The area is limited to this. For example, the actuating member _ and the knives are cut into eight regions (+X region, +x+y region, +region^C^ region, ^region, and .Μ region). In this month / , the map can be moved to the right on the screen, moving up to the right = moving in the upward direction, moving in the upper left direction, moving in the left direction, moving in the lower direction of the mouth, moving in the downward direction, and moving in the lower right direction However, the present invention is not limited thereto. The movement of the actuating member 113 The range can be divided into more or fewer regions. Alternatively, depending on the movement of the actuation member ^130, the map can be moved directly on the screen instead of segmenting the range of motion. In this case, in response to The change of the sensing signal outputted by the movement of the moving member 1130 can be directly converted into the motion control signal. 0 39 200949630 31318pif.doc In addition, the actuating member 30 can be rotated clockwise or counterclockwise. In this case, the indicator control mode The group 21〇〇 can generate a motion control signal corresponding to the rotation of the actuation member 1130. As described above, after the movement of the actuation member 1130 is performed to move the map on the screen, it is determined whether a keystroke signal is applied. If a keystroke signal is applied, the zoom in/out mode is selected. In the enlargement/reduction mode, the map of the screen is enlarged or reduced in accordance with the sensing signal generated in response to the movement of the actuating member 113A (S12). In this embodiment, the indicator control module 2100 divides the sensing signal output from the indicator control unit 1100 into two signal groups, and then the control module 2100 generates an enlarged movement according to the signal group. The control signal and a reduced motion control signal. This means that the range of movement of the actuating member 113A is divided into two regions. For example, if the range of movement of the actuating member 1130 is divided into an upper region and a lower region according to the x-axis, the sensing signal generated when the actuating member 113 is located in the upper region is converted into a map for amplifying the screen. Zoom in on the motion control signal. On the other hand, the sensing signal generated when the actuating member 1130 is located in the lower region is converted into a reduced motion control signal that reduces the scale of the map of the screen. In this case, the zoom-in or zoom-out function is performed using a predetermined = magnification ratio. However, the invention is not limited thereto. For example, as described above, the range of movement of the actuating member 1130 can be divided into a plurality of regions, and different magnification ratios can be assigned to the regions. Alternatively, the sensing signal generated by the clockwise rotation and counterclockwise rotation of the actuating member 1130 can be converted into a mobile rudder for zooming in and a reduced motion control signal. In this case, by invoking the Wei number to the index control group during each signal input, it is possible to determine whether the member 1130 is rotated. More specifically, for example, if the sensing signal of the lion-controlled sugar group is different in no more than 2 to 5 signals, it is determined that the actuating member has been rotated, and the movement of the ^ Control signal. In the case of a keystroke signal, the position of the indicator (slip indicator) on the map can be the center of the screen. After the scale of the map of the screen is enlarged or reduced, it is determined whether a keystroke signal or a double-click signal (SU3Q) is applied. If you do not apply a keystroke signal or a double scale thief, it is difficult to regain A/narrow. If a keystroke Wei or Wei strike _ is applied, the gambling zoom/zoom mode is applied. That is, the operation mode is changed to the mobile mode. If a double-click signal is applied, the menu for zoom in/out mode is displayed. If a double-click signal is added during the operation mode selection operation or in the enlargement/reduction mode, the menu generation mode is executed. This will be described in detail below. - Respond to the double-click signal to execute the menu generation mode. ^In the menu generation right, display various popup menus (S1140) for controlling the map of the screen (S1140) °, according to the sensing signal, can start more One of the pop-up menus (S1150). More specifically, if the user moves the actuating member to the left, right, up, or down, a sensing signal is generated in response to the user's operation of the 2009 200949630 31318 pif.doc. Then the indicator control module 2100 generates a motion control signal in response to the sensing signal, and moves the activation area to the left, right, up or down according to the motion control signal, thereby starting the ideal ^2, "determination Whether to apply a keystroke signal (sll6〇). If the key = number ' is applied, the operation corresponding to the activated menu is executed, and the ^ f modulo f (S117G). On the other hand, if the keystroke signal is not applied, the car selection generation mode is ended without performing the work corresponding to the activated kalta. ❹ This ^ determines whether to apply a keystroke signal for a period of no more than 2 to 200 signal inputs. That is to say, if no keystroke signal is applied during no more than 2 to 2, the menu generation mode is ended. Also especially electric, operation. The mode changes from the menu generation mode to the mobile mode. Embodiments of the iron-changing menu include map menus such as editor stop, mode, zoom in, zoom out, search, start location, and destination. Ten noses and indicators fixed; image editing menu; and navigation menu. As described above, 'according to the actual _, the operation mode is selected according to the keystroke signal or the double-click I I I I, and the ideal image control operation can be performed according to the selected sang-type (four) sensory number. In the sense mode, a sensor that outputs a signal by switching off, turning off, magnets, and a magnetic field that is configured as root = iron can be executed with regard to 'Ζ, (Ph〇t〇Sraph)' (map) material. Hard to make. In this case, the number of people can be called & inch and the number of dome switches required. Further, according to the present embodiment, various 42 200949630 31318pif.doc mobile control signals can be generated by using a keystroke signal, a double keystroke ^, and a test signal (money money). Tu Yasaki can generate a mobile control signal; according to the second and second V signals, four mobile control signals can be generated; to control the 1 signal, a mobile control signal can be generated. Further, two movement control signals can be generated in accordance with clockwise and counterclockwise rotation of the actuation member 113A of the finger 1100. However, the invention is not limited thereto. For example, according to the keystroke signal, double-click signal, and over-axis sensing signal

A variety of combinations of axes and rotations can generate more motion control signals. As described above, according to the motion control signal generated in response to the keystroke signal or the double-click signal, the action type can be selected, and then the desired operation can be performed according to the next motion control signal 'in the selected operation mode towel. . The present invention has been disclosed in the above embodiments, and it is not intended to limit the invention to those skilled in the art, and may be modified and modified without departing from the spirit and scope of the invention. Therefore, the scope of protection of the present invention is subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of an electronic device according to an exemplary embodiment of the present invention. 2 is a front view of an electronic device according to an exemplary embodiment of the present invention. FIG. 3 is a cross-sectional view of an index control unit according to an exemplary embodiment of the present invention. 4 is a schematic plan view of the arrow A-A direction in FIG. 43 200949630 31318pif.doc Figure 5 is a schematic illustration of the movement of the key rim of the dome switch and the intermediate member in accordance with an exemplary embodiment of the present invention. Fig. 6 is a flowchart of a method of controlling a program according to an exemplary embodiment of the present invention. [Fig. 7] Fig. 7 is a flowchart of a method of controlling a music player according to an exemplary embodiment of the present invention. FIG. 8 is a diagram of an electronic device according to another exemplary embodiment of the present invention. Don't look

Figure 9 is a flow diagram of an image control program in accordance with an exemplary embodiment of the present invention. f U [Main component symbol description] 1000: Input unit 2000: Main unit 3000: Display unit 1100: Index control unit 1200. Button/information control unit 2100: Index control module 2200: Memory ❹ 2300 • Drive control unit 2_ [$_Video Control Module 00 Wired/Wireless Communication Control Module 4000: Housing 1110: Substrate 1120. Magnet Section 44 200949630 31318pif.doc 1130 Actuating Member 1140 Intermediate Member 1150 Covering Section 1160 Sensor Section 1111 Dome Switch 1112 Lubrication pad 1141 Central portion 1142 Pattern portion 1143 Fixing portion 1144 Fixing projection portion 1145 Keystroke projection portion 1146 Deflection preventing projection portion 510: According to the user's operation, it is determined whether a movement signal and/or a keystroke signal 511 is applied: by Combining the mobile signal and the keystroke signal to generate the input control signal 〇S12: by using the input control signal, the control program S100: determining whether to output the keystroke signal S110: performing regeneration or stopping • S120: determining whether to move the actuation member S130 : decided to move or rotate the actuating member S140: according to the actuating structure The direction of rotation of the piece to adjust the capacity of the program S150: Determine the direction of movement S160: Determine whether to input the keystroke signal 45 200949630 31318pif.doc S170: Select music S180 according to the direction information of the mobile signal: perform fast according to the direction information of the mobile signal Forward or rewind function S1100: Determine operation mode S1110: Move map (ie, image) according to the sensing signal S1120: Enlarge/reduce the map according to the sensing signal (ie, 'image) S1130: Determine whether a keystroke signal is applied or Double-click signal S1140: Display menu S1150: Start menu S1160 according to the sensing signal: decide whether to apply keystroke signal S1170: perform corresponding operation 46

Claims (1)

200949630 31318pif.d〇c VII. Patent application scope: 1. A method for controlling a program of an electronic device, wherein the electronic device includes an indicator control early element capable of two-dimensional movement _ and up/down movement, the method comprising: receiving At least one mobile signal generated by the two-dimensional movement of the index control unit and a keystroke signal generated by the up/down movement of the index control unit; Φ An input control signal is generated by combining the received signals; and the operation of the program is controlled by employing the input control signals. 2. The method of controlling a program of an electronic device according to claim 1, wherein the electronic skirt further comprises a sensor respectively located on the soil shaft and the vehicle, the output position of the sensor. Depending on the movement of the indicator control unit, and based on the output of the sensor, the motion signal includes an axial movement signal generated by linear movement of the fingerprint control unit and the indicator The rotation signal generated by the movement of the control unit.曰 3. If you apply for the full-time second syllabus control method, you can successfully apply the signal during each _ signal input, ^ if you apply phase number during at least 4 to 6 signal input · Tiger', the mobile signal is recognized as the axial mobile signal, and the signal is applied during the turn-in of 4 to 10 signals. The different mobile signal. 4. The method of controlling an electronic device according to claim 2, wherein the axial movement signal comprises a +X axis movement signal, a 1 axis movement signal, and a +y axis movement. The signal and the -y axis move signal, and the rotation signal includes a clockwise rotation signal and a counterclockwise rotation signal. 〇5. The method for controlling a program for controlling an electronic device according to claim 4, wherein if only the keystroke signal is received, the first round-in control signal J is generated if it succeeds during at least 4 to 6 signal input periods. Receiving the same +X axis movement signal, -X axis movement signal, +y axis movement signal or -y axis movement signal' to generate a second input control signal according to the corresponding axial movement signal, The third input control signal, the fourth input control signal or the fifth input control signal, if receiving the keystroke signal after receiving the +x axis movement signal, the _x axis movement signal, the +y vehicle moving signal or the -y axis moving signal, And generating a sixth input control signal, a seventh input control signal, an eighth input control signal or a ninth input control signal according to the corresponding axial movement signal, ^ receiving if the keystroke signal is continuously received + The χ axis movement signal, the -X axis movement signal, the + y axis movement signal or the 々 axis movement signal, the tenth input control signal is generated according to the corresponding axial movement signal, 11 input control signal, twelfth input control signal or tenth input control signal, if no more than 4 to 10 signal input, + axis movement signal, -X axis movement signal, +y axis movement signal or _y axis movement signal continuous 48 200949630 3131bpif.doc ground change 'based on the vector value of the changed mobile signal to generate a fourteenth input control signal or fifteenth input control signal, if the keystroke signal is continuously received In the state of input, the +X axis movement signal, the _ axis movement signal, the .+y axis movement signal, or the -y axis movement signal change continuously during the input period of no more than 4 to 10 signals, according to the change The vector value of the mobile signal to generate the sixteenth input control signal or the seventeenth input control signal, if no more than 4 to 10 signal input periods, +χ axis movement signal, -X axis movement signal, +y axis movement After the signal or the _y-axis moving signal continuously changes, receiving the keystroke signal, according to the vector value of the changed mobile signal to generate the eighteenth input control signal or the nineteenth input control Signal, if only the keystroke signal is received during 30 to 300 signal input, the twentieth input control signal is generated. If the keystroke signal is received, during the 4 to 10 signal input period, the +x axis moves the signal. - the X-axis movement signal, the +y-axis movement signal or the -y-axis movement signal is received', then generating a twenty-first input control signal, a twenty-second input control signal, and a second according to the corresponding axial movement signal Twelve rounds of control signal or twenty-fourth input control signal, if after receiving the keystroke signal, during no more than 4 to 10 dialing rounds, ' + axis movement signal, -X axis movement signal, + The y-axis movement signal or the -y-axis movement signal continuously changes, according to the vector value of the changed mobile signal to generate a twenty-fifth round-in control signal or a twenty-sixth round-in control signal, and 49 200949630 31318pif.doc If at least two keystroke signals are not successfully received during no more than 4 to 1 signal input, a twenty-seventh input control signal is generated. 6. The branch of (4) of the control electronic device according to any one of claims 1 to 5, wherein the unit (4) comprises: a magnet portion; the swaying member configured to be operated according to a user Actuating the magnet portion; An intermediate member configured to return the magnet portion and the actuating member to an original position; and a dome switch located at a bottom end of the magnet portion. : 'The kind of electronic device including the replay, stop, volume adjustment, music selection, and the forward/rewind function to control the music player of the electronic device, the electronic device includes the indicator control unit and the sensor, the finger ^ The age of the system reader* is moved up and down on the x_y plane. The sensor is configured to rotate the signal according to the movement of the indicator control unit, the method comprising : Determining whether the first keystroke signal is applied in response to the up/down movement of the indicator control unit; a if the first keystroke signal is determined to be applied, performing the replay function or the stop function If the first keystroke signal is not applied, it is determined whether the index control unit is moved or rotated in the axial direction; if it is determined that the index control unit is rotated, the rotation direction of the control unit is determined according to the index Performing the function of the volume adjustment; 50 200949630 31318pif.doc If it is decided to move the indicator control unit in the axial direction, determine the moving direction of the indicator control unit; " After determining the moving direction, determine the second key a sounding dream θ applied; if the second keystroke signal is applied, performing the music selection function according to the moving direction; and if the second keystroke signal is not applied, according to the moving direction To perform the forward/rewind function. & A method for controlling a music player of an electronic device by using replay, stop, volume adjustment, music selection, and forward/rewind functions as described in claim 7 of the patent application, wherein during each signal input, Determining the sensor output signal, and if the signal output from the sensor is different during 5 to 10 signal inputs, then determining that the indicator control unit is rotated, and if during 5 to 10 signal inputs When the same signal is rotated from the sensor, it is determined that the indicator control unit is moved. 9. A method of controlling a music player of an electronic device by using a replay, a stop, a volume adjustment, a music selection, and a forward/rewind function as described in claim 7 of the patent application, wherein during each signal input, Determining the sensor output signal, and if the second keystroke signal is not applied during 5 to 300 signal input after determining the moving direction, determining that the second keystroke signal is not applied, and if After determining the moving direction, applying the second keystroke signal ' during 5 to 300 signal input 200949630 31318pif.doc input may determine that the second slamming signal has been applied. An electronic device, the electronic device comprising: an indicator control unit capable of two-dimensional planar movement and up/down movement, the indicator control unit configured to output a keystroke signal according to the up/down movement and according to The two-dimensional movement generates a mobile signal; the indicator control module 'is configured to generate an input control signal by combining the keystroke signal and the mobile signal; The control module is configured to control the program according to the input control signal. The electronic device of claim 10, wherein the mobile signal comprises a sensing signal output when the operating unit is linearly moved. And the generated axial movement signal and the rotation signal generated according to the sensing § hole output when the operation unit moves along the curve, and During each signal input, the movement is successfully received. If a second motion signal is applied during at least 4 to 6 signal input, the motion signal is recognized as an axial motion signal, and j is no more than 4 to 1G. The mobile signal is recognized as a rotary signal when the signal is applied during the input and the mobile signal is different. 12. A recording medium, the recording medium being configured to: the pure (four) unit capable of two-dimensional planar shifting and erroneous error control by the use of the wheel human control signal to control a program. And 52 200949630 ^ui^pif.doc 13' A method of controlling a program of an electronic device, the electronic device including an actuating member that is moved by a user's operation and a dome at a bottom end of the member a switch, the method comprising: receiving a sensing signal generated in response to movement of the actuating member and generating a double-click signal in response to a keystroke on the dome switch; Selecting an operation mode in the mode; and operating the program according to the sensing signal in the selected operation mode. ^ 14. A method for controlling a program for controlling an electronic device as described in item 13, wherein the selection of the operation mode is determined based on whether the keystroke signal or the double-click signal a is received. . 15. The method of controlling a program for controlling an electronic device according to claim 14, wherein if the keystroke signal and the double keystroke are received, the first mode of operation is selected, °~ if When the keystroke signal is received, the second keystroke signal is selected to select the third mode of operation if the double-click signal is received. 16. The method of controlling a program of an electronic device according to claim 5, wherein the performing the operation of the program comprises: if the selected operation mode is a first operation mode, according to the The sensing signal generates a plurality of first movement control signals; if the selected operation mode is the second operation mode, generating a plurality of second movement control signals according to the sensing signals; and 53 200949630 31318pif.doc The selected operation mode is that the third operation of the sensing signal generates a plurality of third movement control signals. According to a method for controlling a program on a screen for editing an electric preset, the electric device includes an actuating member configured to move according to an operation of the ^, and the actuating member is located Bottom = dome switch and sensor configured to measure a signal according to movement of the actuating member, the method comprising: Selecting one of the modes of the moving mode zooming/reducing mode according to the signal that is rotated from the dome switch; 'X if the moving mode is selected, moving the image according to the sensing signal from the sensing; When the zoom in/out mode is selected, the image is enlarged or reduced according to the sensing signal output from the sensor, and the zoom in/out mode is terminated according to a signal output from the dome switch. The method for controlling a program for editing an image displayed on a screen of an electronic device according to claim 17, wherein the movement mode is selected if a signal is not output from the dome switch And if the keystroke signal is rotated from the dome switch, the zoom in/out mode is selected. 19. A method for controlling a program for editing an image displayed on a screen of an electronic device as described in claim n, wherein if the movement mode is selected, the range of movement of the actuation member is divided into a plurality of zones, and the image is moved in a direction corresponding to a region in which the actuating member is located, or the image is moved in a moving direction of the actuating member 54 200949630 31318pif.doc. 20. The method of program for displaying an image displayed on a screen of a device according to item (4) of claim 17, wherein the small mode, the movement of the riding actuating member is divided into and according to the region in which the actuating member is located , zoom in or out on the image. ❹ 21. The image (4) displayed on the screen of the control electronics device as described in any of the items in claims 17 to 2 () is selected to include the signal according to the output from the dome switch. Select k to generate Μ 'there is a record of the towel (4) 生 的 的 ; ; ; ; ; 个 个 个 个 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = After the dome i selects "Si without executing the activated menu, the termination of the device 2 is used to control the editing of the electronic switch, and the double switch signal is output. Executing the menu 23, an electronic device, the electronic device package: the work execution group 'is configured to control the indexed control unit according to the plurality of mobile control signals, configured to output a keystroke signal of the dome switch The sensing signal is rotated by 55 200949630 31318pif.doc 'and the double-click signal ' and according to the movement of the magnet portion located at the top end of the dome switch, and the indicator control mode, and is configured to be based on whether or not The indicator control unit outputs a keystroke signal and a double-click signal to determine an operation mode of the program, and is configured to be based on the sensing signal output from the indicator control unit after determining the operation mode of the program The electronic device according to claim 23, wherein if the indicator control unit does not output the keystroke signal and the double-click signal ', the output is output from the indicator control unit. a sensing signal, wherein the moving mode is selected to move the image displayed on the screen, and if the indicator control unit outputs the keystroke signal, according to the sensing signal output from the indicator control unit, Selecting an enlargement/reduction mode to enlarge or reduce the image, and then controlling whether the unit outputs a keystroke signal and a double-click signal according to the indicator, to enlarge/reduce the mode