1. Field of the Invention
The present invention relates to an electronic device and a control method thereof, and more particularly, to an electronic device and a control method capable of activating a desired function corresponding to a contact status between a touch object and a touch area. Therefore, time for selecting the function can be reduced and convenience can be enhanced during operation.
2. Description of the Prior Art
Touch pads are widely used in various electronic products including, for example, portable computers, personal digital assistants, mobile phones and other electronic systems. Existing touch pads are divided into four categories, including resistance-type, capacitance-type, acoustic-type and optical-type, based on their sensing principles. The resistance-type and the capacitance-type touch pads are more popular, each serving as an input device in which an electronic-conductive object such as a finger or a touch stylus of a user contacts a panel of the touch pad or slides thereon, whereby a cursor or an absolute coordinate can be moved and other functions can be activated, such as a function of stimulating a key.
When the finger or the electrical-conductive object contacts the panel of the touch pad, the amount of capacitance or resistance at the contact position will change. A processing element electrically connected to the touch pad can convert the change in capacitance or resistance into a sensed value, and in turn determine the contact position, displacement, and motion direction of the finger or the electrical-conductive object. When the finger or the electrical-conductive object clicks, drags or double-clicks the panel of the touch pad, the time of the finger or the electrical-conductive object touching, leaving or moving on the panel is used as the basis for determination.
Originally, the touch pad only had a cursor-mode function to replace the cursor of a traditional mouse. Later, in order to perform other functions, complicated finger motions had to be employed, such as clicking, double-clicking, dragging, scrolling actions accomplished by one finger, or zoom-in, zoom-out, and rotating a picture accomplished by several fingers. Thus, a complicated recognition method is programmed in the touch pad for analyzing the above-mentioned finger motions.
Determining the finger motion on the touch pad includes detecting the position or displacement of the finger (or the electrical-conductive object) on the touch pad. Then, the position and displacement of the touch area is used as a basis for controlling an object, browsing a window or moving a cursor. Thus, many manufacturers add objects on predetermined areas of the touch pad and detect the touch condition or displacement of the finger (or the electrical-conductive object) on the predetermined areas, thereby activating some special finger motions to control the pictures displayed on the window of the electronic device. On a common portable electronic device, the area of the touch pad is limited, so that flexibility of the finger motions and applicability of the touch pad are also restricted. As a result, the user has to employ complicated finger motions to browse the window of the electronic device. Therefore, when the pictures displayed on the window are to be changed, it is inconvenient for the user to browse the different pictures on the window, and the user has to memorize the individual finger motions.
According to the above, the prior art has the following problems:
(I) low expansion of functions of the touch pad due to the limited area of the touch pad;
(II) inconvenience in browsing the pictures on the window; and
(III) difficulty in memorizing the individual finger motions.
In order to solve the above problems, an objective of the present invention is to provide an electronic device and a control method capable of reducing time for selecting functions.
Another objective of the present invention is to provide an electronic device and a control method capable of enhancing the convenience in operation.
Another objective of the present invention is to provide an electronic device and a control method capable of reducing mode switch keys and simplifying operation steps.
The present invention provides an electronic device and a control method. The electronic device has a touch unit, a display unit, and a control unit. The touch unit has a touch surface. The touch area has at least one touch area corresponding to an operation of the touch unit. The control method comprises steps of: determining whether a touch object contacts the touch area; and determining whether the touch object contacts one of the touch areas or continuously/sequentially contacts at least two touch areas. If the touch object contacts one of the touch areas, an operation of the touch area contacted by the touch object is activated and displayed on the display unit. If the touch object continuously/sequentially contacts at least two touch areas, a predetermined special function is activated, such as a page-up function or a page-down function, and the special function is displayed on the display unit. Therefore, according to the control method of the present invention, time for selecting the function is reduced, convenience is enhanced during operation, and the steps of the operation are simplified.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
The above objectives and structural and functional features of the present invention will be described in more detail with reference to a preferred embodiment thereof shown in the accompanying drawings.
Please refer to
Step 10 (sp 10) is to determine whether a touch object contacts the touch surface.
Step 11 (sp11) is to determine whether the touch object contacts one touch area or continuously/sequentially contacts at least two touch areas. If the touch object contacts one touch area, continue to step 121 (sp121). If the touch object continuously/sequentially contacts at least two contact areas, continue to step 122 (sp122).
Step 121 (sp121) is to perform a predetermined operation of the touch area contacted by the touch object and to display the predetermined operation on the display unit when the touch object contacts one touch area.
Step 122 (sp 122) is to perform a predetermined special function and to display the predetermined special function on the display unit when the touch object continuously/sequentially contacts at least two touch areas.
Further, another control method includes the following steps:
Step 20 (sp20) is to determine whether a touch object contacts the touch surface.
Step 21 (sp21) is to determine whether the contact position between the touch object and the touch surface is located in the touch area. If the contact position is located in the touch area, continue to step 22 (sp22). If the contact position is not located in the touch area, continue to step 211 (sp 211).
Step 211 (sp211) is to determine a location of the contact position and perform a corresponding clicking operation.
Step 22 (sp22) is to determine whether the touch object contacts one touch area or continuously/sequentially contacts at least two touch areas. If the touch object contacts one touch area, continue to step 221 (sp221). If the touch object continuously/sequentially contacts at least two touch areas, continue to step 222 (sp222).
Step 221 (sp221) is to activate a predetermined operation of the touch area contacted by the touch object and to display the predetermined operation on the display unit when the touch object contacts one touch area.
Step 222 (sp222) is to perform a predetermined special function and to display the predetermined special function on the display unit when the touch object continuously/sequentially contacts at least two touch areas.
Please refer to
Thus, a user can utilize a touch object 40 such as a finger or a touch stylus to contact the touch areas 22 of the touch unit 20. First, the touch unit 20 determines whether the touch object 40 contacts the touch surface 21, and then determines whether the contact position of the touch object 40 on the touch surface 21 is located in the touch area 22.
If the contact position of the touch object 40 is not located in the touch area 22, the control unit 22 determines a location of the contact position and performs a corresponding clicking operation.
If the contact position of the touch object 40 is located in the touch areas 22, the touch unit 20 further determines whether the touch object 40 contacts one touch area 22 or continuously/sequentially contacts at least two touch areas.
If the touch object 40 contacts one touch area 22, a corresponding operation of the touch area 22 contacted by the touch object 40 is activated and displayed on the display unit 30. As shown in
As shown in
Please refer to
In the present embodiment, the touch object 40 can contact the scroll-up area 222 first, and then slide to the fast-scroll-up area 221 without leaving the touch surface 21. Alternatively, the touch object 40 can also contact the scroll-up area 222, leave the touch surface 21, and then contact the fast-scroll-up area 221 within a predetermined time interval.
According to the contact with the scroll-up area 222 and the fast-scroll-up area 221, the processing element of the touch unit 20 performs a predetermined special function of changing the pictures displayed on the display unit 30, and controls the display unit 30 to display a picture of a previous page, which is a special function equivalent to the action of pressing the “Page Up” key on a keyboard.
Please refer to
According to the contact with the scroll-down area 224 and the fast-scroll-down area 225, the processing element of the touch unit 20 performs the function of changing the pictures, and controls the display unit 30 to display a picture of a next page, which is a special function equivalent to the action of pressing the “Page Down” key on a keyboard.
Please refer to
According to the sequence of the contact with the at least two touch areas 22, the processing element of the touch unit 20 performs the function of changing the pictures, and controls the display unit 30 to display the picture of the previous page (also refer to
On the other hand, the touch object 40 can contact the pause area 223 and slide to the scroll-down area 224 without leaving the touch surface 21. Or, the touch object 40 can contact the pause area 223, leave the touch surface 21, and then contact the scroll-down area 224 within a predetermined time interval. According to the sequence of the contact with at least two touch areas 22, the processing element of the touch unit 20 performs the function of changing the pictures, and controls the display unit 30 to display the picture of the next page (
Please refer to
If the touch object 40 continuously/sequentially contacts the scroll-down area 224 and the fast-scroll-down area 225, according to the contact with the scroll-down area 224 and the fast-scroll-down area 225, the processing element of the touch unit 20 performs the function of changing the pictures, and controls the display unit 30 to display the picture of next page, and the processing element of the touch unit 20 controls the page changing speed according to the moving speed of the touch object 40 from the scroll-down area 224 to the fast-scroll-down area 225.
The touch unit 20 activates a predetermined special function corresponding to a contact status between the touch object 40 and the touch area 22 to control the display unit 30 to display the picture of the previous page (like the action of pressing the “Page UP” key on a keyboard) or the picture of the next page (like the action of pressing the “Page Down” key on a keyboard). In this way, time for selecting the functions can be reduced and convenience can be enhanced during operation.
If the touch object 40 continuously/sequentially contacts at least two touch areas, the predetermined special functions are performed. Besides changing the pictures displayed on the display unit 30, the predetermined special functions may be arranged according to the user's need, such as controlling displayed web pages, controlling volume, controlling picture brightness, or activating an application software.
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According to the above, in comparison with prior art, the present invention has the following advantages:
(I) the operations and functions of the electronic product can be expanded without increasing the area of the touch surface;
(II) it is convenient for the user to browse the pictures on the display unit; and
(III) it is easier for the user to operate the electronic product and memorize the finger motions.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
Number | Date | Country | Kind |
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100100183 | Jan 2011 | TW | national |