This application claims the priority benefit of Taiwan application serial no. 97145790, filed on Nov. 26, 2008. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of specification.
1. Field of the Invention
The present invention generally relates to an input apparatus, an input method and an electronic apparatus using the same, and more particularly, to an electronic apparatus, adapted for inputting characters by executing multi-direction operations.
2. Description of Related Art
As science and technology being fast developed, people now rely more upon portable electronic apparatuses than ever before. Mobile phones, personal digital assistants (PDA), and hand-held game consoles are very popular in people's daily life. Generally, an input interface is an important bridge for communicating between a user and an electronic apparatus. For example, a mobile phone is often provided with an interface including a directional key, numeral keys and function keys, by which the user is allowed to select a function, dial a call, or key in a short message. However, such a keyboard type input interface usually occupies too large an area, and thus restricts the electronic apparatus to be developed to be smaller and lighter.
Therefore, the manufacturers are making more effort to further develop and improve the input method of the electronic apparatus, and reduce the weight and size of the electronic apparatus, for providing more convenience of operation and better portability to the user.
Accordingly, the present invention is directed to provide an input apparatus and an input method, adapted for inputting characters by executing multi-direction operations, thus improving the convenience of operation of the input apparatus and reducing the size of the input apparatus. Further, the present invention also provides an electronic apparatus using the input apparatus, and having the foregoing advantages.
The present invention provides an input apparatus. The input apparatus includes a signal generating module and a processing module. The signal generating module generates a plurality of input signals by executing multi-direction operations. The processing module receives and processes successive two of the input signals generated by the signal generating module for generating a control signal. The control signal corresponds to one of a plurality of characters.
The present invention provides an input method, adapted for an electronic apparatus. First, a signal generating module is provided. The signal generating module generates a plurality of input signals by executing multi-direction operations. Then, successively generated two of the input signals are processed for generating a first signal. The first signal corresponds to one of a plurality of characters.
The present invention provides an electronic apparatus including an input apparatus and a display apparatus. The input apparatus includes a signal generating module and a processing module. The signal generating module generates a plurality of input signals by executing multi-direction operations. The processing module receives and processes two of the input signals which are successively generated by the signal generating module for generating a control signal. The control signal corresponds to one of a plurality of characters. The display apparatus receives the control signal and displays the character.
According to an embodiment of the present invention, the signal generating module includes a first, a second, a third, and a fourth input keys. The first input key indicates a first direction, and generates a first input signal of the plurality of input signals when receiving a first operation instruction. The second input key indicates a second direction, and generates a second input signal of the plurality of input signals when receiving a second operation instruction. The third input key indicates a third direction, and generates a third input signal of the plurality of input signals when receiving a third operation instruction. The fourth input key indicates a fourth direction, and generates a fourth input signal of the plurality of input signals when receiving a fourth operation instruction.
According to an embodiment of the present invention, the signal generating module includes a multi-direction key. The multi-direction key indicates a first direction, a second direction, a third direction, and a fourth direction. When receiving the first operation instruction, the second operation instruction, the third operation instruction, and the fourth operation instruction, the multi-direction key generates the first input signal, the second input signal, third input signal, and the fourth input signal of the foregoing input signals, respectively.
The present invention executes multi-direction operations and successively generates input signals. The successively generated input signals are processed for generating a control signal corresponding to one of a plurality of characters. Therefore, the input apparatus is provided with a direction-indicating key for inputting characters by executing multi-direction operations. In such a way, unnecessary keys can be simplified from the input apparatus, and therefore sizes of the input apparatus and the electronic apparatus using the input apparatus can be further reduced, and thus the convenience of operation of the input apparatus is further improved.
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
Reference will now be made in detail to the present preferred embodiments of the invention, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers are used in the drawings and the description to refer to the same or like parts.
When the input key U receives a first operation instruction (e.g., the user presses the input key U), the input key U generates a first input signal IN_U, and provides the first input signal IN_U to the processing module 120. When the input key D receives a second operation instruction (e.g., the user presses the input key D), the input key D generates a second input signal IN_D, and provides the second input signal IN_D to the processing module 120. Similarly, when receiving a third and a fourth operation instructions, the input keys L and R generate a third input signal IN_L and a fourth input signal IN_R, and provide the third input signal IN_L and the fourth input signal IN_R to the processing module 120, respectively. The signal generating module 110 generate the first input signal IN_U, the second input signal IN_D, the third input signal, IN_L, and the fourth input signal IN_R by executing multi-direction operations. The processing module 120 receives successive two of the input signals for processing, thus generating a control signal CON corresponding to one of a plurality of characters. The characters for example are Arabic numerals 0 through 9, or English letters A through Z.
Generally, in a conventional keyboard type input apparatus, keys representing Arabic numerals 0 through 9, or English letters A through Z, are often directionally arranged. In the current embodiment, the characters are inputted by executing multi-direction operations according to the directional arrangement of the characters. Specifically, in the current embodiment, not all of the input keys corresponding to the characters are required in the signal generating module 110 corresponding to the characters. The signal generating module 110 is adapted for inputting the characters by operating the input keys U, D, L, and R indicating the Up, Down, Left and Right directions.
Further, in the current embodiment, when the input key EN receives a fifth operation instruction, (e.g., the user presses the input key EN), the signal generating module 110 generates a fifth input signal IN_EN and provides the fifth input signal IN_EN to the processing module 120, for controlling the processing module 120 to execute the processing or terminate the processing. However, it should be noted that the input key EN is not necessarily required hereby. The input key EN is employed in the current embodiment for affirming the correctness of the inputted characters by controlling the processing module 120 to executes the processing or terminates the processing.
Specifically, the signal generating module 110 generates directional input signals (i.e., IN_U, IN_D, IN_L, or IN_R) by executing multi-direction operations. When the processing module 120 receives two successively generated directional input signals, the processing module 120 does not execute the processing until the fifth input signal IN_EN is received. When the processing module 120 receives the fifth input signal IN_EN, it generates the control signal CON. Otherwise, if the processing module 120 fails to receive the fifth input signal IN_EN, it terminates the processing. According to another embodiment of the present invention, when the processing module 120 receives one of the directional input signals, and subsequently receives the fifth input signal IN_EN, the processing module 120 terminates the processing, for avoiding the user inputting an undesired character caused by misoperation of the keys.
Then, in accordance with the time of pressing the input key EN, the processing module 120 can be controlled for circularly switching the characters and outputting the control signal CON. For example, when the user shortly presses the input key EN, the signal generating module 110 generates the fifth input signal IN_EN and provides the fifth input signal IN_EN to the processing module 120 for controlling the processing module 120 to switch the control signals CON of the English letters, i.e., switching from the English letter D to the English letter E. Similarly, the user can also control the processing module 120 for circularly switching between the English letters (e.g., from D to E to F to D), by successively and shortly pressing the input key EN. When the user keeps pressing the input key EN (pressing the input key and remaining the input key unreleased for a long time), the processing module 120 outputs the control signal CON corresponding to the English letter.
Further, taking the Arabic numeral 2 for example, the numeral group of numerals 1 and 2 are arranged between the numerals 0 and 3. As such, when the signal generating module 110 sequentially receives operation instructions indicating Right and Up directions (or sequentially receives operation instructions indicating Up and Right directions), the processing module 120 processes a fourth input signal IN_R and a first input signal IN_U which are successively generated by the signal generating module 110, thus generating a control signal CON corresponding to the Arabic numeral 1.
Then, in accordance with the time of pressing the input key EN, the processing module 120 can be controlled for circularly switching the numerals and outputting the control signal CON. For example, when the user shortly presses the input key EN, the signal generating module 110 generates the fifth input signal IN_EN and provides the fifth input signal IN_EN to the processing module 120 for controlling the processing module 120 to switch the control signals CON of the Arabic numerals, i.e., switching from the Arabic numeral 1 to the Arabic numeral 2. Similarly, the user can also control the processing module 120 for circularly switching between the Arabic numerals (e.g., from 1 to 2 to 1), by successively and shortly pressing the input key EN. When the user keeps pressing the input key EN (pressing the input key and remaining the input key unreleased for a long time), the processing module 120 outputs the control signal CON corresponding to the Arabic numerals.
The configuration of the input apparatus and the input keys, as well as the arrangement of the Arabic numerals and the English letters can be complied with many variations. It should be noted that the configurations shown in
According to the foregoing embodiments, a flow of an input method can be concluded.
It should be noted that the input apparatuses 100 and 300 can also be used in an electronic apparatus, for improving the convenience of operation of the electronic apparatus.
In summary, the foregoing embodiments execute multi-direction operations and successively generate input signals. The successively generated input signals are processed for generating a control signal corresponding to one of a plurality of characters. Therefore, the input apparatus is provided with a direction-indicating key for inputting characters by executing multi-direction operations, thus improving the convenience of operation of the input apparatus. In such a way, when employed in an electronic apparatus, the input apparatus is further adapted for reducing the size of the electronic apparatus using the input apparatus.
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the present invention cover modifications and variations of this invention provided they fall within the scope of the following claims and their equivalents.
Number | Date | Country | Kind |
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97145790 | Nov 2008 | TW | national |