KR20220060993A - Electromagnetic input device and electromagnetic input method for identifying interference - Google Patents

Abstract

In accordance with the present invention, provided is an electromagnetic input device for identifying interference. The electromagnetic input device comprises: a writing board; and a passive electromagnetic pen matched with the writing board to be used. The writing board includes an antenna board, a central processing unit connected with the antenna board, and a transmission circuit connected with the central processing unit. The transmission circuit includes a high-resistance output circuit or a high-level output circuit. In accordance with the present invention, the electromagnetic input device for identifying interference is capable of avoiding an influence on a report rate of electromagnetic writing, while solving an issue about electromagnetic interference of electromagnetic writing, thereby improving fluency and accuracy. In accordance with the present invention, an electromagnetic input method for identifying interference is provided at the same time.

Description

Electromagnetic input device and electromagnetic input method for identifying interference

FIELD OF THE INVENTION The present invention relates to the field of electromagnetic sensing technology, and more particularly to an electromagnetic input device and electromagnetic input method for identifying interference.

The electromagnetic input device includes a writing board and an electromagnetic pen, and in general, information such as a writing position and decompression of the electromagnetic pen on the writing board can be determined through electromagnetic sensing.

The electromagnetic pen is divided into an active type electromagnetic pen and a passive type electromagnetic pen depending on whether or not a built-in battery is installed. The active electromagnetic pen has a built-in battery. Therefore, since it is a built-in battery, active electromagnetic pens are generally designed to be relatively heavy. In contrast, the passive electromagnetic pen has no battery and no battery is mounted on the circuit board. In addition, the passive electromagnetic pen can be designed to be small and sophisticated, and the internal circuit is simple and does not require charging, so it can be used at any time. Therefore, it has more advantages than an active type electromagnetic pen.

However, since the signal of the passive electromagnetic pen is relatively weak, it is necessary to block interference from other circuit boards when in use. If other circuit boards exist around the writing board, the writing of the passive electromagnetic pen is easily interfered with. For example, when a conventional writing board is placed in an environment with relatively large interference, such as a keyboard, since the keyboard has a circuit board, a magnetic field is generated within a certain range after the circuit board of the keyboard is energized, and Since electromagnetic waves are conducted at a distance, when a passive electromagnetic pen is used, even if the passive electromagnetic pen does not come into contact with the writing board, the writing board can sequentially sense the magnetic field generated by the circuit of the keyboard, and the passive electromagnetic pen When the position of the pen is confirmed, errors easily appear and interfere with the writing performance of the passive electromagnetic pen, thereby impairing the writing fluency and accuracy of the passive electromagnetic pen.

Therefore, there is a need to solve the above problem by providing a new electromagnetic input device and electromagnetic input method for identifying interference.

Considering that, in the current prior art, the electromagnetic writing equipment is placed in an environment subject to relatively large interference, it interferes with the writing performance of the writing equipment and impairs the writing fluency and accuracy of the electronic writing equipment. Accordingly, the present invention provides an electromagnetic input device and electromagnetic input method for identifying interference.

The electromagnetic input device for identifying interference includes a writing board and a passive electromagnetic pen used to match the writing board, wherein the writing board includes an antenna plate, a central processing unit connected to the antenna plate, and the central processing unit; and a transmit circuit coupled thereto, wherein the transmit circuit comprises a high resistance output circuit or a high level output circuit.

The present invention further provides an electromagnetic input method for identifying interference, the following steps comprising:

providing the writing board and a passive electromagnetic pen used in matching with the writing board, wherein the writing board includes an antenna plate, a central processing unit connected to the antenna plate, and a transmitting circuit connected to the central processing unit S01;

The transmitting circuit, which is a high resistance output circuit or a high level output circuit, is provided, so that the antenna plate is fully scanned after not transmitting a signal, and if the presence of an electromagnetic sensitive signal is detected, it is judged as an interference signal, and the coordinate data is uploaded or, upload the interference code to the master computer, and if it is detected that the electromagnetic sensitive signal does not exist, it is determined as an interference-free signal and is scanned normally.

Unlike the prior art, the electromagnetic input device for identifying interference provided by the present invention is provided with the transmitting circuit, which is a high-resistance output circuit or a high-level output circuit, so that the antenna plate is completely scanned after not transmitting a signal, so that the interference Determines whether a signal is present or not. If there is signal interference when the passive electromagnetic pen is written on the writing board, the interference signal may be processed to obtain the processed data. Therefore, while not affecting the report rate of the passive electromagnetic handwriting, it is possible to solve the problem of electromagnetic interference in the electromagnetic handwriting, and improve the fluency and accuracy of the electromagnetic handwriting.

In order to more clearly describe the technical methods of the embodiments in the present invention, the following briefly introduces drawings to be used in the description of the embodiments, and in the description below, it can be understood that the drawings are only some embodiments of the present invention. A person of ordinary skill in the art may obtain other drawings based on the drawings presented on the premise that creative labor has not been done.
1 is a schematic diagram of a three-dimensional structure of an electromagnetic input device for identifying interference shown in the present invention.
FIG. 2 is a structural schematic diagram of the writing board shown in FIG. 1 .
3 is a flowchart of an electromagnetic input method for identifying interference shown in the first embodiment of the present invention.
4 is a flowchart of an electromagnetic input method for identifying interference shown in the second embodiment of the present invention.
5 is a flowchart of an electromagnetic input method for identifying interference shown in the third embodiment of the present invention.

The following clearly and completely describes the technical solutions of the embodiments of the present invention by combining the drawings of the embodiments in the present invention. The described embodiments are only a part of the present invention, and do not correspond to the entire embodiments. Based on the embodiments of the present invention, all other embodiments obtained under the premise that those skilled in the art did not creative labor fall within the protection scope of the present invention.

1 , the present invention provides an electromagnetic input device 100 for identifying interference. The electromagnetic input device 100 includes a writing board 10 and a passive electromagnetic pen 30 used to match the writing board 10 .

Referring to FIG. 2 , FIG. 2 is a structural schematic diagram of the writing board shown in FIG. 1 . The writing board 10 includes an antenna plate 11 , a central processing unit 13 connected to the antenna plate 11 , and a transmission circuit 15 connected to the central processing unit 13 .

The writing board 10 further includes a conversion unit 17, an antenna selection unit 19, and an amplification unit 18, wherein the conversion unit 17, the antenna selection unit 19, and the amplification unit 18 are It is installed between the antenna 11 and the central processing unit (13). This is as shown in FIG. 2 .

Specifically, the antenna plate 11 is used to transmit and receive electromagnetic sensitive signals, and the central processing unit 13 is connected to the antenna selection unit 19 and the transmission circuit 15, respectively, and the transmission The circuit 15 and the antenna of the antenna plate 11 are selected, and the signals transmitted from the transmitting circuit 15 and the antenna plate 11 are transmitted to the conversion unit 17 and the amplification unit 18, respectively. processed through In particular, the transmitting circuit 15 includes a first transmitting circuit or a second transmitting circuit, wherein the first transmitting circuit is a high resistance output circuit, and the second transmitting circuit is a high level output circuit.

first embodiment

3 is a flowchart of an electromagnetic input method for identifying interference shown in a first embodiment of the present invention, the first embodiment of the present invention provides an electromagnetic input method for identifying interference, the following steps are

The electromagnetic input device 100 is provided, and the electromagnetic input device 100 includes a writing board 10 and a passive electromagnetic pen 30 used to match the writing board 10, and the writing board (10) is a step S01 including an antenna plate 11, a central processing unit 13 connected to the antenna plate 11, and a transmitting circuit 15 connected to the central processing unit 13;

By providing the transmitting circuit 15 which is a high resistance output circuit or a high level output circuit, the antenna plate 11 is fully scanned after not transmitting a signal, and if the presence of an electromagnetic sensitive signal is detected, the electromagnetic sensitive Determining the signal as an interference signal, the central processing unit 13 does not upload the coordinate data obtained according to the electromagnetic sensitive signal, or uploads the interference code to the master computer. and if it is detected that the electromagnetic sensitive signal does not exist, it is determined as an interference-free signal and is normally scanned (S02).

The principle for the step S02 to identify the interference is as follows. The transmitting circuit 15 is provided in a high resistance output circuit or a high level output circuit, so that the antenna plate 11 does not transmit a signal, and the passive electromagnetic pen 30 transmits from the antenna plate 11 . signal cannot be received, and thus a corresponding electromagnetic sensitive signal cannot be generated. If the electromagnetic sensitive signal is detected after full scanning, since the electromagnetic sensitive signal is a signal transmitted from an external circuit board, it may be determined that the electromagnetic sensitive signal is an interference signal.

second embodiment

4 is a flowchart of an electromagnetic input method for recognizing interference shown in a second embodiment of the present invention, and FIG. 4 is a first embodiment of the electromagnetic input method for recognizing interference provided by the second embodiment of the present invention. There is a difference between the example and the following: The following steps after step S02,

When the position coordinates of the passive electromagnetic pen 30 placed on the writing board 10 are partially scanned, if the uploaded coordinate data is larger than the estimated value, the step S02 is entered, and interference identification is performed once. , If the uploaded coordinate data is less than or equal to the estimated value, it is determined as an interference-free signal, so uploading the coordinate data, wherein the estimated value is installed according to a report rate and an experience value.

What needs to be explained is that after the interference is identified, if it is determined that the interference signal does not exist, upload coordinate data, and if the presence of the interference signal is identified, process the interference signal and then upload the processing data; The processed data is coordinate data after processing the interference signal. Specific methods of processing the interference signal include average compensation and trend compensation.

Here, in the average compensation method, when a distributed single interference signal is identified, the coordinate data (X ₁ , Y ₁ ) before the interference signal appears and the coordinate data after the interference signal (X ₂ , Y ₂ ) Taking the average value, we get the processing data (X, Y), where X=(X ₁ +X ₂ )/2, Y=(Y ₁ +Y ₂ )/2.

을 얻는다.The trend compensation method is the m-group coordinate data (X ₁ , Y ₁ ), (X ₂ , Y ₂₎ . . . … (X _m , Y _m ) is the processed data calculated by an n-step function

to get

Here, both m and n are integers greater than 0.

3rd embodiment

5, Fig. 5 is a flowchart of an electromagnetic input method for recognizing interference shown in a third embodiment of the present invention, and the electromagnetic input method for recognizing interference provided by a third embodiment of the present invention is a first embodiment There is a difference between the example and the following: The following steps after step S02,

When the position coordinates of the passive electromagnetic pen 30 placed on the writing board 10 are partially scanned, the step S02 is entered at intervals of a preset fixed time period, and interference identification is performed once, where, The preset fixed time period further includes a step S04 of being installed according to a report rate and an experience value.

Unlike the prior art, in the electromagnetic input device 100 for identifying interference provided by the present invention, the transmitting circuit 15, which is a high resistance output circuit or a high level output circuit, is installed, so that the antenna plate 11 transmits a signal. is not transmitted, and after full scanning, it is determined whether an interfering signal is present. If there is signal interference when the passive electromagnetic pen 30 writes on the writing board 10 , the processing data may be obtained by processing the interference signal. Therefore, while not affecting the report rate of the passive electromagnetic handwriting, it is possible to solve the problem of electromagnetic interference in the electromagnetic handwriting, and improve the fluency and accuracy of the electromagnetic handwriting.

The above contents are only embodiments of the present invention, and those skilled in the art can improve it under the premise of not departing from the inventive concept of the present invention, but this falls within the protection scope of the present invention.

Claims (9)

An electromagnetic input device for identifying interference comprising:
a writing board and a passive electromagnetic pen used to match the writing board, wherein the writing board includes an antenna plate, a central processing unit connected to the antenna plate, and a transmitting circuit connected to the central processing unit;
and the transmitting circuit comprises a high resistance output circuit or a high level output circuit. According to claim 1,
The electromagnetic input device for identifying interference, wherein the writing board further includes an antenna selection unit, a conversion unit, and an amplification unit installed between the antenna plate and the central processing unit. An electromagnetic input method for identifying interference comprising:
the following steps,
providing the writing board and a passive electromagnetic pen used in matching with the writing board, wherein the writing board includes an antenna plate, a central processing unit connected to the antenna plate, and a transmitting circuit connected to the central processing unit S01;
The transmitting circuit, which is a high resistance output circuit or a high level output circuit, is installed, so that the antenna plate is fully scanned after not transmitting a signal, and if the presence of an electromagnetic sensitive signal is detected, it is determined as an interference signal, and coordinate data is uploaded or upload the interference code to the master computer; and if it is detected that the electromagnetic sensitive signal does not exist, it is determined as an interference-free signal and is normally scanned (S02). 4. The method of claim 3,
After step S02,
When the position coordinates of the passive electromagnetic pen placed on the writing board are partially scanned, if the uploaded coordinate data is larger than the estimated value, the step S02 is entered, and interference identification is performed once; If the uploaded coordinate data is smaller than or equal to the estimated value, it is determined as an interference-free signal, so uploading the coordinate data, wherein the estimated value further includes a step S03 in which the estimated value is installed according to the reporting rate and the experience value An electromagnetic input method for identifying a characteristic interference. 4. The method of claim 3,
After step S02,
When the position coordinates of the passive electromagnetic pen placed on the writing board are partially scanned, the step S02 is entered at intervals of a preset fixed time period, and interference identification is performed once, where the preset fixed time period is Electromagnetic input method for identifying interference, characterized in that it further comprises a step S04 installed according to the report rate and the experience value. 6. The method according to claim 4 or 5,
after the interference is identified, upload coordinate data if it is determined that the interference signal does not exist; When the presence of the interference signal is identified, processing data is uploaded after processing the interference signal, wherein the processing data is coordinate data after processing the interference signal. 7. The method of claim 6,
The electromagnetic input method for identifying interference, characterized in that the specific method of processing the interference signal includes average compensation and trend compensation. 8. The method of claim 7,
The average compensation method is the average value of the coordinate data (X ₁ , Y ₁ ) before the interference signal appears and the coordinate data after the interference signal (X ₂ , Y ₂ ) when a distributed single interference signal is identified. to obtain the processing data (X, Y), wherein X=(X ₁ +X ₂ )/2, Y=(Y ₁ +Y ₂ )/2 electromagnetic input method. 8. The method of claim 7,
The trend compensation method is the m-group coordinate data (X ₁ , Y ₁ ), (X ₂ , Y ₂₎ . . . … (X _m , Y _m ) is calculated with an n-step function to obtain the processing data (X, Y), where

, m and n are both integers greater than zero.

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