KR102615476B1 - Electromagnetic input method for identifying interference - Google Patents

Abstract

The present invention provides an electromagnetic input device that identifies interference, and includes a writing board and a passive electromagnetic pen used in matching the writing board. The writing board includes an antenna plate, a central processing unit connected to the antenna plate, and a transmission circuit connected to the central processing unit. The transmitting circuit includes a high-resistance output circuit or a high-level output circuit. The electromagnetic input device that identifies interference provided by the present invention solves the problem of electromagnetic handwriting being subjected to electromagnetic interference, without affecting the reporting rate of electromagnetic handwriting, thereby improving fluency and accuracy. The present invention simultaneously provides an electromagnetic input method that identifies interference.

Description

ELECTROMAGNETIC INPUT METHOD FOR IDENTIFYING INTERFERENCE}

The present invention relates to the field of electromagnetic sensing technology, and in particular to electromagnetic input methods for identifying interference.

The electromagnetic input device includes a writing board and an electromagnetic pen, and generally can determine information such as the writing position and pressure of the electromagnetic pen on the writing board through electromagnetic sensitivity.

Electromagnetic pens are divided into active electromagnetic pens and passive electromagnetic pens depending on whether or not a built-in battery is installed. Active electromagnetic pens have a built-in battery. Therefore, because they have built-in batteries, active electromagnetic pens are generally designed to be relatively heavy. In contrast, a passive electromagnetic pen does not have a battery, and the battery is not mounted on the circuit board. In addition, passive electromagnetic pens can be small and elaborately designed, have a simple internal circuit, and do not require charging, so they can be used at any time. Therefore, it has more advantages than an active electromagnetic pen.

However, because the signal of a passive electromagnetic pen is relatively weak, it is necessary to block interference from other circuit boards when using it. If other circuit boards exist around the writing board, the writing of a passive electromagnetic pen is easily interfered with. For example, when a conventional writing board is placed in an environment with relatively high interference, such as a keyboard, the keyboard has a circuit board, so a magnetic field is generated within a certain range after the circuit board of the keyboard conducts electricity, and Since electromagnetic waves are conducted at a distance, when a passive electromagnetic pen is used, even if the passive electromagnetic pen is not in contact with the writing board, the writing board can sequentially detect the magnetic field generated by the circuit of the keyboard, and the passive electromagnetic pen can detect the magnetic field generated by the circuit of the keyboard in order. When the position of the pen is determined, errors easily appear and interfere with the writing performance of the passive electromagnetic pen, thereby hindering the fluency and accuracy when writing with 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 to identify interference.

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

An electromagnetic input device for identifying interference includes a writing board and a passive electromagnetic pen used in matching 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 transmission circuit connected thereto, wherein the transmission circuit includes 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:

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

By installing the transmission circuit, which is a high-resistance output circuit or a high-level output circuit, the antenna plate is fully scanned without transmitting a signal, and if the presence of an electromagnetic response signal is detected, it is judged to be an interference signal and coordinate data is uploaded. Otherwise, the interference code is uploaded to the master computer, and if it is detected that the electromagnetic sensitive signal does not exist, step S02 is judged to be a non-interfering signal and is scanned normally.

Unlike the prior art, the electromagnetic input device for identifying interference provided by the present invention is installed with the transmission circuit, which is a high-resistance output circuit or a high-level output circuit, so that the antenna plate is fully scanned without transmitting a signal, thereby causing interference. Determine whether a signal exists. If there is signal interference when the passive electromagnetic pen writes on the writing board, the interference signal can be processed to obtain the processed data. Therefore, without affecting the reporting rate of the passive electromagnetic handwriting, the problem of electromagnetic handwriting being subject to electromagnetic interference can be solved, and the fluency and accuracy of electromagnetic handwriting can be improved.

In order to more clearly explain the technical solutions of the embodiments of the present invention, the drawings to be used in the description of the embodiments are briefly introduced below, and from the description below, it can be seen that the drawings are only some embodiments of the present invention. A person skilled in the art may obtain other drawings based on the presented drawings, provided that no creative labor has been performed.
1 is a three-dimensional schematic diagram of an electromagnetic input device for identifying interference according to 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 according to the first embodiment of the present invention.
Figure 4 is a flowchart of an electromagnetic input method for identifying interference according to a second embodiment of the present invention.
Figure 5 is a flowchart of an electromagnetic input method for identifying interference according to a third embodiment of the present invention.

Below, the technical solutions of the embodiments of the present invention are clearly and completely described by combining the drawings of the embodiments of the present invention. The described embodiments are only partial embodiments of the present invention and do not correspond to the entire embodiment. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative labor shall fall within the protection scope of the present invention.

Referring to Figure 1, the present invention provides an electromagnetic input device 100 that identifies interference. The electromagnetic input device 100 includes a writing board 10 and a passive electromagnetic pen 30 used in matching the writing board 10.

Referring to Figure 2, Figure 2 is a structural schematic diagram of the writing board shown in Figure 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, and the conversion unit 17, an antenna selection unit 19, and an amplification unit 18 are It is installed between the antenna 11 and the central processing unit 13. This is as shown in Figure 2.

Specifically, the antenna plate 11 is used to transmit and receive an electromagnetic sensitive signal, and the central processing unit 13 is connected to the antenna selection unit 19 and the transmission circuit 15, respectively, and the transmission circuit 15 is connected to the antenna selection unit 19 and the transmission circuit 15. Select the antenna of the circuit 15 and the antenna plate 11, and the signal transmitted from the transmission circuit 15 and the antenna plate 11 is transmitted through the conversion unit 17 and the amplification unit 18, respectively. It is processed through In particular, the transmission circuit 15 includes a first transmission circuit or a second transmission circuit, where the first transmission circuit is a high-resistance output circuit and the second transmission circuit is a high-level output circuit.

Embodiment 1

Combining Figure 3, it is a flowchart of an electromagnetic input method for identifying interference shown in the first embodiment of the present invention. The first embodiment of the present invention provides an electromagnetic input method for identifying interference, the following steps:

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 in matching the writing board 10, and the writing board 10 is provided. (10) includes step S01 including 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;

By installing the transmission circuit 15, which is a high-resistance output circuit or a high-level output circuit, the antenna plate 11 is completely scanned without transmitting a signal, and if the presence of an electromagnetic response signal is detected, the electromagnetic response signal is detected. The signal is determined to be an interference signal, and the central processing unit 13 does not upload coordinate data obtained according to the electromagnetic response signal or uploads the interference code to the master computer. If it is detected that the electromagnetic sensitivity signal does not exist, step S02 is determined to be a non-interfering signal and is scanned normally.

The principle by which step S02 identifies interference is as follows. The transmission circuit 15 is installed 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. Since the signal cannot be received, the corresponding electromagnetic response signal cannot be generated. If an electromagnetic response signal is detected after full scanning, it can be determined that the electromagnetic response signal is an interference signal because the electromagnetic response signal is a signal transmitted from an external circuit board.

Second embodiment

Combining FIG. 4, FIG. 4 is a flowchart of an electromagnetic input method for identifying interference provided by the second embodiment of the present invention, and the electromagnetic input method for identifying interference provided by the second embodiment of the present invention is the same as that of the first embodiment. There are the following differences from the example: 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 greater than the estimated value, 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 to be a non-interfering signal, so the coordinate data is uploaded, where the estimated value is set according to the reporting rate and the experience value, further comprising step S03.

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

Here, the average compensation method is performed by dividing the coordinate data (X ₁ , Y ₁ ) before the interference signal appears and the coordinate data (X ₂ , Y ₂ ) after the interference signal appears when a single distributed interference signal is identified. By taking the average value, we obtain the processed data (X, Y), where X=(X ₁ +X ₂ )/2, Y=(Y ₁ +Y ₂ )/2.

The trend compensation method is used when a non-dispersed wide pulse interference signal is identified, m group coordinate data (X ₁ , Y ₁ ), (X ₂ , Y ₂₎ . . . before the interference signal appears. … (X _m , Y _m ) is calculated as an n-step function and is the processed data get

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

Third embodiment

Combining Figure 5, Figure 5 is a flow chart of the electromagnetic input method for identifying interference provided by the third embodiment of the present invention, and the electromagnetic input method for identifying interference provided by the third embodiment of the present invention is the same as the first embodiment. There are the following differences from the example: 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, step S02 is entered at a preset fixed time interval, and interference identification is performed once, where, The preset fixed time zone further includes step S04, which is established according to the reporting rate and experience value.

Unlike the prior art, the electromagnetic input device 100 for identifying interference provided by the present invention is installed with the transmission circuit 15, which is a high-resistance output circuit or a high-level output circuit, so that the antenna plate 11 generates a signal. After the entire scan is performed without transmitting, it is determined whether an interference signal exists. If there is signal interference when the passive electromagnetic pen 30 writes on the writing board 10, the interference signal can be processed to obtain the processed data. Therefore, without affecting the reporting rate of the passive electromagnetic handwriting, the problem of electromagnetic handwriting being subject to electromagnetic interference can be solved, and the fluency and accuracy of electromagnetic handwriting can be improved.

The above content is only an embodiment of the present invention, and a person skilled in the art may make improvements without departing from the creative concept of the present invention, but this falls within the scope of protection of the present invention.

Claims (9)

delete delete delete In an electromagnetic input method for identifying interference,
The following steps,
Step S01 providing a writing board and a passive electromagnetic pen used in matching the writing board, wherein the writing board includes an antenna plate, a central processing unit connected to the antenna plate, and a transmission circuit connected to the central processing unit. ;
By installing the transmitting circuit, which is a high-resistance output circuit or a high-level output circuit, the antenna plate performs a full scan without transmitting a signal, and then determines whether an interference signal exists, and if the presence of an electromagnetic sensitive signal is detected, it interferes. Judging by the signal and not uploading the coordinate data, or uploading the interference sign to the master computer; Step S02 in which, if it is detected that the electromagnetic sensitivity signal does not exist, it is judged to be a non-interference signal and scanned normally; and
When the position coordinates of the passive electromagnetic pen placed on the writing board are partially scanned, if the uploaded coordinate data is greater than the estimated value, 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 to be a non-interfering signal, so the coordinate data is uploaded, where the estimated value is set according to the reporting rate and experience value. Characterized in comprising a step S03; Electromagnetic input method to identify interference. According to paragraph 4,
After step S02,
When the position coordinates of the passive electromagnetic pen placed on the writing board are partially scanned, 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 An electromagnetic input method for identifying interference, further comprising step S04 installed according to the reporting rate and experience value. According to clause 4 or 5,
After the interference is identified, upload coordinate data if the interference signal is identified as not present; An electromagnetic input method for identifying interference, wherein when the presence of an interference signal is identified, the interference signal is processed and then processed data is uploaded, and the processed data is coordinate data after the interference signal is processed. According to clause 6,
An electromagnetic input method for identifying interference, wherein the specific method for processing the interference signal includes average compensation and trend compensation. In clause 7,
The average compensation method is performed by calculating the average value of the coordinate data (X ₁ , Y ₁ ) before the interference signal appears and the coordinate data (X ₂ , Y ₂ ) after the interference signal appears, when a single dispersed interference signal is identified. By taking the processed data (X, Y), where X=(X ₁ +X ₂ )/2, Y=(Y ₁ +Y ₂ )/2, Electromagnetic input method. In clause 7,
The trend compensation method is used when a non-dispersed wide pulse interference signal is identified, m group coordinate data (X ₁ , Y ₁ ), (X ₂ , Y ₂₎ . . . before the interference signal appears. … (X _m , Y _m ) is calculated as an n-step function to obtain the processed data (X, Y), where: , where m and n are both integers greater than 0.