KR100835181B1 - Powerless wireless keyboard system and method using passive rfid - Google Patents

Abstract

A powerless wireless keyboard system using passive RFID(Radio Frequency IDentification) and an operation method thereof are provided to enhance the efficiency and convenience in using a wireless keyboard by realizing the powerless system based on passive RFID communication between a computer main unit and the wireless keyboard. A pressure sensor(27) generates a micro current from a small piezoelectric element not using power by using pressure pressing a key. An RFID sensor tag(26) returns a signal value preset to the key when the pressure sensor generates an electric signal. A computer main unit connector(21) converts the signal returned from the RFID sensor tag into the signal suitable for a computer keyboard interface and transmits the converted signal to a computer main unit(20). The computer main unit connector includes an RFID reader(23) using a passive RFID reader and transmitting the signal returned from the RFID sensor tag without conversion, a computer communicator(22) converting the signal received from the RFID reader into the signal suitable for the computer keyboard interface and transmitting the converted signal to the computer main unit, and a synchronizer(24) synchronizing data communicated between the RFID reader and the computer communicator.

Description

Powerless wireless keyboard system and method using passive RFID {Passive wireless keyboard system and method using passive RFID}

1 is a block diagram of a conventional wireless keyboard system,

2 is a configuration diagram of an embodiment of a wireless powerless wireless keyboard system using a passive RFID according to the present invention;

3A is a flowchart illustrating an operation of a wireless keyboard constituting a non-powered wireless keyboard system using a passive RFID according to the present invention;

3B and 3C are flowcharts illustrating an operation of a computer main body connecting unit configuring a powerless wireless keyboard system using a passive RFID according to the present invention.

* Explanation of symbols for the main parts of the drawings

20: computer body 21: computer body connection portion

22: computer communication processing unit 23: RFID reader unit

24: synchronizer 25: wireless keyboard

26: RFID sensor tag 27: pressure sensor

The present invention relates to a non-powered wireless keyboard system using passive RFID (Radio Frequency IDentification) and a method of operating the same. More particularly, in order to improve mobility between a computer main body and an input device keyboard, non-powered keyboard using passive RFID The present invention relates to a non-powered wireless keyboard system using a passive RFID and a method of operating the same for improving the efficiency and convenience of using a wireless keyboard.

Existing wireless keyboard system that can be connected to or separated from the remote control unit according to the user's needs, the existing wireless keyboard system has an infrared transceiver, a keyboard unit for digitizing the information corresponding to the data entered by the user, the user remote control button And a remote control unit for digitizing information corresponding to the recognized key according to key in. However, this can only be used by connecting or disconnecting the wireless keyboard unit according to the needs of the user, there is a problem that can not eliminate the inconvenience of using a battery in the existing wireless keyboard.

1 is a block diagram of a conventional wireless keyboard system.

As shown in FIG. 1, the conventional wireless keyboard system includes a wireless receiver 11 connected to a computer main body 10, and a wireless keyboard 12, and various inputs from the wireless keyboard 12 are infrared or It is transmitted to the radio receiver 11 according to the radio communication 14 using RF. The wireless receiving unit 11 is connected to the computer main body 10 by wires 13 in a standard such as USB or PS2 and transmits the key value transmitted from the wireless keyboard 12 to the computer main body 10. Since the conventional wireless keyboard system wirelessly communicates between the wireless keyboard 12 and the wireless receiving unit 11, power is required, respectively, and the wireless receiving unit 11 is supplied from the computer body 10 onto the wired connection 13. Although a power source is used, the wireless keyboard 12 is separated from the computer main body 10 to use a battery as a separate power source.

That is, since the wireless keyboard is separated from the computer main body, a separate power source is required due to the characteristics of the wireless communication method used, and power is supplied using a battery.

The wireless keyboard consumes a lot of battery power as keyboard input becomes more frequent, and it is not convenient to frequently change the battery, and it is not clear whether the communication failure or the battery is low when the connection to the computer body is disconnected. There is a problem.

The present invention has been proposed to solve the above problems, and by using passive RFID in wireless communication used between the wireless keyboard as an input device and the computer main body in the computer system, the power-saving efficiency and convenience of using the wireless keyboard are realized. An object thereof is to provide a non-powered wireless keyboard system using passive RFID and a method of operating the same.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

The system of the present invention for achieving the above object, in a non-powered wireless keyboard system using a passive RFID (Radio Frequency IDentification), using a small piezoelectric element that does not use a power source to generate a minute current by the pressure of pressing a key Pressure sensor; An RFID sensor tag for conveying a signal value for a predetermined key as an electrical signal is generated from the pressure sensor; And wireless connection means for interpreting the signal returned from the RFID sensor tag, converting it to fit the computer keyboard interface, and transmitting the converted signal to the computer body.

On the other hand, the method of the present invention for achieving the above object, in the method of operation of a wireless power-free wireless keyboard system using passive RFID (Radio Frequency IDentification), RFID as the electrical signal is received from the pressure sensor for detecting the pressure of each key Conveying a signal value for a corresponding key promised in advance through a sensor tag to an RFID reader unit; Transmitting the signal returned from the RFID sensor tag to the computer communication processor according to the clock of the synchronizer without conversion; And interpreting the signal transmitted to the computer communication processor, converting the signal to match the computer keyboard interface, and transmitting the signal to the computer main body.

As described above, the present invention solves the battery usage problem of the wireless keyboard by using passive RFID, and the computer communication function related to data input is moved to the computer main body connection connected to the computer main body to simplify the keyboard, and the computer main body connection part By enabling the computer built-in has the advantage of increasing the convenience of using the computer.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of an embodiment of a wireless powerless wireless keyboard system using a passive RFID according to the present invention.

As shown in FIG. 2, the wireless powerless wireless keyboard system using the passive RFID according to the present invention senses the pressure of each key and generates a current, and generates an electrical signal corresponding to each key according to the communication scheme of the passive RFID. A wireless keyboard 25 for transmitting to the computer body connecting portion 21, and a computer body connecting portion for interpreting a signal transmitted through the wireless keyboard 25, converting the signal to match the computer keyboard interface, and transmitting the same to the computer body 20. 21 is provided.

Here, the wireless keyboard 25 uses a small piezoelectric element, which does not use a power source, to generate a minute current by the pressure of pressing a key, and the RFID when the electrical signal arrives from the pressure sensor 27. And an RFID sensor tag 26 for conveying a signal value for a corresponding key promised to the reader unit 23 in advance, and when the RFID sensor tag 26 returns a signal value, an RFID reader according to a passive RFID scheme. The electromagnetic wave transmitted from the unit 23 is modulated to transmit use and carrier signals to the power supply.

On the other hand, the computer main body connecting portion 21 uses a passive RFID reader, has a capacity to detect and receive at least 120 tag signals, and the computer communication processing portion 22 without converting the signal returned from the RFID sensor tag 26. RFID reader unit 23 for transmission to the computer, computer communication processor 22 for transmitting the signal transmitted from the RFID reader unit 23 to the computer main body 20 by converting the signal to match the computer keyboard interface, And a synchronization unit 24 for performing data synchronization in communication between the RFID reader unit 23 and the computer communication processing unit 22.

In addition, the computer main body connection unit 21 can be implemented to be embedded according to the internal standard of the computer main body 20, and adjusts the signal strength between the RFID reader and the tag so that only near can be reached so that there is no interference between adjacent computers. .

As described above, the communication 28 by the passive RFID scheme is adopted between the wireless keyboard 25 and the computer main body connecting portion 21. That is, the RFID sensor tag 26 receives the electromagnetic wave transmitted from the RFID reader unit 23 and rectifies the electromagnetic wave to use as its own power source. This is called passive RFID, and low frequency band products and 900MHz band products are commercially available. In addition, in the case of the pressure sensor 27, a small piezoelectric element has been put to practical use, and a sensor tag has also been released or is currently being developed. On the other hand, the computer main body connecting portion 21 and the computer main body 20 have the same standard as the wireless receiving unit in the existing wireless keyboard system using an existing connection standard (USB, etc.). The computer main body connecting portion 21 can also be incorporated in a motherboard or the like.

The operation method of the wireless powerless wireless keyboard system using the passive RFID according to the present invention having the structure as described above will be described in detail as follows.

3A is a flowchart illustrating an operation of a wireless keyboard constituting a non-powered wireless keyboard system using a passive RFID according to the present invention.

First, the RFID sensor tags 26 embedded in each key receive periodic (or polling) signals from the RFID reader unit 23 located in the computer main body connection unit 21 and use them as their power sources through rectification. After receiving the key input signal from the pressure sensor 27 (302) and receiving the signal (302), the signal promised to the RFID reader unit (23) of the electromagnetic wave transmitted from the RFID reader Transmits a modulated magnitude or phase (303), and waits for no signal from the pressure sensor (301) (the existing computer keyboard consists of 106 common keys and about 10 special function keys per keyboard). In the present invention, a pressure sensor 27 and an RFID sensor tag 26 are embedded in each of these keys, and their signals are received by an RFID reader 23 located at the computer main body connection 21. More than 120 passive RFID technologies To communicate with each of the built-in RFID sensor tag with the key has reached a sufficient level.).

3B and 3C are flowcharts illustrating an example of an operation of a computer main body connection unit constituting a wireless powerless wireless keyboard system using a passive RFID according to the present invention.

As shown in Figs. 3B and 3C, the RFID reader unit 23 located at the computer main body connecting unit 21 generates a prescribed electromagnetic wave and transmits the specified electromagnetic wave to each RFID sensor tag 26 from the RFID sensor tag 26. Wait for input of (311). At this time, the RFID reader unit 23 is in a state of generating an electromagnetic wave and detecting a reception (polling state for signal detection) according to a predetermined number of electromagnetic waves generated per unit time in order to receive a valid signal. In this state, when the response from the RFID sensor tag 26 is received (312), it is transmitted to the computer communication processing unit 22 in accordance with the clock of the synchronization unit 24 located at the computer body connection unit 21 (313). The transition back to the detection state (311).

On the other hand, the computer communication processor 22, which has received the signal from the RFID reader unit 23 (322) while waiting for signal input (321), checks whether the signal is control data or text data (323). It then combines the received data (324), translates it to a signal defined in the computer input standard interface (325), transmits it to the computer body (20) (326), and then returns to standby (321).

As a result of the check 323, if it is not the control data, it is translated into a signal defined by the computer input standard interface (325), transmitted to the computer main body (20) (326), and returns to the standby state (321).

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily carried out by those skilled in the art to which the present invention pertains will not be described in detail any further.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

As described above, the present invention solves the problem of using a wireless keyboard by using a passive RFID in which a RFID reader, which is connected or wired to a computer main body, receives power from the computer main body and transmits the power to an RFID sensor tag. In addition, the computer communication function related to data input may be moved to a computer main body connecting part connected to the main body of the computer, thereby simplifying the keyboard, and enabling computer internalization of the main body connecting part.

Accordingly, the present invention has the effect of solving the problem of determining the battery replacement time of the wireless keyboard, the difficulty of diagnosing whether the problem of the battery when disconnected from the computer main body, the burden of using the battery.

Claims (9)

delete In a non-powered wireless keyboard system using passive RFID (Radio Frequency IDentification), A pressure sensor for generating a minute current by the pressure of pressing a key by using a small piezoelectric element that does not use a power source; An RFID sensor tag for conveying a signal value for a predetermined key as an electrical signal is generated from the pressure sensor; And Radio access means for interpreting the signal returned from the RFID sensor tag, converts it to match the computer keyboard interface and transmits it to the computer body Powerless wireless keyboard system using a passive RFID comprising a. The method of claim 2, The wireless connection means, An RFID reader unit that uses a passive RFID reader, has a capacity to detect and receive a predetermined tag signal, and transmits the signal carried from the RFID sensor tag without conversion; A computer communication processor for interpreting the signal transmitted from the RFID reader unit, converting the signal to match the computer keyboard interface, and transmitting the signal to the computer main body; And Synchronizer for performing data synchronization in the communication between the RFID reader unit and the computer communication processing unit Powerless wireless keyboard system using a passive RFID comprising a. The method of claim 3, wherein The wireless connection means, Built-in according to the internal standard of the computer main body, wireless power supply system using passive RFID using a passive RFID, characterized in that to adjust the signal strength between the RFID reader unit and the tag so as to reach a short distance so that there is no interference between adjacent computers. The method of claim 3, wherein The RFID reader unit, In order to receive a valid signal, the electromagnetic wave is generated and detected according to a predetermined number of electromagnetic wave generations per unit time, and when a response is received from the RFID sensor tag, the electromagnetic signal is transmitted to the computer communication processor in accordance with the clock of the synchronization unit. Powerless wireless keyboard system using passive RFID. The method of claim 3, wherein When the RFID sensor tag carries a signal value, the wireless power supply system using a passive RFID using a passive RFID, characterized in that by modulating the electromagnetic wave sent from the RFID reader unit in accordance with the passive RFID scheme to transmit and use the carrier signal. In the method of operation of a wireless powerless keyboard system using passive RFID (Radio Frequency IDentification), As the electrical signal is received from the pressure sensor that senses the pressure of each key, returning a signal value for the corresponding key promised in advance through the RFID sensor tag to the RFID reader unit; Transmitting the signal returned from the RFID sensor tag to the computer communication processor according to the clock of the synchronizer without conversion; And Interpreting the signal transmitted to the computer communication processor, converting the signal to match the computer keyboard interface, and transmitting the signal to the computer main body; Operation method of a non-powered wireless keyboard system using a passive RFID comprising a. The method of claim 7, wherein When the RFID sensor tag conveys a signal value, an operation of a non-powered wireless keyboard system using a passive RFID, modulating the electromagnetic wave sent from the RFID reader unit according to a passive RFID scheme, and transmitting a use and carrier signal as a power source Way. The method according to claim 7 or 8, The RFID reader unit, In order to receive a valid signal, the electromagnetic wave is generated and detected according to a predetermined number of electromagnetic wave generations per unit time, and when a response is received from the RFID sensor tag, the electromagnetic signal is transmitted to the computer communication processor in accordance with the clock of the synchronization unit. Operation method of a non-powered wireless keyboard system using passive RFID.

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