KR19980082516A - Infrared signal transmission and direction control method for data communication - Google Patents

Abstract

The present invention relates to a method for controlling the direction of transmission and reception of infrared signals for data communication, eliminating the inconvenience of a user manipulating the directions and positions of the infrared signal transmitter and receiver by hand, and automatically adjusting the infrared signal of the transmitter to the direction of the receiver. In the infrared signal transmitting and receiving direction control method applied to a computer having an infrared direction changing unit for changing the direction of the infrared signal to transmit and receive from the outside, the process of determining whether the infrared transmission and reception is made through the infrared direction changing unit ; Controlling the infrared direction changing unit to rotate the infrared transmission and reception direction by an angle when the infrared signal is not transmitted and received; And if it is determined that the infrared transmission and reception is performed in the above process, the infrared signal transmission and reception direction control method comprising the step of performing a predetermined infrared transmission and reception.

Description

Infrared signal transmission and direction control method for data communication

The present invention relates to a method for controlling transmission and reception of infrared signals for data communication, and more particularly, to a computer system for wirelessly performing data communication between a computer and its peripherals or computers and various electronic devices using infrared rays. The present invention relates to an infrared signal transmission and reception direction control method for data communication, which can automatically adjust the transmission and reception direction of an infrared signal between targets.

In addition to the exchange of data between a computer and another computer, data transmission and communication between a computer and a peripheral device such as a printer and a keyboard can be used to wirelessly communicate between the computer and the peripheral device using infrared rays containing specific data. Device is being developed.

Hereinafter, an infrared transceiver for such data communication will be described with reference to the accompanying drawings. 1 shows a portable computer having an infrared signal transmission and reception means, and FIG. 2 is a functional block diagram illustrating an infrared signal transmission and reception process. As shown in FIG. 1, a portable computer 10 having an infrared signal transmitting and receiving means generally includes a keyboard 12 for inputting data desired by a user, a main body 15 including a system and forming a lower case; It consists of the display part 13 and infrared transmitting / receiving part 11 which mounted display apparatuses, such as LCD. As shown in FIG. 2, the main body unit 15 is provided with a central processing unit CPU 20, an input / output controller 21, and an infrared ray transmitting / receiving unit 22 for processing an input signal. In FIG. 2, reference numerals 31 and 32 denote input / output controllers and infrared transmitting / receiving means of other peripheral devices 30 communicating with the portable computer 10, respectively.

Referring to the operation of the portable computer including the conventional infrared transmission and reception means as follows. First, when a user issues a predetermined command through the keyboard 12, the command is processed by the CPU 20. When the result processed by the CPU 20 needs to control another peripheral device 30 having an infrared signal receiver, the control signal is input to the input / output controller 21, and the input / output controller 21 is an infrared transmitter / receiver. Control 22 to output the corresponding infrared signal. As shown in FIG. 1, the generated infrared signal is emitted to the infrared ray-receivable area A-A 'through the infrared ray transceiver 11. At this time, when another peripheral device having an infrared signal receiving unit is in the area A-A, the signal is received through the infrared transmitting and receiving unit 31, and outputs it through the input / output controller 31 to control the peripheral device 30.

However, in the data communication using the infrared rays, the infrared ray transmitting and receiving unit 32 of the peripheral device 30 receiving the data must be within the infrared signal area A-A 'emitted from the portable computer 10 to receive the infrared signal. In order to match this direction, the user must manually manipulate the direction and position of the transmitter and the receiver. Therefore, in the above-described prior art, it is inconvenient for the user to manipulate the infrared transmission / reception direction by hand in precisely aligning the transmitter and the receiver, and it is easy to adjust the direction at a close distance, but at a distance of more than 1 meter, the direction of both sides is considerable. There was a problem that must be taken care of.

Therefore, the present invention solves the above problems, and in order to eliminate the inconvenience of the user to manipulate the direction and position of the infrared signal transmitter and receiver by hand, the infrared signal transmission and reception for automatically adjusting the infrared signal of the transmitter to the direction of the receiver It is an object to provide a method.

1 shows a portable computer having an infrared signal transmitting and receiving device,

2 is a functional block diagram illustrating an infrared signal transmission and reception process,

3 is a functional block diagram of an infrared signal transmission and reception apparatus for implementing an infrared signal transmission and reception direction control method of the present invention,

Figure 4 is a cross-sectional view of the infrared direction switching unit used in the infrared signal transmission and reception direction control method of the present invention,

5 is a perspective view of an infrared direction changing unit used in the infrared signal transmission and reception direction control method of the present invention;

6 is a flowchart of a method for transmitting and receiving infrared signals according to an embodiment of the present invention.

7 is a flowchart illustrating a method for transmitting and receiving infrared signals according to another embodiment of the present invention.

8 is a flowchart of a method for transmitting / receiving infrared signals according to still another embodiment of the present invention;

9 illustrates an infrared signal region that may be formed by an infrared signal transmission / reception method of the present invention.

10 is a view showing an area capable of transmitting and receiving infrared rays among the infrared signal areas that may be formed by the method for transmitting and receiving infrared signals of the present invention.

FIG. 11 is a diagram illustrating transmission and reception sensitivity of an infrared signal according to a position of an infrared direction switch in the infrared signal transmission / reception method of the present invention.

Explanation of symbols on the main parts of the drawings

10: portable computer 11: infrared transceiver

12: keyboard 13 display unit

15 main body 16 CPU

21, 31, 50: input and output controller 22, 32: infrared transceiver

30: peripheral device 51: infrared signal receiver

52: infrared signal transmitter 53, 54: prism

55 lens unit 60 infrared direction switching unit

61: motor 62: motor control unit

71: toothed gear 72: drive gear

In order to achieve the above object, the present invention provides an infrared signal transmission and reception direction control method applied to a computer having an infrared direction switching unit for changing the direction of the infrared signal to transmit and receive from the outside, the infrared transmission and reception is made through the infrared direction switching unit Determining support; Controlling the infrared direction changing unit to rotate the infrared transmission and reception direction by an angle when the infrared signal is not transmitted and received; And if it is determined that the infrared transmission and reception is performed in the above process, the infrared signal transmission and reception direction control method comprising the step of performing a predetermined infrared transmission and reception.

In addition, the present invention is an infrared signal transmission and reception direction control method applied to a computer having an infrared direction switching unit for changing the direction of the infrared signal to transmit and receive from the outside, the direction of the infrared signal until the infrared signal is transmitted and received Controlling the infrared ray direction changing unit to be; Storing a position (first position) where infrared transmission / reception is performed in the process; Controlling the infrared direction changing unit to change the direction of the infrared signal until transmission and reception of the infrared signal is stopped; Storing a position (second position) at which infrared transmission and reception is stopped in the process; And controlling the infrared direction changing unit so that the direction of the infrared signal is located between the first position and the second position.

Hereinafter, with reference to the accompanying drawings will be described in more detail the present invention.

As shown in FIG. 3, the infrared transceiver for data communication according to the present invention includes an input / output controller 50, an infrared signal receiver 51, an infrared signal transmitter 52, and an infrared direction switch 60. In this case, the infrared direction switching unit 60 includes a lens unit 55 and a prism 53. The apparatus further includes a motor 61 and a motor controller 62 for driving the prism 53. The operation principle of the prism 53 according to the embodiment of the present invention is shown in FIGS. 4 and 5. As shown in FIG. 4, the infrared signal region A-A 'generated from the light emitting diode 70, which is an infrared signal generator, is refracted to the region B-B' through the prism 54, and the infrared signal thus refracted is a lens. Through the portion 55, it diffuses into the C-C 'region. In one embodiment of the present invention, a toothed gear 71 is installed around the prism 54 to rotate the prism 54. The toothed gear 71 is driven by a drive gear 72 connected to the motor 61 as shown in FIG. When the prism 54 is rotated by such a device, the refractive region B-B 'of the infrared signal is changed so that the peripheral device can receive the infrared signal. In the present embodiment, the prism 53 is used as the infrared signal infrared direction changing unit 60, but other components capable of refracting the infrared signal may be used in the same manner as the prism.

Hereinafter, an embodiment of an infrared signal transmission and reception direction control method for data communication of the present invention will be described in detail with reference to FIG. 6. The input / output controller 50 generates infrared signal transmission data for driving a peripheral device according to a user's command and outputs the infrared signal transmission data to the infrared signal generating means 52. The infrared signal generating means 52 generates an infrared transmission signal according to the infrared signal transmission data and outputs the infrared transmission signal to a peripheral device (not shown) through the prism 53. At this time, the motor controller 62 initializes the rotation count value that varies depending on the degree of rotation of the prism 54 to 0 to set the initial position of the prism 54 (S1).

Next, it is determined whether the infrared signal is transmitted and received through the prism 54 (S2). The determination process will be described in detail as follows. When the peripheral device receives the infrared transmission signal, the peripheral device performs a task according to the infrared transmission signal and feeds the result back to the infrared transceiver for data communication of the present invention using the infrared signal. This feedback signal is for informing the infrared transceiver of the present invention that the peripheral device has received the infrared transmission signal. Accordingly, depending on the characteristics of the peripheral device, when receiving the infrared transmission signal, a separate reception completion signal may be generated and fed back to the infrared signal transmission and reception apparatus of the present invention. The signal fed back is received by the infrared signal receiving means 51 of the infrared signal transmitting and receiving apparatus of the present invention. When such a signal is received, the input / output controller 50 determines that the signal transmission is completed. In this case, the motor control unit 62 does not drive the motor 61.

However, when the infrared signal is output in the infrared transceiver device of the present invention but the peripheral device is not located in the area of the output infrared signal, and the peripheral device does not receive the infrared transmission call, the infrared signal receiving means 51 receives the feedback signal. I can't. When the infrared signal is not transmitted or received in this manner, the motor controller 62 controls the motor 61 to rotate the prism 53 by 45 ° and increases the rotation count value of the prism by one (S3). Next, it is determined whether the rotation count value of the prism is 8 or less (S4), and it is again determined whether the infrared signal is transmitted and received (S2). At this time, when the transmission and reception of the infrared signal is made, the motor control unit 62 stops the operation of the motor 61 and continues the transmission and reception of the infrared signal (S11). The motor 61 is controlled to rotate 45 ° and the rotation count value of the prism is increased by one. This process continues until the transmission and reception of the infrared signal is made. Through the above process, when the infrared signal is not transmitted and received, when the rotation count value of the prism reaches eight times, the user can check whether the portable computer is in a position where the infrared signal cannot be transmitted and received. The message is output (S5). After this process, the process may be repeated from the beginning according to a user's command (S6).

In the present embodiment, when a signal for driving the motor 61 is output from the motor control unit 62, the motor 61 rotates the prism 54 by 360 degrees in one unit. It will be apparent to those skilled in the art that the invention is not limited to only angles. When the prism 54 is rotated 360 degrees, the infrared signal passing through the prism 54 is also switched to the entire 360 degree direction. During the rotation, when the directions of the infrared transmitter and the receiver correspond to each other, the motor controller 62 The motor 60 is stopped by the output stop signal. 9 shows the infrared signal region thus formed.

7 is a flowchart of a method for transmitting / receiving an infrared signal according to another embodiment of the present invention, which is used by a user by placing a transceiver of a peripheral device at the center of an infrared signal spread by a prism 54. Provided is a method for enabling continuous communication even when the portable computer 10 or a peripheral device moves to some extent. As shown in FIG. 7, first, it is determined whether an infrared signal is transmitted and received through the prism 54 (S100). Next, when the infrared signal is not transmitted or received in step S100, the prism 54 is continuously rotated (S105). When the infrared signal is transmitted and received, the prism 54 when the motor control unit 62 starts to transmit and receive. The transmission / reception time point X, which is the rotational angle of N, is stored (S110). After that, the motor control unit 61 rotates the prism 54 again until the transmission and reception of the infrared signal is stopped (S120, 130). Next, the motor control unit 62 stores the rotation angle Y of the prism 54 when the transmission and reception is stopped (S140), and drives the motor 61 again to rotate the rotation angle of the prism 54 from X to Y. To be in between, preferably (X + Y) / 2 (S150). In this way, the position of the infrared receiver is at the center of the infrared signal diffused by the prism 54, so that even if the position of the receiver is moved to some extent, transmission and reception of the infrared signal is smooth. When the position of the infrared transceiver is in the center of the infrared signal, the motor 61 is stopped, transmission and reception of the infrared signal are continued (S160), and the operation of the motor controller 62 is terminated (S170).

8 is a flowchart of an infrared signal transmission / reception method according to another embodiment of the present invention. In this embodiment, when the infrared signal is initially received in the embodiment, calculation of point X at which transmission and reception starts to occur is performed. It is to prevent the point of error on. As shown in FIG. 8, it is first determined whether an infrared signal is transmitted and received through the prism 54 (S200). Next, when the infrared signal is transmitted and received in step S200, the prism 54 is continuously rotated (S210), and the prism is rotated to a position where the infrared signal is not transmitted or received (S220). After that, in order to find a point (X) at which transmission and reception began to be made, it is determined whether transmission and reception are possible (S230), and the prism 54 is rotated again (S220). When transmission and reception are started in this manner, the transmission and reception start point X, which is the rotation angle of the prism 54, is stored (S240). After that, the motor control unit 61 rotates the prism 54 again until the transmission and reception of the infrared signal is stopped (S250, 260). Next, the motor control unit 62 stores the rotation angle Y of the prism 54 when the transmission and reception is stopped (S270), and drives the motor 61 again to rotate the rotation angle of the prism 54 from X to Y. To be in between, and preferably (X + Y) / 2 (S280). In this way, the position of the infrared receiver is at the center of the infrared signal diffused by the prism 54, so that even if the position of the receiver is moved to some extent, transmission and reception of the infrared signal is smooth. When the position of the infrared transceiver is in the center of the infrared signal, the motor 61 is stopped, transmission and reception of the infrared signal is continued (S290), and the operation of the motor controller 62 is terminated (S300). FIG. 10 is a view illustrating that an area 1 between the transmission start point X and the transmission stop point Y is an area capable of transmitting / receiving infrared rays among the infrared signal areas formed by the infrared signal transmission / reception method of the present invention. 11 is a diagram illustrating transmission and reception sensitivity of an infrared signal according to the position of the infrared direction changer in the infrared signal transmission / reception method of the present invention. X + Y) / 2 indicates maximum sensitivity, and again decreases sensitivity, indicating that transmission and reception are not performed at the transmission breakpoint (Y).

The method of the present invention can be similarly applied to an infrared receiver. That is, as in the case of transmission, even when receiving, if the direction of the infrared signal does not form an appropriate angle with the receiver, the receiver cannot correctly receive the infrared signal. In this case, the prism 54 and the motor controller 62 are provided in front of the receiver, and the prism 54 is rotated by the motor controller 62 to change the incident angle of the infrared signal entering the receiver to receive the infrared signal. do. Even in this case, the motor 60 is driven until the infrared signal directions of the transceiver unit coincide, and the receiver unit and the transmitter unit may be properly arranged to refract both the infrared transmission signal and the infrared reception signal by one refraction means.

In the present invention, the peripheral device includes a printer, a computer, a TV, a monitor, and the like, all of which can be driven wirelessly by an infrared signal, and the infrared transceiver for data communication of the present invention is directly controlled by a user. In addition to devices such as portable computers, personal computers, and the like, the device may be installed in the peripheral device, so that infrared transmission and reception are possible without being affected by the position and angle of the device and the peripheral device controlled by the user.

Therefore, the present invention eliminates the inconvenience of the user directly operating the device in order to match the infrared signal direction of both sides of the transmission and reception in the computer for transmitting and receiving infrared data, and automatically refracts the infrared signal to match the infrared signal direction of the transceiver In addition, it is easy to use and accurate in transmitting and receiving infrared signal. In particular, the present invention eliminates the inconvenience that users of low age have to manually operate the system to adjust the direction of the wireless infrared signal.

Claims (5)

In the infrared signal transmission and reception direction control method applied to a computer having an infrared direction switching unit for changing the direction of the infrared signal to transmit and receive from the outside, Determining whether infrared transmission / reception is made through the infrared direction switching unit; Controlling the infrared direction changing unit to rotate the infrared transmission and reception direction by an angle when the infrared signal is not transmitted and received; And If it is determined that the infrared transmission and reception is performed in the process, infrared signal transmission and reception direction control method comprising the step of performing a predetermined infrared transmission and reception. The method of claim 1, If the infrared signal transmission and reception is not made even after a predetermined angle in the process, the infrared signal transmission and reception direction control method, characterized in that for outputting. In the infrared signal transmission and reception direction control method applied to a computer having an infrared direction switching unit for changing the direction of the infrared signal to transmit and receive from the outside, Controlling the infrared direction changing unit to change the direction of the infrared signal until transmission and reception of the infrared signal is made; Storing a position (first position) where infrared transmission and reception are performed in the first process; Controlling the infrared direction changing unit to change the direction of the infrared signal until transmission and reception of the infrared signal is stopped; Storing a position (second position) at which infrared transmission and reception is stopped in the process; And And controlling the infrared direction changing unit such that the direction of the infrared signal is located between the first position and the second position. The method of claim 3, And controlling the infrared direction changing unit so that the direction of the infrared signal becomes (first position + second position) / 2 in the process of controlling the direction of the infrared signal to be located between the second position and the first position. Infrared signal transmission and reception control method. The method of claim 4, wherein It is determined whether the infrared signal is transmitted and received through the infrared direction changing unit before the above steps, and if the infrared signal is transmitted and received, the infrared signal further has a process of rotating the infrared direction changing unit so as not to transmit and receive the infrared signal. How to send and receive.